1 /* Copyright (c) 2009, 2010, 2011, 2012, 2013, 2014 Nicira, Inc.
3 * Licensed under the Apache License, Version 2.0 (the "License");
4 * you may not use this file except in compliance with the License.
5 * You may obtain a copy of the License at:
7 * http://www.apache.org/licenses/LICENSE-2.0
9 * Unless required by applicable law or agreed to in writing, software
10 * distributed under the License is distributed on an "AS IS" BASIS,
11 * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
12 * See the License for the specific language governing permissions and
13 * limitations under the License. */
17 #include "ofproto/ofproto-dpif-xlate.h"
25 #include "byte-order.h"
30 #include "dynamic-string.h"
35 #include "mac-learning.h"
36 #include "meta-flow.h"
37 #include "multipath.h"
38 #include "netdev-vport.h"
41 #include "odp-execute.h"
42 #include "ofp-actions.h"
43 #include "ofproto/ofproto-dpif-ipfix.h"
44 #include "ofproto/ofproto-dpif-mirror.h"
45 #include "ofproto/ofproto-dpif-monitor.h"
46 #include "ofproto/ofproto-dpif-sflow.h"
47 #include "ofproto/ofproto-dpif.h"
48 #include "ofproto/ofproto-provider.h"
52 COVERAGE_DEFINE(xlate_actions);
53 COVERAGE_DEFINE(xlate_actions_oversize);
54 COVERAGE_DEFINE(xlate_actions_mpls_overflow);
56 VLOG_DEFINE_THIS_MODULE(ofproto_dpif_xlate);
58 /* Maximum depth of flow table recursion (due to resubmit actions) in a
59 * flow translation. */
60 #define MAX_RESUBMIT_RECURSION 64
62 /* Maximum number of resubmit actions in a flow translation, whether they are
63 * recursive or not. */
64 #define MAX_RESUBMITS (MAX_RESUBMIT_RECURSION * MAX_RESUBMIT_RECURSION)
66 struct ovs_rwlock xlate_rwlock = OVS_RWLOCK_INITIALIZER;
69 struct hmap_node hmap_node; /* Node in global 'xbridges' map. */
70 struct ofproto_dpif *ofproto; /* Key in global 'xbridges' map. */
72 struct list xbundles; /* Owned xbundles. */
73 struct hmap xports; /* Indexed by ofp_port. */
75 char *name; /* Name used in log messages. */
76 struct dpif *dpif; /* Datapath interface. */
77 struct mac_learning *ml; /* Mac learning handle. */
78 struct mbridge *mbridge; /* Mirroring. */
79 struct dpif_sflow *sflow; /* SFlow handle, or null. */
80 struct dpif_ipfix *ipfix; /* Ipfix handle, or null. */
81 struct netflow *netflow; /* Netflow handle, or null. */
82 struct stp *stp; /* STP or null if disabled. */
84 /* Special rules installed by ofproto-dpif. */
85 struct rule_dpif *miss_rule;
86 struct rule_dpif *no_packet_in_rule;
88 enum ofp_config_flags frag; /* Fragmentation handling. */
89 bool has_in_band; /* Bridge has in band control? */
90 bool forward_bpdu; /* Bridge forwards STP BPDUs? */
92 /* True if the datapath supports variable-length
93 * OVS_USERSPACE_ATTR_USERDATA in OVS_ACTION_ATTR_USERSPACE actions.
94 * False if the datapath supports only 8-byte (or shorter) userdata. */
95 bool variable_length_userdata;
97 /* Number of MPLS label stack entries that the datapath supports
99 size_t max_mpls_depth;
103 struct hmap_node hmap_node; /* In global 'xbundles' map. */
104 struct ofbundle *ofbundle; /* Key in global 'xbundles' map. */
106 struct list list_node; /* In parent 'xbridges' list. */
107 struct xbridge *xbridge; /* Parent xbridge. */
109 struct list xports; /* Contains "struct xport"s. */
111 char *name; /* Name used in log messages. */
112 struct bond *bond; /* Nonnull iff more than one port. */
113 struct lacp *lacp; /* LACP handle or null. */
115 enum port_vlan_mode vlan_mode; /* VLAN mode. */
116 int vlan; /* -1=trunk port, else a 12-bit VLAN ID. */
117 unsigned long *trunks; /* Bitmap of trunked VLANs, if 'vlan' == -1.
118 * NULL if all VLANs are trunked. */
119 bool use_priority_tags; /* Use 802.1p tag for frames in VLAN 0? */
120 bool floodable; /* No port has OFPUTIL_PC_NO_FLOOD set? */
124 struct hmap_node hmap_node; /* Node in global 'xports' map. */
125 struct ofport_dpif *ofport; /* Key in global 'xports map. */
127 struct hmap_node ofp_node; /* Node in parent xbridge 'xports' map. */
128 ofp_port_t ofp_port; /* Key in parent xbridge 'xports' map. */
130 odp_port_t odp_port; /* Datapath port number or ODPP_NONE. */
132 struct list bundle_node; /* In parent xbundle (if it exists). */
133 struct xbundle *xbundle; /* Parent xbundle or null. */
135 struct netdev *netdev; /* 'ofport''s netdev. */
137 struct xbridge *xbridge; /* Parent bridge. */
138 struct xport *peer; /* Patch port peer or null. */
140 enum ofputil_port_config config; /* OpenFlow port configuration. */
141 enum ofputil_port_state state; /* OpenFlow port state. */
142 int stp_port_no; /* STP port number or -1 if not in use. */
144 struct hmap skb_priorities; /* Map of 'skb_priority_to_dscp's. */
146 bool may_enable; /* May be enabled in bonds. */
147 bool is_tunnel; /* Is a tunnel port. */
149 struct cfm *cfm; /* CFM handle or null. */
150 struct bfd *bfd; /* BFD handle or null. */
154 struct xlate_in *xin;
155 struct xlate_out *xout;
157 const struct xbridge *xbridge;
159 /* Flow at the last commit. */
160 struct flow base_flow;
162 /* Tunnel IP destination address as received. This is stored separately
163 * as the base_flow.tunnel is cleared on init to reflect the datapath
164 * behavior. Used to make sure not to send tunneled output to ourselves,
165 * which might lead to an infinite loop. This could happen easily
166 * if a tunnel is marked as 'ip_remote=flow', and the flow does not
167 * actually set the tun_dst field. */
168 ovs_be32 orig_tunnel_ip_dst;
170 /* Stack for the push and pop actions. Each stack element is of type
171 * "union mf_subvalue". */
172 union mf_subvalue init_stack[1024 / sizeof(union mf_subvalue)];
175 /* The rule that we are currently translating, or NULL. */
176 struct rule_dpif *rule;
178 /* Resubmit statistics, via xlate_table_action(). */
179 int recurse; /* Current resubmit nesting depth. */
180 int resubmits; /* Total number of resubmits. */
181 bool in_group; /* Currently translating ofgroup, if true. */
183 uint32_t orig_skb_priority; /* Priority when packet arrived. */
184 uint8_t table_id; /* OpenFlow table ID where flow was found. */
185 uint32_t sflow_n_outputs; /* Number of output ports. */
186 odp_port_t sflow_odp_port; /* Output port for composing sFlow action. */
187 uint16_t user_cookie_offset;/* Used for user_action_cookie fixup. */
188 bool exit; /* No further actions should be processed. */
190 /* OpenFlow 1.1+ action set.
