/* * Copyright (c) 2008, 2009, 2010, 2011, 2012, 2013, 2014 Nicira, Inc. * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at: * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ #include #include "netdev.h" #include #include #include #include #include #include #include "coverage.h" #include "dpif.h" #include "dynamic-string.h" #include "fatal-signal.h" #include "hash.h" #include "list.h" #include "netdev-dpdk.h" #include "netdev-provider.h" #include "netdev-vport.h" #include "ofpbuf.h" #include "openflow/openflow.h" #include "packets.h" #include "poll-loop.h" #include "shash.h" #include "smap.h" #include "sset.h" #include "svec.h" #include "vlog.h" VLOG_DEFINE_THIS_MODULE(netdev); COVERAGE_DEFINE(netdev_received); COVERAGE_DEFINE(netdev_sent); COVERAGE_DEFINE(netdev_add_router); COVERAGE_DEFINE(netdev_get_stats); struct netdev_saved_flags { struct netdev *netdev; struct list node; /* In struct netdev's saved_flags_list. */ enum netdev_flags saved_flags; enum netdev_flags saved_values; }; /* Protects 'netdev_shash' and the mutable members of struct netdev. */ static struct ovs_mutex netdev_mutex = OVS_MUTEX_INITIALIZER; /* All created network devices. */ static struct shash netdev_shash OVS_GUARDED_BY(netdev_mutex) = SHASH_INITIALIZER(&netdev_shash); /* Protects 'netdev_classes' against insertions or deletions. * * This is a recursive mutex to allow recursive acquisition when calling into * providers. For example, netdev_run() calls into provider 'run' functions, * which might reasonably want to call one of the netdev functions that takes * netdev_class_mutex. */ static struct ovs_mutex netdev_class_mutex OVS_ACQ_BEFORE(netdev_mutex); /* Contains 'struct netdev_registered_class'es. */ static struct hmap netdev_classes OVS_GUARDED_BY(netdev_class_mutex) = HMAP_INITIALIZER(&netdev_classes); struct netdev_registered_class { struct hmap_node hmap_node; /* In 'netdev_classes', by class->type. */ const struct netdev_class *class; atomic_int ref_cnt; /* Number of 'struct netdev's of this class. */ }; /* This is set pretty low because we probably won't learn anything from the * additional log messages. */ static struct vlog_rate_limit rl = VLOG_RATE_LIMIT_INIT(5, 20); static void restore_all_flags(void *aux OVS_UNUSED); void update_device_args(struct netdev *, const struct shash *args); int netdev_n_rxq(const struct netdev *netdev) { return netdev->n_rxq; } bool netdev_is_pmd(const struct netdev *netdev) { return !strcmp(netdev->netdev_class->type, "dpdk"); } static void netdev_class_mutex_initialize(void) OVS_EXCLUDED(netdev_class_mutex, netdev_mutex) { static struct ovsthread_once once = OVSTHREAD_ONCE_INITIALIZER; if (ovsthread_once_start(&once)) { ovs_mutex_init_recursive(&netdev_class_mutex); ovsthread_once_done(&once); } } static void netdev_initialize(void) OVS_EXCLUDED(netdev_class_mutex, netdev_mutex) { static struct ovsthread_once once = OVSTHREAD_ONCE_INITIALIZER; if (ovsthread_once_start(&once)) { netdev_class_mutex_initialize(); fatal_signal_add_hook(restore_all_flags, NULL, NULL, true); netdev_vport_patch_register(); #ifdef __linux__ netdev_register_provider(&netdev_linux_class); netdev_register_provider(&netdev_internal_class); netdev_register_provider(&netdev_tap_class); netdev_vport_tunnel_register(); #endif #if defined(__FreeBSD__) || defined(__NetBSD__) netdev_register_provider(&netdev_tap_class); netdev_register_provider(&netdev_bsd_class); #endif netdev_register_provider(&netdev_tunnel_class); netdev_register_provider(&netdev_pltap_class); netdev_dpdk_register(); ovsthread_once_done(&once); } } /* Performs periodic work needed by all the various kinds of netdevs. * * If your program opens any netdevs, it must call this function within its * main poll loop. */ void netdev_run(void) OVS_EXCLUDED(netdev_class_mutex, netdev_mutex) { struct netdev_registered_class *rc; netdev_initialize(); ovs_mutex_lock(&netdev_class_mutex); HMAP_FOR_EACH (rc, hmap_node, &netdev_classes) { if (rc->class->run) { rc->class->run(); } } ovs_mutex_unlock(&netdev_class_mutex); } /* Arranges for poll_block() to wake up when netdev_run() needs to be called. * * If your program opens any netdevs, it must call this function within its * main poll loop. */ void netdev_wait(void) OVS_EXCLUDED(netdev_class_mutex, netdev_mutex) { struct netdev_registered_class *rc; ovs_mutex_lock(&netdev_class_mutex); HMAP_FOR_EACH (rc, hmap_node, &netdev_classes) { if (rc->class->wait) { rc->class->wait(); } } ovs_mutex_unlock(&netdev_class_mutex); } static struct netdev_registered_class * netdev_lookup_class(const char *type) OVS_REQ_RDLOCK(netdev_class_mutex) { struct netdev_registered_class *rc; HMAP_FOR_EACH_WITH_HASH (rc, hmap_node, hash_string(type, 0), &netdev_classes) { if (!strcmp(type, rc->class->type)) { return rc; } } return NULL; } /* Initializes and registers a new netdev provider. After successful * registration, new netdevs of that type can be opened using netdev_open(). */ int netdev_register_provider(const struct netdev_class *new_class) OVS_EXCLUDED(netdev_class_mutex, netdev_mutex) { int error; netdev_class_mutex_initialize(); ovs_mutex_lock(&netdev_class_mutex); if (netdev_lookup_class(new_class->type)) { VLOG_WARN("attempted to register duplicate netdev provider: %s", new_class->type); error = EEXIST; } else { error = new_class->init ? new_class->init() : 0; if (!error) { struct netdev_registered_class *rc; rc = xmalloc(sizeof *rc); hmap_insert(&netdev_classes, &rc->hmap_node, hash_string(new_class->type, 0)); rc->class = new_class; atomic_init(&rc->ref_cnt, 0); } else { VLOG_ERR("failed to initialize %s network device class: %s", new_class->type, ovs_strerror(error)); } } ovs_mutex_unlock(&netdev_class_mutex); return error; } /* Unregisters a netdev provider. 