2 * Copyright (c) 2012 Nicira, Inc.
4 * Licensed under the Apache License, Version 2.0 (the "License");
5 * you may not use this file except in compliance with the License.
6 * You may obtain a copy of the License at:
8 * http://www.apache.org/licenses/LICENSE-2.0
10 * Unless required by applicable law or agreed to in writing, software
11 * distributed under the License is distributed on an "AS IS" BASIS,
12 * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
13 * See the License for the specific language governing permissions and
14 * limitations under the License.
18 #include "ofproto-dpif-ipfix.h"
20 #include "byte-order.h"
21 #include "collectors.h"
29 #include "poll-loop.h"
36 VLOG_DEFINE_THIS_MODULE(ipfix);
38 static struct vlog_rate_limit rl = VLOG_RATE_LIMIT_INIT(1, 5);
39 static struct ovs_mutex mutex = OVS_MUTEX_INITIALIZER;
41 /* Cf. IETF RFC 5101 Section 10.3.4. */
42 #define IPFIX_DEFAULT_COLLECTOR_PORT 4739
44 struct dpif_ipfix_exporter {
45 struct collectors *collectors;
47 time_t last_template_set_time;
48 struct hmap cache_flow_key_map; /* ipfix_flow_cache_entry. */
49 struct list cache_flow_start_timestamp_list; /* ipfix_flow_cache_entry. */
50 uint32_t cache_active_timeout; /* In seconds. */
51 uint32_t cache_max_flows;
54 struct dpif_ipfix_bridge_exporter {
55 struct dpif_ipfix_exporter exporter;
56 struct ofproto_ipfix_bridge_exporter_options *options;
60 struct dpif_ipfix_flow_exporter {
61 struct dpif_ipfix_exporter exporter;
62 struct ofproto_ipfix_flow_exporter_options *options;
65 struct dpif_ipfix_flow_exporter_map_node {
66 struct hmap_node node;
67 struct dpif_ipfix_flow_exporter exporter;
71 struct dpif_ipfix_bridge_exporter bridge_exporter;
72 struct hmap flow_exporter_map; /* dpif_ipfix_flow_exporter_map_node. */
76 #define IPFIX_VERSION 0x000a
78 /* When using UDP, IPFIX Template Records must be re-sent regularly.
79 * The standard default interval is 10 minutes (600 seconds).
80 * Cf. IETF RFC 5101 Section 10.3.6. */
81 #define IPFIX_TEMPLATE_INTERVAL 600
83 /* Cf. IETF RFC 5101 Section 3.1. */
86 ovs_be16 version; /* IPFIX_VERSION. */
87 ovs_be16 length; /* Length in bytes including this header. */
88 ovs_be32 export_time; /* Seconds since the epoch. */
89 ovs_be32 seq_number; /* Message sequence number. */
90 ovs_be32 obs_domain_id; /* Observation Domain ID. */
92 BUILD_ASSERT_DECL(sizeof(struct ipfix_header) == 16);
94 #define IPFIX_SET_ID_TEMPLATE 2
95 #define IPFIX_SET_ID_OPTION_TEMPLATE 3
97 /* Cf. IETF RFC 5101 Section 3.3.2. */
99 struct ipfix_set_header {
100 ovs_be16 set_id; /* IPFIX_SET_ID_* or valid template ID for Data Sets. */
101 ovs_be16 length; /* Length of the set in bytes including header. */
103 BUILD_ASSERT_DECL(sizeof(struct ipfix_set_header) == 4);
105 /* Alternatives for templates at each layer. A template is defined by
106 * a combination of one value for each layer. */
107 enum ipfix_proto_l2 {
108 IPFIX_PROTO_L2_ETH = 0, /* No VLAN. */
112 enum ipfix_proto_l3 {
113 IPFIX_PROTO_L3_UNKNOWN = 0,
118 enum ipfix_proto_l4 {
119 IPFIX_PROTO_L4_UNKNOWN = 0,
120 IPFIX_PROTO_L4_TCP_UDP,
124 /* Any Template ID > 255 is usable for Template Records. */
125 #define IPFIX_TEMPLATE_ID_MIN 256
127 /* Cf. IETF RFC 5101 Section 3.4.1. */
129 struct ipfix_template_record_header {
130 ovs_be16 template_id;
131 ovs_be16 field_count;
133 BUILD_ASSERT_DECL(sizeof(struct ipfix_template_record_header) == 4);
135 enum ipfix_entity_id {
136 #define IPFIX_ENTITY(ENUM, ID, SIZE, NAME) IPFIX_ENTITY_ID_##ENUM = ID,
137 #include "ofproto/ipfix-entities.def"
140 enum ipfix_entity_size {
141 #define IPFIX_ENTITY(ENUM, ID, SIZE, NAME) IPFIX_ENTITY_SIZE_##ENUM = SIZE,
142 #include "ofproto/ipfix-entities.def"
146 struct ipfix_template_field_specifier {
147 ovs_be16 element_id; /* IPFIX_ENTITY_ID_*. */
148 ovs_be16 field_length; /* Length of the field's value, in bytes. */
149 /* No Enterprise ID, since only standard element IDs are specified. */
151 BUILD_ASSERT_DECL(sizeof(struct ipfix_template_field_specifier) == 4);
153 /* Part of data record flow key for common metadata and Ethernet entities. */
155 struct ipfix_data_record_flow_key_common {
156 ovs_be32 observation_point_id; /* OBSERVATION_POINT_ID */
157 uint8_t source_mac_address[6]; /* SOURCE_MAC_ADDRESS */
158 uint8_t destination_mac_address[6]; /* DESTINATION_MAC_ADDRESS */
159 ovs_be16 ethernet_type; /* ETHERNET_TYPE */
160 uint8_t ethernet_header_length; /* ETHERNET_HEADER_LENGTH */
162 BUILD_ASSERT_DECL(sizeof(struct ipfix_data_record_flow_key_common) == 19);
164 /* Part of data record flow key for VLAN entities. */
166 struct ipfix_data_record_flow_key_vlan {
167 ovs_be16 vlan_id; /* VLAN_ID */
168 ovs_be16 dot1q_vlan_id; /* DOT1Q_VLAN_ID */
169 uint8_t dot1q_priority; /* DOT1Q_PRIORITY */
171 BUILD_ASSERT_DECL(sizeof(struct ipfix_data_record_flow_key_vlan) == 5);
173 /* Part of data record flow key for IP entities. */
174 /* XXX: Replace IP_TTL with MINIMUM_TTL and MAXIMUM_TTL? */
176 struct ipfix_data_record_flow_key_ip {
177 uint8_t ip_version; /* IP_VERSION */
178 uint8_t ip_ttl; /* IP_TTL */
179 uint8_t protocol_identifier; /* PROTOCOL_IDENTIFIER */
180 uint8_t ip_diff_serv_code_point; /* IP_DIFF_SERV_CODE_POINT */
