/* soapStub.h Generated by gSOAP 2.7.8c from ../../Samples/gSoapGeneratedCode/AmtWsdlInterface.h Copyright (C) 2000-2006, Robert van Engelen, Genivia Inc. All Rights Reserved. This part of the software is released under one of the following licenses: GPL, the gSOAP public license, or Genivia's license for commercial use. */ #ifndef soapStub_H #define soapStub_H #include #include "stdsoap2.h" /******************************************************************************\ * * * Enumerations * * * \******************************************************************************/ #ifndef SOAP_TYPE_sai__UserAclRealmType #define SOAP_TYPE_sai__UserAclRealmType (552) /* sai:UserAclRealmType */ enum sai__UserAclRealmType {sai__UserAclRealmType__0 = 0, sai__UserAclRealmType__1 = 1, sai__UserAclRealmType__2 = 2, sai__UserAclRealmType__3 = 3, sai__UserAclRealmType__4 = 4, sai__UserAclRealmType__5 = 5, sai__UserAclRealmType__6 = 6, sai__UserAclRealmType__7 = 7, sai__UserAclRealmType__8 = 8, sai__UserAclRealmType__9 = 9, sai__UserAclRealmType__10 = 10, sai__UserAclRealmType__11 = 11, sai__UserAclRealmType__12 = 12, sai__UserAclRealmType__13 = 13, sai__UserAclRealmType__14 = 14, sai__UserAclRealmType__15 = 15, sai__UserAclRealmType__16 = 16, sai__UserAclRealmType__17 = 17, sai__UserAclRealmType__18 = 18, sai__UserAclRealmType__19 = 19}; #endif #ifndef SOAP_TYPE_sai__RsaKeyEncodingType #define SOAP_TYPE_sai__RsaKeyEncodingType (557) /* sai:RsaKeyEncodingType */ enum sai__RsaKeyEncodingType {sai__RsaKeyEncodingType__30 = 30, sai__RsaKeyEncodingType__31 = 31}; #endif #ifndef SOAP_TYPE_sai__RsaCertificateEncodingType #define SOAP_TYPE_sai__RsaCertificateEncodingType (558) /* sai:RsaCertificateEncodingType */ enum sai__RsaCertificateEncodingType {sai__RsaCertificateEncodingType__10 = 10, sai__RsaCertificateEncodingType__11 = 11}; #endif #ifndef SOAP_TYPE_sai__RngKeyEncodingType #define SOAP_TYPE_sai__RngKeyEncodingType (559) /* sai:RngKeyEncodingType */ enum sai__RngKeyEncodingType {sai__RngKeyEncodingType__20 = 20, sai__RngKeyEncodingType__21 = 21}; #endif #ifndef SOAP_TYPE_sai__ProvisioningModeType #define SOAP_TYPE_sai__ProvisioningModeType (560) /* sai:ProvisioningModeType */ enum sai__ProvisioningModeType {sai__ProvisioningModeType__0 = 0, sai__ProvisioningModeType__1 = 1, sai__ProvisioningModeType__2 = 2}; #endif #ifndef SOAP_TYPE_sai__AccessPermissionType #define SOAP_TYPE_sai__AccessPermissionType (561) /* sai:AccessPermissionType */ enum sai__AccessPermissionType {sai__AccessPermissionType__LocalAccessPermission = 0, sai__AccessPermissionType__NetworkAccessPermission = 1, sai__AccessPermissionType__AnyAccessPermission = 2}; #endif #ifndef SOAP_TYPE_sai__KerberosSpnProtocolType #define SOAP_TYPE_sai__KerberosSpnProtocolType (562) /* sai:KerberosSpnProtocolType */ enum sai__KerberosSpnProtocolType {sai__KerberosSpnProtocolType__HTTP = 0, sai__KerberosSpnProtocolType__HTTPS = 1, sai__KerberosSpnProtocolType__SOL_USCOREIDER = 2, sai__KerberosSpnProtocolType__SOL_USCOREIDER_USCORESSL = 3}; #endif #ifndef SOAP_TYPE_sai__KerberosEncryptionType #define SOAP_TYPE_sai__KerberosEncryptionType (563) /* sai:KerberosEncryptionType */ enum sai__KerberosEncryptionType {sai__KerberosEncryptionType__HMAC_USCORERC4 = 0}; #endif #ifndef SOAP_TYPE_sai__PowerStateType #define SOAP_TYPE_sai__PowerStateType (564) /* sai:PowerStateType */ enum sai__PowerStateType {sai__PowerStateType__PowerStateS0 = 0, sai__PowerStateType__PowerStateS1 = 1, sai__PowerStateType__PowerStateS2 = 2, sai__PowerStateType__PowerStateS3 = 3, sai__PowerStateType__PowerStateS4 = 4, sai__PowerStateType__PowerStateS5 = 5}; #endif #ifndef SOAP_TYPE_sai__EnabledInterfacesType #define SOAP_TYPE_sai__EnabledInterfacesType (565) /* sai:EnabledInterfacesType */ enum sai__EnabledInterfacesType {sai__EnabledInterfacesType__WebUI = 0, sai__EnabledInterfacesType__SerialOverLAN = 1, sai__EnabledInterfacesType__IdeRedirection = 2}; #endif #ifndef SOAP_TYPE_sai__InterfaceType #define SOAP_TYPE_sai__InterfaceType (566) /* sai:InterfaceType */ enum sai__InterfaceType {sai__InterfaceType__NetworkInterface = 0, sai__InterfaceType__LocalHostInterface = 1}; #endif #ifndef SOAP_TYPE_sai__TlsAthenticationType #define SOAP_TYPE_sai__TlsAthenticationType (567) /* sai:TlsAthenticationType */ enum sai__TlsAthenticationType {sai__TlsAthenticationType__NoAuth = 0, sai__TlsAthenticationType__ServerAuth = 1, sai__TlsAthenticationType__MutualAuth = 2}; #endif #ifndef SOAP_TYPE_sai__ProvisioningTLSModeType #define SOAP_TYPE_sai__ProvisioningTLSModeType (569) /* sai:ProvisioningTLSModeType */ enum sai__ProvisioningTLSModeType {sai__ProvisioningTLSModeType__0 = 0, sai__ProvisioningTLSModeType__1 = 1, sai__ProvisioningTLSModeType__2 = 2}; #endif #ifndef SOAP_TYPE_sai__HashTypeType #define SOAP_TYPE_sai__HashTypeType (573) /* sai:HashTypeType */ enum sai__HashTypeType {sai__HashTypeType__1 = 1}; #endif #ifndef SOAP_TYPE_sai__HTTPAuthOptionType #define SOAP_TYPE_sai__HTTPAuthOptionType (574) /* sai:HTTPAuthOptionType */ enum sai__HTTPAuthOptionType {sai__HTTPAuthOptionType__NoAuth = 0, sai__HTTPAuthOptionType__Auth = 1, sai__HTTPAuthOptionType__Disable = 2}; #endif #ifndef SOAP_TYPE_xcfg__CertNameOptionsType #define SOAP_TYPE_xcfg__CertNameOptionsType (577) /* xcfg:CertNameOptionsType */ enum xcfg__CertNameOptionsType {xcfg__CertNameOptionsType__CertNameMatch = 0, xcfg__CertNameOptionsType__DomainSuffixMatch = 1}; #endif #ifndef SOAP_TYPE_net__DhcpModeType #define SOAP_TYPE_net__DhcpModeType (580) /* net:DhcpModeType */ enum net__DhcpModeType {net__DhcpModeType__0 = 0, net__DhcpModeType__1 = 1, net__DhcpModeType__2 = 2}; #endif #ifndef SOAP_TYPE_net__InterfaceModeType #define SOAP_TYPE_net__InterfaceModeType (582) /* net:InterfaceModeType */ enum net__InterfaceModeType {net__InterfaceModeType__SEPARATE_USCOREMAC_USCOREADDRESS = 0, net__InterfaceModeType__SHARED_USCOREMAC_USCOREADDRESS = 1}; #endif #ifndef SOAP_TYPE_stra__ISVS_USCOREAPP_USCOREATTR_USCORETYPE #define SOAP_TYPE_stra__ISVS_USCOREAPP_USCOREATTR_USCORETYPE (587) /* stra:ISVS_APP_ATTR_TYPE */ enum stra__ISVS_USCOREAPP_USCOREATTR_USCORETYPE {stra__ISVS_USCOREAPP_USCOREATTR_USCORETYPE__0 = 0, stra__ISVS_USCOREAPP_USCOREATTR_USCORETYPE__1 = 1}; #endif #ifndef SOAP_TYPE_emi__EventSeverityType #define SOAP_TYPE_emi__EventSeverityType (594) /* emi:EventSeverityType */ enum emi__EventSeverityType {emi__EventSeverityType__0 = 0, emi__EventSeverityType__1 = 1, emi__EventSeverityType__2 = 2, emi__EventSeverityType__4 = 4, emi__EventSeverityType__8 = 8, emi__EventSeverityType__16 = 16, emi__EventSeverityType__32 = 32}; #endif #ifndef SOAP_TYPE_emi__AlertAuthOptionsType #define SOAP_TYPE_emi__AlertAuthOptionsType (598) /* emi:AlertAuthOptionsType */ enum emi__AlertAuthOptionsType {emi__AlertAuthOptionsType__Kerberos = 0, emi__AlertAuthOptionsType__Digest = 1, emi__AlertAuthOptionsType__Basic = 2}; #endif #ifndef SOAP_TYPE_cb__CircuitBreakerFilterDirectionType #define SOAP_TYPE_cb__CircuitBreakerFilterDirectionType (604) /* cb:CircuitBreakerFilterDirectionType */ enum cb__CircuitBreakerFilterDirectionType {cb__CircuitBreakerFilterDirectionType__0 = 0, cb__CircuitBreakerFilterDirectionType__1 = 1}; #endif #ifndef SOAP_TYPE_cb__CircuitBreakerFilterIPAddressDirectionType #define SOAP_TYPE_cb__CircuitBreakerFilterIPAddressDirectionType (605) /* cb:CircuitBreakerFilterIPAddressDirectionType */ enum cb__CircuitBreakerFilterIPAddressDirectionType {cb__CircuitBreakerFilterIPAddressDirectionType__0 = 0, cb__CircuitBreakerFilterIPAddressDirectionType__1 = 1}; #endif #ifndef SOAP_TYPE_cb__CircuitBreakerProfileType #define SOAP_TYPE_cb__CircuitBreakerProfileType (606) /* cb:CircuitBreakerProfileType */ enum cb__CircuitBreakerProfileType {cb__CircuitBreakerProfileType__0 = 0, cb__CircuitBreakerProfileType__1 = 1, cb__CircuitBreakerProfileType__2 = 2, cb__CircuitBreakerProfileType__3 = 3, cb__CircuitBreakerProfileType__4 = 4}; #endif #ifndef SOAP_TYPE_cb__CircuitBreakerApplicationType #define SOAP_TYPE_cb__CircuitBreakerApplicationType (607) /* cb:CircuitBreakerApplicationType */ enum cb__CircuitBreakerApplicationType {cb__CircuitBreakerApplicationType__0 = 0, cb__CircuitBreakerApplicationType__1 = 1, cb__CircuitBreakerApplicationType__3 = 3, cb__CircuitBreakerApplicationType__4 = 4}; #endif #ifndef SOAP_TYPE_cb__HcbStateType #define SOAP_TYPE_cb__HcbStateType (608) /* cb:HcbStateType */ enum cb__HcbStateType {cb__HcbStateType__0 = 0, cb__HcbStateType__1 = 1, cb__HcbStateType__2 = 2, cb__HcbStateType__3 = 3}; #endif #ifndef SOAP_TYPE_cb__HcbTriggerReasonType #define SOAP_TYPE_cb__HcbTriggerReasonType (609) /* cb:HcbTriggerReasonType */ enum cb__HcbTriggerReasonType {cb__HcbTriggerReasonType__0 = 0, cb__HcbTriggerReasonType__1 = 1, cb__HcbTriggerReasonType__2 = 2}; #endif #ifndef SOAP_TYPE_hwa__AssetTypeType #define SOAP_TYPE_hwa__AssetTypeType (613) /* hwa:AssetTypeType */ enum hwa__AssetTypeType {hwa__AssetTypeType__2 = 2, hwa__AssetTypeType__3 = 3, hwa__AssetTypeType__4 = 4, hwa__AssetTypeType__5 = 5, hwa__AssetTypeType__6 = 6, hwa__AssetTypeType__7 = 7, hwa__AssetTypeType__8 = 8, hwa__AssetTypeType__9 = 9}; #endif #ifndef SOAP_TYPE_apr__CbActionType #define SOAP_TYPE_apr__CbActionType (626) /* apr:CbActionType */ enum apr__CbActionType {apr__CbActionType__0 = 0, apr__CbActionType__1 = 1}; #endif #ifndef SOAP_TYPE_inf__ProvisioningModeType #define SOAP_TYPE_inf__ProvisioningModeType (638) /* inf:ProvisioningModeType */ enum inf__ProvisioningModeType {inf__ProvisioningModeType__0 = 0, inf__ProvisioningModeType__1 = 1, inf__ProvisioningModeType__2 = 2}; #endif #ifndef SOAP_TYPE_inf__ProvisioningStateType #define SOAP_TYPE_inf__ProvisioningStateType (639) /* inf:ProvisioningStateType */ enum inf__ProvisioningStateType {inf__ProvisioningStateType__ProvisioningStatePre = 0, inf__ProvisioningStateType__ProvisioningStateIn = 1, inf__ProvisioningStateType__ProvisioningStatePost = 2}; #endif #ifndef SOAP_TYPE_inf__PasswordModelType #define SOAP_TYPE_inf__PasswordModelType (640) /* inf:PasswordModelType */ enum inf__PasswordModelType {inf__PasswordModelType__PasswordModelCoupled = 0, inf__PasswordModelType__PasswordModelSeperate = 1, inf__PasswordModelType__PasswordModelSeperateHash = 2}; #endif #ifndef SOAP_TYPE_inf__EnabledInterfacesType #define SOAP_TYPE_inf__EnabledInterfacesType (641) /* inf:EnabledInterfacesType */ enum inf__EnabledInterfacesType {inf__EnabledInterfacesType__WebUI = 0, inf__EnabledInterfacesType__SerialOverLAN = 1, inf__EnabledInterfacesType__IdeRedirection = 2}; #endif #ifndef SOAP_TYPE_rci__RemoteControlCommandType #define SOAP_TYPE_rci__RemoteControlCommandType (648) /* rci:RemoteControlCommandType */ enum rci__RemoteControlCommandType {rci__RemoteControlCommandType__16 = 16, rci__RemoteControlCommandType__17 = 17, rci__RemoteControlCommandType__18 = 18, rci__RemoteControlCommandType__19 = 19, rci__RemoteControlCommandType__33 = 33}; #endif #ifndef SOAP_TYPE_rci__SpecialCommandType #define SOAP_TYPE_rci__SpecialCommandType (649) /* rci:SpecialCommandType */ enum rci__SpecialCommandType {rci__SpecialCommandType__0 = 0, rci__SpecialCommandType__1 = 1, rci__SpecialCommandType__2 = 2, rci__SpecialCommandType__3 = 3, rci__SpecialCommandType__4 = 4, rci__SpecialCommandType__5 = 5, rci__SpecialCommandType__193 = 193}; #endif #ifndef SOAP_TYPE_wcxs__KeyIndexType #define SOAP_TYPE_wcxs__KeyIndexType (655) /* wcxs:KeyIndexType */ enum wcxs__KeyIndexType {wcxs__KeyIndexType__1 = 1, wcxs__KeyIndexType__2 = 2, wcxs__KeyIndexType__3 = 3, wcxs__KeyIndexType__4 = 4}; #endif #ifndef SOAP_TYPE_wcxs__FeatureType #define SOAP_TYPE_wcxs__FeatureType (662) /* wcxs:FeatureType */ enum wcxs__FeatureType {wcxs__FeatureType__802_x002e11a = 0, wcxs__FeatureType__802_x002e11b = 1, wcxs__FeatureType__802_x002e11g = 2, wcxs__FeatureType__802_x002e11n = 3}; #endif /******************************************************************************\ * * * Classes and Structs * * * \******************************************************************************/ #if 0 /* volatile type: do no redeclare */ #endif #ifndef SOAP_TYPE_xsd__base64Binary #define SOAP_TYPE_xsd__base64Binary (9) /* Base64 schema type: */ class SOAP_CMAC xsd__base64Binary { public: unsigned char *__ptr; int __size; char *id; /* optional element of type xsd:string */ char *type; /* optional element of type xsd:string */ char *options; /* optional element of type xsd:string */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 9; } /* = unique id SOAP_TYPE_xsd__base64Binary */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); xsd__base64Binary() : __ptr(NULL), id(NULL), type(NULL), options(NULL), soap(NULL) { } virtual ~xsd__base64Binary() { } }; #endif #ifndef SOAP_TYPE__cmn__union_NodeAddressType #define SOAP_TYPE__cmn__union_NodeAddressType (666) /* xsd:choice */ union _cmn__union_NodeAddressType { #define SOAP_UNION__cmn__union_NodeAddressType_HostName (1) std::string *HostName; #define SOAP_UNION__cmn__union_NodeAddressType_IPv4Address (2) std::string *IPv4Address; #define SOAP_UNION__cmn__union_NodeAddressType_IPv6Address (3) std::string *IPv6Address; }; #endif #ifndef SOAP_TYPE_cmn__NodeAddressType #define SOAP_TYPE_cmn__NodeAddressType (16) /* cmn:NodeAddressType */ class SOAP_CMAC cmn__NodeAddressType { public: int __union_NodeAddressType; /* union discriminant (of union defined below) */ union _cmn__union_NodeAddressType union_NodeAddressType; /* required element of type xsd:choice */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 16; } /* = unique id SOAP_TYPE_cmn__NodeAddressType */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); cmn__NodeAddressType() : soap(NULL) { } virtual ~cmn__NodeAddressType() { } }; #endif #ifndef SOAP_TYPE_cstr__RSAKeyPairType #define SOAP_TYPE_cstr__RSAKeyPairType (17) /* cstr:RSAKeyPairType */ class SOAP_CMAC cstr__RSAKeyPairType { public: xsd__base64Binary DERKey; /* required element of type xsd:base64Binary */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 17; } /* = unique id SOAP_TYPE_cstr__RSAKeyPairType */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); cstr__RSAKeyPairType() : soap(NULL) { } virtual ~cstr__RSAKeyPairType() { } }; #endif #ifndef SOAP_TYPE__cstr__union_KeyPairType #define SOAP_TYPE__cstr__union_KeyPairType (668) /* xsd:choice */ union _cstr__union_KeyPairType { #define SOAP_UNION__cstr__union_KeyPairType_RSAKeyPair (1) cstr__RSAKeyPairType *RSAKeyPair; }; #endif #ifndef SOAP_TYPE_cstr__KeyPairType #define SOAP_TYPE_cstr__KeyPairType (18) /* cstr:KeyPairType */ class SOAP_CMAC cstr__KeyPairType { public: int __union_KeyPairType; /* union discriminant (of union defined below) */ union _cstr__union_KeyPairType union_KeyPairType; /* required element of type xsd:choice */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 18; } /* = unique id SOAP_TYPE_cstr__KeyPairType */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); cstr__KeyPairType() : soap(NULL) { } virtual ~cstr__KeyPairType() { } }; #endif #ifndef SOAP_TYPE_sai__UserAclEntryType #define SOAP_TYPE_sai__UserAclEntryType (19) /* sai:UserAclEntryType */ class SOAP_CMAC sai__UserAclEntryType { public: std::string Username; /* required element of type sai:AclStringType */ std::string Password; /* required element of type sai:AclPasswordStringType */ class sai__UserAclRealmListType *Realms; /* required element of type sai:UserAclRealmListType */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 19; } /* = unique id SOAP_TYPE_sai__UserAclEntryType */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); sai__UserAclEntryType() : Realms(NULL), soap(NULL) { } virtual ~sai__UserAclEntryType() { } }; #endif #ifndef SOAP_TYPE_sai__AdminAclEntryType #define SOAP_TYPE_sai__AdminAclEntryType (20) /* sai:AdminAclEntryType */ class SOAP_CMAC sai__AdminAclEntryType { public: std::string Username; /* required element of type sai:AclStringType */ std::string Password; /* required element of type sai:AclPasswordStringType */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 20; } /* = unique id SOAP_TYPE_sai__AdminAclEntryType */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); sai__AdminAclEntryType() : soap(NULL) { } virtual ~sai__AdminAclEntryType() { } }; #endif #ifndef SOAP_TYPE_sai__UserAclEntryHandleListType #define SOAP_TYPE_sai__UserAclEntryHandleListType (21) /* sai:UserAclEntryHandleListType */ class SOAP_CMAC sai__UserAclEntryHandleListType { public: std::vectorHandle; /* sequence of 0 to 7 elements */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 21; } /* = unique id SOAP_TYPE_sai__UserAclEntryHandleListType */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); sai__UserAclEntryHandleListType() : soap(NULL) { } virtual ~sai__UserAclEntryHandleListType() { } }; #endif #ifndef SOAP_TYPE_sai__UserAclRealmListType #define SOAP_TYPE_sai__UserAclRealmListType (22) /* sai:UserAclRealmListType */ class SOAP_CMAC sai__UserAclRealmListType { public: std::vectorRealm; /* sequence of 0 to 16 elements */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 22; } /* = unique id SOAP_TYPE_sai__UserAclRealmListType */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); sai__UserAclRealmListType() : soap(NULL) { } virtual ~sai__UserAclRealmListType() { } }; #endif #ifndef SOAP_TYPE_sai__RsaKeyType #define SOAP_TYPE_sai__RsaKeyType (23) /* sai:RsaKeyType */ class SOAP_CMAC sai__RsaKeyType { public: enum sai__RsaKeyEncodingType Encoding; /* required element of type sai:RsaKeyEncodingType */ unsigned int Length; /* required element of type xsd:unsignedInt */ xsd__base64Binary Value; /* required element of type xsd:base64Binary */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 23; } /* = unique id SOAP_TYPE_sai__RsaKeyType */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); sai__RsaKeyType() : soap(NULL) { } virtual ~sai__RsaKeyType() { } }; #endif #ifndef SOAP_TYPE_sai__RngKeyType #define SOAP_TYPE_sai__RngKeyType (24) /* sai:RngKeyType */ class SOAP_CMAC sai__RngKeyType { public: enum sai__RngKeyEncodingType Type; /* required element of type sai:RngKeyEncodingType */ unsigned int Length; /* required element of type xsd:unsignedInt */ xsd__base64Binary Data; /* required element of type xsd:base64Binary */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 24; } /* = unique id SOAP_TYPE_sai__RngKeyType */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); sai__RngKeyType() : soap(NULL) { } virtual ~sai__RngKeyType() { } }; #endif #ifndef SOAP_TYPE_sai__CertificateChainType #define SOAP_TYPE_sai__CertificateChainType (25) /* sai:CertificateChainType */ class SOAP_CMAC sai__CertificateChainType { public: enum sai__RsaCertificateEncodingType Encoding; /* required element of type sai:RsaCertificateEncodingType */ unsigned int Length; /* required element of type xsd:unsignedInt */ xsd__base64Binary Value; /* required element of type xsd:base64Binary */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 25; } /* = unique id SOAP_TYPE_sai__CertificateChainType */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); sai__CertificateChainType() : soap(NULL) { } virtual ~sai__CertificateChainType() { } }; #endif #ifndef SOAP_TYPE_sai__UpdateCoreUrlKeyType #define SOAP_TYPE_sai__UpdateCoreUrlKeyType (26) /* sai:UpdateCoreUrlKeyType */ class SOAP_CMAC sai__UpdateCoreUrlKeyType { public: unsigned int KeyLength; /* required element of type xsd:unsignedInt */ unsigned int KeyAlgorithm; /* required element of type xsd:unsignedInt */ xsd__base64Binary KeyData; /* required element of type xsd:base64Binary */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 26; } /* = unique id SOAP_TYPE_sai__UpdateCoreUrlKeyType */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); sai__UpdateCoreUrlKeyType() : soap(NULL) { } virtual ~sai__UpdateCoreUrlKeyType() { } }; #endif #ifndef SOAP_TYPE_sai__AmtVersion #define SOAP_TYPE_sai__AmtVersion (27) /* sai:AmtVersion */ class SOAP_CMAC sai__AmtVersion { public: unsigned char major; /* required element of type xsd:unsignedByte */ unsigned char minor; /* required element of type xsd:unsignedByte */ unsigned short micro; /* required element of type xsd:unsignedShort */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 27; } /* = unique id SOAP_TYPE_sai__AmtVersion */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); sai__AmtVersion() : soap(NULL) { } virtual ~sai__AmtVersion() { } }; #endif #ifndef SOAP_TYPE_sai__UserEntryDigestType #define SOAP_TYPE_sai__UserEntryDigestType (28) /* sai:UserEntryDigestType */ class SOAP_CMAC sai__UserEntryDigestType { public: std::string Username; /* required element of type sai:AclStringType */ xsd__base64Binary DigestPassword; /* required element of type xsd:base64Binary */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 28; } /* = unique id SOAP_TYPE_sai__UserEntryDigestType */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); sai__UserEntryDigestType() : soap(NULL) { } virtual ~sai__UserEntryDigestType() { } }; #endif #ifndef SOAP_TYPE_sai__UserEntryKerberosType #define SOAP_TYPE_sai__UserEntryKerberosType (29) /* sai:UserEntryKerberosType */ class SOAP_CMAC sai__UserEntryKerberosType { public: xsd__base64Binary Sid; /* required element of type xsd:base64Binary */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 29; } /* = unique id SOAP_TYPE_sai__UserEntryKerberosType */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); sai__UserEntryKerberosType() : soap(NULL) { } virtual ~sai__UserEntryKerberosType() { } }; #endif #ifndef SOAP_TYPE__sai__union_UserAclEntryExType #define SOAP_TYPE__sai__union_UserAclEntryExType (674) /* xsd:choice */ union _sai__union_UserAclEntryExType { #define SOAP_UNION__sai__union_UserAclEntryExType_DigestUser (1) sai__UserEntryDigestType *DigestUser; #define SOAP_UNION__sai__union_UserAclEntryExType_KerberosUser (2) sai__UserEntryKerberosType *KerberosUser; }; #endif #ifndef SOAP_TYPE_sai__UserAclEntryExType #define SOAP_TYPE_sai__UserAclEntryExType (30) /* sai:UserAclEntryExType */ class SOAP_CMAC sai__UserAclEntryExType { public: enum sai__AccessPermissionType AccessPermission; /* required element of type sai:AccessPermissionType */ sai__UserAclRealmListType *Realms; /* required element of type sai:UserAclRealmListType */ int __union_UserAclEntryExType; /* union discriminant (of union defined below) */ union _sai__union_UserAclEntryExType union_UserAclEntryExType; /* required element of type xsd:choice */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 30; } /* = unique id SOAP_TYPE_sai__UserAclEntryExType */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); sai__UserAclEntryExType() : Realms(NULL), soap(NULL) { } virtual ~sai__UserAclEntryExType() { } }; #endif #ifndef SOAP_TYPE_sai__AdminAclEntryExType #define SOAP_TYPE_sai__AdminAclEntryExType (31) /* sai:AdminAclEntryExType */ class SOAP_CMAC sai__AdminAclEntryExType { public: std::string Username; /* required element of type sai:AclStringType */ xsd__base64Binary DigestPassword; /* required element of type xsd:base64Binary */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 31; } /* = unique id SOAP_TYPE_sai__AdminAclEntryExType */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); sai__AdminAclEntryExType() : soap(NULL) { } virtual ~sai__AdminAclEntryExType() { } }; #endif #ifndef SOAP_TYPE_sai__KerberosSpnType #define SOAP_TYPE_sai__KerberosSpnType (32) /* sai:KerberosSpnType */ class SOAP_CMAC sai__KerberosSpnType { public: enum sai__KerberosSpnProtocolType SpnProtocolIndex; /* required element of type sai:KerberosSpnProtocolType */ std::string SpnString; /* required element of type sai:SpnString */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 32; } /* = unique id SOAP_TYPE_sai__KerberosSpnType */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); sai__KerberosSpnType() : soap(NULL) { } virtual ~sai__KerberosSpnType() { } }; #endif #ifndef SOAP_TYPE_sai__KerberosOptionsType #define SOAP_TYPE_sai__KerberosOptionsType (33) /* sai:KerberosOptionsType */ class SOAP_CMAC sai__KerberosOptionsType { public: std::string KerberosRealmName; /* required element of type sai:KerberosRealmName */ std::vectorKerberosSpn; /* sequence of 1 to 4 elements */ unsigned int KerberosKeyVersion; /* required element of type xsd:unsignedInt */ enum sai__KerberosEncryptionType KerberosEncryption; /* required element of type sai:KerberosEncryptionType */ xsd__base64Binary KerberosMasterKey; /* required element of type xsd:base64Binary */ unsigned int KerberosMaximumClockTolerance; /* required element of type xsd:unsignedInt */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 33; } /* = unique id SOAP_TYPE_sai__KerberosOptionsType */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); sai__KerberosOptionsType() : soap(NULL) { } virtual ~sai__KerberosOptionsType() { } }; #endif #ifndef SOAP_TYPE_sai__TlsOptionsType #define SOAP_TYPE_sai__TlsOptionsType (34) /* sai:TlsOptionsType */ class SOAP_CMAC sai__TlsOptionsType { public: enum sai__InterfaceType Interface; /* required element of type sai:InterfaceType */ enum sai__TlsAthenticationType TlsAuthentication; /* required element of type sai:TlsAthenticationType */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 34; } /* = unique id SOAP_TYPE_sai__TlsOptionsType */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); sai__TlsOptionsType() : soap(NULL) { } virtual ~sai__TlsOptionsType() { } }; #endif #ifndef SOAP_TYPE_sai__CertificateType #define SOAP_TYPE_sai__CertificateType (35) /* sai:CertificateType */ class SOAP_CMAC sai__CertificateType { public: xsd__base64Binary X509cert; /* required element of type xsd:base64Binary */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 35; } /* = unique id SOAP_TYPE_sai__CertificateType */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); sai__CertificateType() : soap(NULL) { } virtual ~sai__CertificateType() { } }; #endif #ifndef SOAP_TYPE_sai__CrlType #define SOAP_TYPE_sai__CrlType (36) /* sai:CrlType */ class SOAP_CMAC sai__CrlType { public: std::string CrlUrl; /* required element of type xsd:string */ std::vectorSerialNumber; /* required element of type xsd:base64Binary */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 36; } /* = unique id SOAP_TYPE_sai__CrlType */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); sai__CrlType() : soap(NULL) { } virtual ~sai__CrlType() { } }; #endif #ifndef SOAP_TYPE_sai__PkiCapsType #define SOAP_TYPE_sai__PkiCapsType (37) /* sai:PkiCapsType */ class SOAP_CMAC sai__PkiCapsType { public: unsigned int CrlStoreSize; /* required element of type xsd:unsignedInt */ unsigned int RootCertMaxSize; /* required element of type xsd:unsignedInt */ unsigned int RootCertMaxInstances; /* required element of type xsd:unsignedInt */ unsigned int FqdnSuffixMaxEntries; /* required element of type xsd:unsignedInt */ unsigned int FqdnSuffixMaxEntryLength; /* required element of type xsd:unsignedInt */ unsigned int CertChainMaxSize; /* required element of type xsd:unsignedInt */ std::vectorSupportedKeyLengths; /* required element of type xsd:unsignedInt */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 37; } /* = unique id SOAP_TYPE_sai__PkiCapsType */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); sai__PkiCapsType() : soap(NULL) { } virtual ~sai__PkiCapsType() { } }; #endif #ifndef SOAP_TYPE_sai__CertHashEntryType #define SOAP_TYPE_sai__CertHashEntryType (38) /* sai:CertHashEntryType */ class SOAP_CMAC sai__CertHashEntryType { public: bool Default; /* required element of type xsd:boolean */ bool Active; /* required element of type xsd:boolean */ enum sai__HashTypeType HashType; /* required element of type sai:HashTypeType */ xsd__base64Binary Hash; /* required element of type xsd:base64Binary */ std::string FriendlyName; /* required element of type sai:FriendlyNameType */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 38; } /* = unique id SOAP_TYPE_sai__CertHashEntryType */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); sai__CertHashEntryType() : soap(NULL) { } virtual ~sai__CertHashEntryType() { } }; #endif #ifndef SOAP_TYPE_sai__ProvisioningAuditRecordType #define SOAP_TYPE_sai__ProvisioningAuditRecordType (39) /* sai:ProvisioningAuditRecordType */ class SOAP_CMAC sai__ProvisioningAuditRecordType { public: enum sai__ProvisioningTLSModeType ProvisioningTLSMode; /* required element of type sai:ProvisioningTLSModeType */ bool SecureDNS; /* required element of type xsd:boolean */ bool HostInitiated; /* required element of type xsd:boolean */ std::string *ProvServerFQDN; /* optional element of type xsd:string */ enum sai__HashTypeType SelectedHashType; /* required element of type sai:HashTypeType */ xsd__base64Binary SelectedHashData; /* required element of type xsd:base64Binary */ std::vectorCaCertSerials; /* optional element of type xsd:base64Binary */ bool *AdditionalCaSerialNums; /* optional element of type xsd:boolean */ bool IsOemDefault; /* required element of type xsd:boolean */ bool IsTimeValid; /* required element of type xsd:boolean */ unsigned int ProvServerIP; /* required element of type sai:IPv4AddressType */ unsigned int TlsStartTime; /* required element of type xsd:unsignedInt */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 39; } /* = unique id SOAP_TYPE_sai__ProvisioningAuditRecordType */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); sai__ProvisioningAuditRecordType() : ProvServerFQDN(NULL), AdditionalCaSerialNums(NULL), soap(NULL) { } virtual ~sai__ProvisioningAuditRecordType() { } }; #endif #ifndef SOAP_TYPE_sai__EnvironmentDetectionDomainType #define SOAP_TYPE_sai__EnvironmentDetectionDomainType (40) /* sai:EnvironmentDetectionDomainType */ class SOAP_CMAC sai__EnvironmentDetectionDomainType { public: std::vectorvalues; /* sequence of 0 to 5 elements */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 40; } /* = unique id SOAP_TYPE_sai__EnvironmentDetectionDomainType */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); sai__EnvironmentDetectionDomainType() : soap(NULL) { } virtual ~sai__EnvironmentDetectionDomainType() { } }; #endif #ifndef SOAP_TYPE_sai__EnvironmentDetectionType #define SOAP_TYPE_sai__EnvironmentDetectionType (41) /* sai:EnvironmentDetectionType */ class SOAP_CMAC sai__EnvironmentDetectionType { public: sai__EnvironmentDetectionDomainType *LocalDomains; /* required element of type sai:EnvironmentDetectionDomainType */ unsigned int *ExternalCircuitBreakerPolicy; /* optional element of type xsd:unsignedInt */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 41; } /* = unique id SOAP_TYPE_sai__EnvironmentDetectionType */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); sai__EnvironmentDetectionType() : LocalDomains(NULL), ExternalCircuitBreakerPolicy(NULL), soap(NULL) { } virtual ~sai__EnvironmentDetectionType() { } }; #endif #ifndef SOAP_TYPE_sai__GlobalPowerPolicyType #define SOAP_TYPE_sai__GlobalPowerPolicyType (42) /* sai:GlobalPowerPolicyType */ class SOAP_CMAC sai__GlobalPowerPolicyType { public: unsigned int IdleWakeTimeout; /* required element of type xsd:unsignedInt */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 42; } /* = unique id SOAP_TYPE_sai__GlobalPowerPolicyType */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); sai__GlobalPowerPolicyType() : soap(NULL) { } virtual ~sai__GlobalPowerPolicyType() { } }; #endif #ifndef SOAP_TYPE__sai__AddUserAclEntry #define SOAP_TYPE__sai__AddUserAclEntry (43) /* sai:AddUserAclEntry */ class SOAP_CMAC _sai__AddUserAclEntry { public: sai__UserAclEntryType *Entry; /* required element of type sai:UserAclEntryType */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 43; } /* = unique id SOAP_TYPE__sai__AddUserAclEntry */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _sai__AddUserAclEntry() : Entry(NULL), soap(NULL) { } virtual ~_sai__AddUserAclEntry() { } }; #endif #ifndef SOAP_TYPE__sai__AddUserAclEntryResponse #define SOAP_TYPE__sai__AddUserAclEntryResponse (44) /* sai:AddUserAclEntryResponse */ class SOAP_CMAC _sai__AddUserAclEntryResponse { public: unsigned int StatusCode; /* RPC return element */ /* required element of type sai:PT_STATUS */ unsigned int Handle; /* required element of type sai:UserAclEntryHandleType */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 44; } /* = unique id SOAP_TYPE__sai__AddUserAclEntryResponse */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _sai__AddUserAclEntryResponse() : soap(NULL) { } virtual ~_sai__AddUserAclEntryResponse() { } }; #endif #ifndef SOAP_TYPE__sai__SetAdminAclEntry #define SOAP_TYPE__sai__SetAdminAclEntry (45) /* sai:SetAdminAclEntry */ class SOAP_CMAC _sai__SetAdminAclEntry { public: sai__AdminAclEntryType *Entry; /* required element of type sai:AdminAclEntryType */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 45; } /* = unique id SOAP_TYPE__sai__SetAdminAclEntry */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _sai__SetAdminAclEntry() : Entry(NULL), soap(NULL) { } virtual ~_sai__SetAdminAclEntry() { } }; #endif #ifndef SOAP_TYPE__sai__SetAdminAclEntryResponse #define SOAP_TYPE__sai__SetAdminAclEntryResponse (46) /* sai:SetAdminAclEntryResponse */ class SOAP_CMAC _sai__SetAdminAclEntryResponse { public: unsigned int StatusCode; /* RPC return element */ /* required element of type sai:PT_STATUS */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 46; } /* = unique id SOAP_TYPE__sai__SetAdminAclEntryResponse */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _sai__SetAdminAclEntryResponse() : soap(NULL) { } virtual ~_sai__SetAdminAclEntryResponse() { } }; #endif #ifndef SOAP_TYPE__sai__EnumerateUserAclEntries #define SOAP_TYPE__sai__EnumerateUserAclEntries (47) /* sai:EnumerateUserAclEntries */ class SOAP_CMAC _sai__EnumerateUserAclEntries { public: unsigned int StartIndex; /* required element of type xsd:unsignedInt */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 47; } /* = unique id SOAP_TYPE__sai__EnumerateUserAclEntries */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _sai__EnumerateUserAclEntries() : soap(NULL) { } virtual ~_sai__EnumerateUserAclEntries() { } }; #endif #ifndef SOAP_TYPE__sai__EnumerateUserAclEntriesResponse #define SOAP_TYPE__sai__EnumerateUserAclEntriesResponse (48) /* sai:EnumerateUserAclEntriesResponse */ class SOAP_CMAC _sai__EnumerateUserAclEntriesResponse { public: unsigned int StatusCode; /* RPC return element */ /* required element of type sai:PT_STATUS */ unsigned int TotalCount; /* required element of type xsd:unsignedInt */ unsigned int HandleCount; /* required element of type xsd:unsignedInt */ sai__UserAclEntryHandleListType *Handles; /* required element of type sai:UserAclEntryHandleListType */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 48; } /* = unique id SOAP_TYPE__sai__EnumerateUserAclEntriesResponse */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _sai__EnumerateUserAclEntriesResponse() : Handles(NULL), soap(NULL) { } virtual ~_sai__EnumerateUserAclEntriesResponse() { } }; #endif #ifndef SOAP_TYPE__sai__GetUserAclEntry #define SOAP_TYPE__sai__GetUserAclEntry (49) /* sai:GetUserAclEntry */ class SOAP_CMAC _sai__GetUserAclEntry { public: unsigned int Handle; /* required element of type sai:UserAclEntryHandleType */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 49; } /* = unique id SOAP_TYPE__sai__GetUserAclEntry */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _sai__GetUserAclEntry() : soap(NULL) { } virtual ~_sai__GetUserAclEntry() { } }; #endif #ifndef SOAP_TYPE__sai__GetUserAclEntryResponse #define SOAP_TYPE__sai__GetUserAclEntryResponse (50) /* sai:GetUserAclEntryResponse */ class SOAP_CMAC _sai__GetUserAclEntryResponse { public: unsigned int StatusCode; /* RPC return element */ /* required element of type sai:PT_STATUS */ sai__UserAclEntryType *Entry; /* required element of type sai:UserAclEntryType */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 50; } /* = unique id SOAP_TYPE__sai__GetUserAclEntryResponse */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _sai__GetUserAclEntryResponse() : Entry(NULL), soap(NULL) { } virtual ~_sai__GetUserAclEntryResponse() { } }; #endif #ifndef SOAP_TYPE__sai__GetAdminAclEntry #define SOAP_TYPE__sai__GetAdminAclEntry (51) /* sai:GetAdminAclEntry */ class SOAP_CMAC _sai__GetAdminAclEntry { public: struct soap *soap; /* transient */ public: virtual int soap_type() const { return 51; } /* = unique id SOAP_TYPE__sai__GetAdminAclEntry */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _sai__GetAdminAclEntry() : soap(NULL) { } virtual ~_sai__GetAdminAclEntry() { } }; #endif #ifndef SOAP_TYPE__sai__GetAdminAclEntryResponse #define SOAP_TYPE__sai__GetAdminAclEntryResponse (52) /* sai:GetAdminAclEntryResponse */ class SOAP_CMAC _sai__GetAdminAclEntryResponse { public: unsigned int StatusCode; /* RPC return element */ /* required element of type sai:PT_STATUS */ std::string Username; /* required element of type sai:AclStringType */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 52; } /* = unique id SOAP_TYPE__sai__GetAdminAclEntryResponse */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _sai__GetAdminAclEntryResponse() : soap(NULL) { } virtual ~_sai__GetAdminAclEntryResponse() { } }; #endif #ifndef SOAP_TYPE__sai__UpdateUserAclEntry #define SOAP_TYPE__sai__UpdateUserAclEntry (53) /* sai:UpdateUserAclEntry */ class SOAP_CMAC _sai__UpdateUserAclEntry { public: unsigned int Handle; /* required element of type sai:UserAclEntryHandleType */ sai__UserAclEntryType *Entry; /* required element of type sai:UserAclEntryType */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 53; } /* = unique id SOAP_TYPE__sai__UpdateUserAclEntry */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _sai__UpdateUserAclEntry() : Entry(NULL), soap(NULL) { } virtual ~_sai__UpdateUserAclEntry() { } }; #endif #ifndef SOAP_TYPE__sai__UpdateUserAclEntryResponse #define SOAP_TYPE__sai__UpdateUserAclEntryResponse (54) /* sai:UpdateUserAclEntryResponse */ class SOAP_CMAC _sai__UpdateUserAclEntryResponse { public: unsigned int StatusCode; /* RPC return element */ /* required element of type sai:PT_STATUS */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 54; } /* = unique id SOAP_TYPE__sai__UpdateUserAclEntryResponse */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _sai__UpdateUserAclEntryResponse() : soap(NULL) { } virtual ~_sai__UpdateUserAclEntryResponse() { } }; #endif #ifndef SOAP_TYPE__sai__RemoveUserAclEntry #define SOAP_TYPE__sai__RemoveUserAclEntry (55) /* sai:RemoveUserAclEntry */ class SOAP_CMAC _sai__RemoveUserAclEntry { public: unsigned int Handle; /* required element of type sai:UserAclEntryHandleType */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 55; } /* = unique id SOAP_TYPE__sai__RemoveUserAclEntry */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _sai__RemoveUserAclEntry() : soap(NULL) { } virtual ~_sai__RemoveUserAclEntry() { } }; #endif #ifndef SOAP_TYPE__sai__RemoveUserAclEntryResponse #define SOAP_TYPE__sai__RemoveUserAclEntryResponse (56) /* sai:RemoveUserAclEntryResponse */ class SOAP_CMAC _sai__RemoveUserAclEntryResponse { public: unsigned int StatusCode; /* RPC return element */ /* required element of type sai:PT_STATUS */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 56; } /* = unique id SOAP_TYPE__sai__RemoveUserAclEntryResponse */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _sai__RemoveUserAclEntryResponse() : soap(NULL) { } virtual ~_sai__RemoveUserAclEntryResponse() { } }; #endif #ifndef SOAP_TYPE__sai__SetTlsEnabled #define SOAP_TYPE__sai__SetTlsEnabled (57) /* sai:SetTlsEnabled */ class SOAP_CMAC _sai__SetTlsEnabled { public: bool Enabled; /* required element of type xsd:boolean */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 57; } /* = unique id SOAP_TYPE__sai__SetTlsEnabled */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _sai__SetTlsEnabled() : soap(NULL) { } virtual ~_sai__SetTlsEnabled() { } }; #endif #ifndef SOAP_TYPE__sai__SetTlsEnabledResponse #define SOAP_TYPE__sai__SetTlsEnabledResponse (58) /* sai:SetTlsEnabledResponse */ class SOAP_CMAC _sai__SetTlsEnabledResponse { public: unsigned int StatusCode; /* RPC return element */ /* required element of type sai:PT_STATUS */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 58; } /* = unique id SOAP_TYPE__sai__SetTlsEnabledResponse */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _sai__SetTlsEnabledResponse() : soap(NULL) { } virtual ~_sai__SetTlsEnabledResponse() { } }; #endif #ifndef SOAP_TYPE__sai__SetTLSKeyAndCertificate #define SOAP_TYPE__sai__SetTLSKeyAndCertificate (59) /* sai:SetTLSKeyAndCertificate */ class SOAP_CMAC _sai__SetTLSKeyAndCertificate { public: sai__RsaKeyType *PrivateKey; /* optional element of type sai:RsaKeyType */ sai__CertificateChainType *CertificateChain; /* required element of type sai:CertificateChainType */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 59; } /* = unique id SOAP_TYPE__sai__SetTLSKeyAndCertificate */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _sai__SetTLSKeyAndCertificate() : PrivateKey(NULL), CertificateChain(NULL), soap(NULL) { } virtual ~_sai__SetTLSKeyAndCertificate() { } }; #endif #ifndef SOAP_TYPE__sai__SetTLSKeyAndCertificateResponse #define SOAP_TYPE__sai__SetTLSKeyAndCertificateResponse (60) /* sai:SetTLSKeyAndCertificateResponse */ class SOAP_CMAC _sai__SetTLSKeyAndCertificateResponse { public: unsigned int StatusCode; /* RPC return element */ /* required element of type sai:PT_STATUS */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 60; } /* = unique id SOAP_TYPE__sai__SetTLSKeyAndCertificateResponse */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _sai__SetTLSKeyAndCertificateResponse() : soap(NULL) { } virtual ~_sai__SetTLSKeyAndCertificateResponse() { } }; #endif #ifndef SOAP_TYPE__sai__SetRngKey #define SOAP_TYPE__sai__SetRngKey (61) /* sai:SetRngKey */ class SOAP_CMAC _sai__SetRngKey { public: sai__RngKeyType *Key; /* required element of type sai:RngKeyType */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 61; } /* = unique id SOAP_TYPE__sai__SetRngKey */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _sai__SetRngKey() : Key(NULL), soap(NULL) { } virtual ~_sai__SetRngKey() { } }; #endif #ifndef SOAP_TYPE__sai__SetRngKeyResponse #define SOAP_TYPE__sai__SetRngKeyResponse (62) /* sai:SetRngKeyResponse */ class SOAP_CMAC _sai__SetRngKeyResponse { public: unsigned int StatusCode; /* RPC return element */ /* required element of type sai:PT_STATUS */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 62; } /* = unique id SOAP_TYPE__sai__SetRngKeyResponse */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _sai__SetRngKeyResponse() : soap(NULL) { } virtual ~_sai__SetRngKeyResponse() { } }; #endif #ifndef SOAP_TYPE__sai__SetTLSCertificate #define SOAP_TYPE__sai__SetTLSCertificate (63) /* sai:SetTLSCertificate */ class SOAP_CMAC _sai__SetTLSCertificate { public: sai__CertificateChainType *CertificateChain; /* required element of type sai:CertificateChainType */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 63; } /* = unique id SOAP_TYPE__sai__SetTLSCertificate */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _sai__SetTLSCertificate() : CertificateChain(NULL), soap(NULL) { } virtual ~_sai__SetTLSCertificate() { } }; #endif #ifndef SOAP_TYPE__sai__SetTLSCertificateResponse #define SOAP_TYPE__sai__SetTLSCertificateResponse (64) /* sai:SetTLSCertificateResponse */ class SOAP_CMAC _sai__SetTLSCertificateResponse { public: unsigned int StatusCode; /* RPC return element */ /* required element of type sai:PT_STATUS */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 64; } /* = unique id SOAP_TYPE__sai__SetTLSCertificateResponse */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _sai__SetTLSCertificateResponse() : soap(NULL) { } virtual ~_sai__SetTLSCertificateResponse() { } }; #endif #ifndef SOAP_TYPE__sai__GetTLSCertificate #define SOAP_TYPE__sai__GetTLSCertificate (65) /* sai:GetTLSCertificate */ class SOAP_CMAC _sai__GetTLSCertificate { public: struct soap *soap; /* transient */ public: virtual int soap_type() const { return 65; } /* = unique id SOAP_TYPE__sai__GetTLSCertificate */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _sai__GetTLSCertificate() : soap(NULL) { } virtual ~_sai__GetTLSCertificate() { } }; #endif #ifndef SOAP_TYPE__sai__GetTLSCertificateResponse #define SOAP_TYPE__sai__GetTLSCertificateResponse (66) /* sai:GetTLSCertificateResponse */ class SOAP_CMAC _sai__GetTLSCertificateResponse { public: unsigned int StatusCode; /* RPC return element */ /* required element of type sai:PT_STATUS */ sai__CertificateChainType *CertificateChain; /* required element of type sai:CertificateChainType */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 66; } /* = unique id SOAP_TYPE__sai__GetTLSCertificateResponse */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _sai__GetTLSCertificateResponse() : CertificateChain(NULL), soap(NULL) { } virtual ~_sai__GetTLSCertificateResponse() { } }; #endif #ifndef SOAP_TYPE__sai__UpdateCoreFromUrl #define SOAP_TYPE__sai__UpdateCoreFromUrl (67) /* sai:UpdateCoreFromUrl */ class SOAP_CMAC _sai__UpdateCoreFromUrl { public: unsigned int tftpServerIp; /* required element of type sai:IPv4AddressType */ std::string *tftpServerName; /* optional element of type xsd:string */ unsigned short tftpServerPort; /* required element of type xsd:unsignedShort */ unsigned short MagicPacketPort; /* required element of type xsd:unsignedShort */ std::string packagePath; /* required element of type xsd:string */ sai__AmtVersion *AmtAppVersion; /* required element of type sai:AmtVersion */ sai__AmtVersion *UpdateAppVersion; /* required element of type sai:AmtVersion */ unsigned int MgmtConsoleAddr; /* required element of type sai:IPv4AddressType */ sai__UpdateCoreUrlKeyType *Key; /* required element of type sai:UpdateCoreUrlKeyType */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 67; } /* = unique id SOAP_TYPE__sai__UpdateCoreFromUrl */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _sai__UpdateCoreFromUrl() : tftpServerName(NULL), AmtAppVersion(NULL), UpdateAppVersion(NULL), Key(NULL), soap(NULL) { } virtual ~_sai__UpdateCoreFromUrl() { } }; #endif #ifndef SOAP_TYPE__sai__UpdateCoreFromUrlResponse #define SOAP_TYPE__sai__UpdateCoreFromUrlResponse (68) /* sai:UpdateCoreFromUrlResponse */ class SOAP_CMAC _sai__UpdateCoreFromUrlResponse { public: unsigned int StatusCode; /* RPC return element */ /* required element of type sai:PT_STATUS */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 68; } /* = unique id SOAP_TYPE__sai__UpdateCoreFromUrlResponse */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _sai__UpdateCoreFromUrlResponse() : soap(NULL) { } virtual ~_sai__UpdateCoreFromUrlResponse() { } }; #endif #ifndef SOAP_TYPE__sai__GetProvisioningMode #define SOAP_TYPE__sai__GetProvisioningMode (69) /* sai:GetProvisioningMode */ class SOAP_CMAC _sai__GetProvisioningMode { public: struct soap *soap; /* transient */ public: virtual int soap_type() const { return 69; } /* = unique id SOAP_TYPE__sai__GetProvisioningMode */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _sai__GetProvisioningMode() : soap(NULL) { } virtual ~_sai__GetProvisioningMode() { } }; #endif #ifndef SOAP_TYPE__sai__GetProvisioningModeResponse #define SOAP_TYPE__sai__GetProvisioningModeResponse (70) /* sai:GetProvisioningModeResponse */ class SOAP_CMAC _sai__GetProvisioningModeResponse { public: unsigned int StatusCode; /* RPC return element */ /* required element of type sai:PT_STATUS */ enum sai__ProvisioningModeType ProvisioningMode; /* required element of type sai:ProvisioningModeType */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 70; } /* = unique id SOAP_TYPE__sai__GetProvisioningModeResponse */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _sai__GetProvisioningModeResponse() : soap(NULL) { } virtual ~_sai__GetProvisioningModeResponse() { } }; #endif #ifndef SOAP_TYPE__sai__SetProvisioningMode #define SOAP_TYPE__sai__SetProvisioningMode (71) /* sai:SetProvisioningMode */ class SOAP_CMAC _sai__SetProvisioningMode { public: enum sai__ProvisioningModeType ProvisioningMode; /* required element of type sai:ProvisioningModeType */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 71; } /* = unique id SOAP_TYPE__sai__SetProvisioningMode */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _sai__SetProvisioningMode() : soap(NULL) { } virtual ~_sai__SetProvisioningMode() { } }; #endif #ifndef SOAP_TYPE__sai__SetProvisioningModeResponse #define SOAP_TYPE__sai__SetProvisioningModeResponse (72) /* sai:SetProvisioningModeResponse */ class SOAP_CMAC _sai__SetProvisioningModeResponse { public: unsigned int StatusCode; /* RPC return element */ /* required element of type sai:PT_STATUS */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 72; } /* = unique id SOAP_TYPE__sai__SetProvisioningModeResponse */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _sai__SetProvisioningModeResponse() : soap(NULL) { } virtual ~_sai__SetProvisioningModeResponse() { } }; #endif #ifndef SOAP_TYPE__sai__Unprovision #define SOAP_TYPE__sai__Unprovision (73) /* sai:Unprovision */ class SOAP_CMAC _sai__Unprovision { public: enum sai__ProvisioningModeType ProvisioningMode; /* required element of type sai:ProvisioningModeType */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 73; } /* = unique id SOAP_TYPE__sai__Unprovision */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _sai__Unprovision() : soap(NULL) { } virtual ~_sai__Unprovision() { } }; #endif #ifndef SOAP_TYPE__sai__UnprovisionResponse #define SOAP_TYPE__sai__UnprovisionResponse (74) /* sai:UnprovisionResponse */ class SOAP_CMAC _sai__UnprovisionResponse { public: unsigned int StatusCode; /* RPC return element */ /* required element of type sai:PT_STATUS */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 74; } /* = unique id SOAP_TYPE__sai__UnprovisionResponse */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _sai__UnprovisionResponse() : soap(NULL) { } virtual ~_sai__UnprovisionResponse() { } }; #endif #ifndef SOAP_TYPE__sai__CommitChanges #define SOAP_TYPE__sai__CommitChanges (75) /* sai:CommitChanges */ class SOAP_CMAC _sai__CommitChanges { public: struct soap *soap; /* transient */ public: virtual int soap_type() const { return 75; } /* = unique id SOAP_TYPE__sai__CommitChanges */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _sai__CommitChanges() : soap(NULL) { } virtual ~_sai__CommitChanges() { } }; #endif #ifndef SOAP_TYPE__sai__CommitChangesResponse #define SOAP_TYPE__sai__CommitChangesResponse (76) /* sai:CommitChangesResponse */ class SOAP_CMAC _sai__CommitChangesResponse { public: unsigned int StatusCode; /* RPC return element */ /* required element of type sai:PT_STATUS */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 76; } /* = unique id SOAP_TYPE__sai__CommitChangesResponse */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _sai__CommitChangesResponse() : soap(NULL) { } virtual ~_sai__CommitChangesResponse() { } }; #endif #ifndef SOAP_TYPE__sai__ResetFlashWearOutProtection #define SOAP_TYPE__sai__ResetFlashWearOutProtection (77) /* sai:ResetFlashWearOutProtection */ class SOAP_CMAC _sai__ResetFlashWearOutProtection { public: struct soap *soap; /* transient */ public: virtual int soap_type() const { return 77; } /* = unique id SOAP_TYPE__sai__ResetFlashWearOutProtection */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _sai__ResetFlashWearOutProtection() : soap(NULL) { } virtual ~_sai__ResetFlashWearOutProtection() { } }; #endif #ifndef SOAP_TYPE__sai__ResetFlashWearOutProtectionResponse #define SOAP_TYPE__sai__ResetFlashWearOutProtectionResponse (78) /* sai:ResetFlashWearOutProtectionResponse */ class SOAP_CMAC _sai__ResetFlashWearOutProtectionResponse { public: unsigned int StatusCode; /* RPC return element */ /* required element of type sai:PT_STATUS */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 78; } /* = unique id SOAP_TYPE__sai__ResetFlashWearOutProtectionResponse */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _sai__ResetFlashWearOutProtectionResponse() : soap(NULL) { } virtual ~_sai__ResetFlashWearOutProtectionResponse() { } }; #endif #ifndef SOAP_TYPE__sai__GetCoreVersion #define SOAP_TYPE__sai__GetCoreVersion (79) /* sai:GetCoreVersion */ class SOAP_CMAC _sai__GetCoreVersion { public: struct soap *soap; /* transient */ public: virtual int soap_type() const { return 79; } /* = unique id SOAP_TYPE__sai__GetCoreVersion */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _sai__GetCoreVersion() : soap(NULL) { } virtual ~_sai__GetCoreVersion() { } }; #endif #ifndef SOAP_TYPE__sai__GetCoreVersionResponse #define SOAP_TYPE__sai__GetCoreVersionResponse (80) /* sai:GetCoreVersionResponse */ class SOAP_CMAC _sai__GetCoreVersionResponse { public: unsigned int StatusCode; /* RPC return element */ /* required element of type sai:PT_STATUS */ std::string Version; /* required element of type xsd:string */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 80; } /* = unique id SOAP_TYPE__sai__GetCoreVersionResponse */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _sai__GetCoreVersionResponse() : soap(NULL) { } virtual ~_sai__GetCoreVersionResponse() { } }; #endif #ifndef SOAP_TYPE__sai__AddUserAclEntryEx #define SOAP_TYPE__sai__AddUserAclEntryEx (81) /* sai:AddUserAclEntryEx */ class SOAP_CMAC _sai__AddUserAclEntryEx { public: sai__UserAclEntryExType *EntryEx; /* required element of type sai:UserAclEntryExType */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 81; } /* = unique id SOAP_TYPE__sai__AddUserAclEntryEx */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _sai__AddUserAclEntryEx() : EntryEx(NULL), soap(NULL) { } virtual ~_sai__AddUserAclEntryEx() { } }; #endif #ifndef SOAP_TYPE__sai__AddUserAclEntryExResponse #define SOAP_TYPE__sai__AddUserAclEntryExResponse (82) /* sai:AddUserAclEntryExResponse */ class SOAP_CMAC _sai__AddUserAclEntryExResponse { public: unsigned int StatusCode; /* RPC return element */ /* required element of type sai:PT_STATUS */ unsigned int Handle; /* required element of type sai:UserAclEntryHandleType */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 82; } /* = unique id SOAP_TYPE__sai__AddUserAclEntryExResponse */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _sai__AddUserAclEntryExResponse() : soap(NULL) { } virtual ~_sai__AddUserAclEntryExResponse() { } }; #endif #ifndef SOAP_TYPE__sai__GetUserAclEntryEx #define SOAP_TYPE__sai__GetUserAclEntryEx (83) /* sai:GetUserAclEntryEx */ class SOAP_CMAC _sai__GetUserAclEntryEx { public: unsigned int Handle; /* required element of type sai:UserAclEntryHandleType */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 83; } /* = unique id SOAP_TYPE__sai__GetUserAclEntryEx */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _sai__GetUserAclEntryEx() : soap(NULL) { } virtual ~_sai__GetUserAclEntryEx() { } }; #endif #ifndef SOAP_TYPE__sai__GetUserAclEntryExResponse #define SOAP_TYPE__sai__GetUserAclEntryExResponse (84) /* sai:GetUserAclEntryExResponse */ class SOAP_CMAC _sai__GetUserAclEntryExResponse { public: unsigned int StatusCode; /* RPC return element */ /* required element of type sai:PT_STATUS */ sai__UserAclEntryExType *EntryEx; /* required element of type sai:UserAclEntryExType */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 84; } /* = unique id SOAP_TYPE__sai__GetUserAclEntryExResponse */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _sai__GetUserAclEntryExResponse() : EntryEx(NULL), soap(NULL) { } virtual ~_sai__GetUserAclEntryExResponse() { } }; #endif #ifndef SOAP_TYPE__sai__UpdateUserAclEntryEx #define SOAP_TYPE__sai__UpdateUserAclEntryEx (85) /* sai:UpdateUserAclEntryEx */ class SOAP_CMAC _sai__UpdateUserAclEntryEx { public: unsigned int Handle; /* required element of type sai:UserAclEntryHandleType */ sai__UserAclEntryExType *EntryEx; /* required element of type sai:UserAclEntryExType */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 85; } /* = unique id SOAP_TYPE__sai__UpdateUserAclEntryEx */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _sai__UpdateUserAclEntryEx() : EntryEx(NULL), soap(NULL) { } virtual ~_sai__UpdateUserAclEntryEx() { } }; #endif #ifndef SOAP_TYPE__sai__UpdateUserAclEntryExResponse #define SOAP_TYPE__sai__UpdateUserAclEntryExResponse (86) /* sai:UpdateUserAclEntryExResponse */ class SOAP_CMAC _sai__UpdateUserAclEntryExResponse { public: unsigned int StatusCode; /* RPC return element */ /* required element of type sai:PT_STATUS */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 86; } /* = unique id SOAP_TYPE__sai__UpdateUserAclEntryExResponse */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _sai__UpdateUserAclEntryExResponse() : soap(NULL) { } virtual ~_sai__UpdateUserAclEntryExResponse() { } }; #endif #ifndef SOAP_TYPE__sai__SetAdminAclEntryEx #define SOAP_TYPE__sai__SetAdminAclEntryEx (87) /* sai:SetAdminAclEntryEx */ class SOAP_CMAC _sai__SetAdminAclEntryEx { public: sai__AdminAclEntryExType *EntryEx; /* required element of type sai:AdminAclEntryExType */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 87; } /* = unique id SOAP_TYPE__sai__SetAdminAclEntryEx */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _sai__SetAdminAclEntryEx() : EntryEx(NULL), soap(NULL) { } virtual ~_sai__SetAdminAclEntryEx() { } }; #endif #ifndef SOAP_TYPE__sai__SetAdminAclEntryExResponse #define SOAP_TYPE__sai__SetAdminAclEntryExResponse (88) /* sai:SetAdminAclEntryExResponse */ class SOAP_CMAC _sai__SetAdminAclEntryExResponse { public: unsigned int StatusCode; /* RPC return element */ /* required element of type sai:PT_STATUS */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 88; } /* = unique id SOAP_TYPE__sai__SetAdminAclEntryExResponse */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _sai__SetAdminAclEntryExResponse() : soap(NULL) { } virtual ~_sai__SetAdminAclEntryExResponse() { } }; #endif #ifndef SOAP_TYPE__sai__GetDigestRealm #define SOAP_TYPE__sai__GetDigestRealm (89) /* sai:GetDigestRealm */ class SOAP_CMAC _sai__GetDigestRealm { public: struct soap *soap; /* transient */ public: virtual int soap_type() const { return 89; } /* = unique id SOAP_TYPE__sai__GetDigestRealm */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _sai__GetDigestRealm() : soap(NULL) { } virtual ~_sai__GetDigestRealm() { } }; #endif #ifndef SOAP_TYPE__sai__GetDigestRealmResponse #define SOAP_TYPE__sai__GetDigestRealmResponse (90) /* sai:GetDigestRealmResponse */ class SOAP_CMAC _sai__GetDigestRealmResponse { public: unsigned int StatusCode; /* RPC return element */ /* required element of type sai:PT_STATUS */ std::string DigestRealm; /* required element of type xsd:string */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 90; } /* = unique id SOAP_TYPE__sai__GetDigestRealmResponse */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _sai__GetDigestRealmResponse() : soap(NULL) { } virtual ~_sai__GetDigestRealmResponse() { } }; #endif #ifndef SOAP_TYPE__sai__SetKerberosOptions #define SOAP_TYPE__sai__SetKerberosOptions (91) /* sai:SetKerberosOptions */ class SOAP_CMAC _sai__SetKerberosOptions { public: sai__KerberosOptionsType *KerberosOptions; /* optional element of type sai:KerberosOptionsType */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 91; } /* = unique id SOAP_TYPE__sai__SetKerberosOptions */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _sai__SetKerberosOptions() : KerberosOptions(NULL), soap(NULL) { } virtual ~_sai__SetKerberosOptions() { } }; #endif #ifndef SOAP_TYPE__sai__SetKerberosOptionsResponse #define SOAP_TYPE__sai__SetKerberosOptionsResponse (92) /* sai:SetKerberosOptionsResponse */ class SOAP_CMAC _sai__SetKerberosOptionsResponse { public: unsigned int StatusCode; /* RPC return element */ /* required element of type sai:PT_STATUS */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 92; } /* = unique id SOAP_TYPE__sai__SetKerberosOptionsResponse */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _sai__SetKerberosOptionsResponse() : soap(NULL) { } virtual ~_sai__SetKerberosOptionsResponse() { } }; #endif #ifndef SOAP_TYPE__sai__GetKerberosOptions #define SOAP_TYPE__sai__GetKerberosOptions (93) /* sai:GetKerberosOptions */ class SOAP_CMAC _sai__GetKerberosOptions { public: struct soap *soap; /* transient */ public: virtual int soap_type() const { return 93; } /* = unique id SOAP_TYPE__sai__GetKerberosOptions */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _sai__GetKerberosOptions() : soap(NULL) { } virtual ~_sai__GetKerberosOptions() { } }; #endif #ifndef SOAP_TYPE__sai__GetKerberosOptionsResponse #define SOAP_TYPE__sai__GetKerberosOptionsResponse (94) /* sai:GetKerberosOptionsResponse */ class SOAP_CMAC _sai__GetKerberosOptionsResponse { public: unsigned int StatusCode; /* RPC return element */ /* required element of type sai:PT_STATUS */ sai__KerberosOptionsType *KerberosOptions; /* required element of type sai:KerberosOptionsType */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 94; } /* = unique id SOAP_TYPE__sai__GetKerberosOptionsResponse */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _sai__GetKerberosOptionsResponse() : KerberosOptions(NULL), soap(NULL) { } virtual ~_sai__GetKerberosOptionsResponse() { } }; #endif #ifndef SOAP_TYPE__sai__SetEnabledInterfaces #define SOAP_TYPE__sai__SetEnabledInterfaces (95) /* sai:SetEnabledInterfaces */ class SOAP_CMAC _sai__SetEnabledInterfaces { public: std::vectorEnabledInterfaces; /* optional element of type sai:EnabledInterfacesType */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 95; } /* = unique id SOAP_TYPE__sai__SetEnabledInterfaces */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _sai__SetEnabledInterfaces() : soap(NULL) { } virtual ~_sai__SetEnabledInterfaces() { } }; #endif #ifndef SOAP_TYPE__sai__SetEnabledInterfacesResponse #define SOAP_TYPE__sai__SetEnabledInterfacesResponse (96) /* sai:SetEnabledInterfacesResponse */ class SOAP_CMAC _sai__SetEnabledInterfacesResponse { public: unsigned int StatusCode; /* RPC return element */ /* required element of type sai:PT_STATUS */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 96; } /* = unique id SOAP_TYPE__sai__SetEnabledInterfacesResponse */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _sai__SetEnabledInterfacesResponse() : soap(NULL) { } virtual ~_sai__SetEnabledInterfacesResponse() { } }; #endif #ifndef SOAP_TYPE__sai__GetEnabledInterfaces #define SOAP_TYPE__sai__GetEnabledInterfaces (97) /* sai:GetEnabledInterfaces */ class SOAP_CMAC _sai__GetEnabledInterfaces { public: struct soap *soap; /* transient */ public: virtual int soap_type() const { return 97; } /* = unique id SOAP_TYPE__sai__GetEnabledInterfaces */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _sai__GetEnabledInterfaces() : soap(NULL) { } virtual ~_sai__GetEnabledInterfaces() { } }; #endif #ifndef SOAP_TYPE__sai__GetEnabledInterfacesResponse #define SOAP_TYPE__sai__GetEnabledInterfacesResponse (98) /* sai:GetEnabledInterfacesResponse */ class SOAP_CMAC _sai__GetEnabledInterfacesResponse { public: unsigned int StatusCode; /* RPC return element */ /* required element of type sai:PT_STATUS */ std::vectorEnabledInterfaces; /* optional element of type sai:EnabledInterfacesType */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 98; } /* = unique id SOAP_TYPE__sai__GetEnabledInterfacesResponse */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _sai__GetEnabledInterfacesResponse() : soap(NULL) { } virtual ~_sai__GetEnabledInterfacesResponse() { } }; #endif #ifndef SOAP_TYPE__sai__SetTlsOptions #define SOAP_TYPE__sai__SetTlsOptions (99) /* sai:SetTlsOptions */ class SOAP_CMAC _sai__SetTlsOptions { public: std::vectorTlsOptions; /* sequence of 0 to 2 elements */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 99; } /* = unique id SOAP_TYPE__sai__SetTlsOptions */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _sai__SetTlsOptions() : soap(NULL) { } virtual ~_sai__SetTlsOptions() { } }; #endif #ifndef SOAP_TYPE__sai__SetTlsOptionsResponse #define SOAP_TYPE__sai__SetTlsOptionsResponse (100) /* sai:SetTlsOptionsResponse */ class SOAP_CMAC _sai__SetTlsOptionsResponse { public: unsigned int StatusCode; /* RPC return element */ /* required element of type sai:PT_STATUS */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 100; } /* = unique id SOAP_TYPE__sai__SetTlsOptionsResponse */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _sai__SetTlsOptionsResponse() : soap(NULL) { } virtual ~_sai__SetTlsOptionsResponse() { } }; #endif #ifndef SOAP_TYPE__sai__GetTlsOptions #define SOAP_TYPE__sai__GetTlsOptions (101) /* sai:GetTlsOptions */ class SOAP_CMAC _sai__GetTlsOptions { public: struct soap *soap; /* transient */ public: virtual int soap_type() const { return 101; } /* = unique id SOAP_TYPE__sai__GetTlsOptions */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _sai__GetTlsOptions() : soap(NULL) { } virtual ~_sai__GetTlsOptions() { } }; #endif #ifndef SOAP_TYPE__sai__GetTlsOptionsResponse #define SOAP_TYPE__sai__GetTlsOptionsResponse (102) /* sai:GetTlsOptionsResponse */ class SOAP_CMAC _sai__GetTlsOptionsResponse { public: unsigned int StatusCode; /* RPC return element */ /* required element of type sai:PT_STATUS */ std::vectorTlsOptions; /* sequence of 0 to 2 elements */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 102; } /* = unique id SOAP_TYPE__sai__GetTlsOptionsResponse */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _sai__GetTlsOptionsResponse() : soap(NULL) { } virtual ~_sai__GetTlsOptionsResponse() { } }; #endif #ifndef SOAP_TYPE__sai__AddTrustedRootCertificate #define SOAP_TYPE__sai__AddTrustedRootCertificate (103) /* sai:AddTrustedRootCertificate */ class SOAP_CMAC _sai__AddTrustedRootCertificate { public: sai__CertificateType *Certificate; /* required element of type sai:CertificateType */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 103; } /* = unique id SOAP_TYPE__sai__AddTrustedRootCertificate */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _sai__AddTrustedRootCertificate() : Certificate(NULL), soap(NULL) { } virtual ~_sai__AddTrustedRootCertificate() { } }; #endif #ifndef SOAP_TYPE__sai__AddTrustedRootCertificateResponse #define SOAP_TYPE__sai__AddTrustedRootCertificateResponse (104) /* sai:AddTrustedRootCertificateResponse */ class SOAP_CMAC _sai__AddTrustedRootCertificateResponse { public: unsigned int StatusCode; /* RPC return element */ /* required element of type sai:PT_STATUS */ unsigned int CertHandle; /* required element of type sai:CertificateHandleType */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 104; } /* = unique id SOAP_TYPE__sai__AddTrustedRootCertificateResponse */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _sai__AddTrustedRootCertificateResponse() : soap(NULL) { } virtual ~_sai__AddTrustedRootCertificateResponse() { } }; #endif #ifndef SOAP_TYPE__sai__GetTrustedRootCertificate #define SOAP_TYPE__sai__GetTrustedRootCertificate (105) /* sai:GetTrustedRootCertificate */ class SOAP_CMAC _sai__GetTrustedRootCertificate { public: unsigned int CertHandle; /* required element of type sai:CertificateHandleType */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 105; } /* = unique id SOAP_TYPE__sai__GetTrustedRootCertificate */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _sai__GetTrustedRootCertificate() : soap(NULL) { } virtual ~_sai__GetTrustedRootCertificate() { } }; #endif #ifndef SOAP_TYPE__sai__GetTrustedRootCertificateResponse #define SOAP_TYPE__sai__GetTrustedRootCertificateResponse (106) /* sai:GetTrustedRootCertificateResponse */ class SOAP_CMAC _sai__GetTrustedRootCertificateResponse { public: unsigned int StatusCode; /* RPC return element */ /* required element of type sai:PT_STATUS */ sai__CertificateType *Certificate; /* required element of type sai:CertificateType */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 106; } /* = unique id SOAP_TYPE__sai__GetTrustedRootCertificateResponse */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _sai__GetTrustedRootCertificateResponse() : Certificate(NULL), soap(NULL) { } virtual ~_sai__GetTrustedRootCertificateResponse() { } }; #endif #ifndef SOAP_TYPE__sai__DeleteTrustedRootCertificate #define SOAP_TYPE__sai__DeleteTrustedRootCertificate (107) /* sai:DeleteTrustedRootCertificate */ class SOAP_CMAC _sai__DeleteTrustedRootCertificate { public: unsigned int CertHandle; /* required element of type sai:CertificateHandleType */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 107; } /* = unique id SOAP_TYPE__sai__DeleteTrustedRootCertificate */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _sai__DeleteTrustedRootCertificate() : soap(NULL) { } virtual ~_sai__DeleteTrustedRootCertificate() { } }; #endif #ifndef SOAP_TYPE__sai__DeleteTrustedRootCertificateResponse #define SOAP_TYPE__sai__DeleteTrustedRootCertificateResponse (108) /* sai:DeleteTrustedRootCertificateResponse */ class SOAP_CMAC _sai__DeleteTrustedRootCertificateResponse { public: unsigned int StatusCode; /* RPC return element */ /* required element of type sai:PT_STATUS */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 108; } /* = unique id SOAP_TYPE__sai__DeleteTrustedRootCertificateResponse */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _sai__DeleteTrustedRootCertificateResponse() : soap(NULL) { } virtual ~_sai__DeleteTrustedRootCertificateResponse() { } }; #endif #ifndef SOAP_TYPE__sai__EnumerateTrustedRootCertificates #define SOAP_TYPE__sai__EnumerateTrustedRootCertificates (109) /* sai:EnumerateTrustedRootCertificates */ class SOAP_CMAC _sai__EnumerateTrustedRootCertificates { public: struct soap *soap; /* transient */ public: virtual int soap_type() const { return 109; } /* = unique id SOAP_TYPE__sai__EnumerateTrustedRootCertificates */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _sai__EnumerateTrustedRootCertificates() : soap(NULL) { } virtual ~_sai__EnumerateTrustedRootCertificates() { } }; #endif #ifndef SOAP_TYPE__sai__EnumerateTrustedRootCertificatesResponse #define SOAP_TYPE__sai__EnumerateTrustedRootCertificatesResponse (110) /* sai:EnumerateTrustedRootCertificatesResponse */ class SOAP_CMAC _sai__EnumerateTrustedRootCertificatesResponse { public: unsigned int StatusCode; /* RPC return element */ /* required element of type sai:PT_STATUS */ std::vectorCertHandle; /* optional element of type sai:CertificateHandleType */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 110; } /* = unique id SOAP_TYPE__sai__EnumerateTrustedRootCertificatesResponse */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _sai__EnumerateTrustedRootCertificatesResponse() : soap(NULL) { } virtual ~_sai__EnumerateTrustedRootCertificatesResponse() { } }; #endif #ifndef SOAP_TYPE__sai__SetTrustedFqdnCN #define SOAP_TYPE__sai__SetTrustedFqdnCN (111) /* sai:SetTrustedFqdnCN */ class SOAP_CMAC _sai__SetTrustedFqdnCN { public: std::vectorFqdnSuffix; /* optional element of type xsd:string */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 111; } /* = unique id SOAP_TYPE__sai__SetTrustedFqdnCN */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _sai__SetTrustedFqdnCN() : soap(NULL) { } virtual ~_sai__SetTrustedFqdnCN() { } }; #endif #ifndef SOAP_TYPE__sai__SetTrustedFqdnCNResponse #define SOAP_TYPE__sai__SetTrustedFqdnCNResponse (112) /* sai:SetTrustedFqdnCNResponse */ class SOAP_CMAC _sai__SetTrustedFqdnCNResponse { public: unsigned int StatusCode; /* RPC return element */ /* required element of type sai:PT_STATUS */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 112; } /* = unique id SOAP_TYPE__sai__SetTrustedFqdnCNResponse */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _sai__SetTrustedFqdnCNResponse() : soap(NULL) { } virtual ~_sai__SetTrustedFqdnCNResponse() { } }; #endif #ifndef SOAP_TYPE__sai__GetTrustedFqdnCN #define SOAP_TYPE__sai__GetTrustedFqdnCN (113) /* sai:GetTrustedFqdnCN */ class SOAP_CMAC _sai__GetTrustedFqdnCN { public: struct soap *soap; /* transient */ public: virtual int soap_type() const { return 113; } /* = unique id SOAP_TYPE__sai__GetTrustedFqdnCN */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _sai__GetTrustedFqdnCN() : soap(NULL) { } virtual ~_sai__GetTrustedFqdnCN() { } }; #endif #ifndef SOAP_TYPE__sai__GetTrustedFqdnCNResponse #define SOAP_TYPE__sai__GetTrustedFqdnCNResponse (114) /* sai:GetTrustedFqdnCNResponse */ class SOAP_CMAC _sai__GetTrustedFqdnCNResponse { public: unsigned int StatusCode; /* RPC return element */ /* required element of type sai:PT_STATUS */ std::vectorFqdnSuffix; /* optional element of type xsd:string */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 114; } /* = unique id SOAP_TYPE__sai__GetTrustedFqdnCNResponse */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _sai__GetTrustedFqdnCNResponse() : soap(NULL) { } virtual ~_sai__GetTrustedFqdnCNResponse() { } }; #endif #ifndef SOAP_TYPE__sai__SetCRL #define SOAP_TYPE__sai__SetCRL (115) /* sai:SetCRL */ class SOAP_CMAC _sai__SetCRL { public: std::vectorCrl; /* optional element of type sai:CrlType */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 115; } /* = unique id SOAP_TYPE__sai__SetCRL */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _sai__SetCRL() : soap(NULL) { } virtual ~_sai__SetCRL() { } }; #endif #ifndef SOAP_TYPE__sai__SetCRLResponse #define SOAP_TYPE__sai__SetCRLResponse (116) /* sai:SetCRLResponse */ class SOAP_CMAC _sai__SetCRLResponse { public: unsigned int StatusCode; /* RPC return element */ /* required element of type sai:PT_STATUS */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 116; } /* = unique id SOAP_TYPE__sai__SetCRLResponse */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _sai__SetCRLResponse() : soap(NULL) { } virtual ~_sai__SetCRLResponse() { } }; #endif #ifndef SOAP_TYPE__sai__GetCRL #define SOAP_TYPE__sai__GetCRL (117) /* sai:GetCRL */ class SOAP_CMAC _sai__GetCRL { public: struct soap *soap; /* transient */ public: virtual int soap_type() const { return 117; } /* = unique id SOAP_TYPE__sai__GetCRL */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _sai__GetCRL() : soap(NULL) { } virtual ~_sai__GetCRL() { } }; #endif #ifndef SOAP_TYPE__sai__GetCRLResponse #define SOAP_TYPE__sai__GetCRLResponse (118) /* sai:GetCRLResponse */ class SOAP_CMAC _sai__GetCRLResponse { public: unsigned int StatusCode; /* RPC return element */ /* required element of type sai:PT_STATUS */ std::vectorCrl; /* optional element of type sai:CrlType */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 118; } /* = unique id SOAP_TYPE__sai__GetCRLResponse */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _sai__GetCRLResponse() : soap(NULL) { } virtual ~_sai__GetCRLResponse() { } }; #endif #ifndef SOAP_TYPE__sai__GetServerCertificateReq #define SOAP_TYPE__sai__GetServerCertificateReq (119) /* sai:GetServerCertificateReq */ class SOAP_CMAC _sai__GetServerCertificateReq { public: struct soap *soap; /* transient */ public: virtual int soap_type() const { return 119; } /* = unique id SOAP_TYPE__sai__GetServerCertificateReq */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _sai__GetServerCertificateReq() : soap(NULL) { } virtual ~_sai__GetServerCertificateReq() { } }; #endif #ifndef SOAP_TYPE__sai__GetServerCertificateReqResponse #define SOAP_TYPE__sai__GetServerCertificateReqResponse (120) /* sai:GetServerCertificateReqResponse */ class SOAP_CMAC _sai__GetServerCertificateReqResponse { public: unsigned int StatusCode; /* RPC return element */ /* required element of type sai:PT_STATUS */ xsd__base64Binary CertReq; /* required element of type xsd:base64Binary */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 120; } /* = unique id SOAP_TYPE__sai__GetServerCertificateReqResponse */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _sai__GetServerCertificateReqResponse() : soap(NULL) { } virtual ~_sai__GetServerCertificateReqResponse() { } }; #endif #ifndef SOAP_TYPE__sai__GetPkiCapabilities #define SOAP_TYPE__sai__GetPkiCapabilities (121) /* sai:GetPkiCapabilities */ class SOAP_CMAC _sai__GetPkiCapabilities { public: struct soap *soap; /* transient */ public: virtual int soap_type() const { return 121; } /* = unique id SOAP_TYPE__sai__GetPkiCapabilities */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _sai__GetPkiCapabilities() : soap(NULL) { } virtual ~_sai__GetPkiCapabilities() { } }; #endif #ifndef SOAP_TYPE__sai__GetPkiCapabilitiesResponse #define SOAP_TYPE__sai__GetPkiCapabilitiesResponse (122) /* sai:GetPkiCapabilitiesResponse */ class SOAP_CMAC _sai__GetPkiCapabilitiesResponse { public: unsigned int StatusCode; /* RPC return element */ /* required element of type sai:PT_STATUS */ sai__PkiCapsType *PkiCaps; /* required element of type sai:PkiCapsType */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 122; } /* = unique id SOAP_TYPE__sai__GetPkiCapabilitiesResponse */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _sai__GetPkiCapabilitiesResponse() : PkiCaps(NULL), soap(NULL) { } virtual ~_sai__GetPkiCapabilitiesResponse() { } }; #endif #ifndef SOAP_TYPE__sai__SetPowerSavingOptions #define SOAP_TYPE__sai__SetPowerSavingOptions (123) /* sai:SetPowerSavingOptions */ class SOAP_CMAC _sai__SetPowerSavingOptions { public: enum sai__PowerStateType ActiveStateAC; /* required element of type sai:PowerStateType */ enum sai__PowerStateType *WakeOnNetAccessThresholdAC; /* optional element of type sai:PowerStateType */ unsigned short *WakeOnNetAccessSleepTimer; /* optional element of type xsd:unsignedShort */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 123; } /* = unique id SOAP_TYPE__sai__SetPowerSavingOptions */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _sai__SetPowerSavingOptions() : WakeOnNetAccessThresholdAC(NULL), WakeOnNetAccessSleepTimer(NULL), soap(NULL) { } virtual ~_sai__SetPowerSavingOptions() { } }; #endif #ifndef SOAP_TYPE__sai__SetPowerSavingOptionsResponse #define SOAP_TYPE__sai__SetPowerSavingOptionsResponse (124) /* sai:SetPowerSavingOptionsResponse */ class SOAP_CMAC _sai__SetPowerSavingOptionsResponse { public: unsigned int StatusCode; /* RPC return element */ /* required element of type sai:PT_STATUS */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 124; } /* = unique id SOAP_TYPE__sai__SetPowerSavingOptionsResponse */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _sai__SetPowerSavingOptionsResponse() : soap(NULL) { } virtual ~_sai__SetPowerSavingOptionsResponse() { } }; #endif #ifndef SOAP_TYPE__sai__GetPowerSavingOptions #define SOAP_TYPE__sai__GetPowerSavingOptions (125) /* sai:GetPowerSavingOptions */ class SOAP_CMAC _sai__GetPowerSavingOptions { public: struct soap *soap; /* transient */ public: virtual int soap_type() const { return 125; } /* = unique id SOAP_TYPE__sai__GetPowerSavingOptions */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _sai__GetPowerSavingOptions() : soap(NULL) { } virtual ~_sai__GetPowerSavingOptions() { } }; #endif #ifndef SOAP_TYPE__sai__GetPowerSavingOptionsResponse #define SOAP_TYPE__sai__GetPowerSavingOptionsResponse (126) /* sai:GetPowerSavingOptionsResponse */ class SOAP_CMAC _sai__GetPowerSavingOptionsResponse { public: unsigned int StatusCode; /* RPC return element */ /* required element of type sai:PT_STATUS */ enum sai__PowerStateType ActiveStateAC; /* required element of type sai:PowerStateType */ enum sai__PowerStateType *WakeOnNetAccessThresholdAC; /* optional element of type sai:PowerStateType */ unsigned short *WakeOnNetAccessSleepTimer; /* optional element of type xsd:unsignedShort */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 126; } /* = unique id SOAP_TYPE__sai__GetPowerSavingOptionsResponse */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _sai__GetPowerSavingOptionsResponse() : WakeOnNetAccessThresholdAC(NULL), WakeOnNetAccessSleepTimer(NULL), soap(NULL) { } virtual ~_sai__GetPowerSavingOptionsResponse() { } }; #endif #ifndef SOAP_TYPE__sai__SetTLSPSK #define SOAP_TYPE__sai__SetTLSPSK (127) /* sai:SetTLSPSK */ class SOAP_CMAC _sai__SetTLSPSK { public: xsd__base64Binary PID; /* required element of type xsd:base64Binary */ xsd__base64Binary PPS; /* required element of type xsd:base64Binary */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 127; } /* = unique id SOAP_TYPE__sai__SetTLSPSK */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _sai__SetTLSPSK() : soap(NULL) { } virtual ~_sai__SetTLSPSK() { } }; #endif #ifndef SOAP_TYPE__sai__SetTLSPSKResponse #define SOAP_TYPE__sai__SetTLSPSKResponse (128) /* sai:SetTLSPSKResponse */ class SOAP_CMAC _sai__SetTLSPSKResponse { public: unsigned int StatusCode; /* RPC return element */ /* required element of type sai:PT_STATUS */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 128; } /* = unique id SOAP_TYPE__sai__SetTLSPSKResponse */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _sai__SetTLSPSKResponse() : soap(NULL) { } virtual ~_sai__SetTLSPSKResponse() { } }; #endif #ifndef SOAP_TYPE__sai__PartialUnprovision #define SOAP_TYPE__sai__PartialUnprovision (129) /* sai:PartialUnprovision */ class SOAP_CMAC _sai__PartialUnprovision { public: struct soap *soap; /* transient */ public: virtual int soap_type() const { return 129; } /* = unique id SOAP_TYPE__sai__PartialUnprovision */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _sai__PartialUnprovision() : soap(NULL) { } virtual ~_sai__PartialUnprovision() { } }; #endif #ifndef SOAP_TYPE__sai__PartialUnprovisionResponse #define SOAP_TYPE__sai__PartialUnprovisionResponse (130) /* sai:PartialUnprovisionResponse */ class SOAP_CMAC _sai__PartialUnprovisionResponse { public: unsigned int StatusCode; /* RPC return element */ /* required element of type sai:PT_STATUS */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 130; } /* = unique id SOAP_TYPE__sai__PartialUnprovisionResponse */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _sai__PartialUnprovisionResponse() : soap(NULL) { } virtual ~_sai__PartialUnprovisionResponse() { } }; #endif #ifndef SOAP_TYPE__sai__SetMEBxPassword #define SOAP_TYPE__sai__SetMEBxPassword (131) /* sai:SetMEBxPassword */ class SOAP_CMAC _sai__SetMEBxPassword { public: std::string Password; /* required element of type sai:MEBxPasswordType */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 131; } /* = unique id SOAP_TYPE__sai__SetMEBxPassword */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _sai__SetMEBxPassword() : soap(NULL) { } virtual ~_sai__SetMEBxPassword() { } }; #endif #ifndef SOAP_TYPE__sai__SetMEBxPasswordResponse #define SOAP_TYPE__sai__SetMEBxPasswordResponse (132) /* sai:SetMEBxPasswordResponse */ class SOAP_CMAC _sai__SetMEBxPasswordResponse { public: unsigned int StatusCode; /* RPC return element */ /* required element of type cmn:PT_STATUS */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 132; } /* = unique id SOAP_TYPE__sai__SetMEBxPasswordResponse */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _sai__SetMEBxPasswordResponse() : soap(NULL) { } virtual ~_sai__SetMEBxPasswordResponse() { } }; #endif #ifndef SOAP_TYPE__sai__SetProvisioningServerOTP #define SOAP_TYPE__sai__SetProvisioningServerOTP (133) /* sai:SetProvisioningServerOTP */ class SOAP_CMAC _sai__SetProvisioningServerOTP { public: xsd__base64Binary *OTP; /* optional element of type sai:ProvisioningOTPType */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 133; } /* = unique id SOAP_TYPE__sai__SetProvisioningServerOTP */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _sai__SetProvisioningServerOTP() : OTP(NULL), soap(NULL) { } virtual ~_sai__SetProvisioningServerOTP() { } }; #endif #ifndef SOAP_TYPE__sai__SetProvisioningServerOTPResponse #define SOAP_TYPE__sai__SetProvisioningServerOTPResponse (134) /* sai:SetProvisioningServerOTPResponse */ class SOAP_CMAC _sai__SetProvisioningServerOTPResponse { public: unsigned int StatusCode; /* RPC return element */ /* required element of type cmn:PT_STATUS */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 134; } /* = unique id SOAP_TYPE__sai__SetProvisioningServerOTPResponse */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _sai__SetProvisioningServerOTPResponse() : soap(NULL) { } virtual ~_sai__SetProvisioningServerOTPResponse() { } }; #endif #ifndef SOAP_TYPE__sai__GetProvisioningServerOTP #define SOAP_TYPE__sai__GetProvisioningServerOTP (135) /* sai:GetProvisioningServerOTP */ class SOAP_CMAC _sai__GetProvisioningServerOTP { public: struct soap *soap; /* transient */ public: virtual int soap_type() const { return 135; } /* = unique id SOAP_TYPE__sai__GetProvisioningServerOTP */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _sai__GetProvisioningServerOTP() : soap(NULL) { } virtual ~_sai__GetProvisioningServerOTP() { } }; #endif #ifndef SOAP_TYPE__sai__GetProvisioningServerOTPResponse #define SOAP_TYPE__sai__GetProvisioningServerOTPResponse (136) /* sai:GetProvisioningServerOTPResponse */ class SOAP_CMAC _sai__GetProvisioningServerOTPResponse { public: unsigned int StatusCode; /* RPC return element */ /* required element of type cmn:PT_STATUS */ xsd__base64Binary OTP; /* required element of type xsd:base64Binary */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 136; } /* = unique id SOAP_TYPE__sai__GetProvisioningServerOTPResponse */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _sai__GetProvisioningServerOTPResponse() : soap(NULL) { } virtual ~_sai__GetProvisioningServerOTPResponse() { } }; #endif #ifndef SOAP_TYPE__sai__EnumerateCertificateHashEntries #define SOAP_TYPE__sai__EnumerateCertificateHashEntries (137) /* sai:EnumerateCertificateHashEntries */ class SOAP_CMAC _sai__EnumerateCertificateHashEntries { public: struct soap *soap; /* transient */ public: virtual int soap_type() const { return 137; } /* = unique id SOAP_TYPE__sai__EnumerateCertificateHashEntries */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _sai__EnumerateCertificateHashEntries() : soap(NULL) { } virtual ~_sai__EnumerateCertificateHashEntries() { } }; #endif #ifndef SOAP_TYPE__sai__EnumerateCertificateHashEntriesResponse #define SOAP_TYPE__sai__EnumerateCertificateHashEntriesResponse (138) /* sai:EnumerateCertificateHashEntriesResponse */ class SOAP_CMAC _sai__EnumerateCertificateHashEntriesResponse { public: unsigned int StatusCode; /* RPC return element */ /* required element of type cmn:PT_STATUS */ std::vectorHandles; /* optional element of type xsd:unsignedInt */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 138; } /* = unique id SOAP_TYPE__sai__EnumerateCertificateHashEntriesResponse */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _sai__EnumerateCertificateHashEntriesResponse() : soap(NULL) { } virtual ~_sai__EnumerateCertificateHashEntriesResponse() { } }; #endif #ifndef SOAP_TYPE__sai__GetCertificateHashEntry #define SOAP_TYPE__sai__GetCertificateHashEntry (139) /* sai:GetCertificateHashEntry */ class SOAP_CMAC _sai__GetCertificateHashEntry { public: unsigned int Handle; /* required element of type xsd:unsignedInt */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 139; } /* = unique id SOAP_TYPE__sai__GetCertificateHashEntry */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _sai__GetCertificateHashEntry() : soap(NULL) { } virtual ~_sai__GetCertificateHashEntry() { } }; #endif #ifndef SOAP_TYPE__sai__GetCertificateHashEntryResponse #define SOAP_TYPE__sai__GetCertificateHashEntryResponse (140) /* sai:GetCertificateHashEntryResponse */ class SOAP_CMAC _sai__GetCertificateHashEntryResponse { public: unsigned int StatusCode; /* RPC return element */ /* required element of type cmn:PT_STATUS */ sai__CertHashEntryType *CertHashEntry; /* required element of type sai:CertHashEntryType */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 140; } /* = unique id SOAP_TYPE__sai__GetCertificateHashEntryResponse */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _sai__GetCertificateHashEntryResponse() : CertHashEntry(NULL), soap(NULL) { } virtual ~_sai__GetCertificateHashEntryResponse() { } }; #endif #ifndef SOAP_TYPE__sai__AddCertificateHashEntry #define SOAP_TYPE__sai__AddCertificateHashEntry (141) /* sai:AddCertificateHashEntry */ class SOAP_CMAC _sai__AddCertificateHashEntry { public: sai__CertHashEntryType *CertHashEntry; /* required element of type sai:CertHashEntryType */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 141; } /* = unique id SOAP_TYPE__sai__AddCertificateHashEntry */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _sai__AddCertificateHashEntry() : CertHashEntry(NULL), soap(NULL) { } virtual ~_sai__AddCertificateHashEntry() { } }; #endif #ifndef SOAP_TYPE__sai__AddCertificateHashEntryResponse #define SOAP_TYPE__sai__AddCertificateHashEntryResponse (142) /* sai:AddCertificateHashEntryResponse */ class SOAP_CMAC _sai__AddCertificateHashEntryResponse { public: unsigned int StatusCode; /* RPC return element */ /* required element of type cmn:PT_STATUS */ unsigned int Handle; /* required element of type xsd:unsignedInt */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 142; } /* = unique id SOAP_TYPE__sai__AddCertificateHashEntryResponse */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _sai__AddCertificateHashEntryResponse() : soap(NULL) { } virtual ~_sai__AddCertificateHashEntryResponse() { } }; #endif #ifndef SOAP_TYPE__sai__DeleteCertificateHashEntry #define SOAP_TYPE__sai__DeleteCertificateHashEntry (143) /* sai:DeleteCertificateHashEntry */ class SOAP_CMAC _sai__DeleteCertificateHashEntry { public: unsigned int Handle; /* required element of type xsd:unsignedInt */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 143; } /* = unique id SOAP_TYPE__sai__DeleteCertificateHashEntry */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _sai__DeleteCertificateHashEntry() : soap(NULL) { } virtual ~_sai__DeleteCertificateHashEntry() { } }; #endif #ifndef SOAP_TYPE__sai__DeleteCertificateHashEntryResponse #define SOAP_TYPE__sai__DeleteCertificateHashEntryResponse (144) /* sai:DeleteCertificateHashEntryResponse */ class SOAP_CMAC _sai__DeleteCertificateHashEntryResponse { public: unsigned int StatusCode; /* RPC return element */ /* required element of type cmn:PT_STATUS */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 144; } /* = unique id SOAP_TYPE__sai__DeleteCertificateHashEntryResponse */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _sai__DeleteCertificateHashEntryResponse() : soap(NULL) { } virtual ~_sai__DeleteCertificateHashEntryResponse() { } }; #endif #ifndef SOAP_TYPE__sai__EnableCertificateHashEntry #define SOAP_TYPE__sai__EnableCertificateHashEntry (145) /* sai:EnableCertificateHashEntry */ class SOAP_CMAC _sai__EnableCertificateHashEntry { public: unsigned int Handle; /* required element of type xsd:unsignedInt */ bool Enabled; /* required element of type xsd:boolean */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 145; } /* = unique id SOAP_TYPE__sai__EnableCertificateHashEntry */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _sai__EnableCertificateHashEntry() : soap(NULL) { } virtual ~_sai__EnableCertificateHashEntry() { } }; #endif #ifndef SOAP_TYPE__sai__EnableCertificateHashEntryResponse #define SOAP_TYPE__sai__EnableCertificateHashEntryResponse (146) /* sai:EnableCertificateHashEntryResponse */ class SOAP_CMAC _sai__EnableCertificateHashEntryResponse { public: unsigned int StatusCode; /* RPC return element */ /* required element of type cmn:PT_STATUS */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 146; } /* = unique id SOAP_TYPE__sai__EnableCertificateHashEntryResponse */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _sai__EnableCertificateHashEntryResponse() : soap(NULL) { } virtual ~_sai__EnableCertificateHashEntryResponse() { } }; #endif #ifndef SOAP_TYPE__sai__GetZeroTouchConfigurationMode #define SOAP_TYPE__sai__GetZeroTouchConfigurationMode (147) /* sai:GetZeroTouchConfigurationMode */ class SOAP_CMAC _sai__GetZeroTouchConfigurationMode { public: struct soap *soap; /* transient */ public: virtual int soap_type() const { return 147; } /* = unique id SOAP_TYPE__sai__GetZeroTouchConfigurationMode */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _sai__GetZeroTouchConfigurationMode() : soap(NULL) { } virtual ~_sai__GetZeroTouchConfigurationMode() { } }; #endif #ifndef SOAP_TYPE__sai__GetZeroTouchConfigurationModeResponse #define SOAP_TYPE__sai__GetZeroTouchConfigurationModeResponse (148) /* sai:GetZeroTouchConfigurationModeResponse */ class SOAP_CMAC _sai__GetZeroTouchConfigurationModeResponse { public: unsigned int StatusCode; /* RPC return element */ /* required element of type cmn:PT_STATUS */ bool Enabled; /* required element of type xsd:boolean */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 148; } /* = unique id SOAP_TYPE__sai__GetZeroTouchConfigurationModeResponse */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _sai__GetZeroTouchConfigurationModeResponse() : soap(NULL) { } virtual ~_sai__GetZeroTouchConfigurationModeResponse() { } }; #endif #ifndef SOAP_TYPE__sai__SetZeroTouchConfigurationMode #define SOAP_TYPE__sai__SetZeroTouchConfigurationMode (149) /* sai:SetZeroTouchConfigurationMode */ class SOAP_CMAC _sai__SetZeroTouchConfigurationMode { public: bool Enabled; /* required element of type xsd:boolean */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 149; } /* = unique id SOAP_TYPE__sai__SetZeroTouchConfigurationMode */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _sai__SetZeroTouchConfigurationMode() : soap(NULL) { } virtual ~_sai__SetZeroTouchConfigurationMode() { } }; #endif #ifndef SOAP_TYPE__sai__SetZeroTouchConfigurationModeResponse #define SOAP_TYPE__sai__SetZeroTouchConfigurationModeResponse (150) /* sai:SetZeroTouchConfigurationModeResponse */ class SOAP_CMAC _sai__SetZeroTouchConfigurationModeResponse { public: unsigned int StatusCode; /* RPC return element */ /* required element of type cmn:PT_STATUS */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 150; } /* = unique id SOAP_TYPE__sai__SetZeroTouchConfigurationModeResponse */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _sai__SetZeroTouchConfigurationModeResponse() : soap(NULL) { } virtual ~_sai__SetZeroTouchConfigurationModeResponse() { } }; #endif #ifndef SOAP_TYPE__sai__GetProvisioningAuditRecord #define SOAP_TYPE__sai__GetProvisioningAuditRecord (151) /* sai:GetProvisioningAuditRecord */ class SOAP_CMAC _sai__GetProvisioningAuditRecord { public: struct soap *soap; /* transient */ public: virtual int soap_type() const { return 151; } /* = unique id SOAP_TYPE__sai__GetProvisioningAuditRecord */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _sai__GetProvisioningAuditRecord() : soap(NULL) { } virtual ~_sai__GetProvisioningAuditRecord() { } }; #endif #ifndef SOAP_TYPE__sai__GetProvisioningAuditRecordResponse #define SOAP_TYPE__sai__GetProvisioningAuditRecordResponse (152) /* sai:GetProvisioningAuditRecordResponse */ class SOAP_CMAC _sai__GetProvisioningAuditRecordResponse { public: unsigned int StatusCode; /* RPC return element */ /* required element of type cmn:PT_STATUS */ sai__ProvisioningAuditRecordType *ProvisioningAuditRecord; /* required element of type sai:ProvisioningAuditRecordType */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 152; } /* = unique id SOAP_TYPE__sai__GetProvisioningAuditRecordResponse */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _sai__GetProvisioningAuditRecordResponse() : ProvisioningAuditRecord(NULL), soap(NULL) { } virtual ~_sai__GetProvisioningAuditRecordResponse() { } }; #endif #ifndef SOAP_TYPE__sai__GetProvisioningPID #define SOAP_TYPE__sai__GetProvisioningPID (153) /* sai:GetProvisioningPID */ class SOAP_CMAC _sai__GetProvisioningPID { public: struct soap *soap; /* transient */ public: virtual int soap_type() const { return 153; } /* = unique id SOAP_TYPE__sai__GetProvisioningPID */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _sai__GetProvisioningPID() : soap(NULL) { } virtual ~_sai__GetProvisioningPID() { } }; #endif #ifndef SOAP_TYPE__sai__GetProvisioningPIDResponse #define SOAP_TYPE__sai__GetProvisioningPIDResponse (154) /* sai:GetProvisioningPIDResponse */ class SOAP_CMAC _sai__GetProvisioningPIDResponse { public: unsigned int StatusCode; /* RPC return element */ /* required element of type cmn:PT_STATUS */ xsd__base64Binary PID; /* required element of type xsd:base64Binary */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 154; } /* = unique id SOAP_TYPE__sai__GetProvisioningPIDResponse */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _sai__GetProvisioningPIDResponse() : soap(NULL) { } virtual ~_sai__GetProvisioningPIDResponse() { } }; #endif #ifndef SOAP_TYPE__sai__ExtendProvisioningPeriod #define SOAP_TYPE__sai__ExtendProvisioningPeriod (155) /* sai:ExtendProvisioningPeriod */ class SOAP_CMAC _sai__ExtendProvisioningPeriod { public: unsigned int Duration; /* required element of type xsd:unsignedInt */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 155; } /* = unique id SOAP_TYPE__sai__ExtendProvisioningPeriod */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _sai__ExtendProvisioningPeriod() : soap(NULL) { } virtual ~_sai__ExtendProvisioningPeriod() { } }; #endif #ifndef SOAP_TYPE__sai__ExtendProvisioningPeriodResponse #define SOAP_TYPE__sai__ExtendProvisioningPeriodResponse (156) /* sai:ExtendProvisioningPeriodResponse */ class SOAP_CMAC _sai__ExtendProvisioningPeriodResponse { public: unsigned int StatusCode; /* RPC return element */ /* required element of type cmn:PT_STATUS */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 156; } /* = unique id SOAP_TYPE__sai__ExtendProvisioningPeriodResponse */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _sai__ExtendProvisioningPeriodResponse() : soap(NULL) { } virtual ~_sai__ExtendProvisioningPeriodResponse() { } }; #endif #ifndef SOAP_TYPE__sai__GetRealmAuthOptions #define SOAP_TYPE__sai__GetRealmAuthOptions (157) /* sai:GetRealmAuthOptions */ class SOAP_CMAC _sai__GetRealmAuthOptions { public: enum sai__UserAclRealmType Realm; /* required element of type sai:UserAclRealmType */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 157; } /* = unique id SOAP_TYPE__sai__GetRealmAuthOptions */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _sai__GetRealmAuthOptions() : soap(NULL) { } virtual ~_sai__GetRealmAuthOptions() { } }; #endif #ifndef SOAP_TYPE__sai__GetRealmAuthOptionsResponse #define SOAP_TYPE__sai__GetRealmAuthOptionsResponse (158) /* sai:GetRealmAuthOptionsResponse */ class SOAP_CMAC _sai__GetRealmAuthOptionsResponse { public: unsigned int StatusCode; /* RPC return element */ /* required element of type sai:PT_STATUS */ enum sai__HTTPAuthOptionType HTTPAuthOption; /* required element of type sai:HTTPAuthOptionType */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 158; } /* = unique id SOAP_TYPE__sai__GetRealmAuthOptionsResponse */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _sai__GetRealmAuthOptionsResponse() : soap(NULL) { } virtual ~_sai__GetRealmAuthOptionsResponse() { } }; #endif #ifndef SOAP_TYPE__sai__SetRealmAuthOptions #define SOAP_TYPE__sai__SetRealmAuthOptions (159) /* sai:SetRealmAuthOptions */ class SOAP_CMAC _sai__SetRealmAuthOptions { public: enum sai__UserAclRealmType Realm; /* required element of type sai:UserAclRealmType */ enum sai__HTTPAuthOptionType HTTPAuthOption; /* required element of type sai:HTTPAuthOptionType */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 159; } /* = unique id SOAP_TYPE__sai__SetRealmAuthOptions */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _sai__SetRealmAuthOptions() : soap(NULL) { } virtual ~_sai__SetRealmAuthOptions() { } }; #endif #ifndef SOAP_TYPE__sai__SetRealmAuthOptionsResponse #define SOAP_TYPE__sai__SetRealmAuthOptionsResponse (160) /* sai:SetRealmAuthOptionsResponse */ class SOAP_CMAC _sai__SetRealmAuthOptionsResponse { public: unsigned int StatusCode; /* RPC return element */ /* required element of type sai:PT_STATUS */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 160; } /* = unique id SOAP_TYPE__sai__SetRealmAuthOptionsResponse */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _sai__SetRealmAuthOptionsResponse() : soap(NULL) { } virtual ~_sai__SetRealmAuthOptionsResponse() { } }; #endif #ifndef SOAP_TYPE__sai__SetEnvironmentDetection #define SOAP_TYPE__sai__SetEnvironmentDetection (161) /* sai:SetEnvironmentDetection */ class SOAP_CMAC _sai__SetEnvironmentDetection { public: sai__EnvironmentDetectionType *Params; /* required element of type sai:EnvironmentDetectionType */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 161; } /* = unique id SOAP_TYPE__sai__SetEnvironmentDetection */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _sai__SetEnvironmentDetection() : Params(NULL), soap(NULL) { } virtual ~_sai__SetEnvironmentDetection() { } }; #endif #ifndef SOAP_TYPE__sai__SetEnvironmentDetectionResponse #define SOAP_TYPE__sai__SetEnvironmentDetectionResponse (162) /* sai:SetEnvironmentDetectionResponse */ class SOAP_CMAC _sai__SetEnvironmentDetectionResponse { public: unsigned int StatusCode; /* RPC return element */ /* required element of type cmn:PT_STATUS */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 162; } /* = unique id SOAP_TYPE__sai__SetEnvironmentDetectionResponse */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _sai__SetEnvironmentDetectionResponse() : soap(NULL) { } virtual ~_sai__SetEnvironmentDetectionResponse() { } }; #endif #ifndef SOAP_TYPE__sai__GetEnvironmentDetection #define SOAP_TYPE__sai__GetEnvironmentDetection (163) /* sai:GetEnvironmentDetection */ class SOAP_CMAC _sai__GetEnvironmentDetection { public: struct soap *soap; /* transient */ public: virtual int soap_type() const { return 163; } /* = unique id SOAP_TYPE__sai__GetEnvironmentDetection */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _sai__GetEnvironmentDetection() : soap(NULL) { } virtual ~_sai__GetEnvironmentDetection() { } }; #endif #ifndef SOAP_TYPE__sai__GetEnvironmentDetectionResponse #define SOAP_TYPE__sai__GetEnvironmentDetectionResponse (164) /* sai:GetEnvironmentDetectionResponse */ class SOAP_CMAC _sai__GetEnvironmentDetectionResponse { public: unsigned int StatusCode; /* RPC return element */ /* required element of type cmn:PT_STATUS */ sai__EnvironmentDetectionType *Params; /* required element of type sai:EnvironmentDetectionType */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 164; } /* = unique id SOAP_TYPE__sai__GetEnvironmentDetectionResponse */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _sai__GetEnvironmentDetectionResponse() : Params(NULL), soap(NULL) { } virtual ~_sai__GetEnvironmentDetectionResponse() { } }; #endif #ifndef SOAP_TYPE__sai__EnumeratePowerPackages #define SOAP_TYPE__sai__EnumeratePowerPackages (165) /* sai:EnumeratePowerPackages */ class SOAP_CMAC _sai__EnumeratePowerPackages { public: struct soap *soap; /* transient */ public: virtual int soap_type() const { return 165; } /* = unique id SOAP_TYPE__sai__EnumeratePowerPackages */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _sai__EnumeratePowerPackages() : soap(NULL) { } virtual ~_sai__EnumeratePowerPackages() { } }; #endif #ifndef SOAP_TYPE__sai__EnumeratePowerPackagesResponse #define SOAP_TYPE__sai__EnumeratePowerPackagesResponse (166) /* sai:EnumeratePowerPackagesResponse */ class SOAP_CMAC _sai__EnumeratePowerPackagesResponse { public: unsigned int StatusCode; /* RPC return element */ /* required element of type cmn:PT_STATUS */ std::vectorPolicyGUID; /* optional element of type cmn:GuidBuf */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 166; } /* = unique id SOAP_TYPE__sai__EnumeratePowerPackagesResponse */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _sai__EnumeratePowerPackagesResponse() : soap(NULL) { } virtual ~_sai__EnumeratePowerPackagesResponse() { } }; #endif #ifndef SOAP_TYPE__sai__GetActivePowerPackage #define SOAP_TYPE__sai__GetActivePowerPackage (167) /* sai:GetActivePowerPackage */ class SOAP_CMAC _sai__GetActivePowerPackage { public: struct soap *soap; /* transient */ public: virtual int soap_type() const { return 167; } /* = unique id SOAP_TYPE__sai__GetActivePowerPackage */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _sai__GetActivePowerPackage() : soap(NULL) { } virtual ~_sai__GetActivePowerPackage() { } }; #endif #ifndef SOAP_TYPE__sai__GetActivePowerPackageResponse #define SOAP_TYPE__sai__GetActivePowerPackageResponse (168) /* sai:GetActivePowerPackageResponse */ class SOAP_CMAC _sai__GetActivePowerPackageResponse { public: unsigned int StatusCode; /* RPC return element */ /* required element of type cmn:PT_STATUS */ xsd__base64Binary PolicyGUID; /* required element of type cmn:GuidBuf */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 168; } /* = unique id SOAP_TYPE__sai__GetActivePowerPackageResponse */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _sai__GetActivePowerPackageResponse() : soap(NULL) { } virtual ~_sai__GetActivePowerPackageResponse() { } }; #endif #ifndef SOAP_TYPE__sai__GetPowerPackage #define SOAP_TYPE__sai__GetPowerPackage (169) /* sai:GetPowerPackage */ class SOAP_CMAC _sai__GetPowerPackage { public: xsd__base64Binary PolicyGUID; /* required element of type cmn:GuidBuf */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 169; } /* = unique id SOAP_TYPE__sai__GetPowerPackage */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _sai__GetPowerPackage() : soap(NULL) { } virtual ~_sai__GetPowerPackage() { } }; #endif #ifndef SOAP_TYPE__sai__GetPowerPackageResponse #define SOAP_TYPE__sai__GetPowerPackageResponse (170) /* sai:GetPowerPackageResponse */ class SOAP_CMAC _sai__GetPowerPackageResponse { public: unsigned int StatusCode; /* RPC return element */ /* required element of type cmn:PT_STATUS */ std::string PolicyDescriptor; /* required element of type xsd:string */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 170; } /* = unique id SOAP_TYPE__sai__GetPowerPackageResponse */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _sai__GetPowerPackageResponse() : soap(NULL) { } virtual ~_sai__GetPowerPackageResponse() { } }; #endif #ifndef SOAP_TYPE__sai__SetActivePowerPackage #define SOAP_TYPE__sai__SetActivePowerPackage (171) /* sai:SetActivePowerPackage */ class SOAP_CMAC _sai__SetActivePowerPackage { public: xsd__base64Binary PolicyGUID; /* required element of type cmn:GuidBuf */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 171; } /* = unique id SOAP_TYPE__sai__SetActivePowerPackage */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _sai__SetActivePowerPackage() : soap(NULL) { } virtual ~_sai__SetActivePowerPackage() { } }; #endif #ifndef SOAP_TYPE__sai__SetActivePowerPackageResponse #define SOAP_TYPE__sai__SetActivePowerPackageResponse (172) /* sai:SetActivePowerPackageResponse */ class SOAP_CMAC _sai__SetActivePowerPackageResponse { public: unsigned int StatusCode; /* RPC return element */ /* required element of type cmn:PT_STATUS */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 172; } /* = unique id SOAP_TYPE__sai__SetActivePowerPackageResponse */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _sai__SetActivePowerPackageResponse() : soap(NULL) { } virtual ~_sai__SetActivePowerPackageResponse() { } }; #endif #ifndef SOAP_TYPE__sai__SetGlobalPowerPolicy #define SOAP_TYPE__sai__SetGlobalPowerPolicy (173) /* sai:SetGlobalPowerPolicy */ class SOAP_CMAC _sai__SetGlobalPowerPolicy { public: sai__GlobalPowerPolicyType *GlobalPowerPolicy; /* required element of type sai:GlobalPowerPolicyType */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 173; } /* = unique id SOAP_TYPE__sai__SetGlobalPowerPolicy */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _sai__SetGlobalPowerPolicy() : GlobalPowerPolicy(NULL), soap(NULL) { } virtual ~_sai__SetGlobalPowerPolicy() { } }; #endif #ifndef SOAP_TYPE__sai__SetGlobalPowerPolicyResponse #define SOAP_TYPE__sai__SetGlobalPowerPolicyResponse (174) /* sai:SetGlobalPowerPolicyResponse */ class SOAP_CMAC _sai__SetGlobalPowerPolicyResponse { public: unsigned int StatusCode; /* RPC return element */ /* required element of type cmn:PT_STATUS */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 174; } /* = unique id SOAP_TYPE__sai__SetGlobalPowerPolicyResponse */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _sai__SetGlobalPowerPolicyResponse() : soap(NULL) { } virtual ~_sai__SetGlobalPowerPolicyResponse() { } }; #endif #ifndef SOAP_TYPE__sai__GetGlobalPowerPolicy #define SOAP_TYPE__sai__GetGlobalPowerPolicy (175) /* sai:GetGlobalPowerPolicy */ class SOAP_CMAC _sai__GetGlobalPowerPolicy { public: struct soap *soap; /* transient */ public: virtual int soap_type() const { return 175; } /* = unique id SOAP_TYPE__sai__GetGlobalPowerPolicy */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _sai__GetGlobalPowerPolicy() : soap(NULL) { } virtual ~_sai__GetGlobalPowerPolicy() { } }; #endif #ifndef SOAP_TYPE__sai__GetGlobalPowerPolicyResponse #define SOAP_TYPE__sai__GetGlobalPowerPolicyResponse (176) /* sai:GetGlobalPowerPolicyResponse */ class SOAP_CMAC _sai__GetGlobalPowerPolicyResponse { public: unsigned int StatusCode; /* RPC return element */ /* required element of type cmn:PT_STATUS */ sai__GlobalPowerPolicyType *GlobalPowerPolicy; /* required element of type sai:GlobalPowerPolicyType */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 176; } /* = unique id SOAP_TYPE__sai__GetGlobalPowerPolicyResponse */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _sai__GetGlobalPowerPolicyResponse() : GlobalPowerPolicy(NULL), soap(NULL) { } virtual ~_sai__GetGlobalPowerPolicyResponse() { } }; #endif #ifndef SOAP_TYPE__sai__CertStoreAddKey #define SOAP_TYPE__sai__CertStoreAddKey (177) /* sai:CertStoreAddKey */ class SOAP_CMAC _sai__CertStoreAddKey { public: cstr__KeyPairType *KeyPair; /* required element of type cstr:KeyPairType */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 177; } /* = unique id SOAP_TYPE__sai__CertStoreAddKey */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _sai__CertStoreAddKey() : KeyPair(NULL), soap(NULL) { } virtual ~_sai__CertStoreAddKey() { } }; #endif #ifndef SOAP_TYPE__sai__CertStoreAddKeyResponse #define SOAP_TYPE__sai__CertStoreAddKeyResponse (178) /* sai:CertStoreAddKeyResponse */ class SOAP_CMAC _sai__CertStoreAddKeyResponse { public: unsigned int StatusCode; /* RPC return element */ /* required element of type cmn:PT_STATUS */ unsigned int KeyPairHandle; /* required element of type cstr:KeyPairHandleType */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 178; } /* = unique id SOAP_TYPE__sai__CertStoreAddKeyResponse */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _sai__CertStoreAddKeyResponse() : soap(NULL) { } virtual ~_sai__CertStoreAddKeyResponse() { } }; #endif #ifndef SOAP_TYPE__sai__CertStoreEnumerateKeys #define SOAP_TYPE__sai__CertStoreEnumerateKeys (179) /* sai:CertStoreEnumerateKeys */ class SOAP_CMAC _sai__CertStoreEnumerateKeys { public: unsigned int *FindByCert; /* optional element of type sai:CertificateHandleType */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 179; } /* = unique id SOAP_TYPE__sai__CertStoreEnumerateKeys */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _sai__CertStoreEnumerateKeys() : FindByCert(NULL), soap(NULL) { } virtual ~_sai__CertStoreEnumerateKeys() { } }; #endif #ifndef SOAP_TYPE__sai__CertStoreEnumerateKeysResponse #define SOAP_TYPE__sai__CertStoreEnumerateKeysResponse (180) /* sai:CertStoreEnumerateKeysResponse */ class SOAP_CMAC _sai__CertStoreEnumerateKeysResponse { public: unsigned int StatusCode; /* RPC return element */ /* required element of type cmn:PT_STATUS */ std::vectorKeyPairHandles; /* optional element of type sai:CertificateHandleType */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 180; } /* = unique id SOAP_TYPE__sai__CertStoreEnumerateKeysResponse */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _sai__CertStoreEnumerateKeysResponse() : soap(NULL) { } virtual ~_sai__CertStoreEnumerateKeysResponse() { } }; #endif #ifndef SOAP_TYPE__sai__CertStoreGetKey #define SOAP_TYPE__sai__CertStoreGetKey (181) /* sai:CertStoreGetKey */ class SOAP_CMAC _sai__CertStoreGetKey { public: unsigned int KeyPairHandle; /* required element of type sai:CertificateHandleType */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 181; } /* = unique id SOAP_TYPE__sai__CertStoreGetKey */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _sai__CertStoreGetKey() : soap(NULL) { } virtual ~_sai__CertStoreGetKey() { } }; #endif #ifndef SOAP_TYPE__sai__CertStoreGetKeyResponse #define SOAP_TYPE__sai__CertStoreGetKeyResponse (182) /* sai:CertStoreGetKeyResponse */ class SOAP_CMAC _sai__CertStoreGetKeyResponse { public: unsigned int StatusCode; /* RPC return element */ /* required element of type cmn:PT_STATUS */ cstr__KeyPairType *PublicKey; /* required element of type cstr:KeyPairType */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 182; } /* = unique id SOAP_TYPE__sai__CertStoreGetKeyResponse */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _sai__CertStoreGetKeyResponse() : PublicKey(NULL), soap(NULL) { } virtual ~_sai__CertStoreGetKeyResponse() { } }; #endif #ifndef SOAP_TYPE__sai__CertStoreRemoveKey #define SOAP_TYPE__sai__CertStoreRemoveKey (183) /* sai:CertStoreRemoveKey */ class SOAP_CMAC _sai__CertStoreRemoveKey { public: unsigned int KeyPairHandle; /* required element of type sai:CertificateHandleType */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 183; } /* = unique id SOAP_TYPE__sai__CertStoreRemoveKey */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _sai__CertStoreRemoveKey() : soap(NULL) { } virtual ~_sai__CertStoreRemoveKey() { } }; #endif #ifndef SOAP_TYPE__sai__CertStoreRemoveKeyResponse #define SOAP_TYPE__sai__CertStoreRemoveKeyResponse (184) /* sai:CertStoreRemoveKeyResponse */ class SOAP_CMAC _sai__CertStoreRemoveKeyResponse { public: unsigned int StatusCode; /* RPC return element */ /* required element of type cmn:PT_STATUS */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 184; } /* = unique id SOAP_TYPE__sai__CertStoreRemoveKeyResponse */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _sai__CertStoreRemoveKeyResponse() : soap(NULL) { } virtual ~_sai__CertStoreRemoveKeyResponse() { } }; #endif #ifndef SOAP_TYPE__sai__CertStoreAddCertificate #define SOAP_TYPE__sai__CertStoreAddCertificate (185) /* sai:CertStoreAddCertificate */ class SOAP_CMAC _sai__CertStoreAddCertificate { public: sai__CertificateType *Certificate; /* required element of type sai:CertificateType */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 185; } /* = unique id SOAP_TYPE__sai__CertStoreAddCertificate */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _sai__CertStoreAddCertificate() : Certificate(NULL), soap(NULL) { } virtual ~_sai__CertStoreAddCertificate() { } }; #endif #ifndef SOAP_TYPE__sai__CertStoreAddCertificateResponse #define SOAP_TYPE__sai__CertStoreAddCertificateResponse (186) /* sai:CertStoreAddCertificateResponse */ class SOAP_CMAC _sai__CertStoreAddCertificateResponse { public: unsigned int StatusCode; /* RPC return element */ /* required element of type cmn:PT_STATUS */ unsigned int CertHandle; /* required element of type sai:CertificateHandleType */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 186; } /* = unique id SOAP_TYPE__sai__CertStoreAddCertificateResponse */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _sai__CertStoreAddCertificateResponse() : soap(NULL) { } virtual ~_sai__CertStoreAddCertificateResponse() { } }; #endif #ifndef SOAP_TYPE__sai__CertStoreEnumerateCertificates #define SOAP_TYPE__sai__CertStoreEnumerateCertificates (187) /* sai:CertStoreEnumerateCertificates */ class SOAP_CMAC _sai__CertStoreEnumerateCertificates { public: std::string *FindByDNName; /* optional element of type xsd:string */ std::string *FindByUsage; /* optional element of type xsd:string */ std::string *FindByIssuer; /* optional element of type xsd:string */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 187; } /* = unique id SOAP_TYPE__sai__CertStoreEnumerateCertificates */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _sai__CertStoreEnumerateCertificates() : FindByDNName(NULL), FindByUsage(NULL), FindByIssuer(NULL), soap(NULL) { } virtual ~_sai__CertStoreEnumerateCertificates() { } }; #endif #ifndef SOAP_TYPE__sai__CertStoreEnumerateCertificatesResponse #define SOAP_TYPE__sai__CertStoreEnumerateCertificatesResponse (188) /* sai:CertStoreEnumerateCertificatesResponse */ class SOAP_CMAC _sai__CertStoreEnumerateCertificatesResponse { public: unsigned int StatusCode; /* RPC return element */ /* required element of type cmn:PT_STATUS */ std::vectorCertHandles; /* optional element of type sai:CertificateHandleType */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 188; } /* = unique id SOAP_TYPE__sai__CertStoreEnumerateCertificatesResponse */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _sai__CertStoreEnumerateCertificatesResponse() : soap(NULL) { } virtual ~_sai__CertStoreEnumerateCertificatesResponse() { } }; #endif #ifndef SOAP_TYPE__sai__CertStoreGetCertificate #define SOAP_TYPE__sai__CertStoreGetCertificate (189) /* sai:CertStoreGetCertificate */ class SOAP_CMAC _sai__CertStoreGetCertificate { public: unsigned int CertHandle; /* required element of type sai:CertificateHandleType */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 189; } /* = unique id SOAP_TYPE__sai__CertStoreGetCertificate */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _sai__CertStoreGetCertificate() : soap(NULL) { } virtual ~_sai__CertStoreGetCertificate() { } }; #endif #ifndef SOAP_TYPE__sai__CertStoreGetCertificateResponse #define SOAP_TYPE__sai__CertStoreGetCertificateResponse (190) /* sai:CertStoreGetCertificateResponse */ class SOAP_CMAC _sai__CertStoreGetCertificateResponse { public: unsigned int StatusCode; /* RPC return element */ /* required element of type cmn:PT_STATUS */ sai__CertificateType *Certificate; /* required element of type sai:CertificateType */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 190; } /* = unique id SOAP_TYPE__sai__CertStoreGetCertificateResponse */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _sai__CertStoreGetCertificateResponse() : Certificate(NULL), soap(NULL) { } virtual ~_sai__CertStoreGetCertificateResponse() { } }; #endif #ifndef SOAP_TYPE__sai__CertStoreRemoveCertificate #define SOAP_TYPE__sai__CertStoreRemoveCertificate (191) /* sai:CertStoreRemoveCertificate */ class SOAP_CMAC _sai__CertStoreRemoveCertificate { public: unsigned int CertHandle; /* required element of type sai:CertificateHandleType */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 191; } /* = unique id SOAP_TYPE__sai__CertStoreRemoveCertificate */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _sai__CertStoreRemoveCertificate() : soap(NULL) { } virtual ~_sai__CertStoreRemoveCertificate() { } }; #endif #ifndef SOAP_TYPE__sai__CertStoreRemoveCertificateResponse #define SOAP_TYPE__sai__CertStoreRemoveCertificateResponse (192) /* sai:CertStoreRemoveCertificateResponse */ class SOAP_CMAC _sai__CertStoreRemoveCertificateResponse { public: unsigned int StatusCode; /* RPC return element */ /* required element of type cmn:PT_STATUS */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 192; } /* = unique id SOAP_TYPE__sai__CertStoreRemoveCertificateResponse */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _sai__CertStoreRemoveCertificateResponse() : soap(NULL) { } virtual ~_sai__CertStoreRemoveCertificateResponse() { } }; #endif #ifndef SOAP_TYPE__sai__CertStoreGetPKCS10Request #define SOAP_TYPE__sai__CertStoreGetPKCS10Request (193) /* sai:CertStoreGetPKCS10Request */ class SOAP_CMAC _sai__CertStoreGetPKCS10Request { public: unsigned int KeyPairHandle; /* required element of type sai:CertificateHandleType */ std::string *DNName; /* optional element of type xsd:string */ std::string *Usage; /* optional element of type xsd:string */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 193; } /* = unique id SOAP_TYPE__sai__CertStoreGetPKCS10Request */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _sai__CertStoreGetPKCS10Request() : DNName(NULL), Usage(NULL), soap(NULL) { } virtual ~_sai__CertStoreGetPKCS10Request() { } }; #endif #ifndef SOAP_TYPE__sai__CertStoreGetPKCS10RequestResponse #define SOAP_TYPE__sai__CertStoreGetPKCS10RequestResponse (194) /* sai:CertStoreGetPKCS10RequestResponse */ class SOAP_CMAC _sai__CertStoreGetPKCS10RequestResponse { public: unsigned int StatusCode; /* RPC return element */ /* required element of type cmn:PT_STATUS */ xsd__base64Binary CertificateRequest; /* required element of type xsd:base64Binary */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 194; } /* = unique id SOAP_TYPE__sai__CertStoreGetPKCS10RequestResponse */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _sai__CertStoreGetPKCS10RequestResponse() : soap(NULL) { } virtual ~_sai__CertStoreGetPKCS10RequestResponse() { } }; #endif #ifndef SOAP_TYPE__sai__CertStoreUpdateCertificate #define SOAP_TYPE__sai__CertStoreUpdateCertificate (195) /* sai:CertStoreUpdateCertificate */ class SOAP_CMAC _sai__CertStoreUpdateCertificate { public: unsigned int CertHandle; /* required element of type sai:CertificateHandleType */ sai__CertificateType *Certificate; /* required element of type sai:CertificateType */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 195; } /* = unique id SOAP_TYPE__sai__CertStoreUpdateCertificate */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _sai__CertStoreUpdateCertificate() : Certificate(NULL), soap(NULL) { } virtual ~_sai__CertStoreUpdateCertificate() { } }; #endif #ifndef SOAP_TYPE__sai__CertStoreUpdateCertificateResponse #define SOAP_TYPE__sai__CertStoreUpdateCertificateResponse (196) /* sai:CertStoreUpdateCertificateResponse */ class SOAP_CMAC _sai__CertStoreUpdateCertificateResponse { public: unsigned int StatusCode; /* RPC return element */ /* required element of type cmn:PT_STATUS */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 196; } /* = unique id SOAP_TYPE__sai__CertStoreUpdateCertificateResponse */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _sai__CertStoreUpdateCertificateResponse() : soap(NULL) { } virtual ~_sai__CertStoreUpdateCertificateResponse() { } }; #endif #ifndef SOAP_TYPE__sai__SetTLSCredentials #define SOAP_TYPE__sai__SetTLSCredentials (197) /* sai:SetTLSCredentials */ class SOAP_CMAC _sai__SetTLSCredentials { public: unsigned int *CertHandle; /* optional element of type sai:CertificateHandleType */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 197; } /* = unique id SOAP_TYPE__sai__SetTLSCredentials */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _sai__SetTLSCredentials() : CertHandle(NULL), soap(NULL) { } virtual ~_sai__SetTLSCredentials() { } }; #endif #ifndef SOAP_TYPE__sai__SetTLSCredentialsResponse #define SOAP_TYPE__sai__SetTLSCredentialsResponse (198) /* sai:SetTLSCredentialsResponse */ class SOAP_CMAC _sai__SetTLSCredentialsResponse { public: unsigned int StatusCode; /* RPC return element */ /* required element of type cmn:PT_STATUS */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 198; } /* = unique id SOAP_TYPE__sai__SetTLSCredentialsResponse */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _sai__SetTLSCredentialsResponse() : soap(NULL) { } virtual ~_sai__SetTLSCredentialsResponse() { } }; #endif #ifndef SOAP_TYPE__sai__GetTLSCredentials #define SOAP_TYPE__sai__GetTLSCredentials (199) /* sai:GetTLSCredentials */ class SOAP_CMAC _sai__GetTLSCredentials { public: struct soap *soap; /* transient */ public: virtual int soap_type() const { return 199; } /* = unique id SOAP_TYPE__sai__GetTLSCredentials */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _sai__GetTLSCredentials() : soap(NULL) { } virtual ~_sai__GetTLSCredentials() { } }; #endif #ifndef SOAP_TYPE__sai__GetTLSCredentialsResponse #define SOAP_TYPE__sai__GetTLSCredentialsResponse (200) /* sai:GetTLSCredentialsResponse */ class SOAP_CMAC _sai__GetTLSCredentialsResponse { public: unsigned int StatusCode; /* RPC return element */ /* required element of type cmn:PT_STATUS */ unsigned int *CertHandle; /* optional element of type sai:CertificateHandleType */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 200; } /* = unique id SOAP_TYPE__sai__GetTLSCredentialsResponse */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _sai__GetTLSCredentialsResponse() : CertHandle(NULL), soap(NULL) { } virtual ~_sai__GetTLSCredentialsResponse() { } }; #endif #ifndef SOAP_TYPE__sai__EnableVpnRouting #define SOAP_TYPE__sai__EnableVpnRouting (201) /* sai:EnableVpnRouting */ class SOAP_CMAC _sai__EnableVpnRouting { public: bool Enable; /* required element of type xsd:boolean */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 201; } /* = unique id SOAP_TYPE__sai__EnableVpnRouting */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _sai__EnableVpnRouting() : soap(NULL) { } virtual ~_sai__EnableVpnRouting() { } }; #endif #ifndef SOAP_TYPE__sai__EnableVpnRoutingResponse #define SOAP_TYPE__sai__EnableVpnRoutingResponse (202) /* sai:EnableVpnRoutingResponse */ class SOAP_CMAC _sai__EnableVpnRoutingResponse { public: unsigned int StatusCode; /* RPC return element */ /* required element of type cmn:PT_STATUS */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 202; } /* = unique id SOAP_TYPE__sai__EnableVpnRoutingResponse */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _sai__EnableVpnRoutingResponse() : soap(NULL) { } virtual ~_sai__EnableVpnRoutingResponse() { } }; #endif #ifndef SOAP_TYPE__sai__SetConfigurationServerFQDN #define SOAP_TYPE__sai__SetConfigurationServerFQDN (203) /* sai:SetConfigurationServerFQDN */ class SOAP_CMAC _sai__SetConfigurationServerFQDN { public: std::string fqdn; /* required element of type xsd:string */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 203; } /* = unique id SOAP_TYPE__sai__SetConfigurationServerFQDN */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _sai__SetConfigurationServerFQDN() : soap(NULL) { } virtual ~_sai__SetConfigurationServerFQDN() { } }; #endif #ifndef SOAP_TYPE__sai__SetConfigurationServerFQDNResponse #define SOAP_TYPE__sai__SetConfigurationServerFQDNResponse (204) /* sai:SetConfigurationServerFQDNResponse */ class SOAP_CMAC _sai__SetConfigurationServerFQDNResponse { public: unsigned int StatusCode; /* RPC return element */ /* required element of type cmn:PT_STATUS */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 204; } /* = unique id SOAP_TYPE__sai__SetConfigurationServerFQDNResponse */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _sai__SetConfigurationServerFQDNResponse() : soap(NULL) { } virtual ~_sai__SetConfigurationServerFQDNResponse() { } }; #endif #ifndef SOAP_TYPE__sai__GetConfigurationServerFQDN #define SOAP_TYPE__sai__GetConfigurationServerFQDN (205) /* sai:GetConfigurationServerFQDN */ class SOAP_CMAC _sai__GetConfigurationServerFQDN { public: struct soap *soap; /* transient */ public: virtual int soap_type() const { return 205; } /* = unique id SOAP_TYPE__sai__GetConfigurationServerFQDN */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _sai__GetConfigurationServerFQDN() : soap(NULL) { } virtual ~_sai__GetConfigurationServerFQDN() { } }; #endif #ifndef SOAP_TYPE__sai__GetConfigurationServerFQDNResponse #define SOAP_TYPE__sai__GetConfigurationServerFQDNResponse (206) /* sai:GetConfigurationServerFQDNResponse */ class SOAP_CMAC _sai__GetConfigurationServerFQDNResponse { public: unsigned int StatusCode; /* RPC return element */ /* required element of type cmn:PT_STATUS */ std::string fqdn; /* required element of type xsd:string */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 206; } /* = unique id SOAP_TYPE__sai__GetConfigurationServerFQDNResponse */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _sai__GetConfigurationServerFQDNResponse() : soap(NULL) { } virtual ~_sai__GetConfigurationServerFQDNResponse() { } }; #endif #ifndef SOAP_TYPE__sai__SetAclEnabledState #define SOAP_TYPE__sai__SetAclEnabledState (207) /* sai:SetAclEnabledState */ class SOAP_CMAC _sai__SetAclEnabledState { public: unsigned int Handle; /* required element of type sai:UserAclEntryHandleType */ bool Enabled; /* required element of type xsd:boolean */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 207; } /* = unique id SOAP_TYPE__sai__SetAclEnabledState */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _sai__SetAclEnabledState() : soap(NULL) { } virtual ~_sai__SetAclEnabledState() { } }; #endif #ifndef SOAP_TYPE__sai__SetAclEnabledStateResponse #define SOAP_TYPE__sai__SetAclEnabledStateResponse (208) /* sai:SetAclEnabledStateResponse */ class SOAP_CMAC _sai__SetAclEnabledStateResponse { public: unsigned int StatusCode; /* RPC return element */ /* required element of type cmn:PT_STATUS */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 208; } /* = unique id SOAP_TYPE__sai__SetAclEnabledStateResponse */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _sai__SetAclEnabledStateResponse() : soap(NULL) { } virtual ~_sai__SetAclEnabledStateResponse() { } }; #endif #ifndef SOAP_TYPE__sai__GetAclEnabledState #define SOAP_TYPE__sai__GetAclEnabledState (209) /* sai:GetAclEnabledState */ class SOAP_CMAC _sai__GetAclEnabledState { public: unsigned int Handle; /* required element of type sai:UserAclEntryHandleType */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 209; } /* = unique id SOAP_TYPE__sai__GetAclEnabledState */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _sai__GetAclEnabledState() : soap(NULL) { } virtual ~_sai__GetAclEnabledState() { } }; #endif #ifndef SOAP_TYPE__sai__GetAclEnabledStateResponse #define SOAP_TYPE__sai__GetAclEnabledStateResponse (210) /* sai:GetAclEnabledStateResponse */ class SOAP_CMAC _sai__GetAclEnabledStateResponse { public: unsigned int StatusCode; /* RPC return element */ /* required element of type cmn:PT_STATUS */ bool Enabled; /* required element of type xsd:boolean */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 210; } /* = unique id SOAP_TYPE__sai__GetAclEnabledStateResponse */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _sai__GetAclEnabledStateResponse() : soap(NULL) { } virtual ~_sai__GetAclEnabledStateResponse() { } }; #endif #ifndef SOAP_TYPE_xcfg__UserCredentialsType #define SOAP_TYPE_xcfg__UserCredentialsType (211) /* xcfg:UserCredentialsType */ class SOAP_CMAC xcfg__UserCredentialsType { public: std::string Username; /* required element of type xsd:string */ std::string Password; /* required element of type xsd:string */ std::string *Domain; /* optional element of type xsd:string */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 211; } /* = unique id SOAP_TYPE_xcfg__UserCredentialsType */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); xcfg__UserCredentialsType() : Domain(NULL), soap(NULL) { } virtual ~xcfg__UserCredentialsType() { } }; #endif #ifndef SOAP_TYPE_xcfg__CertificateNameType #define SOAP_TYPE_xcfg__CertificateNameType (212) /* xcfg:CertificateNameType */ class SOAP_CMAC xcfg__CertificateNameType { public: std::string ServerOrCertName; /* required element of type xsd:string */ enum xcfg__CertNameOptionsType Options; /* required element of type xcfg:CertNameOptionsType */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 212; } /* = unique id SOAP_TYPE_xcfg__CertificateNameType */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); xcfg__CertificateNameType() : soap(NULL) { } virtual ~xcfg__CertificateNameType() { } }; #endif #ifndef SOAP_TYPE_xcfg__ManualPACType #define SOAP_TYPE_xcfg__ManualPACType (213) /* xcfg:ManualPACType */ class SOAP_CMAC xcfg__ManualPACType { public: xsd__base64Binary PACData; /* required element of type xsd:base64Binary */ std::string *Password; /* optional element of type xsd:string */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 213; } /* = unique id SOAP_TYPE_xcfg__ManualPACType */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); xcfg__ManualPACType() : Password(NULL), soap(NULL) { } virtual ~xcfg__ManualPACType() { } }; #endif #ifndef SOAP_TYPE_xcfg__ServerIdentityType #define SOAP_TYPE_xcfg__ServerIdentityType (214) /* xcfg:ServerIdentityType */ class SOAP_CMAC xcfg__ServerIdentityType { public: unsigned int *CertificateIssuer; /* optional element of type sai:CertificateHandleType */ xcfg__CertificateNameType *ServerNameOptions; /* optional element of type xcfg:CertificateNameType */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 214; } /* = unique id SOAP_TYPE_xcfg__ServerIdentityType */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); xcfg__ServerIdentityType() : CertificateIssuer(NULL), ServerNameOptions(NULL), soap(NULL) { } virtual ~xcfg__ServerIdentityType() { } }; #endif #ifndef SOAP_TYPE_xcfg__XProfileTLSType #define SOAP_TYPE_xcfg__XProfileTLSType (215) /* xcfg:XProfileTLSType */ class SOAP_CMAC xcfg__XProfileTLSType { public: std::string Username; /* required element of type xsd:string */ xcfg__ServerIdentityType *ServerIdentity; /* required element of type xcfg:ServerIdentityType */ unsigned int ClientCertificate; /* required element of type sai:CertificateHandleType */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 215; } /* = unique id SOAP_TYPE_xcfg__XProfileTLSType */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); xcfg__XProfileTLSType() : ServerIdentity(NULL), soap(NULL) { } virtual ~xcfg__XProfileTLSType() { } }; #endif #ifndef SOAP_TYPE_xcfg__XProfileTTLS_USCOREMSCHAPv2Type #define SOAP_TYPE_xcfg__XProfileTTLS_USCOREMSCHAPv2Type (216) /* xcfg:XProfileTTLS_MSCHAPv2Type */ class SOAP_CMAC xcfg__XProfileTTLS_USCOREMSCHAPv2Type { public: std::string *RoamingIdentity; /* optional element of type xsd:string */ xcfg__ServerIdentityType *ServerIdentity; /* required element of type xcfg:ServerIdentityType */ xcfg__UserCredentialsType *UserCredentials; /* required element of type xcfg:UserCredentialsType */ unsigned int *ClientCertificate; /* optional element of type sai:CertificateHandleType */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 216; } /* = unique id SOAP_TYPE_xcfg__XProfileTTLS_USCOREMSCHAPv2Type */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); xcfg__XProfileTTLS_USCOREMSCHAPv2Type() : RoamingIdentity(NULL), ServerIdentity(NULL), UserCredentials(NULL), ClientCertificate(NULL), soap(NULL) { } virtual ~xcfg__XProfileTTLS_USCOREMSCHAPv2Type() { } }; #endif #ifndef SOAP_TYPE_xcfg__XProfilePEAP_USCOREMSCHAPv2Type #define SOAP_TYPE_xcfg__XProfilePEAP_USCOREMSCHAPv2Type (217) /* xcfg:XProfilePEAP_MSCHAPv2Type */ class SOAP_CMAC xcfg__XProfilePEAP_USCOREMSCHAPv2Type { public: std::string *RoamingIdentity; /* optional element of type xsd:string */ xcfg__ServerIdentityType *ServerIdentity; /* required element of type xcfg:ServerIdentityType */ xcfg__UserCredentialsType *UserCredentials; /* required element of type xcfg:UserCredentialsType */ unsigned int *ClientCertificate; /* optional element of type sai:CertificateHandleType */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 217; } /* = unique id SOAP_TYPE_xcfg__XProfilePEAP_USCOREMSCHAPv2Type */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); xcfg__XProfilePEAP_USCOREMSCHAPv2Type() : RoamingIdentity(NULL), ServerIdentity(NULL), UserCredentials(NULL), ClientCertificate(NULL), soap(NULL) { } virtual ~xcfg__XProfilePEAP_USCOREMSCHAPv2Type() { } }; #endif #ifndef SOAP_TYPE_xcfg__XProfileEAP_USCOREGTCType #define SOAP_TYPE_xcfg__XProfileEAP_USCOREGTCType (218) /* xcfg:XProfileEAP_GTCType */ class SOAP_CMAC xcfg__XProfileEAP_USCOREGTCType { public: xcfg__UserCredentialsType *UserCredentials; /* required element of type xcfg:UserCredentialsType */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 218; } /* = unique id SOAP_TYPE_xcfg__XProfileEAP_USCOREGTCType */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); xcfg__XProfileEAP_USCOREGTCType() : UserCredentials(NULL), soap(NULL) { } virtual ~xcfg__XProfileEAP_USCOREGTCType() { } }; #endif #ifndef SOAP_TYPE_xcfg__XProfileEAPFAST_USCOREMSCHAPv2Type #define SOAP_TYPE_xcfg__XProfileEAPFAST_USCOREMSCHAPv2Type (219) /* xcfg:XProfileEAPFAST_MSCHAPv2Type */ class SOAP_CMAC xcfg__XProfileEAPFAST_USCOREMSCHAPv2Type { public: std::string *RoamingIdentity; /* optional element of type xsd:string */ xcfg__ServerIdentityType *ServerIdentity; /* required element of type xcfg:ServerIdentityType */ xcfg__UserCredentialsType *UserCredentials; /* required element of type xcfg:UserCredentialsType */ xcfg__ManualPACType *ProtectedAccessCredentials; /* optional element of type xcfg:ManualPACType */ unsigned int *ClientCertificate; /* optional element of type sai:CertificateHandleType */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 219; } /* = unique id SOAP_TYPE_xcfg__XProfileEAPFAST_USCOREMSCHAPv2Type */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); xcfg__XProfileEAPFAST_USCOREMSCHAPv2Type() : RoamingIdentity(NULL), ServerIdentity(NULL), UserCredentials(NULL), ProtectedAccessCredentials(NULL), ClientCertificate(NULL), soap(NULL) { } virtual ~xcfg__XProfileEAPFAST_USCOREMSCHAPv2Type() { } }; #endif #ifndef SOAP_TYPE_xcfg__XProfileEAPFAST_USCOREGTCType #define SOAP_TYPE_xcfg__XProfileEAPFAST_USCOREGTCType (220) /* xcfg:XProfileEAPFAST_GTCType */ class SOAP_CMAC xcfg__XProfileEAPFAST_USCOREGTCType { public: std::string *RoamingIdentity; /* optional element of type xsd:string */ xcfg__ServerIdentityType *ServerIdentity; /* required element of type xcfg:ServerIdentityType */ xcfg__UserCredentialsType *UserCredentials; /* required element of type xcfg:UserCredentialsType */ xcfg__ManualPACType *ProtectedAccessCredentials; /* optional element of type xcfg:ManualPACType */ unsigned int *ClientCertificate; /* optional element of type sai:CertificateHandleType */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 220; } /* = unique id SOAP_TYPE_xcfg__XProfileEAPFAST_USCOREGTCType */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); xcfg__XProfileEAPFAST_USCOREGTCType() : RoamingIdentity(NULL), ServerIdentity(NULL), UserCredentials(NULL), ProtectedAccessCredentials(NULL), ClientCertificate(NULL), soap(NULL) { } virtual ~xcfg__XProfileEAPFAST_USCOREGTCType() { } }; #endif #ifndef SOAP_TYPE_xcfg__XProfileEAPFAST_USCORETLSType #define SOAP_TYPE_xcfg__XProfileEAPFAST_USCORETLSType (221) /* xcfg:XProfileEAPFAST_TLSType */ class SOAP_CMAC xcfg__XProfileEAPFAST_USCORETLSType { public: std::string *RoamingIdentity; /* optional element of type xsd:string */ xcfg__ServerIdentityType *ServerIdentity; /* required element of type xcfg:ServerIdentityType */ xcfg__UserCredentialsType *UserCredentials; /* required element of type xcfg:UserCredentialsType */ xcfg__ManualPACType *ProtectedAccessCredentials; /* optional element of type xcfg:ManualPACType */ unsigned int ClientCertificate; /* required element of type sai:CertificateHandleType */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 221; } /* = unique id SOAP_TYPE_xcfg__XProfileEAPFAST_USCORETLSType */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); xcfg__XProfileEAPFAST_USCORETLSType() : RoamingIdentity(NULL), ServerIdentity(NULL), UserCredentials(NULL), ProtectedAccessCredentials(NULL), soap(NULL) { } virtual ~xcfg__XProfileEAPFAST_USCORETLSType() { } }; #endif #ifndef SOAP_TYPE__xcfg__union_XProfileType #define SOAP_TYPE__xcfg__union_XProfileType (725) /* xsd:choice */ union _xcfg__union_XProfileType { #define SOAP_UNION__xcfg__union_XProfileType_TLS (1) xcfg__XProfileTLSType *TLS; #define SOAP_UNION__xcfg__union_XProfileType_TTLS_USCOREMSCHAPv2 (2) xcfg__XProfileTTLS_USCOREMSCHAPv2Type *TTLS_USCOREMSCHAPv2; #define SOAP_UNION__xcfg__union_XProfileType_PEAP_USCOREMSCHAPv2 (3) xcfg__XProfilePEAP_USCOREMSCHAPv2Type *PEAP_USCOREMSCHAPv2; #define SOAP_UNION__xcfg__union_XProfileType_EAP_USCOREGTC (4) xcfg__XProfileEAP_USCOREGTCType *EAP_USCOREGTC; #define SOAP_UNION__xcfg__union_XProfileType_EAPFAST_USCOREMSCHAPv2 (5) xcfg__XProfileEAPFAST_USCOREMSCHAPv2Type *EAPFAST_USCOREMSCHAPv2; #define SOAP_UNION__xcfg__union_XProfileType_EAPFAST_USCOREGTC (6) xcfg__XProfileEAPFAST_USCOREGTCType *EAPFAST_USCOREGTC; #define SOAP_UNION__xcfg__union_XProfileType_EAPFAST_USCORETLS (7) xcfg__XProfileEAPFAST_USCORETLSType *EAPFAST_USCORETLS; }; #endif #ifndef SOAP_TYPE_xcfg__XProfileType #define SOAP_TYPE_xcfg__XProfileType (222) /* xcfg:XProfileType */ class SOAP_CMAC xcfg__XProfileType { public: int __union_XProfileType; /* union discriminant (of union defined below) */ union _xcfg__union_XProfileType union_XProfileType; /* required element of type xsd:choice */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 222; } /* = unique id SOAP_TYPE_xcfg__XProfileType */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); xcfg__XProfileType() : soap(NULL) { } virtual ~xcfg__XProfileType() { } }; #endif #ifndef SOAP_TYPE_net__StaticIPv4ParametersType #define SOAP_TYPE_net__StaticIPv4ParametersType (223) /* net:StaticIPv4ParametersType */ class SOAP_CMAC net__StaticIPv4ParametersType { public: unsigned int LocalAddress; /* required element of type net:IPv4AddressType */ unsigned int SubnetMask; /* required element of type net:IPv4AddressType */ unsigned int DefaultGatewayAddress; /* required element of type net:IPv4AddressType */ unsigned int PrimaryDnsAddress; /* required element of type net:IPv4AddressType */ unsigned int SecondaryDnsAddress; /* required element of type net:IPv4AddressType */ std::string *DomainName; /* optional element of type xsd:string */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 223; } /* = unique id SOAP_TYPE_net__StaticIPv4ParametersType */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); net__StaticIPv4ParametersType() : DomainName(NULL), soap(NULL) { } virtual ~net__StaticIPv4ParametersType() { } }; #endif #ifndef SOAP_TYPE_net__IPv4ParametersType #define SOAP_TYPE_net__IPv4ParametersType (224) /* net:IPv4ParametersType */ class SOAP_CMAC net__IPv4ParametersType { public: unsigned int LocalAddress; /* required element of type net:IPv4AddressType */ unsigned int SubnetMask; /* required element of type net:IPv4AddressType */ unsigned int DefaultGatewayAddress; /* required element of type net:IPv4AddressType */ unsigned int PrimaryDnsAddress; /* required element of type net:IPv4AddressType */ unsigned int SecondaryDnsAddress; /* required element of type net:IPv4AddressType */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 224; } /* = unique id SOAP_TYPE_net__IPv4ParametersType */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); net__IPv4ParametersType() : soap(NULL) { } virtual ~net__IPv4ParametersType() { } }; #endif #ifndef SOAP_TYPE_net__InterfaceDescriptorSetType #define SOAP_TYPE_net__InterfaceDescriptorSetType (225) /* net:InterfaceDescriptorSetType */ class SOAP_CMAC net__InterfaceDescriptorSetType { public: enum net__InterfaceModeType InterfaceMode; /* required element of type net:InterfaceModeType */ unsigned char LinkPolicy; /* required element of type net:LinkPolicyType */ net__IPv4ParametersType *IPv4Parameters; /* optional element of type net:IPv4ParametersType */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 225; } /* = unique id SOAP_TYPE_net__InterfaceDescriptorSetType */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); net__InterfaceDescriptorSetType() : IPv4Parameters(NULL), soap(NULL) { } virtual ~net__InterfaceDescriptorSetType() { } }; #endif #ifndef SOAP_TYPE_net__InterfaceDescriptorGetType #define SOAP_TYPE_net__InterfaceDescriptorGetType (226) /* net:InterfaceDescriptorGetType */ class SOAP_CMAC net__InterfaceDescriptorGetType { public: std::string HardwareAddressDescription; /* required element of type xsd:string */ std::string MACAddress; /* required element of type net:MACAddressType */ enum net__InterfaceModeType InterfaceMode; /* required element of type net:InterfaceModeType */ unsigned char LinkPolicy; /* required element of type net:LinkPolicyType */ bool DhcpEnabled; /* required element of type xsd:boolean */ net__IPv4ParametersType *IPv4Parameters; /* optional element of type net:IPv4ParametersType */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 226; } /* = unique id SOAP_TYPE_net__InterfaceDescriptorGetType */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); net__InterfaceDescriptorGetType() : IPv4Parameters(NULL), soap(NULL) { } virtual ~net__InterfaceDescriptorGetType() { } }; #endif #ifndef SOAP_TYPE__net__SetHostName #define SOAP_TYPE__net__SetHostName (227) /* net:SetHostName */ class SOAP_CMAC _net__SetHostName { public: std::string HostName; /* required element of type xsd:string */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 227; } /* = unique id SOAP_TYPE__net__SetHostName */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _net__SetHostName() : soap(NULL) { } virtual ~_net__SetHostName() { } }; #endif #ifndef SOAP_TYPE__net__SetHostNameResponse #define SOAP_TYPE__net__SetHostNameResponse (228) /* net:SetHostNameResponse */ class SOAP_CMAC _net__SetHostNameResponse { public: unsigned int StatusCode; /* RPC return element */ /* required element of type net:PT_STATUS */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 228; } /* = unique id SOAP_TYPE__net__SetHostNameResponse */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _net__SetHostNameResponse() : soap(NULL) { } virtual ~_net__SetHostNameResponse() { } }; #endif #ifndef SOAP_TYPE__net__GetHostName #define SOAP_TYPE__net__GetHostName (229) /* net:GetHostName */ class SOAP_CMAC _net__GetHostName { public: struct soap *soap; /* transient */ public: virtual int soap_type() const { return 229; } /* = unique id SOAP_TYPE__net__GetHostName */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _net__GetHostName() : soap(NULL) { } virtual ~_net__GetHostName() { } }; #endif #ifndef SOAP_TYPE__net__GetHostNameResponse #define SOAP_TYPE__net__GetHostNameResponse (230) /* net:GetHostNameResponse */ class SOAP_CMAC _net__GetHostNameResponse { public: unsigned int StatusCode; /* RPC return element */ /* required element of type net:PT_STATUS */ std::string HostName; /* required element of type xsd:string */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 230; } /* = unique id SOAP_TYPE__net__GetHostNameResponse */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _net__GetHostNameResponse() : soap(NULL) { } virtual ~_net__GetHostNameResponse() { } }; #endif #ifndef SOAP_TYPE__net__SetDomainName #define SOAP_TYPE__net__SetDomainName (231) /* net:SetDomainName */ class SOAP_CMAC _net__SetDomainName { public: std::string DomainName; /* required element of type xsd:string */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 231; } /* = unique id SOAP_TYPE__net__SetDomainName */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _net__SetDomainName() : soap(NULL) { } virtual ~_net__SetDomainName() { } }; #endif #ifndef SOAP_TYPE__net__SetDomainNameResponse #define SOAP_TYPE__net__SetDomainNameResponse (232) /* net:SetDomainNameResponse */ class SOAP_CMAC _net__SetDomainNameResponse { public: unsigned int StatusCode; /* RPC return element */ /* required element of type net:PT_STATUS */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 232; } /* = unique id SOAP_TYPE__net__SetDomainNameResponse */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _net__SetDomainNameResponse() : soap(NULL) { } virtual ~_net__SetDomainNameResponse() { } }; #endif #ifndef SOAP_TYPE__net__GetDomainName #define SOAP_TYPE__net__GetDomainName (233) /* net:GetDomainName */ class SOAP_CMAC _net__GetDomainName { public: struct soap *soap; /* transient */ public: virtual int soap_type() const { return 233; } /* = unique id SOAP_TYPE__net__GetDomainName */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _net__GetDomainName() : soap(NULL) { } virtual ~_net__GetDomainName() { } }; #endif #ifndef SOAP_TYPE__net__GetDomainNameResponse #define SOAP_TYPE__net__GetDomainNameResponse (234) /* net:GetDomainNameResponse */ class SOAP_CMAC _net__GetDomainNameResponse { public: unsigned int StatusCode; /* RPC return element */ /* required element of type net:PT_STATUS */ std::string DomainName; /* required element of type xsd:string */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 234; } /* = unique id SOAP_TYPE__net__GetDomainNameResponse */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _net__GetDomainNameResponse() : soap(NULL) { } virtual ~_net__GetDomainNameResponse() { } }; #endif #ifndef SOAP_TYPE__net__SetTcpIpParameters #define SOAP_TYPE__net__SetTcpIpParameters (235) /* net:SetTcpIpParameters */ class SOAP_CMAC _net__SetTcpIpParameters { public: enum net__DhcpModeType DhcpMode; /* required element of type net:DhcpModeType */ net__StaticIPv4ParametersType *StaticIPv4Parameters; /* optional element of type net:StaticIPv4ParametersType */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 235; } /* = unique id SOAP_TYPE__net__SetTcpIpParameters */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _net__SetTcpIpParameters() : StaticIPv4Parameters(NULL), soap(NULL) { } virtual ~_net__SetTcpIpParameters() { } }; #endif #ifndef SOAP_TYPE__net__SetTcpIpParametersResponse #define SOAP_TYPE__net__SetTcpIpParametersResponse (236) /* net:SetTcpIpParametersResponse */ class SOAP_CMAC _net__SetTcpIpParametersResponse { public: unsigned int StatusCode; /* RPC return element */ /* required element of type net:PT_STATUS */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 236; } /* = unique id SOAP_TYPE__net__SetTcpIpParametersResponse */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _net__SetTcpIpParametersResponse() : soap(NULL) { } virtual ~_net__SetTcpIpParametersResponse() { } }; #endif #ifndef SOAP_TYPE__net__GetTcpIpParameters #define SOAP_TYPE__net__GetTcpIpParameters (237) /* net:GetTcpIpParameters */ class SOAP_CMAC _net__GetTcpIpParameters { public: struct soap *soap; /* transient */ public: virtual int soap_type() const { return 237; } /* = unique id SOAP_TYPE__net__GetTcpIpParameters */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _net__GetTcpIpParameters() : soap(NULL) { } virtual ~_net__GetTcpIpParameters() { } }; #endif #ifndef SOAP_TYPE__net__GetTcpIpParametersResponse #define SOAP_TYPE__net__GetTcpIpParametersResponse (238) /* net:GetTcpIpParametersResponse */ class SOAP_CMAC _net__GetTcpIpParametersResponse { public: unsigned int StatusCode; /* RPC return element */ /* required element of type net:PT_STATUS */ enum net__DhcpModeType DhcpMode; /* required element of type net:DhcpModeType */ net__StaticIPv4ParametersType *StaticIPv4Parameters; /* required element of type net:StaticIPv4ParametersType */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 238; } /* = unique id SOAP_TYPE__net__GetTcpIpParametersResponse */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _net__GetTcpIpParametersResponse() : StaticIPv4Parameters(NULL), soap(NULL) { } virtual ~_net__GetTcpIpParametersResponse() { } }; #endif #ifndef SOAP_TYPE__net__SetVlanParameters #define SOAP_TYPE__net__SetVlanParameters (239) /* net:SetVlanParameters */ class SOAP_CMAC _net__SetVlanParameters { public: unsigned int *InterfaceHandle; /* optional element of type cmn:InterfaceHandleType */ bool VlanMode; /* required element of type xsd:boolean */ unsigned short VlanTag; /* required element of type xsd:unsignedShort */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 239; } /* = unique id SOAP_TYPE__net__SetVlanParameters */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _net__SetVlanParameters() : InterfaceHandle(NULL), soap(NULL) { } virtual ~_net__SetVlanParameters() { } }; #endif #ifndef SOAP_TYPE__net__SetVlanParametersResponse #define SOAP_TYPE__net__SetVlanParametersResponse (240) /* net:SetVlanParametersResponse */ class SOAP_CMAC _net__SetVlanParametersResponse { public: unsigned int StatusCode; /* RPC return element */ /* required element of type net:PT_STATUS */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 240; } /* = unique id SOAP_TYPE__net__SetVlanParametersResponse */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _net__SetVlanParametersResponse() : soap(NULL) { } virtual ~_net__SetVlanParametersResponse() { } }; #endif #ifndef SOAP_TYPE__net__GetVlanParameters #define SOAP_TYPE__net__GetVlanParameters (241) /* net:GetVlanParameters */ class SOAP_CMAC _net__GetVlanParameters { public: unsigned int *InterfaceHandle; /* optional element of type cmn:InterfaceHandleType */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 241; } /* = unique id SOAP_TYPE__net__GetVlanParameters */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _net__GetVlanParameters() : InterfaceHandle(NULL), soap(NULL) { } virtual ~_net__GetVlanParameters() { } }; #endif #ifndef SOAP_TYPE__net__GetVlanParametersResponse #define SOAP_TYPE__net__GetVlanParametersResponse (242) /* net:GetVlanParametersResponse */ class SOAP_CMAC _net__GetVlanParametersResponse { public: unsigned int StatusCode; /* RPC return element */ /* required element of type net:PT_STATUS */ bool VlanMode; /* required element of type xsd:boolean */ unsigned short VlanTag; /* required element of type xsd:unsignedShort */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 242; } /* = unique id SOAP_TYPE__net__GetVlanParametersResponse */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _net__GetVlanParametersResponse() : soap(NULL) { } virtual ~_net__GetVlanParametersResponse() { } }; #endif #ifndef SOAP_TYPE__net__SetPingResponse #define SOAP_TYPE__net__SetPingResponse (243) /* net:SetPingResponse */ class SOAP_CMAC _net__SetPingResponse { public: bool enabled; /* required element of type xsd:boolean */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 243; } /* = unique id SOAP_TYPE__net__SetPingResponse */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _net__SetPingResponse() : soap(NULL) { } virtual ~_net__SetPingResponse() { } }; #endif #ifndef SOAP_TYPE__net__SetPingResponseResponse #define SOAP_TYPE__net__SetPingResponseResponse (244) /* net:SetPingResponseResponse */ class SOAP_CMAC _net__SetPingResponseResponse { public: unsigned int StatusCode; /* RPC return element */ /* required element of type net:PT_STATUS */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 244; } /* = unique id SOAP_TYPE__net__SetPingResponseResponse */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _net__SetPingResponseResponse() : soap(NULL) { } virtual ~_net__SetPingResponseResponse() { } }; #endif #ifndef SOAP_TYPE__net__GetPingResponse #define SOAP_TYPE__net__GetPingResponse (245) /* net:GetPingResponse */ class SOAP_CMAC _net__GetPingResponse { public: struct soap *soap; /* transient */ public: virtual int soap_type() const { return 245; } /* = unique id SOAP_TYPE__net__GetPingResponse */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _net__GetPingResponse() : soap(NULL) { } virtual ~_net__GetPingResponse() { } }; #endif #ifndef SOAP_TYPE__net__GetPingResponseResponse #define SOAP_TYPE__net__GetPingResponseResponse (246) /* net:GetPingResponseResponse */ class SOAP_CMAC _net__GetPingResponseResponse { public: unsigned int StatusCode; /* RPC return element */ /* required element of type net:PT_STATUS */ bool enabled; /* required element of type xsd:boolean */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 246; } /* = unique id SOAP_TYPE__net__GetPingResponseResponse */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _net__GetPingResponseResponse() : soap(NULL) { } virtual ~_net__GetPingResponseResponse() { } }; #endif #ifndef SOAP_TYPE__net__EnumerateInterfaces #define SOAP_TYPE__net__EnumerateInterfaces (247) /* net:EnumerateInterfaces */ class SOAP_CMAC _net__EnumerateInterfaces { public: struct soap *soap; /* transient */ public: virtual int soap_type() const { return 247; } /* = unique id SOAP_TYPE__net__EnumerateInterfaces */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _net__EnumerateInterfaces() : soap(NULL) { } virtual ~_net__EnumerateInterfaces() { } }; #endif #ifndef SOAP_TYPE__net__EnumerateInterfacesResponse #define SOAP_TYPE__net__EnumerateInterfacesResponse (248) /* net:EnumerateInterfacesResponse */ class SOAP_CMAC _net__EnumerateInterfacesResponse { public: unsigned int StatusCode; /* RPC return element */ /* required element of type cmn:PT_STATUS */ std::vectorInterfaceHandles; /* optional element of type net:InterfaceHandleType */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 248; } /* = unique id SOAP_TYPE__net__EnumerateInterfacesResponse */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _net__EnumerateInterfacesResponse() : soap(NULL) { } virtual ~_net__EnumerateInterfacesResponse() { } }; #endif #ifndef SOAP_TYPE__net__GetInterfaceSettings #define SOAP_TYPE__net__GetInterfaceSettings (249) /* net:GetInterfaceSettings */ class SOAP_CMAC _net__GetInterfaceSettings { public: unsigned int InterfaceHandle; /* required element of type net:InterfaceHandleType */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 249; } /* = unique id SOAP_TYPE__net__GetInterfaceSettings */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _net__GetInterfaceSettings() : soap(NULL) { } virtual ~_net__GetInterfaceSettings() { } }; #endif #ifndef SOAP_TYPE__net__GetInterfaceSettingsResponse #define SOAP_TYPE__net__GetInterfaceSettingsResponse (250) /* net:GetInterfaceSettingsResponse */ class SOAP_CMAC _net__GetInterfaceSettingsResponse { public: unsigned int StatusCode; /* RPC return element */ /* required element of type cmn:PT_STATUS */ net__InterfaceDescriptorGetType *InterfaceDescriptor; /* required element of type net:InterfaceDescriptorGetType */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 250; } /* = unique id SOAP_TYPE__net__GetInterfaceSettingsResponse */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _net__GetInterfaceSettingsResponse() : InterfaceDescriptor(NULL), soap(NULL) { } virtual ~_net__GetInterfaceSettingsResponse() { } }; #endif #ifndef SOAP_TYPE__net__SetInterfaceSettings #define SOAP_TYPE__net__SetInterfaceSettings (251) /* net:SetInterfaceSettings */ class SOAP_CMAC _net__SetInterfaceSettings { public: unsigned int InterfaceHandle; /* required element of type net:InterfaceHandleType */ net__InterfaceDescriptorSetType *InterfaceDescriptor; /* required element of type net:InterfaceDescriptorSetType */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 251; } /* = unique id SOAP_TYPE__net__SetInterfaceSettings */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _net__SetInterfaceSettings() : InterfaceDescriptor(NULL), soap(NULL) { } virtual ~_net__SetInterfaceSettings() { } }; #endif #ifndef SOAP_TYPE__net__SetInterfaceSettingsResponse #define SOAP_TYPE__net__SetInterfaceSettingsResponse (252) /* net:SetInterfaceSettingsResponse */ class SOAP_CMAC _net__SetInterfaceSettingsResponse { public: unsigned int StatusCode; /* RPC return element */ /* required element of type cmn:PT_STATUS */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 252; } /* = unique id SOAP_TYPE__net__SetInterfaceSettingsResponse */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _net__SetInterfaceSettingsResponse() : soap(NULL) { } virtual ~_net__SetInterfaceSettingsResponse() { } }; #endif #ifndef SOAP_TYPE__net__Get8021XWiredProfile #define SOAP_TYPE__net__Get8021XWiredProfile (253) /* net:Get8021XWiredProfile */ class SOAP_CMAC _net__Get8021XWiredProfile { public: unsigned int InterfaceHandle; /* required element of type cmn:InterfaceHandleType */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 253; } /* = unique id SOAP_TYPE__net__Get8021XWiredProfile */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _net__Get8021XWiredProfile() : soap(NULL) { } virtual ~_net__Get8021XWiredProfile() { } }; #endif #ifndef SOAP_TYPE__net__Get8021XWiredProfileResponse #define SOAP_TYPE__net__Get8021XWiredProfileResponse (254) /* net:Get8021XWiredProfileResponse */ class SOAP_CMAC _net__Get8021XWiredProfileResponse { public: unsigned int StatusCode; /* RPC return element */ /* required element of type cmn:PT_STATUS */ xcfg__XProfileType *XProfile; /* optional element of type xcfg:XProfileType */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 254; } /* = unique id SOAP_TYPE__net__Get8021XWiredProfileResponse */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _net__Get8021XWiredProfileResponse() : XProfile(NULL), soap(NULL) { } virtual ~_net__Get8021XWiredProfileResponse() { } }; #endif #ifndef SOAP_TYPE__net__Set8021XWiredProfile #define SOAP_TYPE__net__Set8021XWiredProfile (255) /* net:Set8021XWiredProfile */ class SOAP_CMAC _net__Set8021XWiredProfile { public: unsigned int InterfaceHandle; /* required element of type cmn:InterfaceHandleType */ xcfg__XProfileType *XProfile; /* optional element of type xcfg:XProfileType */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 255; } /* = unique id SOAP_TYPE__net__Set8021XWiredProfile */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _net__Set8021XWiredProfile() : XProfile(NULL), soap(NULL) { } virtual ~_net__Set8021XWiredProfile() { } }; #endif #ifndef SOAP_TYPE__net__Set8021XWiredProfileResponse #define SOAP_TYPE__net__Set8021XWiredProfileResponse (256) /* net:Set8021XWiredProfileResponse */ class SOAP_CMAC _net__Set8021XWiredProfileResponse { public: unsigned int StatusCode; /* RPC return element */ /* required element of type cmn:PT_STATUS */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 256; } /* = unique id SOAP_TYPE__net__Set8021XWiredProfileResponse */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _net__Set8021XWiredProfileResponse() : soap(NULL) { } virtual ~_net__Set8021XWiredProfileResponse() { } }; #endif #ifndef SOAP_TYPE__net__Set8021XActiveS0 #define SOAP_TYPE__net__Set8021XActiveS0 (257) /* net:Set8021XActiveS0 */ class SOAP_CMAC _net__Set8021XActiveS0 { public: bool Enabled; /* required element of type xsd:boolean */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 257; } /* = unique id SOAP_TYPE__net__Set8021XActiveS0 */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _net__Set8021XActiveS0() : soap(NULL) { } virtual ~_net__Set8021XActiveS0() { } }; #endif #ifndef SOAP_TYPE__net__Set8021XActiveS0Response #define SOAP_TYPE__net__Set8021XActiveS0Response (258) /* net:Set8021XActiveS0Response */ class SOAP_CMAC _net__Set8021XActiveS0Response { public: unsigned int StatusCode; /* RPC return element */ /* required element of type cmn:PT_STATUS */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 258; } /* = unique id SOAP_TYPE__net__Set8021XActiveS0Response */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _net__Set8021XActiveS0Response() : soap(NULL) { } virtual ~_net__Set8021XActiveS0Response() { } }; #endif #ifndef SOAP_TYPE__net__Get8021XActiveS0 #define SOAP_TYPE__net__Get8021XActiveS0 (259) /* net:Get8021XActiveS0 */ class SOAP_CMAC _net__Get8021XActiveS0 { public: struct soap *soap; /* transient */ public: virtual int soap_type() const { return 259; } /* = unique id SOAP_TYPE__net__Get8021XActiveS0 */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _net__Get8021XActiveS0() : soap(NULL) { } virtual ~_net__Get8021XActiveS0() { } }; #endif #ifndef SOAP_TYPE__net__Get8021XActiveS0Response #define SOAP_TYPE__net__Get8021XActiveS0Response (260) /* net:Get8021XActiveS0Response */ class SOAP_CMAC _net__Get8021XActiveS0Response { public: unsigned int StatusCode; /* RPC return element */ /* required element of type cmn:PT_STATUS */ bool Enabled; /* required element of type xsd:boolean */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 260; } /* = unique id SOAP_TYPE__net__Get8021XActiveS0Response */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _net__Get8021XActiveS0Response() : soap(NULL) { } virtual ~_net__Get8021XActiveS0Response() { } }; #endif #ifndef SOAP_TYPE__net__Set8021XPxeTimeout #define SOAP_TYPE__net__Set8021XPxeTimeout (261) /* net:Set8021XPxeTimeout */ class SOAP_CMAC _net__Set8021XPxeTimeout { public: unsigned int *Timeout; /* optional element of type xsd:unsignedInt */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 261; } /* = unique id SOAP_TYPE__net__Set8021XPxeTimeout */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _net__Set8021XPxeTimeout() : Timeout(NULL), soap(NULL) { } virtual ~_net__Set8021XPxeTimeout() { } }; #endif #ifndef SOAP_TYPE__net__Set8021XPxeTimeoutResponse #define SOAP_TYPE__net__Set8021XPxeTimeoutResponse (262) /* net:Set8021XPxeTimeoutResponse */ class SOAP_CMAC _net__Set8021XPxeTimeoutResponse { public: unsigned int StatusCode; /* RPC return element */ /* required element of type cmn:PT_STATUS */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 262; } /* = unique id SOAP_TYPE__net__Set8021XPxeTimeoutResponse */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _net__Set8021XPxeTimeoutResponse() : soap(NULL) { } virtual ~_net__Set8021XPxeTimeoutResponse() { } }; #endif #ifndef SOAP_TYPE__net__Get8021XPxeTimeout #define SOAP_TYPE__net__Get8021XPxeTimeout (263) /* net:Get8021XPxeTimeout */ class SOAP_CMAC _net__Get8021XPxeTimeout { public: struct soap *soap; /* transient */ public: virtual int soap_type() const { return 263; } /* = unique id SOAP_TYPE__net__Get8021XPxeTimeout */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _net__Get8021XPxeTimeout() : soap(NULL) { } virtual ~_net__Get8021XPxeTimeout() { } }; #endif #ifndef SOAP_TYPE__net__Get8021XPxeTimeoutResponse #define SOAP_TYPE__net__Get8021XPxeTimeoutResponse (264) /* net:Get8021XPxeTimeoutResponse */ class SOAP_CMAC _net__Get8021XPxeTimeoutResponse { public: unsigned int StatusCode; /* RPC return element */ /* required element of type cmn:PT_STATUS */ unsigned int Timeout; /* required element of type xsd:unsignedInt */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 264; } /* = unique id SOAP_TYPE__net__Get8021XPxeTimeoutResponse */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _net__Get8021XPxeTimeoutResponse() : soap(NULL) { } virtual ~_net__Get8021XPxeTimeoutResponse() { } }; #endif #ifndef SOAP_TYPE_stra__StorageEaclEntryType #define SOAP_TYPE_stra__StorageEaclEntryType (265) /* stra:StorageEaclEntryType */ class SOAP_CMAC stra__StorageEaclEntryType { public: std::string EnterpriseName; /* required element of type xsd:string */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 265; } /* = unique id SOAP_TYPE_stra__StorageEaclEntryType */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); stra__StorageEaclEntryType() : soap(NULL) { } virtual ~stra__StorageEaclEntryType() { } }; #endif #ifndef SOAP_TYPE_stra__StorageEaclEntryHandleListType #define SOAP_TYPE_stra__StorageEaclEntryHandleListType (266) /* stra:StorageEaclEntryHandleListType */ class SOAP_CMAC stra__StorageEaclEntryHandleListType { public: std::vectorHandle; /* sequence of 0 to 8 elements */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 266; } /* = unique id SOAP_TYPE_stra__StorageEaclEntryHandleListType */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); stra__StorageEaclEntryHandleListType() : soap(NULL) { } virtual ~stra__StorageEaclEntryHandleListType() { } }; #endif #ifndef SOAP_TYPE_stra__StorageAllocEntryType #define SOAP_TYPE_stra__StorageAllocEntryType (267) /* stra:StorageAllocEntryType */ class SOAP_CMAC stra__StorageAllocEntryType { public: enum stra__ISVS_USCOREAPP_USCOREATTR_USCORETYPE AttrType; /* required element of type stra:ISVS_APP_ATTR_TYPE */ class stra__StorageAllocSnrpEntryType *StorageAllocSnrpEntry; /* required element of type stra:StorageAllocSnrpEntryType */ bool IsPartner; /* required element of type xsd:boolean */ unsigned int TotalAllocationSize; /* required element of type xsd:unsignedInt */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 267; } /* = unique id SOAP_TYPE_stra__StorageAllocEntryType */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); stra__StorageAllocEntryType() : StorageAllocSnrpEntry(NULL), soap(NULL) { } virtual ~stra__StorageAllocEntryType() { } }; #endif #ifndef SOAP_TYPE_stra__StorageAllocSnrpEntryType #define SOAP_TYPE_stra__StorageAllocSnrpEntryType (268) /* stra:StorageAllocSnrpEntryType */ class SOAP_CMAC stra__StorageAllocSnrpEntryType { public: std::string ApplicationName; /* required element of type xsd:string */ std::string VendorName; /* required element of type xsd:string */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 268; } /* = unique id SOAP_TYPE_stra__StorageAllocSnrpEntryType */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); stra__StorageAllocSnrpEntryType() : soap(NULL) { } virtual ~stra__StorageAllocSnrpEntryType() { } }; #endif #ifndef SOAP_TYPE_stra__StorageAllocEntryHandleListType #define SOAP_TYPE_stra__StorageAllocEntryHandleListType (269) /* stra:StorageAllocEntryHandleListType */ class SOAP_CMAC stra__StorageAllocEntryHandleListType { public: std::vectorHandle; /* sequence of 0 to 32 elements */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 269; } /* = unique id SOAP_TYPE_stra__StorageAllocEntryHandleListType */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); stra__StorageAllocEntryHandleListType() : soap(NULL) { } virtual ~stra__StorageAllocEntryHandleListType() { } }; #endif #ifndef SOAP_TYPE_stra__GUID #define SOAP_TYPE_stra__GUID (270) /* stra:GUID */ class SOAP_CMAC stra__GUID { public: std::vectorByte; /* sequence of 16 to 16 elements */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 270; } /* = unique id SOAP_TYPE_stra__GUID */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); stra__GUID() : soap(NULL) { } virtual ~stra__GUID() { } }; #endif #ifndef SOAP_TYPE_stra__GlobalStorageAttributesType #define SOAP_TYPE_stra__GlobalStorageAttributesType (271) /* stra:GlobalStorageAttributesType */ class SOAP_CMAC stra__GlobalStorageAttributesType { public: unsigned int TotalStorage; /* required element of type xsd:unsignedInt */ unsigned int TotalAllocatedStorage; /* required element of type xsd:unsignedInt */ unsigned int MaxPartnerStorage; /* required element of type xsd:unsignedInt */ unsigned int TotalPartnerAllocatedStorage; /* required element of type xsd:unsignedInt */ unsigned int MaxNonPartnerStorage; /* required element of type xsd:unsignedInt */ unsigned short MaxFpaclEntries; /* required element of type xsd:unsignedShort */ unsigned short MaxAslEntries; /* required element of type xsd:unsignedShort */ unsigned short MaxEaclEntries; /* required element of type xsd:unsignedShort */ unsigned short MaxGroupsPerBlock; /* required element of type xsd:unsignedShort */ unsigned short MaxMembersPerGroup; /* required element of type xsd:unsignedShort */ unsigned short MaxNonPartnerTotalAllocationSize; /* required element of type xsd:unsignedShort */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 271; } /* = unique id SOAP_TYPE_stra__GlobalStorageAttributesType */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); stra__GlobalStorageAttributesType() : soap(NULL) { } virtual ~stra__GlobalStorageAttributesType() { } }; #endif #ifndef SOAP_TYPE_stra__StorageApplicationHandleListType #define SOAP_TYPE_stra__StorageApplicationHandleListType (272) /* stra:StorageApplicationHandleListType */ class SOAP_CMAC stra__StorageApplicationHandleListType { public: std::vectorHandle; /* sequence of 0 to 32 elements */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 272; } /* = unique id SOAP_TYPE_stra__StorageApplicationHandleListType */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); stra__StorageApplicationHandleListType() : soap(NULL) { } virtual ~stra__StorageApplicationHandleListType() { } }; #endif #ifndef SOAP_TYPE_stra__StorageSnrpApplicationAttributeType #define SOAP_TYPE_stra__StorageSnrpApplicationAttributeType (273) /* stra:StorageSnrpApplicationAttributeType */ class SOAP_CMAC stra__StorageSnrpApplicationAttributeType { public: stra__GUID *UUID; /* required element of type stra:GUID */ std::string VendorName; /* required element of type xsd:string */ std::string ApplicationName; /* required element of type xsd:string */ std::string EnterpriseName; /* required element of type xsd:string */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 273; } /* = unique id SOAP_TYPE_stra__StorageSnrpApplicationAttributeType */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); stra__StorageSnrpApplicationAttributeType() : UUID(NULL), soap(NULL) { } virtual ~stra__StorageSnrpApplicationAttributeType() { } }; #endif #ifndef SOAP_TYPE_stra__StorageApplicationAttributesType #define SOAP_TYPE_stra__StorageApplicationAttributesType (274) /* stra:StorageApplicationAttributesType */ class SOAP_CMAC stra__StorageApplicationAttributesType { public: enum stra__ISVS_USCOREAPP_USCOREATTR_USCORETYPE AttrType; /* required element of type stra:ISVS_APP_ATTR_TYPE */ stra__StorageSnrpApplicationAttributeType *ApplicationAttr; /* required element of type stra:StorageSnrpApplicationAttributeType */ unsigned int CurrentAllocationSize; /* required element of type xsd:unsignedInt */ bool ActiveSession; /* required element of type xsd:boolean */ bool Partner; /* required element of type xsd:boolean */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 274; } /* = unique id SOAP_TYPE_stra__StorageApplicationAttributesType */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); stra__StorageApplicationAttributesType() : ApplicationAttr(NULL), soap(NULL) { } virtual ~stra__StorageApplicationAttributesType() { } }; #endif #ifndef SOAP_TYPE__stra__GetGlobalStorageAttributes #define SOAP_TYPE__stra__GetGlobalStorageAttributes (275) /* stra:GetGlobalStorageAttributes */ class SOAP_CMAC _stra__GetGlobalStorageAttributes { public: struct soap *soap; /* transient */ public: virtual int soap_type() const { return 275; } /* = unique id SOAP_TYPE__stra__GetGlobalStorageAttributes */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _stra__GetGlobalStorageAttributes() : soap(NULL) { } virtual ~_stra__GetGlobalStorageAttributes() { } }; #endif #ifndef SOAP_TYPE__stra__GetGlobalStorageAttributesResponse #define SOAP_TYPE__stra__GetGlobalStorageAttributesResponse (276) /* stra:GetGlobalStorageAttributesResponse */ class SOAP_CMAC _stra__GetGlobalStorageAttributesResponse { public: unsigned int StatusCode; /* RPC return element */ /* required element of type stra:PT_STATUS */ stra__GlobalStorageAttributesType *Attributes; /* optional element of type stra:GlobalStorageAttributesType */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 276; } /* = unique id SOAP_TYPE__stra__GetGlobalStorageAttributesResponse */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _stra__GetGlobalStorageAttributesResponse() : Attributes(NULL), soap(NULL) { } virtual ~_stra__GetGlobalStorageAttributesResponse() { } }; #endif #ifndef SOAP_TYPE__stra__SetGlobalStorageAttributes #define SOAP_TYPE__stra__SetGlobalStorageAttributes (277) /* stra:SetGlobalStorageAttributes */ class SOAP_CMAC _stra__SetGlobalStorageAttributes { public: unsigned int *MaxPartnerStorage; /* optional element of type xsd:unsignedInt */ unsigned short *MaxNonPartnerTotalAllocationSize; /* optional element of type xsd:unsignedShort */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 277; } /* = unique id SOAP_TYPE__stra__SetGlobalStorageAttributes */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _stra__SetGlobalStorageAttributes() : MaxPartnerStorage(NULL), MaxNonPartnerTotalAllocationSize(NULL), soap(NULL) { } virtual ~_stra__SetGlobalStorageAttributes() { } }; #endif #ifndef SOAP_TYPE__stra__SetGlobalStorageAttributesResponse #define SOAP_TYPE__stra__SetGlobalStorageAttributesResponse (278) /* stra:SetGlobalStorageAttributesResponse */ class SOAP_CMAC _stra__SetGlobalStorageAttributesResponse { public: unsigned int StatusCode; /* RPC return element */ /* required element of type stra:PT_STATUS */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 278; } /* = unique id SOAP_TYPE__stra__SetGlobalStorageAttributesResponse */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _stra__SetGlobalStorageAttributesResponse() : soap(NULL) { } virtual ~_stra__SetGlobalStorageAttributesResponse() { } }; #endif #ifndef SOAP_TYPE__stra__AdminGetRegisteredApplications #define SOAP_TYPE__stra__AdminGetRegisteredApplications (279) /* stra:AdminGetRegisteredApplications */ class SOAP_CMAC _stra__AdminGetRegisteredApplications { public: unsigned int StartIndex; /* required element of type xsd:unsignedInt */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 279; } /* = unique id SOAP_TYPE__stra__AdminGetRegisteredApplications */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _stra__AdminGetRegisteredApplications() : soap(NULL) { } virtual ~_stra__AdminGetRegisteredApplications() { } }; #endif #ifndef SOAP_TYPE__stra__AdminGetRegisteredApplicationsResponse #define SOAP_TYPE__stra__AdminGetRegisteredApplicationsResponse (280) /* stra:AdminGetRegisteredApplicationsResponse */ class SOAP_CMAC _stra__AdminGetRegisteredApplicationsResponse { public: unsigned int StatusCode; /* RPC return element */ /* required element of type stra:PT_STATUS */ unsigned int TotalCount; /* required element of type xsd:unsignedInt */ unsigned int HandlesCount; /* required element of type xsd:unsignedInt */ stra__StorageApplicationHandleListType *ApplicationHandles; /* optional element of type stra:StorageApplicationHandleListType */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 280; } /* = unique id SOAP_TYPE__stra__AdminGetRegisteredApplicationsResponse */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _stra__AdminGetRegisteredApplicationsResponse() : ApplicationHandles(NULL), soap(NULL) { } virtual ~_stra__AdminGetRegisteredApplicationsResponse() { } }; #endif #ifndef SOAP_TYPE__stra__AdminGetApplicationAttributes #define SOAP_TYPE__stra__AdminGetApplicationAttributes (281) /* stra:AdminGetApplicationAttributes */ class SOAP_CMAC _stra__AdminGetApplicationAttributes { public: unsigned int Handle; /* required element of type stra:StorageApplicationHandleType */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 281; } /* = unique id SOAP_TYPE__stra__AdminGetApplicationAttributes */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _stra__AdminGetApplicationAttributes() : soap(NULL) { } virtual ~_stra__AdminGetApplicationAttributes() { } }; #endif #ifndef SOAP_TYPE__stra__AdminGetApplicationAttributesResponse #define SOAP_TYPE__stra__AdminGetApplicationAttributesResponse (282) /* stra:AdminGetApplicationAttributesResponse */ class SOAP_CMAC _stra__AdminGetApplicationAttributesResponse { public: unsigned int StatusCode; /* RPC return element */ /* required element of type stra:PT_STATUS */ stra__StorageApplicationAttributesType *Attributes; /* optional element of type stra:StorageApplicationAttributesType */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 282; } /* = unique id SOAP_TYPE__stra__AdminGetApplicationAttributesResponse */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _stra__AdminGetApplicationAttributesResponse() : Attributes(NULL), soap(NULL) { } virtual ~_stra__AdminGetApplicationAttributesResponse() { } }; #endif #ifndef SOAP_TYPE__stra__AdminRemoveApplication #define SOAP_TYPE__stra__AdminRemoveApplication (283) /* stra:AdminRemoveApplication */ class SOAP_CMAC _stra__AdminRemoveApplication { public: unsigned int Handle; /* required element of type stra:StorageApplicationHandleType */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 283; } /* = unique id SOAP_TYPE__stra__AdminRemoveApplication */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _stra__AdminRemoveApplication() : soap(NULL) { } virtual ~_stra__AdminRemoveApplication() { } }; #endif #ifndef SOAP_TYPE__stra__AdminRemoveApplicationResponse #define SOAP_TYPE__stra__AdminRemoveApplicationResponse (284) /* stra:AdminRemoveApplicationResponse */ class SOAP_CMAC _stra__AdminRemoveApplicationResponse { public: unsigned int StatusCode; /* RPC return element */ /* required element of type stra:PT_STATUS */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 284; } /* = unique id SOAP_TYPE__stra__AdminRemoveApplicationResponse */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _stra__AdminRemoveApplicationResponse() : soap(NULL) { } virtual ~_stra__AdminRemoveApplicationResponse() { } }; #endif #ifndef SOAP_TYPE__stra__AddStorageEaclEntry #define SOAP_TYPE__stra__AddStorageEaclEntry (285) /* stra:AddStorageEaclEntry */ class SOAP_CMAC _stra__AddStorageEaclEntry { public: stra__StorageEaclEntryType *Entry; /* required element of type stra:StorageEaclEntryType */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 285; } /* = unique id SOAP_TYPE__stra__AddStorageEaclEntry */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _stra__AddStorageEaclEntry() : Entry(NULL), soap(NULL) { } virtual ~_stra__AddStorageEaclEntry() { } }; #endif #ifndef SOAP_TYPE__stra__AddStorageEaclEntryResponse #define SOAP_TYPE__stra__AddStorageEaclEntryResponse (286) /* stra:AddStorageEaclEntryResponse */ class SOAP_CMAC _stra__AddStorageEaclEntryResponse { public: unsigned int StatusCode; /* RPC return element */ /* required element of type stra:PT_STATUS */ unsigned int Handle; /* required element of type stra:StorageEaclEntryHandleType */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 286; } /* = unique id SOAP_TYPE__stra__AddStorageEaclEntryResponse */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _stra__AddStorageEaclEntryResponse() : soap(NULL) { } virtual ~_stra__AddStorageEaclEntryResponse() { } }; #endif #ifndef SOAP_TYPE__stra__EnumerateStorageEaclEntries #define SOAP_TYPE__stra__EnumerateStorageEaclEntries (287) /* stra:EnumerateStorageEaclEntries */ class SOAP_CMAC _stra__EnumerateStorageEaclEntries { public: unsigned short StartIndex; /* required element of type xsd:unsignedShort */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 287; } /* = unique id SOAP_TYPE__stra__EnumerateStorageEaclEntries */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _stra__EnumerateStorageEaclEntries() : soap(NULL) { } virtual ~_stra__EnumerateStorageEaclEntries() { } }; #endif #ifndef SOAP_TYPE__stra__EnumerateStorageEaclEntriesResponse #define SOAP_TYPE__stra__EnumerateStorageEaclEntriesResponse (288) /* stra:EnumerateStorageEaclEntriesResponse */ class SOAP_CMAC _stra__EnumerateStorageEaclEntriesResponse { public: unsigned int StatusCode; /* RPC return element */ /* required element of type stra:PT_STATUS */ unsigned short TotalCount; /* required element of type xsd:unsignedShort */ unsigned short HandlesCount; /* required element of type xsd:unsignedShort */ stra__StorageEaclEntryHandleListType *Handles; /* required element of type stra:StorageEaclEntryHandleListType */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 288; } /* = unique id SOAP_TYPE__stra__EnumerateStorageEaclEntriesResponse */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _stra__EnumerateStorageEaclEntriesResponse() : Handles(NULL), soap(NULL) { } virtual ~_stra__EnumerateStorageEaclEntriesResponse() { } }; #endif #ifndef SOAP_TYPE__stra__GetStorageEaclEntry #define SOAP_TYPE__stra__GetStorageEaclEntry (289) /* stra:GetStorageEaclEntry */ class SOAP_CMAC _stra__GetStorageEaclEntry { public: unsigned int Handle; /* required element of type stra:StorageEaclEntryHandleType */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 289; } /* = unique id SOAP_TYPE__stra__GetStorageEaclEntry */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _stra__GetStorageEaclEntry() : soap(NULL) { } virtual ~_stra__GetStorageEaclEntry() { } }; #endif #ifndef SOAP_TYPE__stra__GetStorageEaclEntryResponse #define SOAP_TYPE__stra__GetStorageEaclEntryResponse (290) /* stra:GetStorageEaclEntryResponse */ class SOAP_CMAC _stra__GetStorageEaclEntryResponse { public: unsigned int StatusCode; /* RPC return element */ /* required element of type stra:PT_STATUS */ stra__StorageEaclEntryType *Entry; /* required element of type stra:StorageEaclEntryType */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 290; } /* = unique id SOAP_TYPE__stra__GetStorageEaclEntryResponse */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _stra__GetStorageEaclEntryResponse() : Entry(NULL), soap(NULL) { } virtual ~_stra__GetStorageEaclEntryResponse() { } }; #endif #ifndef SOAP_TYPE__stra__RemoveStorageEaclEntry #define SOAP_TYPE__stra__RemoveStorageEaclEntry (291) /* stra:RemoveStorageEaclEntry */ class SOAP_CMAC _stra__RemoveStorageEaclEntry { public: unsigned int Handle; /* required element of type stra:StorageEaclEntryHandleType */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 291; } /* = unique id SOAP_TYPE__stra__RemoveStorageEaclEntry */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _stra__RemoveStorageEaclEntry() : soap(NULL) { } virtual ~_stra__RemoveStorageEaclEntry() { } }; #endif #ifndef SOAP_TYPE__stra__RemoveStorageEaclEntryResponse #define SOAP_TYPE__stra__RemoveStorageEaclEntryResponse (292) /* stra:RemoveStorageEaclEntryResponse */ class SOAP_CMAC _stra__RemoveStorageEaclEntryResponse { public: unsigned int StatusCode; /* RPC return element */ /* required element of type stra:PT_STATUS */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 292; } /* = unique id SOAP_TYPE__stra__RemoveStorageEaclEntryResponse */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _stra__RemoveStorageEaclEntryResponse() : soap(NULL) { } virtual ~_stra__RemoveStorageEaclEntryResponse() { } }; #endif #ifndef SOAP_TYPE__stra__AddStorageFpaclEntry #define SOAP_TYPE__stra__AddStorageFpaclEntry (293) /* stra:AddStorageFpaclEntry */ class SOAP_CMAC _stra__AddStorageFpaclEntry { public: stra__StorageAllocEntryType *Entry; /* required element of type stra:StorageAllocEntryType */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 293; } /* = unique id SOAP_TYPE__stra__AddStorageFpaclEntry */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _stra__AddStorageFpaclEntry() : Entry(NULL), soap(NULL) { } virtual ~_stra__AddStorageFpaclEntry() { } }; #endif #ifndef SOAP_TYPE__stra__AddStorageFpaclEntryResponse #define SOAP_TYPE__stra__AddStorageFpaclEntryResponse (294) /* stra:AddStorageFpaclEntryResponse */ class SOAP_CMAC _stra__AddStorageFpaclEntryResponse { public: unsigned int StatusCode; /* RPC return element */ /* required element of type stra:PT_STATUS */ unsigned int Handle; /* required element of type stra:StorageAllocEntryHandleType */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 294; } /* = unique id SOAP_TYPE__stra__AddStorageFpaclEntryResponse */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _stra__AddStorageFpaclEntryResponse() : soap(NULL) { } virtual ~_stra__AddStorageFpaclEntryResponse() { } }; #endif #ifndef SOAP_TYPE__stra__EnumerateStorageAllocEntries #define SOAP_TYPE__stra__EnumerateStorageAllocEntries (295) /* stra:EnumerateStorageAllocEntries */ class SOAP_CMAC _stra__EnumerateStorageAllocEntries { public: unsigned short StartIndex; /* required element of type xsd:unsignedShort */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 295; } /* = unique id SOAP_TYPE__stra__EnumerateStorageAllocEntries */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _stra__EnumerateStorageAllocEntries() : soap(NULL) { } virtual ~_stra__EnumerateStorageAllocEntries() { } }; #endif #ifndef SOAP_TYPE__stra__EnumerateStorageAllocEntriesResponse #define SOAP_TYPE__stra__EnumerateStorageAllocEntriesResponse (296) /* stra:EnumerateStorageAllocEntriesResponse */ class SOAP_CMAC _stra__EnumerateStorageAllocEntriesResponse { public: unsigned int StatusCode; /* RPC return element */ /* required element of type stra:PT_STATUS */ unsigned short TotalCount; /* required element of type xsd:unsignedShort */ unsigned short HandlesCount; /* required element of type xsd:unsignedShort */ stra__StorageAllocEntryHandleListType *Handles; /* required element of type stra:StorageAllocEntryHandleListType */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 296; } /* = unique id SOAP_TYPE__stra__EnumerateStorageAllocEntriesResponse */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _stra__EnumerateStorageAllocEntriesResponse() : Handles(NULL), soap(NULL) { } virtual ~_stra__EnumerateStorageAllocEntriesResponse() { } }; #endif #ifndef SOAP_TYPE__stra__GetStorageAllocEntry #define SOAP_TYPE__stra__GetStorageAllocEntry (297) /* stra:GetStorageAllocEntry */ class SOAP_CMAC _stra__GetStorageAllocEntry { public: unsigned int Handle; /* required element of type stra:StorageAllocEntryHandleType */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 297; } /* = unique id SOAP_TYPE__stra__GetStorageAllocEntry */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _stra__GetStorageAllocEntry() : soap(NULL) { } virtual ~_stra__GetStorageAllocEntry() { } }; #endif #ifndef SOAP_TYPE__stra__GetStorageAllocEntryResponse #define SOAP_TYPE__stra__GetStorageAllocEntryResponse (298) /* stra:GetStorageAllocEntryResponse */ class SOAP_CMAC _stra__GetStorageAllocEntryResponse { public: unsigned int StatusCode; /* RPC return element */ /* required element of type stra:PT_STATUS */ stra__StorageAllocEntryType *Entry; /* required element of type stra:StorageAllocEntryType */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 298; } /* = unique id SOAP_TYPE__stra__GetStorageAllocEntryResponse */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _stra__GetStorageAllocEntryResponse() : Entry(NULL), soap(NULL) { } virtual ~_stra__GetStorageAllocEntryResponse() { } }; #endif #ifndef SOAP_TYPE__stra__UpdateStorageFpaclEntry #define SOAP_TYPE__stra__UpdateStorageFpaclEntry (299) /* stra:UpdateStorageFpaclEntry */ class SOAP_CMAC _stra__UpdateStorageFpaclEntry { public: unsigned int Handle; /* required element of type stra:StorageAllocEntryHandleType */ unsigned int NewAllocationSize; /* required element of type xsd:unsignedInt */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 299; } /* = unique id SOAP_TYPE__stra__UpdateStorageFpaclEntry */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _stra__UpdateStorageFpaclEntry() : soap(NULL) { } virtual ~_stra__UpdateStorageFpaclEntry() { } }; #endif #ifndef SOAP_TYPE__stra__UpdateStorageFpaclEntryResponse #define SOAP_TYPE__stra__UpdateStorageFpaclEntryResponse (300) /* stra:UpdateStorageFpaclEntryResponse */ class SOAP_CMAC _stra__UpdateStorageFpaclEntryResponse { public: unsigned int StatusCode; /* RPC return element */ /* required element of type stra:PT_STATUS */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 300; } /* = unique id SOAP_TYPE__stra__UpdateStorageFpaclEntryResponse */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _stra__UpdateStorageFpaclEntryResponse() : soap(NULL) { } virtual ~_stra__UpdateStorageFpaclEntryResponse() { } }; #endif #ifndef SOAP_TYPE__stra__RemoveStorageFpaclEntry #define SOAP_TYPE__stra__RemoveStorageFpaclEntry (301) /* stra:RemoveStorageFpaclEntry */ class SOAP_CMAC _stra__RemoveStorageFpaclEntry { public: unsigned int Handle; /* required element of type stra:StorageAllocEntryHandleType */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 301; } /* = unique id SOAP_TYPE__stra__RemoveStorageFpaclEntry */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _stra__RemoveStorageFpaclEntry() : soap(NULL) { } virtual ~_stra__RemoveStorageFpaclEntry() { } }; #endif #ifndef SOAP_TYPE__stra__RemoveStorageFpaclEntryResponse #define SOAP_TYPE__stra__RemoveStorageFpaclEntryResponse (302) /* stra:RemoveStorageFpaclEntryResponse */ class SOAP_CMAC _stra__RemoveStorageFpaclEntryResponse { public: unsigned int StatusCode; /* RPC return element */ /* required element of type stra:PT_STATUS */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 302; } /* = unique id SOAP_TYPE__stra__RemoveStorageFpaclEntryResponse */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _stra__RemoveStorageFpaclEntryResponse() : soap(NULL) { } virtual ~_stra__RemoveStorageFpaclEntryResponse() { } }; #endif #ifndef SOAP_TYPE_emi__AlertSubscriptionPolicyIDArrayType #define SOAP_TYPE_emi__AlertSubscriptionPolicyIDArrayType (303) /* emi:AlertSubscriptionPolicyIDArrayType */ class SOAP_CMAC emi__AlertSubscriptionPolicyIDArrayType { public: std::vectorAlertSubscriptionPolicyID; /* optional element of type emi:AlertSubscriptionPolicyIDType */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 303; } /* = unique id SOAP_TYPE_emi__AlertSubscriptionPolicyIDArrayType */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); emi__AlertSubscriptionPolicyIDArrayType() : soap(NULL) { } virtual ~emi__AlertSubscriptionPolicyIDArrayType() { } }; #endif #ifndef SOAP_TYPE_emi__ByteData #define SOAP_TYPE_emi__ByteData (304) /* emi:ByteData */ class SOAP_CMAC emi__ByteData { public: std::vectorByte; /* sequence of 8 to 8 elements */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 304; } /* = unique id SOAP_TYPE_emi__ByteData */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); emi__ByteData() : soap(NULL) { } virtual ~emi__ByteData() { } }; #endif #ifndef SOAP_TYPE_emi__EventLogRecordType #define SOAP_TYPE_emi__EventLogRecordType (305) /* emi:EventLogRecordType */ class SOAP_CMAC emi__EventLogRecordType { public: unsigned int TimeStamp; /* required element of type emi:TimeType */ unsigned char DeviceAddress; /* required element of type xsd:unsignedByte */ unsigned char EventSensorType; /* required element of type xsd:unsignedByte */ unsigned char EventType; /* required element of type xsd:unsignedByte */ unsigned char EventOffset; /* required element of type xsd:unsignedByte */ unsigned char EventSourceType; /* required element of type xsd:unsignedByte */ enum emi__EventSeverityType EventSeverity; /* required element of type emi:EventSeverityType */ unsigned char SensorNumber; /* required element of type xsd:unsignedByte */ unsigned char Entity; /* required element of type xsd:unsignedByte */ unsigned char EntityInstance; /* required element of type xsd:unsignedByte */ emi__ByteData *EventData; /* required element of type emi:ByteData */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 305; } /* = unique id SOAP_TYPE_emi__EventLogRecordType */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); emi__EventLogRecordType() : EventData(NULL), soap(NULL) { } virtual ~emi__EventLogRecordType() { } }; #endif #ifndef SOAP_TYPE_emi__EventFilterType #define SOAP_TYPE_emi__EventFilterType (306) /* emi:EventFilterType */ class SOAP_CMAC emi__EventFilterType { public: unsigned char FilterConfiguration; /* required element of type xsd:unsignedByte */ unsigned char FilterAction; /* required element of type xsd:unsignedByte */ unsigned char AlertSubscriptionPolicyID; /* required element of type emi:AlertSubscriptionPolicyIDType */ unsigned char DeviceAddress; /* required element of type xsd:unsignedByte */ unsigned char EventSensorType; /* required element of type xsd:unsignedByte */ unsigned char EventType; /* required element of type xsd:unsignedByte */ unsigned char EventOffset; /* required element of type xsd:unsignedByte */ unsigned char EventSourceType; /* required element of type xsd:unsignedByte */ enum emi__EventSeverityType EventSeverity; /* required element of type emi:EventSeverityType */ unsigned char SensorNumber; /* required element of type xsd:unsignedByte */ unsigned char Entity; /* required element of type xsd:unsignedByte */ unsigned char EntityInstance; /* required element of type xsd:unsignedByte */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 306; } /* = unique id SOAP_TYPE_emi__EventFilterType */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); emi__EventFilterType() : soap(NULL) { } virtual ~emi__EventFilterType() { } }; #endif #ifndef SOAP_TYPE_emi__AlertSubscriptionType #define SOAP_TYPE_emi__AlertSubscriptionType (307) /* emi:AlertSubscriptionType */ class SOAP_CMAC emi__AlertSubscriptionType { public: unsigned char AlertSubscriptionPolicyID; /* required element of type emi:AlertSubscriptionPolicyIDType */ unsigned int DestinationAddress; /* required element of type emi:IPv4AddressType */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 307; } /* = unique id SOAP_TYPE_emi__AlertSubscriptionType */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); emi__AlertSubscriptionType() : soap(NULL) { } virtual ~emi__AlertSubscriptionType() { } }; #endif #ifndef SOAP_TYPE_emi__AlertSubscriptionHandleArrayType #define SOAP_TYPE_emi__AlertSubscriptionHandleArrayType (308) /* emi:AlertSubscriptionHandleArrayType */ class SOAP_CMAC emi__AlertSubscriptionHandleArrayType { public: std::vectorAlertSubscriptionHandle; /* optional element of type emi:AlertSubscriptionHandleType */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 308; } /* = unique id SOAP_TYPE_emi__AlertSubscriptionHandleArrayType */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); emi__AlertSubscriptionHandleArrayType() : soap(NULL) { } virtual ~emi__AlertSubscriptionHandleArrayType() { } }; #endif #ifndef SOAP_TYPE_emi__EventFilterHandleArrayType #define SOAP_TYPE_emi__EventFilterHandleArrayType (309) /* emi:EventFilterHandleArrayType */ class SOAP_CMAC emi__EventFilterHandleArrayType { public: std::vectorEventFilterHandle; /* optional element of type emi:EventFilterHandleType */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 309; } /* = unique id SOAP_TYPE_emi__EventFilterHandleArrayType */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); emi__EventFilterHandleArrayType() : soap(NULL) { } virtual ~emi__EventFilterHandleArrayType() { } }; #endif #ifndef SOAP_TYPE_emi__EventLogRecordArrayType #define SOAP_TYPE_emi__EventLogRecordArrayType (310) /* emi:EventLogRecordArrayType */ class SOAP_CMAC emi__EventLogRecordArrayType { public: std::vectorEventLogRecord; /* optional element of type emi:EventLogRecordType */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 310; } /* = unique id SOAP_TYPE_emi__EventLogRecordArrayType */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); emi__EventLogRecordArrayType() : soap(NULL) { } virtual ~emi__EventLogRecordArrayType() { } }; #endif #ifndef SOAP_TYPE_emi__SensorHandleArrayType #define SOAP_TYPE_emi__SensorHandleArrayType (311) /* emi:SensorHandleArrayType */ class SOAP_CMAC emi__SensorHandleArrayType { public: std::vectorSensorHandle; /* optional element of type emi:SensorHandleType */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 311; } /* = unique id SOAP_TYPE_emi__SensorHandleArrayType */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); emi__SensorHandleArrayType() : soap(NULL) { } virtual ~emi__SensorHandleArrayType() { } }; #endif #ifndef SOAP_TYPE_emi__SensorAttributesType #define SOAP_TYPE_emi__SensorAttributesType (312) /* emi:SensorAttributesType */ class SOAP_CMAC emi__SensorAttributesType { public: bool IsLegacySensor; /* required element of type xsd:boolean */ bool AssertionEvent; /* required element of type xsd:boolean */ bool DeassertionEvent; /* required element of type xsd:boolean */ unsigned char Index; /* required element of type xsd:unsignedByte */ unsigned char DeviceAddress; /* required element of type xsd:unsignedByte */ unsigned char EventSensorType; /* required element of type xsd:unsignedByte */ unsigned char EventType; /* required element of type xsd:unsignedByte */ unsigned char EventOffset; /* required element of type xsd:unsignedByte */ unsigned char EventSourceType; /* required element of type xsd:unsignedByte */ enum emi__EventSeverityType EventSeverity; /* required element of type emi:EventSeverityType */ unsigned char SensorNumber; /* required element of type xsd:unsignedByte */ unsigned char Entity; /* required element of type xsd:unsignedByte */ unsigned char EntityInstance; /* required element of type xsd:unsignedByte */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 312; } /* = unique id SOAP_TYPE_emi__SensorAttributesType */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); emi__SensorAttributesType() : soap(NULL) { } virtual ~emi__SensorAttributesType() { } }; #endif #ifndef SOAP_TYPE_emi__ByteStr #define SOAP_TYPE_emi__ByteStr (313) /* emi:ByteStr */ class SOAP_CMAC emi__ByteStr { public: std::vectorByte; /* sequence of 1 to 16 elements */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 313; } /* = unique id SOAP_TYPE_emi__ByteStr */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); emi__ByteStr() : soap(NULL) { } virtual ~emi__ByteStr() { } }; #endif #ifndef SOAP_TYPE_emi__AlertCredentialsType #define SOAP_TYPE_emi__AlertCredentialsType (314) /* emi:AlertCredentialsType */ class SOAP_CMAC emi__AlertCredentialsType { public: std::string Username; /* required element of type xsd:string */ std::string Password; /* required element of type xsd:string */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 314; } /* = unique id SOAP_TYPE_emi__AlertCredentialsType */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); emi__AlertCredentialsType() : soap(NULL) { } virtual ~emi__AlertCredentialsType() { } }; #endif #ifndef SOAP_TYPE_emi__AlertSubscriptionSNMPType #define SOAP_TYPE_emi__AlertSubscriptionSNMPType (315) /* emi:AlertSubscriptionSNMPType */ class SOAP_CMAC emi__AlertSubscriptionSNMPType { public: cmn__NodeAddressType *Address; /* required element of type cmn:NodeAddressType */ std::string *CommunityString; /* optional element of type emi:CommunityStringType */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 315; } /* = unique id SOAP_TYPE_emi__AlertSubscriptionSNMPType */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); emi__AlertSubscriptionSNMPType() : Address(NULL), CommunityString(NULL), soap(NULL) { } virtual ~emi__AlertSubscriptionSNMPType() { } }; #endif #ifndef SOAP_TYPE_emi__AlertSubscriptionSoapType #define SOAP_TYPE_emi__AlertSubscriptionSoapType (316) /* emi:AlertSubscriptionSoapType */ class SOAP_CMAC emi__AlertSubscriptionSoapType { public: class cmn__URLType *Address; /* required element of type cmn:URLType */ unsigned int *ClientCredentials; /* optional element of type sai:CertificateHandleType */ emi__AlertCredentialsType *UserCredentials; /* optional element of type emi:AlertCredentialsType */ std::vectorAlertAuthOptions; /* sequence of 0 to 3 elements */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 316; } /* = unique id SOAP_TYPE_emi__AlertSubscriptionSoapType */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); emi__AlertSubscriptionSoapType() : Address(NULL), ClientCredentials(NULL), UserCredentials(NULL), soap(NULL) { } virtual ~emi__AlertSubscriptionSoapType() { } }; #endif #ifndef SOAP_TYPE__emi__union_AlertSubscriptionGeneralType #define SOAP_TYPE__emi__union_AlertSubscriptionGeneralType (761) /* xsd:choice */ union _emi__union_AlertSubscriptionGeneralType { #define SOAP_UNION__emi__union_AlertSubscriptionGeneralType_AlertSubscriptionSNMP (1) emi__AlertSubscriptionSNMPType *AlertSubscriptionSNMP; #define SOAP_UNION__emi__union_AlertSubscriptionGeneralType_AlertSubscriptionSoap (2) emi__AlertSubscriptionSoapType *AlertSubscriptionSoap; }; #endif #ifndef SOAP_TYPE_emi__AlertSubscriptionGeneralType #define SOAP_TYPE_emi__AlertSubscriptionGeneralType (317) /* emi:AlertSubscriptionGeneralType */ class SOAP_CMAC emi__AlertSubscriptionGeneralType { public: unsigned char PolicyID; /* required element of type emi:AlertSubscriptionPolicyIDType */ int __union_AlertSubscriptionGeneralType; /* union discriminant (of union defined below) */ union _emi__union_AlertSubscriptionGeneralType union_AlertSubscriptionGeneralType; /* required element of type xsd:choice */ char *__any; struct soap *soap; /* transient */ public: virtual int soap_type() const { return 317; } /* = unique id SOAP_TYPE_emi__AlertSubscriptionGeneralType */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); emi__AlertSubscriptionGeneralType() : __any(NULL), soap(NULL) { } virtual ~emi__AlertSubscriptionGeneralType() { } }; #endif #ifndef SOAP_TYPE__emi__SubscribeForAlert #define SOAP_TYPE__emi__SubscribeForAlert (318) /* emi:SubscribeForAlert */ class SOAP_CMAC _emi__SubscribeForAlert { public: emi__AlertSubscriptionType *SubscriptionInfo; /* required element of type emi:AlertSubscriptionType */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 318; } /* = unique id SOAP_TYPE__emi__SubscribeForAlert */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _emi__SubscribeForAlert() : SubscriptionInfo(NULL), soap(NULL) { } virtual ~_emi__SubscribeForAlert() { } }; #endif #ifndef SOAP_TYPE__emi__SubscribeForAlertResponse #define SOAP_TYPE__emi__SubscribeForAlertResponse (319) /* emi:SubscribeForAlertResponse */ class SOAP_CMAC _emi__SubscribeForAlertResponse { public: unsigned int Status; /* RPC return element */ /* required element of type emi:PT_STATUS */ unsigned int SubscriptionHandle; /* required element of type emi:AlertSubscriptionHandleType */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 319; } /* = unique id SOAP_TYPE__emi__SubscribeForAlertResponse */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _emi__SubscribeForAlertResponse() : soap(NULL) { } virtual ~_emi__SubscribeForAlertResponse() { } }; #endif #ifndef SOAP_TYPE__emi__EnumerateAlertSubscriptions #define SOAP_TYPE__emi__EnumerateAlertSubscriptions (320) /* emi:EnumerateAlertSubscriptions */ class SOAP_CMAC _emi__EnumerateAlertSubscriptions { public: unsigned int StartIndex; /* required element of type xsd:unsignedInt */ unsigned char *AlertSubscriptionPolicyID; /* optional element of type emi:AlertSubscriptionPolicyIDType */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 320; } /* = unique id SOAP_TYPE__emi__EnumerateAlertSubscriptions */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _emi__EnumerateAlertSubscriptions() : AlertSubscriptionPolicyID(NULL), soap(NULL) { } virtual ~_emi__EnumerateAlertSubscriptions() { } }; #endif #ifndef SOAP_TYPE__emi__EnumerateAlertSubscriptionsResponse #define SOAP_TYPE__emi__EnumerateAlertSubscriptionsResponse (321) /* emi:EnumerateAlertSubscriptionsResponse */ class SOAP_CMAC _emi__EnumerateAlertSubscriptionsResponse { public: unsigned int Status; /* RPC return element */ /* required element of type emi:PT_STATUS */ unsigned int TotalSubscriptionCount; /* required element of type xsd:unsignedInt */ unsigned int SubscriptionsReturned; /* required element of type xsd:unsignedInt */ emi__AlertSubscriptionHandleArrayType *SubscriptionHandles; /* required element of type emi:AlertSubscriptionHandleArrayType */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 321; } /* = unique id SOAP_TYPE__emi__EnumerateAlertSubscriptionsResponse */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _emi__EnumerateAlertSubscriptionsResponse() : SubscriptionHandles(NULL), soap(NULL) { } virtual ~_emi__EnumerateAlertSubscriptionsResponse() { } }; #endif #ifndef SOAP_TYPE__emi__GetAlertSubscription #define SOAP_TYPE__emi__GetAlertSubscription (322) /* emi:GetAlertSubscription */ class SOAP_CMAC _emi__GetAlertSubscription { public: unsigned int SubscriptionID; /* required element of type emi:AlertSubscriptionHandleType */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 322; } /* = unique id SOAP_TYPE__emi__GetAlertSubscription */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _emi__GetAlertSubscription() : soap(NULL) { } virtual ~_emi__GetAlertSubscription() { } }; #endif #ifndef SOAP_TYPE__emi__GetAlertSubscriptionResponse #define SOAP_TYPE__emi__GetAlertSubscriptionResponse (323) /* emi:GetAlertSubscriptionResponse */ class SOAP_CMAC _emi__GetAlertSubscriptionResponse { public: unsigned int Status; /* RPC return element */ /* required element of type emi:PT_STATUS */ emi__AlertSubscriptionType *SubscriptionInfo; /* required element of type emi:AlertSubscriptionType */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 323; } /* = unique id SOAP_TYPE__emi__GetAlertSubscriptionResponse */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _emi__GetAlertSubscriptionResponse() : SubscriptionInfo(NULL), soap(NULL) { } virtual ~_emi__GetAlertSubscriptionResponse() { } }; #endif #ifndef SOAP_TYPE__emi__EnumerateAlertPolicies #define SOAP_TYPE__emi__EnumerateAlertPolicies (324) /* emi:EnumerateAlertPolicies */ class SOAP_CMAC _emi__EnumerateAlertPolicies { public: unsigned int StartIndex; /* required element of type xsd:unsignedInt */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 324; } /* = unique id SOAP_TYPE__emi__EnumerateAlertPolicies */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _emi__EnumerateAlertPolicies() : soap(NULL) { } virtual ~_emi__EnumerateAlertPolicies() { } }; #endif #ifndef SOAP_TYPE__emi__EnumerateAlertPoliciesResponse #define SOAP_TYPE__emi__EnumerateAlertPoliciesResponse (325) /* emi:EnumerateAlertPoliciesResponse */ class SOAP_CMAC _emi__EnumerateAlertPoliciesResponse { public: unsigned int Status; /* RPC return element */ /* required element of type emi:PT_STATUS */ unsigned int TotalPolicyCount; /* required element of type xsd:unsignedInt */ unsigned int PoliciesReturned; /* required element of type xsd:unsignedInt */ emi__AlertSubscriptionPolicyIDArrayType *PolicyHandles; /* required element of type emi:AlertSubscriptionPolicyIDArrayType */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 325; } /* = unique id SOAP_TYPE__emi__EnumerateAlertPoliciesResponse */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _emi__EnumerateAlertPoliciesResponse() : PolicyHandles(NULL), soap(NULL) { } virtual ~_emi__EnumerateAlertPoliciesResponse() { } }; #endif #ifndef SOAP_TYPE__emi__SetAlertCommunityString #define SOAP_TYPE__emi__SetAlertCommunityString (326) /* emi:SetAlertCommunityString */ class SOAP_CMAC _emi__SetAlertCommunityString { public: unsigned char Length; /* required element of type xsd:unsignedByte */ emi__ByteStr *CommunityString; /* required element of type emi:ByteStr */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 326; } /* = unique id SOAP_TYPE__emi__SetAlertCommunityString */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _emi__SetAlertCommunityString() : CommunityString(NULL), soap(NULL) { } virtual ~_emi__SetAlertCommunityString() { } }; #endif #ifndef SOAP_TYPE__emi__SetAlertCommunityStringResponse #define SOAP_TYPE__emi__SetAlertCommunityStringResponse (327) /* emi:SetAlertCommunityStringResponse */ class SOAP_CMAC _emi__SetAlertCommunityStringResponse { public: unsigned int Status; /* RPC return element */ /* required element of type emi:PT_STATUS */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 327; } /* = unique id SOAP_TYPE__emi__SetAlertCommunityStringResponse */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _emi__SetAlertCommunityStringResponse() : soap(NULL) { } virtual ~_emi__SetAlertCommunityStringResponse() { } }; #endif #ifndef SOAP_TYPE__emi__GetAlertCommunityString #define SOAP_TYPE__emi__GetAlertCommunityString (328) /* emi:GetAlertCommunityString */ class SOAP_CMAC _emi__GetAlertCommunityString { public: struct soap *soap; /* transient */ public: virtual int soap_type() const { return 328; } /* = unique id SOAP_TYPE__emi__GetAlertCommunityString */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _emi__GetAlertCommunityString() : soap(NULL) { } virtual ~_emi__GetAlertCommunityString() { } }; #endif #ifndef SOAP_TYPE__emi__GetAlertCommunityStringResponse #define SOAP_TYPE__emi__GetAlertCommunityStringResponse (329) /* emi:GetAlertCommunityStringResponse */ class SOAP_CMAC _emi__GetAlertCommunityStringResponse { public: unsigned int Status; /* RPC return element */ /* required element of type emi:PT_STATUS */ unsigned char Length; /* required element of type xsd:unsignedByte */ emi__ByteStr *CommunityString; /* required element of type emi:ByteStr */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 329; } /* = unique id SOAP_TYPE__emi__GetAlertCommunityStringResponse */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _emi__GetAlertCommunityStringResponse() : CommunityString(NULL), soap(NULL) { } virtual ~_emi__GetAlertCommunityStringResponse() { } }; #endif #ifndef SOAP_TYPE__emi__AddEventFilter #define SOAP_TYPE__emi__AddEventFilter (330) /* emi:AddEventFilter */ class SOAP_CMAC _emi__AddEventFilter { public: emi__EventFilterType *EventFilter; /* required element of type emi:EventFilterType */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 330; } /* = unique id SOAP_TYPE__emi__AddEventFilter */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _emi__AddEventFilter() : EventFilter(NULL), soap(NULL) { } virtual ~_emi__AddEventFilter() { } }; #endif #ifndef SOAP_TYPE__emi__AddEventFilterResponse #define SOAP_TYPE__emi__AddEventFilterResponse (331) /* emi:AddEventFilterResponse */ class SOAP_CMAC _emi__AddEventFilterResponse { public: unsigned int Status; /* RPC return element */ /* required element of type emi:PT_STATUS */ unsigned int EventFilterHandle; /* required element of type emi:EventFilterHandleType */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 331; } /* = unique id SOAP_TYPE__emi__AddEventFilterResponse */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _emi__AddEventFilterResponse() : soap(NULL) { } virtual ~_emi__AddEventFilterResponse() { } }; #endif #ifndef SOAP_TYPE__emi__EnumerateEventFilters #define SOAP_TYPE__emi__EnumerateEventFilters (332) /* emi:EnumerateEventFilters */ class SOAP_CMAC _emi__EnumerateEventFilters { public: unsigned int StartIndex; /* required element of type xsd:unsignedInt */ unsigned char *AlertSubscriptionPolicyID; /* optional element of type emi:AlertSubscriptionPolicyIDType */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 332; } /* = unique id SOAP_TYPE__emi__EnumerateEventFilters */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _emi__EnumerateEventFilters() : AlertSubscriptionPolicyID(NULL), soap(NULL) { } virtual ~_emi__EnumerateEventFilters() { } }; #endif #ifndef SOAP_TYPE__emi__EnumerateEventFiltersResponse #define SOAP_TYPE__emi__EnumerateEventFiltersResponse (333) /* emi:EnumerateEventFiltersResponse */ class SOAP_CMAC _emi__EnumerateEventFiltersResponse { public: unsigned int Status; /* RPC return element */ /* required element of type emi:PT_STATUS */ unsigned int TotalEventFilterCount; /* required element of type xsd:unsignedInt */ unsigned int FiltersReturned; /* required element of type xsd:unsignedInt */ emi__EventFilterHandleArrayType *Filters; /* required element of type emi:EventFilterHandleArrayType */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 333; } /* = unique id SOAP_TYPE__emi__EnumerateEventFiltersResponse */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _emi__EnumerateEventFiltersResponse() : Filters(NULL), soap(NULL) { } virtual ~_emi__EnumerateEventFiltersResponse() { } }; #endif #ifndef SOAP_TYPE__emi__GetEventFilter #define SOAP_TYPE__emi__GetEventFilter (334) /* emi:GetEventFilter */ class SOAP_CMAC _emi__GetEventFilter { public: unsigned int EventFilterHandle; /* required element of type emi:EventFilterHandleType */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 334; } /* = unique id SOAP_TYPE__emi__GetEventFilter */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _emi__GetEventFilter() : soap(NULL) { } virtual ~_emi__GetEventFilter() { } }; #endif #ifndef SOAP_TYPE__emi__GetEventFilterResponse #define SOAP_TYPE__emi__GetEventFilterResponse (335) /* emi:GetEventFilterResponse */ class SOAP_CMAC _emi__GetEventFilterResponse { public: unsigned int Status; /* RPC return element */ /* required element of type emi:PT_STATUS */ emi__EventFilterType *EventFilter; /* required element of type emi:EventFilterType */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 335; } /* = unique id SOAP_TYPE__emi__GetEventFilterResponse */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _emi__GetEventFilterResponse() : EventFilter(NULL), soap(NULL) { } virtual ~_emi__GetEventFilterResponse() { } }; #endif #ifndef SOAP_TYPE__emi__UpdateEventFilter #define SOAP_TYPE__emi__UpdateEventFilter (336) /* emi:UpdateEventFilter */ class SOAP_CMAC _emi__UpdateEventFilter { public: unsigned int EventFilterHandle; /* required element of type emi:EventFilterHandleType */ emi__EventFilterType *EventFilter; /* required element of type emi:EventFilterType */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 336; } /* = unique id SOAP_TYPE__emi__UpdateEventFilter */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _emi__UpdateEventFilter() : EventFilter(NULL), soap(NULL) { } virtual ~_emi__UpdateEventFilter() { } }; #endif #ifndef SOAP_TYPE__emi__UpdateEventFilterResponse #define SOAP_TYPE__emi__UpdateEventFilterResponse (337) /* emi:UpdateEventFilterResponse */ class SOAP_CMAC _emi__UpdateEventFilterResponse { public: unsigned int Status; /* RPC return element */ /* required element of type emi:PT_STATUS */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 337; } /* = unique id SOAP_TYPE__emi__UpdateEventFilterResponse */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _emi__UpdateEventFilterResponse() : soap(NULL) { } virtual ~_emi__UpdateEventFilterResponse() { } }; #endif #ifndef SOAP_TYPE__emi__RemoveEventFilter #define SOAP_TYPE__emi__RemoveEventFilter (338) /* emi:RemoveEventFilter */ class SOAP_CMAC _emi__RemoveEventFilter { public: unsigned int EventFilterHandle; /* required element of type emi:EventFilterHandleType */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 338; } /* = unique id SOAP_TYPE__emi__RemoveEventFilter */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _emi__RemoveEventFilter() : soap(NULL) { } virtual ~_emi__RemoveEventFilter() { } }; #endif #ifndef SOAP_TYPE__emi__RemoveEventFilterResponse #define SOAP_TYPE__emi__RemoveEventFilterResponse (339) /* emi:RemoveEventFilterResponse */ class SOAP_CMAC _emi__RemoveEventFilterResponse { public: unsigned int Status; /* RPC return element */ /* required element of type emi:PT_STATUS */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 339; } /* = unique id SOAP_TYPE__emi__RemoveEventFilterResponse */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _emi__RemoveEventFilterResponse() : soap(NULL) { } virtual ~_emi__RemoveEventFilterResponse() { } }; #endif #ifndef SOAP_TYPE__emi__ReadEventLogRecords #define SOAP_TYPE__emi__ReadEventLogRecords (340) /* emi:ReadEventLogRecords */ class SOAP_CMAC _emi__ReadEventLogRecords { public: unsigned int StartIndex; /* required element of type xsd:unsignedInt */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 340; } /* = unique id SOAP_TYPE__emi__ReadEventLogRecords */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _emi__ReadEventLogRecords() : soap(NULL) { } virtual ~_emi__ReadEventLogRecords() { } }; #endif #ifndef SOAP_TYPE__emi__ReadEventLogRecordsResponse #define SOAP_TYPE__emi__ReadEventLogRecordsResponse (341) /* emi:ReadEventLogRecordsResponse */ class SOAP_CMAC _emi__ReadEventLogRecordsResponse { public: unsigned int Status; /* RPC return element */ /* required element of type emi:PT_STATUS */ unsigned int TotalRecordCount; /* required element of type xsd:unsignedInt */ unsigned int RecordsReturned; /* required element of type xsd:unsignedInt */ emi__EventLogRecordArrayType *EventRecords; /* required element of type emi:EventLogRecordArrayType */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 341; } /* = unique id SOAP_TYPE__emi__ReadEventLogRecordsResponse */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _emi__ReadEventLogRecordsResponse() : EventRecords(NULL), soap(NULL) { } virtual ~_emi__ReadEventLogRecordsResponse() { } }; #endif #ifndef SOAP_TYPE__emi__GetEventLogStatus #define SOAP_TYPE__emi__GetEventLogStatus (342) /* emi:GetEventLogStatus */ class SOAP_CMAC _emi__GetEventLogStatus { public: struct soap *soap; /* transient */ public: virtual int soap_type() const { return 342; } /* = unique id SOAP_TYPE__emi__GetEventLogStatus */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _emi__GetEventLogStatus() : soap(NULL) { } virtual ~_emi__GetEventLogStatus() { } }; #endif #ifndef SOAP_TYPE__emi__GetEventLogStatusResponse #define SOAP_TYPE__emi__GetEventLogStatusResponse (343) /* emi:GetEventLogStatusResponse */ class SOAP_CMAC _emi__GetEventLogStatusResponse { public: unsigned int Status; /* RPC return element */ /* required element of type emi:PT_STATUS */ unsigned int NumberOfFreeRecords; /* required element of type xsd:unsignedInt */ unsigned int NumberOfRecords; /* required element of type xsd:unsignedInt */ unsigned int Time; /* required element of type emi:TimeType */ bool IsFrozen; /* required element of type xsd:boolean */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 343; } /* = unique id SOAP_TYPE__emi__GetEventLogStatusResponse */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _emi__GetEventLogStatusResponse() : soap(NULL) { } virtual ~_emi__GetEventLogStatusResponse() { } }; #endif #ifndef SOAP_TYPE__emi__ClearEventLog #define SOAP_TYPE__emi__ClearEventLog (344) /* emi:ClearEventLog */ class SOAP_CMAC _emi__ClearEventLog { public: struct soap *soap; /* transient */ public: virtual int soap_type() const { return 344; } /* = unique id SOAP_TYPE__emi__ClearEventLog */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _emi__ClearEventLog() : soap(NULL) { } virtual ~_emi__ClearEventLog() { } }; #endif #ifndef SOAP_TYPE__emi__ClearEventLogResponse #define SOAP_TYPE__emi__ClearEventLogResponse (345) /* emi:ClearEventLogResponse */ class SOAP_CMAC _emi__ClearEventLogResponse { public: unsigned int Status; /* RPC return element */ /* required element of type emi:PT_STATUS */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 345; } /* = unique id SOAP_TYPE__emi__ClearEventLogResponse */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _emi__ClearEventLogResponse() : soap(NULL) { } virtual ~_emi__ClearEventLogResponse() { } }; #endif #ifndef SOAP_TYPE__emi__FreezeEventLog #define SOAP_TYPE__emi__FreezeEventLog (346) /* emi:FreezeEventLog */ class SOAP_CMAC _emi__FreezeEventLog { public: bool NewState; /* required element of type xsd:boolean */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 346; } /* = unique id SOAP_TYPE__emi__FreezeEventLog */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _emi__FreezeEventLog() : soap(NULL) { } virtual ~_emi__FreezeEventLog() { } }; #endif #ifndef SOAP_TYPE__emi__FreezeEventLogResponse #define SOAP_TYPE__emi__FreezeEventLogResponse (347) /* emi:FreezeEventLogResponse */ class SOAP_CMAC _emi__FreezeEventLogResponse { public: unsigned int Status; /* RPC return element */ /* required element of type emi:PT_STATUS */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 347; } /* = unique id SOAP_TYPE__emi__FreezeEventLogResponse */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _emi__FreezeEventLogResponse() : soap(NULL) { } virtual ~_emi__FreezeEventLogResponse() { } }; #endif #ifndef SOAP_TYPE__emi__SetEventLogTimestampClock #define SOAP_TYPE__emi__SetEventLogTimestampClock (348) /* emi:SetEventLogTimestampClock */ class SOAP_CMAC _emi__SetEventLogTimestampClock { public: unsigned int Time; /* required element of type emi:TimeType */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 348; } /* = unique id SOAP_TYPE__emi__SetEventLogTimestampClock */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _emi__SetEventLogTimestampClock() : soap(NULL) { } virtual ~_emi__SetEventLogTimestampClock() { } }; #endif #ifndef SOAP_TYPE__emi__SetEventLogTimestampClockResponse #define SOAP_TYPE__emi__SetEventLogTimestampClockResponse (349) /* emi:SetEventLogTimestampClockResponse */ class SOAP_CMAC _emi__SetEventLogTimestampClockResponse { public: unsigned int Status; /* RPC return element */ /* required element of type emi:PT_STATUS */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 349; } /* = unique id SOAP_TYPE__emi__SetEventLogTimestampClockResponse */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _emi__SetEventLogTimestampClockResponse() : soap(NULL) { } virtual ~_emi__SetEventLogTimestampClockResponse() { } }; #endif #ifndef SOAP_TYPE__emi__GetEventLogTimestampClock #define SOAP_TYPE__emi__GetEventLogTimestampClock (350) /* emi:GetEventLogTimestampClock */ class SOAP_CMAC _emi__GetEventLogTimestampClock { public: struct soap *soap; /* transient */ public: virtual int soap_type() const { return 350; } /* = unique id SOAP_TYPE__emi__GetEventLogTimestampClock */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _emi__GetEventLogTimestampClock() : soap(NULL) { } virtual ~_emi__GetEventLogTimestampClock() { } }; #endif #ifndef SOAP_TYPE__emi__GetEventLogTimestampClockResponse #define SOAP_TYPE__emi__GetEventLogTimestampClockResponse (351) /* emi:GetEventLogTimestampClockResponse */ class SOAP_CMAC _emi__GetEventLogTimestampClockResponse { public: unsigned int Status; /* RPC return element */ /* required element of type emi:PT_STATUS */ unsigned int Time; /* required element of type emi:TimeType */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 351; } /* = unique id SOAP_TYPE__emi__GetEventLogTimestampClockResponse */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _emi__GetEventLogTimestampClockResponse() : soap(NULL) { } virtual ~_emi__GetEventLogTimestampClockResponse() { } }; #endif #ifndef SOAP_TYPE__emi__EnumerateSensors #define SOAP_TYPE__emi__EnumerateSensors (352) /* emi:EnumerateSensors */ class SOAP_CMAC _emi__EnumerateSensors { public: unsigned int StartIndex; /* required element of type xsd:unsignedInt */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 352; } /* = unique id SOAP_TYPE__emi__EnumerateSensors */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _emi__EnumerateSensors() : soap(NULL) { } virtual ~_emi__EnumerateSensors() { } }; #endif #ifndef SOAP_TYPE__emi__EnumerateSensorsResponse #define SOAP_TYPE__emi__EnumerateSensorsResponse (353) /* emi:EnumerateSensorsResponse */ class SOAP_CMAC _emi__EnumerateSensorsResponse { public: unsigned int Status; /* RPC return element */ /* required element of type emi:PT_STATUS */ unsigned int TotalCount; /* required element of type xsd:unsignedInt */ unsigned int HandleCount; /* required element of type xsd:unsignedInt */ emi__SensorHandleArrayType *Handles; /* required element of type emi:SensorHandleArrayType */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 353; } /* = unique id SOAP_TYPE__emi__EnumerateSensorsResponse */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _emi__EnumerateSensorsResponse() : Handles(NULL), soap(NULL) { } virtual ~_emi__EnumerateSensorsResponse() { } }; #endif #ifndef SOAP_TYPE__emi__GetSensorAttributes #define SOAP_TYPE__emi__GetSensorAttributes (354) /* emi:GetSensorAttributes */ class SOAP_CMAC _emi__GetSensorAttributes { public: unsigned int Handle; /* required element of type emi:SensorHandleType */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 354; } /* = unique id SOAP_TYPE__emi__GetSensorAttributes */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _emi__GetSensorAttributes() : soap(NULL) { } virtual ~_emi__GetSensorAttributes() { } }; #endif #ifndef SOAP_TYPE__emi__GetSensorAttributesResponse #define SOAP_TYPE__emi__GetSensorAttributesResponse (355) /* emi:GetSensorAttributesResponse */ class SOAP_CMAC _emi__GetSensorAttributesResponse { public: unsigned int Status; /* RPC return element */ /* required element of type emi:PT_STATUS */ emi__SensorAttributesType *Attributes; /* required element of type emi:SensorAttributesType */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 355; } /* = unique id SOAP_TYPE__emi__GetSensorAttributesResponse */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _emi__GetSensorAttributesResponse() : Attributes(NULL), soap(NULL) { } virtual ~_emi__GetSensorAttributesResponse() { } }; #endif #ifndef SOAP_TYPE__emi__CancelAlertSubscription #define SOAP_TYPE__emi__CancelAlertSubscription (356) /* emi:CancelAlertSubscription */ class SOAP_CMAC _emi__CancelAlertSubscription { public: unsigned int SubscriptionHandle; /* required element of type emi:AlertSubscriptionHandleType */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 356; } /* = unique id SOAP_TYPE__emi__CancelAlertSubscription */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _emi__CancelAlertSubscription() : soap(NULL) { } virtual ~_emi__CancelAlertSubscription() { } }; #endif #ifndef SOAP_TYPE__emi__CancelAlertSubscriptionResponse #define SOAP_TYPE__emi__CancelAlertSubscriptionResponse (357) /* emi:CancelAlertSubscriptionResponse */ class SOAP_CMAC _emi__CancelAlertSubscriptionResponse { public: unsigned int Status; /* RPC return element */ /* required element of type emi:PT_STATUS */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 357; } /* = unique id SOAP_TYPE__emi__CancelAlertSubscriptionResponse */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _emi__CancelAlertSubscriptionResponse() : soap(NULL) { } virtual ~_emi__CancelAlertSubscriptionResponse() { } }; #endif #ifndef SOAP_TYPE__emi__SubscribeForGeneralAlert #define SOAP_TYPE__emi__SubscribeForGeneralAlert (358) /* emi:SubscribeForGeneralAlert */ class SOAP_CMAC _emi__SubscribeForGeneralAlert { public: emi__AlertSubscriptionGeneralType *SubscriptionInfo; /* required element of type emi:AlertSubscriptionGeneralType */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 358; } /* = unique id SOAP_TYPE__emi__SubscribeForGeneralAlert */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _emi__SubscribeForGeneralAlert() : SubscriptionInfo(NULL), soap(NULL) { } virtual ~_emi__SubscribeForGeneralAlert() { } }; #endif #ifndef SOAP_TYPE__emi__SubscribeForGeneralAlertResponse #define SOAP_TYPE__emi__SubscribeForGeneralAlertResponse (359) /* emi:SubscribeForGeneralAlertResponse */ class SOAP_CMAC _emi__SubscribeForGeneralAlertResponse { public: unsigned int Status; /* RPC return element */ /* required element of type emi:PT_STATUS */ unsigned int SubscriptionHandle; /* required element of type emi:AlertSubscriptionHandleType */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 359; } /* = unique id SOAP_TYPE__emi__SubscribeForGeneralAlertResponse */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _emi__SubscribeForGeneralAlertResponse() : soap(NULL) { } virtual ~_emi__SubscribeForGeneralAlertResponse() { } }; #endif #ifndef SOAP_TYPE__emi__EnumerateGeneralAlertSubscriptions #define SOAP_TYPE__emi__EnumerateGeneralAlertSubscriptions (360) /* emi:EnumerateGeneralAlertSubscriptions */ class SOAP_CMAC _emi__EnumerateGeneralAlertSubscriptions { public: unsigned char *PolicyID; /* optional element of type emi:AlertSubscriptionPolicyIDType */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 360; } /* = unique id SOAP_TYPE__emi__EnumerateGeneralAlertSubscriptions */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _emi__EnumerateGeneralAlertSubscriptions() : PolicyID(NULL), soap(NULL) { } virtual ~_emi__EnumerateGeneralAlertSubscriptions() { } }; #endif #ifndef SOAP_TYPE__emi__EnumerateGeneralAlertSubscriptionsResponse #define SOAP_TYPE__emi__EnumerateGeneralAlertSubscriptionsResponse (361) /* emi:EnumerateGeneralAlertSubscriptionsResponse */ class SOAP_CMAC _emi__EnumerateGeneralAlertSubscriptionsResponse { public: unsigned int Status; /* RPC return element */ /* required element of type emi:PT_STATUS */ std::vectorSubscriptionHandle; /* optional element of type emi:AlertSubscriptionHandleType */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 361; } /* = unique id SOAP_TYPE__emi__EnumerateGeneralAlertSubscriptionsResponse */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _emi__EnumerateGeneralAlertSubscriptionsResponse() : soap(NULL) { } virtual ~_emi__EnumerateGeneralAlertSubscriptionsResponse() { } }; #endif #ifndef SOAP_TYPE__emi__GetGeneralAlertSubscription #define SOAP_TYPE__emi__GetGeneralAlertSubscription (362) /* emi:GetGeneralAlertSubscription */ class SOAP_CMAC _emi__GetGeneralAlertSubscription { public: unsigned int SubscriptionHandle; /* required element of type emi:AlertSubscriptionHandleType */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 362; } /* = unique id SOAP_TYPE__emi__GetGeneralAlertSubscription */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _emi__GetGeneralAlertSubscription() : soap(NULL) { } virtual ~_emi__GetGeneralAlertSubscription() { } }; #endif #ifndef SOAP_TYPE__emi__GetGeneralAlertSubscriptionResponse #define SOAP_TYPE__emi__GetGeneralAlertSubscriptionResponse (363) /* emi:GetGeneralAlertSubscriptionResponse */ class SOAP_CMAC _emi__GetGeneralAlertSubscriptionResponse { public: unsigned int Status; /* RPC return element */ /* required element of type emi:PT_STATUS */ emi__AlertSubscriptionGeneralType *SubscriptionInfo; /* required element of type emi:AlertSubscriptionGeneralType */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 363; } /* = unique id SOAP_TYPE__emi__GetGeneralAlertSubscriptionResponse */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _emi__GetGeneralAlertSubscriptionResponse() : SubscriptionInfo(NULL), soap(NULL) { } virtual ~_emi__GetGeneralAlertSubscriptionResponse() { } }; #endif #ifndef SOAP_TYPE_cb__CircuitBreakerAntiSpoofingFilterType #define SOAP_TYPE_cb__CircuitBreakerAntiSpoofingFilterType (364) /* cb:CircuitBreakerAntiSpoofingFilterType */ class SOAP_CMAC cb__CircuitBreakerAntiSpoofingFilterType { public: bool ActionEventOnMatch; /* required element of type xsd:boolean */ bool ActionCount; /* required element of type xsd:boolean */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 364; } /* = unique id SOAP_TYPE_cb__CircuitBreakerAntiSpoofingFilterType */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); cb__CircuitBreakerAntiSpoofingFilterType() : soap(NULL) { } virtual ~cb__CircuitBreakerAntiSpoofingFilterType() { } }; #endif #ifndef SOAP_TYPE_cb__CircuitBreakerPolicyType #define SOAP_TYPE_cb__CircuitBreakerPolicyType (366) /* cb:CircuitBreakerPolicyType */ class SOAP_CMAC cb__CircuitBreakerPolicyType { public: char *PolicyName; /* optional element of type xsd:anyType */ unsigned int PolicyPrecedence; /* required element of type xsd:unsignedInt */ cb__CircuitBreakerAntiSpoofingFilterType *AntiSpoofingFilter; /* optional element of type cb:CircuitBreakerAntiSpoofingFilterType */ std::vectorFilterCreationHandles; /* optional element of type xsd:unsignedInt */ class cb__CircuitBreakerDefaultFilterType *DefaultTXFilter; /* required element of type cb:CircuitBreakerDefaultFilterType */ cb__CircuitBreakerDefaultFilterType *DefaultRXFilter; /* required element of type cb:CircuitBreakerDefaultFilterType */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 366; } /* = unique id SOAP_TYPE_cb__CircuitBreakerPolicyType */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); cb__CircuitBreakerPolicyType() : PolicyName(NULL), AntiSpoofingFilter(NULL), DefaultTXFilter(NULL), DefaultRXFilter(NULL), soap(NULL) { } virtual ~cb__CircuitBreakerPolicyType() { } }; #endif #ifndef SOAP_TYPE_cb__CircuitBreakerPolicyInfoType #define SOAP_TYPE_cb__CircuitBreakerPolicyInfoType (367) /* cb:CircuitBreakerPolicyInfoType */ class SOAP_CMAC cb__CircuitBreakerPolicyInfoType { public: cb__CircuitBreakerPolicyType *Policy; /* required element of type cb:CircuitBreakerPolicyType */ unsigned int PolicyCreationHandle; /* required element of type xsd:unsignedInt */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 367; } /* = unique id SOAP_TYPE_cb__CircuitBreakerPolicyInfoType */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); cb__CircuitBreakerPolicyInfoType() : Policy(NULL), soap(NULL) { } virtual ~cb__CircuitBreakerPolicyInfoType() { } }; #endif #ifndef SOAP_TYPE_cb__CircuitBreakerIPv4AddressAndMaskType #define SOAP_TYPE_cb__CircuitBreakerIPv4AddressAndMaskType (368) /* cb:CircuitBreakerIPv4AddressAndMaskType */ class SOAP_CMAC cb__CircuitBreakerIPv4AddressAndMaskType { public: enum cb__CircuitBreakerFilterIPAddressDirectionType IPAddressDirection; /* required element of type cb:CircuitBreakerFilterIPAddressDirectionType */ std::string Address; /* required element of type cb:IPv4AddressStringType */ std::string AddressMask; /* required element of type cb:IPv4AddressStringType */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 368; } /* = unique id SOAP_TYPE_cb__CircuitBreakerIPv4AddressAndMaskType */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); cb__CircuitBreakerIPv4AddressAndMaskType() : soap(NULL) { } virtual ~cb__CircuitBreakerIPv4AddressAndMaskType() { } }; #endif #ifndef SOAP_TYPE_cb__CircuitBreakerIPv6AddressAndMaskType #define SOAP_TYPE_cb__CircuitBreakerIPv6AddressAndMaskType (369) /* cb:CircuitBreakerIPv6AddressAndMaskType */ class SOAP_CMAC cb__CircuitBreakerIPv6AddressAndMaskType { public: enum cb__CircuitBreakerFilterIPAddressDirectionType IPAddressDirection; /* required element of type cb:CircuitBreakerFilterIPAddressDirectionType */ std::string Address; /* required element of type cb:IPv6AddressStringType */ std::string AddressMask; /* required element of type cb:IPv6AddressStringType */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 369; } /* = unique id SOAP_TYPE_cb__CircuitBreakerIPv6AddressAndMaskType */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); cb__CircuitBreakerIPv6AddressAndMaskType() : soap(NULL) { } virtual ~cb__CircuitBreakerIPv6AddressAndMaskType() { } }; #endif #ifndef SOAP_TYPE_cb__CircuitBreakerIPLayeredPortSimpleType #define SOAP_TYPE_cb__CircuitBreakerIPLayeredPortSimpleType (370) /* cb:CircuitBreakerIPLayeredPortSimpleType */ class SOAP_CMAC cb__CircuitBreakerIPLayeredPortSimpleType { public: unsigned short SourcePort; /* required element of type xsd:unsignedShort */ unsigned short DestinationPort; /* required element of type xsd:unsignedShort */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 370; } /* = unique id SOAP_TYPE_cb__CircuitBreakerIPLayeredPortSimpleType */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); cb__CircuitBreakerIPLayeredPortSimpleType() : soap(NULL) { } virtual ~cb__CircuitBreakerIPLayeredPortSimpleType() { } }; #endif #ifndef SOAP_TYPE_cb__CircuitBreakerIPLayeredPortRangeType #define SOAP_TYPE_cb__CircuitBreakerIPLayeredPortRangeType (371) /* cb:CircuitBreakerIPLayeredPortRangeType */ class SOAP_CMAC cb__CircuitBreakerIPLayeredPortRangeType { public: unsigned short PortMin; /* required element of type xsd:unsignedShort */ unsigned short PortMax; /* required element of type xsd:unsignedShort */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 371; } /* = unique id SOAP_TYPE_cb__CircuitBreakerIPLayeredPortRangeType */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); cb__CircuitBreakerIPLayeredPortRangeType() : soap(NULL) { } virtual ~cb__CircuitBreakerIPLayeredPortRangeType() { } }; #endif #ifndef SOAP_TYPE__cb__union_CircuitBreakerIPLayeredPortType #define SOAP_TYPE__cb__union_CircuitBreakerIPLayeredPortType (778) /* xsd:choice */ union _cb__union_CircuitBreakerIPLayeredPortType { #define SOAP_UNION__cb__union_CircuitBreakerIPLayeredPortType_IPLayeredPortSimple (1) cb__CircuitBreakerIPLayeredPortSimpleType *IPLayeredPortSimple; #define SOAP_UNION__cb__union_CircuitBreakerIPLayeredPortType_IPLayeredPortRangeSource (2) cb__CircuitBreakerIPLayeredPortRangeType *IPLayeredPortRangeSource; #define SOAP_UNION__cb__union_CircuitBreakerIPLayeredPortType_IPLayeredPortRangeDestination (3) cb__CircuitBreakerIPLayeredPortRangeType *IPLayeredPortRangeDestination; }; #endif #ifndef SOAP_TYPE_cb__CircuitBreakerIPLayeredPortType #define SOAP_TYPE_cb__CircuitBreakerIPLayeredPortType (372) /* cb:CircuitBreakerIPLayeredPortType */ class SOAP_CMAC cb__CircuitBreakerIPLayeredPortType { public: int __union_CircuitBreakerIPLayeredPortType; /* union discriminant (of union defined below) */ union _cb__union_CircuitBreakerIPLayeredPortType union_CircuitBreakerIPLayeredPortType; /* required element of type xsd:choice */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 372; } /* = unique id SOAP_TYPE_cb__CircuitBreakerIPLayeredPortType */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); cb__CircuitBreakerIPLayeredPortType() : soap(NULL) { } virtual ~cb__CircuitBreakerIPLayeredPortType() { } }; #endif #ifndef SOAP_TYPE_cb__CircuitBreakerIPLayeredTCPFlagsType #define SOAP_TYPE_cb__CircuitBreakerIPLayeredTCPFlagsType (373) /* cb:CircuitBreakerIPLayeredTCPFlagsType */ class SOAP_CMAC cb__CircuitBreakerIPLayeredTCPFlagsType { public: bool *TCP_USCOREFLAG_USCOREFIN; /* optional element of type xsd:boolean */ bool *TCP_USCOREFLAG_USCORESYN; /* optional element of type xsd:boolean */ bool *TCP_USCOREFLAG_USCORERST; /* optional element of type xsd:boolean */ bool *TCP_USCOREFLAG_USCOREPUSH; /* optional element of type xsd:boolean */ bool *TCP_USCOREFLAG_USCOREACK; /* optional element of type xsd:boolean */ bool *TCP_USCOREFLAG_USCOREURG; /* optional element of type xsd:boolean */ bool *TCP_USCOREFLAG_USCOREECNE; /* optional element of type xsd:boolean */ bool *TCP_USCOREFLAG_USCORECWR; /* optional element of type xsd:boolean */ bool *TCP_USCOREFLAG_USCORENS; /* optional element of type xsd:boolean */ bool *TCP_USCOREFLAG_USCOREReserved1; /* optional element of type xsd:boolean */ bool *TCP_USCOREFLAG_USCOREReserved2; /* optional element of type xsd:boolean */ bool *TCP_USCOREFLAG_USCOREReserved3; /* optional element of type xsd:boolean */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 373; } /* = unique id SOAP_TYPE_cb__CircuitBreakerIPLayeredTCPFlagsType */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); cb__CircuitBreakerIPLayeredTCPFlagsType() : TCP_USCOREFLAG_USCOREFIN(NULL), TCP_USCOREFLAG_USCORESYN(NULL), TCP_USCOREFLAG_USCORERST(NULL), TCP_USCOREFLAG_USCOREPUSH(NULL), TCP_USCOREFLAG_USCOREACK(NULL), TCP_USCOREFLAG_USCOREURG(NULL), TCP_USCOREFLAG_USCOREECNE(NULL), TCP_USCOREFLAG_USCORECWR(NULL), TCP_USCOREFLAG_USCORENS(NULL), TCP_USCOREFLAG_USCOREReserved1(NULL), TCP_USCOREFLAG_USCOREReserved2(NULL), TCP_USCOREFLAG_USCOREReserved3(NULL), soap(NULL) { } virtual ~cb__CircuitBreakerIPLayeredTCPFlagsType() { } }; #endif #ifndef SOAP_TYPE_cb__CircuitBreakerIPv4Type #define SOAP_TYPE_cb__CircuitBreakerIPv4Type (374) /* cb:CircuitBreakerIPv4Type */ class SOAP_CMAC cb__CircuitBreakerIPv4Type { public: cb__CircuitBreakerIPv4AddressAndMaskType *IPv4Desc; /* optional element of type cb:CircuitBreakerIPv4AddressAndMaskType */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 374; } /* = unique id SOAP_TYPE_cb__CircuitBreakerIPv4Type */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); cb__CircuitBreakerIPv4Type() : IPv4Desc(NULL), soap(NULL) { } virtual ~cb__CircuitBreakerIPv4Type() { } }; #endif #ifndef SOAP_TYPE_cb__CircuitBreakerIPv6Type #define SOAP_TYPE_cb__CircuitBreakerIPv6Type (375) /* cb:CircuitBreakerIPv6Type */ class SOAP_CMAC cb__CircuitBreakerIPv6Type { public: cb__CircuitBreakerIPv6AddressAndMaskType *IPv6Desc; /* optional element of type cb:CircuitBreakerIPv6AddressAndMaskType */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 375; } /* = unique id SOAP_TYPE_cb__CircuitBreakerIPv6Type */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); cb__CircuitBreakerIPv6Type() : IPv6Desc(NULL), soap(NULL) { } virtual ~cb__CircuitBreakerIPv6Type() { } }; #endif #ifndef SOAP_TYPE__cb__union_CircuitBreakerIPPacketType #define SOAP_TYPE__cb__union_CircuitBreakerIPPacketType (783) /* xsd:choice */ union _cb__union_CircuitBreakerIPPacketType { #define SOAP_UNION__cb__union_CircuitBreakerIPPacketType_IPv4 (1) cb__CircuitBreakerIPv4Type *IPv4; #define SOAP_UNION__cb__union_CircuitBreakerIPPacketType_IPv6 (2) cb__CircuitBreakerIPv6Type *IPv6; }; #endif #ifndef SOAP_TYPE_cb__CircuitBreakerIPPacketType #define SOAP_TYPE_cb__CircuitBreakerIPPacketType (376) /* cb:CircuitBreakerIPPacketType */ class SOAP_CMAC cb__CircuitBreakerIPPacketType { public: int __union_CircuitBreakerIPPacketType; /* union discriminant (of union defined below) */ union _cb__union_CircuitBreakerIPPacketType union_CircuitBreakerIPPacketType; /* required element of type xsd:choice */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 376; } /* = unique id SOAP_TYPE_cb__CircuitBreakerIPPacketType */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); cb__CircuitBreakerIPPacketType() : soap(NULL) { } virtual ~cb__CircuitBreakerIPPacketType() { } }; #endif #ifndef SOAP_TYPE_cb__CircuitBreakerPacketUDPType #define SOAP_TYPE_cb__CircuitBreakerPacketUDPType (377) /* cb:CircuitBreakerPacketUDPType */ class SOAP_CMAC cb__CircuitBreakerPacketUDPType { public: cb__CircuitBreakerIPPacketType *IPPacket; /* required element of type cb:CircuitBreakerIPPacketType */ cb__CircuitBreakerIPLayeredPortType *IPLayeredPort; /* optional element of type cb:CircuitBreakerIPLayeredPortType */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 377; } /* = unique id SOAP_TYPE_cb__CircuitBreakerPacketUDPType */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); cb__CircuitBreakerPacketUDPType() : IPPacket(NULL), IPLayeredPort(NULL), soap(NULL) { } virtual ~cb__CircuitBreakerPacketUDPType() { } }; #endif #ifndef SOAP_TYPE_cb__CircuitBreakerPacketIPType #define SOAP_TYPE_cb__CircuitBreakerPacketIPType (379) /* cb:CircuitBreakerPacketIPType */ class SOAP_CMAC cb__CircuitBreakerPacketIPType { public: cb__CircuitBreakerIPPacketType *IPPacket; /* required element of type cb:CircuitBreakerIPPacketType */ unsigned short *NextProtocol; /* optional element of type xsd:unsignedShort */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 379; } /* = unique id SOAP_TYPE_cb__CircuitBreakerPacketIPType */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); cb__CircuitBreakerPacketIPType() : IPPacket(NULL), NextProtocol(NULL), soap(NULL) { } virtual ~cb__CircuitBreakerPacketIPType() { } }; #endif #ifndef SOAP_TYPE_cb__CircuitBreakerPacketETHType #define SOAP_TYPE_cb__CircuitBreakerPacketETHType (380) /* cb:CircuitBreakerPacketETHType */ class SOAP_CMAC cb__CircuitBreakerPacketETHType { public: unsigned short EthernetFrameType; /* required element of type xsd:unsignedShort */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 380; } /* = unique id SOAP_TYPE_cb__CircuitBreakerPacketETHType */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); cb__CircuitBreakerPacketETHType() : soap(NULL) { } virtual ~cb__CircuitBreakerPacketETHType() { } }; #endif #ifndef SOAP_TYPE__cb__union_CircuitBreakerPacketType #define SOAP_TYPE__cb__union_CircuitBreakerPacketType (790) /* xsd:choice */ union _cb__union_CircuitBreakerPacketType { #define SOAP_UNION__cb__union_CircuitBreakerPacketType_PacketTCP (1) class cb__CircuitBreakerPacketTCPType *PacketTCP; #define SOAP_UNION__cb__union_CircuitBreakerPacketType_PacketUDP (2) cb__CircuitBreakerPacketUDPType *PacketUDP; #define SOAP_UNION__cb__union_CircuitBreakerPacketType_PacketIP (3) cb__CircuitBreakerPacketIPType *PacketIP; #define SOAP_UNION__cb__union_CircuitBreakerPacketType_PacketETH (4) cb__CircuitBreakerPacketETHType *PacketETH; }; #endif #ifndef SOAP_TYPE_cb__CircuitBreakerPacketType #define SOAP_TYPE_cb__CircuitBreakerPacketType (381) /* cb:CircuitBreakerPacketType */ class SOAP_CMAC cb__CircuitBreakerPacketType { public: int __union_CircuitBreakerPacketType; /* union discriminant (of union defined below) */ union _cb__union_CircuitBreakerPacketType union_CircuitBreakerPacketType; /* required element of type xsd:choice */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 381; } /* = unique id SOAP_TYPE_cb__CircuitBreakerPacketType */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); cb__CircuitBreakerPacketType() : soap(NULL) { } virtual ~cb__CircuitBreakerPacketType() { } }; #endif #ifndef SOAP_TYPE_cb__CircuitBreakerFilterType #define SOAP_TYPE_cb__CircuitBreakerFilterType (382) /* cb:CircuitBreakerFilterType */ class SOAP_CMAC cb__CircuitBreakerFilterType { public: char *FilterName; /* optional element of type xsd:anyType */ enum cb__CircuitBreakerFilterDirectionType FilterDirection; /* required element of type cb:CircuitBreakerFilterDirectionType */ enum cb__CircuitBreakerProfileType FilterProfile; /* required element of type cb:CircuitBreakerProfileType */ unsigned int FilterProfileData; /* required element of type xsd:unsignedInt */ cb__CircuitBreakerPacketType *FilterPacket; /* required element of type cb:CircuitBreakerPacketType */ bool ActionEventOnMatch; /* required element of type xsd:boolean */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 382; } /* = unique id SOAP_TYPE_cb__CircuitBreakerFilterType */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); cb__CircuitBreakerFilterType() : FilterName(NULL), FilterPacket(NULL), soap(NULL) { } virtual ~cb__CircuitBreakerFilterType() { } }; #endif #ifndef SOAP_TYPE_cb__CircuitBreakerFilterInfoType #define SOAP_TYPE_cb__CircuitBreakerFilterInfoType (383) /* cb:CircuitBreakerFilterInfoType */ class SOAP_CMAC cb__CircuitBreakerFilterInfoType { public: cb__CircuitBreakerFilterType *Filter; /* required element of type cb:CircuitBreakerFilterType */ unsigned int FilterCreationHandle; /* required element of type xsd:unsignedInt */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 383; } /* = unique id SOAP_TYPE_cb__CircuitBreakerFilterInfoType */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); cb__CircuitBreakerFilterInfoType() : Filter(NULL), soap(NULL) { } virtual ~cb__CircuitBreakerFilterInfoType() { } }; #endif #ifndef SOAP_TYPE_cb__CircuitBreakerCapabilitiesType #define SOAP_TYPE_cb__CircuitBreakerCapabilitiesType (384) /* cb:CircuitBreakerCapabilitiesType */ class SOAP_CMAC cb__CircuitBreakerCapabilitiesType { public: std::string HardwareDescription; /* required element of type xsd:string */ unsigned int HardwareID; /* required element of type xsd:unsignedInt */ unsigned short IPv4_USCOREMaxTxFilters; /* required element of type xsd:unsignedShort */ unsigned short IPv4_USCOREMaxTxCounters; /* required element of type xsd:unsignedShort */ unsigned short IPv4_USCOREMaxRxFilters; /* required element of type xsd:unsignedShort */ unsigned short IPv4_USCOREMaxRxCounters; /* required element of type xsd:unsignedShort */ bool IPv4_USCOREAntiSpoofingCapable; /* required element of type xsd:boolean */ unsigned short IPv6_USCOREMaxTxFilters; /* required element of type xsd:unsignedShort */ unsigned short IPv6_USCOREMaxTxCounters; /* required element of type xsd:unsignedShort */ unsigned short IPv6_USCOREMaxRxFilters; /* required element of type xsd:unsignedShort */ unsigned short IPv6_USCOREMaxRxCounters; /* required element of type xsd:unsignedShort */ bool IPv6_USCOREAntiSpoofingCapable; /* required element of type xsd:boolean */ unsigned short IPv6_USCORETo_USCOREIPv4_USCORERatio; /* required element of type xsd:unsignedShort */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 384; } /* = unique id SOAP_TYPE_cb__CircuitBreakerCapabilitiesType */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); cb__CircuitBreakerCapabilitiesType() : soap(NULL) { } virtual ~cb__CircuitBreakerCapabilitiesType() { } }; #endif #ifndef SOAP_TYPE_cb__CircuitBreakerFilterStatisticsType #define SOAP_TYPE_cb__CircuitBreakerFilterStatisticsType (385) /* cb:CircuitBreakerFilterStatisticsType */ class SOAP_CMAC cb__CircuitBreakerFilterStatisticsType { public: unsigned int FilterCreationHandle; /* required element of type xsd:unsignedInt */ unsigned int ReadCount; /* required element of type xsd:unsignedInt */ bool FilterMatched; /* required element of type xsd:boolean */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 385; } /* = unique id SOAP_TYPE_cb__CircuitBreakerFilterStatisticsType */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); cb__CircuitBreakerFilterStatisticsType() : soap(NULL) { } virtual ~cb__CircuitBreakerFilterStatisticsType() { } }; #endif #ifndef SOAP_TYPE_cb__CircuitBreakerHardwarePolicyType #define SOAP_TYPE_cb__CircuitBreakerHardwarePolicyType (386) /* cb:CircuitBreakerHardwarePolicyType */ class SOAP_CMAC cb__CircuitBreakerHardwarePolicyType { public: unsigned int HardwareID; /* required element of type xsd:unsignedInt */ unsigned int PolicyCreationHandle; /* required element of type xsd:unsignedInt */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 386; } /* = unique id SOAP_TYPE_cb__CircuitBreakerHardwarePolicyType */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); cb__CircuitBreakerHardwarePolicyType() : soap(NULL) { } virtual ~cb__CircuitBreakerHardwarePolicyType() { } }; #endif #ifndef SOAP_TYPE_cb__TimedCounterType #define SOAP_TYPE_cb__TimedCounterType (387) /* cb:TimedCounterType */ class SOAP_CMAC cb__TimedCounterType { public: unsigned int Threshold; /* required element of type xsd:unsignedInt */ unsigned int ClearTime; /* required element of type xsd:unsignedInt */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 387; } /* = unique id SOAP_TYPE_cb__TimedCounterType */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); cb__TimedCounterType() : soap(NULL) { } virtual ~cb__TimedCounterType() { } }; #endif #ifndef SOAP_TYPE_cb__BlockedPortInfoType #define SOAP_TYPE_cb__BlockedPortInfoType (388) /* cb:BlockedPortInfoType */ class SOAP_CMAC cb__BlockedPortInfoType { public: unsigned short PortBlocked; /* required element of type xsd:unsignedShort */ unsigned short ProtocolBlocked; /* required element of type xsd:unsignedShort */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 388; } /* = unique id SOAP_TYPE_cb__BlockedPortInfoType */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); cb__BlockedPortInfoType() : soap(NULL) { } virtual ~cb__BlockedPortInfoType() { } }; #endif #ifndef SOAP_TYPE_cb__HcbOptionsType #define SOAP_TYPE_cb__HcbOptionsType (389) /* cb:HcbOptionsType */ class SOAP_CMAC cb__HcbOptionsType { public: cb__TimedCounterType *FastConnectionRate; /* optional element of type cb:TimedCounterType */ cb__TimedCounterType *SlowConnectionRate; /* optional element of type cb:TimedCounterType */ bool BlockAll; /* required element of type xsd:boolean */ bool BlockOffensivePort; /* required element of type xsd:boolean */ unsigned int *PolicyCreationHandle; /* optional element of type xsd:unsignedInt */ unsigned short EncounterTimeout; /* required element of type xsd:unsignedShort */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 389; } /* = unique id SOAP_TYPE_cb__HcbOptionsType */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); cb__HcbOptionsType() : FastConnectionRate(NULL), SlowConnectionRate(NULL), PolicyCreationHandle(NULL), soap(NULL) { } virtual ~cb__HcbOptionsType() { } }; #endif #ifndef SOAP_TYPE__cb__CbPolicyCreate #define SOAP_TYPE__cb__CbPolicyCreate (390) /* cb:CbPolicyCreate */ class SOAP_CMAC _cb__CbPolicyCreate { public: cb__CircuitBreakerPolicyType *Policy; /* required element of type cb:CircuitBreakerPolicyType */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 390; } /* = unique id SOAP_TYPE__cb__CbPolicyCreate */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _cb__CbPolicyCreate() : Policy(NULL), soap(NULL) { } virtual ~_cb__CbPolicyCreate() { } }; #endif #ifndef SOAP_TYPE__cb__CbPolicyCreateResponse #define SOAP_TYPE__cb__CbPolicyCreateResponse (391) /* cb:CbPolicyCreateResponse */ class SOAP_CMAC _cb__CbPolicyCreateResponse { public: unsigned int Status; /* RPC return element */ /* required element of type cb:PT_STATUS */ unsigned int PolicyCreationHandle; /* required element of type xsd:unsignedInt */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 391; } /* = unique id SOAP_TYPE__cb__CbPolicyCreateResponse */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _cb__CbPolicyCreateResponse() : soap(NULL) { } virtual ~_cb__CbPolicyCreateResponse() { } }; #endif #ifndef SOAP_TYPE__cb__CbPolicyGet #define SOAP_TYPE__cb__CbPolicyGet (392) /* cb:CbPolicyGet */ class SOAP_CMAC _cb__CbPolicyGet { public: unsigned int PolicyCreationHandle; /* required element of type xsd:unsignedInt */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 392; } /* = unique id SOAP_TYPE__cb__CbPolicyGet */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _cb__CbPolicyGet() : soap(NULL) { } virtual ~_cb__CbPolicyGet() { } }; #endif #ifndef SOAP_TYPE__cb__CbPolicyGetResponse #define SOAP_TYPE__cb__CbPolicyGetResponse (393) /* cb:CbPolicyGetResponse */ class SOAP_CMAC _cb__CbPolicyGetResponse { public: unsigned int Status; /* RPC return element */ /* required element of type cb:PT_STATUS */ cb__CircuitBreakerPolicyType *Policy; /* required element of type cb:CircuitBreakerPolicyType */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 393; } /* = unique id SOAP_TYPE__cb__CbPolicyGetResponse */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _cb__CbPolicyGetResponse() : Policy(NULL), soap(NULL) { } virtual ~_cb__CbPolicyGetResponse() { } }; #endif #ifndef SOAP_TYPE__cb__CbPolicyDelete #define SOAP_TYPE__cb__CbPolicyDelete (394) /* cb:CbPolicyDelete */ class SOAP_CMAC _cb__CbPolicyDelete { public: unsigned int PolicyCreationHandle; /* required element of type xsd:unsignedInt */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 394; } /* = unique id SOAP_TYPE__cb__CbPolicyDelete */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _cb__CbPolicyDelete() : soap(NULL) { } virtual ~_cb__CbPolicyDelete() { } }; #endif #ifndef SOAP_TYPE__cb__CbPolicyDeleteResponse #define SOAP_TYPE__cb__CbPolicyDeleteResponse (395) /* cb:CbPolicyDeleteResponse */ class SOAP_CMAC _cb__CbPolicyDeleteResponse { public: unsigned int Status; /* RPC return element */ /* required element of type cb:PT_STATUS */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 395; } /* = unique id SOAP_TYPE__cb__CbPolicyDeleteResponse */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _cb__CbPolicyDeleteResponse() : soap(NULL) { } virtual ~_cb__CbPolicyDeleteResponse() { } }; #endif #ifndef SOAP_TYPE__cb__CbPolicyEnumerate #define SOAP_TYPE__cb__CbPolicyEnumerate (396) /* cb:CbPolicyEnumerate */ class SOAP_CMAC _cb__CbPolicyEnumerate { public: struct soap *soap; /* transient */ public: virtual int soap_type() const { return 396; } /* = unique id SOAP_TYPE__cb__CbPolicyEnumerate */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _cb__CbPolicyEnumerate() : soap(NULL) { } virtual ~_cb__CbPolicyEnumerate() { } }; #endif #ifndef SOAP_TYPE__cb__CbPolicyEnumerateResponse #define SOAP_TYPE__cb__CbPolicyEnumerateResponse (397) /* cb:CbPolicyEnumerateResponse */ class SOAP_CMAC _cb__CbPolicyEnumerateResponse { public: unsigned int Status; /* RPC return element */ /* required element of type cb:PT_STATUS */ std::vectorPolicies; /* optional element of type cb:CircuitBreakerPolicyInfoType */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 397; } /* = unique id SOAP_TYPE__cb__CbPolicyEnumerateResponse */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _cb__CbPolicyEnumerateResponse() : soap(NULL) { } virtual ~_cb__CbPolicyEnumerateResponse() { } }; #endif #ifndef SOAP_TYPE__cb__CbPolicyEnable #define SOAP_TYPE__cb__CbPolicyEnable (398) /* cb:CbPolicyEnable */ class SOAP_CMAC _cb__CbPolicyEnable { public: std::vectorEnablePolicies; /* required element of type cb:CircuitBreakerHardwarePolicyType */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 398; } /* = unique id SOAP_TYPE__cb__CbPolicyEnable */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _cb__CbPolicyEnable() : soap(NULL) { } virtual ~_cb__CbPolicyEnable() { } }; #endif #ifndef SOAP_TYPE__cb__CbPolicyEnableResponse #define SOAP_TYPE__cb__CbPolicyEnableResponse (399) /* cb:CbPolicyEnableResponse */ class SOAP_CMAC _cb__CbPolicyEnableResponse { public: unsigned int Status; /* RPC return element */ /* required element of type cb:PT_STATUS */ std::vectorActivePolicies; /* optional element of type cb:CircuitBreakerHardwarePolicyType */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 399; } /* = unique id SOAP_TYPE__cb__CbPolicyEnableResponse */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _cb__CbPolicyEnableResponse() : soap(NULL) { } virtual ~_cb__CbPolicyEnableResponse() { } }; #endif #ifndef SOAP_TYPE__cb__CbPolicyDisable #define SOAP_TYPE__cb__CbPolicyDisable (400) /* cb:CbPolicyDisable */ class SOAP_CMAC _cb__CbPolicyDisable { public: unsigned int *HardwareID; /* optional element of type xsd:unsignedInt */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 400; } /* = unique id SOAP_TYPE__cb__CbPolicyDisable */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _cb__CbPolicyDisable() : HardwareID(NULL), soap(NULL) { } virtual ~_cb__CbPolicyDisable() { } }; #endif #ifndef SOAP_TYPE__cb__CbPolicyDisableResponse #define SOAP_TYPE__cb__CbPolicyDisableResponse (401) /* cb:CbPolicyDisableResponse */ class SOAP_CMAC _cb__CbPolicyDisableResponse { public: unsigned int Status; /* RPC return element */ /* required element of type cb:PT_STATUS */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 401; } /* = unique id SOAP_TYPE__cb__CbPolicyDisableResponse */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _cb__CbPolicyDisableResponse() : soap(NULL) { } virtual ~_cb__CbPolicyDisableResponse() { } }; #endif #ifndef SOAP_TYPE__cb__CbPolicyGetEnabled #define SOAP_TYPE__cb__CbPolicyGetEnabled (402) /* cb:CbPolicyGetEnabled */ class SOAP_CMAC _cb__CbPolicyGetEnabled { public: enum cb__CircuitBreakerApplicationType *AppType; /* optional element of type cb:CircuitBreakerApplicationType */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 402; } /* = unique id SOAP_TYPE__cb__CbPolicyGetEnabled */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _cb__CbPolicyGetEnabled() : AppType(NULL), soap(NULL) { } virtual ~_cb__CbPolicyGetEnabled() { } }; #endif #ifndef SOAP_TYPE__cb__CbPolicyGetEnabledResponse #define SOAP_TYPE__cb__CbPolicyGetEnabledResponse (403) /* cb:CbPolicyGetEnabledResponse */ class SOAP_CMAC _cb__CbPolicyGetEnabledResponse { public: unsigned int Status; /* RPC return element */ /* required element of type cb:PT_STATUS */ std::vectorHwPolicies; /* optional element of type cb:CircuitBreakerHardwarePolicyType */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 403; } /* = unique id SOAP_TYPE__cb__CbPolicyGetEnabledResponse */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _cb__CbPolicyGetEnabledResponse() : soap(NULL) { } virtual ~_cb__CbPolicyGetEnabledResponse() { } }; #endif #ifndef SOAP_TYPE__cb__CbPolicyGetActiveStatistics #define SOAP_TYPE__cb__CbPolicyGetActiveStatistics (404) /* cb:CbPolicyGetActiveStatistics */ class SOAP_CMAC _cb__CbPolicyGetActiveStatistics { public: unsigned int HardwareID; /* required element of type xsd:unsignedInt */ bool ResetStatisticsOnRead; /* required element of type xsd:boolean */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 404; } /* = unique id SOAP_TYPE__cb__CbPolicyGetActiveStatistics */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _cb__CbPolicyGetActiveStatistics() : soap(NULL) { } virtual ~_cb__CbPolicyGetActiveStatistics() { } }; #endif #ifndef SOAP_TYPE__cb__CbPolicyGetActiveStatisticsResponse #define SOAP_TYPE__cb__CbPolicyGetActiveStatisticsResponse (405) /* cb:CbPolicyGetActiveStatisticsResponse */ class SOAP_CMAC _cb__CbPolicyGetActiveStatisticsResponse { public: unsigned int Status; /* RPC return element */ /* required element of type cb:PT_STATUS */ unsigned int PolicyCreationHandle; /* required element of type xsd:unsignedInt */ unsigned int ActivationTime; /* required element of type cb:TimeType */ unsigned int LastResetTime; /* required element of type cb:TimeType */ std::vectorStatistics; /* optional element of type cb:CircuitBreakerFilterStatisticsType */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 405; } /* = unique id SOAP_TYPE__cb__CbPolicyGetActiveStatisticsResponse */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _cb__CbPolicyGetActiveStatisticsResponse() : soap(NULL) { } virtual ~_cb__CbPolicyGetActiveStatisticsResponse() { } }; #endif #ifndef SOAP_TYPE__cb__CbFilterCreate #define SOAP_TYPE__cb__CbFilterCreate (406) /* cb:CbFilterCreate */ class SOAP_CMAC _cb__CbFilterCreate { public: cb__CircuitBreakerFilterType *Filter; /* required element of type cb:CircuitBreakerFilterType */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 406; } /* = unique id SOAP_TYPE__cb__CbFilterCreate */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _cb__CbFilterCreate() : Filter(NULL), soap(NULL) { } virtual ~_cb__CbFilterCreate() { } }; #endif #ifndef SOAP_TYPE__cb__CbFilterCreateResponse #define SOAP_TYPE__cb__CbFilterCreateResponse (407) /* cb:CbFilterCreateResponse */ class SOAP_CMAC _cb__CbFilterCreateResponse { public: unsigned int Status; /* RPC return element */ /* required element of type cb:PT_STATUS */ unsigned int FilterCreationHandle; /* required element of type xsd:unsignedInt */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 407; } /* = unique id SOAP_TYPE__cb__CbFilterCreateResponse */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _cb__CbFilterCreateResponse() : soap(NULL) { } virtual ~_cb__CbFilterCreateResponse() { } }; #endif #ifndef SOAP_TYPE__cb__CbFilterGet #define SOAP_TYPE__cb__CbFilterGet (408) /* cb:CbFilterGet */ class SOAP_CMAC _cb__CbFilterGet { public: unsigned int FilterCreationHandle; /* required element of type xsd:unsignedInt */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 408; } /* = unique id SOAP_TYPE__cb__CbFilterGet */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _cb__CbFilterGet() : soap(NULL) { } virtual ~_cb__CbFilterGet() { } }; #endif #ifndef SOAP_TYPE__cb__CbFilterGetResponse #define SOAP_TYPE__cb__CbFilterGetResponse (409) /* cb:CbFilterGetResponse */ class SOAP_CMAC _cb__CbFilterGetResponse { public: unsigned int Status; /* RPC return element */ /* required element of type cb:PT_STATUS */ cb__CircuitBreakerFilterType *Filter; /* required element of type cb:CircuitBreakerFilterType */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 409; } /* = unique id SOAP_TYPE__cb__CbFilterGetResponse */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _cb__CbFilterGetResponse() : Filter(NULL), soap(NULL) { } virtual ~_cb__CbFilterGetResponse() { } }; #endif #ifndef SOAP_TYPE__cb__CbFilterDelete #define SOAP_TYPE__cb__CbFilterDelete (410) /* cb:CbFilterDelete */ class SOAP_CMAC _cb__CbFilterDelete { public: unsigned int FilterCreationHandle; /* required element of type xsd:unsignedInt */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 410; } /* = unique id SOAP_TYPE__cb__CbFilterDelete */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _cb__CbFilterDelete() : soap(NULL) { } virtual ~_cb__CbFilterDelete() { } }; #endif #ifndef SOAP_TYPE__cb__CbFilterDeleteResponse #define SOAP_TYPE__cb__CbFilterDeleteResponse (411) /* cb:CbFilterDeleteResponse */ class SOAP_CMAC _cb__CbFilterDeleteResponse { public: unsigned int Status; /* RPC return element */ /* required element of type cb:PT_STATUS */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 411; } /* = unique id SOAP_TYPE__cb__CbFilterDeleteResponse */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _cb__CbFilterDeleteResponse() : soap(NULL) { } virtual ~_cb__CbFilterDeleteResponse() { } }; #endif #ifndef SOAP_TYPE__cb__CbFilterEnumerate #define SOAP_TYPE__cb__CbFilterEnumerate (412) /* cb:CbFilterEnumerate */ class SOAP_CMAC _cb__CbFilterEnumerate { public: struct soap *soap; /* transient */ public: virtual int soap_type() const { return 412; } /* = unique id SOAP_TYPE__cb__CbFilterEnumerate */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _cb__CbFilterEnumerate() : soap(NULL) { } virtual ~_cb__CbFilterEnumerate() { } }; #endif #ifndef SOAP_TYPE__cb__CbFilterEnumerateResponse #define SOAP_TYPE__cb__CbFilterEnumerateResponse (413) /* cb:CbFilterEnumerateResponse */ class SOAP_CMAC _cb__CbFilterEnumerateResponse { public: unsigned int Status; /* RPC return element */ /* required element of type cb:PT_STATUS */ std::vectorFilters; /* optional element of type cb:CircuitBreakerFilterInfoType */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 413; } /* = unique id SOAP_TYPE__cb__CbFilterEnumerateResponse */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _cb__CbFilterEnumerateResponse() : soap(NULL) { } virtual ~_cb__CbFilterEnumerateResponse() { } }; #endif #ifndef SOAP_TYPE__cb__CbQueryCapabilities #define SOAP_TYPE__cb__CbQueryCapabilities (414) /* cb:CbQueryCapabilities */ class SOAP_CMAC _cb__CbQueryCapabilities { public: struct soap *soap; /* transient */ public: virtual int soap_type() const { return 414; } /* = unique id SOAP_TYPE__cb__CbQueryCapabilities */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _cb__CbQueryCapabilities() : soap(NULL) { } virtual ~_cb__CbQueryCapabilities() { } }; #endif #ifndef SOAP_TYPE__cb__CbQueryCapabilitiesResponse #define SOAP_TYPE__cb__CbQueryCapabilitiesResponse (415) /* cb:CbQueryCapabilitiesResponse */ class SOAP_CMAC _cb__CbQueryCapabilitiesResponse { public: unsigned int Status; /* RPC return element */ /* required element of type cb:PT_STATUS */ unsigned int MaxSupportedPolicies; /* required element of type xsd:unsignedInt */ unsigned int MaxSupportedFilters; /* required element of type xsd:unsignedInt */ std::vectorCapabilities; /* required element of type cb:CircuitBreakerCapabilitiesType */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 415; } /* = unique id SOAP_TYPE__cb__CbQueryCapabilitiesResponse */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _cb__CbQueryCapabilitiesResponse() : soap(NULL) { } virtual ~_cb__CbQueryCapabilitiesResponse() { } }; #endif #ifndef SOAP_TYPE__cb__SetHcbOptions #define SOAP_TYPE__cb__SetHcbOptions (416) /* cb:SetHcbOptions */ class SOAP_CMAC _cb__SetHcbOptions { public: unsigned int InterfaceHandle; /* required element of type net:InterfaceHandleType */ cb__HcbOptionsType *HcbOptions; /* optional element of type cb:HcbOptionsType */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 416; } /* = unique id SOAP_TYPE__cb__SetHcbOptions */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _cb__SetHcbOptions() : HcbOptions(NULL), soap(NULL) { } virtual ~_cb__SetHcbOptions() { } }; #endif #ifndef SOAP_TYPE__cb__SetHcbOptionsResponse #define SOAP_TYPE__cb__SetHcbOptionsResponse (417) /* cb:SetHcbOptionsResponse */ class SOAP_CMAC _cb__SetHcbOptionsResponse { public: unsigned int Status; /* RPC return element */ /* required element of type cmn:PT_STATUS */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 417; } /* = unique id SOAP_TYPE__cb__SetHcbOptionsResponse */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _cb__SetHcbOptionsResponse() : soap(NULL) { } virtual ~_cb__SetHcbOptionsResponse() { } }; #endif #ifndef SOAP_TYPE__cb__GetHcbOptions #define SOAP_TYPE__cb__GetHcbOptions (418) /* cb:GetHcbOptions */ class SOAP_CMAC _cb__GetHcbOptions { public: unsigned int InterfaceHandle; /* required element of type net:InterfaceHandleType */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 418; } /* = unique id SOAP_TYPE__cb__GetHcbOptions */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _cb__GetHcbOptions() : soap(NULL) { } virtual ~_cb__GetHcbOptions() { } }; #endif #ifndef SOAP_TYPE__cb__GetHcbOptionsResponse #define SOAP_TYPE__cb__GetHcbOptionsResponse (419) /* cb:GetHcbOptionsResponse */ class SOAP_CMAC _cb__GetHcbOptionsResponse { public: unsigned int Status; /* RPC return element */ /* required element of type cmn:PT_STATUS */ cb__HcbOptionsType *HcbOptions; /* optional element of type cb:HcbOptionsType */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 419; } /* = unique id SOAP_TYPE__cb__GetHcbOptionsResponse */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _cb__GetHcbOptionsResponse() : HcbOptions(NULL), soap(NULL) { } virtual ~_cb__GetHcbOptionsResponse() { } }; #endif #ifndef SOAP_TYPE__cb__ClearHcbState #define SOAP_TYPE__cb__ClearHcbState (420) /* cb:ClearHcbState */ class SOAP_CMAC _cb__ClearHcbState { public: unsigned int InterfaceHandle; /* required element of type net:InterfaceHandleType */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 420; } /* = unique id SOAP_TYPE__cb__ClearHcbState */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _cb__ClearHcbState() : soap(NULL) { } virtual ~_cb__ClearHcbState() { } }; #endif #ifndef SOAP_TYPE__cb__ClearHcbStateResponse #define SOAP_TYPE__cb__ClearHcbStateResponse (421) /* cb:ClearHcbStateResponse */ class SOAP_CMAC _cb__ClearHcbStateResponse { public: unsigned int Status; /* RPC return element */ /* required element of type cmn:PT_STATUS */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 421; } /* = unique id SOAP_TYPE__cb__ClearHcbStateResponse */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _cb__ClearHcbStateResponse() : soap(NULL) { } virtual ~_cb__ClearHcbStateResponse() { } }; #endif #ifndef SOAP_TYPE__cb__GetHcbState #define SOAP_TYPE__cb__GetHcbState (422) /* cb:GetHcbState */ class SOAP_CMAC _cb__GetHcbState { public: unsigned int InterfaceHandle; /* required element of type net:InterfaceHandleType */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 422; } /* = unique id SOAP_TYPE__cb__GetHcbState */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _cb__GetHcbState() : soap(NULL) { } virtual ~_cb__GetHcbState() { } }; #endif #ifndef SOAP_TYPE__cb__GetHcbStateResponse #define SOAP_TYPE__cb__GetHcbStateResponse (423) /* cb:GetHcbStateResponse */ class SOAP_CMAC _cb__GetHcbStateResponse { public: unsigned int Status; /* RPC return element */ /* required element of type cmn:PT_STATUS */ enum cb__HcbStateType HcbState; /* required element of type cb:HcbStateType */ bool BlockedAll; /* required element of type xsd:boolean */ unsigned int *TimeStamp; /* optional element of type cb:TimeType */ enum cb__HcbTriggerReasonType *HcbTriggerReason; /* optional element of type cb:HcbTriggerReasonType */ cb__BlockedPortInfoType *BlockedPortInfo; /* optional element of type cb:BlockedPortInfoType */ unsigned int *EnabledCbPolicy; /* optional element of type xsd:unsignedInt */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 423; } /* = unique id SOAP_TYPE__cb__GetHcbStateResponse */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _cb__GetHcbStateResponse() : TimeStamp(NULL), HcbTriggerReason(NULL), BlockedPortInfo(NULL), EnabledCbPolicy(NULL), soap(NULL) { } virtual ~_cb__GetHcbStateResponse() { } }; #endif #ifndef SOAP_TYPE_hwa__AssetTypeArrayType #define SOAP_TYPE_hwa__AssetTypeArrayType (424) /* hwa:AssetTypeArrayType */ class SOAP_CMAC hwa__AssetTypeArrayType { public: std::vectorAssetType; /* optional element of type hwa:AssetTypeType */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 424; } /* = unique id SOAP_TYPE_hwa__AssetTypeArrayType */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); hwa__AssetTypeArrayType() : soap(NULL) { } virtual ~hwa__AssetTypeArrayType() { } }; #endif #ifndef SOAP_TYPE_hwa__AssetDataArrayType #define SOAP_TYPE_hwa__AssetDataArrayType (425) /* hwa:AssetDataArrayType */ class SOAP_CMAC hwa__AssetDataArrayType { public: std::vectorAssetData; /* optional element of type hwa:AssetDataType */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 425; } /* = unique id SOAP_TYPE_hwa__AssetDataArrayType */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); hwa__AssetDataArrayType() : soap(NULL) { } virtual ~hwa__AssetDataArrayType() { } }; #endif #ifndef SOAP_TYPE_hwa__AssetDataType #define SOAP_TYPE_hwa__AssetDataType (426) /* hwa:AssetDataType */ class SOAP_CMAC hwa__AssetDataType { public: enum hwa__AssetTypeType AssetType; /* required element of type hwa:AssetTypeType */ unsigned int AssetSize; /* required element of type xsd:unsignedInt */ xsd__base64Binary *AssetData; /* optional element of type xsd:base64Binary */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 426; } /* = unique id SOAP_TYPE_hwa__AssetDataType */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); hwa__AssetDataType() : AssetData(NULL), soap(NULL) { } virtual ~hwa__AssetDataType() { } }; #endif #ifndef SOAP_TYPE_hwa__PT_USCOREBIOS #define SOAP_TYPE_hwa__PT_USCOREBIOS (427) /* hwa:PT_BIOS */ class SOAP_CMAC hwa__PT_USCOREBIOS { public: unsigned int StructureVersion; /* required element of type xsd:unsignedInt */ std::vectorVendor; /* sequence of 65 to 65 elements */ std::vectorVersion; /* sequence of 65 to 65 elements */ std::vectorReleaseDate; /* sequence of 65 to 65 elements */ unsigned char padding; /* required element of type xsd:unsignedByte */ unsigned int Characteristics; /* required element of type hwa:PT_BIOS_CHARACTERISTICS */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 427; } /* = unique id SOAP_TYPE_hwa__PT_USCOREBIOS */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); hwa__PT_USCOREBIOS() : soap(NULL) { } virtual ~hwa__PT_USCOREBIOS() { } }; #endif #ifndef SOAP_TYPE_hwa__PT_USCORECOMPUTER_USCORESYSTEM #define SOAP_TYPE_hwa__PT_USCORECOMPUTER_USCORESYSTEM (428) /* hwa:PT_COMPUTER_SYSTEM */ class SOAP_CMAC hwa__PT_USCORECOMPUTER_USCORESYSTEM { public: unsigned int StructureVersion; /* required element of type xsd:unsignedInt */ std::vectorManufacturer; /* sequence of 65 to 65 elements */ std::vectorProduct; /* sequence of 65 to 65 elements */ std::vectorVersion; /* sequence of 65 to 65 elements */ std::vectorSerialNumber; /* sequence of 65 to 65 elements */ class hwa__GUID *UUID; /* required element of type hwa:GUID */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 428; } /* = unique id SOAP_TYPE_hwa__PT_USCORECOMPUTER_USCORESYSTEM */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); hwa__PT_USCORECOMPUTER_USCORESYSTEM() : UUID(NULL), soap(NULL) { } virtual ~hwa__PT_USCORECOMPUTER_USCORESYSTEM() { } }; #endif #ifndef SOAP_TYPE_hwa__GUID #define SOAP_TYPE_hwa__GUID (429) /* hwa:GUID */ class SOAP_CMAC hwa__GUID { public: std::vectorGUIDbyte; /* sequence of 16 to 16 elements */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 429; } /* = unique id SOAP_TYPE_hwa__GUID */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); hwa__GUID() : soap(NULL) { } virtual ~hwa__GUID() { } }; #endif #ifndef SOAP_TYPE_hwa__PT_USCOREBASEBOARD #define SOAP_TYPE_hwa__PT_USCOREBASEBOARD (430) /* hwa:PT_BASEBOARD */ class SOAP_CMAC hwa__PT_USCOREBASEBOARD { public: unsigned int StructureVersion; /* required element of type xsd:unsignedInt */ std::vectorManufacturer; /* sequence of 65 to 65 elements */ std::vectorProduct; /* sequence of 65 to 65 elements */ std::vectorVersion; /* sequence of 65 to 65 elements */ std::vectorSerialNumber; /* sequence of 65 to 65 elements */ std::vectorAssetTag; /* sequence of 65 to 65 elements */ unsigned char Replaceable; /* required element of type xsd:unsignedByte */ std::vectorPadding; /* sequence of 2 to 2 elements */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 430; } /* = unique id SOAP_TYPE_hwa__PT_USCOREBASEBOARD */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); hwa__PT_USCOREBASEBOARD() : soap(NULL) { } virtual ~hwa__PT_USCOREBASEBOARD() { } }; #endif #ifndef SOAP_TYPE_hwa__PT_USCOREPROCESSOR #define SOAP_TYPE_hwa__PT_USCOREPROCESSOR (431) /* hwa:PT_PROCESSOR */ class SOAP_CMAC hwa__PT_USCOREPROCESSOR { public: unsigned int StructureVersion; /* required element of type xsd:unsignedInt */ std::vectorID; /* sequence of 2 to 2 elements */ unsigned short MaxSocketSpeed; /* required element of type xsd:unsignedShort */ unsigned short CurrentSpeed; /* required element of type xsd:unsignedShort */ unsigned char Status; /* required element of type hwa:PT_PROCESSOR_STATUS */ unsigned char Type; /* required element of type hwa:PT_PROCESSOR_TYPE */ unsigned char Family; /* required element of type hwa:PT_PROCESSOR_FAMILY */ unsigned char UpgradeInformation; /* required element of type hwa:PT_PROCESSOR_UPGRADE */ unsigned char SocketPopluated; /* required element of type xsd:unsignedByte */ std::vectorSocketDesignation; /* sequence of 65 to 65 elements */ std::vectorManufacturer; /* sequence of 65 to 65 elements */ std::vectorVersion; /* sequence of 65 to 65 elements */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 431; } /* = unique id SOAP_TYPE_hwa__PT_USCOREPROCESSOR */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); hwa__PT_USCOREPROCESSOR() : soap(NULL) { } virtual ~hwa__PT_USCOREPROCESSOR() { } }; #endif #ifndef SOAP_TYPE_hwa__PT_USCOREMEMORY_USCOREMODULE #define SOAP_TYPE_hwa__PT_USCOREMEMORY_USCOREMODULE (432) /* hwa:PT_MEMORY_MODULE */ class SOAP_CMAC hwa__PT_USCOREMEMORY_USCOREMODULE { public: unsigned int StructureVersion; /* required element of type xsd:unsignedInt */ unsigned short Size; /* required element of type xsd:unsignedShort */ unsigned char FormFactor; /* required element of type hwa:PT_MEMORY_FORM_FACTOR */ unsigned char Type; /* required element of type hwa:PT_MEMORY_TYPE */ unsigned short TypeDetail; /* required element of type hwa:PT_MEMORY_TYPE_DETAIL */ unsigned short Speed; /* required element of type xsd:unsignedShort */ std::vectorManufacturer; /* sequence of 65 to 65 elements */ std::vectorSerialNumber; /* sequence of 65 to 65 elements */ std::vectorAssetTag; /* sequence of 65 to 65 elements */ std::vectorPartNumber; /* sequence of 65 to 65 elements */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 432; } /* = unique id SOAP_TYPE_hwa__PT_USCOREMEMORY_USCOREMODULE */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); hwa__PT_USCOREMEMORY_USCOREMODULE() : soap(NULL) { } virtual ~hwa__PT_USCOREMEMORY_USCOREMODULE() { } }; #endif #ifndef SOAP_TYPE_hwa__PT_USCOREFRU #define SOAP_TYPE_hwa__PT_USCOREFRU (433) /* hwa:PT_FRU */ class SOAP_CMAC hwa__PT_USCOREFRU { public: unsigned int StructureVersion; /* required element of type xsd:unsignedInt */ unsigned short VendorID; /* required element of type xsd:unsignedShort */ unsigned short DeviceID; /* required element of type xsd:unsignedShort */ unsigned char RevisionID; /* required element of type xsd:unsignedByte */ unsigned char ProgIf; /* required element of type xsd:unsignedByte */ unsigned char Subclass; /* required element of type xsd:unsignedByte */ unsigned char BaseClass; /* required element of type xsd:unsignedByte */ unsigned short SubvendorID; /* required element of type xsd:unsignedShort */ unsigned short SubsystemID; /* required element of type xsd:unsignedShort */ unsigned short DeviceLocation; /* required element of type xsd:unsignedShort */ std::vectorPadding; /* sequence of 2 to 2 elements */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 433; } /* = unique id SOAP_TYPE_hwa__PT_USCOREFRU */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); hwa__PT_USCOREFRU() : soap(NULL) { } virtual ~hwa__PT_USCOREFRU() { } }; #endif #ifndef SOAP_TYPE_hwa__PT_USCOREMEDIA_USCOREDEVICE #define SOAP_TYPE_hwa__PT_USCOREMEDIA_USCOREDEVICE (434) /* hwa:PT_MEDIA_DEVICE */ class SOAP_CMAC hwa__PT_USCOREMEDIA_USCOREDEVICE { public: unsigned int StructureVersion; /* required element of type xsd:unsignedInt */ std::vectorModelNumber; /* sequence of 40 to 40 elements */ std::vectorSerialNumber; /* sequence of 20 to 20 elements */ std::vectorCapabilities; /* sequence of 3 to 3 elements */ std::vectorMaxMediaSize; /* sequence of 2 to 2 elements */ std::vectorPadding; /* sequence of 2 to 2 elements */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 434; } /* = unique id SOAP_TYPE_hwa__PT_USCOREMEDIA_USCOREDEVICE */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); hwa__PT_USCOREMEDIA_USCOREDEVICE() : soap(NULL) { } virtual ~hwa__PT_USCOREMEDIA_USCOREDEVICE() { } }; #endif #ifndef SOAP_TYPE__hwa__EnumerateAssetTypes #define SOAP_TYPE__hwa__EnumerateAssetTypes (435) /* hwa:EnumerateAssetTypes */ class SOAP_CMAC _hwa__EnumerateAssetTypes { public: struct soap *soap; /* transient */ public: virtual int soap_type() const { return 435; } /* = unique id SOAP_TYPE__hwa__EnumerateAssetTypes */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _hwa__EnumerateAssetTypes() : soap(NULL) { } virtual ~_hwa__EnumerateAssetTypes() { } }; #endif #ifndef SOAP_TYPE__hwa__EnumerateAssetTypesResponse #define SOAP_TYPE__hwa__EnumerateAssetTypesResponse (436) /* hwa:EnumerateAssetTypesResponse */ class SOAP_CMAC _hwa__EnumerateAssetTypesResponse { public: unsigned int Status; /* RPC return element */ /* required element of type hwa:PT_STATUS */ unsigned int Count; /* required element of type xsd:unsignedInt */ hwa__AssetTypeArrayType *AssetTypes; /* required element of type hwa:AssetTypeArrayType */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 436; } /* = unique id SOAP_TYPE__hwa__EnumerateAssetTypesResponse */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _hwa__EnumerateAssetTypesResponse() : AssetTypes(NULL), soap(NULL) { } virtual ~_hwa__EnumerateAssetTypesResponse() { } }; #endif #ifndef SOAP_TYPE__hwa__GetAssetData #define SOAP_TYPE__hwa__GetAssetData (437) /* hwa:GetAssetData */ class SOAP_CMAC _hwa__GetAssetData { public: enum hwa__AssetTypeType AssetType; /* required element of type hwa:AssetTypeType */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 437; } /* = unique id SOAP_TYPE__hwa__GetAssetData */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _hwa__GetAssetData() : soap(NULL) { } virtual ~_hwa__GetAssetData() { } }; #endif #ifndef SOAP_TYPE__hwa__GetAssetDataResponse #define SOAP_TYPE__hwa__GetAssetDataResponse (438) /* hwa:GetAssetDataResponse */ class SOAP_CMAC _hwa__GetAssetDataResponse { public: unsigned int Status; /* RPC return element */ /* required element of type hwa:PT_STATUS */ unsigned int Count; /* required element of type xsd:unsignedInt */ hwa__AssetDataArrayType *AssetData; /* required element of type hwa:AssetDataArrayType */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 438; } /* = unique id SOAP_TYPE__hwa__GetAssetDataResponse */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _hwa__GetAssetDataResponse() : AssetData(NULL), soap(NULL) { } virtual ~_hwa__GetAssetDataResponse() { } }; #endif #ifndef SOAP_TYPE_apr__GUID #define SOAP_TYPE_apr__GUID (439) /* apr:GUID */ class SOAP_CMAC apr__GUID { public: std::vectorByte; /* sequence of 16 to 16 elements */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 439; } /* = unique id SOAP_TYPE_apr__GUID */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); apr__GUID() : soap(NULL) { } virtual ~apr__GUID() { } }; #endif #ifndef SOAP_TYPE_apr__ConsoleWatchdogEntryType #define SOAP_TYPE_apr__ConsoleWatchdogEntryType (440) /* apr:ConsoleWatchdogEntryType */ class SOAP_CMAC apr__ConsoleWatchdogEntryType { public: apr__GUID *AgentID; /* required element of type apr:GUID */ char *AgentDescription; /* optional element of type xsd:anyType */ unsigned short AgentHeartbeatTime; /* required element of type xsd:unsignedShort */ unsigned short AgentStartupTime; /* required element of type xsd:unsignedShort */ unsigned int NumActions; /* required element of type xsd:unsignedInt */ unsigned char State; /* required element of type apr:WatchdogState */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 440; } /* = unique id SOAP_TYPE_apr__ConsoleWatchdogEntryType */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); apr__ConsoleWatchdogEntryType() : AgentID(NULL), AgentDescription(NULL), soap(NULL) { } virtual ~apr__ConsoleWatchdogEntryType() { } }; #endif #ifndef SOAP_TYPE_apr__ConsoleWatchdogActionType #define SOAP_TYPE_apr__ConsoleWatchdogActionType (441) /* apr:ConsoleWatchdogActionType */ class SOAP_CMAC apr__ConsoleWatchdogActionType { public: unsigned char OldState; /* required element of type apr:WatchdogState */ unsigned char NewState; /* required element of type apr:WatchdogState */ bool ActionEventOnTransition; /* required element of type xsd:boolean */ enum apr__CbActionType *ActionCb; /* optional element of type apr:CbActionType */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 441; } /* = unique id SOAP_TYPE_apr__ConsoleWatchdogActionType */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); apr__ConsoleWatchdogActionType() : ActionCb(NULL), soap(NULL) { } virtual ~apr__ConsoleWatchdogActionType() { } }; #endif #ifndef SOAP_TYPE_apr__CircuitBreakerHardwarePolicyType #define SOAP_TYPE_apr__CircuitBreakerHardwarePolicyType (442) /* apr:CircuitBreakerHardwarePolicyType */ class SOAP_CMAC apr__CircuitBreakerHardwarePolicyType { public: unsigned int HardwareID; /* required element of type xsd:unsignedInt */ unsigned int PolicyCreationHandle; /* required element of type xsd:unsignedInt */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 442; } /* = unique id SOAP_TYPE_apr__CircuitBreakerHardwarePolicyType */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); apr__CircuitBreakerHardwarePolicyType() : soap(NULL) { } virtual ~apr__CircuitBreakerHardwarePolicyType() { } }; #endif #ifndef SOAP_TYPE_apr__AgentPresenceCapabilitiesType #define SOAP_TYPE_apr__AgentPresenceCapabilitiesType (443) /* apr:AgentPresenceCapabilitiesType */ class SOAP_CMAC apr__AgentPresenceCapabilitiesType { public: unsigned int MaxTotalAgents; /* required element of type xsd:unsignedInt */ unsigned int MaxTotalActions; /* required element of type xsd:unsignedInt */ unsigned int MinGuaranteedActionListSize; /* required element of type xsd:unsignedInt */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 443; } /* = unique id SOAP_TYPE_apr__AgentPresenceCapabilitiesType */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); apr__AgentPresenceCapabilitiesType() : soap(NULL) { } virtual ~apr__AgentPresenceCapabilitiesType() { } }; #endif #ifndef SOAP_TYPE__apr__ConsoleWatchdogCreate #define SOAP_TYPE__apr__ConsoleWatchdogCreate (444) /* apr:ConsoleWatchdogCreate */ class SOAP_CMAC _apr__ConsoleWatchdogCreate { public: apr__GUID *AgentID; /* required element of type apr:GUID */ char *AgentDescription; /* optional element of type xsd:anyType */ unsigned short AgentHeartbeatTime; /* required element of type xsd:unsignedShort */ unsigned short AgentStartupTime; /* required element of type xsd:unsignedShort */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 444; } /* = unique id SOAP_TYPE__apr__ConsoleWatchdogCreate */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _apr__ConsoleWatchdogCreate() : AgentID(NULL), AgentDescription(NULL), soap(NULL) { } virtual ~_apr__ConsoleWatchdogCreate() { } }; #endif #ifndef SOAP_TYPE__apr__ConsoleWatchdogCreateResponse #define SOAP_TYPE__apr__ConsoleWatchdogCreateResponse (445) /* apr:ConsoleWatchdogCreateResponse */ class SOAP_CMAC _apr__ConsoleWatchdogCreateResponse { public: unsigned int Status; /* RPC return element */ /* required element of type apr:PT_STATUS */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 445; } /* = unique id SOAP_TYPE__apr__ConsoleWatchdogCreateResponse */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _apr__ConsoleWatchdogCreateResponse() : soap(NULL) { } virtual ~_apr__ConsoleWatchdogCreateResponse() { } }; #endif #ifndef SOAP_TYPE__apr__ConsoleWatchdogDelete #define SOAP_TYPE__apr__ConsoleWatchdogDelete (446) /* apr:ConsoleWatchdogDelete */ class SOAP_CMAC _apr__ConsoleWatchdogDelete { public: apr__GUID *AgentID; /* required element of type apr:GUID */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 446; } /* = unique id SOAP_TYPE__apr__ConsoleWatchdogDelete */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _apr__ConsoleWatchdogDelete() : AgentID(NULL), soap(NULL) { } virtual ~_apr__ConsoleWatchdogDelete() { } }; #endif #ifndef SOAP_TYPE__apr__ConsoleWatchdogDeleteResponse #define SOAP_TYPE__apr__ConsoleWatchdogDeleteResponse (447) /* apr:ConsoleWatchdogDeleteResponse */ class SOAP_CMAC _apr__ConsoleWatchdogDeleteResponse { public: unsigned int Status; /* RPC return element */ /* required element of type apr:PT_STATUS */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 447; } /* = unique id SOAP_TYPE__apr__ConsoleWatchdogDeleteResponse */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _apr__ConsoleWatchdogDeleteResponse() : soap(NULL) { } virtual ~_apr__ConsoleWatchdogDeleteResponse() { } }; #endif #ifndef SOAP_TYPE__apr__ConsoleWatchdogEnumerate #define SOAP_TYPE__apr__ConsoleWatchdogEnumerate (448) /* apr:ConsoleWatchdogEnumerate */ class SOAP_CMAC _apr__ConsoleWatchdogEnumerate { public: struct soap *soap; /* transient */ public: virtual int soap_type() const { return 448; } /* = unique id SOAP_TYPE__apr__ConsoleWatchdogEnumerate */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _apr__ConsoleWatchdogEnumerate() : soap(NULL) { } virtual ~_apr__ConsoleWatchdogEnumerate() { } }; #endif #ifndef SOAP_TYPE__apr__ConsoleWatchdogEnumerateResponse #define SOAP_TYPE__apr__ConsoleWatchdogEnumerateResponse (449) /* apr:ConsoleWatchdogEnumerateResponse */ class SOAP_CMAC _apr__ConsoleWatchdogEnumerateResponse { public: unsigned int Status; /* RPC return element */ /* required element of type apr:PT_STATUS */ std::vectorConsoleWatchdogEntries; /* optional element of type apr:ConsoleWatchdogEntryType */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 449; } /* = unique id SOAP_TYPE__apr__ConsoleWatchdogEnumerateResponse */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _apr__ConsoleWatchdogEnumerateResponse() : soap(NULL) { } virtual ~_apr__ConsoleWatchdogEnumerateResponse() { } }; #endif #ifndef SOAP_TYPE__apr__ConsoleWatchdogSetActions #define SOAP_TYPE__apr__ConsoleWatchdogSetActions (450) /* apr:ConsoleWatchdogSetActions */ class SOAP_CMAC _apr__ConsoleWatchdogSetActions { public: apr__GUID *AgentID; /* required element of type apr:GUID */ std::vectorConsoleWatchdogActions; /* required element of type apr:ConsoleWatchdogActionType */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 450; } /* = unique id SOAP_TYPE__apr__ConsoleWatchdogSetActions */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _apr__ConsoleWatchdogSetActions() : AgentID(NULL), soap(NULL) { } virtual ~_apr__ConsoleWatchdogSetActions() { } }; #endif #ifndef SOAP_TYPE__apr__ConsoleWatchdogSetActionsResponse #define SOAP_TYPE__apr__ConsoleWatchdogSetActionsResponse (451) /* apr:ConsoleWatchdogSetActionsResponse */ class SOAP_CMAC _apr__ConsoleWatchdogSetActionsResponse { public: unsigned int Status; /* RPC return element */ /* required element of type apr:PT_STATUS */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 451; } /* = unique id SOAP_TYPE__apr__ConsoleWatchdogSetActionsResponse */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _apr__ConsoleWatchdogSetActionsResponse() : soap(NULL) { } virtual ~_apr__ConsoleWatchdogSetActionsResponse() { } }; #endif #ifndef SOAP_TYPE__apr__ConsoleWatchdogGetActions #define SOAP_TYPE__apr__ConsoleWatchdogGetActions (452) /* apr:ConsoleWatchdogGetActions */ class SOAP_CMAC _apr__ConsoleWatchdogGetActions { public: apr__GUID *AgentID; /* required element of type apr:GUID */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 452; } /* = unique id SOAP_TYPE__apr__ConsoleWatchdogGetActions */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _apr__ConsoleWatchdogGetActions() : AgentID(NULL), soap(NULL) { } virtual ~_apr__ConsoleWatchdogGetActions() { } }; #endif #ifndef SOAP_TYPE__apr__ConsoleWatchdogGetActionsResponse #define SOAP_TYPE__apr__ConsoleWatchdogGetActionsResponse (453) /* apr:ConsoleWatchdogGetActionsResponse */ class SOAP_CMAC _apr__ConsoleWatchdogGetActionsResponse { public: unsigned int Status; /* RPC return element */ /* required element of type apr:PT_STATUS */ std::vectorConsoleWatchdogActions; /* optional element of type apr:ConsoleWatchdogActionType */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 453; } /* = unique id SOAP_TYPE__apr__ConsoleWatchdogGetActionsResponse */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _apr__ConsoleWatchdogGetActionsResponse() : soap(NULL) { } virtual ~_apr__ConsoleWatchdogGetActionsResponse() { } }; #endif #ifndef SOAP_TYPE__apr__ConsoleWatchdogSetCbPolicy #define SOAP_TYPE__apr__ConsoleWatchdogSetCbPolicy (454) /* apr:ConsoleWatchdogSetCbPolicy */ class SOAP_CMAC _apr__ConsoleWatchdogSetCbPolicy { public: std::vectorHwPolicies; /* optional element of type apr:CircuitBreakerHardwarePolicyType */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 454; } /* = unique id SOAP_TYPE__apr__ConsoleWatchdogSetCbPolicy */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _apr__ConsoleWatchdogSetCbPolicy() : soap(NULL) { } virtual ~_apr__ConsoleWatchdogSetCbPolicy() { } }; #endif #ifndef SOAP_TYPE__apr__ConsoleWatchdogSetCbPolicyResponse #define SOAP_TYPE__apr__ConsoleWatchdogSetCbPolicyResponse (455) /* apr:ConsoleWatchdogSetCbPolicyResponse */ class SOAP_CMAC _apr__ConsoleWatchdogSetCbPolicyResponse { public: unsigned int Status; /* RPC return element */ /* required element of type apr:PT_STATUS */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 455; } /* = unique id SOAP_TYPE__apr__ConsoleWatchdogSetCbPolicyResponse */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _apr__ConsoleWatchdogSetCbPolicyResponse() : soap(NULL) { } virtual ~_apr__ConsoleWatchdogSetCbPolicyResponse() { } }; #endif #ifndef SOAP_TYPE__apr__ConsoleWatchdogGetCbPolicy #define SOAP_TYPE__apr__ConsoleWatchdogGetCbPolicy (456) /* apr:ConsoleWatchdogGetCbPolicy */ class SOAP_CMAC _apr__ConsoleWatchdogGetCbPolicy { public: struct soap *soap; /* transient */ public: virtual int soap_type() const { return 456; } /* = unique id SOAP_TYPE__apr__ConsoleWatchdogGetCbPolicy */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _apr__ConsoleWatchdogGetCbPolicy() : soap(NULL) { } virtual ~_apr__ConsoleWatchdogGetCbPolicy() { } }; #endif #ifndef SOAP_TYPE__apr__ConsoleWatchdogGetCbPolicyResponse #define SOAP_TYPE__apr__ConsoleWatchdogGetCbPolicyResponse (457) /* apr:ConsoleWatchdogGetCbPolicyResponse */ class SOAP_CMAC _apr__ConsoleWatchdogGetCbPolicyResponse { public: unsigned int Status; /* RPC return element */ /* required element of type apr:PT_STATUS */ std::vectorHwPolicies; /* optional element of type apr:CircuitBreakerHardwarePolicyType */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 457; } /* = unique id SOAP_TYPE__apr__ConsoleWatchdogGetCbPolicyResponse */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _apr__ConsoleWatchdogGetCbPolicyResponse() : soap(NULL) { } virtual ~_apr__ConsoleWatchdogGetCbPolicyResponse() { } }; #endif #ifndef SOAP_TYPE__apr__ConsoleWatchdogQueryCapabilities #define SOAP_TYPE__apr__ConsoleWatchdogQueryCapabilities (458) /* apr:ConsoleWatchdogQueryCapabilities */ class SOAP_CMAC _apr__ConsoleWatchdogQueryCapabilities { public: struct soap *soap; /* transient */ public: virtual int soap_type() const { return 458; } /* = unique id SOAP_TYPE__apr__ConsoleWatchdogQueryCapabilities */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _apr__ConsoleWatchdogQueryCapabilities() : soap(NULL) { } virtual ~_apr__ConsoleWatchdogQueryCapabilities() { } }; #endif #ifndef SOAP_TYPE__apr__ConsoleWatchdogQueryCapabilitiesResponse #define SOAP_TYPE__apr__ConsoleWatchdogQueryCapabilitiesResponse (459) /* apr:ConsoleWatchdogQueryCapabilitiesResponse */ class SOAP_CMAC _apr__ConsoleWatchdogQueryCapabilitiesResponse { public: unsigned int Status; /* RPC return element */ /* required element of type apr:PT_STATUS */ apr__AgentPresenceCapabilitiesType *Capabilities; /* required element of type apr:AgentPresenceCapabilitiesType */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 459; } /* = unique id SOAP_TYPE__apr__ConsoleWatchdogQueryCapabilitiesResponse */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _apr__ConsoleWatchdogQueryCapabilitiesResponse() : Capabilities(NULL), soap(NULL) { } virtual ~_apr__ConsoleWatchdogQueryCapabilitiesResponse() { } }; #endif #ifndef SOAP_TYPE_apl__GUID #define SOAP_TYPE_apl__GUID (460) /* apl:GUID */ class SOAP_CMAC apl__GUID { public: std::vectorByte; /* sequence of 16 to 16 elements */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 460; } /* = unique id SOAP_TYPE_apl__GUID */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); apl__GUID() : soap(NULL) { } virtual ~apl__GUID() { } }; #endif #ifndef SOAP_TYPE__apl__AgentWatchdogRegister #define SOAP_TYPE__apl__AgentWatchdogRegister (461) /* apl:AgentWatchdogRegister */ class SOAP_CMAC _apl__AgentWatchdogRegister { public: apl__GUID *AgentID; /* required element of type apl:GUID */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 461; } /* = unique id SOAP_TYPE__apl__AgentWatchdogRegister */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _apl__AgentWatchdogRegister() : AgentID(NULL), soap(NULL) { } virtual ~_apl__AgentWatchdogRegister() { } }; #endif #ifndef SOAP_TYPE__apl__AgentWatchdogRegisterResponse #define SOAP_TYPE__apl__AgentWatchdogRegisterResponse (462) /* apl:AgentWatchdogRegisterResponse */ class SOAP_CMAC _apl__AgentWatchdogRegisterResponse { public: unsigned int Status; /* RPC return element */ /* required element of type apl:PT_STATUS */ unsigned int SessionSequenceNumber; /* required element of type xsd:unsignedInt */ unsigned short AgentHeartbeatTime; /* required element of type xsd:unsignedShort */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 462; } /* = unique id SOAP_TYPE__apl__AgentWatchdogRegisterResponse */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _apl__AgentWatchdogRegisterResponse() : soap(NULL) { } virtual ~_apl__AgentWatchdogRegisterResponse() { } }; #endif #ifndef SOAP_TYPE__apl__AgentWatchdogHeartbeat #define SOAP_TYPE__apl__AgentWatchdogHeartbeat (463) /* apl:AgentWatchdogHeartbeat */ class SOAP_CMAC _apl__AgentWatchdogHeartbeat { public: apl__GUID *AgentID; /* required element of type apl:GUID */ unsigned int SessionSequenceNumber; /* required element of type xsd:unsignedInt */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 463; } /* = unique id SOAP_TYPE__apl__AgentWatchdogHeartbeat */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _apl__AgentWatchdogHeartbeat() : AgentID(NULL), soap(NULL) { } virtual ~_apl__AgentWatchdogHeartbeat() { } }; #endif #ifndef SOAP_TYPE__apl__AgentWatchdogHeartbeatResponse #define SOAP_TYPE__apl__AgentWatchdogHeartbeatResponse (464) /* apl:AgentWatchdogHeartbeatResponse */ class SOAP_CMAC _apl__AgentWatchdogHeartbeatResponse { public: unsigned int Status; /* RPC return element */ /* required element of type apl:PT_STATUS */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 464; } /* = unique id SOAP_TYPE__apl__AgentWatchdogHeartbeatResponse */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _apl__AgentWatchdogHeartbeatResponse() : soap(NULL) { } virtual ~_apl__AgentWatchdogHeartbeatResponse() { } }; #endif #ifndef SOAP_TYPE__apl__AgentWatchdogShutdown #define SOAP_TYPE__apl__AgentWatchdogShutdown (465) /* apl:AgentWatchdogShutdown */ class SOAP_CMAC _apl__AgentWatchdogShutdown { public: apl__GUID *AgentID; /* required element of type apl:GUID */ unsigned int SessionSequenceNumber; /* required element of type xsd:unsignedInt */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 465; } /* = unique id SOAP_TYPE__apl__AgentWatchdogShutdown */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _apl__AgentWatchdogShutdown() : AgentID(NULL), soap(NULL) { } virtual ~_apl__AgentWatchdogShutdown() { } }; #endif #ifndef SOAP_TYPE__apl__AgentWatchdogShutdownResponse #define SOAP_TYPE__apl__AgentWatchdogShutdownResponse (466) /* apl:AgentWatchdogShutdownResponse */ class SOAP_CMAC _apl__AgentWatchdogShutdownResponse { public: unsigned int Status; /* RPC return element */ /* required element of type apl:PT_STATUS */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 466; } /* = unique id SOAP_TYPE__apl__AgentWatchdogShutdownResponse */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _apl__AgentWatchdogShutdownResponse() : soap(NULL) { } virtual ~_apl__AgentWatchdogShutdownResponse() { } }; #endif #ifndef SOAP_TYPE_idr__IderSessionLogEntryType #define SOAP_TYPE_idr__IderSessionLogEntryType (467) /* idr:IderSessionLogEntryType */ class SOAP_CMAC idr__IderSessionLogEntryType { public: unsigned int ConsoleAddress; /* required element of type idr:IPv4AddressType */ unsigned short Port; /* required element of type xsd:unsignedShort */ unsigned int TimeStamp; /* required element of type idr:TimeType */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 467; } /* = unique id SOAP_TYPE_idr__IderSessionLogEntryType */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); idr__IderSessionLogEntryType() : soap(NULL) { } virtual ~idr__IderSessionLogEntryType() { } }; #endif #ifndef SOAP_TYPE_idr__FirmwareVersionType #define SOAP_TYPE_idr__FirmwareVersionType (468) /* idr:FirmwareVersionType */ class SOAP_CMAC idr__FirmwareVersionType { public: std::string Description; /* required element of type xsd:string */ std::string Version; /* required element of type xsd:string */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 468; } /* = unique id SOAP_TYPE_idr__FirmwareVersionType */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); idr__FirmwareVersionType() : soap(NULL) { } virtual ~idr__FirmwareVersionType() { } }; #endif #ifndef SOAP_TYPE__idr__SetRedirectionListenerState #define SOAP_TYPE__idr__SetRedirectionListenerState (469) /* idr:SetRedirectionListenerState */ class SOAP_CMAC _idr__SetRedirectionListenerState { public: bool Enabled; /* required element of type xsd:boolean */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 469; } /* = unique id SOAP_TYPE__idr__SetRedirectionListenerState */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _idr__SetRedirectionListenerState() : soap(NULL) { } virtual ~_idr__SetRedirectionListenerState() { } }; #endif #ifndef SOAP_TYPE__idr__SetRedirectionListenerStateResponse #define SOAP_TYPE__idr__SetRedirectionListenerStateResponse (470) /* idr:SetRedirectionListenerStateResponse */ class SOAP_CMAC _idr__SetRedirectionListenerStateResponse { public: unsigned int StatusCode; /* RPC return element */ /* required element of type idr:PT_STATUS */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 470; } /* = unique id SOAP_TYPE__idr__SetRedirectionListenerStateResponse */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _idr__SetRedirectionListenerStateResponse() : soap(NULL) { } virtual ~_idr__SetRedirectionListenerStateResponse() { } }; #endif #ifndef SOAP_TYPE__idr__GetRedirectionListenerState #define SOAP_TYPE__idr__GetRedirectionListenerState (471) /* idr:GetRedirectionListenerState */ class SOAP_CMAC _idr__GetRedirectionListenerState { public: struct soap *soap; /* transient */ public: virtual int soap_type() const { return 471; } /* = unique id SOAP_TYPE__idr__GetRedirectionListenerState */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _idr__GetRedirectionListenerState() : soap(NULL) { } virtual ~_idr__GetRedirectionListenerState() { } }; #endif #ifndef SOAP_TYPE__idr__GetRedirectionListenerStateResponse #define SOAP_TYPE__idr__GetRedirectionListenerStateResponse (472) /* idr:GetRedirectionListenerStateResponse */ class SOAP_CMAC _idr__GetRedirectionListenerStateResponse { public: unsigned int StatusCode; /* RPC return element */ /* required element of type idr:PT_STATUS */ bool Enabled; /* required element of type xsd:boolean */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 472; } /* = unique id SOAP_TYPE__idr__GetRedirectionListenerStateResponse */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _idr__GetRedirectionListenerStateResponse() : soap(NULL) { } virtual ~_idr__GetRedirectionListenerStateResponse() { } }; #endif #ifndef SOAP_TYPE__idr__GetIderSessionLog #define SOAP_TYPE__idr__GetIderSessionLog (473) /* idr:GetIderSessionLog */ class SOAP_CMAC _idr__GetIderSessionLog { public: struct soap *soap; /* transient */ public: virtual int soap_type() const { return 473; } /* = unique id SOAP_TYPE__idr__GetIderSessionLog */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _idr__GetIderSessionLog() : soap(NULL) { } virtual ~_idr__GetIderSessionLog() { } }; #endif #ifndef SOAP_TYPE__idr__GetIderSessionLogResponse #define SOAP_TYPE__idr__GetIderSessionLogResponse (474) /* idr:GetIderSessionLogResponse */ class SOAP_CMAC _idr__GetIderSessionLogResponse { public: unsigned int StatusCode; /* RPC return element */ /* required element of type idr:PT_STATUS */ std::vectorLogData; /* optional element of type idr:IderSessionLogEntryType */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 474; } /* = unique id SOAP_TYPE__idr__GetIderSessionLogResponse */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _idr__GetIderSessionLogResponse() : soap(NULL) { } virtual ~_idr__GetIderSessionLogResponse() { } }; #endif #ifndef SOAP_TYPE__tim__GetLowAccuracyTimeSynch #define SOAP_TYPE__tim__GetLowAccuracyTimeSynch (475) /* tim:GetLowAccuracyTimeSynch */ class SOAP_CMAC _tim__GetLowAccuracyTimeSynch { public: struct soap *soap; /* transient */ public: virtual int soap_type() const { return 475; } /* = unique id SOAP_TYPE__tim__GetLowAccuracyTimeSynch */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _tim__GetLowAccuracyTimeSynch() : soap(NULL) { } virtual ~_tim__GetLowAccuracyTimeSynch() { } }; #endif #ifndef SOAP_TYPE__tim__GetLowAccuracyTimeSynchResponse #define SOAP_TYPE__tim__GetLowAccuracyTimeSynchResponse (476) /* tim:GetLowAccuracyTimeSynchResponse */ class SOAP_CMAC _tim__GetLowAccuracyTimeSynchResponse { public: unsigned int StatusCode; /* RPC return element */ /* required element of type tim:PT_STATUS */ unsigned int Ta0; /* required element of type tim:TimeType */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 476; } /* = unique id SOAP_TYPE__tim__GetLowAccuracyTimeSynchResponse */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _tim__GetLowAccuracyTimeSynchResponse() : soap(NULL) { } virtual ~_tim__GetLowAccuracyTimeSynchResponse() { } }; #endif #ifndef SOAP_TYPE__tim__SetHighAccuracyTimeSynch #define SOAP_TYPE__tim__SetHighAccuracyTimeSynch (477) /* tim:SetHighAccuracyTimeSynch */ class SOAP_CMAC _tim__SetHighAccuracyTimeSynch { public: unsigned int Ta0; /* required element of type tim:TimeType */ unsigned int Tm1; /* required element of type tim:TimeType */ unsigned int Tm2; /* required element of type tim:TimeType */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 477; } /* = unique id SOAP_TYPE__tim__SetHighAccuracyTimeSynch */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _tim__SetHighAccuracyTimeSynch() : soap(NULL) { } virtual ~_tim__SetHighAccuracyTimeSynch() { } }; #endif #ifndef SOAP_TYPE__tim__SetHighAccuracyTimeSynchResponse #define SOAP_TYPE__tim__SetHighAccuracyTimeSynchResponse (478) /* tim:SetHighAccuracyTimeSynchResponse */ class SOAP_CMAC _tim__SetHighAccuracyTimeSynchResponse { public: unsigned int StatusCode; /* RPC return element */ /* required element of type tim:PT_STATUS */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 478; } /* = unique id SOAP_TYPE__tim__SetHighAccuracyTimeSynchResponse */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _tim__SetHighAccuracyTimeSynchResponse() : soap(NULL) { } virtual ~_tim__SetHighAccuracyTimeSynchResponse() { } }; #endif #ifndef SOAP_TYPE__str__ExecuteStorageOperation #define SOAP_TYPE__str__ExecuteStorageOperation (479) /* str:ExecuteStorageOperation */ class SOAP_CMAC _str__ExecuteStorageOperation { public: xsd__base64Binary Request; /* required element of type xsd:base64Binary */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 479; } /* = unique id SOAP_TYPE__str__ExecuteStorageOperation */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _str__ExecuteStorageOperation() : soap(NULL) { } virtual ~_str__ExecuteStorageOperation() { } }; #endif #ifndef SOAP_TYPE__str__ExecuteStorageOperationResponse #define SOAP_TYPE__str__ExecuteStorageOperationResponse (480) /* str:ExecuteStorageOperationResponse */ class SOAP_CMAC _str__ExecuteStorageOperationResponse { public: unsigned int Status; /* RPC return element */ /* required element of type str:PT_STATUS */ xsd__base64Binary Response; /* required element of type xsd:base64Binary */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 480; } /* = unique id SOAP_TYPE__str__ExecuteStorageOperationResponse */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _str__ExecuteStorageOperationResponse() : soap(NULL) { } virtual ~_str__ExecuteStorageOperationResponse() { } }; #endif #ifndef SOAP_TYPE_inf__IderSessionLogEntryType #define SOAP_TYPE_inf__IderSessionLogEntryType (481) /* inf:IderSessionLogEntryType */ class SOAP_CMAC inf__IderSessionLogEntryType { public: unsigned int ConsoleAddress; /* required element of type inf:IPv4AddressType */ unsigned short Port; /* required element of type xsd:unsignedShort */ unsigned int TimeStamp; /* required element of type inf:TimeType */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 481; } /* = unique id SOAP_TYPE_inf__IderSessionLogEntryType */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); inf__IderSessionLogEntryType() : soap(NULL) { } virtual ~inf__IderSessionLogEntryType() { } }; #endif #ifndef SOAP_TYPE_inf__FirmwareVersionType #define SOAP_TYPE_inf__FirmwareVersionType (482) /* inf:FirmwareVersionType */ class SOAP_CMAC inf__FirmwareVersionType { public: std::string Description; /* required element of type xsd:string */ std::string Version; /* required element of type xsd:string */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 482; } /* = unique id SOAP_TYPE_inf__FirmwareVersionType */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); inf__FirmwareVersionType() : soap(NULL) { } virtual ~inf__FirmwareVersionType() { } }; #endif #ifndef SOAP_TYPE__inf__GetCoreVersion #define SOAP_TYPE__inf__GetCoreVersion (483) /* inf:GetCoreVersion */ class SOAP_CMAC _inf__GetCoreVersion { public: struct soap *soap; /* transient */ public: virtual int soap_type() const { return 483; } /* = unique id SOAP_TYPE__inf__GetCoreVersion */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _inf__GetCoreVersion() : soap(NULL) { } virtual ~_inf__GetCoreVersion() { } }; #endif #ifndef SOAP_TYPE__inf__GetCoreVersionResponse #define SOAP_TYPE__inf__GetCoreVersionResponse (484) /* inf:GetCoreVersionResponse */ class SOAP_CMAC _inf__GetCoreVersionResponse { public: unsigned int StatusCode; /* RPC return element */ /* required element of type inf:PT_STATUS */ std::string Version; /* required element of type xsd:string */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 484; } /* = unique id SOAP_TYPE__inf__GetCoreVersionResponse */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _inf__GetCoreVersionResponse() : soap(NULL) { } virtual ~_inf__GetCoreVersionResponse() { } }; #endif #ifndef SOAP_TYPE__inf__GetCodeVersions #define SOAP_TYPE__inf__GetCodeVersions (485) /* inf:GetCodeVersions */ class SOAP_CMAC _inf__GetCodeVersions { public: struct soap *soap; /* transient */ public: virtual int soap_type() const { return 485; } /* = unique id SOAP_TYPE__inf__GetCodeVersions */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _inf__GetCodeVersions() : soap(NULL) { } virtual ~_inf__GetCodeVersions() { } }; #endif #ifndef SOAP_TYPE__inf__GetCodeVersionsResponse #define SOAP_TYPE__inf__GetCodeVersionsResponse (486) /* inf:GetCodeVersionsResponse */ class SOAP_CMAC _inf__GetCodeVersionsResponse { public: unsigned int StatusCode; /* RPC return element */ /* required element of type inf:PT_STATUS */ std::string BiosVersion; /* required element of type xsd:string */ std::vectorVersions; /* optional element of type inf:FirmwareVersionType */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 486; } /* = unique id SOAP_TYPE__inf__GetCodeVersionsResponse */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _inf__GetCodeVersionsResponse() : soap(NULL) { } virtual ~_inf__GetCodeVersionsResponse() { } }; #endif #ifndef SOAP_TYPE__inf__GetProvisioningMode #define SOAP_TYPE__inf__GetProvisioningMode (487) /* inf:GetProvisioningMode */ class SOAP_CMAC _inf__GetProvisioningMode { public: struct soap *soap; /* transient */ public: virtual int soap_type() const { return 487; } /* = unique id SOAP_TYPE__inf__GetProvisioningMode */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _inf__GetProvisioningMode() : soap(NULL) { } virtual ~_inf__GetProvisioningMode() { } }; #endif #ifndef SOAP_TYPE__inf__GetProvisioningModeResponse #define SOAP_TYPE__inf__GetProvisioningModeResponse (488) /* inf:GetProvisioningModeResponse */ class SOAP_CMAC _inf__GetProvisioningModeResponse { public: unsigned int StatusCode; /* RPC return element */ /* required element of type inf:PT_STATUS */ enum inf__ProvisioningModeType ProvisioningMode; /* required element of type inf:ProvisioningModeType */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 488; } /* = unique id SOAP_TYPE__inf__GetProvisioningModeResponse */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _inf__GetProvisioningModeResponse() : soap(NULL) { } virtual ~_inf__GetProvisioningModeResponse() { } }; #endif #ifndef SOAP_TYPE__inf__GetProvisioningState #define SOAP_TYPE__inf__GetProvisioningState (489) /* inf:GetProvisioningState */ class SOAP_CMAC _inf__GetProvisioningState { public: struct soap *soap; /* transient */ public: virtual int soap_type() const { return 489; } /* = unique id SOAP_TYPE__inf__GetProvisioningState */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _inf__GetProvisioningState() : soap(NULL) { } virtual ~_inf__GetProvisioningState() { } }; #endif #ifndef SOAP_TYPE__inf__GetProvisioningStateResponse #define SOAP_TYPE__inf__GetProvisioningStateResponse (490) /* inf:GetProvisioningStateResponse */ class SOAP_CMAC _inf__GetProvisioningStateResponse { public: unsigned int StatusCode; /* RPC return element */ /* required element of type inf:PT_STATUS */ enum inf__ProvisioningStateType ProvisioningState; /* required element of type inf:ProvisioningStateType */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 490; } /* = unique id SOAP_TYPE__inf__GetProvisioningStateResponse */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _inf__GetProvisioningStateResponse() : soap(NULL) { } virtual ~_inf__GetProvisioningStateResponse() { } }; #endif #ifndef SOAP_TYPE__inf__GetVlanParameters #define SOAP_TYPE__inf__GetVlanParameters (491) /* inf:GetVlanParameters */ class SOAP_CMAC _inf__GetVlanParameters { public: unsigned int *InterfaceHandle; /* optional element of type cmn:InterfaceHandleType */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 491; } /* = unique id SOAP_TYPE__inf__GetVlanParameters */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _inf__GetVlanParameters() : InterfaceHandle(NULL), soap(NULL) { } virtual ~_inf__GetVlanParameters() { } }; #endif #ifndef SOAP_TYPE__inf__GetVlanParametersResponse #define SOAP_TYPE__inf__GetVlanParametersResponse (492) /* inf:GetVlanParametersResponse */ class SOAP_CMAC _inf__GetVlanParametersResponse { public: unsigned int StatusCode; /* RPC return element */ /* required element of type inf:PT_STATUS */ bool VlanMode; /* required element of type xsd:boolean */ unsigned short VlanTag; /* required element of type xsd:unsignedShort */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 492; } /* = unique id SOAP_TYPE__inf__GetVlanParametersResponse */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _inf__GetVlanParametersResponse() : soap(NULL) { } virtual ~_inf__GetVlanParametersResponse() { } }; #endif #ifndef SOAP_TYPE__inf__GetHostName #define SOAP_TYPE__inf__GetHostName (493) /* inf:GetHostName */ class SOAP_CMAC _inf__GetHostName { public: struct soap *soap; /* transient */ public: virtual int soap_type() const { return 493; } /* = unique id SOAP_TYPE__inf__GetHostName */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _inf__GetHostName() : soap(NULL) { } virtual ~_inf__GetHostName() { } }; #endif #ifndef SOAP_TYPE__inf__GetHostNameResponse #define SOAP_TYPE__inf__GetHostNameResponse (494) /* inf:GetHostNameResponse */ class SOAP_CMAC _inf__GetHostNameResponse { public: unsigned int StatusCode; /* RPC return element */ /* required element of type inf:PT_STATUS */ std::string HostName; /* required element of type xsd:string */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 494; } /* = unique id SOAP_TYPE__inf__GetHostNameResponse */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _inf__GetHostNameResponse() : soap(NULL) { } virtual ~_inf__GetHostNameResponse() { } }; #endif #ifndef SOAP_TYPE__inf__GetConfigServerInfo #define SOAP_TYPE__inf__GetConfigServerInfo (495) /* inf:GetConfigServerInfo */ class SOAP_CMAC _inf__GetConfigServerInfo { public: struct soap *soap; /* transient */ public: virtual int soap_type() const { return 495; } /* = unique id SOAP_TYPE__inf__GetConfigServerInfo */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _inf__GetConfigServerInfo() : soap(NULL) { } virtual ~_inf__GetConfigServerInfo() { } }; #endif #ifndef SOAP_TYPE__inf__GetConfigServerInfoResponse #define SOAP_TYPE__inf__GetConfigServerInfoResponse (496) /* inf:GetConfigServerInfoResponse */ class SOAP_CMAC _inf__GetConfigServerInfoResponse { public: unsigned int StatusCode; /* RPC return element */ /* required element of type inf:PT_STATUS */ unsigned int Ip; /* required element of type inf:IPv4AddressType */ unsigned short Port; /* required element of type xsd:unsignedShort */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 496; } /* = unique id SOAP_TYPE__inf__GetConfigServerInfoResponse */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _inf__GetConfigServerInfoResponse() : soap(NULL) { } virtual ~_inf__GetConfigServerInfoResponse() { } }; #endif #ifndef SOAP_TYPE__inf__GetAdminAclEntryStatus #define SOAP_TYPE__inf__GetAdminAclEntryStatus (497) /* inf:GetAdminAclEntryStatus */ class SOAP_CMAC _inf__GetAdminAclEntryStatus { public: struct soap *soap; /* transient */ public: virtual int soap_type() const { return 497; } /* = unique id SOAP_TYPE__inf__GetAdminAclEntryStatus */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _inf__GetAdminAclEntryStatus() : soap(NULL) { } virtual ~_inf__GetAdminAclEntryStatus() { } }; #endif #ifndef SOAP_TYPE__inf__GetAdminAclEntryStatusResponse #define SOAP_TYPE__inf__GetAdminAclEntryStatusResponse (498) /* inf:GetAdminAclEntryStatusResponse */ class SOAP_CMAC _inf__GetAdminAclEntryStatusResponse { public: unsigned int StatusCode; /* RPC return element */ /* required element of type inf:PT_STATUS */ bool IsDefault; /* required element of type xsd:boolean */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 498; } /* = unique id SOAP_TYPE__inf__GetAdminAclEntryStatusResponse */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _inf__GetAdminAclEntryStatusResponse() : soap(NULL) { } virtual ~_inf__GetAdminAclEntryStatusResponse() { } }; #endif #ifndef SOAP_TYPE__inf__GetAdminNetAclEntryStatus #define SOAP_TYPE__inf__GetAdminNetAclEntryStatus (499) /* inf:GetAdminNetAclEntryStatus */ class SOAP_CMAC _inf__GetAdminNetAclEntryStatus { public: struct soap *soap; /* transient */ public: virtual int soap_type() const { return 499; } /* = unique id SOAP_TYPE__inf__GetAdminNetAclEntryStatus */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _inf__GetAdminNetAclEntryStatus() : soap(NULL) { } virtual ~_inf__GetAdminNetAclEntryStatus() { } }; #endif #ifndef SOAP_TYPE__inf__GetAdminNetAclEntryStatusResponse #define SOAP_TYPE__inf__GetAdminNetAclEntryStatusResponse (500) /* inf:GetAdminNetAclEntryStatusResponse */ class SOAP_CMAC _inf__GetAdminNetAclEntryStatusResponse { public: unsigned int StatusCode; /* RPC return element */ /* required element of type inf:PT_STATUS */ bool IsDefault; /* required element of type xsd:boolean */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 500; } /* = unique id SOAP_TYPE__inf__GetAdminNetAclEntryStatusResponse */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _inf__GetAdminNetAclEntryStatusResponse() : soap(NULL) { } virtual ~_inf__GetAdminNetAclEntryStatusResponse() { } }; #endif #ifndef SOAP_TYPE__inf__GetPasswordModel #define SOAP_TYPE__inf__GetPasswordModel (501) /* inf:GetPasswordModel */ class SOAP_CMAC _inf__GetPasswordModel { public: struct soap *soap; /* transient */ public: virtual int soap_type() const { return 501; } /* = unique id SOAP_TYPE__inf__GetPasswordModel */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _inf__GetPasswordModel() : soap(NULL) { } virtual ~_inf__GetPasswordModel() { } }; #endif #ifndef SOAP_TYPE__inf__GetPasswordModelResponse #define SOAP_TYPE__inf__GetPasswordModelResponse (502) /* inf:GetPasswordModelResponse */ class SOAP_CMAC _inf__GetPasswordModelResponse { public: unsigned int StatusCode; /* RPC return element */ /* required element of type inf:PT_STATUS */ enum inf__PasswordModelType PasswordModel; /* required element of type inf:PasswordModelType */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 502; } /* = unique id SOAP_TYPE__inf__GetPasswordModelResponse */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _inf__GetPasswordModelResponse() : soap(NULL) { } virtual ~_inf__GetPasswordModelResponse() { } }; #endif #ifndef SOAP_TYPE__inf__GetEnabledInterfaces #define SOAP_TYPE__inf__GetEnabledInterfaces (503) /* inf:GetEnabledInterfaces */ class SOAP_CMAC _inf__GetEnabledInterfaces { public: struct soap *soap; /* transient */ public: virtual int soap_type() const { return 503; } /* = unique id SOAP_TYPE__inf__GetEnabledInterfaces */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _inf__GetEnabledInterfaces() : soap(NULL) { } virtual ~_inf__GetEnabledInterfaces() { } }; #endif #ifndef SOAP_TYPE__inf__GetEnabledInterfacesResponse #define SOAP_TYPE__inf__GetEnabledInterfacesResponse (504) /* inf:GetEnabledInterfacesResponse */ class SOAP_CMAC _inf__GetEnabledInterfacesResponse { public: unsigned int StatusCode; /* RPC return element */ /* required element of type inf:PT_STATUS */ std::vectorEnabledInterfaces; /* optional element of type inf:EnabledInterfacesType */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 504; } /* = unique id SOAP_TYPE__inf__GetEnabledInterfacesResponse */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _inf__GetEnabledInterfacesResponse() : soap(NULL) { } virtual ~_inf__GetEnabledInterfacesResponse() { } }; #endif #ifndef SOAP_TYPE__inf__GetNetworkState #define SOAP_TYPE__inf__GetNetworkState (505) /* inf:GetNetworkState */ class SOAP_CMAC _inf__GetNetworkState { public: struct soap *soap; /* transient */ public: virtual int soap_type() const { return 505; } /* = unique id SOAP_TYPE__inf__GetNetworkState */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _inf__GetNetworkState() : soap(NULL) { } virtual ~_inf__GetNetworkState() { } }; #endif #ifndef SOAP_TYPE__inf__GetNetworkStateResponse #define SOAP_TYPE__inf__GetNetworkStateResponse (506) /* inf:GetNetworkStateResponse */ class SOAP_CMAC _inf__GetNetworkStateResponse { public: unsigned int StatusCode; /* RPC return element */ /* required element of type inf:PT_STATUS */ bool IsEnabled; /* required element of type xsd:boolean */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 506; } /* = unique id SOAP_TYPE__inf__GetNetworkStateResponse */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _inf__GetNetworkStateResponse() : soap(NULL) { } virtual ~_inf__GetNetworkStateResponse() { } }; #endif #ifndef SOAP_TYPE__inf__GetSecurityParameters #define SOAP_TYPE__inf__GetSecurityParameters (507) /* inf:GetSecurityParameters */ class SOAP_CMAC _inf__GetSecurityParameters { public: struct soap *soap; /* transient */ public: virtual int soap_type() const { return 507; } /* = unique id SOAP_TYPE__inf__GetSecurityParameters */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _inf__GetSecurityParameters() : soap(NULL) { } virtual ~_inf__GetSecurityParameters() { } }; #endif #ifndef SOAP_TYPE__inf__GetSecurityParametersResponse #define SOAP_TYPE__inf__GetSecurityParametersResponse (508) /* inf:GetSecurityParametersResponse */ class SOAP_CMAC _inf__GetSecurityParametersResponse { public: unsigned int StatusCode; /* RPC return element */ /* required element of type inf:PT_STATUS */ bool EnterpriseMode; /* required element of type xsd:boolean */ bool TlsEnabled; /* required element of type xsd:boolean */ bool HwCryptoEnabled; /* required element of type xsd:boolean */ enum inf__ProvisioningStateType ProvisioningState; /* required element of type inf:ProvisioningStateType */ bool NetworkInterfaceEnabled; /* required element of type xsd:boolean */ bool SOLEnabled; /* required element of type xsd:boolean */ bool IDEREnabled; /* required element of type xsd:boolean */ bool FWUpdateEnabled; /* required element of type xsd:boolean */ bool LinkIsUp; /* required element of type xsd:boolean */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 508; } /* = unique id SOAP_TYPE__inf__GetSecurityParametersResponse */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _inf__GetSecurityParametersResponse() : soap(NULL) { } virtual ~_inf__GetSecurityParametersResponse() { } }; #endif #ifndef SOAP_TYPE__inf__GetIderSessionLog #define SOAP_TYPE__inf__GetIderSessionLog (509) /* inf:GetIderSessionLog */ class SOAP_CMAC _inf__GetIderSessionLog { public: struct soap *soap; /* transient */ public: virtual int soap_type() const { return 509; } /* = unique id SOAP_TYPE__inf__GetIderSessionLog */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _inf__GetIderSessionLog() : soap(NULL) { } virtual ~_inf__GetIderSessionLog() { } }; #endif #ifndef SOAP_TYPE__inf__GetIderSessionLogResponse #define SOAP_TYPE__inf__GetIderSessionLogResponse (510) /* inf:GetIderSessionLogResponse */ class SOAP_CMAC _inf__GetIderSessionLogResponse { public: unsigned int StatusCode; /* RPC return element */ /* required element of type inf:PT_STATUS */ std::vectorLogData; /* optional element of type inf:IderSessionLogEntryType */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 510; } /* = unique id SOAP_TYPE__inf__GetIderSessionLogResponse */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _inf__GetIderSessionLogResponse() : soap(NULL) { } virtual ~_inf__GetIderSessionLogResponse() { } }; #endif #ifndef SOAP_TYPE__rci__GetRemoteControlCapabilities #define SOAP_TYPE__rci__GetRemoteControlCapabilities (511) /* rci:GetRemoteControlCapabilities */ class SOAP_CMAC _rci__GetRemoteControlCapabilities { public: struct soap *soap; /* transient */ public: virtual int soap_type() const { return 511; } /* = unique id SOAP_TYPE__rci__GetRemoteControlCapabilities */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _rci__GetRemoteControlCapabilities() : soap(NULL) { } virtual ~_rci__GetRemoteControlCapabilities() { } }; #endif #ifndef SOAP_TYPE__rci__GetRemoteControlCapabilitiesResponse #define SOAP_TYPE__rci__GetRemoteControlCapabilitiesResponse (512) /* rci:GetRemoteControlCapabilitiesResponse */ class SOAP_CMAC _rci__GetRemoteControlCapabilitiesResponse { public: unsigned int Status; /* RPC return element */ /* required element of type rci:PT_STATUS */ unsigned int IanaOemNumber; /* required element of type xsd:unsignedInt */ unsigned int OemDefinedCapabilities; /* required element of type rci:OemDefinedCapabilitiesType */ unsigned short SpecialCommandsSupported; /* required element of type rci:SpecialCommandsSupportedType */ unsigned char SystemCapabilitiesSupported; /* required element of type rci:SystemCapabilitiesSupportedType */ unsigned int SystemFirmwareCapabilities; /* required element of type rci:SystemFirmwareCapabilitiesType */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 512; } /* = unique id SOAP_TYPE__rci__GetRemoteControlCapabilitiesResponse */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _rci__GetRemoteControlCapabilitiesResponse() : soap(NULL) { } virtual ~_rci__GetRemoteControlCapabilitiesResponse() { } }; #endif #ifndef SOAP_TYPE__rci__RemoteControl #define SOAP_TYPE__rci__RemoteControl (513) /* rci:RemoteControl */ class SOAP_CMAC _rci__RemoteControl { public: enum rci__RemoteControlCommandType Command; /* required element of type rci:RemoteControlCommandType */ unsigned int IanaOemNumber; /* required element of type xsd:unsignedInt */ enum rci__SpecialCommandType *SpecialCommand; /* optional element of type rci:SpecialCommandType */ unsigned short *SpecialCommandParameter; /* optional element of type rci:SpecialCommandParameterType */ unsigned short *BootOptions; /* optional element of type rci:BootOptionsType */ unsigned short *OEMparameters; /* optional element of type rci:OemParametersType */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 513; } /* = unique id SOAP_TYPE__rci__RemoteControl */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _rci__RemoteControl() : SpecialCommand(NULL), SpecialCommandParameter(NULL), BootOptions(NULL), OEMparameters(NULL), soap(NULL) { } virtual ~_rci__RemoteControl() { } }; #endif #ifndef SOAP_TYPE__rci__RemoteControlResponse #define SOAP_TYPE__rci__RemoteControlResponse (514) /* rci:RemoteControlResponse */ class SOAP_CMAC _rci__RemoteControlResponse { public: unsigned int Status; /* RPC return element */ /* required element of type rci:PT_STATUS */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 514; } /* = unique id SOAP_TYPE__rci__RemoteControlResponse */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _rci__RemoteControlResponse() : soap(NULL) { } virtual ~_rci__RemoteControlResponse() { } }; #endif #ifndef SOAP_TYPE__rci__GetSystemPowerState #define SOAP_TYPE__rci__GetSystemPowerState (515) /* rci:GetSystemPowerState */ class SOAP_CMAC _rci__GetSystemPowerState { public: struct soap *soap; /* transient */ public: virtual int soap_type() const { return 515; } /* = unique id SOAP_TYPE__rci__GetSystemPowerState */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _rci__GetSystemPowerState() : soap(NULL) { } virtual ~_rci__GetSystemPowerState() { } }; #endif #ifndef SOAP_TYPE__rci__GetSystemPowerStateResponse #define SOAP_TYPE__rci__GetSystemPowerStateResponse (516) /* rci:GetSystemPowerStateResponse */ class SOAP_CMAC _rci__GetSystemPowerStateResponse { public: unsigned int Status; /* RPC return element */ /* required element of type rci:PT_STATUS */ unsigned int SystemPowerState; /* required element of type rci:SystemPowerStateType */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 516; } /* = unique id SOAP_TYPE__rci__GetSystemPowerStateResponse */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _rci__GetSystemPowerStateResponse() : soap(NULL) { } virtual ~_rci__GetSystemPowerStateResponse() { } }; #endif #ifndef SOAP_TYPE__wcxs__union_WEP64Type #define SOAP_TYPE__wcxs__union_WEP64Type (840) /* xsd:choice */ union _wcxs__union_WEP64Type { #define SOAP_UNION__wcxs__union_WEP64Type_PassPhrase (1) std::string *PassPhrase; #define SOAP_UNION__wcxs__union_WEP64Type_RawKey (2) xsd__base64Binary *RawKey; }; #endif #ifndef SOAP_TYPE_wcxs__WEP64Type #define SOAP_TYPE_wcxs__WEP64Type (517) /* wcxs:WEP64Type */ class SOAP_CMAC wcxs__WEP64Type { public: int __union_WEP64Type; /* union discriminant (of union defined below) */ union _wcxs__union_WEP64Type union_WEP64Type; /* required element of type xsd:choice */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 517; } /* = unique id SOAP_TYPE_wcxs__WEP64Type */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); wcxs__WEP64Type() : soap(NULL) { } virtual ~wcxs__WEP64Type() { } }; #endif #ifndef SOAP_TYPE__wcxs__union_WEP128Type #define SOAP_TYPE__wcxs__union_WEP128Type (843) /* xsd:choice */ union _wcxs__union_WEP128Type { #define SOAP_UNION__wcxs__union_WEP128Type_PassPhrase (1) std::string *PassPhrase; #define SOAP_UNION__wcxs__union_WEP128Type_RawKey (2) xsd__base64Binary *RawKey; }; #endif #ifndef SOAP_TYPE_wcxs__WEP128Type #define SOAP_TYPE_wcxs__WEP128Type (518) /* wcxs:WEP128Type */ class SOAP_CMAC wcxs__WEP128Type { public: int __union_WEP128Type; /* union discriminant (of union defined below) */ union _wcxs__union_WEP128Type union_WEP128Type; /* required element of type xsd:choice */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 518; } /* = unique id SOAP_TYPE_wcxs__WEP128Type */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); wcxs__WEP128Type() : soap(NULL) { } virtual ~wcxs__WEP128Type() { } }; #endif #ifndef SOAP_TYPE__wcxs__union_DataEncryptionWEPXType #define SOAP_TYPE__wcxs__union_DataEncryptionWEPXType (846) /* xsd:choice */ union _wcxs__union_DataEncryptionWEPXType { #define SOAP_UNION__wcxs__union_DataEncryptionWEPXType_WEP64 (1) wcxs__WEP64Type *WEP64; #define SOAP_UNION__wcxs__union_DataEncryptionWEPXType_WEP128 (2) wcxs__WEP128Type *WEP128; }; #endif #ifndef SOAP_TYPE_wcxs__DataEncryptionWEPXType #define SOAP_TYPE_wcxs__DataEncryptionWEPXType (519) /* wcxs:DataEncryptionWEPXType */ class SOAP_CMAC wcxs__DataEncryptionWEPXType { public: enum wcxs__KeyIndexType KeyIndex; /* required element of type wcxs:KeyIndexType */ int __union_DataEncryptionWEPXType; /* union discriminant (of union defined below) */ union _wcxs__union_DataEncryptionWEPXType union_DataEncryptionWEPXType; /* required element of type xsd:choice */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 519; } /* = unique id SOAP_TYPE_wcxs__DataEncryptionWEPXType */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); wcxs__DataEncryptionWEPXType() : soap(NULL) { } virtual ~wcxs__DataEncryptionWEPXType() { } }; #endif #ifndef SOAP_TYPE__wcxs__union_DataEncryptionWEPType #define SOAP_TYPE__wcxs__union_DataEncryptionWEPType (848) /* xsd:choice */ union _wcxs__union_DataEncryptionWEPType { #define SOAP_UNION__wcxs__union_DataEncryptionWEPType_PassPhrase (1) std::string *PassPhrase; #define SOAP_UNION__wcxs__union_DataEncryptionWEPType_RawKey (2) xsd__base64Binary *RawKey; #define SOAP_UNION__wcxs__union_DataEncryptionWEPType_XProfile (3) xcfg__XProfileType *XProfile; }; #endif #ifndef SOAP_TYPE_wcxs__DataEncryptionWEPType #define SOAP_TYPE_wcxs__DataEncryptionWEPType (520) /* wcxs:DataEncryptionWEPType */ class SOAP_CMAC wcxs__DataEncryptionWEPType { public: int __union_DataEncryptionWEPType; /* union discriminant (of union defined below) */ union _wcxs__union_DataEncryptionWEPType union_DataEncryptionWEPType; /* required element of type xsd:choice */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 520; } /* = unique id SOAP_TYPE_wcxs__DataEncryptionWEPType */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); wcxs__DataEncryptionWEPType() : soap(NULL) { } virtual ~wcxs__DataEncryptionWEPType() { } }; #endif #ifndef SOAP_TYPE__wcxs__union_DataEncryptionTKIPType #define SOAP_TYPE__wcxs__union_DataEncryptionTKIPType (850) /* xsd:choice */ union _wcxs__union_DataEncryptionTKIPType { #define SOAP_UNION__wcxs__union_DataEncryptionTKIPType_PassPhrase (1) std::string *PassPhrase; #define SOAP_UNION__wcxs__union_DataEncryptionTKIPType_RawKey (2) xsd__base64Binary *RawKey; #define SOAP_UNION__wcxs__union_DataEncryptionTKIPType_XProfile (3) xcfg__XProfileType *XProfile; }; #endif #ifndef SOAP_TYPE_wcxs__DataEncryptionTKIPType #define SOAP_TYPE_wcxs__DataEncryptionTKIPType (521) /* wcxs:DataEncryptionTKIPType */ class SOAP_CMAC wcxs__DataEncryptionTKIPType { public: int __union_DataEncryptionTKIPType; /* union discriminant (of union defined below) */ union _wcxs__union_DataEncryptionTKIPType union_DataEncryptionTKIPType; /* required element of type xsd:choice */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 521; } /* = unique id SOAP_TYPE_wcxs__DataEncryptionTKIPType */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); wcxs__DataEncryptionTKIPType() : soap(NULL) { } virtual ~wcxs__DataEncryptionTKIPType() { } }; #endif #ifndef SOAP_TYPE__wcxs__union_DataEncryptionCCMPType #define SOAP_TYPE__wcxs__union_DataEncryptionCCMPType (851) /* xsd:choice */ union _wcxs__union_DataEncryptionCCMPType { #define SOAP_UNION__wcxs__union_DataEncryptionCCMPType_PassPhrase (1) std::string *PassPhrase; #define SOAP_UNION__wcxs__union_DataEncryptionCCMPType_RawKey (2) xsd__base64Binary *RawKey; #define SOAP_UNION__wcxs__union_DataEncryptionCCMPType_XProfile (3) xcfg__XProfileType *XProfile; }; #endif #ifndef SOAP_TYPE_wcxs__DataEncryptionCCMPType #define SOAP_TYPE_wcxs__DataEncryptionCCMPType (522) /* wcxs:DataEncryptionCCMPType */ class SOAP_CMAC wcxs__DataEncryptionCCMPType { public: int __union_DataEncryptionCCMPType; /* union discriminant (of union defined below) */ union _wcxs__union_DataEncryptionCCMPType union_DataEncryptionCCMPType; /* required element of type xsd:choice */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 522; } /* = unique id SOAP_TYPE_wcxs__DataEncryptionCCMPType */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); wcxs__DataEncryptionCCMPType() : soap(NULL) { } virtual ~wcxs__DataEncryptionCCMPType() { } }; #endif #ifndef SOAP_TYPE__wcxs__union_ProfileSecuritySettingWPAType #define SOAP_TYPE__wcxs__union_ProfileSecuritySettingWPAType (854) /* xsd:choice */ union _wcxs__union_ProfileSecuritySettingWPAType { #define SOAP_UNION__wcxs__union_ProfileSecuritySettingWPAType_DataEncryptionTKIP (1) wcxs__DataEncryptionTKIPType *DataEncryptionTKIP; #define SOAP_UNION__wcxs__union_ProfileSecuritySettingWPAType_DataEncryptionCCMP (2) wcxs__DataEncryptionCCMPType *DataEncryptionCCMP; }; #endif #ifndef SOAP_TYPE_wcxs__ProfileSecuritySettingWPAType #define SOAP_TYPE_wcxs__ProfileSecuritySettingWPAType (523) /* wcxs:ProfileSecuritySettingWPAType */ class SOAP_CMAC wcxs__ProfileSecuritySettingWPAType { public: int __union_ProfileSecuritySettingWPAType; /* union discriminant (of union defined below) */ union _wcxs__union_ProfileSecuritySettingWPAType union_ProfileSecuritySettingWPAType; /* required element of type xsd:choice */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 523; } /* = unique id SOAP_TYPE_wcxs__ProfileSecuritySettingWPAType */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); wcxs__ProfileSecuritySettingWPAType() : soap(NULL) { } virtual ~wcxs__ProfileSecuritySettingWPAType() { } }; #endif #ifndef SOAP_TYPE__wcxs__union_ProfileSecuritySettingRSNType #define SOAP_TYPE__wcxs__union_ProfileSecuritySettingRSNType (855) /* xsd:choice */ union _wcxs__union_ProfileSecuritySettingRSNType { #define SOAP_UNION__wcxs__union_ProfileSecuritySettingRSNType_DataEncryptionTKIP (1) wcxs__DataEncryptionTKIPType *DataEncryptionTKIP; #define SOAP_UNION__wcxs__union_ProfileSecuritySettingRSNType_DataEncryptionCCMP (2) wcxs__DataEncryptionCCMPType *DataEncryptionCCMP; }; #endif #ifndef SOAP_TYPE_wcxs__ProfileSecuritySettingRSNType #define SOAP_TYPE_wcxs__ProfileSecuritySettingRSNType (524) /* wcxs:ProfileSecuritySettingRSNType */ class SOAP_CMAC wcxs__ProfileSecuritySettingRSNType { public: int __union_ProfileSecuritySettingRSNType; /* union discriminant (of union defined below) */ union _wcxs__union_ProfileSecuritySettingRSNType union_ProfileSecuritySettingRSNType; /* required element of type xsd:choice */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 524; } /* = unique id SOAP_TYPE_wcxs__ProfileSecuritySettingRSNType */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); wcxs__ProfileSecuritySettingRSNType() : soap(NULL) { } virtual ~wcxs__ProfileSecuritySettingRSNType() { } }; #endif #ifndef SOAP_TYPE__wcxs__union_ProfileSecuritySettingsType #define SOAP_TYPE__wcxs__union_ProfileSecuritySettingsType (858) /* xsd:choice */ union _wcxs__union_ProfileSecuritySettingsType { #define SOAP_UNION__wcxs__union_ProfileSecuritySettingsType_WPA (1) wcxs__ProfileSecuritySettingWPAType *WPA; #define SOAP_UNION__wcxs__union_ProfileSecuritySettingsType_RSN (2) wcxs__ProfileSecuritySettingRSNType *RSN; }; #endif #ifndef SOAP_TYPE_wcxs__ProfileSecuritySettingsType #define SOAP_TYPE_wcxs__ProfileSecuritySettingsType (525) /* wcxs:ProfileSecuritySettingsType */ class SOAP_CMAC wcxs__ProfileSecuritySettingsType { public: int __union_ProfileSecuritySettingsType; /* union discriminant (of union defined below) */ union _wcxs__union_ProfileSecuritySettingsType union_ProfileSecuritySettingsType; /* required element of type xsd:choice */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 525; } /* = unique id SOAP_TYPE_wcxs__ProfileSecuritySettingsType */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); wcxs__ProfileSecuritySettingsType() : soap(NULL) { } virtual ~wcxs__ProfileSecuritySettingsType() { } }; #endif #ifndef SOAP_TYPE_wcxs__ProfileType #define SOAP_TYPE_wcxs__ProfileType (526) /* wcxs:ProfileType */ class SOAP_CMAC wcxs__ProfileType { public: std::string ProfileName; /* required element of type wcxs:ProfileNameType */ unsigned char Priority; /* required element of type wcxs:ProfilePriorityType */ xsd__base64Binary *SSID; /* optional element of type xsd:base64Binary */ wcxs__ProfileSecuritySettingsType *Security; /* required element of type wcxs:ProfileSecuritySettingsType */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 526; } /* = unique id SOAP_TYPE_wcxs__ProfileType */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); wcxs__ProfileType() : SSID(NULL), Security(NULL), soap(NULL) { } virtual ~wcxs__ProfileType() { } }; #endif #ifndef SOAP_TYPE_wcxs__WirelessCapabilitiesType #define SOAP_TYPE_wcxs__WirelessCapabilitiesType (527) /* wcxs:WirelessCapabilitiesType */ class SOAP_CMAC wcxs__WirelessCapabilitiesType { public: std::vectorSupportedFeatures; /* sequence of 1 to 4 elements */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 527; } /* = unique id SOAP_TYPE_wcxs__WirelessCapabilitiesType */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); wcxs__WirelessCapabilitiesType() : soap(NULL) { } virtual ~wcxs__WirelessCapabilitiesType() { } }; #endif #ifndef SOAP_TYPE_wcxs__WirelessSettingsType #define SOAP_TYPE_wcxs__WirelessSettingsType (528) /* wcxs:WirelessSettingsType */ class SOAP_CMAC wcxs__WirelessSettingsType { public: bool RadioOn; /* required element of type xsd:boolean */ std::string *ActiveProfile; /* optional element of type xsd:string */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 528; } /* = unique id SOAP_TYPE_wcxs__WirelessSettingsType */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); wcxs__WirelessSettingsType() : ActiveProfile(NULL), soap(NULL) { } virtual ~wcxs__WirelessSettingsType() { } }; #endif #ifndef SOAP_TYPE__wcxs__AddWirelessProfileRequest #define SOAP_TYPE__wcxs__AddWirelessProfileRequest (529) /* wcxs:AddWirelessProfileRequest */ class SOAP_CMAC _wcxs__AddWirelessProfileRequest { public: wcxs__ProfileType *Profile; /* required element of type wcxs:ProfileType */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 529; } /* = unique id SOAP_TYPE__wcxs__AddWirelessProfileRequest */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _wcxs__AddWirelessProfileRequest() : Profile(NULL), soap(NULL) { } virtual ~_wcxs__AddWirelessProfileRequest() { } }; #endif #ifndef SOAP_TYPE__wcxs__AddWirelessProfileResponse #define SOAP_TYPE__wcxs__AddWirelessProfileResponse (530) /* wcxs:AddWirelessProfileResponse */ class SOAP_CMAC _wcxs__AddWirelessProfileResponse { public: unsigned int Status; /* RPC return element */ /* required element of type cmn:PT_STATUS */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 530; } /* = unique id SOAP_TYPE__wcxs__AddWirelessProfileResponse */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _wcxs__AddWirelessProfileResponse() : soap(NULL) { } virtual ~_wcxs__AddWirelessProfileResponse() { } }; #endif #ifndef SOAP_TYPE__wcxs__GetWirelessProfileRequest #define SOAP_TYPE__wcxs__GetWirelessProfileRequest (531) /* wcxs:GetWirelessProfileRequest */ class SOAP_CMAC _wcxs__GetWirelessProfileRequest { public: std::string ProfileName; /* required element of type wcxs:ProfileNameType */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 531; } /* = unique id SOAP_TYPE__wcxs__GetWirelessProfileRequest */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _wcxs__GetWirelessProfileRequest() : soap(NULL) { } virtual ~_wcxs__GetWirelessProfileRequest() { } }; #endif #ifndef SOAP_TYPE__wcxs__GetWirelessProfileResponse #define SOAP_TYPE__wcxs__GetWirelessProfileResponse (532) /* wcxs:GetWirelessProfileResponse */ class SOAP_CMAC _wcxs__GetWirelessProfileResponse { public: unsigned int Status; /* RPC return element */ /* required element of type cmn:PT_STATUS */ wcxs__ProfileType *Profile; /* required element of type wcxs:ProfileType */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 532; } /* = unique id SOAP_TYPE__wcxs__GetWirelessProfileResponse */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _wcxs__GetWirelessProfileResponse() : Profile(NULL), soap(NULL) { } virtual ~_wcxs__GetWirelessProfileResponse() { } }; #endif #ifndef SOAP_TYPE__wcxs__RemoveWirelessProfileRequest #define SOAP_TYPE__wcxs__RemoveWirelessProfileRequest (533) /* wcxs:RemoveWirelessProfileRequest */ class SOAP_CMAC _wcxs__RemoveWirelessProfileRequest { public: std::string ProfileName; /* required element of type wcxs:ProfileNameType */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 533; } /* = unique id SOAP_TYPE__wcxs__RemoveWirelessProfileRequest */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _wcxs__RemoveWirelessProfileRequest() : soap(NULL) { } virtual ~_wcxs__RemoveWirelessProfileRequest() { } }; #endif #ifndef SOAP_TYPE__wcxs__RemoveWirelessProfileResponse #define SOAP_TYPE__wcxs__RemoveWirelessProfileResponse (534) /* wcxs:RemoveWirelessProfileResponse */ class SOAP_CMAC _wcxs__RemoveWirelessProfileResponse { public: unsigned int Status; /* RPC return element */ /* required element of type cmn:PT_STATUS */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 534; } /* = unique id SOAP_TYPE__wcxs__RemoveWirelessProfileResponse */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _wcxs__RemoveWirelessProfileResponse() : soap(NULL) { } virtual ~_wcxs__RemoveWirelessProfileResponse() { } }; #endif #ifndef SOAP_TYPE__wcxs__UpdateWirelessProfileRequest #define SOAP_TYPE__wcxs__UpdateWirelessProfileRequest (535) /* wcxs:UpdateWirelessProfileRequest */ class SOAP_CMAC _wcxs__UpdateWirelessProfileRequest { public: wcxs__ProfileType *Profile; /* required element of type wcxs:ProfileType */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 535; } /* = unique id SOAP_TYPE__wcxs__UpdateWirelessProfileRequest */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _wcxs__UpdateWirelessProfileRequest() : Profile(NULL), soap(NULL) { } virtual ~_wcxs__UpdateWirelessProfileRequest() { } }; #endif #ifndef SOAP_TYPE__wcxs__UpdateWirelessProfileResponse #define SOAP_TYPE__wcxs__UpdateWirelessProfileResponse (536) /* wcxs:UpdateWirelessProfileResponse */ class SOAP_CMAC _wcxs__UpdateWirelessProfileResponse { public: unsigned int Status; /* RPC return element */ /* required element of type cmn:PT_STATUS */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 536; } /* = unique id SOAP_TYPE__wcxs__UpdateWirelessProfileResponse */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _wcxs__UpdateWirelessProfileResponse() : soap(NULL) { } virtual ~_wcxs__UpdateWirelessProfileResponse() { } }; #endif #ifndef SOAP_TYPE__wcxs__EnumerateWirelessProfilesRequest #define SOAP_TYPE__wcxs__EnumerateWirelessProfilesRequest (537) /* wcxs:EnumerateWirelessProfilesRequest */ class SOAP_CMAC _wcxs__EnumerateWirelessProfilesRequest { public: struct soap *soap; /* transient */ public: virtual int soap_type() const { return 537; } /* = unique id SOAP_TYPE__wcxs__EnumerateWirelessProfilesRequest */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _wcxs__EnumerateWirelessProfilesRequest() : soap(NULL) { } virtual ~_wcxs__EnumerateWirelessProfilesRequest() { } }; #endif #ifndef SOAP_TYPE__wcxs__EnumerateWirelessProfilesResponse #define SOAP_TYPE__wcxs__EnumerateWirelessProfilesResponse (538) /* wcxs:EnumerateWirelessProfilesResponse */ class SOAP_CMAC _wcxs__EnumerateWirelessProfilesResponse { public: unsigned int Status; /* RPC return element */ /* required element of type cmn:PT_STATUS */ std::vectorProfilesNames; /* sequence of 0 to 64 elements */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 538; } /* = unique id SOAP_TYPE__wcxs__EnumerateWirelessProfilesResponse */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _wcxs__EnumerateWirelessProfilesResponse() : soap(NULL) { } virtual ~_wcxs__EnumerateWirelessProfilesResponse() { } }; #endif #ifndef SOAP_TYPE__wcxs__GetWirelessCapabilitiesRequest #define SOAP_TYPE__wcxs__GetWirelessCapabilitiesRequest (539) /* wcxs:GetWirelessCapabilitiesRequest */ class SOAP_CMAC _wcxs__GetWirelessCapabilitiesRequest { public: struct soap *soap; /* transient */ public: virtual int soap_type() const { return 539; } /* = unique id SOAP_TYPE__wcxs__GetWirelessCapabilitiesRequest */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _wcxs__GetWirelessCapabilitiesRequest() : soap(NULL) { } virtual ~_wcxs__GetWirelessCapabilitiesRequest() { } }; #endif #ifndef SOAP_TYPE__wcxs__GetWirelessCapabilitiesResponse #define SOAP_TYPE__wcxs__GetWirelessCapabilitiesResponse (540) /* wcxs:GetWirelessCapabilitiesResponse */ class SOAP_CMAC _wcxs__GetWirelessCapabilitiesResponse { public: unsigned int Status; /* RPC return element */ /* required element of type cmn:PT_STATUS */ wcxs__WirelessCapabilitiesType *WirelessCapabilities; /* required element of type wcxs:WirelessCapabilitiesType */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 540; } /* = unique id SOAP_TYPE__wcxs__GetWirelessCapabilitiesResponse */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _wcxs__GetWirelessCapabilitiesResponse() : WirelessCapabilities(NULL), soap(NULL) { } virtual ~_wcxs__GetWirelessCapabilitiesResponse() { } }; #endif #ifndef SOAP_TYPE__wcxs__GetWirelessSettingsRequest #define SOAP_TYPE__wcxs__GetWirelessSettingsRequest (541) /* wcxs:GetWirelessSettingsRequest */ class SOAP_CMAC _wcxs__GetWirelessSettingsRequest { public: struct soap *soap; /* transient */ public: virtual int soap_type() const { return 541; } /* = unique id SOAP_TYPE__wcxs__GetWirelessSettingsRequest */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _wcxs__GetWirelessSettingsRequest() : soap(NULL) { } virtual ~_wcxs__GetWirelessSettingsRequest() { } }; #endif #ifndef SOAP_TYPE__wcxs__GetWirelessSettingsResponse #define SOAP_TYPE__wcxs__GetWirelessSettingsResponse (542) /* wcxs:GetWirelessSettingsResponse */ class SOAP_CMAC _wcxs__GetWirelessSettingsResponse { public: unsigned int Status; /* RPC return element */ /* required element of type cmn:PT_STATUS */ wcxs__WirelessSettingsType *WirelessSettings; /* required element of type wcxs:WirelessSettingsType */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 542; } /* = unique id SOAP_TYPE__wcxs__GetWirelessSettingsResponse */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); _wcxs__GetWirelessSettingsResponse() : WirelessSettings(NULL), soap(NULL) { } virtual ~_wcxs__GetWirelessSettingsResponse() { } }; #endif #ifndef SOAP_TYPE_cmn__URLType #define SOAP_TYPE_cmn__URLType (15) /* Primitive cmn:URLType schema type: */ class SOAP_CMAC cmn__URLType { public: std::string __item; char *__anyAttribute; /* optional attribute */ struct soap *soap; /* transient */ public: virtual int soap_type() const { return 15; } /* = unique id SOAP_TYPE_cmn__URLType */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); cmn__URLType() : __anyAttribute(NULL), soap(NULL) { } virtual ~cmn__URLType() { } }; #endif #ifndef SOAP_TYPE_cb__CircuitBreakerDefaultFilterType #define SOAP_TYPE_cb__CircuitBreakerDefaultFilterType (365) /* cb:CircuitBreakerDefaultFilterType */ class SOAP_CMAC cb__CircuitBreakerDefaultFilterType : public cb__CircuitBreakerAntiSpoofingFilterType { public: bool ActionDrop; /* required element of type xsd:boolean */ public: virtual int soap_type() const { return 365; } /* = unique id SOAP_TYPE_cb__CircuitBreakerDefaultFilterType */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); cb__CircuitBreakerDefaultFilterType() { } virtual ~cb__CircuitBreakerDefaultFilterType() { } }; #endif #ifndef SOAP_TYPE_cb__CircuitBreakerPacketTCPType #define SOAP_TYPE_cb__CircuitBreakerPacketTCPType (378) /* cb:CircuitBreakerPacketTCPType */ class SOAP_CMAC cb__CircuitBreakerPacketTCPType : public cb__CircuitBreakerPacketUDPType { public: cb__CircuitBreakerIPLayeredTCPFlagsType *TCPFlags; /* optional element of type cb:CircuitBreakerIPLayeredTCPFlagsType */ public: virtual int soap_type() const { return 378; } /* = unique id SOAP_TYPE_cb__CircuitBreakerPacketTCPType */ virtual void soap_default(struct soap*); virtual void soap_serialize(struct soap*) const; virtual int soap_put(struct soap*, const char*, const char*) const; virtual int soap_out(struct soap*, const char*, int, const char*) const; virtual void *soap_get(struct soap*, const char*, const char*); virtual void *soap_in(struct soap*, const char*, const char*); cb__CircuitBreakerPacketTCPType() : TCPFlags(NULL) { } virtual ~cb__CircuitBreakerPacketTCPType() { } }; #endif #ifndef SOAP_TYPE___apl__AgentWatchdogShutdown #define SOAP_TYPE___apl__AgentWatchdogShutdown (869) /* Operation wrapper: */ struct __apl__AgentWatchdogShutdown { public: _apl__AgentWatchdogShutdown *apl__AgentWatchdogShutdown; /* optional element of type apl:AgentWatchdogShutdown */ }; #endif #ifndef SOAP_TYPE___apl__AgentWatchdogHeartbeat #define SOAP_TYPE___apl__AgentWatchdogHeartbeat (873) /* Operation wrapper: */ struct __apl__AgentWatchdogHeartbeat { public: _apl__AgentWatchdogHeartbeat *apl__AgentWatchdogHeartbeat; /* optional element of type apl:AgentWatchdogHeartbeat */ }; #endif #ifndef SOAP_TYPE___apl__AgentWatchdogRegister #define SOAP_TYPE___apl__AgentWatchdogRegister (877) /* Operation wrapper: */ struct __apl__AgentWatchdogRegister { public: _apl__AgentWatchdogRegister *apl__AgentWatchdogRegister; /* optional element of type apl:AgentWatchdogRegister */ }; #endif #ifndef SOAP_TYPE___apr__ConsoleWatchdogCreate #define SOAP_TYPE___apr__ConsoleWatchdogCreate (881) /* Operation wrapper: */ struct __apr__ConsoleWatchdogCreate { public: _apr__ConsoleWatchdogCreate *apr__ConsoleWatchdogCreate; /* optional element of type apr:ConsoleWatchdogCreate */ }; #endif #ifndef SOAP_TYPE___apr__ConsoleWatchdogDelete #define SOAP_TYPE___apr__ConsoleWatchdogDelete (885) /* Operation wrapper: */ struct __apr__ConsoleWatchdogDelete { public: _apr__ConsoleWatchdogDelete *apr__ConsoleWatchdogDelete; /* optional element of type apr:ConsoleWatchdogDelete */ }; #endif #ifndef SOAP_TYPE___apr__ConsoleWatchdogEnumerate #define SOAP_TYPE___apr__ConsoleWatchdogEnumerate (889) /* Operation wrapper: */ struct __apr__ConsoleWatchdogEnumerate { public: _apr__ConsoleWatchdogEnumerate *apr__ConsoleWatchdogEnumerate; /* optional element of type apr:ConsoleWatchdogEnumerate */ }; #endif #ifndef SOAP_TYPE___apr__ConsoleWatchdogSetActions #define SOAP_TYPE___apr__ConsoleWatchdogSetActions (893) /* Operation wrapper: */ struct __apr__ConsoleWatchdogSetActions { public: _apr__ConsoleWatchdogSetActions *apr__ConsoleWatchdogSetActions; /* optional element of type apr:ConsoleWatchdogSetActions */ }; #endif #ifndef SOAP_TYPE___apr__ConsoleWatchdogGetActions #define SOAP_TYPE___apr__ConsoleWatchdogGetActions (897) /* Operation wrapper: */ struct __apr__ConsoleWatchdogGetActions { public: _apr__ConsoleWatchdogGetActions *apr__ConsoleWatchdogGetActions; /* optional element of type apr:ConsoleWatchdogGetActions */ }; #endif #ifndef SOAP_TYPE___apr__ConsoleWatchdogSetCbPolicy #define SOAP_TYPE___apr__ConsoleWatchdogSetCbPolicy (901) /* Operation wrapper: */ struct __apr__ConsoleWatchdogSetCbPolicy { public: _apr__ConsoleWatchdogSetCbPolicy *apr__ConsoleWatchdogSetCbPolicy; /* optional element of type apr:ConsoleWatchdogSetCbPolicy */ }; #endif #ifndef SOAP_TYPE___apr__ConsoleWatchdogGetCbPolicy #define SOAP_TYPE___apr__ConsoleWatchdogGetCbPolicy (905) /* Operation wrapper: */ struct __apr__ConsoleWatchdogGetCbPolicy { public: _apr__ConsoleWatchdogGetCbPolicy *apr__ConsoleWatchdogGetCbPolicy; /* optional element of type apr:ConsoleWatchdogGetCbPolicy */ }; #endif #ifndef SOAP_TYPE___apr__ConsoleWatchdogQueryCapabilities #define SOAP_TYPE___apr__ConsoleWatchdogQueryCapabilities (909) /* Operation wrapper: */ struct __apr__ConsoleWatchdogQueryCapabilities { public: _apr__ConsoleWatchdogQueryCapabilities *apr__ConsoleWatchdogQueryCapabilities; /* optional element of type apr:ConsoleWatchdogQueryCapabilities */ }; #endif #ifndef SOAP_TYPE___cb__CbPolicyCreate #define SOAP_TYPE___cb__CbPolicyCreate (913) /* Operation wrapper: */ struct __cb__CbPolicyCreate { public: _cb__CbPolicyCreate *cb__CbPolicyCreate; /* optional element of type cb:CbPolicyCreate */ }; #endif #ifndef SOAP_TYPE___cb__CbPolicyGet #define SOAP_TYPE___cb__CbPolicyGet (917) /* Operation wrapper: */ struct __cb__CbPolicyGet { public: _cb__CbPolicyGet *cb__CbPolicyGet; /* optional element of type cb:CbPolicyGet */ }; #endif #ifndef SOAP_TYPE___cb__CbPolicyDelete #define SOAP_TYPE___cb__CbPolicyDelete (921) /* Operation wrapper: */ struct __cb__CbPolicyDelete { public: _cb__CbPolicyDelete *cb__CbPolicyDelete; /* optional element of type cb:CbPolicyDelete */ }; #endif #ifndef SOAP_TYPE___cb__CbPolicyEnumerate #define SOAP_TYPE___cb__CbPolicyEnumerate (925) /* Operation wrapper: */ struct __cb__CbPolicyEnumerate { public: _cb__CbPolicyEnumerate *cb__CbPolicyEnumerate; /* optional element of type cb:CbPolicyEnumerate */ }; #endif #ifndef SOAP_TYPE___cb__CbPolicyEnable #define SOAP_TYPE___cb__CbPolicyEnable (929) /* Operation wrapper: */ struct __cb__CbPolicyEnable { public: _cb__CbPolicyEnable *cb__CbPolicyEnable; /* optional element of type cb:CbPolicyEnable */ }; #endif #ifndef SOAP_TYPE___cb__CbPolicyDisable #define SOAP_TYPE___cb__CbPolicyDisable (933) /* Operation wrapper: */ struct __cb__CbPolicyDisable { public: _cb__CbPolicyDisable *cb__CbPolicyDisable; /* optional element of type cb:CbPolicyDisable */ }; #endif #ifndef SOAP_TYPE___cb__CbPolicyGetEnabled #define SOAP_TYPE___cb__CbPolicyGetEnabled (937) /* Operation wrapper: */ struct __cb__CbPolicyGetEnabled { public: _cb__CbPolicyGetEnabled *cb__CbPolicyGetEnabled; /* optional element of type cb:CbPolicyGetEnabled */ }; #endif #ifndef SOAP_TYPE___cb__CbPolicyGetActiveStatistics #define SOAP_TYPE___cb__CbPolicyGetActiveStatistics (941) /* Operation wrapper: */ struct __cb__CbPolicyGetActiveStatistics { public: _cb__CbPolicyGetActiveStatistics *cb__CbPolicyGetActiveStatistics; /* optional element of type cb:CbPolicyGetActiveStatistics */ }; #endif #ifndef SOAP_TYPE___cb__CbFilterCreate #define SOAP_TYPE___cb__CbFilterCreate (945) /* Operation wrapper: */ struct __cb__CbFilterCreate { public: _cb__CbFilterCreate *cb__CbFilterCreate; /* optional element of type cb:CbFilterCreate */ }; #endif #ifndef SOAP_TYPE___cb__CbFilterGet #define SOAP_TYPE___cb__CbFilterGet (949) /* Operation wrapper: */ struct __cb__CbFilterGet { public: _cb__CbFilterGet *cb__CbFilterGet; /* optional element of type cb:CbFilterGet */ }; #endif #ifndef SOAP_TYPE___cb__CbFilterDelete #define SOAP_TYPE___cb__CbFilterDelete (953) /* Operation wrapper: */ struct __cb__CbFilterDelete { public: _cb__CbFilterDelete *cb__CbFilterDelete; /* optional element of type cb:CbFilterDelete */ }; #endif #ifndef