'type' must have been previously * registered and not currently be in use by any netdevs. After unregistration * new netdevs of that type cannot be opened using netdev_open(). */ int netdev_unregister_provider(const char *type) OVS_EXCLUDED(netdev_class_mutex, netdev_mutex) { struct netdev_registered_class *rc; int error; ovs_mutex_lock(&netdev_class_mutex); rc = netdev_lookup_class(type); if (!rc) { VLOG_WARN("attempted to unregister a netdev provider that is not " "registered: %s", type); error = EAFNOSUPPORT; } else { int ref_cnt; atomic_read(&rc->ref_cnt, &ref_cnt); if (!ref_cnt) { hmap_remove(&netdev_classes, &rc->hmap_node); free(rc); error = 0; } else { VLOG_WARN("attempted to unregister in use netdev provider: %s", type); error = EBUSY; } } ovs_mutex_unlock(&netdev_class_mutex); return error; } /* Clears 'types' and enumerates the types of all currently registered netdev * providers into it. The caller must first initialize the sset. */ void netdev_enumerate_types(struct sset *types) OVS_EXCLUDED(netdev_mutex) { struct netdev_registered_class *rc; netdev_initialize(); sset_clear(types); ovs_mutex_lock(&netdev_class_mutex); HMAP_FOR_EACH (rc, hmap_node, &netdev_classes) { sset_add(types, rc->class->type); } ovs_mutex_unlock(&netdev_class_mutex); } /* Check that the network device name is not the same as any of the registered * vport providers' dpif_port name (dpif_port is NULL if the vport provider * does not define it) or the datapath internal port name (e.g. ovs-system). * * Returns true if there is a name conflict, false otherwise. */ bool netdev_is_reserved_name(const char *name) OVS_EXCLUDED(netdev_mutex) { struct netdev_registered_class *rc; netdev_initialize(); ovs_mutex_lock(&netdev_class_mutex); HMAP_FOR_EACH (rc, hmap_node, &netdev_classes) { const char *dpif_port = netdev_vport_class_get_dpif_port(rc->class); if (dpif_port && !strcmp(dpif_port, name)) { ovs_mutex_unlock(&netdev_class_mutex); return true; } } ovs_mutex_unlock(&netdev_class_mutex); if (!strncmp(name, "ovs-", 4)) { struct sset types; const char *type; sset_init(&types); dp_enumerate_types(&types); SSET_FOR_EACH (type, &types) { if (!strcmp(name+4, type)) { sset_destroy(&types); return true; } } sset_destroy(&types); } return false; } /* Opens the network device named 'name' (e.g. "eth0") of the specified 'type' * (e.g. "system") and returns zero if successful, otherwise a positive errno * value. On success, sets '*netdevp' to the new network device, otherwise to * null. * * Some network devices may need to be configured (with netdev_set_config()) * before they can be used. */ int netdev_open(const char *name, const char *type, struct netdev **netdevp) OVS_EXCLUDED(netdev_mutex) { struct netdev *netdev; int error; netdev_initialize(); ovs_mutex_lock(&netdev_class_mutex); ovs_mutex_lock(&netdev_mutex); netdev = shash_find_data(&netdev_shash, name); if (!netdev) { struct netdev_registered_class *rc; rc = netdev_lookup_class(type && type[0] ? type : "system"); if (rc) { netdev = rc->class->alloc(); if (netdev) { memset(netdev, 0, sizeof *netdev); netdev->netdev_class = rc->class; netdev->name = xstrdup(name); netdev->change_seq = 1; netdev->node = shash_add(&netdev_shash, name, netdev); /* By default enable one rx queue per netdev. */ if (netdev->netdev_class->rxq_alloc) { netdev->n_rxq = 1; } else { netdev->n_rxq = 0; } list_init(&netdev->saved_flags_list); error = rc->class->construct(netdev); if (!error) { int old_ref_cnt; atomic_add(&rc->ref_cnt, 1, &old_ref_cnt); netdev_change_seq_changed(netdev); } else { free(netdev->name); ovs_assert(list_is_empty(&netdev->saved_flags_list)); shash_delete(&netdev_shash, netdev->node); rc->class->dealloc(netdev); } } else { error = ENOMEM; } } else { VLOG_WARN("could not create netdev %s of unknown type %s", name, type); error = EAFNOSUPPORT; } } else { error = 0; } ovs_mutex_unlock(&netdev_mutex); ovs_mutex_unlock(&netdev_class_mutex); if (!error) { netdev->ref_cnt++; *netdevp = netdev; } else { *netdevp = NULL; } return error; } /* Returns a reference to 'netdev_' for the caller to own. Returns null if * 'netdev_' is null. */ struct netdev * netdev_ref(const struct netdev *netdev_) OVS_EXCLUDED(netdev_mutex) { struct netdev *netdev = CONST_CAST(struct netdev *, netdev_); if (netdev) { ovs_mutex_lock(&netdev_mutex); ovs_assert(netdev->ref_cnt > 0); netdev->ref_cnt++; ovs_mutex_unlock(&netdev_mutex); } return netdev; } /* Reconfigures the device 'netdev' with 'args'. 'args' may be empty * or NULL if none are needed. */ int netdev_set_config(struct netdev *netdev, const struct smap *args) OVS_EXCLUDED(netdev_mutex) { if (netdev->netdev_class->set_config) { const struct smap no_args = SMAP_INITIALIZER(&no_args); int error; error = netdev->netdev_class->set_config(netdev, args ? args : &no_args); if (error) { VLOG_WARN("%s: could not set configuration (%s)", netdev_get_name(netdev), ovs_strerror(error)); } return error; } else if (args && !smap_is_empty(args)) { VLOG_WARN("%s: arguments provided to device that is not configurable", netdev_get_name(netdev)); } return 0; } /* Returns the current configuration for 'netdev' in 'args'. The caller must * have already initialized 'args' with smap_init(). Returns 0 on success, in * which case 'args' will be filled with 'netdev''s configuration. On failure * returns a positive errno value, in which case 'args' will be empty. * * The caller owns 'args' and its contents and must eventually free them with * smap_destroy(). */ int netdev_get_config(const struct netdev *netdev, struct smap *args) OVS_EXCLUDED(netdev_mutex) { int error; smap_clear(args); if (netdev->netdev_class->get_config) { error = netdev->netdev_class->get_config(netdev, args); if (error) { smap_clear(args); } } else { error = 0; } return error; } const struct netdev_tunnel_config * netdev_get_tunnel_config(const struct netdev *netdev) OVS_EXCLUDED(netdev_mutex) { if (netdev->netdev_class->get_tunnel_config) { return netdev->netdev_class->get_tunnel_config(netdev); } else { return NULL; } } static void netdev_unref(struct netdev *dev) OVS_RELEASES(netdev_mutex) { ovs_assert(dev->ref_cnt); if (!