181 uint8_t ip_precedence; /* IP_PRECEDENCE */
182 uint8_t ip_class_of_service; /* IP_CLASS_OF_SERVICE */
184 BUILD_ASSERT_DECL(sizeof(struct ipfix_data_record_flow_key_ip) == 6);
186 /* Part of data record flow key for IPv4 entities. */
188 struct ipfix_data_record_flow_key_ipv4 {
189 ovs_be32 source_ipv4_address; /* SOURCE_IPV4_ADDRESS */
190 ovs_be32 destination_ipv4_address; /* DESTINATION_IPV4_ADDRESS */
192 BUILD_ASSERT_DECL(sizeof(struct ipfix_data_record_flow_key_ipv4) == 8);
194 /* Part of data record flow key for IPv6 entities. */
196 struct ipfix_data_record_flow_key_ipv6 {
197 uint8_t source_ipv6_address[16]; /* SOURCE_IPV6_ADDRESS */
198 uint8_t destination_ipv6_address[16]; /* DESTINATION_IPV6_ADDRESS */
199 ovs_be32 flow_label_ipv6; /* FLOW_LABEL_IPV6 */
201 BUILD_ASSERT_DECL(sizeof(struct ipfix_data_record_flow_key_ipv6) == 36);
203 /* Part of data record flow key for TCP/UDP entities. */
205 struct ipfix_data_record_flow_key_tcpudp {
206 ovs_be16 source_transport_port; /* SOURCE_TRANSPORT_PORT */
207 ovs_be16 destination_transport_port; /* DESTINATION_TRANSPORT_PORT */
209 BUILD_ASSERT_DECL(sizeof(struct ipfix_data_record_flow_key_tcpudp) == 4);
211 /* Cf. IETF RFC 5102 Section 5.11.3. */
212 enum ipfix_flow_end_reason {
214 ACTIVE_TIMEOUT = 0x02,
215 END_OF_FLOW_DETECTED = 0x03,
217 LACK_OF_RESOURCES = 0x05
220 /* Part of data record for common aggregated elements. */
222 struct ipfix_data_record_aggregated_common {
223 ovs_be32 flow_start_delta_microseconds; /* FLOW_START_DELTA_MICROSECONDS */
224 ovs_be32 flow_end_delta_microseconds; /* FLOW_END_DELTA_MICROSECONDS */
225 ovs_be64 packet_delta_count; /* PACKET_DELTA_COUNT */
226 ovs_be64 layer2_octet_delta_count; /* LAYER2_OCTET_DELTA_COUNT */
227 uint8_t flow_end_reason; /* FLOW_END_REASON */
229 BUILD_ASSERT_DECL(sizeof(struct ipfix_data_record_aggregated_common) == 25);
231 /* Part of data record for IP aggregated elements. */
233 struct ipfix_data_record_aggregated_ip {
234 ovs_be64 octet_delta_sum_of_squares; /* OCTET_DELTA_SUM_OF_SQUARES */
235 ovs_be64 minimum_ip_total_length; /* MINIMUM_IP_TOTAL_LENGTH */
236 ovs_be64 maximum_ip_total_length; /* MAXIMUM_IP_TOTAL_LENGTH */
238 BUILD_ASSERT_DECL(sizeof(struct ipfix_data_record_aggregated_ip) == 24);
240 #define MAX_FLOW_KEY_LEN \
241 (sizeof(struct ipfix_data_record_flow_key_common) \
242 + sizeof(struct ipfix_data_record_flow_key_vlan) \
243 + sizeof(struct ipfix_data_record_flow_key_ip) \
244 + sizeof(struct ipfix_data_record_flow_key_ipv6) \
245 + sizeof(struct ipfix_data_record_flow_key_tcpudp))
247 #define MAX_DATA_RECORD_LEN \
249 + sizeof(struct ipfix_data_record_aggregated_common) \
250 + sizeof(struct ipfix_data_record_aggregated_ip))
252 /* Max length of a data set. To simplify the implementation, each
253 * data record is sent in a separate data set, so each data set
254 * contains at most one data record. */
255 #define MAX_DATA_SET_LEN \
256 (sizeof(struct ipfix_set_header) \
257 + MAX_DATA_RECORD_LEN)
259 /* Max length of an IPFIX message. Arbitrarily set to accomodate low
261 #define MAX_MESSAGE_LEN 1024
263 /* Cache structures. */
266 struct ipfix_flow_key {
267 uint32_t obs_domain_id;
268 uint16_t template_id;
269 size_t flow_key_msg_part_size;
270 uint64_t flow_key_msg_part[DIV_ROUND_UP(MAX_FLOW_KEY_LEN, 8)];
273 /* Flow cache entry. */
274 struct ipfix_flow_cache_entry {
275 struct hmap_node flow_key_map_node;
276 struct list cache_flow_start_timestamp_list_node;
277 struct ipfix_flow_key flow_key;
278 /* Common aggregated elements. */
279 uint64_t flow_start_timestamp_usec;
280 uint64_t flow_end_timestamp_usec;
281 uint64_t packet_delta_count;
282 uint64_t layer2_octet_delta_count;
283 uint64_t octet_delta_sum_of_squares; /* 0 if not IP. */
284 uint16_t minimum_ip_total_length; /* 0 if not IP. */
285 uint16_t maximum_ip_total_length; /* 0 if not IP. */
288 static void dpif_ipfix_cache_expire(struct dpif_ipfix_exporter *, bool,
289 const uint64_t, const uint32_t);
291 static void get_export_time_now(uint64_t *, uint32_t *);
293 static void dpif_ipfix_cache_expire_now(struct dpif_ipfix_exporter *, bool);
296 ofproto_ipfix_bridge_exporter_options_equal(
297 const struct ofproto_ipfix_bridge_exporter_options *a,
298 const struct ofproto_ipfix_bridge_exporter_options *b)
300 return (a->obs_domain_id == b->obs_domain_id
301 && a->obs_point_id == b->obs_point_id
302 && a->sampling_rate == b->sampling_rate
303 && a->cache_active_timeout == b->cache_active_timeout
304 && a->cache_max_flows == b->cache_max_flows
305 && sset_equals(&a->targets, &b->targets));
308 static struct ofproto_ipfix_bridge_exporter_options *
309 ofproto_ipfix_bridge_exporter_options_clone(
310 const struct ofproto_ipfix_bridge_exporter_options *old)
312 struct ofproto_ipfix_bridge_exporter_options *new =
313 xmemdup(old, sizeof *old);
314 sset_clone(&new->targets, &old->targets);
319 ofproto_ipfix_bridge_exporter_options_destroy(
320 struct ofproto_ipfix_bridge_exporter_options *options)
323 sset_destroy(&options->targets);
329 ofproto_ipfix_flow_exporter_options_equal(
330 const struct ofproto_ipfix_flow_exporter_options *a,
331 const struct ofproto_ipfix_flow_exporter_options *b)