192 * 'action_set' accumulates "struct ofpact"s added by OFPACT_WRITE_ACTIONS.
193 * When translation is otherwise complete, ofpacts_execute_action_set()
194 * converts it to a set of "struct ofpact"s that can be translated into
195 * datapath actions. */
196 struct ofpbuf action_set; /* Action set. */
197 uint64_t action_set_stub[1024 / 8];
200 /* A controller may use OFPP_NONE as the ingress port to indicate that
201 * it did not arrive on a "real" port. 'ofpp_none_bundle' exists for
202 * when an input bundle is needed for validation (e.g., mirroring or
203 * OFPP_NORMAL processing). It is not connected to an 'ofproto' or have
204 * any 'port' structs, so care must be taken when dealing with it.
205 * The bundle's name and vlan mode are initialized in lookup_input_bundle() */
206 static struct xbundle ofpp_none_bundle;
208 /* Node in 'xport''s 'skb_priorities' map. Used to maintain a map from
209 * 'priority' (the datapath's term for QoS queue) to the dscp bits which all
210 * traffic egressing the 'ofport' with that priority should be marked with. */
211 struct skb_priority_to_dscp {
212 struct hmap_node hmap_node; /* Node in 'ofport_dpif''s 'skb_priorities'. */
213 uint32_t skb_priority; /* Priority of this queue (see struct flow). */
215 uint8_t dscp; /* DSCP bits to mark outgoing traffic with. */
218 static struct hmap xbridges = HMAP_INITIALIZER(&xbridges);
219 static struct hmap xbundles = HMAP_INITIALIZER(&xbundles);
220 static struct hmap xports = HMAP_INITIALIZER(&xports);
222 static bool may_receive(const struct xport *, struct xlate_ctx *);
223 static void do_xlate_actions(const struct ofpact *, size_t ofpacts_len,
225 static void xlate_actions__(struct xlate_in *, struct xlate_out *)
226 OVS_REQ_RDLOCK(xlate_rwlock);
227 static void xlate_normal(struct xlate_ctx *);
228 static void xlate_report(struct xlate_ctx *, const char *);
229 static void xlate_table_action(struct xlate_ctx *, ofp_port_t in_port,
230 uint8_t table_id, bool may_packet_in);
231 static bool input_vid_is_valid(uint16_t vid, struct xbundle *, bool warn);
232 static uint16_t input_vid_to_vlan(const struct xbundle *, uint16_t vid);
233 static void output_normal(struct xlate_ctx *, const struct xbundle *,
235 static void compose_output_action(struct xlate_ctx *, ofp_port_t ofp_port);
237 static struct xbridge *xbridge_lookup(const struct ofproto_dpif *);
238 static struct xbundle *xbundle_lookup(const struct ofbundle *);
239 static struct xport *xport_lookup(const struct ofport_dpif *);
240 static struct xport *get_ofp_port(const struct xbridge *, ofp_port_t ofp_port);
241 static struct skb_priority_to_dscp *get_skb_priority(const struct xport *,
242 uint32_t skb_priority);
243 static void clear_skb_priorities(struct xport *);
244 static bool dscp_from_skb_priority(const struct xport *, uint32_t skb_priority,
248 xlate_ofproto_set(struct ofproto_dpif *ofproto, const char *name,
249 struct dpif *dpif, struct rule_dpif *miss_rule,
250 struct rule_dpif *no_packet_in_rule,
251 const struct mac_learning *ml, struct stp *stp,
252 const struct mbridge *mbridge,
253 const struct dpif_sflow *sflow,
254 const struct dpif_ipfix *ipfix,
255 const struct netflow *netflow, enum ofp_config_flags frag,
256 bool forward_bpdu, bool has_in_band,
257 bool variable_length_userdata,
258 size_t max_mpls_depth)
260 struct xbridge *xbridge = xbridge_lookup(ofproto);
263 xbridge = xzalloc(sizeof *xbridge);
264 xbridge->ofproto = ofproto;
266 hmap_insert(&xbridges, &xbridge->hmap_node, hash_pointer(ofproto, 0));
267 hmap_init(&xbridge->xports);
268 list_init(&xbridge->xbundles);
271 if (xbridge->ml != ml) {
272 mac_learning_unref(xbridge->ml);
273 xbridge->ml = mac_learning_ref(ml);
276 if (xbridge->mbridge != mbridge) {
277 mbridge_unref(xbridge->mbridge);
278 xbridge->mbridge = mbridge_ref(mbridge);
281 if (xbridge->sflow != sflow) {
282 dpif_sflow_unref(xbridge->sflow);
283 xbridge->sflow = dpif_sflow_ref(sflow);
286 if (xbridge->ipfix != ipfix) {
287 dpif_ipfix_unref(xbridge->ipfix);
288 xbridge->ipfix = dpif_ipfix_ref(ipfix);
291 if (xbridge->stp != stp) {
292 stp_unref(xbridge->stp);
293 xbridge->stp = stp_ref(stp);
296 if (xbridge->netflow != netflow) {
297 netflow_unref(xbridge->netflow);
298 xbridge->netflow = netflow_ref(netflow);
302 xbridge->name = xstrdup(name);
304 xbridge->dpif = dpif;
305 xbridge->forward_bpdu = forward_bpdu;
306 xbridge->has_in_band = has_in_band;
307 xbridge->frag = frag;
308 xbridge->miss_rule = miss_rule;
309 xbridge->no_packet_in_rule = no_packet_in_rule;
310 xbridge->variable_length_userdata = variable_length_userdata;
311 xbridge->max_mpls_depth = max_mpls_depth;
315 xlate_remove_ofproto(struct ofproto_dpif *ofproto)
317 struct xbridge *xbridge = xbridge_lookup(ofproto);