--dev->ref_cnt) { const struct netdev_class *class = dev->netdev_class; struct netdev_registered_class *rc; int old_ref_cnt; dev->netdev_class->destruct(dev); shash_delete(&netdev_shash, dev->node); free(dev->name); dev->netdev_class->dealloc(dev); ovs_mutex_unlock(&netdev_mutex); ovs_mutex_lock(&netdev_class_mutex); rc = netdev_lookup_class(class->type); atomic_sub(&rc->ref_cnt, 1, &old_ref_cnt); ovs_assert(old_ref_cnt > 0); ovs_mutex_unlock(&netdev_class_mutex); } else { ovs_mutex_unlock(&netdev_mutex); } } /* Closes and destroys 'netdev'. */ void netdev_close(struct netdev *netdev) OVS_EXCLUDED(netdev_mutex) { if (netdev) { ovs_mutex_lock(&netdev_mutex); netdev_unref(netdev); } } /* Parses 'netdev_name_', which is of the form [type@]name into its component * pieces. 'name' and 'type' must be freed by the caller. */ void netdev_parse_name(const char *netdev_name_, char **name, char **type) { char *netdev_name = xstrdup(netdev_name_); char *separator; separator = strchr(netdev_name, '@'); if (separator) { *separator = '\0'; *type = netdev_name; *name = xstrdup(separator + 1); } else { *name = netdev_name; *type = xstrdup("system"); } } /* Attempts to open a netdev_rxq handle for obtaining packets received on * 'netdev'. On success, returns 0 and stores a nonnull 'netdev_rxq *' into * '*rxp'. On failure, returns a positive errno value and stores NULL into * '*rxp'. * * Some kinds of network devices might not support receiving packets. This * function returns EOPNOTSUPP in that case.*/ int netdev_rxq_open(struct netdev *netdev, struct netdev_rxq **rxp, int id) OVS_EXCLUDED(netdev_mutex) { int error; if (netdev->netdev_class->rxq_alloc && id < netdev->n_rxq) { struct netdev_rxq *rx = netdev->netdev_class->rxq_alloc(); if (rx) { rx->netdev = netdev; rx->queue_id = id; error = netdev->netdev_class->rxq_construct(rx); if (!error) { ovs_mutex_lock(&netdev_mutex); netdev->ref_cnt++; ovs_mutex_unlock(&netdev_mutex); *rxp = rx; return 0; } netdev->netdev_class->rxq_dealloc(rx); } else { error = ENOMEM; } } else { error = EOPNOTSUPP; } *rxp = NULL; return error; } /* Closes 'rx'. */ void netdev_rxq_close(struct netdev_rxq *rx) OVS_EXCLUDED(netdev_mutex) { if (rx) { struct netdev *netdev = rx->netdev; netdev->netdev_class->rxq_destruct(rx); netdev->netdev_class->rxq_dealloc(rx); netdev_close(netdev); } } /* Attempts to receive batch of packets from 'rx'. * * Returns EAGAIN immediately if no packet is ready to be received. * * Returns EMSGSIZE, and discards the packet, if the received packet is longer * than 'ofpbuf_tailroom(buffer)'. * * It is advised that the tailroom of 'buffer' should be * VLAN_HEADER_LEN bytes longer than the MTU to allow space for an * out-of-band VLAN header to be added to the packet. At the very least, * 'buffer' must have at least ETH_TOTAL_MIN bytes of tailroom. * * This function may be set to null if it would always return EOPNOTSUPP * anyhow. */ int netdev_rxq_recv(struct netdev_rxq *rx, struct ofpbuf **buffers, int *cnt) { int retval; retval = rx->netdev->netdev_class->rxq_recv(rx, buffers, cnt); if (!retval) { COVERAGE_INC(netdev_received); } return retval; } /* Arranges for poll_block() to wake up when a packet is ready to be received * on 'rx'. */ void netdev_rxq_wait(struct netdev_rxq *rx) { rx->netdev->netdev_class->rxq_wait(rx); } /* Discards any packets ready to be received on 'rx'. */ int netdev_rxq_drain(struct netdev_rxq *rx) { return (rx->netdev->netdev_class->rxq_drain ? rx->netdev->netdev_class->rxq_drain(rx) : 0); } /* Sends 'buffer' on 'netdev'. Returns 0 if successful, otherwise a positive * errno value. Returns EAGAIN without blocking if the packet cannot be queued * immediately. Returns EMSGSIZE if a partial packet was transmitted or if * the packet is too big or too small to transmit on the device. * * To retain ownership of 'buffer' caller can set may_steal to false. * * The kernel maintains a packet transmission queue, so the caller is not * expected to do additional queuing of packets. * * Some network devices may not implement support for this function. In such * cases this function will always return EOPNOTSUPP. */ int netdev_send(struct netdev *netdev, struct ofpbuf *buffer, bool may_steal) { int error; error = (netdev->netdev_class->send ? netdev->netdev_class->send(netdev, buffer, may_steal) : EOPNOTSUPP); if (!error) { COVERAGE_INC(netdev_sent); } return error; } /* Registers with the poll loop to wake up from the next call to poll_block() * when the packet transmission queue has sufficient room to transmit a packet * with netdev_send(). * * The kernel maintains a packet transmission queue, so the client is not * expected to do additional queuing of packets. Thus, this function is * unlikely to ever be used. It is included for completeness. */ void netdev_send_wait(struct netdev *netdev) { if (netdev->netdev_class->send_wait) { netdev->netdev_class->send_wait(netdev); } } /* Attempts to set 'netdev''s MAC address to 'mac'. Returns 0 if successful, * otherwise a positive errno value. */ int netdev_set_etheraddr(struct netdev *netdev, const uint8_t mac[ETH_ADDR_LEN]) { return netdev->netdev_class->set_etheraddr(netdev, mac); } /* Retrieves 'netdev''s MAC address. If successful, returns 0 and copies the * the MAC address into 'mac'. On failure, returns a positive errno value and * clears 'mac' to all-zeros. */ int netdev_get_etheraddr(const struct netdev *netdev, uint8_t mac[ETH_ADDR_LEN]) { return netdev->netdev_class->get_etheraddr(netdev, mac); } /* Returns the name of the network device that 'netdev' represents, * e.g. "eth0". The caller must not modify or free the returned string. */ const char * netdev_get_name(const struct netdev *netdev) { return netdev->name; } /* Retrieves the MTU of 'netdev'. The MTU is the maximum size of transmitted * (and received) packets, in bytes, not including the hardware header; thus, * this is typically 1500 bytes for Ethernet devices. * * If successful, returns 0 and stores the MTU size in '*mtup'. Returns * EOPNOTSUPP if 'netdev' does not have an MTU (as e.g. some tunnels do not). * On other failure, returns a positive