333 return (a->collector_set_id == b->collector_set_id
334 && a->cache_active_timeout == b->cache_active_timeout
335 && a->cache_max_flows == b->cache_max_flows
336 && sset_equals(&a->targets, &b->targets));
339 static struct ofproto_ipfix_flow_exporter_options *
340 ofproto_ipfix_flow_exporter_options_clone(
341 const struct ofproto_ipfix_flow_exporter_options *old)
343 struct ofproto_ipfix_flow_exporter_options *new =
344 xmemdup(old, sizeof *old);
345 sset_clone(&new->targets, &old->targets);
350 ofproto_ipfix_flow_exporter_options_destroy(
351 struct ofproto_ipfix_flow_exporter_options *options)
354 sset_destroy(&options->targets);
360 dpif_ipfix_exporter_init(struct dpif_ipfix_exporter *exporter)
362 exporter->collectors = NULL;
363 exporter->seq_number = 1;
364 exporter->last_template_set_time = TIME_MIN;
365 hmap_init(&exporter->cache_flow_key_map);
366 list_init(&exporter->cache_flow_start_timestamp_list);
367 exporter->cache_active_timeout = 0;
368 exporter->cache_max_flows = 0;
372 dpif_ipfix_exporter_clear(struct dpif_ipfix_exporter *exporter)
374 /* Flush the cache with flow end reason "forced end." */
375 dpif_ipfix_cache_expire_now(exporter, true);
377 collectors_destroy(exporter->collectors);
378 exporter->collectors = NULL;
379 exporter->seq_number = 1;
380 exporter->last_template_set_time = TIME_MIN;
381 exporter->cache_active_timeout = 0;
382 exporter->cache_max_flows = 0;
386 dpif_ipfix_exporter_destroy(struct dpif_ipfix_exporter *exporter)
388 dpif_ipfix_exporter_clear(exporter);
389 hmap_destroy(&exporter->cache_flow_key_map);
393 dpif_ipfix_exporter_set_options(struct dpif_ipfix_exporter *exporter,
394 const struct sset *targets,
395 const uint32_t cache_active_timeout,
396 const uint32_t cache_max_flows)
398 collectors_destroy(exporter->collectors);
399 collectors_create(targets, IPFIX_DEFAULT_COLLECTOR_PORT,
400 &exporter->collectors);
401 if (exporter->collectors == NULL) {
402 VLOG_WARN_RL(&rl, "no collectors could be initialized, "
403 "IPFIX exporter disabled");
404 dpif_ipfix_exporter_clear(exporter);
407 exporter->cache_active_timeout = cache_active_timeout;
408 exporter->cache_max_flows = cache_max_flows;
413 dpif_ipfix_bridge_exporter_init(struct dpif_ipfix_bridge_exporter *exporter)
415 dpif_ipfix_exporter_init(&exporter->exporter);
416 exporter->options = NULL;
417 exporter->probability = 0;
421 dpif_ipfix_bridge_exporter_clear(struct dpif_ipfix_bridge_exporter *exporter)
423 dpif_ipfix_exporter_clear(&exporter->exporter);
424 ofproto_ipfix_bridge_exporter_options_destroy(exporter->options);
425 exporter->options = NULL;
426 exporter->probability = 0;
430 dpif_ipfix_bridge_exporter_destroy(struct dpif_ipfix_bridge_exporter *exporter)
432 dpif_ipfix_bridge_exporter_clear(exporter);
433 dpif_ipfix_exporter_destroy(&exporter->exporter);
437 dpif_ipfix_bridge_exporter_set_options(
438 struct dpif_ipfix_bridge_exporter *exporter,
439 const struct ofproto_ipfix_bridge_exporter_options *options)
441 bool options_changed;
443 if (!options || sset_is_empty(&options->targets)) {
444 /* No point in doing any work if there are no targets. */
445 dpif_ipfix_bridge_exporter_clear(exporter);
451 || !ofproto_ipfix_bridge_exporter_options_equal(
452 options, exporter->options));
454 /* Configure collectors if options have changed or if we're
455 * shortchanged in collectors (which indicates that opening one or
456 * more of the configured collectors failed, so that we should
459 || collectors_count(exporter->exporter.collectors)
460 < sset_count(&options->targets)) {
461 if (!dpif_ipfix_exporter_set_options(
462 &exporter->exporter, &options->targets,
463 options->cache_active_timeout, options->cache_max_flows)) {
468 /* Avoid reconfiguring if options didn't change. */
469 if (!options_changed) {
473 ofproto_ipfix_bridge_exporter_options_destroy(exporter->options);
474 exporter->options = ofproto_ipfix_bridge_exporter_options_clone(options);
475 exporter->probability =
476 MAX(1, UINT32_MAX / exporter->options->sampling_rate);
478 /* Run over the cache as some entries might have expired after
479 * changing the timeouts. */
480 dpif_ipfix_cache_expire_now(&exporter->exporter, false);
483 static struct dpif_ipfix_flow_exporter_map_node*
484 dpif_ipfix_find_flow_exporter_map_node(
485 const struct dpif_ipfix *di, const uint32_t collector_set_id)
488 struct dpif_ipfix_flow_exporter_map_node *exporter_node;
490 HMAP_FOR_EACH_WITH_HASH (exporter_node, node,
491 hash_int(collector_set_id, 0),
492 &di->flow_exporter_map) {
493 if (exporter_node->exporter.options->collector_set_id
494 == collector_set_id) {
495 return exporter_node;
503 dpif_ipfix_flow_exporter_init(struct dpif_ipfix_flow_exporter *exporter)
505 dpif_ipfix_exporter_init(&exporter->exporter);
506 exporter->options = NULL;
510 dpif_ipfix_flow_exporter_clear(struct dpif_ipfix_flow_exporter *exporter)
512 dpif_ipfix_exporter_clear(&exporter->exporter);
513 ofproto_ipfix_flow_exporter_options_destroy(exporter->options);
514 exporter->options = NULL;
518 dpif_ipfix_flow_exporter_destroy(struct dpif_ipfix_flow_exporter *exporter)
520 dpif_ipfix_flow_exporter_clear(exporter);
521 dpif_ipfix_exporter_destroy(&exporter->exporter);