318 struct xbundle *xbundle, *next_xbundle;
319 struct xport *xport, *next_xport;
325 HMAP_FOR_EACH_SAFE (xport, next_xport, ofp_node, &xbridge->xports) {
326 xlate_ofport_remove(xport->ofport);
329 LIST_FOR_EACH_SAFE (xbundle, next_xbundle, list_node, &xbridge->xbundles) {
330 xlate_bundle_remove(xbundle->ofbundle);
333 hmap_remove(&xbridges, &xbridge->hmap_node);
334 mac_learning_unref(xbridge->ml);
335 mbridge_unref(xbridge->mbridge);
336 dpif_sflow_unref(xbridge->sflow);
337 dpif_ipfix_unref(xbridge->ipfix);
338 stp_unref(xbridge->stp);
339 hmap_destroy(&xbridge->xports);
345 xlate_bundle_set(struct ofproto_dpif *ofproto, struct ofbundle *ofbundle,
346 const char *name, enum port_vlan_mode vlan_mode, int vlan,
347 unsigned long *trunks, bool use_priority_tags,
348 const struct bond *bond, const struct lacp *lacp,
351 struct xbundle *xbundle = xbundle_lookup(ofbundle);
354 xbundle = xzalloc(sizeof *xbundle);
355 xbundle->ofbundle = ofbundle;
356 xbundle->xbridge = xbridge_lookup(ofproto);
358 hmap_insert(&xbundles, &xbundle->hmap_node, hash_pointer(ofbundle, 0));
359 list_insert(&xbundle->xbridge->xbundles, &xbundle->list_node);
360 list_init(&xbundle->xports);
363 ovs_assert(xbundle->xbridge);
366 xbundle->name = xstrdup(name);
368 xbundle->vlan_mode = vlan_mode;
369 xbundle->vlan = vlan;
370 xbundle->trunks = trunks;
371 xbundle->use_priority_tags = use_priority_tags;
372 xbundle->floodable = floodable;
374 if (xbundle->bond != bond) {
375 bond_unref(xbundle->bond);
376 xbundle->bond = bond_ref(bond);
379 if (xbundle->lacp != lacp) {
380 lacp_unref(xbundle->lacp);
381 xbundle->lacp = lacp_ref(lacp);
386 xlate_bundle_remove(struct ofbundle *ofbundle)
388 struct xbundle *xbundle = xbundle_lookup(ofbundle);
389 struct xport *xport, *next;
395 LIST_FOR_EACH_SAFE (xport, next, bundle_node, &xbundle->xports) {
396 list_remove(&xport->bundle_node);
397 xport->xbundle = NULL;
400 hmap_remove(&xbundles, &xbundle->hmap_node);
401 list_remove(&xbundle->list_node);
402 bond_unref(xbundle->bond);
403 lacp_unref(xbundle->lacp);
409 xlate_ofport_set(struct ofproto_dpif *ofproto, struct ofbundle *ofbundle,
410 struct ofport_dpif *ofport, ofp_port_t ofp_port,
411 odp_port_t odp_port, const struct netdev *netdev,
412 const struct cfm *cfm, const struct bfd *bfd,
413 struct ofport_dpif *peer, int stp_port_no,
414 const struct ofproto_port_queue *qdscp_list, size_t n_qdscp,
415 enum ofputil_port_config config,
416 enum ofputil_port_state state, bool is_tunnel,
419 struct xport *xport = xport_lookup(ofport);
423 xport = xzalloc(sizeof *xport);
424 xport->ofport = ofport;
425 xport->xbridge = xbridge_lookup(ofproto);
426 xport->ofp_port = ofp_port;
428 hmap_init(&xport->skb_priorities);
429 hmap_insert(&xports, &xport->hmap_node, hash_pointer(ofport, 0));
430 hmap_insert(&xport->xbridge->xports, &xport->ofp_node,
431 hash_ofp_port(xport->ofp_port));
434 ovs_assert(xport->ofp_port == ofp_port);
436 xport->config = config;
437 xport->state = state;
438 xport->stp_port_no = stp_port_no;
439 xport->is_tunnel = is_tunnel;
440 xport->may_enable = may_enable;
441 xport->odp_port = odp_port;
443 if (xport->netdev != netdev) {
444 netdev_close(xport->netdev);
445 xport->netdev = netdev_ref(netdev);
448 if (xport->cfm != cfm) {
449 cfm_unref(xport->cfm);
450 xport->cfm = cfm_ref(cfm);
453 if (xport->bfd != bfd) {
454 bfd_unref(xport->bfd);
455 xport->bfd = bfd_ref(bfd);
459 xport->peer->peer = NULL;
461 xport->peer = xport_lookup(peer);
463 xport->peer->peer = xport;
466 if (xport->xbundle) {
467 list_remove(&xport->bundle_node);
469 xport->xbundle = xbundle_lookup(ofbundle);
470 if (xport->xbundle) {
471 list_insert(&xport->xbundle->xports, &xport->bundle_node);
474 clear_skb_priorities(xport);
475 for (i = 0; i < n_qdscp; i++) {
476 struct skb_priority_to_dscp *pdscp;
477 uint32_t skb_priority;
479 if (dpif_queue_to_priority(xport->xbridge->dpif, qdscp_list[i].queue,
484 pdscp = xmalloc(sizeof *pdscp);
485 pdscp->skb_priority = skb_priority;
486 pdscp->dscp = (qdscp_list[i].dscp << 2) & IP_DSCP_MASK;
487 hmap_insert(&xport->skb_priorities, &pdscp->hmap_node,
488 hash_int(pdscp->skb_priority, 0));
493 xlate_ofport_remove(struct ofport_dpif *ofport)
495 struct xport *xport = xport_lookup(ofport);
502 xport->peer->peer = NULL;
506 if (xport->xbundle) {
507 list_remove(&xport->bundle_node);
510 clear_skb_priorities(xport);
511 hmap_destroy(&xport->skb_priorities);
513 hmap_remove(&xports, &xport->hmap_node);
514 hmap_remove(&xport->xbridge->xports, &xport->ofp_node);
516 netdev_close(xport->netdev);
517 cfm_unref(xport->cfm);
518 bfd_unref(xport->bfd);
522 /* Given a datpath, packet, and flow metadata ('backer', 'packet', and 'key'
523 * respectively), populates 'flow' with the result of odp_flow_key_to_flow().