errno value. On failure, sets '*mtup' * to 0. */ int netdev_get_mtu(const struct netdev *netdev, int *mtup) { const struct netdev_class *class = netdev->netdev_class; int error; error = class->get_mtu ? class->get_mtu(netdev, mtup) : EOPNOTSUPP; if (error) { *mtup = 0; if (error != EOPNOTSUPP) { VLOG_DBG_RL(&rl, "failed to retrieve MTU for network device %s: " "%s", netdev_get_name(netdev), ovs_strerror(error)); } } return error; } /* Sets the MTU of 'netdev'. The MTU is the maximum size of transmitted * (and received) packets, in bytes. * * If successful, returns 0. Returns EOPNOTSUPP if 'netdev' does not have an * MTU (as e.g. some tunnels do not). On other failure, returns a positive * errno value. */ int netdev_set_mtu(const struct netdev *netdev, int mtu) { const struct netdev_class *class = netdev->netdev_class; int error; error = class->set_mtu ? class->set_mtu(netdev, mtu) : EOPNOTSUPP; if (error && error != EOPNOTSUPP) { VLOG_DBG_RL(&rl, "failed to set MTU for network device %s: %s", netdev_get_name(netdev), ovs_strerror(error)); } return error; } /* Returns the ifindex of 'netdev', if successful, as a positive number. On * failure, returns a negative errno value. * * The desired semantics of the ifindex value are a combination of those * specified by POSIX for if_nametoindex() and by SNMP for ifIndex. An ifindex * value should be unique within a host and remain stable at least until * reboot. SNMP says an ifindex "ranges between 1 and the value of ifNumber" * but many systems do not follow this rule anyhow. * * Some network devices may not implement support for this function. In such * cases this function will always return -EOPNOTSUPP. */ int netdev_get_ifindex(const struct netdev *netdev) { int (*get_ifindex)(const struct netdev *); get_ifindex = netdev->netdev_class->get_ifindex; return get_ifindex ? get_ifindex(netdev) : -EOPNOTSUPP; } /* Stores the features supported by 'netdev' into each of '*current', * '*advertised', '*supported', and '*peer' that are non-null. Each value is a * bitmap of "enum ofp_port_features" bits, in host byte order. Returns 0 if * successful, otherwise a positive errno value. On failure, all of the * passed-in values are set to 0. * * Some network devices may not implement support for this function. In such * cases this function will always return EOPNOTSUPP. */ int netdev_get_features(const struct netdev *netdev, enum netdev_features *current, enum netdev_features *advertised, enum netdev_features *supported, enum netdev_features *peer) { int (*get_features)(const struct netdev *netdev, enum netdev_features *current, enum netdev_features *advertised, enum netdev_features *supported, enum netdev_features *peer); enum netdev_features dummy[4]; int error; if (!current) { current = &dummy[0]; } if (!advertised) { advertised = &dummy[1]; } if (!supported) { supported = &dummy[2]; } if (!peer) { peer = &dummy[3]; } get_features = netdev->netdev_class->get_features; error = get_features ? get_features(netdev, current, advertised, supported, peer) : EOPNOTSUPP; if (error) { *current = *advertised = *supported = *peer = 0; } return error; } /* Returns the maximum speed of a network connection that has the NETDEV_F_* * bits in 'features', in bits per second. If no bits that indicate a speed * are set in 'features', returns 'default_bps'. */ uint64_t netdev_features_to_bps(enum netdev_features features, uint64_t default_bps) { enum { F_1000000MB = NETDEV_F_1TB_FD, F_100000MB = NETDEV_F_100GB_FD, F_40000MB = NETDEV_F_40GB_FD, F_10000MB = NETDEV_F_10GB_FD, F_1000MB = NETDEV_F_1GB_HD | NETDEV_F_1GB_FD, F_100MB = NETDEV_F_100MB_HD | NETDEV_F_100MB_FD, F_10MB = NETDEV_F_10MB_HD | NETDEV_F_10MB_FD }; return ( features & F_1000000MB ? UINT64_C(1000000000000) : features & F_100000MB ? UINT64_C(100000000000) : features & F_40000MB ? UINT64_C(40000000000) : features & F_10000MB ? UINT64_C(10000000000) : features & F_1000MB ? UINT64_C(1000000000) : features & F_100MB ? UINT64_C(100000000) : features & F_10MB ? UINT64_C(10000000) : default_bps); } /* Returns true if any of the NETDEV_F_* bits that indicate a full-duplex link * are set in 'features', otherwise false. */ bool netdev_features_is_full_duplex(enum netdev_features features) { return (features & (NETDEV_F_10MB_FD | NETDEV_F_100MB_FD | NETDEV_F_1GB_FD | NETDEV_F_10GB_FD | NETDEV_F_40GB_FD | NETDEV_F_100GB_FD | NETDEV_F_1TB_FD)) != 0; } /* Set the features advertised by 'netdev' to 'advertise'. Returns 0 if * successful, otherwise a positive errno value. */ int netdev_set_advertisements(struct netdev *netdev, enum netdev_features advertise) { return (netdev->netdev_class->set_advertisements ? netdev->netdev_class->set_advertisements( netdev, advertise) : EOPNOTSUPP); } /* If 'netdev' has an assigned IPv4 address, sets '*address' to that address * and '*netmask' to its netmask and returns 0. Otherwise, returns a positive * errno value and sets '*address' to 0 (INADDR_ANY). * * The following error values have well-defined meanings: * * - EADDRNOTAVAIL: 'netdev' has no assigned IPv4 address. * * - EOPNOTSUPP: No IPv4 network stack attached to 'netdev'. * * 'address' or 'netmask' or both may be null, in which case the address or * netmask is not reported. */ int netdev_get_in4(const struct netdev *netdev, struct in_addr *address_, struct in_addr *netmask_) { struct in_addr address; struct in_addr netmask; int error; error = (netdev->netdev_class->get_in4 ? netdev->netdev_class->get_in4(netdev, &address, &netmask) : EOPNOTSUPP); if (address_) { address_->s_addr = error ? 0 : address.s_addr; } if (netmask_) { netmask_->s_addr = error ? 