525 dpif_ipfix_flow_exporter_set_options(
526 struct dpif_ipfix_flow_exporter *exporter,
527 const struct ofproto_ipfix_flow_exporter_options *options)
529 bool options_changed;
531 if (sset_is_empty(&options->targets)) {
532 /* No point in doing any work if there are no targets. */
533 dpif_ipfix_flow_exporter_clear(exporter);
539 || !ofproto_ipfix_flow_exporter_options_equal(
540 options, exporter->options));
542 /* Configure collectors if options have changed or if we're
543 * shortchanged in collectors (which indicates that opening one or
544 * more of the configured collectors failed, so that we should
547 || collectors_count(exporter->exporter.collectors)
548 < sset_count(&options->targets)) {
549 if (!dpif_ipfix_exporter_set_options(
550 &exporter->exporter, &options->targets,
551 options->cache_active_timeout, options->cache_max_flows)) {
556 /* Avoid reconfiguring if options didn't change. */
557 if (!options_changed) {
561 ofproto_ipfix_flow_exporter_options_destroy(exporter->options);
562 exporter->options = ofproto_ipfix_flow_exporter_options_clone(options);
564 /* Run over the cache as some entries might have expired after
565 * changing the timeouts. */
566 dpif_ipfix_cache_expire_now(&exporter->exporter, false);
572 dpif_ipfix_set_options(
573 struct dpif_ipfix *di,
574 const struct ofproto_ipfix_bridge_exporter_options *bridge_exporter_options,
575 const struct ofproto_ipfix_flow_exporter_options *flow_exporters_options,
576 size_t n_flow_exporters_options) OVS_EXCLUDED(mutex)
579 struct ofproto_ipfix_flow_exporter_options *options;
580 struct dpif_ipfix_flow_exporter_map_node *node, *next;
581 size_t n_broken_flow_exporters_options = 0;
583 ovs_mutex_lock(&mutex);
584 dpif_ipfix_bridge_exporter_set_options(&di->bridge_exporter,
585 bridge_exporter_options);
587 /* Add new flow exporters and update current flow exporters. */
588 options = (struct ofproto_ipfix_flow_exporter_options *)
589 flow_exporters_options;
590 for (i = 0; i < n_flow_exporters_options; i++) {
591 node = dpif_ipfix_find_flow_exporter_map_node(
592 di, options->collector_set_id);
594 node = xzalloc(sizeof *node);
595 dpif_ipfix_flow_exporter_init(&node->exporter);
596 hmap_insert(&di->flow_exporter_map, &node->node,
597 hash_int(options->collector_set_id, 0));
599 if (!dpif_ipfix_flow_exporter_set_options(&node->exporter, options)) {
600 n_broken_flow_exporters_options++;
605 ovs_assert(hmap_count(&di->flow_exporter_map) >=
606 (n_flow_exporters_options - n_broken_flow_exporters_options));
608 /* Remove dropped flow exporters, if any needs to be removed. */
609 if (hmap_count(&di->flow_exporter_map) > n_flow_exporters_options) {
610 HMAP_FOR_EACH_SAFE (node, next, node, &di->flow_exporter_map) {
611 /* This is slow but doesn't take any extra memory, and
612 * this table is not supposed to contain many rows anyway. */
613 options = (struct ofproto_ipfix_flow_exporter_options *)
614 flow_exporters_options;
615 for (i = 0; i < n_flow_exporters_options; i++) {
616 if (node->exporter.options->collector_set_id
617 == options->collector_set_id) {
622 if (i == n_flow_exporters_options) { // Not found.
623 hmap_remove(&di->flow_exporter_map, &node->node);
624 dpif_ipfix_flow_exporter_destroy(&node->exporter);
630 ovs_assert(hmap_count(&di->flow_exporter_map) ==
631 (n_flow_exporters_options - n_broken_flow_exporters_options));
632 ovs_mutex_unlock(&mutex);
636 dpif_ipfix_create(void)
638 struct dpif_ipfix *di;
639 di = xzalloc(sizeof *di);
640 dpif_ipfix_bridge_exporter_init(&di->bridge_exporter);
641 hmap_init(&di->flow_exporter_map);
642 atomic_init(&di->ref_cnt, 1);
647 dpif_ipfix_ref(const struct dpif_ipfix *di_)
649 struct dpif_ipfix *di = CONST_CAST(struct dpif_ipfix *, di_);
652 atomic_add(&di->ref_cnt, 1, &orig);
653 ovs_assert(orig > 0);
659 dpif_ipfix_get_bridge_exporter_probability(const struct dpif_ipfix *di)
663 ovs_mutex_lock(&mutex);
664 ret = di->bridge_exporter.probability;
665 ovs_mutex_unlock(&mutex);
670 dpif_ipfix_clear(struct dpif_ipfix *di) OVS_REQUIRES(mutex)
672 struct dpif_ipfix_flow_exporter_map_node *exp_node, *exp_next;
674 dpif_ipfix_bridge_exporter_clear(&di->bridge_exporter);
676 HMAP_FOR_EACH_SAFE (exp_node, exp_next, node, &di->flow_exporter_map) {
677 hmap_remove(&di->flow_exporter_map, &exp_node->node);
678 dpif_ipfix_flow_exporter_destroy(&exp_node->exporter);
684 dpif_ipfix_unref(struct dpif_ipfix *di) OVS_EXCLUDED(mutex)
692 atomic_sub(&di->ref_cnt, 1, &orig);
693 ovs_assert(orig > 0);
695 ovs_mutex_lock(&mutex);
696 dpif_ipfix_clear(di);
697 dpif_ipfix_bridge_exporter_destroy(&di->bridge_exporter);
698 hmap_destroy(&di->flow_exporter_map);
700 ovs_mutex_unlock(&mutex);
705 ipfix_init_header(uint32_t export_time_sec, uint32_t seq_number,
706 uint32_t obs_domain_id, struct ofpbuf *msg)
708 struct ipfix_header *hdr;
710 hdr = ofpbuf_put_zeros(msg, sizeof *hdr);
711 hdr->version = htons(IPFIX_VERSION);
712 hdr->length = htons(sizeof *hdr); /* Updated in ipfix_send_msg. */
713 hdr->export_time = htonl(export_time_sec);
714 hdr->seq_number = htonl(seq_number);
715 hdr->obs_domain_id = htonl(obs_domain_id);
719 ipfix_send_msg(const struct collectors *collectors, struct ofpbuf *msg)
