/* * Copyright (c) 2012, 2013 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 "ofp-msgs.h" #include "byte-order.h" #include "dynamic-string.h" #include "hash.h" #include "hmap.h" #include "ofpbuf.h" #include "openflow/nicira-ext.h" #include "openflow/openflow.h" #include "ovs-thread.h" #include "vlog.h" VLOG_DEFINE_THIS_MODULE(ofp_msgs); #define OFPT_VENDOR 4 #define OFPT10_STATS_REQUEST 16 #define OFPT10_STATS_REPLY 17 #define OFPT11_STATS_REQUEST 18 #define OFPT11_STATS_REPLY 19 #define OFPST_VENDOR 0xffff /* A thin abstraction of OpenFlow headers: * * - 'version' and 'type' come straight from struct ofp_header, so these are * always present and meaningful. * * - 'stat' comes from the 'type' member in statistics messages only. It is * meaningful, therefore, only if 'version' and 'type' taken together * specify a statistics request or reply. Otherwise it is 0. * * - 'vendor' is meaningful only for vendor messages, that is, if 'version' * and 'type' specify a vendor message or if 'version' and 'type' specify * a statistics message and 'stat' specifies a vendor statistic type. * Otherwise it is 0. * * - 'subtype' is meaningful only for vendor messages and otherwise 0. It * specifies a vendor-defined subtype. There is no standard format for * these but 32 bits seems like it should be enough. */ struct ofphdrs { uint8_t version; /* From ofp_header. */ uint8_t type; /* From ofp_header. */ uint16_t stat; /* From ofp10_stats_msg or ofp11_stats_msg. */ uint32_t vendor; /* From ofp_vendor_header, * ofp10_vendor_stats_msg, or * ofp11_vendor_stats_msg. */ uint32_t subtype; /* From nicira_header, nicira10_stats_msg, or * nicira11_stats_msg. */ }; BUILD_ASSERT_DECL(sizeof(struct ofphdrs) == 12); /* A mapping from OpenFlow headers to OFPRAW_*. */ struct raw_instance { struct hmap_node hmap_node; /* In 'raw_instance_map'. */ struct ofphdrs hdrs; /* Key. */ enum ofpraw raw; /* Value. */ unsigned int hdrs_len; /* ofphdrs_len(hdrs). */ }; /* Information about a particular 'enum ofpraw'. */ struct raw_info { /* All possible instantiations of this OFPRAW_* into OpenFlow headers. */ struct raw_instance *instances; /* min_version - max_version + 1 elems. */ uint8_t min_version; uint8_t max_version; unsigned int min_body; unsigned int extra_multiple; enum ofptype type; const char *name; }; /* All understood OpenFlow message types, indexed by their 'struct ofphdrs'. */ static struct hmap raw_instance_map; #include "ofp-msgs.inc" static ovs_be32 alloc_xid(void); /* ofphdrs functions. */ static uint32_t ofphdrs_hash(const struct ofphdrs *); static bool ofphdrs_equal(const struct ofphdrs *a, const struct ofphdrs *b); static enum ofperr ofphdrs_decode(struct ofphdrs *, const struct ofp_header *oh, size_t length); static void ofphdrs_decode_assert(struct ofphdrs *, const struct ofp_header *oh, size_t length); size_t ofphdrs_len(const struct ofphdrs *); static const struct raw_info *raw_info_get(enum ofpraw); static struct raw_instance *raw_instance_get(const struct raw_info *, uint8_t version); static enum ofperr ofpraw_from_ofphdrs(enum ofpraw *, const struct ofphdrs *); /* Returns a transaction ID to use for an outgoing OpenFlow message. */ static ovs_be32 alloc_xid(void) { static atomic_uint32_t next_xid = ATOMIC_VAR_INIT(1); uint32_t xid; atomic_add(&next_xid, 1, &xid); return htonl(xid); } static uint32_t ofphdrs_hash(const struct ofphdrs *hdrs) { BUILD_ASSERT_DECL(sizeof *hdrs == 12); return hash_words((const uint32_t *) hdrs, 3, 0); } static bool ofphdrs_equal(const struct ofphdrs *a, const struct ofphdrs *b) { return !memcmp(a, b, sizeof *a); } static void log_bad_vendor(uint32_t vendor) { static struct vlog_rate_limit rl = VLOG_RATE_LIMIT_INIT(1, 1); VLOG_WARN_RL(&rl, "OpenFlow message has unknown