0 : netmask.s_addr; } return error; } /* Assigns 'addr' as 'netdev''s IPv4 address and 'mask' as its netmask. If * 'addr' is INADDR_ANY, 'netdev''s IPv4 address is cleared. Returns a * positive errno value. */ int netdev_set_in4(struct netdev *netdev, struct in_addr addr, struct in_addr mask) { return (netdev->netdev_class->set_in4 ? netdev->netdev_class->set_in4(netdev, addr, mask) : EOPNOTSUPP); } /* Obtains ad IPv4 address from device name and save the address in * in4. Returns 0 if successful, otherwise a positive errno value. */ int netdev_get_in4_by_name(const char *device_name, struct in_addr *in4) { struct netdev *netdev; int error; error = netdev_open(device_name, "system", &netdev); if (error) { in4->s_addr = htonl(0); return error; } error = netdev_get_in4(netdev, in4, NULL); netdev_close(netdev); return error; } /* Adds 'router' as a default IP gateway for the TCP/IP stack that corresponds * to 'netdev'. */ int netdev_add_router(struct netdev *netdev, struct in_addr router) { COVERAGE_INC(netdev_add_router); return (netdev->netdev_class->add_router ? netdev->netdev_class->add_router(netdev, router) : EOPNOTSUPP); } /* Looks up the next hop for 'host' for the TCP/IP stack that corresponds to * 'netdev'. If a route cannot not be determined, sets '*next_hop' to 0, * '*netdev_name' to null, and returns a positive errno value. Otherwise, if a * next hop is found, stores the next hop gateway's address (0 if 'host' is on * a directly connected network) in '*next_hop' and a copy of the name of the * device to reach 'host' in '*netdev_name', and returns 0. The caller is * responsible for freeing '*netdev_name' (by calling free()). */ int netdev_get_next_hop(const struct netdev *netdev, const struct in_addr *host, struct in_addr *next_hop, char **netdev_name) { int error = (netdev->netdev_class->get_next_hop ? netdev->netdev_class->get_next_hop( host, next_hop, netdev_name) : EOPNOTSUPP); if (error) { next_hop->s_addr = 0; *netdev_name = NULL; } return error; } /* Populates 'smap' with status information. * * Populates 'smap' with 'netdev' specific status information. This * information may be used to populate the status column of the Interface table * as defined in ovs-vswitchd.conf.db(5). */ int netdev_get_status(const struct netdev *netdev, struct smap *smap) { return (netdev->netdev_class->get_status ? netdev->netdev_class->get_status(netdev, smap) : EOPNOTSUPP); } /* If 'netdev' has an assigned IPv6 address, sets '*in6' to that address and * returns 0. Otherwise, returns a positive errno value and sets '*in6' to * all-zero-bits (in6addr_any). * * The following error values have well-defined meanings: * * - EADDRNOTAVAIL: 'netdev' has no assigned IPv6 address. * * - EOPNOTSUPP: No IPv6 network stack attached to 'netdev'. * * 'in6' may be null, in which case the address itself is not reported. */ int netdev_get_in6(const struct netdev *netdev, struct in6_addr *in6) { struct in6_addr dummy; int error; error = (netdev->netdev_class->get_in6 ? netdev->netdev_class->get_in6(netdev, in6 ? in6 : &dummy) : EOPNOTSUPP); if (error && in6) { memset(in6, 0, sizeof *in6); } return error; } /* On 'netdev', turns off the flags in 'off' and then turns on the flags in * 'on'. Returns 0 if successful, otherwise a positive errno value. */ static int do_update_flags(struct netdev *netdev, enum netdev_flags off, enum netdev_flags on, enum netdev_flags *old_flagsp, struct netdev_saved_flags **sfp) OVS_EXCLUDED(netdev_mutex) { struct netdev_saved_flags *sf = NULL; enum netdev_flags old_flags; int error; error = netdev->netdev_class->update_flags(netdev, off & ~on, on, &old_flags); if (error) { VLOG_WARN_RL(&rl, "failed to %s flags for network device %s: %s", off || on ? "set" : "get", netdev_get_name(netdev), ovs_strerror(error)); old_flags = 0; } else if ((off || on) && sfp) { enum netdev_flags new_flags = (old_flags & ~off) | on; enum netdev_flags changed_flags = old_flags ^ new_flags; if (changed_flags) { ovs_mutex_lock(&netdev_mutex); *sfp = sf = xmalloc(sizeof *sf); sf->netdev = netdev; list_push_front(&netdev->saved_flags_list, &sf->node); sf->saved_flags = changed_flags; sf->saved_values = changed_flags & new_flags; netdev->ref_cnt++; ovs_mutex_unlock(&netdev_mutex); } } if (old_flagsp) { *old_flagsp = old_flags; } if (sfp) { *sfp = sf; } return error; } /* Obtains the current flags for 'netdev' and stores them into '*flagsp'. * Returns 0 if successful, otherwise a positive errno value. On failure, * stores 0 into '*flagsp'. */ int netdev_get_flags(const struct netdev *netdev_, enum netdev_flags *flagsp) { struct netdev *netdev = CONST_CAST(struct netdev *, netdev_); return do_update_flags(netdev, 0, 0, flagsp, NULL); } /* Sets the flags for 'netdev' to 'flags'. * Returns 0 if successful, otherwise a positive errno value. */ int netdev_set_flags(struct netdev *netdev, enum netdev_flags flags, struct netdev_saved_flags **sfp) { return do_update_flags(netdev, -1, flags, NULL, sfp); } /* Turns on the specified 'flags' on 'netdev': * * - On success, returns 0. If 'sfp' is nonnull, sets '*sfp' to a newly * allocated 'struct netdev_saved_flags *' that may be passed to * netdev_restore_flags() to restore the original values of 'flags' on * 'netdev' (this will happen automatically at program termination if * netdev_restore_flags() is never called) , or to NULL if no flags were * actually changed. * * - On failure, returns a positive errno value. If 'sfp' is nonnull, sets * '*sfp' to NULL. */ int netdev_turn_flags_on(struct netdev *netdev, enum netdev_flags flags, struct netdev_saved_flags **sfp) { return do_update_flags(netdev, 0, flags, NULL, sfp); } /* Turns off the specified 'flags' on 'netdev'. See netdev_turn_flags_on() for * details of the interface. */ int netdev_turn_flags_off(struct netdev *netdev, enum netdev_flags flags, struct netdev_saved_flags **sfp) { return do_update_flags(netdev, flags, 0, NULL, sfp); } /* Restores the flags that were saved in 'sf', and destroys 'sf'. * Does nothing if 'sf' is NULL. */ void netdev_restore_flags(struct netdev_saved_flags *sf) OVS_EXCLUDED(netdev_mutex) { if (sf) { struct netdev *netdev = sf->netdev; enum netdev_flags old_flags; netdev->netdev_class->update_flags(netdev, sf->saved_flags & sf->saved_values, sf->saved_flags & ~sf->saved_values, &old_flags); ovs_mutex_lock(&netdev_mutex); list_remove(&sf->node); free(sf); netdev_unref(netdev); } } /* Looks up the ARP table entry for 'ip' on 'netdev'. If one exists and can be * successfully retrieved, it stores the corresponding MAC address in 'mac' and * returns 0. Otherwise, it returns a positive errno value; in particular, * ENXIO indicates that there is no ARP table entry for 'ip' on 'netdev'. */ int netdev_arp_lookup(const struct netdev *netdev, ovs_be32 ip, uint8_t mac[ETH_ADDR_LEN]) { int error = (netdev->netdev_class->arp_lookup ? netdev->netdev_class->arp_lookup(netdev, ip, mac) : EOPNOTSUPP); if (error) { memset(mac, 0, ETH_ADDR_LEN); } return error; } /* Returns true if carrier is active (link light is on) on 'netdev'. */ bool netdev_get_carrier(const struct netdev *netdev) { int error; enum netdev_flags flags; bool carrier; netdev_get_flags(netdev, &flags); if (!