721 struct ipfix_header *hdr;
723 /* Adjust the length in the header. */
725 hdr->length = htons(msg->size);
727 collectors_send(collectors, msg->data, msg->size);
732 ipfix_get_template_id(enum ipfix_proto_l2 l2, enum ipfix_proto_l3 l3,
733 enum ipfix_proto_l4 l4)
735 uint16_t template_id;
737 template_id = template_id * NUM_IPFIX_PROTO_L3 + l3;
738 template_id = template_id * NUM_IPFIX_PROTO_L4 + l4;
739 return IPFIX_TEMPLATE_ID_MIN + template_id;
743 ipfix_define_template_entity(enum ipfix_entity_id id,
744 enum ipfix_entity_size size, struct ofpbuf *msg)
746 struct ipfix_template_field_specifier *field;
748 field = ofpbuf_put_zeros(msg, sizeof *field);
749 field->element_id = htons(id);
750 field->field_length = htons(size);
754 ipfix_define_template_fields(enum ipfix_proto_l2 l2, enum ipfix_proto_l3 l3,
755 enum ipfix_proto_l4 l4, struct ofpbuf *msg)
761 ipfix_define_template_entity(IPFIX_ENTITY_ID_##ID, \
762 IPFIX_ENTITY_SIZE_##ID, msg); \
768 DEF(OBSERVATION_POINT_ID);
770 /* Common Ethernet entities. */
771 DEF(SOURCE_MAC_ADDRESS);
772 DEF(DESTINATION_MAC_ADDRESS);
774 DEF(ETHERNET_HEADER_LENGTH);
776 if (l2 == IPFIX_PROTO_L2_VLAN) {
782 if (l3 != IPFIX_PROTO_L3_UNKNOWN) {
785 DEF(PROTOCOL_IDENTIFIER);
786 DEF(IP_DIFF_SERV_CODE_POINT);
788 DEF(IP_CLASS_OF_SERVICE);
790 if (l3 == IPFIX_PROTO_L3_IPV4) {
791 DEF(SOURCE_IPV4_ADDRESS);
792 DEF(DESTINATION_IPV4_ADDRESS);
793 } else { /* l3 == IPFIX_PROTO_L3_IPV6 */
794 DEF(SOURCE_IPV6_ADDRESS);
795 DEF(DESTINATION_IPV6_ADDRESS);
796 DEF(FLOW_LABEL_IPV6);
800 if (l4 != IPFIX_PROTO_L4_UNKNOWN) {
801 DEF(SOURCE_TRANSPORT_PORT);
802 DEF(DESTINATION_TRANSPORT_PORT);
805 /* 2. Flow aggregated data. */
807 DEF(FLOW_START_DELTA_MICROSECONDS);
808 DEF(FLOW_END_DELTA_MICROSECONDS);
809 DEF(PACKET_DELTA_COUNT);
810 DEF(LAYER2_OCTET_DELTA_COUNT);
811 DEF(FLOW_END_REASON);
813 if (l3 != IPFIX_PROTO_L3_UNKNOWN) {
814 DEF(OCTET_DELTA_SUM_OF_SQUARES);
815 DEF(MINIMUM_IP_TOTAL_LENGTH);
816 DEF(MAXIMUM_IP_TOTAL_LENGTH);
825 ipfix_send_template_msg(struct dpif_ipfix_exporter *exporter,
826 uint32_t export_time_sec, uint32_t obs_domain_id)
828 uint64_t msg_stub[DIV_ROUND_UP(MAX_MESSAGE_LEN, 8)];
830 size_t set_hdr_offset, tmpl_hdr_offset;
831 struct ipfix_set_header *set_hdr;
832 struct ipfix_template_record_header *tmpl_hdr;
833 uint16_t field_count;
834 enum ipfix_proto_l2 l2;
835 enum ipfix_proto_l3 l3;
836 enum ipfix_proto_l4 l4;
838 ofpbuf_use_stub(&msg, msg_stub, sizeof msg_stub);
840 ipfix_init_header(export_time_sec, exporter->seq_number, obs_domain_id,
842 set_hdr_offset = msg.size;
844 /* Add a Template Set. */
845 set_hdr = ofpbuf_put_zeros(&msg, sizeof *set_hdr);
846 set_hdr->set_id = htons(IPFIX_SET_ID_TEMPLATE);
848 /* Define one template for each possible combination of
850 for (l2 = 0; l2 < NUM_IPFIX_PROTO_L2; l2++) {
851 for (l3 = 0; l3 < NUM_IPFIX_PROTO_L3; l3++) {
852 for (l4 = 0; l4 < NUM_IPFIX_PROTO_L4; l4++) {
853 if (l3 == IPFIX_PROTO_L3_UNKNOWN &&
854 l4 != IPFIX_PROTO_L4_UNKNOWN) {
857 tmpl_hdr_offset = msg.size;
858 tmpl_hdr = ofpbuf_put_zeros(&msg, sizeof *tmpl_hdr);
859 tmpl_hdr->template_id = htons(
860 ipfix_get_template_id(l2, l3, l4));
861 field_count = ipfix_define_template_fields(l2, l3, l4, &msg);
862 tmpl_hdr = (struct ipfix_template_record_header*)
863 ((uint8_t*)msg.data + tmpl_hdr_offset);
864 tmpl_hdr->field_count = htons(field_count);
869 set_hdr = (struct ipfix_set_header*)((uint8_t*)msg.data + set_hdr_offset);
870 set_hdr->length = htons(msg.size - set_hdr_offset);
872 /* XXX: Add Options Template Sets, at least to define a Flow Keys
873 * Option Template. */
875 ipfix_send_msg(exporter->collectors, &msg);
880 static inline uint32_t
881 ipfix_hash_flow_key(const struct ipfix_flow_key *flow_key, uint32_t basis)
884 hash = hash_int(flow_key->obs_domain_id, basis);
885 hash = hash_int(flow_key->template_id, hash);
886 hash = hash_bytes(flow_key->flow_key_msg_part,
887 flow_key->flow_key_msg_part_size, hash);
892 ipfix_flow_key_equal(const struct ipfix_flow_key *a,
893 const struct ipfix_flow_key *b)
895 /* The template ID determines the flow key size, so not need to
897 return (a->obs_domain_id == b->obs_domain_id
898 && a->template_id == b->template_id
899 && memcmp(a->flow_key_msg_part, b->flow_key_msg_part,
900 a->flow_key_msg_part_size) == 0);
903 static struct ipfix_flow_cache_entry*
904 ipfix_cache_find_entry(const struct dpif_ipfix_exporter *exporter,
905 const struct ipfix_flow_key *flow_key)
907 struct ipfix_flow_cache_entry *entry;
909 HMAP_FOR_EACH_WITH_HASH (entry, flow_key_map_node,
910 ipfix_hash_flow_key(flow_key, 0),
911 &exporter->cache_flow_key_map) {
912 if (ipfix_flow_key_equal(&entry->flow_key, flow_key)) {
921 ipfix_cache_next_timeout_msec(const struct dpif_ipfix_exporter *exporter,
922 long long int *next_timeout_msec)
924 struct ipfix_flow_cache_entry *entry;
926 LIST_FOR_EACH (entry, cache_flow_start_timestamp_list_node,
927 &exporter->cache_flow_start_timestamp_list) {
928 *next_timeout_msec = entry->flow_start_timestamp_usec / 1000LL
929 + 1000LL * exporter->cache_active_timeout;
937 ipfix_cache_aggregate_entries(struct ipfix_flow_cache_entry *from_entry,
938 struct ipfix_flow_cache_entry *to_entry)