vendor %#"PRIx32, vendor); } static enum ofperr ofphdrs_decode(struct ofphdrs *hdrs, const struct ofp_header *oh, size_t length) { memset(hdrs, 0, sizeof *hdrs); if (length < sizeof *oh) { return OFPERR_OFPBRC_BAD_LEN; } /* Get base message version and type (OFPT_*). */ hdrs->version = oh->version; hdrs->type = oh->type; if (hdrs->type == OFPT_VENDOR) { /* Get vendor. */ const struct ofp_vendor_header *ovh; if (length < sizeof *ovh) { return OFPERR_OFPBRC_BAD_LEN; } ovh = (const struct ofp_vendor_header *) oh; hdrs->vendor = ntohl(ovh->vendor); if (hdrs->vendor == NX_VENDOR_ID) { /* Get Nicira message subtype (NXT_*). */ const struct nicira_header *nh; if (length < sizeof *nh) { return OFPERR_OFPBRC_BAD_LEN; } nh = (const struct nicira_header *) oh; hdrs->subtype = ntohl(nh->subtype); } else { log_bad_vendor(hdrs->vendor); return OFPERR_OFPBRC_BAD_VENDOR; } } else if (hdrs->version == OFP10_VERSION && (hdrs->type == OFPT10_STATS_REQUEST || hdrs->type == OFPT10_STATS_REPLY)) { const struct ofp10_stats_msg *osm; /* Get statistic type (OFPST_*). */ if (length < sizeof *osm) { return OFPERR_OFPBRC_BAD_LEN; } osm = (const struct ofp10_stats_msg *) oh; hdrs->stat = ntohs(osm->type); if (hdrs->stat == OFPST_VENDOR) { /* Get vendor. */ const struct ofp10_vendor_stats_msg *ovsm; if (length < sizeof *ovsm) { return OFPERR_OFPBRC_BAD_LEN; } ovsm = (const struct ofp10_vendor_stats_msg *) oh; hdrs->vendor = ntohl(ovsm->vendor); if (hdrs->vendor == NX_VENDOR_ID) { /* Get Nicira statistic type (NXST_*). */ const struct nicira10_stats_msg *nsm; if (length < sizeof *nsm) { return OFPERR_OFPBRC_BAD_LEN; } nsm = (const struct nicira10_stats_msg *) oh; hdrs->subtype = ntohl(nsm->subtype); } else { log_bad_vendor(hdrs->vendor); return OFPERR_OFPBRC_BAD_VENDOR; } } } else if (hdrs->version != OFP10_VERSION && (hdrs->type == OFPT11_STATS_REQUEST || hdrs->type == OFPT11_STATS_REPLY)) { const struct ofp11_stats_msg *osm; /* Get statistic type (OFPST_*). */ if (length < sizeof *osm) { return OFPERR_OFPBRC_BAD_LEN; } osm = (const struct ofp11_stats_msg *) oh; hdrs->stat = ntohs(osm->type); if (hdrs->stat == OFPST_VENDOR) { /* Get vendor. */ const struct ofp11_vendor_stats_msg *ovsm; if (length < sizeof *ovsm) { return OFPERR_OFPBRC_BAD_LEN; } ovsm = (const struct ofp11_vendor_stats_msg *) oh; hdrs->vendor = ntohl(ovsm->vendor); if (hdrs->vendor == NX_VENDOR_ID) { /* Get Nicira statistic type (NXST_*). */ const struct nicira11_stats_msg *nsm; if (length < sizeof *nsm) { return OFPERR_OFPBRC_BAD_LEN; } nsm = (const struct nicira11_stats_msg *) oh; hdrs->subtype = ntohl(nsm->subtype); } else { log_bad_vendor(hdrs->vendor); return OFPERR_OFPBRC_BAD_VENDOR; } } } return 0; } static void ofphdrs_decode_assert(struct ofphdrs *hdrs, const struct ofp_header *oh, size_t length) { enum ofperr error = ofphdrs_decode(hdrs, oh, length); ovs_assert(!error); } static bool ofp_is_stat_request(enum ofp_version version, uint8_t type) { switch (version) { case OFP10_VERSION: return type == OFPT10_STATS_REQUEST; case OFP11_VERSION: case OFP12_VERSION: case OFP13_VERSION: case OFP14_VERSION: return type == OFPT11_STATS_REQUEST; } return false; } static bool ofp_is_stat_reply(enum ofp_version version, uint8_t type) { switch (version) { case OFP10_VERSION: return type == OFPT10_STATS_REPLY; case OFP11_VERSION: case OFP12_VERSION: case OFP13_VERSION: case OFP14_VERSION: return type == OFPT11_STATS_REPLY; } return false; } static bool ofp_is_stat(enum ofp_version version, uint8_t type) { return (ofp_is_stat_request(version, type) || ofp_is_stat_reply(version, type)); } static bool ofphdrs_is_stat(const struct ofphdrs *hdrs) { return ofp_is_stat(hdrs->version, hdrs->type); } size_t ofphdrs_len(const struct ofphdrs *hdrs) { if (hdrs->type == OFPT_VENDOR) { return sizeof(struct nicira_header); } switch ((enum ofp_version) hdrs->version) { case OFP10_VERSION: if (hdrs->type == OFPT10_STATS_REQUEST || hdrs->type == OFPT10_STATS_REPLY) { return (hdrs->stat == OFPST_VENDOR ? sizeof(struct nicira10_stats_msg) : sizeof(struct ofp10_stats_msg)); } break; case OFP11_VERSION: case OFP12_VERSION: case OFP13_VERSION: case OFP14_VERSION: if (hdrs->type == OFPT11_STATS_REQUEST || hdrs->type == OFPT11_STATS_REPLY) { return (hdrs->stat == OFPST_VENDOR ? sizeof(struct nicira11_stats_msg) : sizeof(struct ofp11_stats_msg)); } break; } return sizeof(struct ofp_header); } /* Determines the OFPRAW_* type of the OpenFlow message at 'oh', which has * length 'oh->length'. (The caller must ensure that 'oh->length' bytes of * data are readable at 'oh'.) On success, returns 0 and stores the type into * '*raw'. On failure, returns an OFPERR_* error code and zeros '*raw'. * * This function checks that 'oh' is a valid length for its particular type of * message, and returns an error if not. */ enum ofperr ofpraw_decode(enum ofpraw *raw, const struct ofp_header *oh) { struct ofpbuf msg; ofpbuf_use_const(&msg, oh, ntohs(oh->length)); return ofpraw_pull(raw, &msg); } /* Does the same job as ofpraw_decode(), except that it assert-fails if * ofpraw_decode() would have reported an error. Thus, it's able to use the * return value for the OFPRAW_* message type instead of an error code. * * (It only makes sense to use this function if you previously called * ofpraw_decode() on the message and thus know that it's OK.) */ enum ofpraw ofpraw_decode_assert(const struct ofp_header *oh) { enum ofperr error; enum ofpraw raw; error = ofpraw_decode(&raw, oh); ovs_assert(!error); return raw; } /* Determines the OFPRAW_* type of the OpenFlow message in 'msg', which starts * at 'ofpbuf_data(msg)' and has length 'ofpbuf_size(msg)' bytes. On success, * returns 0 and stores the type into '*rawp'. On failure, returns an OFPERR_* * error code and zeros '*rawp'. * * This function checks that the message has a valid length for its particular * type of message, and returns an error if not. * * In addition to setting '*rawp', this function pulls off the OpenFlow header * (including the stats headers, vendor header, and any subtype header) with * ofpbuf_pull(). It also sets 'msg->frame' to the start of the OpenFlow * header and 'msg->l3' just beyond the headers (that is, to the final value of * ofpbuf_data(msg)). */ enum ofperr ofpraw_pull(enum ofpraw *rawp, struct ofpbuf *msg) { static struct vlog_rate_limit rl = VLOG_RATE_LIMIT_INIT(1, 5); const struct raw_instance *instance; const struct raw_info *info; struct ofphdrs hdrs; unsigned int min_len; unsigned int len; enum ofperr error; enum ofpraw raw; /* Set default outputs. */ msg->frame = ofpbuf_data(msg); ofpbuf_set_l3(msg, msg->frame); *rawp = 0; len = ofpbuf_size(msg); error = ofphdrs_decode(&hdrs, ofpbuf_data(msg), len); if (error) { return error; } error = ofpraw_from_ofphdrs(&raw, &hdrs); if (error) { return error; } info = raw_info_get(raw); instance = raw_instance_get(info, hdrs.version); msg->frame = ofpbuf_pull(msg, instance->hdrs_len); ofpbuf_set_l3(msg, ofpbuf_data(msg)); min_len = instance->hdrs_len + info->min_body; switch (info->extra_multiple) { case 0: if (len != min_len) { VLOG_WARN_RL(&rl, "received %s with incorrect length %u (expected " "length %u)", info->name, len, min_len); return OFPERR_OFPBRC_BAD_LEN; } break; case 1: if (len < min_len) { VLOG_WARN_RL(&rl, "received %s with incorrect length %u (expected " "length at least %u bytes)", info->name, len, min_len); return OFPERR_OFPBRC_BAD_LEN; } break; default: if (len < min_len || (len - min_len) % info->extra_multiple) { VLOG_WARN_RL(&rl, "received %s with incorrect length %u (must be " "exactly %u bytes or longer by an integer multiple " "of %u bytes)", info->name, len, min_len, info->extra_multiple); return OFPERR_OFPBRC_BAD_LEN; } break; } *rawp = raw; return 0; } /* Does the same job as ofpraw_pull(), except that it assert-fails if * ofpraw_pull() would have reported an error. Thus, it's able to use the * return value for the OFPRAW_* message type instead of an error code. * * (It only makes sense to use this function if you previously called * ofpraw_decode() on the message and thus know that it's OK.) */ enum ofpraw ofpraw_pull_assert(struct ofpbuf *msg) { enum ofperr error; enum ofpraw raw; error = ofpraw_pull(&raw, msg); ovs_assert(!error); return raw; } /* Determines the OFPRAW_* type of the OpenFlow message that starts at 'oh' and * has length 'length' bytes. On success, returns 0 and stores the type into * '*rawp'. On failure, returns an OFPERR_* error code and zeros '*rawp'. * * Unlike other functions for decoding message types, this one is not picky * about message length. For example, it will successfully decode a message * whose body is shorter than the minimum length for a message of its type. * Thus, this is the correct function to use for decoding the type of a message * that might have been truncated, such as the payload of an OpenFlow error * message (which is allowed to be truncated to 64 bytes). */ enum ofperr ofpraw_decode_partial(enum ofpraw *raw, const struct ofp_header *oh, size_t length) { struct ofphdrs hdrs; enum ofperr error; error = ofphdrs_decode(&hdrs, oh, length); if (!error) { error = ofpraw_from_ofphdrs(raw, &hdrs); } if (error) { *raw = 0; } return error; } /* Encoding messages using OFPRAW_* values. */ static void ofpraw_put__(enum ofpraw, uint8_t version, ovs_be32 xid, size_t extra_tailroom, struct ofpbuf *); /* Allocates and returns a new ofpbuf that contains an OpenFlow header for * 'raw' with OpenFlow version 'version' and a fresh OpenFlow transaction ID. * The ofpbuf has enough tailroom for the minimum body length of 'raw', plus * 'extra_tailroom' additional bytes. * * Each 'raw' value is valid only for certain OpenFlow versions. The caller * must specify a valid (raw, version) pair. * * In the returned ofpbuf, 'frame' points to the beginning of the * OpenFlow header and 'l3' points just after it, to where the * message's body will start. The caller must actually allocate the * body into the space reserved for it, e.g. with ofpbuf_put_uninit(). * * The caller owns the returned ofpbuf and must free it when it is no longer * needed, e.g. with ofpbuf_delete(). */ struct ofpbuf * ofpraw_alloc(enum ofpraw raw, uint8_t version, size_t extra_tailroom) { return ofpraw_alloc_xid(raw, version, alloc_xid(), extra_tailroom); } /* Same as ofpraw_alloc() but the caller provides the transaction ID. */ struct ofpbuf * ofpraw_alloc_xid(enum ofpraw raw, uint8_t version, ovs_be32 xid, size_t extra_tailroom) { struct ofpbuf *buf = ofpbuf_new(0); ofpraw_put__(raw, version, xid, extra_tailroom, buf); return buf; } /* Same as ofpraw_alloc(), but obtains the OpenFlow version and transaction ID * from 'request->version' and 'request->xid', respectively. * * Even though the version comes from 'request->version', the caller must still * know what it is doing, by specifying a valid pairing of 'raw' and * 'request->version', just like ofpraw_alloc(). */ struct ofpbuf * ofpraw_alloc_reply(enum ofpraw raw, const struct ofp_header *request, size_t extra_tailroom) { return ofpraw_alloc_xid(raw, request->version, request->xid, extra_tailroom); } /* Allocates and returns a new ofpbuf that contains an OpenFlow header that is * a stats reply to the stats request in 'request', using the same OpenFlow * version and transaction