(flags & NETDEV_UP)) { return false; } if (!netdev->netdev_class->get_carrier) { return true; } error = netdev->netdev_class->get_carrier(netdev, &carrier); if (error) { VLOG_DBG("%s: failed to get network device carrier status, assuming " "down: %s", netdev_get_name(netdev), ovs_strerror(error)); carrier = false; } return carrier; } /* Returns the number of times 'netdev''s carrier has changed. */ long long int netdev_get_carrier_resets(const struct netdev *netdev) { return (netdev->netdev_class->get_carrier_resets ? netdev->netdev_class->get_carrier_resets(netdev) : 0); } /* Attempts to force netdev_get_carrier() to poll 'netdev''s MII registers for * link status instead of checking 'netdev''s carrier. 'netdev''s MII * registers will be polled once ever 'interval' milliseconds. If 'netdev' * does not support MII, another method may be used as a fallback. If * 'interval' is less than or equal to zero, reverts netdev_get_carrier() to * its normal behavior. * * Returns 0 if successful, otherwise a positive errno value. */ int netdev_set_miimon_interval(struct netdev *netdev, long long int interval) { return (netdev->netdev_class->set_miimon_interval ? netdev->netdev_class->set_miimon_interval(netdev, interval) : EOPNOTSUPP); } /* Retrieves current device stats for 'netdev'. */ int netdev_get_stats(const struct netdev *netdev, struct netdev_stats *stats) { int error; COVERAGE_INC(netdev_get_stats); error = (netdev->netdev_class->get_stats ? netdev->netdev_class->get_stats(netdev, stats) : EOPNOTSUPP); if (error) { memset(stats, 0xff, sizeof *stats); } return error; } /* Attempts to change the stats for 'netdev' to those provided in 'stats'. * Returns 0 if successful, otherwise a positive errno value. * * This will probably fail for most network devices. Some devices might only * allow setting their stats to 0. */ int netdev_set_stats(struct netdev *netdev, const struct netdev_stats *stats) { return (netdev->netdev_class->set_stats ? netdev->netdev_class->set_stats(netdev, stats) : EOPNOTSUPP); } /* Attempts to set input rate limiting (policing) policy, such that up to * 'kbits_rate' kbps of traffic is accepted, with a maximum accumulative burst * size of 'kbits' kb. */ int netdev_set_policing(struct netdev *netdev, uint32_t kbits_rate, uint32_t kbits_burst) { return (netdev->netdev_class->set_policing ? netdev->netdev_class->set_policing(netdev, kbits_rate, kbits_burst) : EOPNOTSUPP); } /* Adds to 'types' all of the forms of QoS supported by 'netdev', or leaves it * empty if 'netdev' does not support QoS. Any names added to 'types' should * be documented as valid for the "type" column in the "QoS" table in * vswitchd/vswitch.xml (which is built as ovs-vswitchd.conf.db(8)). * * Every network device supports disabling QoS with a type of "", but this type * will not be added to 'types'. * * The caller must initialize 'types' (e.g. with sset_init()) before calling * this function. The caller is responsible for destroying 'types' (e.g. with * sset_destroy()) when it is no longer needed. * * Returns 0 if successful, otherwise a positive errno value. */ int netdev_get_qos_types(const struct netdev *netdev, struct sset *types) { const struct netdev_class *class = netdev->netdev_class; return (class->get_qos_types ? class->get_qos_types(netdev, types) : 0); } /* Queries 'netdev' for its capabilities regarding the specified 'type' of QoS, * which should be "" or one of the types returned by netdev_get_qos_types() * for 'netdev'. Returns 0 if successful, otherwise a positive errno value. * On success, initializes 'caps' with the QoS capabilities; on failure, clears * 'caps' to all zeros. */ int netdev_get_qos_capabilities(const struct netdev *netdev, const char *type, struct netdev_qos_capabilities *caps) { const struct netdev_class *class = netdev->netdev_class; if (*type) { int retval = (class->get_qos_capabilities ? class->get_qos_capabilities(netdev, type, caps) : EOPNOTSUPP); if (retval) { memset(caps, 0, sizeof *caps); } return retval; } else { /* Every netdev supports turning off QoS. */ memset(caps, 0, sizeof *caps); return 0; } } /* Obtains the number of queues supported by 'netdev' for the specified 'type' * of QoS. Returns 0 if successful, otherwise a positive errno value. Stores * the number of queues (zero on failure) in '*n_queuesp'. * * This is just a simple wrapper around netdev_get_qos_capabilities(). */ int netdev_get_n_queues(const struct netdev *netdev, const char *type, unsigned int *n_queuesp) { struct netdev_qos_capabilities caps; int retval; retval = netdev_get_qos_capabilities(netdev, type, &caps); *n_queuesp = caps.n_queues; return retval; } /* Queries 'netdev' about its currently configured form of QoS. If successful, * stores the name of the current form of QoS into '*typep', stores any details * of configuration as string key-value pairs in 'details', and returns 0. On * failure, sets '*typep' to NULL and returns a positive errno value. * * A '*typep' of "" indicates that QoS is currently disabled on 'netdev'. * * The caller must initialize 'details' as an empty smap (e.g. with * smap_init()) before calling this function. The caller must free 'details' * when it is no longer needed (e.g. with