940 uint64_t *to_start, *to_end, *from_start, *from_end;
941 uint16_t *to_min_len, *to_max_len, *from_min_len, *from_max_len;
943 to_start = &to_entry->flow_start_timestamp_usec;
944 to_end = &to_entry->flow_end_timestamp_usec;
945 from_start = &from_entry->flow_start_timestamp_usec;
946 from_end = &from_entry->flow_end_timestamp_usec;
948 if (*to_start > *from_start) {
949 *to_start = *from_start;
951 if (*to_end < *from_end) {
955 to_entry->packet_delta_count += from_entry->packet_delta_count;
956 to_entry->layer2_octet_delta_count += from_entry->layer2_octet_delta_count;
958 to_entry->octet_delta_sum_of_squares +=
959 from_entry->octet_delta_sum_of_squares;
961 to_min_len = &to_entry->minimum_ip_total_length;
962 to_max_len = &to_entry->maximum_ip_total_length;
963 from_min_len = &from_entry->minimum_ip_total_length;
964 from_max_len = &from_entry->maximum_ip_total_length;
966 if (!*to_min_len || (*from_min_len && *to_min_len > *from_min_len)) {
967 *to_min_len = *from_min_len;
969 if (*to_max_len < *from_max_len) {
970 *to_max_len = *from_max_len;
974 /* Add an entry into a flow cache. The entry is either aggregated into
975 * an existing entry with the same flow key and free()d, or it is
976 * inserted into the cache. */
978 ipfix_cache_update(struct dpif_ipfix_exporter *exporter,
979 struct ipfix_flow_cache_entry *entry)
981 struct ipfix_flow_cache_entry *old_entry;
983 old_entry = ipfix_cache_find_entry(exporter, &entry->flow_key);
985 if (old_entry == NULL) {
986 hmap_insert(&exporter->cache_flow_key_map, &entry->flow_key_map_node,
987 ipfix_hash_flow_key(&entry->flow_key, 0));
989 /* As the latest entry added into the cache, it should
990 * logically have the highest flow_start_timestamp_usec, so
991 * append it at the tail. */
992 list_push_back(&exporter->cache_flow_start_timestamp_list,
993 &entry->cache_flow_start_timestamp_list_node);
995 /* Enforce exporter->cache_max_flows limit. */
996 if (hmap_count(&exporter->cache_flow_key_map)
997 > exporter->cache_max_flows) {
998 dpif_ipfix_cache_expire_now(exporter, false);
1001 ipfix_cache_aggregate_entries(entry, old_entry);
1007 ipfix_cache_entry_init(struct ipfix_flow_cache_entry *entry,
1008 struct ofpbuf *packet, const struct flow *flow,
1009 uint64_t packet_delta_count, uint32_t obs_domain_id,
1010 uint32_t obs_point_id)
1012 struct ipfix_flow_key *flow_key;
1014 enum ipfix_proto_l2 l2;
1015 enum ipfix_proto_l3 l3;
1016 enum ipfix_proto_l4 l4;
1017 uint8_t ethernet_header_length;
1018 uint16_t ethernet_total_length;
1020 flow_key = &entry->flow_key;
1021 ofpbuf_use_stack(&msg, flow_key->flow_key_msg_part,
1022 sizeof flow_key->flow_key_msg_part);
1024 /* Choose the right template ID matching the protocols in the
1025 * sampled packet. */
1026 l2 = (flow->vlan_tci == 0) ? IPFIX_PROTO_L2_ETH : IPFIX_PROTO_L2_VLAN;
1028 switch(ntohs(flow->dl_type)) {
1030 l3 = IPFIX_PROTO_L3_IPV4;
1033 l3 = IPFIX_PROTO_L3_IPV6;
1036 l3 = IPFIX_PROTO_L3_UNKNOWN;
1039 l4 = IPFIX_PROTO_L4_UNKNOWN;
1040 if (l3 != IPFIX_PROTO_L3_UNKNOWN) {
1041 switch(flow->nw_proto) {
1042 case IPPROTO_TCP: /* TCP */
1043 case IPPROTO_UDP: /* UDP */
1044 l4 = IPFIX_PROTO_L4_TCP_UDP;
1049 flow_key->obs_domain_id = obs_domain_id;
1050 flow_key->template_id = ipfix_get_template_id(l2, l3, l4);
1052 /* The fields defined in the ipfix_data_record_* structs and sent
1053 * below must match exactly the templates defined in
1054 * ipfix_define_template_fields. */
1056 ethernet_header_length = (l2 == IPFIX_PROTO_L2_VLAN)
1057 ? VLAN_ETH_HEADER_LEN : ETH_HEADER_LEN;
1058 ethernet_total_length = packet->size;
1060 /* Common Ethernet entities. */
1062 struct ipfix_data_record_flow_key_common *data_common;
1064 data_common = ofpbuf_put_zeros(&msg, sizeof *data_common);
1065 data_common->observation_point_id = htonl(obs_point_id);
1066 memcpy(data_common->source_mac_address, flow->dl_src,
1067 sizeof flow->dl_src);
1068 memcpy(data_common->destination_mac_address, flow->dl_dst,
1069 sizeof flow->dl_dst);
1070 data_common->ethernet_type = flow->dl_type;
1071 data_common->ethernet_header_length = ethernet_header_length;
1074 if (l2 == IPFIX_PROTO_L2_VLAN) {
1075 struct ipfix_data_record_flow_key_vlan *data_vlan;
1076 uint16_t vlan_id = vlan_tci_to_vid(flow->vlan_tci);
1077 uint8_t priority = vlan_tci_to_pcp(flow->vlan_tci);
1079 data_vlan = ofpbuf_put_zeros(&msg, sizeof *data_vlan);
1080 data_vlan->vlan_id = htons(vlan_id);
1081 data_vlan->dot1q_vlan_id = htons(vlan_id);
1082 data_vlan->dot1q_priority = priority;
1085 if (l3 != IPFIX_PROTO_L3_UNKNOWN) {
1086 struct ipfix_data_record_flow_key_ip *data_ip;
1088 data_ip = ofpbuf_put_zeros(&msg, sizeof *data_ip);
1089 data_ip->ip_version = (l3 == IPFIX_PROTO_L3_IPV4) ? 4 : 6;
1090 data_ip->ip_ttl = flow->nw_ttl;
1091 data_ip->protocol_identifier = flow->nw_proto;
1092 data_ip->ip_diff_serv_code_point = flow->nw_tos >> 2;
1093 data_ip->ip_precedence = flow->nw_tos >> 5;
1094 data_ip->ip_class_of_service = flow->nw_tos;
1096 if (l3 == IPFIX_PROTO_L3_IPV4) {
1097 struct ipfix_data_record_flow_key_ipv4 *data_ipv4;
1098 data_ipv4 = ofpbuf_put_zeros(&msg, sizeof *data_ipv4);
1099 data_ipv4->source_ipv4_address = flow->nw_src;