ID as 'request'. The ofpbuf has enough tailroom for * the stats reply's minimum body length, plus 'extra_tailroom' additional * bytes. * * 'request' must be a stats request, that is, an OFPRAW_OFPST* or OFPRAW_NXST* * value. Every stats request has a corresponding reply, so the (raw, version) * pairing pitfalls of the other ofpraw_alloc_*() functions don't apply here. * * In the returned ofpbuf, 'frame' points to the beginning of the * OpenFlow header and 'l3' points just after it, to where the * message's body will start. The caller must actually allocate the * body into the space reserved for it, e.g. with ofpbuf_put_uninit(). * * The caller owns the returned ofpbuf and must free it when it is no longer * needed, e.g. with ofpbuf_delete(). */ struct ofpbuf * ofpraw_alloc_stats_reply(const struct ofp_header *request, size_t extra_tailroom) { enum ofpraw request_raw; enum ofpraw reply_raw; enum ofperr error; error = ofpraw_decode_partial(&request_raw, request, ntohs(request->length)); ovs_assert(!error); reply_raw = ofpraw_stats_request_to_reply(request_raw, request->version); ovs_assert(reply_raw); return ofpraw_alloc_reply(reply_raw, request, extra_tailroom); } /* Appends to 'buf' an OpenFlow header for 'raw' with OpenFlow version * 'version' and a fresh OpenFlow transaction ID. Preallocates enough tailroom * in 'buf' for the minimum body length of 'raw', plus 'extra_tailroom' * additional bytes. * * Each 'raw' value is valid only for certain OpenFlow versions. The caller * must specify a valid (raw, version) pair. * * Upon return, 'buf->frame' points to the beginning of the OpenFlow header and * 'buf->l3' points just after it, to where the message's body will start. The * caller must actually allocating the body into the space reserved for it, * e.g. with ofpbuf_put_uninit(). */ void ofpraw_put(enum ofpraw raw, uint8_t version, struct ofpbuf *buf) { ofpraw_put__(raw, version, alloc_xid(), 0, buf); } /* Same as ofpraw_put() but the caller provides the transaction ID. */ void ofpraw_put_xid(enum ofpraw raw, uint8_t version, ovs_be32 xid, struct ofpbuf *buf) { ofpraw_put__(raw, version, xid, 0, buf); } /* Same as ofpraw_put(), but obtains the OpenFlow version and transaction ID * from 'request->version' and 'request->xid', respectively. * * Even though the version comes from 'request->version', the caller must still * know what it is doing, by specifying a valid pairing of 'raw' and * 'request->version', just like ofpraw_put(). */ void ofpraw_put_reply(enum ofpraw raw, const struct ofp_header *request, struct ofpbuf *buf) { ofpraw_put__(raw, request->version, request->xid, 0, buf); } /* Appends to 'buf' an OpenFlow header that is a stats reply to the stats * request in 'request', using the same OpenFlow version and transaction ID as * 'request'. Preallocate enough tailroom in 'buf for the stats reply's * minimum body length, plus 'extra_tailroom' additional bytes. * * 'request' must be a stats request, that is, an OFPRAW_OFPST* or OFPRAW_NXST* * value. Every stats request has a corresponding reply, so the (raw, version) * pairing pitfalls of the other ofpraw_alloc_*() functions don't apply here. * * In the returned ofpbuf, 'frame' points to the beginning of the * OpenFlow header and 'l3' points just after it, to where the * message's body will start. The caller must actually allocate the * body into the space reserved for it, e.g. with ofpbuf_put_uninit(). * * The caller owns the returned ofpbuf and must free it when it is no longer * needed, e.g. with ofpbuf_delete(). */ void ofpraw_put_stats_reply(const struct ofp_header *request, struct ofpbuf *buf) { enum ofperr error; enum ofpraw raw; error = ofpraw_decode_partial(&raw, request, ntohs(request->length)); ovs_assert(!error); raw = ofpraw_stats_request_to_reply(raw, request->version); ovs_assert(raw); ofpraw_put__(raw, request->version, request->xid, 0, buf); } static void ofpraw_put__(enum ofpraw raw, uint8_t version, ovs_be32 xid, size_t extra_tailroom, struct ofpbuf *buf) { const struct raw_info *info = raw_info_get(raw); const struct raw_instance *instance = raw_instance_get(info, version); const struct ofphdrs *hdrs = &instance->hdrs; struct ofp_header *oh; ofpbuf_prealloc_tailroom(buf, (instance->hdrs_len + info->min_body + extra_tailroom)); buf->frame = ofpbuf_put_uninit(buf, instance->hdrs_len); ofpbuf_set_l3(buf, ofpbuf_tail(buf)); oh = buf->frame; oh->version = version; oh->type = hdrs->type; oh->length = htons(ofpbuf_size(buf)); oh->xid = xid; if (hdrs->type == OFPT_VENDOR) { struct nicira_header *nh = buf->frame; ovs_assert(hdrs->vendor == NX_VENDOR_ID); nh->vendor = htonl(hdrs->vendor); nh->subtype = htonl(hdrs->subtype); } else if (version == OFP10_VERSION && (hdrs->type == OFPT10_STATS_REQUEST || hdrs->type == OFPT10_STATS_REPLY)) { struct ofp10_stats_msg *osm = buf->frame; osm->type = htons(hdrs->stat); osm->flags = htons(0); if (hdrs->stat == OFPST_VENDOR) { struct ofp10_vendor_stats_msg *ovsm = buf->frame; ovsm->vendor = htonl(hdrs->vendor); if (hdrs->vendor == NX_VENDOR_ID) { struct nicira10_stats_msg *nsm = buf->frame; nsm->subtype = htonl(hdrs->subtype); memset(nsm->pad, 0, sizeof nsm->pad); } else { OVS_NOT_REACHED(); } } } else if (version != OFP10_VERSION && (hdrs->type == OFPT11_STATS_REQUEST || hdrs->type == OFPT11_STATS_REPLY)) { struct ofp11_stats_msg *osm = buf->frame; osm->type = htons(hdrs->stat); osm->flags = htons(0); memset(osm->pad, 0, sizeof osm->pad); if (hdrs->stat == OFPST_VENDOR) { struct ofp11_vendor_stats_msg *ovsm = buf->frame; ovsm->vendor = htonl(hdrs->vendor); if (hdrs->vendor == NX_VENDOR_ID) { struct nicira11_stats_msg *nsm = buf->frame; nsm->subtype = htonl(hdrs->subtype); } else { OVS_NOT_REACHED(); } } } } /* Returns 'raw''s name. * * The name is the name used for 'raw' in the OpenFlow specification. For * example, ofpraw_get_name(OFPRAW_OFPT10_FEATURES_REPLY) is * "OFPT_FEATURES_REPLY". * * The caller must not modify or free the returned string. */ const char * ofpraw_get_name(enum ofpraw raw) { return raw_info_get(raw)->name; } /* Returns the stats reply that corresponds to 'raw' in the given OpenFlow * 'version'. */ enum ofpraw ofpraw_stats_request_to_reply(enum ofpraw raw, uint8_t version) { const struct raw_info *info = raw_info_get(raw); const struct raw_instance *instance = raw_instance_get(info, version); enum ofpraw reply_raw; struct ofphdrs hdrs; enum ofperr error; hdrs = instance->hdrs; switch ((enum ofp_version)hdrs.version) { case OFP10_VERSION: ovs_assert(hdrs.type == OFPT10_STATS_REQUEST); hdrs.type = OFPT10_STATS_REPLY; break; case OFP11_VERSION: case OFP12_VERSION: case OFP13_VERSION: case OFP14_VERSION: ovs_assert(hdrs.type == OFPT11_STATS_REQUEST); hdrs.type = OFPT11_STATS_REPLY; break; default: OVS_NOT_REACHED(); } error = ofpraw_from_ofphdrs(&reply_raw, &hdrs); ovs_assert(!error); return reply_raw; } /* Determines the OFPTYPE_* type of the OpenFlow message at 'oh', which has * length 'oh->length'. (The caller must ensure that 'oh->length' bytes of * data are readable at 'oh'.) On success, returns 0 and stores the type into * '*typep'. On failure, returns an OFPERR_* error code and zeros '*typep'. * * This function checks that 'oh' is a valid length for its particular type of * message, and returns an error if not. */ enum ofperr ofptype_decode(enum ofptype *typep, const struct ofp_header *oh) { enum ofperr error; enum ofpraw raw; error = ofpraw_decode(&raw, oh); *typep = error ? 