524 * Optionally populates 'ofproto' with the ofproto_dpif, 'odp_in_port' with
525 * the datapath in_port, that 'packet' ingressed, and 'ipfix', 'sflow', and
526 * 'netflow' with the appropriate handles for those protocols if they're
527 * enabled. Caller is responsible for unrefing them.
529 * If 'ofproto' is nonnull, requires 'flow''s in_port to exist. Otherwise sets
530 * 'flow''s in_port to OFPP_NONE.
532 * This function does post-processing on data returned from
533 * odp_flow_key_to_flow() to help make VLAN splinters transparent to the rest
534 * of the upcall processing logic. In particular, if the extracted in_port is
535 * a VLAN splinter port, it replaces flow->in_port by the "real" port, sets
536 * flow->vlan_tci correctly for the VLAN of the VLAN splinter port, and pushes
537 * a VLAN header onto 'packet' (if it is nonnull).
539 * Similarly, this function also includes some logic to help with tunnels. It
540 * may modify 'flow' as necessary to make the tunneling implementation
541 * transparent to the upcall processing logic.
543 * Returns 0 if successful, ENODEV if the parsed flow has no associated ofport,
544 * or some other positive errno if there are other problems. */
546 xlate_receive(const struct dpif_backer *backer, struct ofpbuf *packet,
547 const struct nlattr *key, size_t key_len, struct flow *flow,
548 struct ofproto_dpif **ofproto, struct dpif_ipfix **ipfix,
549 struct dpif_sflow **sflow, struct netflow **netflow,
550 odp_port_t *odp_in_port)
552 const struct xport *xport;
555 ovs_rwlock_rdlock(&xlate_rwlock);
556 if (odp_flow_key_to_flow(key, key_len, flow) == ODP_FIT_ERROR) {
562 *odp_in_port = flow->in_port.odp_port;
565 xport = xport_lookup(tnl_port_should_receive(flow)
566 ? tnl_port_receive(flow)
567 : odp_port_to_ofport(backer, flow->in_port.odp_port));
569 flow->in_port.ofp_port = xport ? xport->ofp_port : OFPP_NONE;
574 if (vsp_adjust_flow(xport->xbridge->ofproto, flow)) {
576 /* Make the packet resemble the flow, so that it gets sent to
577 * an OpenFlow controller properly, so that it looks correct
578 * for sFlow, and so that flow_extract() will get the correct
579 * vlan_tci if it is called on 'packet'. */
580 eth_push_vlan(packet, htons(ETH_TYPE_VLAN), flow->vlan_tci);
586 *ofproto = xport->xbridge->ofproto;
590 *ipfix = dpif_ipfix_ref(xport->xbridge->ipfix);
594 *sflow = dpif_sflow_ref(xport->xbridge->sflow);
598 *netflow = netflow_ref(xport->xbridge->netflow);
602 ovs_rwlock_unlock(&xlate_rwlock);
606 static struct xbridge *
607 xbridge_lookup(const struct ofproto_dpif *ofproto)
609 struct xbridge *xbridge;
615 HMAP_FOR_EACH_IN_BUCKET (xbridge, hmap_node, hash_pointer(ofproto, 0),
617 if (xbridge->ofproto == ofproto) {
624 static struct xbundle *
625 xbundle_lookup(const struct ofbundle *ofbundle)
627 struct xbundle *xbundle;
633 HMAP_FOR_EACH_IN_BUCKET (xbundle, hmap_node, hash_pointer(ofbundle, 0),
635 if (xbundle->ofbundle == ofbundle) {
642 static struct xport *
643 xport_lookup(const struct ofport_dpif *ofport)
651 HMAP_FOR_EACH_IN_BUCKET (xport, hmap_node, hash_pointer(ofport, 0),
653 if (xport->ofport == ofport) {
660 static struct stp_port *
661 xport_get_stp_port(const struct xport *xport)
663 return xport->xbridge->stp && xport->stp_port_no != -1
664 ? stp_get_port(xport->xbridge->stp, xport->stp_port_no)
669 xport_stp_learn_state(const struct xport *xport)
671 struct stp_port *sp = xport_get_stp_port(xport);
672 return stp_learn_in_state(sp ? stp_port_get_state(sp) : STP_DISABLED);
676 xport_stp_forward_state(const struct xport *xport)
678 struct stp_port *sp = xport_get_stp_port(xport);
679 return stp_forward_in_state(sp ? stp_port_get_state(sp) : STP_DISABLED);
683 xport_stp_listen_state(const struct xport *xport)
685 struct stp_port *sp = xport_get_stp_port(xport);
686 return stp_listen_in_state(sp ? stp_port_get_state(sp) : STP_DISABLED);
689 /* Returns true if STP should process 'flow'. Sets fields in 'wc' that
690 * were used to make the determination.*/
692 stp_should_process_flow(const struct flow *flow, struct flow_wildcards *wc)
694 memset(&wc->masks.dl_dst, 0xff, sizeof wc->masks.dl_dst);
695 return eth_addr_equals(flow->dl_dst, eth_addr_stp);
699 stp_process_packet(const struct xport *xport, const struct ofpbuf *packet)
701 struct stp_port *sp = xport_get_stp_port(xport);
702 struct ofpbuf payload = *packet;
703 struct eth_header *eth = payload.data;
705 /* Sink packets on ports that have STP disabled when the bridge has