SOAP_TYPE___cb__CbFilterEnumerate #define SOAP_TYPE___cb__CbFilterEnumerate (957) /* Operation wrapper: */ struct __cb__CbFilterEnumerate { public: _cb__CbFilterEnumerate *cb__CbFilterEnumerate; /* optional element of type cb:CbFilterEnumerate */ }; #endif #ifndef SOAP_TYPE___cb__CbQueryCapabilities #define SOAP_TYPE___cb__CbQueryCapabilities (961) /* Operation wrapper: */ struct __cb__CbQueryCapabilities { public: _cb__CbQueryCapabilities *cb__CbQueryCapabilities; /* optional element of type cb:CbQueryCapabilities */ }; #endif #ifndef SOAP_TYPE___cb__SetHcbOptions #define SOAP_TYPE___cb__SetHcbOptions (965) /* Operation wrapper: */ struct __cb__SetHcbOptions { public: _cb__SetHcbOptions *cb__SetHcbOptions; /* optional element of type cb:SetHcbOptions */ }; #endif #ifndef SOAP_TYPE___cb__GetHcbOptions #define SOAP_TYPE___cb__GetHcbOptions (969) /* Operation wrapper: */ struct __cb__GetHcbOptions { public: _cb__GetHcbOptions *cb__GetHcbOptions; /* optional element of type cb:GetHcbOptions */ }; #endif #ifndef SOAP_TYPE___cb__ClearHcbState #define SOAP_TYPE___cb__ClearHcbState (973) /* Operation wrapper: */ struct __cb__ClearHcbState { public: _cb__ClearHcbState *cb__ClearHcbState; /* optional element of type cb:ClearHcbState */ }; #endif #ifndef SOAP_TYPE___cb__GetHcbState #define SOAP_TYPE___cb__GetHcbState (977) /* Operation wrapper: */ struct __cb__GetHcbState { public: _cb__GetHcbState *cb__GetHcbState; /* optional element of type cb:GetHcbState */ }; #endif #ifndef SOAP_TYPE___emi__EnumerateEventFilters #define SOAP_TYPE___emi__EnumerateEventFilters (981) /* Operation wrapper: */ struct __emi__EnumerateEventFilters { public: _emi__EnumerateEventFilters *emi__EnumerateEventFilters; /* optional element of type emi:EnumerateEventFilters */ }; #endif #ifndef SOAP_TYPE___emi__GetAlertSubscription #define SOAP_TYPE___emi__GetAlertSubscription (985) /* Operation wrapper: */ struct __emi__GetAlertSubscription { public: _emi__GetAlertSubscription *emi__GetAlertSubscription; /* optional element of type emi:GetAlertSubscription */ }; #endif #ifndef SOAP_TYPE___emi__SetAlertCommunityString #define SOAP_TYPE___emi__SetAlertCommunityString (989) /* Operation wrapper: */ struct __emi__SetAlertCommunityString { public: _emi__SetAlertCommunityString *emi__SetAlertCommunityString; /* optional element of type emi:SetAlertCommunityString */ }; #endif #ifndef SOAP_TYPE___emi__GetAlertCommunityString #define SOAP_TYPE___emi__GetAlertCommunityString (993) /* Operation wrapper: */ struct __emi__GetAlertCommunityString { public: _emi__GetAlertCommunityString *emi__GetAlertCommunityString; /* optional element of type emi:GetAlertCommunityString */ }; #endif #ifndef SOAP_TYPE___emi__AddEventFilter #define SOAP_TYPE___emi__AddEventFilter (997) /* Operation wrapper: */ struct __emi__AddEventFilter { public: _emi__AddEventFilter *emi__AddEventFilter; /* optional element of type emi:AddEventFilter */ }; #endif #ifndef SOAP_TYPE___emi__SubscribeForAlert #define SOAP_TYPE___emi__SubscribeForAlert (1001) /* Operation wrapper: */ struct __emi__SubscribeForAlert { public: _emi__SubscribeForAlert *emi__SubscribeForAlert; /* optional element of type emi:SubscribeForAlert */ }; #endif #ifndef SOAP_TYPE___emi__EnumerateAlertSubscriptions #define SOAP_TYPE___emi__EnumerateAlertSubscriptions (1005) /* Operation wrapper: */ struct __emi__EnumerateAlertSubscriptions { public: _emi__EnumerateAlertSubscriptions *emi__EnumerateAlertSubscriptions; /* optional element of type emi:EnumerateAlertSubscriptions */ }; #endif #ifndef SOAP_TYPE___emi__EnumerateAlertPolicies #define SOAP_TYPE___emi__EnumerateAlertPolicies (1009) /* Operation wrapper: */ struct __emi__EnumerateAlertPolicies { public: _emi__EnumerateAlertPolicies *emi__EnumerateAlertPolicies; /* optional element of type emi:EnumerateAlertPolicies */ }; #endif #ifndef SOAP_TYPE___emi__CancelAlertSubscription #define SOAP_TYPE___emi__CancelAlertSubscription (1013) /* Operation wrapper: */ struct __emi__CancelAlertSubscription { public: _emi__CancelAlertSubscription *emi__CancelAlertSubscription; /* optional element of type emi:CancelAlertSubscription */ }; #endif #ifndef SOAP_TYPE___emi__GetEventFilter #define SOAP_TYPE___emi__GetEventFilter (1017) /* Operation wrapper: */ struct __emi__GetEventFilter { public: _emi__GetEventFilter *emi__GetEventFilter; /* optional element of type emi:GetEventFilter */ }; #endif #ifndef SOAP_TYPE___emi__UpdateEventFilter #define SOAP_TYPE___emi__UpdateEventFilter (1021) /* Operation wrapper: */ struct __emi__UpdateEventFilter { public: _emi__UpdateEventFilter *emi__UpdateEventFilter; /* optional element of type emi:UpdateEventFilter */ }; #endif #ifndef SOAP_TYPE___emi__RemoveEventFilter #define SOAP_TYPE___emi__RemoveEventFilter (1025) /* Operation wrapper: */ struct __emi__RemoveEventFilter { public: _emi__RemoveEventFilter *emi__RemoveEventFilter; /* optional element of type emi:RemoveEventFilter */ }; #endif #ifndef SOAP_TYPE___emi__GetEventLogStatus #define SOAP_TYPE___emi__GetEventLogStatus (1029) /* Operation wrapper: */ struct __emi__GetEventLogStatus { public: _emi__GetEventLogStatus *emi__GetEventLogStatus; /* optional element of type emi:GetEventLogStatus */ }; #endif #ifndef SOAP_TYPE___emi__ReadEventLogRecords #define SOAP_TYPE___emi__ReadEventLogRecords (1033) /* Operation wrapper: */ struct __emi__ReadEventLogRecords { public: _emi__ReadEventLogRecords *emi__ReadEventLogRecords; /* optional element of type emi:ReadEventLogRecords */ }; #endif #ifndef SOAP_TYPE___emi__ClearEventLog #define SOAP_TYPE___emi__ClearEventLog (1037) /* Operation wrapper: */ struct __emi__ClearEventLog { public: _emi__ClearEventLog *emi__ClearEventLog; /* optional element of type emi:ClearEventLog */ }; #endif #ifndef SOAP_TYPE___emi__FreezeEventLog #define SOAP_TYPE___emi__FreezeEventLog (1041) /* Operation wrapper: */ struct __emi__FreezeEventLog { public: _emi__FreezeEventLog *emi__FreezeEventLog; /* optional element of type emi:FreezeEventLog */ }; #endif #ifndef SOAP_TYPE___emi__SetEventLogTimestampClock #define SOAP_TYPE___emi__SetEventLogTimestampClock (1045) /* Operation wrapper: */ struct __emi__SetEventLogTimestampClock { public: _emi__SetEventLogTimestampClock *emi__SetEventLogTimestampClock; /* optional element of type emi:SetEventLogTimestampClock */ }; #endif #ifndef SOAP_TYPE___emi__GetEventLogTimestampClock #define SOAP_TYPE___emi__GetEventLogTimestampClock (1049) /* Operation wrapper: */ struct __emi__GetEventLogTimestampClock { public: _emi__GetEventLogTimestampClock *emi__GetEventLogTimestampClock; /* optional element of type emi:GetEventLogTimestampClock */ }; #endif #ifndef SOAP_TYPE___emi__EnumerateSensors #define SOAP_TYPE___emi__EnumerateSensors (1053) /* Operation wrapper: */ struct __emi__EnumerateSensors { public: _emi__EnumerateSensors *emi__EnumerateSensors; /* optional element of type emi:EnumerateSensors */ }; #endif #ifndef SOAP_TYPE___emi__GetSensorAttributes #define SOAP_TYPE___emi__GetSensorAttributes (1057) /* Operation wrapper: */ struct __emi__GetSensorAttributes { public: _emi__GetSensorAttributes *emi__GetSensorAttributes; /* optional element of type emi:GetSensorAttributes */ }; #endif #ifndef SOAP_TYPE___emi__SubscribeForGeneralAlert #define SOAP_TYPE___emi__SubscribeForGeneralAlert (1061) /* Operation wrapper: */ struct __emi__SubscribeForGeneralAlert { public: _emi__SubscribeForGeneralAlert *emi__SubscribeForGeneralAlert; /* optional element of type emi:SubscribeForGeneralAlert */ }; #endif #ifndef SOAP_TYPE___emi__EnumerateGeneralAlertSubscriptions #define SOAP_TYPE___emi__EnumerateGeneralAlertSubscriptions (1065) /* Operation wrapper: */ struct __emi__EnumerateGeneralAlertSubscriptions { public: _emi__EnumerateGeneralAlertSubscriptions *emi__EnumerateGeneralAlertSubscriptions; /* optional element of type emi:EnumerateGeneralAlertSubscriptions */ }; #endif #ifndef SOAP_TYPE___emi__GetGeneralAlertSubscription #define SOAP_TYPE___emi__GetGeneralAlertSubscription (1069) /* Operation wrapper: */ struct __emi__GetGeneralAlertSubscription { public: _emi__GetGeneralAlertSubscription *emi__GetGeneralAlertSubscription; /* optional element of type emi:GetGeneralAlertSubscription */ }; #endif #ifndef SOAP_TYPE___hwa__EnumerateAssetTypes #define SOAP_TYPE___hwa__EnumerateAssetTypes (1073) /* Operation wrapper: */ struct __hwa__EnumerateAssetTypes { public: _hwa__EnumerateAssetTypes *hwa__EnumerateAssetTypes; /* optional element of type hwa:EnumerateAssetTypes */ }; #endif #ifndef SOAP_TYPE___hwa__GetAssetData #define SOAP_TYPE___hwa__GetAssetData (1077) /* Operation wrapper: */ struct __hwa__GetAssetData { public: _hwa__GetAssetData *hwa__GetAssetData; /* optional element of type hwa:GetAssetData */ }; #endif #ifndef SOAP_TYPE___idr__SetRedirectionListenerState #define SOAP_TYPE___idr__SetRedirectionListenerState (1081) /* Operation wrapper: */ struct __idr__SetRedirectionListenerState { public: _idr__SetRedirectionListenerState *idr__SetRedirectionListenerState; /* optional element of type idr:SetRedirectionListenerState */ }; #endif #ifndef SOAP_TYPE___idr__GetRedirectionListenerState #define SOAP_TYPE___idr__GetRedirectionListenerState (1085) /* Operation wrapper: */ struct __idr__GetRedirectionListenerState { public: _idr__GetRedirectionListenerState *idr__GetRedirectionListenerState; /* optional element of type idr:GetRedirectionListenerState */ }; #endif #ifndef SOAP_TYPE___idr__GetIderSessionLog #define SOAP_TYPE___idr__GetIderSessionLog (1089) /* Operation wrapper: */ struct __idr__GetIderSessionLog { public: _idr__GetIderSessionLog *idr__GetIderSessionLog; /* optional element of type idr:GetIderSessionLog */ }; #endif #ifndef SOAP_TYPE___inf__GetCoreVersion #define SOAP_TYPE___inf__GetCoreVersion (1093) /* Operation wrapper: */ struct __inf__GetCoreVersion { public: _inf__GetCoreVersion *inf__GetCoreVersion; /* optional element of type inf:GetCoreVersion */ }; #endif #ifndef SOAP_TYPE___inf__GetCodeVersions #define SOAP_TYPE___inf__GetCodeVersions (1097) /* Operation wrapper: */ struct __inf__GetCodeVersions { public: _inf__GetCodeVersions *inf__GetCodeVersions; /* optional element of type inf:GetCodeVersions */ }; #endif #ifndef SOAP_TYPE___inf__GetProvisioningMode #define SOAP_TYPE___inf__GetProvisioningMode (1101) /* Operation wrapper: */ struct __inf__GetProvisioningMode { public: _inf__GetProvisioningMode *inf__GetProvisioningMode; /* optional element of type inf:GetProvisioningMode */ }; #endif #ifndef SOAP_TYPE___inf__GetProvisioningState #define SOAP_TYPE___inf__GetProvisioningState (1105) /* Operation wrapper: */ struct __inf__GetProvisioningState { public: _inf__GetProvisioningState *inf__GetProvisioningState; /* optional element of type inf:GetProvisioningState */ }; #endif #ifndef SOAP_TYPE___inf__GetVlanParameters #define SOAP_TYPE___inf__GetVlanParameters (1109) /* Operation wrapper: */ struct __inf__GetVlanParameters { public: _inf__GetVlanParameters *inf__GetVlanParameters; /* optional element of type inf:GetVlanParameters */ }; #endif #ifndef SOAP_TYPE___inf__GetHostName #define SOAP_TYPE___inf__GetHostName (1113) /* Operation wrapper: */ struct __inf__GetHostName { public: _inf__GetHostName *inf__GetHostName; /* optional element of type inf:GetHostName */ }; #endif #ifndef SOAP_TYPE___inf__GetConfigServerInfo #define SOAP_TYPE___inf__GetConfigServerInfo (1117) /* Operation wrapper: */ struct __inf__GetConfigServerInfo { public: _inf__GetConfigServerInfo *inf__GetConfigServerInfo; /* optional element of type inf:GetConfigServerInfo */ }; #endif #ifndef SOAP_TYPE___inf__GetAdminAclEntryStatus #define SOAP_TYPE___inf__GetAdminAclEntryStatus (1121) /* Operation wrapper: */ struct __inf__GetAdminAclEntryStatus { public: _inf__GetAdminAclEntryStatus *inf__GetAdminAclEntryStatus; /* optional element of type inf:GetAdminAclEntryStatus */ }; #endif #ifndef SOAP_TYPE___inf__GetAdminNetAclEntryStatus #define SOAP_TYPE___inf__GetAdminNetAclEntryStatus (1125) /* Operation wrapper: */ struct __inf__GetAdminNetAclEntryStatus { public: _inf__GetAdminNetAclEntryStatus *inf__GetAdminNetAclEntryStatus; /* optional element of type inf:GetAdminNetAclEntryStatus */ }; #endif #ifndef SOAP_TYPE___inf__GetPasswordModel #define SOAP_TYPE___inf__GetPasswordModel (1129) /* Operation wrapper: */ struct __inf__GetPasswordModel { public: _inf__GetPasswordModel *inf__GetPasswordModel; /* optional element of type inf:GetPasswordModel */ }; #endif #ifndef SOAP_TYPE___inf__GetEnabledInterfaces #define SOAP_TYPE___inf__GetEnabledInterfaces (1133) /* Operation wrapper: */ struct __inf__GetEnabledInterfaces { public: _inf__GetEnabledInterfaces *inf__GetEnabledInterfaces; /* optional element of type inf:GetEnabledInterfaces */ }; #endif #ifndef SOAP_TYPE___inf__GetNetworkState #define SOAP_TYPE___inf__GetNetworkState (1137) /* Operation wrapper: */ struct __inf__GetNetworkState { public: _inf__GetNetworkState *inf__GetNetworkState; /* optional element of type inf:GetNetworkState */ }; #endif #ifndef SOAP_TYPE___inf__GetSecurityParameters #define SOAP_TYPE___inf__GetSecurityParameters (1141) /* Operation wrapper: */ struct __inf__GetSecurityParameters { public: _inf__GetSecurityParameters *inf__GetSecurityParameters; /* optional element of type inf:GetSecurityParameters */ }; #endif #ifndef SOAP_TYPE___inf__GetIderSessionLog #define SOAP_TYPE___inf__GetIderSessionLog (1145) /* Operation wrapper: */ struct __inf__GetIderSessionLog { public: _inf__GetIderSessionLog *inf__GetIderSessionLog; /* optional element of type inf:GetIderSessionLog */ }; #endif #ifndef SOAP_TYPE___net__SetHostName #define SOAP_TYPE___net__SetHostName (1149) /* Operation wrapper: */ struct __net__SetHostName { public: _net__SetHostName *net__SetHostName; /* optional element of type net:SetHostName */ }; #endif #ifndef SOAP_TYPE___net__GetHostName #define SOAP_TYPE___net__GetHostName (1153) /* Operation wrapper: */ struct __net__GetHostName { public: _net__GetHostName *net__GetHostName; /* optional element of type net:GetHostName */ }; #endif #ifndef SOAP_TYPE___net__SetDomainName #define SOAP_TYPE___net__SetDomainName (1157) /* Operation wrapper: */ struct __net__SetDomainName { public: _net__SetDomainName *net__SetDomainName; /* optional element of type net:SetDomainName */ }; #endif #ifndef SOAP_TYPE___net__GetDomainName #define SOAP_TYPE___net__GetDomainName (1161) /* Operation wrapper: */ struct __net__GetDomainName { public: _net__GetDomainName *net__GetDomainName; /* optional element of type net:GetDomainName */ }; #endif #ifndef SOAP_TYPE___net__SetTcpIpParameters #define SOAP_TYPE___net__SetTcpIpParameters (1165) /* Operation wrapper: */ struct __net__SetTcpIpParameters { public: _net__SetTcpIpParameters *net__SetTcpIpParameters; /* optional element of type net:SetTcpIpParameters */ }; #endif #ifndef SOAP_TYPE___net__GetTcpIpParameters #define SOAP_TYPE___net__GetTcpIpParameters (1169) /* Operation wrapper: */ struct __net__GetTcpIpParameters { public: _net__GetTcpIpParameters *net__GetTcpIpParameters; /* optional element of type net:GetTcpIpParameters */ }; #endif #ifndef SOAP_TYPE___net__SetVlanParameters #define SOAP_TYPE___net__SetVlanParameters (1173) /* Operation wrapper: */ struct __net__SetVlanParameters { public: _net__SetVlanParameters *net__SetVlanParameters; /* optional element of type net:SetVlanParameters */ }; #endif #ifndef SOAP_TYPE___net__GetVlanParameters #define SOAP_TYPE___net__GetVlanParameters (1177) /* Operation wrapper: */ struct __net__GetVlanParameters { public: _net__GetVlanParameters *net__GetVlanParameters; /* optional element of type net:GetVlanParameters */ }; #endif #ifndef SOAP_TYPE___net__SetPingResponse #define SOAP_TYPE___net__SetPingResponse (1181) /* Operation wrapper: */ struct __net__SetPingResponse { public: _net__SetPingResponse *net__SetPingResponse; /* optional element of type net:SetPingResponse */ }; #endif #ifndef SOAP_TYPE___net__GetPingResponse #define SOAP_TYPE___net__GetPingResponse (1185) /* Operation wrapper: */ struct __net__GetPingResponse { public: _net__GetPingResponse *net__GetPingResponse; /* optional element of type net:GetPingResponse */ }; #endif #ifndef SOAP_TYPE___net__EnumerateInterfaces #define SOAP_TYPE___net__EnumerateInterfaces (1189) /* Operation wrapper: */ struct __net__EnumerateInterfaces { public: _net__EnumerateInterfaces *net__EnumerateInterfaces; /* optional element of type net:EnumerateInterfaces */ }; #endif #ifndef SOAP_TYPE___net__GetInterfaceSettings #define SOAP_TYPE___net__GetInterfaceSettings (1193) /* Operation wrapper: */ struct __net__GetInterfaceSettings { public: _net__GetInterfaceSettings *net__GetInterfaceSettings; /* optional element of type net:GetInterfaceSettings */ }; #endif #ifndef SOAP_TYPE___net__SetInterfaceSettings #define SOAP_TYPE___net__SetInterfaceSettings (1197) /* Operation wrapper: */ struct __net__SetInterfaceSettings { public: _net__SetInterfaceSettings *net__SetInterfaceSettings; /* optional element of type net:SetInterfaceSettings */ }; #endif #ifndef SOAP_TYPE___net__Set8021XWiredProfile #define SOAP_TYPE___net__Set8021XWiredProfile (1201) /* Operation wrapper: */ struct __net__Set8021XWiredProfile { public: _net__Set8021XWiredProfile *net__Set8021XWiredProfile; /* optional element of type net:Set8021XWiredProfile */ }; #endif #ifndef SOAP_TYPE___net__Get8021XWiredProfile #define SOAP_TYPE___net__Get8021XWiredProfile (1205) /* Operation wrapper: */ struct __net__Get8021XWiredProfile { public: _net__Get8021XWiredProfile *net__Get8021XWiredProfile; /* optional element of type net:Get8021XWiredProfile */ }; #endif #ifndef SOAP_TYPE___net__Set8021XActiveS0 #define SOAP_TYPE___net__Set8021XActiveS0 (1209) /* Operation wrapper: */ struct __net__Set8021XActiveS0 { public: _net__Set8021XActiveS0 *net__Set8021XActiveS0; /* optional element of type net:Set8021XActiveS0 */ }; #endif #ifndef SOAP_TYPE___net__Get8021XActiveS0 #define SOAP_TYPE___net__Get8021XActiveS0 (1213) /* Operation wrapper: */ struct __net__Get8021XActiveS0 { public: _net__Get8021XActiveS0 *net__Get8021XActiveS0; /* optional element of type net:Get8021XActiveS0 */ }; #endif #ifndef SOAP_TYPE___net__Set8021XPxeTimeout #define SOAP_TYPE___net__Set8021XPxeTimeout (1217) /* Operation wrapper: */ struct __net__Set8021XPxeTimeout { public: _net__Set8021XPxeTimeout *net__Set8021XPxeTimeout; /* optional element of type net:Set8021XPxeTimeout */ }; #endif #ifndef SOAP_TYPE___net__Get8021XPxeTimeout #define SOAP_TYPE___net__Get8021XPxeTimeout (1221) /* Operation wrapper: */ struct __net__Get8021XPxeTimeout { public: _net__Get8021XPxeTimeout *net__Get8021XPxeTimeout; /* optional element of type net:Get8021XPxeTimeout */ }; #endif #ifndef SOAP_TYPE___rci__GetRemoteControlCapabilities #define SOAP_TYPE___rci__GetRemoteControlCapabilities (1225) /* Operation wrapper: */ struct __rci__GetRemoteControlCapabilities { public: _rci__GetRemoteControlCapabilities *rci__GetRemoteControlCapabilities; /* optional element of type rci:GetRemoteControlCapabilities */ }; #endif #ifndef SOAP_TYPE___rci__RemoteControl #define SOAP_TYPE___rci__RemoteControl (1229) /* Operation wrapper: */ struct __rci__RemoteControl { public: _rci__RemoteControl *rci__RemoteControl; /* optional element of type rci:RemoteControl */ }; #endif #ifndef SOAP_TYPE___rci__GetSystemPowerState #define SOAP_TYPE___rci__GetSystemPowerState (1233) /* Operation wrapper: */ struct __rci__GetSystemPowerState { public: _rci__GetSystemPowerState *rci__GetSystemPowerState; /* optional element of type rci:GetSystemPowerState */ }; #endif #ifndef SOAP_TYPE___sai__ResetFlashWearOutProtection #define SOAP_TYPE___sai__ResetFlashWearOutProtection (1237) /* Operation wrapper: */ struct __sai__ResetFlashWearOutProtection { public: _sai__ResetFlashWearOutProtection *sai__ResetFlashWearOutProtection; /* optional element of type sai:ResetFlashWearOutProtection */ }; #endif #ifndef SOAP_TYPE___sai__GetAdminAclEntry #define SOAP_TYPE___sai__GetAdminAclEntry (1241) /* Operation wrapper: */ struct __sai__GetAdminAclEntry { public: _sai__GetAdminAclEntry *sai__GetAdminAclEntry; /* optional element of type sai:GetAdminAclEntry */ }; #endif #ifndef SOAP_TYPE___sai__SetAdminAclEntry #define SOAP_TYPE___sai__SetAdminAclEntry (1245) /* Operation wrapper: */ struct __sai__SetAdminAclEntry { public: _sai__SetAdminAclEntry *sai__SetAdminAclEntry; /* optional element of type sai:SetAdminAclEntry */ }; #endif #ifndef SOAP_TYPE___sai__AddUserAclEntry #define SOAP_TYPE___sai__AddUserAclEntry (1249) /* Operation wrapper: */ struct __sai__AddUserAclEntry { public: _sai__AddUserAclEntry *sai__AddUserAclEntry; /* optional element of type sai:AddUserAclEntry */ }; #endif #ifndef SOAP_TYPE___sai__EnumerateUserAclEntries #define SOAP_TYPE___sai__EnumerateUserAclEntries (1253) /* Operation wrapper: */ struct __sai__EnumerateUserAclEntries { public: _sai__EnumerateUserAclEntries *sai__EnumerateUserAclEntries; /* optional element of type sai:EnumerateUserAclEntries */ }; #endif #ifndef SOAP_TYPE___sai__GetUserAclEntry #define SOAP_TYPE___sai__GetUserAclEntry (1257) /* Operation wrapper: */ struct __sai__GetUserAclEntry { public: _sai__GetUserAclEntry *sai__GetUserAclEntry; /* optional element of type sai:GetUserAclEntry */ }; #endif #ifndef SOAP_TYPE___sai__UpdateUserAclEntry #define SOAP_TYPE___sai__UpdateUserAclEntry (1261) /* Operation wrapper: */ struct __sai__UpdateUserAclEntry { public: _sai__UpdateUserAclEntry *sai__UpdateUserAclEntry; /* optional element of type sai:UpdateUserAclEntry */ }; #endif #ifndef SOAP_TYPE___sai__RemoveUserAclEntry #define SOAP_TYPE___sai__RemoveUserAclEntry (1265) /* Operation wrapper: */ struct __sai__RemoveUserAclEntry { public: _sai__RemoveUserAclEntry *sai__RemoveUserAclEntry; /* optional element of type sai:RemoveUserAclEntry */ }; #endif #ifndef SOAP_TYPE___sai__SetTlsEnabled #define SOAP_TYPE___sai__SetTlsEnabled (1269) /* Operation wrapper: */ struct __sai__SetTlsEnabled { public: _sai__SetTlsEnabled *sai__SetTlsEnabled; /* optional element of type sai:SetTlsEnabled */ }; #endif #ifndef SOAP_TYPE___sai__SetRngKey #define SOAP_TYPE___sai__SetRngKey (1273) /* Operation wrapper: */ struct __sai__SetRngKey { public: _sai__SetRngKey *sai__SetRngKey; /* optional element of type sai:SetRngKey */ }; #endif #ifndef SOAP_TYPE___sai__SetTLSKeyAndCertificate #define SOAP_TYPE___sai__SetTLSKeyAndCertificate (1277) /* Operation wrapper: */ struct __sai__SetTLSKeyAndCertificate { public: _sai__SetTLSKeyAndCertificate *sai__SetTLSKeyAndCertificate; /* optional element of type sai:SetTLSKeyAndCertificate */ }; #endif #ifndef SOAP_TYPE___sai__SetTLSCertificate #define SOAP_TYPE___sai__SetTLSCertificate (1281) /* Operation wrapper: */ struct __sai__SetTLSCertificate { public: _sai__SetTLSCertificate *sai__SetTLSCertificate; /* optional element of type sai:SetTLSCertificate */ }; #endif #ifndef SOAP_TYPE___sai__GetTLSCertificate #define SOAP_TYPE___sai__GetTLSCertificate (1285) /* Operation wrapper: */ struct __sai__GetTLSCertificate { public: _sai__GetTLSCertificate *sai__GetTLSCertificate; /* optional element of type sai:GetTLSCertificate */ }; #endif #ifndef SOAP_TYPE___sai__UpdateCoreFromUrl #define SOAP_TYPE___sai__UpdateCoreFromUrl (1289) /* Operation wrapper: */ struct __sai__UpdateCoreFromUrl { public: _sai__UpdateCoreFromUrl *sai__UpdateCoreFromUrl; /* optional element of type sai:UpdateCoreFromUrl */ }; #endif #ifndef SOAP_TYPE___sai__GetProvisioningMode #define SOAP_TYPE___sai__GetProvisioningMode (1293) /* Operation wrapper: */ struct __sai__GetProvisioningMode { public: _sai__GetProvisioningMode *sai__GetProvisioningMode; /* optional element of type sai:GetProvisioningMode */ }; #endif #ifndef SOAP_TYPE___sai__SetProvisioningMode #define SOAP_TYPE___sai__SetProvisioningMode (1297) /* Operation wrapper: */ struct __sai__SetProvisioningMode { public: _sai__SetProvisioningMode *sai__SetProvisioningMode; /* optional element of type sai:SetProvisioningMode */ }; #endif #ifndef SOAP_TYPE___sai__Unprovision #define SOAP_TYPE___sai__Unprovision (1301) /* Operation wrapper: */ struct __sai__Unprovision { public: _sai__Unprovision *sai__Unprovision; /* optional element of type sai:Unprovision */ }; #endif #ifndef SOAP_TYPE___sai__CommitChanges #define SOAP_TYPE___sai__CommitChanges (1305) /* Operation wrapper: */ struct __sai__CommitChanges { public: _sai__CommitChanges *sai__CommitChanges; /* optional element of type sai:CommitChanges */ }; #endif #ifndef SOAP_TYPE___sai__GetCoreVersion #define SOAP_TYPE___sai__GetCoreVersion (1309) /* Operation wrapper: */ struct __sai__GetCoreVersion { public: _sai__GetCoreVersion *sai__GetCoreVersion; /* optional element of type sai:GetCoreVersion */ }; #endif #ifndef SOAP_TYPE___sai__AddUserAclEntryEx #define SOAP_TYPE___sai__AddUserAclEntryEx (1313) /* Operation wrapper: */ struct __sai__AddUserAclEntryEx { public: _sai__AddUserAclEntryEx *sai__AddUserAclEntryEx; /* optional element of type sai:AddUserAclEntryEx */ }; #endif #ifndef SOAP_TYPE___sai__GetUserAclEntryEx #define SOAP_TYPE___sai__GetUserAclEntryEx (1317) /* Operation wrapper: */ struct __sai__GetUserAclEntryEx { public: _sai__GetUserAclEntryEx *sai__GetUserAclEntryEx; /* optional element of type sai:GetUserAclEntryEx */ }; #endif #ifndef SOAP_TYPE___sai__UpdateUserAclEntryEx #define SOAP_TYPE___sai__UpdateUserAclEntryEx (1321) /* Operation wrapper: */ struct __sai__UpdateUserAclEntryEx { public: _sai__UpdateUserAclEntryEx *sai__UpdateUserAclEntryEx; /* optional element of type sai:UpdateUserAclEntryEx */ }; #endif #ifndef SOAP_TYPE___sai__SetAdminAclEntryEx #define SOAP_TYPE___sai__SetAdminAclEntryEx (1325) /* Operation wrapper: */ struct __sai__SetAdminAclEntryEx { public: _sai__SetAdminAclEntryEx *sai__SetAdminAclEntryEx; /* optional element of type sai:SetAdminAclEntryEx */ }; #endif #ifndef SOAP_TYPE___sai__GetDigestRealm #define SOAP_TYPE___sai__GetDigestRealm (1329) /* Operation wrapper: */ struct __sai__GetDigestRealm { public: _sai__GetDigestRealm *sai__GetDigestRealm; /* optional element of type sai:GetDigestRealm */ }; #endif #ifndef SOAP_TYPE___sai__SetKerberosOptions #define SOAP_TYPE___sai__SetKerberosOptions (1333) /* Operation wrapper: */ struct __sai__SetKerberosOptions { public: _sai__SetKerberosOptions *sai__SetKerberosOptions; /* optional element of type sai:SetKerberosOptions */ }; #endif #ifndef SOAP_TYPE___sai__GetKerberosOptions #define SOAP_TYPE___sai__GetKerberosOptions (1337) /* Operation wrapper: */ struct __sai__GetKerberosOptions { public: _sai__GetKerberosOptions *sai__GetKerberosOptions; /* optional element of type sai:GetKerberosOptions */ }; #endif #ifndef SOAP_TYPE___sai__SetEnabledInterfaces #define SOAP_TYPE___sai__SetEnabledInterfaces (1341) /* Operation wrapper: */ struct __sai__SetEnabledInterfaces { public: _sai__SetEnabledInterfaces *sai__SetEnabledInterfaces; /* optional element of type sai:SetEnabledInterfaces */ }; #endif #ifndef SOAP_TYPE___sai__GetEnabledInterfaces #define SOAP_TYPE___sai__GetEnabledInterfaces (1345) /* Operation wrapper: */ struct __sai__GetEnabledInterfaces { public: _sai__GetEnabledInterfaces *sai__GetEnabledInterfaces; /* optional element of type sai:GetEnabledInterfaces */ }; #endif #ifndef SOAP_TYPE___sai__SetTlsOptions #define SOAP_TYPE___sai__SetTlsOptions (1349) /* Operation wrapper: */ struct __sai__SetTlsOptions { public: _sai__SetTlsOptions *sai__SetTlsOptions; /* optional element of type sai:SetTlsOptions */ }; #endif #ifndef SOAP_TYPE___sai__GetTlsOptions #define SOAP_TYPE___sai__GetTlsOptions (1353) /* Operation wrapper: */ struct __sai__GetTlsOptions { public: _sai__GetTlsOptions *sai__GetTlsOptions; /* optional element of type sai:GetTlsOptions */ }; #endif #ifndef SOAP_TYPE___sai__AddTrustedRootCertificate #define SOAP_TYPE___sai__AddTrustedRootCertificate (1357) /* Operation wrapper: */ struct __sai__AddTrustedRootCertificate { public: _sai__AddTrustedRootCertificate *sai__AddTrustedRootCertificate; /* optional element of type sai:AddTrustedRootCertificate */ }; #endif #ifndef SOAP_TYPE___sai__GetTrustedRootCertificate #define SOAP_TYPE___sai__GetTrustedRootCertificate (1361) /* Operation wrapper: */ struct __sai__GetTrustedRootCertificate { public: _sai__GetTrustedRootCertificate *sai__GetTrustedRootCertificate; /* optional element of type sai:GetTrustedRootCertificate */ }; #endif #ifndef SOAP_TYPE___sai__DeleteTrustedRootCertificate #define SOAP_TYPE___sai__DeleteTrustedRootCertificate (1365) /* Operation wrapper: */ struct __sai__DeleteTrustedRootCertificate { public: _sai__DeleteTrustedRootCertificate *sai__DeleteTrustedRootCertificate; /* optional element of type sai:DeleteTrustedRootCertificate */ }; #endif #ifndef SOAP_TYPE___sai__EnumerateTrustedRootCertificates #define SOAP_TYPE___sai__EnumerateTrustedRootCertificates (1369) /* Operation wrapper: */ struct __sai__EnumerateTrustedRootCertificates { public: _sai__EnumerateTrustedRootCertificates *sai__EnumerateTrustedRootCertificates; /* optional element of type sai:EnumerateTrustedRootCertificates */ }; #endif #ifndef SOAP_TYPE___sai__SetTrustedFqdnCN #define SOAP_TYPE___sai__SetTrustedFqdnCN (1373) /* Operation wrapper: */ struct __sai__SetTrustedFqdnCN { public: _sai__SetTrustedFqdnCN *sai__SetTrustedFqdnCN; /* optional element of type sai:SetTrustedFqdnCN */ }; #endif #ifndef SOAP_TYPE___sai__GetTrustedFqdnCN #define SOAP_TYPE___sai__GetTrustedFqdnCN (1377) /* Operation wrapper: */ struct __sai__GetTrustedFqdnCN { public: _sai__GetTrustedFqdnCN *sai__GetTrustedFqdnCN; /* optional element of type sai:GetTrustedFqdnCN */ }; #endif #ifndef SOAP_TYPE___sai__SetCRL #define SOAP_TYPE___sai__SetCRL (1381) /* Operation wrapper: */ struct __sai__SetCRL { public: _sai__SetCRL *sai__SetCRL; /* optional element of type sai:SetCRL */ }; #endif #ifndef SOAP_TYPE___sai__GetCRL #define SOAP_TYPE___sai__GetCRL (1385) /* Operation wrapper: */ struct __sai__GetCRL { public: _sai__GetCRL *sai__GetCRL; /* optional element of type sai:GetCRL */ }; #endif #ifndef SOAP_TYPE___sai__GetServerCertificateReq #define SOAP_TYPE___sai__GetServerCertificateReq (1389) /* Operation wrapper: */ struct __sai__GetServerCertificateReq { public: _sai__GetServerCertificateReq *sai__GetServerCertificateReq; /* optional element of type sai:GetServerCertificateReq */ }; #endif #ifndef SOAP_TYPE___sai__GetPkiCapabilities #define SOAP_TYPE___sai__GetPkiCapabilities (1393) /* Operation wrapper: */ struct __sai__GetPkiCapabilities { public: _sai__GetPkiCapabilities *sai__GetPkiCapabilities; /* optional element of type sai:GetPkiCapabilities */ }; #endif #ifndef SOAP_TYPE___sai__SetPowerSavingOptions #define SOAP_TYPE___sai__SetPowerSavingOptions (1397) /* Operation wrapper: */ struct __sai__SetPowerSavingOptions { public: _sai__SetPowerSavingOptions *sai__SetPowerSavingOptions; /* optional element of type sai:SetPowerSavingOptions */ }; #endif #ifndef SOAP_TYPE___sai__GetPowerSavingOptions #define SOAP_TYPE___sai__GetPowerSavingOptions (1401) /* Operation wrapper: */ struct __sai__GetPowerSavingOptions { public: _sai__GetPowerSavingOptions *sai__GetPowerSavingOptions; /* optional element of type sai:GetPowerSavingOptions */ }; #endif #ifndef SOAP_TYPE___sai__SetTLSPSK #define SOAP_TYPE___sai__SetTLSPSK (1405) /* Operation wrapper: */ struct __sai__SetTLSPSK { public: _sai__SetTLSPSK *sai__SetTLSPSK; /* optional element of type sai:SetTLSPSK */ }; #endif #ifndef SOAP_TYPE___sai__PartialUnprovision #define SOAP_TYPE___sai__PartialUnprovision (1409) /* Operation wrapper: */ struct __sai__PartialUnprovision { public: _sai__PartialUnprovision *sai__PartialUnprovision; /* optional element of type sai:PartialUnprovision */ }; #endif #ifndef SOAP_TYPE___sai__SetMEBxPassword #define SOAP_TYPE___sai__SetMEBxPassword (1413) /* Operation wrapper: */ struct __sai__SetMEBxPassword { public: _sai__SetMEBxPassword *sai__SetMEBxPassword; /* optional element of type sai:SetMEBxPassword */ }; #endif #ifndef SOAP_TYPE___sai__SetProvisioningServerOTP #define SOAP_TYPE___sai__SetProvisioningServerOTP (1417) /* Operation wrapper: */ struct __sai__SetProvisioningServerOTP { public: _sai__SetProvisioningServerOTP *sai__SetProvisioningServerOTP; /* optional element of type sai:SetProvisioningServerOTP */ }; #endif #ifndef SOAP_TYPE___sai__GetProvisioningServerOTP #define SOAP_TYPE___sai__GetProvisioningServerOTP (1421) /* Operation wrapper: */ struct __sai__GetProvisioningServerOTP { public: _sai__GetProvisioningServerOTP *sai__GetProvisioningServerOTP; /* optional element of type sai:GetProvisioningServerOTP */ }; #endif #ifndef SOAP_TYPE___sai__EnumerateCertificateHashEntries #define SOAP_TYPE___sai__EnumerateCertificateHashEntries (1425) /* Operation wrapper: */ struct __sai__EnumerateCertificateHashEntries { public: _sai__EnumerateCertificateHashEntries *sai__EnumerateCertificateHashEntries; /* optional element of type sai:EnumerateCertificateHashEntries */ }; #endif #ifndef SOAP_TYPE___sai__GetCertificateHashEntry #define SOAP_TYPE___sai__GetCertificateHashEntry (1429) /* Operation wrapper: */ struct __sai__GetCertificateHashEntry { public: _sai__GetCertificateHashEntry *sai__GetCertificateHashEntry; /* optional element of type sai:GetCertificateHashEntry */ }; #endif #ifndef SOAP_TYPE___sai__AddCertificateHashEntry #define SOAP_TYPE___sai__AddCertificateHashEntry (1433) /* Operation wrapper: */ struct __sai__AddCertificateHashEntry { public: _sai__AddCertificateHashEntry *sai__AddCertificateHashEntry; /* optional element of type sai:AddCertificateHashEntry */ }; #endif #ifndef SOAP_TYPE___sai__DeleteCertificateHashEntry #define SOAP_TYPE___sai__DeleteCertificateHashEntry (1437) /* Operation wrapper: */ struct __sai__DeleteCertificateHashEntry { public: _sai__DeleteCertificateHashEntry *sai__DeleteCertificateHashEntry; /* optional element of type sai:DeleteCertificateHashEntry */ }; #endif #ifndef SOAP_TYPE___sai__EnableCertificateHashEntry #define SOAP_TYPE___sai__EnableCertificateHashEntry (1441) /* Operation wrapper: */ struct __sai__EnableCertificateHashEntry { public: _sai__EnableCertificateHashEntry *sai__EnableCertificateHashEntry; /* optional element of type sai:EnableCertificateHashEntry */ }; #endif #ifndef SOAP_TYPE___sai__GetZeroTouchConfigurationMode #define SOAP_TYPE___sai__GetZeroTouchConfigurationMode (1445) /* Operation wrapper: */ struct __sai__GetZeroTouchConfigurationMode { public: _sai__GetZeroTouchConfigurationMode *sai__GetZeroTouchConfigurationMode; /* optional element of type sai:GetZeroTouchConfigurationMode */ }; #endif #ifndef SOAP_TYPE___sai__SetZeroTouchConfigurationMode #define SOAP_TYPE___sai__SetZeroTouchConfigurationMode (1449) /* Operation wrapper: */ struct __sai__SetZeroTouchConfigurationMode { public: _sai__SetZeroTouchConfigurationMode *sai__SetZeroTouchConfigurationMode; /* optional element of type sai:SetZeroTouchConfigurationMode */ }; #endif #ifndef SOAP_TYPE___sai__GetProvisioningAuditRecord #define SOAP_TYPE___sai__GetProvisioningAuditRecord (1453) /* Operation wrapper: */ struct __sai__GetProvisioningAuditRecord { public: _sai__GetProvisioningAuditRecord *sai__GetProvisioningAuditRecord; /* optional element of type sai:GetProvisioningAuditRecord */ }; #endif #ifndef SOAP_TYPE___sai__GetProvisioningPID #define SOAP_TYPE___sai__GetProvisioningPID (1457) /* Operation wrapper: */ struct __sai__GetProvisioningPID { public: _sai__GetProvisioningPID *sai__GetProvisioningPID; /* optional element of type sai:GetProvisioningPID */ }; #endif #ifndef SOAP_TYPE___sai__ExtendProvisioningPeriod #define SOAP_TYPE___sai__ExtendProvisioningPeriod (1461) /* Operation wrapper: */ struct __sai__ExtendProvisioningPeriod { public: _sai__ExtendProvisioningPeriod *sai__ExtendProvisioningPeriod; /* optional element of type sai:ExtendProvisioningPeriod */ }; #endif #ifndef SOAP_TYPE___sai__GetRealmAuthOptions #define SOAP_TYPE___sai__GetRealmAuthOptions (1465) /* Operation wrapper: */ struct __sai__GetRealmAuthOptions { public: _sai__GetRealmAuthOptions *sai__GetRealmAuthOptions; /* optional element of type sai:GetRealmAuthOptions */ }; #endif #ifndef SOAP_TYPE___sai__SetRealmAuthOptions #define SOAP_TYPE___sai__SetRealmAuthOptions (1469) /* Operation wrapper: */ struct __sai__SetRealmAuthOptions { public: _sai__SetRealmAuthOptions *sai__SetRealmAuthOptions; /* optional element of type sai:SetRealmAuthOptions */ }; #endif #ifndef SOAP_TYPE___sai__SetEnvironmentDetection #define SOAP_TYPE___sai__SetEnvironmentDetection (1473) /* Operation wrapper: */ struct __sai__SetEnvironmentDetection { public: _sai__SetEnvironmentDetection *sai__SetEnvironmentDetection; /* optional element of type sai:SetEnvironmentDetection */ }; #endif #ifndef SOAP_TYPE___sai__GetEnvironmentDetection #define SOAP_TYPE___sai__GetEnvironmentDetection (1477) /* Operation wrapper: */ struct __sai__GetEnvironmentDetection { public: _sai__GetEnvironmentDetection *sai__GetEnvironmentDetection; /* optional element of type sai:GetEnvironmentDetection */ }; #endif #ifndef SOAP_TYPE___sai__EnumeratePowerPackages #define SOAP_TYPE___sai__EnumeratePowerPackages (1481) /* Operation wrapper: */ struct __sai__EnumeratePowerPackages { public: _sai__EnumeratePowerPackages *sai__EnumeratePowerPackages; /* optional element of type sai:EnumeratePowerPackages */ }; #endif #ifndef SOAP_TYPE___sai__GetPowerPackage #define SOAP_TYPE___sai__GetPowerPackage (1485) /* Operation wrapper: */ struct __sai__GetPowerPackage { public: _sai__GetPowerPackage *sai__GetPowerPackage; /* optional element of type sai:GetPowerPackage */ }; #endif #ifndef SOAP_TYPE___sai__GetActivePowerPackage #define SOAP_TYPE___sai__GetActivePowerPackage (1489) /* Operation wrapper: */ struct __sai__GetActivePowerPackage { public: _sai__GetActivePowerPackage *sai__GetActivePowerPackage; /* optional element of type sai:GetActivePowerPackage */ }; #endif #ifndef SOAP_TYPE___sai__SetActivePowerPackage #define SOAP_TYPE___sai__SetActivePowerPackage (1493) /* Operation wrapper: */ struct __sai__SetActivePowerPackage { public: _sai__SetActivePowerPackage *sai__SetActivePowerPackage; /* optional element of type sai:SetActivePowerPackage */ }; #endif #ifndef SOAP_TYPE___sai__SetGlobalPowerPolicy #define SOAP_TYPE___sai__SetGlobalPowerPolicy (1497) /* Operation wrapper: */ struct __sai__SetGlobalPowerPolicy { public: _sai__SetGlobalPowerPolicy *sai__SetGlobalPowerPolicy; /* optional element of type sai:SetGlobalPowerPolicy */ }; #endif #ifndef SOAP_TYPE___sai__GetGlobalPowerPolicy #define SOAP_TYPE___sai__GetGlobalPowerPolicy (1501) /* Operation wrapper: */ struct __sai__GetGlobalPowerPolicy { public: _sai__GetGlobalPowerPolicy *sai__GetGlobalPowerPolicy; /* optional element of type sai:GetGlobalPowerPolicy */ }; #endif #ifndef SOAP_TYPE___sai__CertStoreAddKey #define SOAP_TYPE___sai__CertStoreAddKey (1505) /* Operation wrapper: */ struct __sai__CertStoreAddKey { public: _sai__CertStoreAddKey *sai__CertStoreAddKey; /* optional element of type sai:CertStoreAddKey */ }; #endif #ifndef SOAP_TYPE___sai__CertStoreEnumerateKeys #define SOAP_TYPE___sai__CertStoreEnumerateKeys (1509) /* Operation wrapper: */ struct __sai__CertStoreEnumerateKeys { public: _sai__CertStoreEnumerateKeys *sai__CertStoreEnumerateKeys; /* optional element of type sai:CertStoreEnumerateKeys */ }; #endif #ifndef SOAP_TYPE___sai__CertStoreGetKey #define SOAP_TYPE___sai__CertStoreGetKey (1513) /* Operation wrapper: */ struct __sai__CertStoreGetKey { public: _sai__CertStoreGetKey *sai__CertStoreGetKey; /* optional element of type sai:CertStoreGetKey */ }; #endif #ifndef SOAP_TYPE___sai__CertStoreRemoveKey #define SOAP_TYPE___sai__CertStoreRemoveKey (1517) /* Operation wrapper: */ struct __sai__CertStoreRemoveKey { public: _sai__CertStoreRemoveKey *sai__CertStoreRemoveKey; /* optional element of type sai:CertStoreRemoveKey */ }; #endif #ifndef SOAP_TYPE___sai__CertStoreAddCertificate #define SOAP_TYPE___sai__CertStoreAddCertificate (1521) /* Operation wrapper: */ struct __sai__CertStoreAddCertificate { public: _sai__CertStoreAddCertificate *sai__CertStoreAddCertificate; /* optional element of type sai:CertStoreAddCertificate */ }; #endif #ifndef SOAP_TYPE___sai__CertStoreGetCertificate #define SOAP_TYPE___sai__CertStoreGetCertificate (1525) /* Operation wrapper: */ struct __sai__CertStoreGetCertificate { public: _sai__CertStoreGetCertificate *sai__CertStoreGetCertificate; /* optional element of type sai:CertStoreGetCertificate */ }; #endif #ifndef SOAP_TYPE___sai__CertStoreEnumerateCertificates #define SOAP_TYPE___sai__CertStoreEnumerateCertificates (1529) /* Operation wrapper: */ struct __sai__CertStoreEnumerateCertificates { public: _sai__CertStoreEnumerateCertificates *sai__CertStoreEnumerateCertificates; /* optional element of type sai:CertStoreEnumerateCertificates */ }; #endif #ifndef SOAP_TYPE___sai__CertStoreRemoveCertificate #define SOAP_TYPE___sai__CertStoreRemoveCertificate (1533) /* Operation wrapper: */ struct __sai__CertStoreRemoveCertificate { public: _sai__CertStoreRemoveCertificate *sai__CertStoreRemoveCertificate; /* optional element of type sai:CertStoreRemoveCertificate */ }; #endif #ifndef SOAP_TYPE___sai__CertStoreGetPKCS10Request #define SOAP_TYPE___sai__CertStoreGetPKCS10Request (1537) /* Operation wrapper: */ struct __sai__CertStoreGetPKCS10Request { public: _sai__CertStoreGetPKCS10Request *sai__CertStoreGetPKCS10Request; /* optional element of type sai:CertStoreGetPKCS10Request */ }; #endif #ifndef SOAP_TYPE___sai__CertStoreUpdateCertificate #define SOAP_TYPE___sai__CertStoreUpdateCertificate (1541) /* Operation wrapper: */ struct __sai__CertStoreUpdateCertificate { public: _sai__CertStoreUpdateCertificate *sai__CertStoreUpdateCertificate; /* optional element of type sai:CertStoreUpdateCertificate */ }; #endif #ifndef SOAP_TYPE___sai__SetTLSCredentials #define SOAP_TYPE___sai__SetTLSCredentials (1545) /* Operation wrapper: */ struct __sai__SetTLSCredentials { public: _sai__SetTLSCredentials *sai__SetTLSCredentials; /* optional element of type sai:SetTLSCredentials */ }; #endif #ifndef SOAP_TYPE___sai__GetTLSCredentials #define SOAP_TYPE___sai__GetTLSCredentials (1549) /* Operation wrapper: */ struct __sai__GetTLSCredentials { public: _sai__GetTLSCredentials *sai__GetTLSCredentials; /* optional element of type sai:GetTLSCredentials */ }; #endif #ifndef SOAP_TYPE___sai__EnableVpnRouting #define SOAP_TYPE___sai__EnableVpnRouting (1553) /* Operation wrapper: */ struct __sai__EnableVpnRouting { public: _sai__EnableVpnRouting *sai__EnableVpnRouting; /* optional element of type sai:EnableVpnRouting */ }; #endif #ifndef SOAP_TYPE___sai__GetConfigurationServerFQDN #define SOAP_TYPE___sai__GetConfigurationServerFQDN (1557) /* Operation wrapper: */ struct __sai__GetConfigurationServerFQDN { public: _sai__GetConfigurationServerFQDN *sai__GetConfigurationServerFQDN; /* optional element of type sai:GetConfigurationServerFQDN */ }; #endif #ifndef SOAP_TYPE___sai__SetConfigurationServerFQDN #define SOAP_TYPE___sai__SetConfigurationServerFQDN (1561) /* Operation wrapper: */ struct __sai__SetConfigurationServerFQDN { public: _sai__SetConfigurationServerFQDN *sai__SetConfigurationServerFQDN; /* optional element of type sai:SetConfigurationServerFQDN */ }; #endif #ifndef SOAP_TYPE___sai__SetAclEnabledState #define SOAP_TYPE___sai__SetAclEnabledState (1565) /* Operation wrapper: */ struct __sai__SetAclEnabledState { public: _sai__SetAclEnabledState *sai__SetAclEnabledState; /* optional element of type sai:SetAclEnabledState */ }; #endif #ifndef SOAP_TYPE___sai__GetAclEnabledState #define SOAP_TYPE___sai__GetAclEnabledState (1569) /* Operation wrapper: */ struct __sai__GetAclEnabledState { public: _sai__GetAclEnabledState *sai__GetAclEnabledState; /* optional element of type sai:GetAclEnabledState */ }; #endif #ifndef SOAP_TYPE___str__ExecuteStorageOperation #define SOAP_TYPE___str__ExecuteStorageOperation (1573) /* Operation wrapper: */ struct __str__ExecuteStorageOperation { public: _str__ExecuteStorageOperation *str__ExecuteStorageOperation; /* optional element of type str:ExecuteStorageOperation */ }; #endif #ifndef SOAP_TYPE___stra__GetGlobalStorageAttributes #define SOAP_TYPE___stra__GetGlobalStorageAttributes (1577) /* Operation wrapper: */ struct __stra__GetGlobalStorageAttributes { public: _stra__GetGlobalStorageAttributes *stra__GetGlobalStorageAttributes; /* optional element of type stra:GetGlobalStorageAttributes */ }; #endif #ifndef SOAP_TYPE___stra__SetGlobalStorageAttributes #define SOAP_TYPE___stra__SetGlobalStorageAttributes (1581) /* Operation wrapper: */ struct __stra__SetGlobalStorageAttributes { public: _stra__SetGlobalStorageAttributes *stra__SetGlobalStorageAttributes; /* optional element of type stra:SetGlobalStorageAttributes */ }; #endif #ifndef SOAP_TYPE___stra__AdminGetRegisteredApplications #define SOAP_TYPE___stra__AdminGetRegisteredApplications (1585) /* Operation wrapper: */ struct __stra__AdminGetRegisteredApplications { public: _stra__AdminGetRegisteredApplications *stra__AdminGetRegisteredApplications; /* optional element of type stra:AdminGetRegisteredApplications */ }; #endif #ifndef SOAP_TYPE___stra__AdminGetApplicationAttributes #define SOAP_TYPE___stra__AdminGetApplicationAttributes (1589) /* Operation wrapper: */ struct __stra__AdminGetApplicationAttributes { public: _stra__AdminGetApplicationAttributes *stra__AdminGetApplicationAttributes; /* optional element of type stra:AdminGetApplicationAttributes */ }; #endif #ifndef SOAP_TYPE___stra__AdminRemoveApplication #define SOAP_TYPE___stra__AdminRemoveApplication (1593) /* Operation wrapper: */ struct __stra__AdminRemoveApplication { public: _stra__AdminRemoveApplication *stra__AdminRemoveApplication; /* optional element of type stra:AdminRemoveApplication */ }; #endif #ifndef SOAP_TYPE___stra__AddStorageEaclEntry #define SOAP_TYPE___stra__AddStorageEaclEntry (1597) /* Operation wrapper: */ struct __stra__AddStorageEaclEntry { public: _stra__AddStorageEaclEntry *stra__AddStorageEaclEntry; /* optional element of type stra:AddStorageEaclEntry */ }; #endif #ifndef SOAP_TYPE___stra__EnumerateStorageEaclEntries #define SOAP_TYPE___stra__EnumerateStorageEaclEntries (1601) /* Operation wrapper: */ struct __stra__EnumerateStorageEaclEntries { public: _stra__EnumerateStorageEaclEntries *stra__EnumerateStorageEaclEntries; /* optional element of type stra:EnumerateStorageEaclEntries */ }; #endif #ifndef SOAP_TYPE___stra__GetStorageEaclEntry #define SOAP_TYPE___stra__GetStorageEaclEntry (1605) /* Operation wrapper: */ struct __stra__GetStorageEaclEntry { public: _stra__GetStorageEaclEntry *stra__GetStorageEaclEntry; /* optional element of type stra:GetStorageEaclEntry */ }; #endif #ifndef SOAP_TYPE___stra__RemoveStorageEaclEntry #define SOAP_TYPE___stra__RemoveStorageEaclEntry (1609) /* Operation wrapper: */ struct __stra__RemoveStorageEaclEntry { public: _stra__RemoveStorageEaclEntry *stra__RemoveStorageEaclEntry; /* optional element of type stra:RemoveStorageEaclEntry */ }; #endif #ifndef SOAP_TYPE___stra__AddStorageFpaclEntry #define SOAP_TYPE___stra__AddStorageFpaclEntry (1613) /* Operation wrapper: */ struct __stra__AddStorageFpaclEntry { public: _stra__AddStorageFpaclEntry *stra__AddStorageFpaclEntry; /* optional element of type stra:AddStorageFpaclEntry */ }; #endif #ifndef SOAP_TYPE___stra__EnumerateStorageAllocEntries #define SOAP_TYPE___stra__EnumerateStorageAllocEntries (1617) /* Operation wrapper: */ struct __stra__EnumerateStorageAllocEntries { public: _stra__EnumerateStorageAllocEntries *stra__EnumerateStorageAllocEntries; /* optional element of type stra:EnumerateStorageAllocEntries */ }; #endif #ifndef SOAP_TYPE___stra__GetStorageAllocEntry #define SOAP_TYPE___stra__GetStorageAllocEntry (1621) /* Operation wrapper: */ struct __stra__GetStorageAllocEntry { public: _stra__GetStorageAllocEntry *stra__GetStorageAllocEntry; /* optional element of type stra:GetStorageAllocEntry */ }; #endif #ifndef SOAP_TYPE___stra__UpdateStorageFpaclEntry #define SOAP_TYPE___stra__UpdateStorageFpaclEntry (1625) /* Operation wrapper: */ struct __stra__UpdateStorageFpaclEntry { public: _stra__UpdateStorageFpaclEntry *stra__UpdateStorageFpaclEntry; /* optional element of type stra:UpdateStorageFpaclEntry */ }; #endif #ifndef SOAP_TYPE___stra__RemoveStorageFpaclEntry #define SOAP_TYPE___stra__RemoveStorageFpaclEntry (1629) /* Operation wrapper: */ struct __stra__RemoveStorageFpaclEntry { public: _stra__RemoveStorageFpaclEntry *stra__RemoveStorageFpaclEntry; /* optional element of type stra:RemoveStorageFpaclEntry */ }; #endif #ifndef SOAP_TYPE___tim__GetLowAccuracyTimeSynch #define SOAP_TYPE___tim__GetLowAccuracyTimeSynch (1633) /* Operation wrapper: */ struct __tim__GetLowAccuracyTimeSynch { public: _tim__GetLowAccuracyTimeSynch *tim__GetLowAccuracyTimeSynch; /* optional element of type tim:GetLowAccuracyTimeSynch */ }; #endif #ifndef SOAP_TYPE___tim__SetHighAccuracyTimeSynch #define SOAP_TYPE___tim__SetHighAccuracyTimeSynch (1637) /* Operation wrapper: */ struct __tim__SetHighAccuracyTimeSynch { public: _tim__SetHighAccuracyTimeSynch *tim__SetHighAccuracyTimeSynch; /* optional element of type tim:SetHighAccuracyTimeSynch */ }; #endif #ifndef SOAP_TYPE___wcxs__AddWirelessProfile #define SOAP_TYPE___wcxs__AddWirelessProfile (1641) /* Operation wrapper: */ struct __wcxs__AddWirelessProfile { public: _wcxs__AddWirelessProfileRequest *wcxs__AddWirelessProfileRequest; /* optional element of type wcxs:AddWirelessProfileRequest */ }; #endif #ifndef SOAP_TYPE___wcxs__GetWirelessProfile #define SOAP_TYPE___wcxs__GetWirelessProfile (1645) /* Operation wrapper: */ struct __wcxs__GetWirelessProfile { public: _wcxs__GetWirelessProfileRequest *wcxs__GetWirelessProfileRequest; /* optional element of type wcxs:GetWirelessProfileRequest */ }; #endif #ifndef SOAP_TYPE___wcxs__RemoveWirelessProfile #define SOAP_TYPE___wcxs__RemoveWirelessProfile (1649) /* Operation wrapper: */ struct __wcxs__RemoveWirelessProfile { public: _wcxs__RemoveWirelessProfileRequest *wcxs__RemoveWirelessProfileRequest; /* optional element of type wcxs:RemoveWirelessProfileRequest */ }; #endif #ifndef SOAP_TYPE___wcxs__UpdateWirelessProfile #define SOAP_TYPE___wcxs__UpdateWirelessProfile (1653) /* Operation wrapper: */ struct __wcxs__UpdateWirelessProfile { public: _wcxs__UpdateWirelessProfileRequest *wcxs__UpdateWirelessProfileRequest; /* optional element of type wcxs:UpdateWirelessProfileRequest */ }; #endif #ifndef SOAP_TYPE___wcxs__EnumerateWirelessProfiles #define SOAP_TYPE___wcxs__EnumerateWirelessProfiles (1657) /* Operation wrapper: */ struct __wcxs__EnumerateWirelessProfiles { public: _wcxs__EnumerateWirelessProfilesRequest *wcxs__EnumerateWirelessProfilesRequest; /* optional element of type wcxs:EnumerateWirelessProfilesRequest */ }; #endif #ifndef SOAP_TYPE___wcxs__GetWirelessCapabilities #define SOAP_TYPE___wcxs__GetWirelessCapabilities (1661) /* Operation wrapper: */ struct __wcxs__GetWirelessCapabilities { public: _wcxs__GetWirelessCapabilitiesRequest *wcxs__GetWirelessCapabilitiesRequest; /* optional element of type wcxs:GetWirelessCapabilitiesRequest */ }; #endif #ifndef SOAP_TYPE___wcxs__GetWirelessSettings #define SOAP_TYPE___wcxs__GetWirelessSettings (1665) /* Operation wrapper: */ struct __wcxs__GetWirelessSettings { public: _wcxs__GetWirelessSettingsRequest *wcxs__GetWirelessSettingsRequest; /* optional element of type wcxs:GetWirelessSettingsRequest */ }; #endif #ifndef SOAP_TYPE_SOAP_ENV__Header #define SOAP_TYPE_SOAP_ENV__Header (1668) /* SOAP Header: */ struct SOAP_ENV__Header { public: void *dummy; /* transient */ }; #endif #ifndef SOAP_TYPE_SOAP_ENV__Code #define SOAP_TYPE_SOAP_ENV__Code (1669) /* SOAP Fault Code: */ struct SOAP_ENV__Code { public: char *SOAP_ENV__Value; /* optional element of type QName */ struct SOAP_ENV__Code *SOAP_ENV__Subcode; /* optional element of type SOAP-ENV:Code */ }; #endif #ifndef SOAP_TYPE_SOAP_ENV__Detail #define SOAP_TYPE_SOAP_ENV__Detail (1671) /* SOAP-ENV:Detail */ struct SOAP_ENV__Detail { public: int __type; /* any type of element (defined below) */ void *fault; /* transient */ char *__any; }; #endif #ifndef SOAP_TYPE_SOAP_ENV__Reason #define SOAP_TYPE_SOAP_ENV__Reason (1672) /* SOAP-ENV:Reason */ struct SOAP_ENV__Reason { public: char *SOAP_ENV__Text; /* optional element of type xsd:string */ }; #endif #ifndef SOAP_TYPE_SOAP_ENV__Fault #define SOAP_TYPE_SOAP_ENV__Fault (1673) /* SOAP Fault: */ struct SOAP_ENV__Fault { public: char *faultcode; /* optional element of type QName */ char *faultstring; /* optional element of type xsd:string */ char *faultactor; /* optional element of type xsd:string */ struct SOAP_ENV__Detail *detail; /* optional element of type SOAP-ENV:Detail */ struct SOAP_ENV__Code *SOAP_ENV__Code; /* optional element of type SOAP-ENV:Code */ struct SOAP_ENV__Reason *SOAP_ENV__Reason; /* optional element of type SOAP-ENV:Reason */ char *SOAP_ENV__Node; /* optional element of type xsd:string */ char *SOAP_ENV__Role; /* optional element of type xsd:string */ struct SOAP_ENV__Detail *SOAP_ENV__Detail; /* optional element of type SOAP-ENV:Detail */ }; #endif /******************************************************************************\ * * * Types with Custom Serializers * * * \******************************************************************************/ /******************************************************************************\ * * * Typedefs * * * \******************************************************************************/ #ifndef SOAP_TYPE__XML #define SOAP_TYPE__XML (4) typedef char *_XML; #endif #ifndef SOAP_TYPE__QName #define SOAP_TYPE__QName (5) typedef char *_QName; #endif #ifndef SOAP_TYPE_xsd__anyURI #define SOAP_TYPE_xsd__anyURI (8) typedef std::string xsd__anyURI; #endif #ifndef SOAP_TYPE_cmn__PT_USCORESTATUS #define SOAP_TYPE_cmn__PT_USCORESTATUS (543) typedef unsigned int cmn__PT_USCORESTATUS; #endif #ifndef SOAP_TYPE_cmn__HostNameType #define SOAP_TYPE_cmn__HostNameType (544) typedef std::string cmn__HostNameType; #endif #ifndef SOAP_TYPE_cmn__IPv4AddressType #define SOAP_TYPE_cmn__IPv4AddressType (545) typedef unsigned int cmn__IPv4AddressType; #endif #ifndef SOAP_TYPE_cmn__IPv4AddressStringType #define SOAP_TYPE_cmn__IPv4AddressStringType (546) typedef std::string cmn__IPv4AddressStringType; #endif #ifndef SOAP_TYPE_cmn__IPv6AddressStringType #define SOAP_TYPE_cmn__IPv6AddressStringType (547) typedef std::string cmn__IPv6AddressStringType; #endif #ifndef SOAP_TYPE_cmn__InterfaceHandleType #define SOAP_TYPE_cmn__InterfaceHandleType (548) typedef unsigned int cmn__InterfaceHandleType; #endif #ifndef SOAP_TYPE_cmn__GuidBuf #define SOAP_TYPE_cmn__GuidBuf (549) typedef xsd__base64Binary cmn__GuidBuf; #endif #ifndef SOAP_TYPE_cstr__KeyPairHandleType #define SOAP_TYPE_cstr__KeyPairHandleType (550) typedef unsigned int cstr__KeyPairHandleType; #endif #ifndef SOAP_TYPE_sai__PT_USCORESTATUS #define SOAP_TYPE_sai__PT_USCORESTATUS (551) typedef unsigned int sai__PT_USCORESTATUS; #endif #ifndef SOAP_TYPE_sai__UserAclEntryHandleType #define SOAP_TYPE_sai__UserAclEntryHandleType (553) typedef unsigned int sai__UserAclEntryHandleType; #endif #ifndef SOAP_TYPE_sai__AclStringType #define SOAP_TYPE_sai__AclStringType (554) typedef std::string sai__AclStringType; #endif #ifndef SOAP_TYPE_sai__AclPasswordStringType #define SOAP_TYPE_sai__AclPasswordStringType (555) typedef std::string sai__AclPasswordStringType; #endif #ifndef SOAP_TYPE_sai__IPv4AddressType #define SOAP_TYPE_sai__IPv4AddressType (556) typedef unsigned int sai__IPv4AddressType; #endif #ifndef SOAP_TYPE_sai__CertificateHandleType #define SOAP_TYPE_sai__CertificateHandleType (568) typedef unsigned int sai__CertificateHandleType; #endif #ifndef SOAP_TYPE_sai__MEBxPasswordType #define SOAP_TYPE_sai__MEBxPasswordType (570) typedef std::string sai__MEBxPasswordType; #endif #ifndef SOAP_TYPE_sai__ProvisioningOTPType #define SOAP_TYPE_sai__ProvisioningOTPType (571) typedef xsd__base64Binary sai__ProvisioningOTPType; #endif #ifndef SOAP_TYPE_sai__FriendlyNameType #define SOAP_TYPE_sai__FriendlyNameType (572) typedef std::string sai__FriendlyNameType; #endif #ifndef SOAP_TYPE__sai__SpnString #define SOAP_TYPE__sai__SpnString (575) typedef std::string _sai__SpnString; #endif #ifndef SOAP_TYPE__sai__KerberosRealmName #define SOAP_TYPE__sai__KerberosRealmName (576) typedef std::string _sai__KerberosRealmName; #endif #ifndef SOAP_TYPE_net__PT_USCORESTATUS #define SOAP_TYPE_net__PT_USCORESTATUS (578) typedef unsigned int net__PT_USCORESTATUS; #endif #ifndef SOAP_TYPE_net__IPv4AddressType #define SOAP_TYPE_net__IPv4AddressType (579) typedef unsigned int net__IPv4AddressType; #endif #ifndef SOAP_TYPE_net__MACAddressType #define SOAP_TYPE_net__MACAddressType (581) typedef std::string net__MACAddressType; #endif #ifndef SOAP_TYPE_net__LinkPolicyType #define SOAP_TYPE_net__LinkPolicyType (583) typedef unsigned char net__LinkPolicyType; #endif #ifndef SOAP_TYPE_net__InterfaceHandleType #define SOAP_TYPE_net__InterfaceHandleType (584) typedef unsigned int net__InterfaceHandleType; #endif #ifndef SOAP_TYPE_stra__PT_USCORESTATUS #define SOAP_TYPE_stra__PT_USCORESTATUS (585) typedef unsigned int stra__PT_USCORESTATUS; #endif #ifndef SOAP_TYPE_stra__StorageApplicationHandleType #define SOAP_TYPE_stra__StorageApplicationHandleType (586) typedef unsigned int stra__StorageApplicationHandleType; #endif #ifndef SOAP_TYPE_stra__StorageEaclEntryHandleType #define SOAP_TYPE_stra__StorageEaclEntryHandleType (588) typedef unsigned int stra__StorageEaclEntryHandleType; #endif #ifndef SOAP_TYPE_stra__StorageAllocEntryHandleType #define SOAP_TYPE_stra__StorageAllocEntryHandleType (589) typedef unsigned int stra__StorageAllocEntryHandleType; #endif #ifndef SOAP_TYPE_emi__TimeType #define SOAP_TYPE_emi__TimeType (590) typedef unsigned int emi__TimeType; #endif #ifndef SOAP_TYPE_emi__AlertSubscriptionPolicyIDType #define SOAP_TYPE_emi__AlertSubscriptionPolicyIDType (591) typedef unsigned char emi__AlertSubscriptionPolicyIDType; #endif #ifndef SOAP_TYPE_emi__AlertSubscriptionHandleType #define SOAP_TYPE_emi__AlertSubscriptionHandleType (592) typedef unsigned int emi__AlertSubscriptionHandleType; #endif #ifndef SOAP_TYPE_emi__EventFilterHandleType #define SOAP_TYPE_emi__EventFilterHandleType (593) typedef unsigned int emi__EventFilterHandleType; #endif #ifndef SOAP_TYPE_emi__PT_USCORESTATUS #define SOAP_TYPE_emi__PT_USCORESTATUS (595) typedef unsigned int emi__PT_USCORESTATUS; #endif #ifndef SOAP_TYPE_emi__IPv4AddressType #define SOAP_TYPE_emi__IPv4AddressType (596) typedef unsigned int emi__IPv4AddressType; #endif #ifndef SOAP_TYPE_emi__SensorHandleType #define SOAP_TYPE_emi__SensorHandleType (597) typedef unsigned int emi__SensorHandleType; #endif #ifndef SOAP_TYPE_emi__CommunityStringType #define SOAP_TYPE_emi__CommunityStringType (599) typedef std::string emi__CommunityStringType; #endif #ifndef SOAP_TYPE_cb__PT_USCORESTATUS #define SOAP_TYPE_cb__PT_USCORESTATUS (600) typedef unsigned int cb__PT_USCORESTATUS; #endif #ifndef SOAP_TYPE_cb__TimeType #define SOAP_TYPE_cb__TimeType (601) typedef unsigned int cb__TimeType; #endif #ifndef SOAP_TYPE_cb__IPv4AddressStringType #define SOAP_TYPE_cb__IPv4AddressStringType (602) typedef std::string cb__IPv4AddressStringType; #endif #ifndef SOAP_TYPE_cb__IPv6AddressStringType #define SOAP_TYPE_cb__IPv6AddressStringType (603) typedef std::string cb__IPv6AddressStringType; #endif #ifndef SOAP_TYPE__cb__FilterName #define SOAP_TYPE__cb__FilterName (610) typedef std::string _cb__FilterName; #endif #ifndef SOAP_TYPE__cb__PolicyName #define SOAP_TYPE__cb__PolicyName (611) typedef std::string _cb__PolicyName; #endif #ifndef SOAP_TYPE_hwa__PT_USCORESTATUS #define SOAP_TYPE_hwa__PT_USCORESTATUS (612) typedef unsigned int hwa__PT_USCORESTATUS; #endif #ifndef SOAP_TYPE_hwa__PT_USCOREBIOS_USCORECHARACTERISTICS #define SOAP_TYPE_hwa__PT_USCOREBIOS_USCORECHARACTERISTICS (614) typedef unsigned int hwa__PT_USCOREBIOS_USCORECHARACTERISTICS; #endif #ifndef SOAP_TYPE_hwa__PT_USCOREPROCESSOR_USCORETYPE #define SOAP_TYPE_hwa__PT_USCOREPROCESSOR_USCORETYPE (615) typedef unsigned char hwa__PT_USCOREPROCESSOR_USCORETYPE; #endif #ifndef SOAP_TYPE_hwa__PT_USCOREPROCESSOR_USCOREFAMILY #define SOAP_TYPE_hwa__PT_USCOREPROCESSOR_USCOREFAMILY (616) typedef unsigned char hwa__PT_USCOREPROCESSOR_USCOREFAMILY; #endif #ifndef SOAP_TYPE_hwa__PT_USCOREPROCESSOR_USCORESTATUS #define SOAP_TYPE_hwa__PT_USCOREPROCESSOR_USCORESTATUS (617) typedef unsigned char hwa__PT_USCOREPROCESSOR_USCORESTATUS; #endif #ifndef SOAP_TYPE_hwa__PT_USCOREPROCESSOR_USCOREUPGRADE #define SOAP_TYPE_hwa__PT_USCOREPROCESSOR_USCOREUPGRADE (618) typedef unsigned char hwa__PT_USCOREPROCESSOR_USCOREUPGRADE; #endif #ifndef SOAP_TYPE_hwa__PT_USCOREMEMORY_USCOREFORM_USCOREFACTOR #define SOAP_TYPE_hwa__PT_USCOREMEMORY_USCOREFORM_USCOREFACTOR (619) typedef unsigned char hwa__PT_USCOREMEMORY_USCOREFORM_USCOREFACTOR; #endif #ifndef SOAP_TYPE_hwa__PT_USCOREMEMORY_USCORETYPE #define SOAP_TYPE_hwa__PT_USCOREMEMORY_USCORETYPE (620) typedef unsigned char hwa__PT_USCOREMEMORY_USCORETYPE; #endif #ifndef SOAP_TYPE_hwa__PT_USCOREMEMORY_USCORETYPE_USCOREDETAIL #define SOAP_TYPE_hwa__PT_USCOREMEMORY_USCORETYPE_USCOREDETAIL (623) typedef unsigned short hwa__PT_USCOREMEMORY_USCORETYPE_USCOREDETAIL; #endif #ifndef SOAP_TYPE_apr__PT_USCORESTATUS #define SOAP_TYPE_apr__PT_USCORESTATUS (624) typedef unsigned int apr__PT_USCORESTATUS; #endif #ifndef SOAP_TYPE_apr__WatchdogState #define SOAP_TYPE_apr__WatchdogState (625) typedef unsigned char apr__WatchdogState; #endif #ifndef SOAP_TYPE__apr__AgentDescription #define SOAP_TYPE__apr__AgentDescription (627) typedef std::string _apr__AgentDescription; #endif #ifndef SOAP_TYPE_apl__PT_USCORESTATUS #define SOAP_TYPE_apl__PT_USCORESTATUS (628) typedef unsigned int apl__PT_USCORESTATUS; #endif #ifndef SOAP_TYPE_idr__PT_USCORESTATUS #define SOAP_TYPE_idr__PT_USCORESTATUS (629) typedef unsigned int idr__PT_USCORESTATUS; #endif #ifndef SOAP_TYPE_idr__TimeType #define SOAP_TYPE_idr__TimeType (630) typedef unsigned int idr__TimeType; #endif #ifndef SOAP_TYPE_idr__IPv4AddressType #define SOAP_TYPE_idr__IPv4AddressType (631) typedef unsigned int idr__IPv4AddressType; #endif #ifndef SOAP_TYPE_tim__PT_USCORESTATUS #define SOAP_TYPE_tim__PT_USCORESTATUS (632) typedef unsigned int tim__PT_USCORESTATUS; #endif #ifndef SOAP_TYPE_tim__TimeType #define SOAP_TYPE_tim__TimeType (633) typedef unsigned int tim__TimeType; #endif #ifndef SOAP_TYPE_str__PT_USCORESTATUS #define SOAP_TYPE_str__PT_USCORESTATUS (634) typedef unsigned int str__PT_USCORESTATUS; #endif #ifndef SOAP_TYPE_inf__PT_USCORESTATUS #define SOAP_TYPE_inf__PT_USCORESTATUS (635) typedef unsigned int inf__PT_USCORESTATUS; #endif #ifndef SOAP_TYPE_inf__TimeType #define SOAP_TYPE_inf__TimeType (636) typedef unsigned int inf__TimeType; #endif #ifndef SOAP_TYPE_inf__IPv4AddressType #define SOAP_TYPE_inf__IPv4AddressType (637) typedef unsigned int inf__IPv4AddressType; #endif #ifndef SOAP_TYPE_rci__SystemPowerStateType #define SOAP_TYPE_rci__SystemPowerStateType (642) typedef unsigned int rci__SystemPowerStateType; #endif #ifndef SOAP_TYPE_rci__PT_USCORESTATUS #define SOAP_TYPE_rci__PT_USCORESTATUS (643) typedef unsigned int rci__PT_USCORESTATUS; #endif #ifndef SOAP_TYPE_rci__SystemCapabilitiesSupportedType #define SOAP_TYPE_rci__SystemCapabilitiesSupportedType (644) typedef unsigned char rci__SystemCapabilitiesSupportedType; #endif #ifndef SOAP_TYPE_rci__SpecialCommandsSupportedType #define SOAP_TYPE_rci__SpecialCommandsSupportedType (645) typedef unsigned short rci__SpecialCommandsSupportedType; #endif #ifndef SOAP_TYPE_rci__SystemFirmwareCapabilitiesType #define SOAP_TYPE_rci__SystemFirmwareCapabilitiesType (646) typedef unsigned int rci__SystemFirmwareCapabilitiesType; #endif #ifndef SOAP_TYPE_rci__OemDefinedCapabilitiesType #define SOAP_TYPE_rci__OemDefinedCapabilitiesType (647) typedef unsigned int rci__OemDefinedCapabilitiesType; #endif #ifndef SOAP_TYPE_rci__BootOptionsType #define SOAP_TYPE_rci__BootOptionsType (650) typedef unsigned short rci__BootOptionsType; #endif #ifndef SOAP_TYPE_rci__SpecialCommandParameterType #define SOAP_TYPE_rci__SpecialCommandParameterType (651) typedef unsigned short rci__SpecialCommandParameterType; #endif #ifndef SOAP_TYPE_rci__OemParametersType #define SOAP_TYPE_rci__OemParametersType (652) typedef unsigned short rci__OemParametersType; #endif #ifndef SOAP_TYPE_wcxs__ProfileNameType #define SOAP_TYPE_wcxs__ProfileNameType (653) typedef std::string wcxs__ProfileNameType; #endif #ifndef SOAP_TYPE_wcxs__ProfilePriorityType #define SOAP_TYPE_wcxs__ProfilePriorityType (654) typedef unsigned char wcxs__ProfilePriorityType; #endif #ifndef SOAP_TYPE_wcxs__RawKey64Type #define SOAP_TYPE_wcxs__RawKey64Type (656) typedef xsd__base64Binary wcxs__RawKey64Type; #endif #ifndef SOAP_TYPE_wcxs__RawKey128Type #define SOAP_TYPE_wcxs__RawKey128Type (657) typedef xsd__base64Binary wcxs__RawKey128Type; #endif #ifndef SOAP_TYPE_wcxs__RawKey256Type #define SOAP_TYPE_wcxs__RawKey256Type (658) typedef xsd__base64Binary wcxs__RawKey256Type; #endif #ifndef SOAP_TYPE_wcxs__PassPhrase5Type #define SOAP_TYPE_wcxs__PassPhrase5Type (659) typedef std::string wcxs__PassPhrase5Type; #endif #ifndef SOAP_TYPE_wcxs__PassPhraseWEP128Type #define SOAP_TYPE_wcxs__PassPhraseWEP128Type (660) typedef std::string wcxs__PassPhraseWEP128Type; #endif #ifndef SOAP_TYPE_wcxs__PassPhrase63Type #define SOAP_TYPE_wcxs__PassPhrase63Type (661) typedef std::string wcxs__PassPhrase63Type; #endif /******************************************************************************\ * * * Typedef Synonyms * * * \******************************************************************************/ typedef enum sai__UserAclRealmType sai__UserAclRealmType; typedef enum sai__RsaKeyEncodingType sai__RsaKeyEncodingType; typedef enum sai__RsaCertificateEncodingType sai__RsaCertificateEncodingType; typedef enum sai__RngKeyEncodingType sai__RngKeyEncodingType; typedef enum sai__ProvisioningModeType sai__ProvisioningModeType; typedef enum sai__AccessPermissionType sai__AccessPermissionType; typedef enum sai__KerberosSpnProtocolType sai__KerberosSpnProtocolType; typedef enum sai__KerberosEncryptionType sai__KerberosEncryptionType; typedef enum sai__PowerStateType sai__PowerStateType; typedef enum sai__EnabledInterfacesType sai__EnabledInterfacesType; typedef enum sai__InterfaceType sai__InterfaceType; typedef enum sai__TlsAthenticationType sai__TlsAthenticationType; typedef enum sai__ProvisioningTLSModeType sai__ProvisioningTLSModeType; typedef enum sai__HashTypeType sai__HashTypeType; typedef enum sai__HTTPAuthOptionType sai__HTTPAuthOptionType; typedef enum xcfg__CertNameOptionsType xcfg__CertNameOptionsType; typedef enum net__DhcpModeType net__DhcpModeType; typedef enum net__InterfaceModeType net__InterfaceModeType; typedef enum stra__ISVS_USCOREAPP_USCOREATTR_USCORETYPE stra__ISVS_USCOREAPP_USCOREATTR_USCORETYPE; typedef enum emi__EventSeverityType emi__EventSeverityType; typedef enum emi__AlertAuthOptionsType emi__AlertAuthOptionsType; typedef enum cb__CircuitBreakerFilterDirectionType cb__CircuitBreakerFilterDirectionType; typedef enum cb__CircuitBreakerFilterIPAddressDirectionType cb__CircuitBreakerFilterIPAddressDirectionType; typedef enum cb__CircuitBreakerProfileType cb__CircuitBreakerProfileType; typedef enum cb__CircuitBreakerApplicationType cb__CircuitBreakerApplicationType; typedef enum cb__HcbStateType cb__HcbStateType; typedef enum cb__HcbTriggerReasonType cb__HcbTriggerReasonType; typedef enum hwa__AssetTypeType hwa__AssetTypeType; typedef enum apr__CbActionType apr__CbActionType; typedef enum inf__ProvisioningModeType inf__ProvisioningModeType; typedef enum inf__ProvisioningStateType inf__ProvisioningStateType; typedef enum inf__PasswordModelType inf__PasswordModelType; typedef enum inf__EnabledInterfacesType inf__EnabledInterfacesType; typedef enum rci__RemoteControlCommandType rci__RemoteControlCommandType; typedef enum rci__SpecialCommandType rci__SpecialCommandType; typedef enum wcxs__KeyIndexType wcxs__KeyIndexType; typedef enum wcxs__FeatureType wcxs__FeatureType; /******************************************************************************\ * * * Externals * * * \******************************************************************************/ /******************************************************************************\ * * * Stubs * * * \******************************************************************************/ SOAP_FMAC5 int SOAP_FMAC6 soap_call___apl__AgentWatchdogShutdown(struct soap *soap, const char *soap_endpoint, const char *soap_action, _apl__AgentWatchdogShutdown *apl__AgentWatchdogShutdown, _apl__AgentWatchdogShutdownResponse *apl__AgentWatchdogShutdownResponse); SOAP_FMAC5 int SOAP_FMAC6 soap_call___apl__AgentWatchdogHeartbeat(struct soap *soap, const char *soap_endpoint, const char *soap_action, _apl__AgentWatchdogHeartbeat *apl__AgentWatchdogHeartbeat, _apl__AgentWatchdogHeartbeatResponse *apl__AgentWatchdogHeartbeatResponse); SOAP_FMAC5 int SOAP_FMAC6 soap_call___apl__AgentWatchdogRegister(struct soap *soap, const char *soap_endpoint, const char *soap_action, _apl__AgentWatchdogRegister *apl__AgentWatchdogRegister, _apl__AgentWatchdogRegisterResponse *apl__AgentWatchdogRegisterResponse); SOAP_FMAC5 int SOAP_FMAC6 soap_call___apr__ConsoleWatchdogCreate(struct soap *soap, const char *soap_endpoint, const char *soap_action, _apr__ConsoleWatchdogCreate *apr__ConsoleWatchdogCreate, _apr__ConsoleWatchdogCreateResponse *apr__ConsoleWatchdogCreateResponse); SOAP_FMAC5 int SOAP_FMAC6 soap_call___apr__ConsoleWatchdogDelete(struct soap *soap, const char *soap_endpoint, const char *soap_action, _apr__ConsoleWatchdogDelete *apr__ConsoleWatchdogDelete, _apr__ConsoleWatchdogDeleteResponse *apr__ConsoleWatchdogDeleteResponse); SOAP_FMAC5 int SOAP_FMAC6 soap_call___apr__ConsoleWatchdogEnumerate(struct soap *soap, const char *soap_endpoint, const char *soap_action, _apr__ConsoleWatchdogEnumerate *apr__ConsoleWatchdogEnumerate, _apr__ConsoleWatchdogEnumerateResponse *apr__ConsoleWatchdogEnumerateResponse); SOAP_FMAC5 int SOAP_FMAC6 soap_call___apr__ConsoleWatchdogSetActions(struct soap *soap, const char *soap_endpoint, const char *soap_action, _apr__ConsoleWatchdogSetActions *apr__ConsoleWatchdogSetActions, _apr__ConsoleWatchdogSetActionsResponse *apr__ConsoleWatchdogSetActionsResponse); SOAP_FMAC5 int SOAP_FMAC6 soap_call___apr__ConsoleWatchdogGetActions(struct soap *soap, const char *soap_endpoint, const char *soap_action, _apr__ConsoleWatchdogGetActions *apr__ConsoleWatchdogGetActions, _apr__ConsoleWatchdogGetActionsResponse *apr__ConsoleWatchdogGetActionsResponse); SOAP_FMAC5 int SOAP_FMAC6 soap_call___apr__ConsoleWatchdogSetCbPolicy(struct soap *soap, const char *soap_endpoint, const char *soap_action, _apr__ConsoleWatchdogSetCbPolicy *apr__ConsoleWatchdogSetCbPolicy, _apr__ConsoleWatchdogSetCbPolicyResponse *apr__ConsoleWatchdogSetCbPolicyResponse); SOAP_FMAC5 int SOAP_FMAC6 soap_call___apr__ConsoleWatchdogGetCbPolicy(struct soap *soap, const char *soap_endpoint, const char *soap_action, _apr__ConsoleWatchdogGetCbPolicy *apr__ConsoleWatchdogGetCbPolicy, _apr__ConsoleWatchdogGetCbPolicyResponse *apr__ConsoleWatchdogGetCbPolicyResponse); SOAP_FMAC5 int SOAP_FMAC6 soap_call___apr__ConsoleWatchdogQueryCapabilities(struct soap *soap, const char *soap_endpoint, const char *soap_action, _apr__ConsoleWatchdogQueryCapabilities *apr__ConsoleWatchdogQueryCapabilities, _apr__ConsoleWatchdogQueryCapabilitiesResponse *apr__ConsoleWatchdogQueryCapabilitiesResponse); SOAP_FMAC5 int SOAP_FMAC6 soap_call___cb__CbPolicyCreate(struct soap *soap, const char *soap_endpoint, const char *soap_action, _cb__CbPolicyCreate *cb__CbPolicyCreate, _cb__CbPolicyCreateResponse *cb__CbPolicyCreateResponse); SOAP_FMAC5 int SOAP_FMAC6 soap_call___cb__CbPolicyGet(struct soap *soap, const char *soap_endpoint, const char *soap_action, _cb__CbPolicyGet *cb__CbPolicyGet, _cb__CbPolicyGetResponse *cb__CbPolicyGetResponse); SOAP_FMAC5 int SOAP_FMAC6 soap_call___cb__CbPolicyDelete(struct soap *soap, const char *soap_endpoint, const char *soap_action, _cb__CbPolicyDelete *cb__CbPolicyDelete, _cb__CbPolicyDeleteResponse *cb__CbPolicyDeleteResponse); SOAP_FMAC5 int SOAP_FMAC6 soap_call___cb__CbPolicyEnumerate(struct soap *soap, const char *soap_endpoint, const char *soap_action, _cb__CbPolicyEnumerate *cb__CbPolicyEnumerate, _cb__CbPolicyEnumerateResponse *cb__CbPolicyEnumerateResponse); SOAP_FMAC5 int SOAP_FMAC6 soap_call___cb__CbPolicyEnable(struct soap *soap, const char *soap_endpoint, const char *soap_action, _cb__CbPolicyEnable *cb__CbPolicyEnable, _cb__CbPolicyEnableResponse *cb__CbPolicyEnableResponse); SOAP_FMAC5 int SOAP_FMAC6 soap_call___cb__CbPolicyDisable(struct soap *soap, const char *soap_endpoint, const char *soap_action, _cb__CbPolicyDisable *cb__CbPolicyDisable, _cb__CbPolicyDisableResponse *cb__CbPolicyDisableResponse); SOAP_FMAC5 int SOAP_FMAC6 soap_call___cb__CbPolicyGetEnabled(struct soap *soap, const char *soap_endpoint, const char *soap_action, _cb__CbPolicyGetEnabled *cb__CbPolicyGetEnabled, _cb__CbPolicyGetEnabledResponse *cb__CbPolicyGetEnabledResponse); SOAP_FMAC5 int SOAP_FMAC6 soap_call___cb__CbPolicyGetActiveStatistics(struct soap *soap, const char *soap_endpoint, const char *soap_action, _cb__CbPolicyGetActiveStatistics *cb__CbPolicyGetActiveStatistics, _cb__CbPolicyGetActiveStatisticsResponse *cb__CbPolicyGetActiveStatisticsResponse); SOAP_FMAC5 int SOAP_FMAC6 soap_call___cb__CbFilterCreate(struct soap *soap, const char *soap_endpoint, const char *soap_action, _cb__CbFilterCreate *cb__CbFilterCreate, _cb__CbFilterCreateResponse *cb__CbFilterCreateResponse); SOAP_FMAC5 int SOAP_FMAC6 soap_call___cb__CbFilterGet(struct soap *soap, const char *soap_endpoint, const char *soap_action, _cb__CbFilterGet *cb__CbFilterGet, _cb__CbFilterGetResponse *cb__CbFilterGetResponse); SOAP_FMAC5 int SOAP_FMAC6 soap_call___cb__CbFilterDelete(struct soap *soap, const char *soap_endpoint, const char *soap_action, _cb__CbFilterDelete *cb__CbFilterDelete, _cb__CbFilterDeleteResponse *cb__CbFilterDeleteResponse); SOAP_FMAC5 int SOAP_FMAC6 soap_call___cb__CbFilterEnumerate(struct soap *soap, const char *soap_endpoint, const char *soap_action, _cb__CbFilterEnumerate *cb__CbFilterEnumerate, _cb__CbFilterEnumerateResponse *cb__CbFilterEnumerateResponse); SOAP_FMAC5 int SOAP_FMAC6 soap_call___cb__CbQueryCapabilities(struct soap *soap, const char *soap_endpoint, const char *soap_action, _cb__CbQueryCapabilities *cb__CbQueryCapabilities, _cb__CbQueryCapabilitiesResponse *cb__CbQueryCapabilitiesResponse); SOAP_FMAC5 int SOAP_FMAC6 soap_call___cb__SetHcbOptions(struct soap *soap, const char *soap_endpoint, const char *soap_action, _cb__SetHcbOptions *cb__SetHcbOptions, _cb__SetHcbOptionsResponse *cb__SetHcbOptionsResponse); SOAP_FMAC5 int SOAP_FMAC6 soap_call___cb__GetHcbOptions(struct soap *soap, const char *soap_endpoint, const char *soap_action, _cb__GetHcbOptions *cb__GetHcbOptions, _cb__GetHcbOptionsResponse *cb__GetHcbOptionsResponse); SOAP_FMAC5 int SOAP_FMAC6 soap_call___cb__ClearHcbState(struct soap *soap, const char *soap_endpoint, const char *soap_action, _cb__ClearHcbState *cb__ClearHcbState, _cb__ClearHcbStateResponse *cb__ClearHcbStateResponse); SOAP_FMAC5 int SOAP_FMAC6 soap_call___cb__GetHcbState(struct soap *soap, const char *soap_endpoint, const char *soap_action, _cb__GetHcbState *cb__GetHcbState, _cb__GetHcbStateResponse *cb__GetHcbStateResponse); SOAP_FMAC5 int SOAP_FMAC6 soap_call___emi__EnumerateEventFilters(struct soap *soap, const char *soap_endpoint, const char *soap_action, _emi__EnumerateEventFilters *emi__EnumerateEventFilters, _emi__EnumerateEventFiltersResponse *emi__EnumerateEventFiltersResponse); SOAP_FMAC5 int SOAP_FMAC6 soap_call___emi__GetAlertSubscription(struct soap *soap, const char *soap_endpoint, const char *soap_action, _emi__GetAlertSubscription *emi__GetAlertSubscription, _emi__GetAlertSubscriptionResponse *emi__GetAlertSubscriptionResponse); SOAP_FMAC5 int SOAP_FMAC6 soap_call___emi__SetAlertCommunityString(struct soap *soap, const char *soap_endpoint, const char *soap_action, _emi__SetAlertCommunityString *emi__SetAlertCommunityString, _emi__SetAlertCommunityStringResponse *emi__SetAlertCommunityStringResponse); SOAP_FMAC5 int SOAP_FMAC6 soap_call___emi__GetAlertCommunityString(struct soap *soap, const char *soap_endpoint, const char *soap_action, _emi__GetAlertCommunityString *emi__GetAlertCommunityString, _emi__GetAlertCommunityStringResponse *emi__GetAlertCommunityStringResponse); SOAP_FMAC5 int SOAP_FMAC6 soap_call___emi__AddEventFilter(struct soap *soap, const char *soap_endpoint, const char *soap_action, _emi__AddEventFilter *emi__AddEventFilter, _emi__AddEventFilterResponse *emi__AddEventFilterResponse); SOAP_FMAC5 int SOAP_FMAC6 soap_call___emi__SubscribeForAlert(struct soap *soap, const char *soap_endpoint, const char *soap_action, _emi__SubscribeForAlert *emi__SubscribeForAlert, _emi__SubscribeForAlertResponse *emi__SubscribeForAlertResponse); SOAP_FMAC5 int SOAP_FMAC6 soap_call___emi__EnumerateAlertSubscriptions(struct soap *soap, const char *soap_endpoint, const char *soap_action, _emi__EnumerateAlertSubscriptions *emi__EnumerateAlertSubscriptions, _emi__EnumerateAlertSubscriptionsResponse *emi__EnumerateAlertSubscriptionsResponse); SOAP_FMAC5 int SOAP_FMAC6 soap_call___emi__EnumerateAlertPolicies(struct soap *soap, const char *soap_endpoint, const char *soap_action, _emi__EnumerateAlertPolicies *emi__EnumerateAlertPolicies, _emi__EnumerateAlertPoliciesResponse *emi__EnumerateAlertPoliciesResponse); SOAP_FMAC5 int SOAP_FMAC6 soap_call___emi__CancelAlertSubscription(struct soap *soap, const char *soap_endpoint, const char *soap_action, _emi__CancelAlertSubscription *emi__CancelAlertSubscription, _emi__CancelAlertSubscriptionResponse *emi__CancelAlertSubscriptionResponse); SOAP_FMAC5 int SOAP_FMAC6 soap_call___emi__GetEventFilter(struct soap *soap, const char *soap_endpoint, const char *soap_action, _emi__GetEventFilter *emi__GetEventFilter, _emi__GetEventFilterResponse *emi__GetEventFilterResponse); SOAP_FMAC5 int SOAP_FMAC6 soap_call___emi__UpdateEventFilter(struct soap *soap, const char *soap_endpoint, const char *soap_action, _emi__UpdateEventFilter *emi__UpdateEventFilter, _emi__UpdateEventFilterResponse *emi__UpdateEventFilterResponse); SOAP_FMAC5 int SOAP_FMAC6 soap_call___emi__RemoveEventFilter(struct soap *soap, const char *soap_endpoint, const char *soap_action, _emi__RemoveEventFilter *emi__RemoveEventFilter, _emi__RemoveEventFilterResponse *emi__RemoveEventFilterResponse); SOAP_FMAC5 int SOAP_FMAC6 soap_call___emi__GetEventLogStatus(struct soap *soap, const char *soap_endpoint, const char *soap_action, _emi__GetEventLogStatus *emi__GetEventLogStatus, _emi__GetEventLogStatusResponse *emi__GetEventLogStatusResponse); SOAP_FMAC5 int SOAP_FMAC6 soap_call___emi__ReadEventLogRecords(struct soap *soap, const char *soap_endpoint, const char *soap_action, _emi__ReadEventLogRecords *emi__ReadEventLogRecords, _emi__ReadEventLogRecordsResponse *emi__ReadEventLogRecordsResponse); SOAP_FMAC5 int SOAP_FMAC6 soap_call___emi__ClearEventLog(struct soap *soap, const char *soap_endpoint, const char *soap_action, _emi__ClearEventLog *emi__ClearEventLog, _emi__ClearEventLogResponse *emi__ClearEventLogResponse); SOAP_FMAC5 int SOAP_FMAC6 soap_call___emi__FreezeEventLog(struct soap *soap, const char *soap_endpoint, const char *soap_action, _emi__FreezeEventLog *emi__FreezeEventLog, _emi__FreezeEventLogResponse *emi__FreezeEventLogResponse); SOAP_FMAC5 int SOAP_FMAC6 soap_call___emi__SetEventLogTimestampClock(struct soap *soap, const char *soap_endpoint, const char *soap_action, _emi__SetEventLogTimestampClock *emi__SetEventLogTimestampClock, _emi__SetEventLogTimestampClockResponse *emi__SetEventLogTimestampClockResponse); SOAP_FMAC5 int SOAP_FMAC6 soap_call___emi__GetEventLogTimestampClock(struct soap *soap, const char *soap_endpoint, const char *soap_action, _emi__GetEventLogTimestampClock *emi__GetEventLogTimestampClock, _emi__GetEventLogTimestampClockResponse *emi__GetEventLogTimestampClockResponse); SOAP_FMAC5 int SOAP_FMAC6 soap_call___emi__EnumerateSensors(struct soap *soap, const char *soap_endpoint, const char *soap_action, _emi__EnumerateSensors *emi__EnumerateSensors, _emi__EnumerateSensorsResponse *emi__EnumerateSensorsResponse); SOAP_FMAC5 int SOAP_FMAC6 soap_call___emi__GetSensorAttributes(struct soap *soap, const char *soap_endpoint, const char *soap_action, _emi__GetSensorAttributes *emi__GetSensorAttributes, _emi__GetSensorAttributesResponse *emi__GetSensorAttributesResponse); SOAP_FMAC5 int SOAP_FMAC6 soap_call___emi__SubscribeForGeneralAlert(struct soap *soap, const char *soap_endpoint, const char *soap_action, _emi__SubscribeForGeneralAlert *emi__SubscribeForGeneralAlert, _emi__SubscribeForGeneralAlertResponse *emi__SubscribeForGeneralAlertResponse); SOAP_FMAC5 int SOAP_FMAC6 soap_call___emi__EnumerateGeneralAlertSubscriptions(struct soap *soap, const char *soap_endpoint, const char *soap_action, _emi__EnumerateGeneralAlertSubscriptions *emi__EnumerateGeneralAlertSubscriptions, _emi__EnumerateGeneralAlertSubscriptionsResponse *emi__EnumerateGeneralAlertSubscriptionsResponse); SOAP_FMAC5 int SOAP_FMAC6 soap_call___emi__GetGeneralAlertSubscription(struct soap *soap, const char *soap_endpoint, const char *soap_action, _emi__GetGeneralAlertSubscription *emi__GetGeneralAlertSubscription, _emi__GetGeneralAlertSubscriptionResponse *emi__GetGeneralAlertSubscriptionResponse); SOAP_FMAC5 int SOAP_FMAC6 soap_call___hwa__EnumerateAssetTypes(struct soap *soap, const char *soap_endpoint, const char *soap_action, _hwa__EnumerateAssetTypes *hwa__EnumerateAssetTypes, _hwa__EnumerateAssetTypesResponse *hwa__EnumerateAssetTypesResponse); SOAP_FMAC5 int SOAP_FMAC6 soap_call___hwa__GetAssetData(struct soap *soap, const char *soap_endpoint, const char *soap_action, _hwa__GetAssetData *hwa__GetAssetData, _hwa__GetAssetDataResponse *hwa__GetAssetDataResponse); SOAP_FMAC5 int SOAP_FMAC6 soap_call___idr__SetRedirectionListenerState(struct soap *soap, const char *soap_endpoint, const char *soap_action, _idr__SetRedirectionListenerState *idr__SetRedirectionListenerState, _idr__SetRedirectionListenerStateResponse *idr__SetRedirectionListenerStateResponse); SOAP_FMAC5 int SOAP_FMAC6 soap_call___idr__GetRedirectionListenerState(struct soap *soap, const char *soap_endpoint, const char *soap_action, _idr__GetRedirectionListenerState *idr__GetRedirectionListenerState, _idr__GetRedirectionListenerStateResponse *idr__GetRedirectionListenerStateResponse); SOAP_FMAC5 int SOAP_FMAC6 soap_call___idr__GetIderSessionLog(struct soap *soap, const char *soap_endpoint, const char *soap_action, _idr__GetIderSessionLog *idr__GetIderSessionLog, _idr__GetIderSessionLogResponse *idr__GetIderSessionLogResponse); SOAP_FMAC5 int SOAP_FMAC6 soap_call___inf__GetCoreVersion(struct soap *soap, const char *soap_endpoint, const char *soap_action, _inf__GetCoreVersion *inf__GetCoreVersion, _inf__GetCoreVersionResponse *inf__GetCoreVersionResponse); SOAP_FMAC5 int SOAP_FMAC6 soap_call___inf__GetCodeVersions(struct soap *soap, const char *soap_endpoint, const char *soap_action, _inf__GetCodeVersions *inf__GetCodeVersions, _inf__GetCodeVersionsResponse *inf__GetCodeVersionsResponse); SOAP_FMAC5 int SOAP_FMAC6 soap_call___inf__GetProvisioningMode(struct soap *soap, const char *soap_endpoint, const char *soap_action, _inf__GetProvisioningMode *inf__GetProvisioningMode, _inf__GetProvisioningModeResponse *inf__GetProvisioningModeResponse); SOAP_FMAC5 int SOAP_FMAC6 soap_call___inf__GetProvisioningState(struct soap *soap, const char *soap_endpoint, const char *soap_action, _inf__GetProvisioningState *inf__GetProvisioningState, _inf__GetProvisioningStateResponse *inf__GetProvisioningStateResponse); SOAP_FMAC5 int SOAP_FMAC6 soap_call___inf__GetVlanParameters(struct soap *soap, const char *soap_endpoint, const char *soap_action, _inf__GetVlanParameters *inf__GetVlanParameters, _inf__GetVlanParametersResponse *inf__GetVlanParametersResponse); SOAP_FMAC5 int SOAP_FMAC6 soap_call___inf__GetHostName(struct soap *soap, const char *soap_endpoint, const char *soap_action, _inf__GetHostName *inf__GetHostName, _inf__GetHostNameResponse *inf__GetHostNameResponse); SOAP_FMAC5 int SOAP_FMAC6 soap_call___inf__GetConfigServerInfo(struct soap *soap, const char *soap_endpoint, const char *soap_action, _inf__GetConfigServerInfo *inf__GetConfigServerInfo, _inf__GetConfigServerInfoResponse *inf__GetConfigServerInfoResponse); SOAP_FMAC5 int SOAP_FMAC6 soap_call___inf__GetAdminAclEntryStatus(struct soap *soap, const char *soap_endpoint, const char *soap_action, _inf__GetAdminAclEntryStatus *inf__GetAdminAclEntryStatus, _inf__GetAdminAclEntryStatusResponse *inf__GetAdminAclEntryStatusResponse); SOAP_FMAC5 int SOAP_FMAC6 soap_call___inf__GetAdminNetAclEntryStatus(struct soap *soap, const char *soap_endpoint, const char *soap_action, _inf__GetAdminNetAclEntryStatus *inf__GetAdminNetAclEntryStatus, _inf__GetAdminNetAclEntryStatusResponse *inf__GetAdminNetAclEntryStatusResponse); SOAP_FMAC5 int SOAP_FMAC6 soap_call___inf__GetPasswordModel(struct soap *soap, const char *soap_endpoint, const char *soap_action, _inf__GetPasswordModel *inf__GetPasswordModel, _inf__GetPasswordModelResponse *inf__GetPasswordModelResponse); SOAP_FMAC5 int SOAP_FMAC6 soap_call___inf__GetEnabledInterfaces(struct soap *soap, const char *soap_endpoint, const char *soap_action, _inf__GetEnabledInterfaces *inf__GetEnabledInterfaces, _inf__GetEnabledInterfacesResponse *inf__GetEnabledInterfacesResponse); SOAP_FMAC5 int SOAP_FMAC6 soap_call___inf__GetNetworkState(struct soap *soap, const char *soap_endpoint, const char *soap_action, _inf__GetNetworkState *inf__GetNetworkState, _inf__GetNetworkStateResponse *inf__GetNetworkStateResponse); SOAP_FMAC5 int SOAP_FMAC6 soap_call___inf__GetSecurityParameters(struct soap *soap, const char *soap_endpoint, const char *soap_action, _inf__GetSecurityParameters *inf__GetSecurityParameters, _inf__GetSecurityParametersResponse *inf__GetSecurityParametersResponse); SOAP_FMAC5 int SOAP_FMAC6 soap_call___inf__GetIderSessionLog(struct soap *soap, const char *soap_endpoint, const char *soap_action, _inf__GetIderSessionLog *inf__GetIderSessionLog, _inf__GetIderSessionLogResponse *inf__GetIderSessionLogResponse); SOAP_FMAC5 int SOAP_FMAC6 soap_call___net__SetHostName(struct soap *soap, const char *soap_endpoint, const char *soap_action, _net__SetHostName *net__SetHostName, _net__SetHostNameResponse *net__SetHostNameResponse); SOAP_FMAC5 int SOAP_FMAC6 soap_call___net__GetHostName(struct soap *soap, const char *soap_endpoint, const char *soap_action, _net__GetHostName *net__GetHostName, _net__GetHostNameResponse *net__GetHostNameResponse); SOAP_FMAC5 int SOAP_FMAC6 soap_call___net__SetDomainName(struct soap *soap, const char *soap_endpoint, const char *soap_action, _net__SetDomainName *net__SetDomainName, _net__SetDomainNameResponse *net__SetDomainNameResponse); SOAP_FMAC5 int SOAP_FMAC6 soap_call___net__GetDomainName(struct soap *soap, const char *soap_endpoint, const char *soap_action, _net__GetDomainName *net__GetDomainName, _net__GetDomainNameResponse *net__GetDomainNameResponse); SOAP_FMAC5 int SOAP_FMAC6 soap_call___net__SetTcpIpParameters(struct soap *soap, const char *soap_endpoint, const char *soap_action, _net__SetTcpIpParameters *net__SetTcpIpParameters, _net__SetTcpIpParametersResponse *net__SetTcpIpParametersResponse); SOAP_FMAC5 int SOAP_FMAC6 soap_call___net__GetTcpIpParameters(struct soap *soap, const char *soap_endpoint, const char *soap_action, _net__GetTcpIpParameters *net__GetTcpIpParameters, _net__GetTcpIpParametersResponse *net__GetTcpIpParametersResponse); SOAP_FMAC5 int SOAP_FMAC6 soap_call___net__SetVlanParameters(struct soap *soap, const char *soap_endpoint, const char *soap_action, _net__SetVlanParameters *net__SetVlanParameters, _net__SetVlanParametersResponse *net__SetVlanParametersResponse); SOAP_FMAC5 int SOAP_FMAC6 soap_call___net__GetVlanParameters(struct soap *soap, const char *soap_endpoint, const char *soap_action, _net__GetVlanParameters *net__GetVlanParameters, _net__GetVlanParametersResponse *net__GetVlanParametersResponse); SOAP_FMAC5 int SOAP_FMAC6 soap_call___net__SetPingResponse(struct soap *soap, const char *soap_endpoint, const char *soap_action, _net__SetPingResponse *net__SetPingResponse, _net__SetPingResponseResponse *net__SetPingResponseResponse); SOAP_FMAC5 int SOAP_FMAC6 soap_call___net__GetPingResponse(struct soap *soap, const char *soap_endpoint, const char *soap_action, _net__GetPingResponse *net__GetPingResponse, _net__GetPingResponseResponse *net__GetPingResponseResponse); SOAP_FMAC5 int SOAP_FMAC6 soap_call___net__EnumerateInterfaces(struct soap *soap, const char *soap_endpoint, const char *soap_action, _net__EnumerateInterfaces *net__EnumerateInterfaces, _net__EnumerateInterfacesResponse *net__EnumerateInterfacesResponse); SOAP_FMAC5 int SOAP_FMAC6 soap_call___net__GetInterfaceSettings(struct soap *soap, const char *soap_endpoint, const char *soap_action, _net__GetInterfaceSettings *net__GetInterfaceSettings, _net__GetInterfaceSettingsResponse *net__GetInterfaceSettingsResponse); SOAP_FMAC5 int SOAP_FMAC6 soap_call___net__SetInterfaceSettings(struct soap *soap, const char *soap_endpoint, const char *soap_action, _net__SetInterfaceSettings *net__SetInterfaceSettings, _net__SetInterfaceSettingsResponse *net__SetInterfaceSettingsResponse); SOAP_FMAC5 int SOAP_FMAC6 soap_call___net__Set8021XWiredProfile(struct soap *soap, const char *soap_endpoint, const char *soap_action, _net__Set8021XWiredProfile *net__Set8021XWiredProfile, _net__Set8021XWiredProfileResponse *net__Set8021XWiredProfileResponse); SOAP_FMAC5 int SOAP_FMAC6 soap_call___net__Get8021XWiredProfile(struct soap *soap, const char *soap_endpoint, const char *soap_action, _net__Get8021XWiredProfile *net__Get8021XWiredProfile, _net__Get8021XWiredProfileResponse *net__Get8021XWiredProfileResponse); SOAP_FMAC5 int SOAP_FMAC6 soap_call___net__Set8021XActiveS0(struct soap *soap, const char *soap_endpoint, const char *soap_action, _net__Set8021XActiveS0 *net__Set8021XActiveS0, _net__Set8021XActiveS0Response *net__Set8021XActiveS0Response); SOAP_FMAC5 int SOAP_FMAC6 soap_call___net__Get8021XActiveS0(struct soap *soap, const char *soap_endpoint, const char *soap_action, _net__Get8021XActiveS0 *net__Get8021XActiveS0, _net__Get8021XActiveS0Response *net__Get8021XActiveS0Response); SOAP_FMAC5 int SOAP_FMAC6 soap_call___net__Set8021XPxeTimeout(struct soap *soap, const char *soap_endpoint, const char *soap_action, _net__Set8021XPxeTimeout *net__Set8021XPxeTimeout, _net__Set8021XPxeTimeoutResponse *net__Set8021XPxeTimeoutResponse); SOAP_FMAC5 int SOAP_FMAC6 soap_call___net__Get8021XPxeTimeout(struct soap *soap, const char *soap_endpoint, const char *soap_action, _net__Get8021XPxeTimeout *net__Get8021XPxeTimeout, _net__Get8021XPxeTimeoutResponse *net__Get8021XPxeTimeoutResponse); SOAP_FMAC5 int SOAP_FMAC6 soap_call___rci__GetRemoteControlCapabilities(struct soap *soap, const char *soap_endpoint, const char *soap_action, _rci__GetRemoteControlCapabilities *rci__GetRemoteControlCapabilities, _rci__GetRemoteControlCapabilitiesResponse *rci__GetRemoteControlCapabilitiesResponse); SOAP_FMAC5 int SOAP_FMAC6 soap_call___rci__RemoteControl(struct soap *soap, const char *soap_endpoint, const char *soap_action, _rci__RemoteControl *rci__RemoteControl, _rci__RemoteControlResponse *rci__RemoteControlResponse); SOAP_FMAC5 int SOAP_FMAC6 soap_call___rci__GetSystemPowerState(struct soap *soap, const char *soap_endpoint, const char *soap_action, _rci__GetSystemPowerState *rci__GetSystemPowerState, _rci__GetSystemPowerStateResponse *rci__GetSystemPowerStateResponse); SOAP_FMAC5 int SOAP_FMAC6 soap_call___sai__ResetFlashWearOutProtection(struct soap *soap, const char *soap_endpoint, const char *soap_action, _sai__ResetFlashWearOutProtection *sai__ResetFlashWearOutProtection, _sai__ResetFlashWearOutProtectionResponse *sai__ResetFlashWearOutProtectionResponse); SOAP_FMAC5 int SOAP_FMAC6 soap_call___sai__GetAdminAclEntry(struct soap *soap, const char *soap_endpoint, const char *soap_action, _sai__GetAdminAclEntry *sai__GetAdminAclEntry, _sai__GetAdminAclEntryResponse *sai__GetAdminAclEntryResponse); SOAP_FMAC5 int SOAP_FMAC6 soap_call___sai__SetAdminAclEntry(struct soap *soap, const char *soap_endpoint, const char *soap_action, _sai__SetAdminAclEntry *sai__SetAdminAclEntry, _sai__SetAdminAclEntryResponse *sai__SetAdminAclEntryResponse); SOAP_FMAC5 int SOAP_FMAC6 soap_call___sai__AddUserAclEntry(struct soap *soap, const char *soap_endpoint, const char *soap_action, _sai__AddUserAclEntry *sai__AddUserAclEntry, _sai__AddUserAclEntryResponse *sai__AddUserAclEntryResponse); SOAP_FMAC5 int SOAP_FMAC6 soap_call___sai__EnumerateUserAclEntries(struct soap *soap, const char *soap_endpoint, const char *soap_action, _sai__EnumerateUserAclEntries *sai__EnumerateUserAclEntries, _sai__EnumerateUserAclEntriesResponse *sai__EnumerateUserAclEntriesResponse); SOAP_FMAC5 int SOAP_FMAC6 soap_call___sai__GetUserAclEntry(struct soap *soap, const char *soap_endpoint, const char *soap_action, _sai__GetUserAclEntry *sai__GetUserAclEntry, _sai__GetUserAclEntryResponse *sai__GetUserAclEntryResponse); SOAP_FMAC5 int SOAP_FMAC6 soap_call___sai__UpdateUserAclEntry(struct soap *soap, const char *soap_endpoint, const char *soap_action, _sai__UpdateUserAclEntry *sai__UpdateUserAclEntry, _sai__UpdateUserAclEntryResponse *sai__UpdateUserAclEntryResponse); SOAP_FMAC5 int SOAP_FMAC6 soap_call___sai__RemoveUserAclEntry(struct soap *soap, const char *soap_endpoint, const char *soap_action, _sai__RemoveUserAclEntry *sai__RemoveUserAclEntry, _sai__RemoveUserAclEntryResponse *sai__RemoveUserAclEntryResponse); SOAP_FMAC5 int SOAP_FMAC6 soap_call___sai__SetTlsEnabled(struct soap *soap, const char *soap_endpoint, const char *soap_action, _sai__SetTlsEnabled *sai__SetTlsEnabled, _sai__SetTlsEnabledResponse *sai__SetTlsEnabledResponse); SOAP_FMAC5 int SOAP_FMAC6 soap_call___sai__SetRngKey(struct soap *soap, const char *soap_endpoint, const char *soap_action, _sai__SetRngKey *sai__SetRngKey, _sai__SetRngKeyResponse *sai__SetRngKeyResponse); SOAP_FMAC5 int SOAP_FMAC6 soap_call___sai__SetTLSKeyAndCertificate(struct soap *soap, const char *soap_endpoint, const char *soap_action, _sai__SetTLSKeyAndCertificate *sai__SetTLSKeyAndCertificate, _sai__SetTLSKeyAndCertificateResponse *sai__SetTLSKeyAndCertificateResponse); SOAP_FMAC5 int SOAP_FMAC6 soap_call___sai__SetTLSCertificate(struct soap *soap, const char *soap_endpoint, const char *soap_action, _sai__SetTLSCertificate *sai__SetTLSCertificate, _sai__SetTLSCertificateResponse *sai__SetTLSCertificateResponse); SOAP_FMAC5 int SOAP_FMAC6 soap_call___sai__GetTLSCertificate(struct soap *soap, const char *soap_endpoint, const char *soap_action, _sai__GetTLSCertificate *sai__GetTLSCertificate, _sai__GetTLSCertificateResponse *sai__GetTLSCertificateResponse); SOAP_FMAC5 int SOAP_FMAC6 soap_call___sai__UpdateCoreFromUrl(struct soap *soap, const char *soap_endpoint, const char *soap_action, _sai__UpdateCoreFromUrl *sai__UpdateCoreFromUrl, _sai__UpdateCoreFromUrlResponse *sai__UpdateCoreFromUrlResponse); SOAP_FMAC5 int SOAP_FMAC6 soap_call___sai__GetProvisioningMode(struct soap *soap, const char *soap_endpoint, const char *soap_action, _sai__GetProvisioningMode *sai__GetProvisioningMode, _sai__GetProvisioningModeResponse *sai__GetProvisioningModeResponse); SOAP_FMAC5 int SOAP_FMAC6 soap_call___sai__SetProvisioningMode(struct soap *soap, const char *soap_endpoint, const char *soap_action, _sai__SetProvisioningMode *sai__SetProvisioningMode, _sai__SetProvisioningModeResponse *sai__SetProvisioningModeResponse); SOAP_FMAC5 int SOAP_FMAC6 soap_call___sai__Unprovision(struct soap *soap, const char *soap_endpoint, const char *soap_action, _sai__Unprovision *sai__Unprovision, _sai__UnprovisionResponse *sai__UnprovisionResponse); SOAP_FMAC5 int SOAP_FMAC6 soap_call___sai__CommitChanges(struct soap *soap, const char *soap_endpoint, const char *soap_action, _sai__CommitChanges *sai__CommitChanges, _sai__CommitChangesResponse *sai__CommitChangesResponse); SOAP_FMAC5 int SOAP_FMAC6 soap_call___sai__GetCoreVersion(struct soap *soap, const char *soap_endpoint, const char *soap_action, _sai__GetCoreVersion *sai__GetCoreVersion, _sai__GetCoreVersionResponse *sai__GetCoreVersionResponse); SOAP_FMAC5 int SOAP_FMAC6 soap_call___sai__AddUserAclEntryEx(struct soap *soap, const char *soap_endpoint, const char *soap_action, _sai__AddUserAclEntryEx *sai__AddUserAclEntryEx, _sai__AddUserAclEntryExResponse *sai__AddUserAclEntryExResponse); SOAP_FMAC5 int SOAP_FMAC6 soap_call___sai__GetUserAclEntryEx(struct soap *soap, const char *soap_endpoint, const char *soap_action, _sai__GetUserAclEntryEx *sai__GetUserAclEntryEx, _sai__GetUserAclEntryExResponse *sai__GetUserAclEntryExResponse); SOAP_FMAC5 int SOAP_FMAC6 soap_call___sai__UpdateUserAclEntryEx(struct soap *soap, const char *soap_endpoint, const char *soap_action, _sai__UpdateUserAclEntryEx *sai__UpdateUserAclEntryEx, _sai__UpdateUserAclEntryExResponse *sai__UpdateUserAclEntryExResponse); SOAP_FMAC5 int SOAP_FMAC6 soap_call___sai__SetAdminAclEntryEx(struct soap *soap, const char *soap_endpoint, const char *soap_action, _sai__SetAdminAclEntryEx *sai__SetAdminAclEntryEx, _sai__SetAdminAclEntryExResponse *sai__SetAdminAclEntryExResponse); SOAP_FMAC5 int SOAP_FMAC6 soap_call___sai__GetDigestRealm(struct soap *soap, const char *soap_endpoint, const char *soap_action, _sai__GetDigestRealm *sai__GetDigestRealm, _sai__GetDigestRealmResponse *sai__GetDigestRealmResponse); SOAP_FMAC5 int SOAP_FMAC6 soap_call___sai__SetKerberosOptions(struct soap *soap, const char *soap_endpoint, const char *soap_action, _sai__SetKerberosOptions *sai__SetKerberosOptions, _sai__SetKerberosOptionsResponse *sai__SetKerberosOptionsResponse); SOAP_FMAC5 int SOAP_FMAC6 soap_call___sai__GetKerberosOptions(struct soap *soap, const char *soap_endpoint, const char *soap_action, _sai__GetKerberosOptions *sai__GetKerberosOptions, _sai__GetKerberosOptionsResponse *sai__GetKerberosOptionsResponse); SOAP_FMAC5 int SOAP_FMAC6 soap_call___sai__SetEnabledInterfaces(struct soap *soap, const char *soap_endpoint, const char *soap_action, _sai__SetEnabledInterfaces *sai__SetEnabledInterfaces, _sai__SetEnabledInterfacesResponse *sai__SetEnabledInterfacesResponse); SOAP_FMAC5 int SOAP_FMAC6 soap_call___sai__GetEnabledInterfaces(struct soap *soap, const char *soap_endpoint, const char *soap_action, _sai__GetEnabledInterfaces *sai__GetEnabledInterfaces, _sai__GetEnabledInterfacesResponse *sai__GetEnabledInterfacesResponse); SOAP_FMAC5 int SOAP_FMAC6 soap_call___sai__SetTlsOptions(struct soap *soap, const char *soap_endpoint, const char *soap_action, _sai__SetTlsOptions *sai__SetTlsOptions, _sai__SetTlsOptionsResponse *sai__SetTlsOptionsResponse); SOAP_FMAC5 int SOAP_FMAC6 soap_call___sai__GetTlsOptions(struct soap *soap, const char *soap_endpoint, const char *soap_action, _sai__GetTlsOptions *sai__GetTlsOptions, _sai__GetTlsOptionsResponse *sai__GetTlsOptionsResponse); SOAP_FMAC5 int SOAP_FMAC6 soap_call___sai__AddTrustedRootCertificate(struct soap *soap, const char *soap_endpoint, const char *soap_action, _sai__AddTrustedRootCertificate *sai__AddTrustedRootCertificate, _sai__AddTrustedRootCertificateResponse *sai__AddTrustedRootCertificateResponse); SOAP_FMAC5 int SOAP_FMAC6 soap_call___sai__GetTrustedRootCertificate(struct soap *soap, const char *soap_endpoint, const char *soap_action, _sai__GetTrustedRootCertificate *sai__GetTrustedRootCertificate, _sai__GetTrustedRootCertificateResponse *sai__GetTrustedRootCertificateResponse); SOAP_FMAC5 int SOAP_FMAC6 soap_call___sai__DeleteTrustedRootCertificate(struct soap *soap, const char *soap_endpoint, const char *soap_action, _sai__DeleteTrustedRootCertificate *sai__DeleteTrustedRootCertificate, _sai__DeleteTrustedRootCertificateResponse *sai__DeleteTrustedRootCertificateResponse); SOAP_FMAC5 int SOAP_FMAC6 soap_call___sai__EnumerateTrustedRootCertificates(struct soap *soap, const char *soap_endpoint, const char *soap_action, _sai__EnumerateTrustedRootCertificates *sai__EnumerateTrustedRootCertificates, _sai__EnumerateTrustedRootCertificatesResponse *sai__EnumerateTrustedRootCertificatesResponse); SOAP_FMAC5 int SOAP_FMAC6 soap_call___sai__SetTrustedFqdnCN(struct soap *soap, const char *soap_endpoint, const char *soap_action, _sai__SetTrustedFqdnCN *sai__SetTrustedFqdnCN, _sai__SetTrustedFqdnCNResponse *sai__SetTrustedFqdnCNResponse); SOAP_FMAC5 int SOAP_FMAC6 soap_call___sai__GetTrustedFqdnCN(struct soap *soap, const char *soap_endpoint, const char *soap_action, _sai__GetTrustedFqdnCN *sai__GetTrustedFqdnCN, _sai__GetTrustedFqdnCNResponse *sai__GetTrustedFqdnCNResponse); SOAP_FMAC5 int SOAP_FMAC6 soap_call___sai__SetCRL(struct soap *soap, const char *soap_endpoint, const char *soap_action, _sai__SetCRL *sai__SetCRL, _sai__SetCRLResponse *sai__SetCRLResponse); SOAP_FMAC5 int SOAP_FMAC6 soap_call___sai__GetCRL(struct soap *soap, const char *soap_endpoint, const char *soap_action, _sai__GetCRL *sai__GetCRL, _sai__GetCRLResponse *sai__GetCRLResponse); SOAP_FMAC5 int SOAP_FMAC6 soap_call___sai__GetServerCertificateReq(struct soap *soap, const char *soap_endpoint, const char *soap_action, _sai__GetServerCertificateReq *sai__GetServerCertificateReq, _sai__GetServerCertificateReqResponse *sai__GetServerCertificateReqResponse); SOAP_FMAC5 int SOAP_FMAC6 soap_call___sai__GetPkiCapabilities(struct soap *soap, const char *soap_endpoint, const char *soap_action, _sai__GetPkiCapabilities *sai__GetPkiCapabilities, _sai__GetPkiCapabilitiesResponse *sai__GetPkiCapabilitiesResponse); SOAP_FMAC5 int SOAP_FMAC6 soap_call___sai__SetPowerSavingOptions(struct soap *soap, const char *soap_endpoint, const char *soap_action, _sai__SetPowerSavingOptions *sai__SetPowerSavingOptions, _sai__SetPowerSavingOptionsResponse *sai__SetPowerSavingOptionsResponse); SOAP_FMAC5 int SOAP_FMAC6 soap_call___sai__GetPowerSavingOptions(struct soap *soap, const char *soap_endpoint, const char *soap_action, _sai__GetPowerSavingOptions *sai__GetPowerSavingOptions, _sai__GetPowerSavingOptionsResponse *sai__GetPowerSavingOptionsResponse); SOAP_FMAC5 int SOAP_FMAC6 soap_call___sai__SetTLSPSK(struct soap *soap, const char *soap_endpoint, const char *soap_action, _sai__SetTLSPSK *sai__SetTLSPSK, _sai__SetTLSPSKResponse *sai__SetTLSPSKResponse); SOAP_FMAC5 int SOAP_FMAC6 soap_call___sai__PartialUnprovision(struct soap *soap, const char *soap_endpoint, const char *soap_action, _sai__PartialUnprovision *sai__PartialUnprovision, _sai__PartialUnprovisionResponse *sai__PartialUnprovisionResponse); SOAP_FMAC5 int SOAP_FMAC6 soap_call___sai__SetMEBxPassword(struct soap *soap, const char *soap_endpoint, const char *soap_action, _sai__SetMEBxPassword *sai__SetMEBxPassword, _sai__SetMEBxPasswordResponse *sai__SetMEBxPasswordResponse); SOAP_FMAC5 int SOAP_FMAC6 soap_call___sai__SetProvisioningServerOTP(struct soap *soap, const char *soap_endpoint, const char *soap_action, _sai__SetProvisioningServerOTP *sai__SetProvisioningServerOTP, _sai__SetProvisioningServerOTPResponse *sai__SetProvisioningServerOTPResponse); SOAP_FMAC5 int SOAP_FMAC6 soap_call___sai__GetProvisioningServerOTP(struct soap *soap, const char *soap_endpoint, const char *soap_action, _sai__GetProvisioningServerOTP *sai__GetProvisioningServerOTP, _sai__GetProvisioningServerOTPResponse *sai__GetProvisioningServerOTPResponse); SOAP_FMAC5 int SOAP_FMAC6 soap_call___sai__EnumerateCertificateHashEntries(struct soap *soap, const char *soap_endpoint, const char *soap_action, _sai__EnumerateCertificateHashEntries *sai__EnumerateCertificateHashEntries, _sai__EnumerateCertificateHashEntriesResponse *sai__EnumerateCertificateHashEntriesResponse); SOAP_FMAC5 int SOAP_FMAC6 soap_call___sai__GetCertificateHashEntry(struct soap *soap, const char *soap_endpoint, const char *soap_action, _sai__GetCertificateHashEntry *sai__GetCertificateHashEntry, _sai__GetCertificateHashEntryResponse *sai__GetCertificateHashEntryResponse); SOAP_FMAC5 int SOAP_FMAC6 soap_call___sai__AddCertificateHashEntry(struct soap *soap, const char *soap_endpoint, const char *soap_action, _sai__AddCertificateHashEntry *sai__AddCertificateHashEntry, _sai__AddCertificateHashEntryResponse *sai__AddCertificateHashEntryResponse); SOAP_FMAC5 int SOAP_FMAC6 soap_call___sai__DeleteCertificateHashEntry(struct soap *soap, const char *soap_endpoint, const char *soap_action, _sai__DeleteCertificateHashEntry *sai__DeleteCertificateHashEntry, _sai__DeleteCertificateHashEntryResponse *sai__DeleteCertificateHashEntryResponse); SOAP_FMAC5 int SOAP_FMAC6 soap_call___sai__EnableCertificateHashEntry(struct soap *soap, const char *soap_endpoint, const char *soap_action, _sai__EnableCertificateHashEntry *sai__EnableCertificateHashEntry, _sai__EnableCertificateHashEntryResponse *sai__EnableCertificateHashEntryResponse); SOAP_FMAC5 int SOAP_FMAC6 soap_call___sai__GetZeroTouchConfigurationMode(struct soap *soap, const char *soap_endpoint, const char *soap_action, _sai__GetZeroTouchConfigurationMode *sai__GetZeroTouchConfigurationMode, _sai__GetZeroTouchConfigurationModeResponse *sai__GetZeroTouchConfigurationModeResponse); SOAP_FMAC5 int SOAP_FMAC6 soap_call___sai__SetZeroTouchConfigurationMode(struct soap *soap, const char *soap_endpoint, const char *soap_action, _sai__SetZeroTouchConfigurationMode *sai__SetZeroTouchConfigurationMode, _sai__SetZeroTouchConfigurationModeResponse *sai__SetZeroTouchConfigurationModeResponse); SOAP_FMAC5 int SOAP_FMAC6 soap_call___sai__GetProvisioningAuditRecord(struct soap *soap, const char *soap_endpoint, const char *soap_action, _sai__GetProvisioningAuditRecord *sai__GetProvisioningAuditRecord, _sai__GetProvisioningAuditRecordResponse *sai__GetProvisioningAuditRecordResponse); SOAP_FMAC5 int SOAP_FMAC6 soap_call___sai__GetProvisioningPID(struct soap *soap, const char *soap_endpoint, const char *soap_action, _sai__GetProvisioningPID *sai__GetProvisioningPID, _sai__GetProvisioningPIDResponse *sai__GetProvisioningPIDResponse); SOAP_FMAC5 int SOAP_FMAC6 soap_call___sai__ExtendProvisioningPeriod(struct soap *soap, const char *soap_endpoint, const char *soap_action, _sai__ExtendProvisioningPeriod *sai__ExtendProvisioningPeriod, _sai__ExtendProvisioningPeriodResponse *sai__ExtendProvisioningPeriodResponse); SOAP_FMAC5 int SOAP_FMAC6 soap_call___sai__GetRealmAuthOptions(struct soap *soap, const char *soap_endpoint, const char *soap_action, _sai__GetRealmAuthOptions *sai__GetRealmAuthOptions, _sai__GetRealmAuthOptionsResponse *sai__GetRealmAuthOptionsResponse); SOAP_FMAC5 int SOAP_FMAC6 soap_call___sai__SetRealmAuthOptions(struct soap *soap, const char *soap_endpoint, const char *soap_action, _sai__SetRealmAuthOptions *sai__SetRealmAuthOptions, _sai__SetRealmAuthOptionsResponse *sai__SetRealmAuthOptionsResponse); SOAP_FMAC5 int SOAP_FMAC6 soap_call___sai__SetEnvironmentDetection(struct soap *soap, const char *soap_endpoint, const char *soap_action, _sai__SetEnvironmentDetection *sai__SetEnvironmentDetection, _sai__SetEnvironmentDetectionResponse *sai__SetEnvironmentDetectionResponse); SOAP_FMAC5 int SOAP_FMAC6 soap_call___sai__GetEnvironmentDetection(struct soap *soap, const char *soap_endpoint, const char *soap_action, _sai__GetEnvironmentDetection *sai__GetEnvironmentDetection, _sai__GetEnvironmentDetectionResponse *sai__GetEnvironmentDetectionResponse); SOAP_FMAC5 int SOAP_FMAC6 soap_call___sai__EnumeratePowerPackages(struct soap *soap, const char *soap_endpoint, const char *soap_action, _sai__EnumeratePowerPackages *sai__EnumeratePowerPackages, _sai__EnumeratePowerPackagesResponse *sai__EnumeratePowerPackagesResponse); SOAP_FMAC5 int SOAP_FMAC6 soap_call___sai__GetPowerPackage(struct soap *soap, const char *soap_endpoint, const char *soap_action, _sai__GetPowerPackage *sai__GetPowerPackage, _sai__GetPowerPackageResponse *sai__GetPowerPackageResponse); SOAP_FMAC5 int SOAP_FMAC6 soap_call___sai__GetActivePowerPackage(struct soap *soap, const char *soap_endpoint, const char *soap_action, _sai__GetActivePowerPackage *sai__GetActivePowerPackage, _sai__GetActivePowerPackageResponse *sai__GetActivePowerPackageResponse); SOAP_FMAC5 int SOAP_FMAC6 soap_call___sai__SetActivePowerPackage(struct soap *soap, const char *soap_endpoint, const char *soap_action, _sai__SetActivePowerPackage *sai__SetActivePowerPackage, _sai__SetActivePowerPackageResponse *sai__SetActivePowerPackageResponse); SOAP_FMAC5 int SOAP_FMAC6 soap_call___sai__SetGlobalPowerPolicy(struct soap *soap, const char *soap_endpoint, const char *soap_action, _sai__SetGlobalPowerPolicy *sai__SetGlobalPowerPolicy, _sai__SetGlobalPowerPolicyResponse *sai__SetGlobalPowerPolicyResponse); SOAP_FMAC5 int SOAP_FMAC6 soap_call___sai__GetGlobalPowerPolicy(struct soap *soap, const char *soap_endpoint, const char *soap_action, _sai__GetGlobalPowerPolicy *sai__GetGlobalPowerPolicy, _sai__GetGlobalPowerPolicyResponse *sai__GetGlobalPowerPolicyResponse); SOAP_FMAC5 int SOAP_FMAC6 soap_call___sai__CertStoreAddKey(struct soap *soap, const char *soap_endpoint, const char *soap_action, _sai__CertStoreAddKey *sai__CertStoreAddKey, _sai__CertStoreAddKeyResponse *sai__CertStoreAddKeyResponse); SOAP_FMAC5 int SOAP_FMAC6 soap_call___sai__CertStoreEnumerateKeys(struct soap *soap, const char *soap_endpoint, const char *soap_action, _sai__CertStoreEnumerateKeys *sai__CertStoreEnumerateKeys, _sai__CertStoreEnumerateKeysResponse *sai__CertStoreEnumerateKeysResponse); SOAP_FMAC5 int SOAP_FMAC6 soap_call___sai__CertStoreGetKey(struct soap *soap, const char *soap_endpoint, const char *soap_action, _sai__CertStoreGetKey *sai__CertStoreGetKey, _sai__CertStoreGetKeyResponse *sai__CertStoreGetKeyResponse); SOAP_FMAC5 int SOAP_FMAC6 soap_call___sai__CertStoreRemoveKey(struct soap *soap, const char *soap_endpoint, const char *soap_action, _sai__CertStoreRemoveKey *sai__CertStoreRemoveKey, _sai__CertStoreRemoveKeyResponse *sai__CertStoreRemoveKeyResponse); SOAP_FMAC5 int SOAP_FMAC6 soap_call___sai__CertStoreAddCertificate(struct soap *soap, const char *soap_endpoint, const char *soap_action, _sai__CertStoreAddCertificate *sai__CertStoreAddCertificate, _sai__CertStoreAddCertificateResponse *sai__CertStoreAddCertificateResponse); SOAP_FMAC5 int SOAP_FMAC6 soap_call___sai__CertStoreGetCertificate(struct soap *soap, const char *soap_endpoint, const char *soap_action, _sai__CertStoreGetCertificate *sai__CertStoreGetCertificate, _sai__CertStoreGetCertificateResponse *sai__CertStoreGetCertificateResponse); SOAP_FMAC5 int SOAP_FMAC6 soap_call___sai__CertStoreEnumerateCertificates(struct soap *soap, const char *soap_endpoint, const char *soap_action, _sai__CertStoreEnumerateCertificates *sai__CertStoreEnumerateCertificates, _sai__CertStoreEnumerateCertificatesResponse *sai__CertStoreEnumerateCertificatesResponse); SOAP_FMAC5 int SOAP_FMAC6 soap_call___sai__CertStoreRemoveCertificate(struct soap *soap, const char *soap_endpoint, const char *soap_action, _sai__CertStoreRemoveCertificate *sai__CertStoreRemoveCertificate, _sai__CertStoreRemoveCertificateResponse *sai__CertStoreRemoveCertificateResponse); SOAP_FMAC5 int SOAP_FMAC6 soap_call___sai__CertStoreGetPKCS10Request(struct soap *soap, const char *soap_endpoint, const char *soap_action, _sai__CertStoreGetPKCS10Request *sai__CertStoreGetPKCS10Request, _sai__CertStoreGetPKCS10RequestResponse *sai__CertStoreGetPKCS10RequestResponse); SOAP_FMAC5 int SOAP_FMAC6 soap_call___sai__CertStoreUpdateCertificate(struct soap *soap, const char *soap_endpoint, const char *soap_action, _sai__CertStoreUpdateCertificate *sai__CertStoreUpdateCertificate, _sai__CertStoreUpdateCertificateResponse *sai__CertStoreUpdateCertificateResponse); SOAP_FMAC5 int SOAP_FMAC6 soap_call___sai__SetTLSCredentials(struct soap *soap, const char *soap_endpoint, const char *soap_action, _sai__SetTLSCredentials *sai__SetTLSCredentials, _sai__SetTLSCredentialsResponse *sai__SetTLSCredentialsResponse); SOAP_FMAC5 int SOAP_FMAC6 soap_call___sai__GetTLSCredentials(struct soap *soap, const char *soap_endpoint, const char *soap_action, _sai__GetTLSCredentials *sai__GetTLSCredentials, _sai__GetTLSCredentialsResponse *sai__GetTLSCredentialsResponse); SOAP_FMAC5 int SOAP_FMAC6 soap_call___sai__EnableVpnRouting(struct soap *soap, const char *soap_endpoint, const char *soap_action, _sai__EnableVpnRouting *sai__EnableVpnRouting, _sai__EnableVpnRoutingResponse *sai__EnableVpnRoutingResponse); SOAP_FMAC5 int SOAP_FMAC6 soap_call___sai__GetConfigurationServerFQDN(struct soap *soap, const char *soap_endpoint, const char *soap_action, _sai__GetConfigurationServerFQDN *sai__GetConfigurationServerFQDN, _sai__GetConfigurationServerFQDNResponse *sai__GetConfigurationServerFQDNResponse); SOAP_FMAC5 int SOAP_FMAC6 soap_call___sai__SetConfigurationServerFQDN(struct soap *soap, const char *soap_endpoint, const char *soap_action, _sai__SetConfigurationServerFQDN *sai__SetConfigurationServerFQDN, _sai__SetConfigurationServerFQDNResponse *sai__SetConfigurationServerFQDNResponse); SOAP_FMAC5 int SOAP_FMAC6 soap_call___sai__SetAclEnabledState(struct soap *soap, const char *soap_endpoint, const char *soap_action, _sai__SetAclEnabledState *sai__SetAclEnabledState, _sai__SetAclEnabledStateResponse *sai__SetAclEnabledStateResponse); SOAP_FMAC5 int SOAP_FMAC6 soap_call___sai__GetAclEnabledState(struct soap *soap, const char *soap_endpoint, const char *soap_action, _sai__GetAclEnabledState *sai__GetAclEnabledState, _sai__GetAclEnabledStateResponse *sai__GetAclEnabledStateResponse); SOAP_FMAC5 int SOAP_FMAC6 soap_call___str__ExecuteStorageOperation(struct soap *soap, const char *soap_endpoint, const char *soap_action, _str__ExecuteStorageOperation *str__ExecuteStorageOperation, _str__ExecuteStorageOperationResponse *str__ExecuteStorageOperationResponse); SOAP_FMAC5 int SOAP_FMAC6 soap_call___stra__GetGlobalStorageAttributes(struct soap *soap, const char *soap_endpoint, const char *soap_action, _stra__GetGlobalStorageAttributes *stra__GetGlobalStorageAttributes, _stra__GetGlobalStorageAttributesResponse *stra__GetGlobalStorageAttributesResponse); SOAP_FMAC5 int SOAP_FMAC6 soap_call___stra__SetGlobalStorageAttributes(struct soap *soap, const char *soap_endpoint, const char *soap_action, _stra__SetGlobalStorageAttributes *stra__SetGlobalStorageAttributes, _stra__SetGlobalStorageAttributesResponse *stra__SetGlobalStorageAttributesResponse); SOAP_FMAC5 int SOAP_FMAC6 soap_call___stra__AdminGetRegisteredApplications(struct soap *soap, const char *soap_endpoint, const char *soap_action, _stra__AdminGetRegisteredApplications *stra__AdminGetRegisteredApplications, _stra__AdminGetRegisteredApplicationsResponse *stra__AdminGetRegisteredApplicationsResponse); SOAP_FMAC5 int SOAP_FMAC6 soap_call___stra__AdminGetApplicationAttributes(struct soap *soap, const char *soap_endpoint, const char *soap_action, _stra__AdminGetApplicationAttributes *stra__AdminGetApplicationAttributes, _stra__AdminGetApplicationAttributesResponse *stra__AdminGetApplicationAttributesResponse); SOAP_FMAC5 int SOAP_FMAC6 soap_call___stra__AdminRemoveApplication(struct soap *soap, const char *soap_endpoint, const char *soap_action, _stra__AdminRemoveApplication *stra__AdminRemoveApplication, _stra__AdminRemoveApplicationResponse *stra__AdminRemoveApplicationResponse); SOAP_FMAC5 int SOAP_FMAC6 soap_call___stra__AddStorageEaclEntry(struct soap *soap, const char *soap_endpoint, const char *soap_action, _stra__AddStorageEaclEntry *stra__AddStorageEaclEntry, _stra__AddStorageEaclEntryResponse *stra__AddStorageEaclEntryResponse); SOAP_FMAC5 int SOAP_FMAC6 soap_call___stra__EnumerateStorageEaclEntries(struct soap *soap, const char *soap_endpoint, const char *soap_action, _stra__EnumerateStorageEaclEntries *stra__EnumerateStorageEaclEntries, _stra__EnumerateStorageEaclEntriesResponse *stra__EnumerateStorageEaclEntriesResponse); SOAP_FMAC5 int SOAP_FMAC6 soap_call___stra__GetStorageEaclEntry(struct soap *soap, const char *soap_endpoint, const char *soap_action, _stra__GetStorageEaclEntry *stra__GetStorageEaclEntry, _stra__GetStorageEaclEntryResponse *stra__GetStorageEaclEntryResponse); SOAP_FMAC5 int SOAP_FMAC6 soap_call___stra__RemoveStorageEaclEntry(struct soap *soap, const char *soap_endpoint, const char *soap_action, _stra__RemoveStorageEaclEntry *stra__RemoveStorageEaclEntry, _stra__RemoveStorageEaclEntryResponse *stra__RemoveStorageEaclEntryResponse); SOAP_FMAC5 int SOAP_FMAC6 soap_call___stra__AddStorageFpaclEntry(struct soap *soap, const char *soap_endpoint, const char *soap_action, _stra__AddStorageFpaclEntry *stra__AddStorageFpaclEntry, _stra__AddStorageFpaclEntryResponse *stra__AddStorageFpaclEntryResponse); SOAP_FMAC5 int SOAP_FMAC6 soap_call___stra__EnumerateStorageAllocEntries(struct soap *soap, const char *soap_endpoint, const char *soap_action, _stra__EnumerateStorageAllocEntries *stra__EnumerateStorageAllocEntries, _stra__EnumerateStorageAllocEntriesResponse *stra__EnumerateStorageAllocEntriesResponse); SOAP_FMAC5 int SOAP_FMAC6 soap_call___stra__GetStorageAllocEntry(struct soap *soap, const char *soap_endpoint, const char *soap_action, _stra__GetStorageAllocEntry *stra__GetStorageAllocEntry, _stra__GetStorageAllocEntryResponse *stra__GetStorageAllocEntryResponse); SOAP_FMAC5 int SOAP_FMAC6 soap_call___stra__UpdateStorageFpaclEntry(struct soap *soap, const char *soap_endpoint, const char *soap_action, _stra__UpdateStorageFpaclEntry *stra__UpdateStorageFpaclEntry, _stra__UpdateStorageFpaclEntryResponse *stra__UpdateStorageFpaclEntryResponse); SOAP_FMAC5 int SOAP_FMAC6 soap_call___stra__RemoveStorageFpaclEntry(struct soap *soap, const char *soap_endpoint, const char *soap_action, _stra__RemoveStorageFpaclEntry *stra__RemoveStorageFpaclEntry, _stra__RemoveStorageFpaclEntryResponse *stra__RemoveStorageFpaclEntryResponse); SOAP_FMAC5 int SOAP_FMAC6 soap_call___tim__GetLowAccuracyTimeSynch(struct soap *soap, const char *soap_endpoint, const char *soap_action, _tim__GetLowAccuracyTimeSynch *tim__GetLowAccuracyTimeSynch, _tim__GetLowAccuracyTimeSynchResponse *tim__GetLowAccuracyTimeSynchResponse); SOAP_FMAC5 int SOAP_FMAC6 soap_call___tim__SetHighAccuracyTimeSynch(struct soap *soap, const char *soap_endpoint, const char *soap_action, _tim__SetHighAccuracyTimeSynch *tim__SetHighAccuracyTimeSynch, _tim__SetHighAccuracyTimeSynchResponse *tim__SetHighAccuracyTimeSynchResponse); SOAP_FMAC5 int SOAP_FMAC6 soap_call___wcxs__AddWirelessProfile(struct soap *soap, const char *soap_endpoint, const char *soap_action, _wcxs__AddWirelessProfileRequest *wcxs__AddWirelessProfileRequest, _wcxs__AddWirelessProfileResponse *wcxs__AddWirelessProfileResponse); SOAP_FMAC5 int SOAP_FMAC6 soap_call___wcxs__GetWirelessProfile(struct soap *soap, const char *soap_endpoint, const char *soap_action, _wcxs__GetWirelessProfileRequest *wcxs__GetWirelessProfileRequest, _wcxs__GetWirelessProfileResponse *wcxs__GetWirelessProfileResponse); SOAP_FMAC5 int SOAP_FMAC6 soap_call___wcxs__RemoveWirelessProfile(struct soap *soap, const char *soap_endpoint, const char *soap_action, _wcxs__RemoveWirelessProfileRequest *wcxs__RemoveWirelessProfileRequest, _wcxs__RemoveWirelessProfileResponse *wcxs__RemoveWirelessProfileResponse); SOAP_FMAC5 int SOAP_FMAC6 soap_call___wcxs__UpdateWirelessProfile(struct soap *soap, const char *soap_endpoint, const char *soap_action, _wcxs__UpdateWirelessProfileRequest *wcxs__UpdateWirelessProfileRequest, _wcxs__UpdateWirelessProfileResponse *wcxs__UpdateWirelessProfileResponse); SOAP_FMAC5 int SOAP_FMAC6 soap_call___wcxs__EnumerateWirelessProfiles(struct soap *soap, const char *soap_endpoint, const char *soap_action, _wcxs__EnumerateWirelessProfilesRequest *wcxs__EnumerateWirelessProfilesRequest, _wcxs__EnumerateWirelessProfilesResponse *wcxs__EnumerateWirelessProfilesResponse); SOAP_FMAC5 int SOAP_FMAC6 soap_call___wcxs__GetWirelessCapabilities(struct soap *soap, const char *soap_endpoint, const char *soap_action, _wcxs__GetWirelessCapabilitiesRequest *wcxs__GetWirelessCapabilitiesRequest, _wcxs__GetWirelessCapabilitiesResponse *wcxs__GetWirelessCapabilitiesResponse); SOAP_FMAC5 int SOAP_FMAC6 soap_call___wcxs__GetWirelessSettings(struct soap *soap, const char *soap_endpoint, const char *soap_action, _wcxs__GetWirelessSettingsRequest *wcxs__GetWirelessSettingsRequest, _wcxs__GetWirelessSettingsResponse *wcxs__GetWirelessSettingsResponse); #endif /* End of soapStub.h */