0 : ofptype_from_ofpraw(raw); return error; } /* Determines the OFPTYPE_* type of the OpenFlow message in 'msg', which starts * at 'ofpbuf_data(msg)' and has length 'ofpbuf_size(msg)' bytes. On success, * returns 0 and stores the type into '*typep'. On failure, returns an * OFPERR_* error code and zeros '*typep'. * * This function checks that the message has a valid length for its particular * type of message, and returns an error if not. * * In addition to setting '*typep', this function pulls off the OpenFlow header * (including the stats headers, vendor header, and any subtype header) with * ofpbuf_pull(). It also sets 'msg->frame' to the start of the OpenFlow * header and 'msg->l3' just beyond the headers (that is, to the final value of * ofpbuf_data(msg)). */ enum ofperr ofptype_pull(enum ofptype *typep, struct ofpbuf *buf) { enum ofperr error; enum ofpraw raw; error = ofpraw_pull(&raw, buf); *typep = error ? 0 : ofptype_from_ofpraw(raw); return error; } /* Returns the OFPTYPE_* type that corresponds to 'raw'. * * (This is a one-way trip, because the mapping from ofpraw to ofptype is * many-to-one.) */ enum ofptype ofptype_from_ofpraw(enum ofpraw raw) { return raw_info_get(raw)->type; } /* Updates the 'length' field of the OpenFlow message in 'buf' to * 'ofpbuf_size(buf)'. */ void ofpmsg_update_length(struct ofpbuf *buf) { struct ofp_header *oh = ofpbuf_at_assert(buf, 0, sizeof *oh); oh->length = htons(ofpbuf_size(buf)); } /* Returns just past the Openflow header (including the stats headers, vendor * header, and any subtype header) in 'oh'. */ const void * ofpmsg_body(const struct ofp_header *oh) { struct ofphdrs hdrs; ofphdrs_decode_assert(&hdrs, oh, ntohs(oh->length)); return (const uint8_t *) oh + ofphdrs_len(&hdrs); } /* Return if it's a stat/multipart (OFPST) request message. */ bool ofpmsg_is_stat_request(const struct ofp_header *oh) { return ofp_is_stat_request(oh->version, oh->type); } static ovs_be16 *ofpmp_flags__(const struct ofp_header *); /* Initializes 'replies' as a new list of stats messages that reply to * 'request', which must be a stats request message. Initially the list will * consist of only a single reply part without any body. The caller should * use calls to the other ofpmp_*() functions to add to the body and split the * message into multiple parts, if necessary. */ void ofpmp_init(struct list *replies, const struct ofp_header *request) { struct ofpbuf *msg; list_init(replies); msg = ofpraw_alloc_stats_reply(request, 1000); list_push_back(replies, &msg->list_node); } /* Prepares to append up to 'len' bytes to the series of statistics replies in * 'replies', which should have been initialized with ofpmp_init(), if * necessary adding a new reply to the list. * * Returns an ofpbuf with at least 'len' bytes of tailroom. The 'len' bytes * have not actually been allocated, so the caller must do so with * e.g. ofpbuf_put_uninit(). */ struct ofpbuf * ofpmp_reserve(struct list *replies, size_t len) { struct ofpbuf *msg = ofpbuf_from_list(list_back(replies)); if (ofpbuf_size(msg) + len <= UINT16_MAX) { ofpbuf_prealloc_tailroom(msg, len); return msg; } else { unsigned int hdrs_len; struct ofpbuf *next; struct ofphdrs hdrs; ofphdrs_decode_assert(&hdrs, ofpbuf_data(msg), ofpbuf_size(msg)); hdrs_len = ofphdrs_len(&hdrs); next = ofpbuf_new(MAX(1024, hdrs_len + len)); ofpbuf_put(next, ofpbuf_data(msg), hdrs_len); next->frame = ofpbuf_data(next); ofpbuf_set_l3(next, ofpbuf_tail(next)); list_push_back(replies, &next->list_node); *ofpmp_flags__(ofpbuf_data(msg)) |= htons(OFPSF_REPLY_MORE); return next; } } /* Appends 'len' bytes to the series of statistics replies in 'replies', and * returns the first byte. */ void * ofpmp_append(struct list *replies, size_t len) { return ofpbuf_put_uninit(ofpmp_reserve(replies, len), len); } /* Sometimes, when