smap_destroy()). * * The caller must not modify or free '*typep'. * * '*typep' will be one of the types returned by netdev_get_qos_types() for * 'netdev'. The contents of 'details' should be documented as valid for * '*typep' in the "other_config" column in the "QoS" table in * vswitchd/vswitch.xml (which is built as ovs-vswitchd.conf.db(8)). */ int netdev_get_qos(const struct netdev *netdev, const char **typep, struct smap *details) { const struct netdev_class *class = netdev->netdev_class; int retval; if (class->get_qos) { retval = class->get_qos(netdev, typep, details); if (retval) { *typep = NULL; smap_clear(details); } return retval; } else { /* 'netdev' doesn't support QoS, so report that QoS is disabled. */ *typep = ""; return 0; } } /* Attempts to reconfigure QoS on 'netdev', changing the form of QoS to 'type' * with details of configuration from 'details'. Returns 0 if successful, * otherwise a positive errno value. On error, the previous QoS configuration * is retained. * * When this function changes the type of QoS (not just 'details'), this also * resets all queue configuration for 'netdev' to their defaults (which depend * on the specific type of QoS). Otherwise, the queue configuration for * 'netdev' is unchanged. * * 'type' should be "" (to disable QoS) or one of the types returned by * netdev_get_qos_types() for 'netdev'. The contents of 'details' should be * documented as valid for the given 'type' in the "other_config" column in the * "QoS" table in vswitchd/vswitch.xml (which is built as * ovs-vswitchd.conf.db(8)). * * NULL may be specified for 'details' if there are no configuration * details. */ int netdev_set_qos(struct netdev *netdev, const char *type, const struct smap *details) { const struct netdev_class *class = netdev->netdev_class; if (!type) { type = ""; } if (class->set_qos) { if (!details) { static const struct smap empty = SMAP_INITIALIZER(&empty); details = ∅ } return class->set_qos(netdev, type, details); } else { return *type ? EOPNOTSUPP : 0; } } /* Queries 'netdev' for information about the queue numbered 'queue_id'. If * successful, adds that information as string key-value pairs to 'details'. * Returns 0 if successful, otherwise a positive errno value. * * 'queue_id' must be less than the number of queues supported by 'netdev' for * the current form of QoS (e.g. as returned by netdev_get_n_queues(netdev)). * * The returned contents of 'details' should be documented as valid for the * given 'type' in the "other_config" column in the "Queue" table in * vswitchd/vswitch.xml (which is built as ovs-vswitchd.conf.db(8)). * * The caller must initialize 'details' (e.g. with smap_init()) before calling * this function. The caller must free 'details' when it is no longer needed * (e.g. with smap_destroy()). */ int netdev_get_queue(const struct netdev *netdev, unsigned int queue_id, struct smap *details) { const struct netdev_class *class = netdev->netdev_class; int retval; retval = (class->get_queue ? class->get_queue(netdev, queue_id, details) : EOPNOTSUPP); if (retval) { smap_clear(details); } return retval; } /* Configures the queue numbered 'queue_id' on 'netdev' with the key-value * string pairs in 'details'. The contents of 'details' should be documented * as valid for the given 'type' in the "other_config" column in the "Queue" * table in vswitchd/vswitch.xml (which is built as ovs-vswitchd.conf.db(8)). * Returns 0 if successful, otherwise a positive errno value. On failure, the * given queue's configuration should be unmodified. * * 'queue_id' must be less than the number of queues supported by 'netdev' for * the current form of QoS (e.g. as returned by netdev_get_n_queues(netdev)). * * This function does not modify 'details', and the caller retains ownership of * it. */ int netdev_set_queue(struct netdev *netdev, unsigned int queue_id, const struct smap *details) { const struct netdev_class *class = netdev->netdev_class; return (class->set_queue ? class->set_queue(netdev, queue_id, details) : EOPNOTSUPP); } /* Attempts to delete the queue numbered 'queue_id' from 'netdev'. Some kinds * of QoS may have a fixed set of queues, in which case attempts to delete them * will fail with EOPNOTSUPP. * * Returns 0 if successful, otherwise a positive errno value. On failure, the * given queue will be unmodified. * * 'queue_id' must be less than the number of queues supported by 'netdev' for * the current form of QoS (e.g. as returned by * netdev_get_n_queues(netdev)). */ int netdev_delete_queue(struct netdev *netdev, unsigned int queue_id) { const struct netdev_class *class = netdev->netdev_class; return (class->delete_queue ? class->delete_queue(netdev, queue_id) : EOPNOTSUPP); } /* Obtains statistics about 'queue_id' on 'netdev'. On success, returns 0 and * fills 'stats' with the queue's statistics; individual members of 'stats' may * be set to all-1-bits if the statistic is unavailable. On failure, returns a * positive errno value and fills 'stats' with values indicating unsupported * statistics. */ int netdev_get_queue_stats(const struct netdev *netdev, unsigned int queue_id, struct netdev_queue_stats *stats) { const struct netdev_class *class = netdev->netdev_class; int retval; retval = (class->get_queue_stats ? class->get_queue_stats(netdev, queue_id, stats) : EOPNOTSUPP); if (retval) { stats->tx_bytes = UINT64_MAX; stats->tx_packets = UINT64_MAX; stats->tx_errors = UINT64_MAX; stats->created = LLONG_MIN; } return retval; } /* Initializes 'dump' to begin dumping the queues in a netdev. * * This function provides no status indication. An error status for the entire * dump operation is provided when it is completed by calling * netdev_queue_dump_done(). */ void netdev_queue_dump_start(struct netdev_queue_dump *dump, const struct netdev *netdev) { dump->netdev = netdev_ref(netdev); if (netdev->netdev_class->queue_dump_start) { dump->error = netdev->netdev_class->queue_dump_start(netdev, &dump->state); } else { dump->error = EOPNOTSUPP; } } /* Attempts to retrieve