1100 data_ipv4->destination_ipv4_address = flow->nw_dst;
1101 } else { /* l3 == IPFIX_PROTO_L3_IPV6 */
1102 struct ipfix_data_record_flow_key_ipv6 *data_ipv6;
1104 data_ipv6 = ofpbuf_put_zeros(&msg, sizeof *data_ipv6);
1105 memcpy(data_ipv6->source_ipv6_address, &flow->ipv6_src,
1106 sizeof flow->ipv6_src);
1107 memcpy(data_ipv6->destination_ipv6_address, &flow->ipv6_dst,
1108 sizeof flow->ipv6_dst);
1109 data_ipv6->flow_label_ipv6 = flow->ipv6_label;
1113 if (l4 != IPFIX_PROTO_L4_UNKNOWN) {
1114 struct ipfix_data_record_flow_key_tcpudp *data_tcpudp;
1116 data_tcpudp = ofpbuf_put_zeros(&msg, sizeof *data_tcpudp);
1117 data_tcpudp->source_transport_port = flow->tp_src;
1118 data_tcpudp->destination_transport_port = flow->tp_dst;
1121 flow_key->flow_key_msg_part_size = msg.size;
1125 uint64_t layer2_octet_delta_count;
1127 /* Calculate the total matched octet count by considering as
1128 * an approximation that all matched packets have the same
1130 layer2_octet_delta_count = packet_delta_count * ethernet_total_length;
1132 xgettimeofday(&now);
1133 entry->flow_end_timestamp_usec = now.tv_usec + 1000000LL * now.tv_sec;
1134 entry->flow_start_timestamp_usec = entry->flow_end_timestamp_usec;
1135 entry->packet_delta_count = packet_delta_count;
1136 entry->layer2_octet_delta_count = layer2_octet_delta_count;
1139 if (l3 != IPFIX_PROTO_L3_UNKNOWN) {
1140 uint16_t ip_total_length =
1141 ethernet_total_length - ethernet_header_length;
1143 entry->octet_delta_sum_of_squares =
1144 packet_delta_count * ip_total_length * ip_total_length;
1145 entry->minimum_ip_total_length = ip_total_length;
1146 entry->maximum_ip_total_length = ip_total_length;
1148 entry->octet_delta_sum_of_squares = 0;
1149 entry->minimum_ip_total_length = 0;
1150 entry->maximum_ip_total_length = 0;
1154 /* Send each single data record in its own data set, to simplify the
1155 * implementation by avoiding having to group record by template ID
1156 * before sending. */
1158 ipfix_put_data_set(uint32_t export_time_sec,
1159 struct ipfix_flow_cache_entry *entry,
1160 enum ipfix_flow_end_reason flow_end_reason,
1163 size_t set_hdr_offset;
1164 struct ipfix_set_header *set_hdr;
1166 set_hdr_offset = msg->size;
1168 /* Put a Data Set. */
1169 set_hdr = ofpbuf_put_zeros(msg, sizeof *set_hdr);
1170 set_hdr->set_id = htons(entry->flow_key.template_id);
1172 /* Copy the flow key part of the data record. */
1174 ofpbuf_put(msg, entry->flow_key.flow_key_msg_part,
1175 entry->flow_key.flow_key_msg_part_size);
1177 /* Put the non-key part of the data record. */
1180 struct ipfix_data_record_aggregated_common *data_aggregated_common;
1181 uint64_t export_time_usec, flow_start_delta_usec, flow_end_delta_usec;
1183 /* Calculate the negative deltas relative to the export time
1184 * in seconds sent in the header, not the exact export
1186 export_time_usec = 1000000LL * export_time_sec;
1187 flow_start_delta_usec = export_time_usec
1188 - entry->flow_start_timestamp_usec;
1189 flow_end_delta_usec = export_time_usec
1190 - entry->flow_end_timestamp_usec;
1192 data_aggregated_common = ofpbuf_put_zeros(
1193 msg, sizeof *data_aggregated_common);
1194 data_aggregated_common->flow_start_delta_microseconds = htonl(
1195 flow_start_delta_usec);
1196 data_aggregated_common->flow_end_delta_microseconds = htonl(
1197 flow_end_delta_usec);
1198 data_aggregated_common->packet_delta_count = htonll(
1199 entry->packet_delta_count);
1200 data_aggregated_common->layer2_octet_delta_count = htonll(
1201 entry->layer2_octet_delta_count);
1202 data_aggregated_common->flow_end_reason = flow_end_reason;
1205 if (entry->octet_delta_sum_of_squares) { /* IP packet. */
1206 struct ipfix_data_record_aggregated_ip *data_aggregated_ip;
1208 data_aggregated_ip = ofpbuf_put_zeros(
1209 msg, sizeof *data_aggregated_ip);
1210 data_aggregated_ip->octet_delta_sum_of_squares = htonll(
1211 entry->octet_delta_sum_of_squares);
1212 data_aggregated_ip->minimum_ip_total_length = htonll(
1213 entry->minimum_ip_total_length);
1214 data_aggregated_ip->maximum_ip_total_length = htonll(
1215 entry->maximum_ip_total_length);
1218 set_hdr = (struct ipfix_set_header*)((uint8_t*)msg->data + set_hdr_offset);
1219 set_hdr->length = htons(msg->size - set_hdr_offset);
1222 /* Send an IPFIX message with a single data record. */
1224 ipfix_send_data_msg(struct dpif_ipfix_exporter *exporter,
1225 uint32_t export_time_sec,
1226 struct ipfix_flow_cache_entry *entry,
1227 enum ipfix_flow_end_reason flow_end_reason)
1229 uint64_t msg_stub[DIV_ROUND_UP(MAX_MESSAGE_LEN, 8)];
1231 ofpbuf_use_stub(&msg, msg_stub, sizeof msg_stub);
1233 ipfix_init_header(export_time_sec, exporter->seq_number++,
1234 entry->flow_key.obs_domain_id, &msg);
1235 ipfix_put_data_set(export_time_sec, entry, flow_end_reason, &msg);
1236 ipfix_send_msg(exporter->collectors, &msg);
1238 ofpbuf_uninit(&msg);
1242 dpif_ipfix_sample(struct dpif_ipfix_exporter *exporter,
1243 struct ofpbuf *packet, const struct flow *flow,
1244 uint64_t packet_delta_count, uint32_t obs_domain_id,
1245 uint32_t obs_point_id)
1247 struct ipfix_flow_cache_entry *entry;
1249 /* Create a flow cache entry from the sample. */
1250 entry = xmalloc(sizeof *entry);