707 if (!sp || stp_port_get_state(sp) == STP_DISABLED) {
711 /* Trim off padding on payload. */
712 if (payload.size > ntohs(eth->eth_type) + ETH_HEADER_LEN) {
713 payload.size = ntohs(eth->eth_type) + ETH_HEADER_LEN;
716 if (ofpbuf_try_pull(&payload, ETH_HEADER_LEN + LLC_HEADER_LEN)) {
717 stp_received_bpdu(sp, payload.data, payload.size);
721 static struct xport *
722 get_ofp_port(const struct xbridge *xbridge, ofp_port_t ofp_port)
726 HMAP_FOR_EACH_IN_BUCKET (xport, ofp_node, hash_ofp_port(ofp_port),
728 if (xport->ofp_port == ofp_port) {
736 ofp_port_to_odp_port(const struct xbridge *xbridge, ofp_port_t ofp_port)
738 const struct xport *xport = get_ofp_port(xbridge, ofp_port);
739 return xport ? xport->odp_port : ODPP_NONE;
743 odp_port_is_alive(const struct xlate_ctx *ctx, ofp_port_t ofp_port)
747 xport = get_ofp_port(ctx->xbridge, ofp_port);
748 if (!xport || xport->config & OFPUTIL_PC_PORT_DOWN ||
749 xport->state & OFPUTIL_PS_LINK_DOWN) {
756 static const struct ofputil_bucket *
757 group_first_live_bucket(const struct xlate_ctx *, const struct group_dpif *,
761 group_is_alive(const struct xlate_ctx *ctx, uint32_t group_id, int depth)
763 struct group_dpif *group;
766 hit = group_dpif_lookup(ctx->xbridge->ofproto, group_id, &group);
771 hit = group_first_live_bucket(ctx, group, depth) != NULL;
773 group_dpif_release(group);
777 #define MAX_LIVENESS_RECURSION 128 /* Arbitrary limit */
780 bucket_is_alive(const struct xlate_ctx *ctx,
781 const struct ofputil_bucket *bucket, int depth)
783 if (depth >= MAX_LIVENESS_RECURSION) {
784 static struct vlog_rate_limit rl = VLOG_RATE_LIMIT_INIT(1, 1);
786 VLOG_WARN_RL(&rl, "bucket chaining exceeded %d links",
787 MAX_LIVENESS_RECURSION);
791 return !ofputil_bucket_has_liveness(bucket) ||
792 (bucket->watch_port != OFPP_ANY &&
793 odp_port_is_alive(ctx, bucket->watch_port)) ||
794 (bucket->watch_group != OFPG_ANY &&
795 group_is_alive(ctx, bucket->watch_group, depth + 1));
798 static const struct ofputil_bucket *
799 group_first_live_bucket(const struct xlate_ctx *ctx,
800 const struct group_dpif *group, int depth)
802 struct ofputil_bucket *bucket;
803 const struct list *buckets;
805 group_dpif_get_buckets(group, &buckets);
806 LIST_FOR_EACH (bucket, list_node, buckets) {
807 if (bucket_is_alive(ctx, bucket, depth)) {
815 static const struct ofputil_bucket *
816 group_best_live_bucket(const struct xlate_ctx *ctx,
817 const struct group_dpif *group,
820 const struct ofputil_bucket *best_bucket = NULL;
821 uint32_t best_score = 0;
824 const struct ofputil_bucket *bucket;
825 const struct list *buckets;
827 group_dpif_get_buckets(group, &buckets);
828 LIST_FOR_EACH (bucket, list_node, buckets) {
829 if (bucket_is_alive(ctx, bucket, 0)) {
830 uint32_t score = (hash_int(i, basis) & 0xffff) * bucket->weight;
831 if (score >= best_score) {
832 best_bucket = bucket;
843 xbundle_trunks_vlan(const struct xbundle *bundle, uint16_t vlan)
845 return (bundle->vlan_mode != PORT_VLAN_ACCESS
846 && (!bundle->trunks || bitmap_is_set(bundle->trunks, vlan)));
850 xbundle_includes_vlan(const struct xbundle *xbundle, uint16_t vlan)
852 return vlan == xbundle->vlan || xbundle_trunks_vlan(xbundle, vlan);
856 xbundle_mirror_out(const struct xbridge *xbridge, struct xbundle *xbundle)
858 return xbundle != &ofpp_none_bundle
859 ? mirror_bundle_out(xbridge->mbridge, xbundle->ofbundle)
864 xbundle_mirror_src(const struct xbridge *xbridge, struct xbundle *xbundle)
866 return xbundle != &ofpp_none_bundle
867 ? mirror_bundle_src(xbridge->mbridge, xbundle->ofbundle)
872 xbundle_mirror_dst(const struct xbridge *xbridge, struct xbundle *xbundle)
874 return xbundle != &ofpp_none_bundle
875 ? mirror_bundle_dst(xbridge->mbridge, xbundle->ofbundle)
879 static struct xbundle *
880 lookup_input_bundle(const struct xbridge *xbridge, ofp_port_t in_port,
881 bool warn, struct xport **in_xportp)
885 /* Find the port and bundle for the received packet. */
886 xport = get_ofp_port(xbridge, in_port);
890 if (xport && xport->xbundle) {
891 return xport->xbundle;
894 /* Special-case OFPP_NONE, which a controller may use as the ingress
895 * port for traffic that it is sourcing. */
896 if (in_port == OFPP_NONE) {
897 ofpp_none_bundle.name = "OFPP_NONE";
898 ofpp_none_bundle.vlan_mode = PORT_VLAN_TRUNK;
899 return &ofpp_none_bundle;
902 /* Odd. A few possible reasons here:
904 * - We deleted a port but there are still a few packets queued up
907 * - Someone externally added a port (e.g. "ovs-dpctl add-if") that
908 * we don't know about.