another queue from 'dump', which must have been * initialized with netdev_queue_dump_start(). On success, stores a new queue * ID into '*queue_id', fills 'details' with configuration details for the * queue, and returns true. On failure, returns false. * * Queues are not necessarily dumped in increasing order of queue ID (or any * other predictable order). * * Failure might indicate an actual error or merely that the last queue has * been dumped. An error status for the entire dump operation is provided when * it is completed by calling netdev_queue_dump_done(). * * The returned contents of 'details' should be documented as valid for the * given 'type' in the "other_config" column in the "Queue" table in * vswitchd/vswitch.xml (which is built as ovs-vswitchd.conf.db(8)). * * The caller must initialize 'details' (e.g. with smap_init()) before calling * this function. This function will clear and replace its contents. The * caller must free 'details' when it is no longer needed (e.g. with * smap_destroy()). */ bool netdev_queue_dump_next(struct netdev_queue_dump *dump, unsigned int *queue_id, struct smap *details) { const struct netdev *netdev = dump->netdev; if (dump->error) { return false; } dump->error = netdev->netdev_class->queue_dump_next(netdev, dump->state, queue_id, details); if (dump->error) { netdev->netdev_class->queue_dump_done(netdev, dump->state); return false; } return true; } /* Completes queue table dump operation 'dump', which must have been * initialized with netdev_queue_dump_start(). Returns 0 if the dump operation * was error-free, otherwise a positive errno value describing the problem. */ int netdev_queue_dump_done(struct netdev_queue_dump *dump) { const struct netdev *netdev = dump->netdev; if (!dump->error && netdev->netdev_class->queue_dump_done) { dump->error = netdev->netdev_class->queue_dump_done(netdev, dump->state); } netdev_close(dump->netdev); return dump->error == EOF ? 0 : dump->error; } /* Iterates over all of 'netdev''s queues, calling 'cb' with the queue's ID, * its statistics, and the 'aux' specified by the caller. The order of * iteration is unspecified, but (when successful) each queue is visited * exactly once. * * Calling this function may be more efficient than calling * netdev_get_queue_stats() for every queue. * * 'cb' must not modify or free the statistics passed in. * * Returns 0 if successful, otherwise a positive errno value. On error, some * configured queues may not have been included in the iteration. */ int netdev_dump_queue_stats(const struct netdev *netdev, netdev_dump_queue_stats_cb *cb, void *aux) { const struct netdev_class *class = netdev->netdev_class; return (class->dump_queue_stats ? class->dump_queue_stats(netdev, cb, aux) : EOPNOTSUPP); } /* Returns the class type of 'netdev'. * * The caller must not free the returned value. */ const char * netdev_get_type(const struct netdev *netdev) { return netdev->netdev_class->type; } /* Returns the class associated with 'netdev'. */ const struct netdev_class * netdev_get_class(const struct netdev *netdev) { return netdev->netdev_class; } /* Returns the netdev with 'name' or NULL if there is none. * * The caller must free the returned netdev with netdev_close(). */ struct netdev * netdev_from_name(const char *name) OVS_EXCLUDED(netdev_mutex) { struct netdev *netdev; ovs_mutex_lock(&netdev_mutex); netdev = shash_find_data(&netdev_shash, name); if (netdev) { netdev->ref_cnt++; } ovs_mutex_unlock(&netdev_mutex); return netdev; } /* Fills 'device_list' with devices that match 'netdev_class'. * * The caller is responsible for initializing and destroying 'device_list' and * must close each device on the list. */ void netdev_get_devices(const struct netdev_class *netdev_class, struct shash *device_list) OVS_EXCLUDED(netdev_mutex) { struct shash_node *node; ovs_mutex_lock(&netdev_mutex); SHASH_FOR_EACH (node, &netdev_shash) { struct netdev *dev = node->data; if (dev->netdev_class == netdev_class) { dev->ref_cnt++; shash_add(device_list, node->name, node->data); } } ovs_mutex_unlock(&netdev_mutex); } /* Extracts pointers to all 'netdev-vports' into an array 'vports' * and returns it. Stores the size of the array into '*size'. * * The caller is responsible for freeing 'vports' and must close * each 'netdev-vport' in the list. */ struct netdev ** netdev_get_vports(size_t *size) OVS_EXCLUDED(netdev_mutex) { struct netdev **vports; struct shash_node *node; size_t n = 0; if (!size) { return NULL; } /* Explicitly allocates big enough chunk of memory. */ vports = xmalloc(shash_count(&netdev_shash) * sizeof *vports); ovs_mutex_lock(&netdev_mutex); SHASH_FOR_EACH (node, &netdev_shash) { struct netdev *dev = node->data; if (netdev_vport_is_vport_class(dev->netdev_class)) { dev->ref_cnt++; vports[n] = dev; n++; } } ovs_mutex_unlock(&netdev_mutex); *size = n; return vports; } const char * netdev_get_type_from_name(const char *name) { struct netdev *dev = netdev_from_name(name); const char *type = dev ? netdev_get_type(dev) : NULL; netdev_close(dev); return type; } struct netdev * netdev_rxq_get_netdev(const struct netdev_rxq *rx) { ovs_assert(rx->netdev->ref_cnt > 0); return rx->netdev; } const char * netdev_rxq_get_name(const struct netdev_rxq *rx) { return netdev_get_name(netdev_rxq_get_netdev(rx)); } static void restore_all_flags(void *aux OVS_UNUSED) { struct shash_node *node; SHASH_FOR_EACH (node, &netdev_shash) { struct netdev *netdev = node->data; const struct netdev_saved_flags *sf; enum netdev_flags saved_values; enum netdev_flags saved_flags; saved_values = saved_flags = 0; LIST_FOR_EACH (sf, node, &netdev->saved_flags_list) { saved_flags |= sf->saved_flags; saved_values &= ~sf->saved_flags; saved_values |= sf->saved_flags & sf->saved_values; } if (saved_flags) { enum netdev_flags old_flags; netdev->netdev_class->update_flags(netdev, saved_flags & saved_values, saved_flags & ~saved_values, &old_flags); } } } uint64_t netdev_get_change_seq(const struct netdev *netdev) { return netdev->change_seq; }