1251 ipfix_cache_entry_init(entry, packet, flow, packet_delta_count,
1252 obs_domain_id, obs_point_id);
1253 ipfix_cache_update(exporter, entry);
1257 dpif_ipfix_bridge_sample(struct dpif_ipfix *di, struct ofpbuf *packet,
1258 const struct flow *flow) OVS_EXCLUDED(mutex)
1260 uint64_t packet_delta_count;
1262 ovs_mutex_lock(&mutex);
1263 /* Use the sampling probability as an approximation of the number
1264 * of matched packets. */
1265 packet_delta_count = UINT32_MAX / di->bridge_exporter.probability;
1266 dpif_ipfix_sample(&di->bridge_exporter.exporter, packet, flow,
1268 di->bridge_exporter.options->obs_domain_id,
1269 di->bridge_exporter.options->obs_point_id);
1270 ovs_mutex_unlock(&mutex);
1274 dpif_ipfix_flow_sample(struct dpif_ipfix *di, struct ofpbuf *packet,
1275 const struct flow *flow, uint32_t collector_set_id,
1276 uint16_t probability, uint32_t obs_domain_id,
1277 uint32_t obs_point_id) OVS_EXCLUDED(mutex)
1279 struct dpif_ipfix_flow_exporter_map_node *node;
1280 /* Use the sampling probability as an approximation of the number
1281 * of matched packets. */
1282 uint64_t packet_delta_count = USHRT_MAX / probability;
1284 ovs_mutex_lock(&mutex);
1285 node = dpif_ipfix_find_flow_exporter_map_node(di, collector_set_id);
1287 dpif_ipfix_sample(&node->exporter.exporter, packet, flow,
1288 packet_delta_count, obs_domain_id, obs_point_id);
1290 ovs_mutex_unlock(&mutex);
1294 dpif_ipfix_cache_expire(struct dpif_ipfix_exporter *exporter,
1295 bool forced_end, const uint64_t export_time_usec,
1296 const uint32_t export_time_sec)
1298 struct ipfix_flow_cache_entry *entry, *next_entry;
1299 uint64_t max_flow_start_timestamp_usec;
1300 bool template_msg_sent = false;
1301 enum ipfix_flow_end_reason flow_end_reason;
1303 if (list_is_empty(&exporter->cache_flow_start_timestamp_list)) {
1307 max_flow_start_timestamp_usec = export_time_usec -
1308 1000000LL * exporter->cache_active_timeout;
1310 LIST_FOR_EACH_SAFE (entry, next_entry, cache_flow_start_timestamp_list_node,
1311 &exporter->cache_flow_start_timestamp_list) {
1313 flow_end_reason = FORCED_END;
1314 } else if (entry->flow_start_timestamp_usec
1315 <= max_flow_start_timestamp_usec) {
1316 flow_end_reason = ACTIVE_TIMEOUT;
1317 } else if (hmap_count(&exporter->cache_flow_key_map)
1318 > exporter->cache_max_flows) {
1319 /* Enforce exporter->cache_max_flows. */
1320 flow_end_reason = LACK_OF_RESOURCES;
1322 /* Remaining flows haven't expired yet. */
1326 list_remove(&entry->cache_flow_start_timestamp_list_node);
1327 hmap_remove(&exporter->cache_flow_key_map,
1328 &entry->flow_key_map_node);
1330 if (!template_msg_sent
1331 && (exporter->last_template_set_time + IPFIX_TEMPLATE_INTERVAL)
1332 <= export_time_sec) {
1333 ipfix_send_template_msg(exporter, export_time_sec,
1334 entry->flow_key.obs_domain_id);
1335 exporter->last_template_set_time = export_time_sec;
1336 template_msg_sent = true;
1339 /* XXX: Group multiple data records for the same obs domain id
1340 * into the same message. */
1341 ipfix_send_data_msg(exporter, export_time_sec, entry, flow_end_reason);
1347 get_export_time_now(uint64_t *export_time_usec, uint32_t *export_time_sec)
1349 struct timeval export_time;
1350 xgettimeofday(&export_time);
1352 *export_time_usec = export_time.tv_usec + 1000000LL * export_time.tv_sec;
1354 /* The IPFIX start and end deltas are negative deltas relative to
1355 * the export time, so set the export time 1 second off to
1356 * calculate those deltas. */
1357 if (export_time.tv_usec == 0) {
1358 *export_time_sec = export_time.tv_sec;
1360 *export_time_sec = export_time.tv_sec + 1;
1365 dpif_ipfix_cache_expire_now(struct dpif_ipfix_exporter *exporter,
1368 uint64_t export_time_usec;
1369 uint32_t export_time_sec;
1371 get_export_time_now(&export_time_usec, &export_time_sec);
1372 dpif_ipfix_cache_expire(exporter, forced_end, export_time_usec,
1377 dpif_ipfix_run(struct dpif_ipfix *di) OVS_EXCLUDED(mutex)
1379 uint64_t export_time_usec;
1380 uint32_t export_time_sec;
1381 struct dpif_ipfix_flow_exporter_map_node *flow_exporter_node;
1383 ovs_mutex_lock(&mutex);
1384 get_export_time_now(&export_time_usec, &export_time_sec);
1385 if (di->bridge_exporter.probability > 0) { /* Bridge exporter enabled. */
1386 dpif_ipfix_cache_expire(
1387 &di->bridge_exporter.exporter, false, export_time_usec,
1390 HMAP_FOR_EACH (flow_exporter_node, node, &di->flow_exporter_map) {
1391 dpif_ipfix_cache_expire(
1392 &flow_exporter_node->exporter.exporter, false, export_time_usec,
1395 ovs_mutex_unlock(&mutex);
1399 dpif_ipfix_wait(struct dpif_ipfix *di) OVS_EXCLUDED(mutex)
1401 long long int next_timeout_msec = LLONG_MAX;
1402 struct dpif_ipfix_flow_exporter_map_node *flow_exporter_node;
1404 ovs_mutex_lock(&mutex);
1405 if (di->bridge_exporter.probability > 0) { /* Bridge exporter enabled. */
1406 if (ipfix_cache_next_timeout_msec(
1407 &di->bridge_exporter.exporter, &next_timeout_msec)) {
1408 poll_timer_wait_until(next_timeout_msec);
1411 HMAP_FOR_EACH (flow_exporter_node, node, &di->flow_exporter_map) {
1412 if (ipfix_cache_next_timeout_msec(
1413 &flow_exporter_node->exporter.exporter, &next_timeout_msec)) {
1414 poll_timer_wait_until(next_timeout_msec);
1417 ovs_mutex_unlock(&mutex);