composing stats replies, it's difficult to predict how long * an individual reply chunk will be before actually encoding it into the reply * buffer. This function allows easy handling of this case: just encode the * reply, then use this function to break the message into two pieces if it * exceeds the OpenFlow message limit. * * In detail, if the final stats message in 'replies' is too long for OpenFlow, * this function breaks it into two separate stats replies, the first one with * the first 'start_ofs' bytes, the second one containing the bytes from that * offset onward. */ void ofpmp_postappend(struct list *replies, size_t start_ofs) { struct ofpbuf *msg = ofpbuf_from_list(list_back(replies)); ovs_assert(start_ofs <= UINT16_MAX); if (ofpbuf_size(msg) > UINT16_MAX) { size_t len = ofpbuf_size(msg) - start_ofs; memcpy(ofpmp_append(replies, len), (const uint8_t *) ofpbuf_data(msg) + start_ofs, len); ofpbuf_set_size(msg, start_ofs); } } static ovs_be16 * ofpmp_flags__(const struct ofp_header *oh) { switch ((enum ofp_version)oh->version) { case OFP10_VERSION: return &((struct ofp10_stats_msg *) oh)->flags; case OFP11_VERSION: case OFP12_VERSION: case OFP13_VERSION: case OFP14_VERSION: return &((struct ofp11_stats_msg *) oh)->flags; default: OVS_NOT_REACHED(); } } /* Returns the OFPSF_* flags found in the OpenFlow stats header of 'oh', which * must be an OpenFlow stats request or reply. * * (OFPSF_REPLY_MORE is the only defined flag.) */ uint16_t ofpmp_flags(const struct ofp_header *oh) { return ntohs(*ofpmp_flags__(oh)); } /* Returns true if the OFPSF_REPLY_MORE flag is set in the OpenFlow stats * header of 'oh', which must be an OpenFlow stats request or reply, false if * it is not set. */ bool ofpmp_more(const struct ofp_header *oh) { return (ofpmp_flags(oh) & OFPSF_REPLY_MORE) != 0; } static void ofpmsgs_init(void); static const struct raw_info * raw_info_get(enum ofpraw raw) { ofpmsgs_init(); ovs_assert(raw < ARRAY_SIZE(raw_infos)); return &raw_infos[raw]; } static struct raw_instance * raw_instance_get(const struct raw_info *info, uint8_t version) { ovs_assert(version >= info->min_version && version <= info->max_version); return &info->instances[version - info->min_version]; } static enum ofperr ofpraw_from_ofphdrs(enum ofpraw *raw, const struct ofphdrs *hdrs) { static struct vlog_rate_limit rl = VLOG_RATE_LIMIT_INIT(1, 1); struct raw_instance *raw_hdrs; uint32_t hash; ofpmsgs_init(); hash = ofphdrs_hash(hdrs); HMAP_FOR_EACH_WITH_HASH (raw_hdrs, hmap_node, hash, &raw_instance_map) { if (ofphdrs_equal(hdrs, &raw_hdrs->hdrs)) { *raw = raw_hdrs->raw; return 0; } } if (!VLOG_DROP_WARN(&rl)) { struct ds s; ds_init(&s); ds_put_format(&s, "version %"PRIu8", type %"PRIu8, hdrs->version, hdrs->type); if (ofphdrs_is_stat(hdrs)) { ds_put_format(&s, ", stat %"PRIu16, hdrs->stat); } if (hdrs->vendor) { ds_put_format(&s, ", vendor 0x%"PRIx32", subtype %"PRIu32, hdrs->vendor, hdrs->subtype); } VLOG_WARN("unknown OpenFlow message (%s)", ds_cstr(&s)); ds_destroy(&s); } return (hdrs->vendor ? OFPERR_OFPBRC_BAD_SUBTYPE : ofphdrs_is_stat(hdrs) ? OFPERR_OFPBRC_BAD_STAT : OFPERR_OFPBRC_BAD_TYPE); } static void ofpmsgs_init(void) { static struct ovsthread_once once = OVSTHREAD_ONCE_INITIALIZER; const struct raw_info *info; if (!ovsthread_once_start(&once)) { return; } hmap_init(&raw_instance_map); for (info = raw_infos; info < &raw_infos[ARRAY_SIZE(raw_infos)]; info++) { int n_instances = info->max_version - info->min_version + 1; struct raw_instance *inst; for (inst = info->instances; inst < &info->instances[n_instances]; inst++) { inst->hdrs_len = ofphdrs_len(&inst->hdrs); hmap_insert(&raw_instance_map, &inst->hmap_node, ofphdrs_hash(&inst->hdrs)); } } ovsthread_once_done(&once); }