910 * - The ofproto client didn't configure the port as part of a bundle.
911 * This is particularly likely to happen if a packet was received on the
912 * port after it was created, but before the client had a chance to
913 * configure its bundle.
916 static struct vlog_rate_limit rl = VLOG_RATE_LIMIT_INIT(1, 5);
918 VLOG_WARN_RL(&rl, "bridge %s: received packet on unknown "
919 "port %"PRIu16, xbridge->name, in_port);
925 add_mirror_actions(struct xlate_ctx *ctx, const struct flow *orig_flow)
927 const struct xbridge *xbridge = ctx->xbridge;
928 mirror_mask_t mirrors;
929 struct xbundle *in_xbundle;
933 mirrors = ctx->xout->mirrors;
934 ctx->xout->mirrors = 0;
936 in_xbundle = lookup_input_bundle(xbridge, orig_flow->in_port.ofp_port,
937 ctx->xin->packet != NULL, NULL);
941 mirrors |= xbundle_mirror_src(xbridge, in_xbundle);
943 /* Drop frames on bundles reserved for mirroring. */
944 if (xbundle_mirror_out(xbridge, in_xbundle)) {
945 if (ctx->xin->packet != NULL) {
946 static struct vlog_rate_limit rl = VLOG_RATE_LIMIT_INIT(1, 5);
947 VLOG_WARN_RL(&rl, "bridge %s: dropping packet received on port "
948 "%s, which is reserved exclusively for mirroring",
949 ctx->xbridge->name, in_xbundle->name);
951 ofpbuf_clear(&ctx->xout->odp_actions);
956 vid = vlan_tci_to_vid(orig_flow->vlan_tci);
957 if (!input_vid_is_valid(vid, in_xbundle, ctx->xin->packet != NULL)) {
960 vlan = input_vid_to_vlan(in_xbundle, vid);
966 /* Restore the original packet before adding the mirror actions. */
967 ctx->xin->flow = *orig_flow;
970 mirror_mask_t dup_mirrors;
971 struct ofbundle *out;
972 unsigned long *vlans;
977 has_mirror = mirror_get(xbridge->mbridge, raw_ctz(mirrors),
978 &vlans, &dup_mirrors, &out, &out_vlan);
979 ovs_assert(has_mirror);
982 ctx->xout->wc.masks.vlan_tci |= htons(VLAN_CFI | VLAN_VID_MASK);
984 vlan_mirrored = !vlans || bitmap_is_set(vlans, vlan);
987 if (!vlan_mirrored) {
988 mirrors = zero_rightmost_1bit(mirrors);
992 mirrors &= ~dup_mirrors;
993 ctx->xout->mirrors |= dup_mirrors;
995 struct xbundle *out_xbundle = xbundle_lookup(out);
997 output_normal(ctx, out_xbundle, vlan);
999 } else if (vlan != out_vlan
1000 && !eth_addr_is_reserved(orig_flow->dl_dst)) {
1001 struct xbundle *xbundle;
1003 LIST_FOR_EACH (xbundle, list_node, &xbridge->xbundles) {
1004 if (xbundle_includes_vlan(xbundle, out_vlan)
1005 && !xbundle_mirror_out(xbridge, xbundle)) {
1006 output_normal(ctx, xbundle, out_vlan);
1013 /* Given 'vid', the VID obtained from the 802.1Q header that was received as
1014 * part of a packet (specify 0 if there was no 802.1Q header), and 'in_xbundle',
1015 * the bundle on which the packet was received, returns the VLAN to which the
1018 * Both 'vid' and the return value are in the range 0...4095. */
1020 input_vid_to_vlan(const struct xbundle *in_xbundle, uint16_t vid)
1022 switch (in_xbundle->vlan_mode) {
1023 case PORT_VLAN_ACCESS:
1024 return in_xbundle->vlan;
1027 case PORT_VLAN_TRUNK:
1030 case PORT_VLAN_NATIVE_UNTAGGED:
1031 case PORT_VLAN_NATIVE_TAGGED:
1032 return vid ? vid : in_xbundle->vlan;
1039 /* Checks whether a packet with the given 'vid' may ingress on 'in_xbundle'.
1040 * If so, returns true. Otherwise, returns false and, if 'warn' is true, logs
1043 * 'vid' should be the VID obtained from the 802.1Q header that was received as
1044 * part of a packet (specify 0 if there was no 802.1Q header), in the range
1047 input_vid_is_valid(uint16_t vid, struct xbundle *in_xbundle, bool warn)
1049 /* Allow any VID on the OFPP_NONE port. */
1050 if (in_xbundle == &ofpp_none_bundle) {
1054 switch (in_xbundle->vlan_mode) {
1055 case PORT_VLAN_ACCESS:
1058 static struct vlog_rate_limit rl = VLOG_RATE_LIMIT_INIT(1, 5);
1059 VLOG_WARN_RL(&rl, "dropping VLAN %"PRIu16" tagged "
1060 "packet received on port %s configured as VLAN "
1061 "%"PRIu16" access port", vid, in_xbundle->name,
1068 case PORT_VLAN_NATIVE_UNTAGGED:
1069 case PORT_VLAN_NATIVE_TAGGED:
1071 /* Port must always carry its native VLAN. */
1075 case PORT_VLAN_TRUNK:
1076 if (!xbundle_includes_vlan(in_xbundle, vid)) {
1078 static struct vlog_rate_limit rl = VLOG_RATE_LIMIT_INIT(1, 5);
1079 VLOG_WARN_RL(&rl, "dropping VLAN %"PRIu16" packet "
1080 "received on port %s not configured for trunking "
1081 "VLAN %"PRIu16, vid, in_xbundle->name, vid);
1093 /* Given 'vlan', the VLAN that a packet belongs to, and
1094 * 'out_xbundle', a bundle on which the packet is to be output, returns the VID
1095 * that should be included in the 802.1Q header. (If the return value is 0,
1096 * then the 802.1Q header should only be included in the packet if there is a
1099 * Both 'vlan' and the return value are in the range 0...4095. */
1101 output_vlan_to_vid(const struct xbundle *out_xbundle, uint16_t vlan)
1103 switch (out_xbundle->vlan_mode) {
1104 case PORT_VLAN_ACCESS:
1107 case PORT_VLAN_TRUNK:
1108 case PORT_VLAN_NATIVE_TAGGED:
1111 case PORT_VLAN_NATIVE_UNTAGGED:
1112 return vlan == out_xbundle->vlan ? 0 : vlan;
1120 output_normal(struct xlate_ctx *ctx, const struct xbundle *out_xbundle,
1123 ovs_be16 *flow_tci = &ctx->xin->flow.vlan_tci;
1125 ovs_be16 tci, old_tci;
1126 struct xport *xport;
1128 vid = output_vlan_to_vid(out_xbundle, vlan);
1129 if (list_is_empty(&out_xbundle->xports)) {
1130 /* Partially configured bundle with no slaves. Drop the packet. */
1132 } else if (!out_xbundle->bond) {
1133 xport = CONTAINER_OF(list_front(&out_xbundle->xports), struct xport,
1136 struct ofport_dpif *ofport;
1138 ofport = bond_choose_output_slave(out_xbundle->bond, &ctx->xin->flow,
1139 &ctx->xout->wc, vid);
1140 xport = xport_lookup(ofport);
1143 /* No slaves enabled, so drop packet. */
1147 if (ctx->xin->resubmit_stats) {
1148 bond_account(out_xbundle->bond, &ctx->xin->flow, vid,
1149 ctx->xin->resubmit_stats->n_bytes);
1153 old_tci = *flow_tci;
1155 if (tci || out_xbundle->use_priority_tags) {
1156 tci |= *flow_tci & htons(VLAN_PCP_MASK);
1158 tci |= htons(VLAN_CFI);
1163 compose_output_action(ctx, xport->ofp_port);
1164 *flow_tci = old_tci;
1167 /* A VM broadcasts a gratuitous ARP to indicate that it has resumed after
1168 * migration. Older Citrix-patched Linux DomU used gratuitous ARP replies to
1169 * indicate this; newer upstream kernels use gratuitous ARP requests. */
1171 is_gratuitous_arp(const struct flow *flow, struct flow_wildcards *wc)
1173 if (flow->dl_type != htons(ETH_TYPE_ARP)) {
1177 memset(&wc->masks.dl_dst, 0xff, sizeof wc->masks.dl_dst);
1178 if (!eth_addr_is_broadcast(flow->dl_dst)) {
1182 memset(&wc->masks.nw_proto, 0xff, sizeof wc->masks.nw_proto);
1183 if (flow->nw_proto == ARP_OP_REPLY) {
1185 } else if (flow->nw_proto == ARP_OP_REQUEST) {
1186 memset(&wc->masks.nw_src, 0xff, sizeof wc->masks.nw_src);
1187 memset(&wc->masks.nw_dst, 0xff, sizeof wc->masks.nw_dst);
1189 return flow->nw_src == flow->nw_dst;
1195 /* Checks whether a MAC learning update is necessary for MAC learning table
1196 * 'ml' given that a packet matching 'flow' was received on 'in_xbundle' in
1199 * Most packets processed through the MAC learning table do not actually
1200 * change it in any way. This function requires only a read lock on the MAC
1201 * learning table, so it is much cheaper in this common case.
1203 * Keep the code here synchronized with that in update_learning_table__()
1206 is_mac_learning_update_needed(const struct mac_learning *ml,
1207 const struct flow *flow,
1208 struct flow_wildcards *wc,
1209 int vlan, struct xbundle *in_xbundle)
1210 OVS_REQ_RDLOCK(ml->rwlock)
1212 struct mac_entry *mac;
1214 if (!mac_learning_may_learn(ml, flow->dl_src, vlan)) {
1218 mac = mac_learning_lookup(ml, flow->dl_src, vlan);
1219 if (!mac || mac_entry_age(ml, mac)) {
1223 if (is_gratuitous_arp(flow, wc)) {
1224 /* We don't want to learn from gratuitous ARP packets that are
1225 * reflected back over bond slaves so we lock the learning table. */
1226 if (!in_xbundle->bond) {
1228 } else if (mac_entry_is_grat_arp_locked(mac)) {
1233 return mac->port.p != in_xbundle->ofbundle;
1237 /* Updates MAC learning table 'ml' given that a packet matching 'flow' was
1238 * received on 'in_xbundle' in 'vlan'.
1240 * This code repeats all the checks in is_mac_learning_update_needed() because
1241 * the lock was released between there and here and thus the MAC learning state
1242 * could have changed.
1244 * Keep the code here synchronized with that in is_mac_learning_update_needed()
1247 update_learning_table__(const struct xbridge *xbridge,
1248 const struct flow *flow, struct flow_wildcards *wc,
1249 int vlan, struct xbundle *in_xbundle)
1250 OVS_REQ_WRLOCK(xbridge->ml->rwlock)
1252 struct mac_entry *mac;
1254 if (!mac_learning_may_learn(xbridge->ml, flow->dl_src, vlan)) {
1258 mac = mac_learning_insert(xbridge->ml, flow->dl_src, vlan);
1259 if (is_gratuitous_arp(flow, wc)) {
1260 /* We don't want to learn from gratuitous ARP packets that are
1261 * reflected back over bond slaves so we lock the learning table. */
1262 if (!in_xbundle->bond) {
1263 mac_entry_set_grat_arp_lock(mac);
1264 } else if (mac_entry_is_grat_arp_locked(mac)) {
1269 if (mac->port.p != in_xbundle->ofbundle) {
1270 /* The log messages here could actually be useful in debugging,
1271 * so keep the rate limit relatively high. */
1272 static struct vlog_rate_limit rl = VLOG_RATE_LIMIT_INIT(30, 300);
1274 VLOG_DBG_RL(&rl, "bridge %s: learned that "ETH_ADDR_FMT" is "
1275 "on port %s in VLAN %d",
1276 xbridge->name, ETH_ADDR_ARGS(flow->dl_src),
1277 in_xbundle->name, vlan);
1279 mac->port.p = in_xbundle->ofbundle;
1280 mac_learning_changed(xbridge->ml);
1285 update_learning_table(const struct xbridge *xbridge,
1286 const struct flow *flow, struct flow_wildcards *wc,
1287 int vlan, struct xbundle *in_xbundle)
1291 /* Don't learn the OFPP_NONE port. */
1292 if (in_xbundle == &ofpp_none_bundle) {
1296 /* First try the common case: no change to MAC learning table. */
1297 ovs_rwlock_rdlock(&xbridge->ml->rwlock);
1298 need_update = is_mac_learning_update_needed(xbridge->ml, flow, wc, vlan,
1300 ovs_rwlock_unlock(&xbridge->ml->rwlock);
1303 /* Slow path: MAC learning table might need an update. */
1304 ovs_rwlock_wrlock(&xbridge->ml->rwlock);
1305 update_learning_table__(xbridge, flow, wc, vlan, in_xbundle);
1306 ovs_rwlock_unlock(&xbridge->ml->rwlock);
1310 /* Determines whether packets in 'flow' within 'xbridge' should be forwarded or
1311 * dropped. Returns true if they may be forwarded, false if they should be
1314 * 'in_port' must be the xport that corresponds to flow->in_port.
1315 * 'in_port' must be part of a bundle (e.g. in_port->bundle must be nonnull).
1317 * 'vlan' must be the VLAN that corresponds to flow->vlan_tci on 'in_port', as
1318 * returned by input_vid_to_vlan(). It must be a valid VLAN for 'in_port', as
1319 * checked by input_vid_is_valid().
1321 * May also add tags to '*tags', although the current implementation only does
1322 * so in one special case.
1325 is_admissible(struct xlate_ctx *ctx, struct xport *in_port,
1328 struct xbundle *in_xbundle = in_port->xbundle;
1329 const struct xbridge *xbridge = ctx->xbridge;
1330 struct flow *flow = &ctx->xin->flow;
1332 /* Drop frames for reserved multicast addresses
1333 * only if forward_bpdu option is absent. */
1334 if (!xbridge->forward_bpdu && eth_addr_is_reserved(flow->dl_dst)) {
1335 xlate_report(ctx, "packet has reserved destination MAC, dropping");
1339 if (in_xbundle->bond) {
1340 struct mac_entry *mac;
1342 switch (bond_check_admissibility(in_xbundle->bond, in_port->ofport,
1348 xlate_report(ctx, "bonding refused admissibility, dropping");
1351 case BV_DROP_IF_MOVED:
1352 ovs_rwlock_rdlock(&xbridge->ml->rwlock);
1353 mac = mac_learning_lookup(xbridge->ml, flow->dl_src, vlan);
1354 if (mac && mac->port.p != in_xbundle->ofbundle &&
1355 (!is_gratuitous_arp(flow, &ctx->xout->wc)
1356 || mac_entry_is_grat_arp_locked(mac))) {
1357 ovs_rwlock_unlock(&xbridge->ml->rwlock);
1358 xlate_report(ctx, "SLB bond thinks this packet looped back, "
1362 ovs_rwlock_unlock(&xbridge->ml->rwlock);
1371 xlate_normal(struct xlate_ctx *ctx)
1373 struct flow_wildcards *wc = &ctx->xout->wc;
1374 struct flow *flow = &ctx->xin->flow;
1375 struct xbundle *in_xbundle;
1376 struct xport *in_port;
1377 struct mac_entry *mac;
1382 ctx->xout->has_normal = true;
1384 memset(&wc->masks.dl_src, 0xff, sizeof wc->masks.dl_src);
1385 memset(&wc->masks.dl_dst, 0xff, sizeof wc->masks.dl_dst);
1386 wc->masks.vlan_tci |= htons(VLAN_VID_MASK | VLAN_CFI);
1388 in_xbundle = lookup_input_bundle(ctx->xbridge, flow->in_port.ofp_port,
1389 ctx->xin->packet != NULL, &in_port);
1391 xlate_report(ctx, "no input bundle, dropping");
1395 /* Drop malformed frames. */
1396 if (flow->dl_type == htons(ETH_TYPE_VLAN) &&
1397 !(flow->vlan_tci & htons(VLAN_CFI))) {
1398 if (ctx->xin->packet != NULL) {
1399 static struct vlog_rate_limit rl = VLOG_RATE_LIMIT_INIT(1, 5);
1400 VLOG_WARN_RL(&rl, "bridge %s: dropping packet with partial "
1401 "VLAN tag received on port %s",
1402 ctx->xbridge->name, in_xbundle->name);
1404 xlate_report(ctx, "partial VLAN tag, dropping");
1408 /* Drop frames on bundles reserved for mirroring. */
1409 if (xbundle_mirror_out(ctx->xbridge, in_xbundle)) {
1410 if (ctx->xin->packet != NULL) {
1411 static struct vlog_rate_limit rl = VLOG_RATE_LIMIT_INIT(1, 5);
1412 VLOG_WARN_RL(&rl, "bridge %s: dropping packet received on port "
1413 "%s, which is reserved exclusively for mirroring",
1414 ctx->xbridge->name, in_xbundle->name);
1416 xlate_report(ctx, "input port is mirror output port, dropping");
1421 vid = vlan_tci_to_vid(flow->vlan_tci);
1422 if (!input_vid_is_valid(vid, in_xbundle, ctx->xin->packet != NULL)) {
1423 xlate_report(ctx, "disallowed VLAN VID for this input port, dropping");
1426 vlan = input_vid_to_vlan(in_xbundle, vid);
1428 /* Check other admissibility requirements. */
1429 if (in_port && !is_admissible(ctx, in_port, vlan)) {
1433 /* Learn source MAC. */
1434 if (ctx->xin->may_learn) {
1435 update_learning_table(ctx->xbridge, flow, wc, vlan, in_xbundle);
1438 /* Determine output bundle. */
1439 ovs_rwlock_rdlock(&ctx->xbridge->ml->rwlock);
1440 mac = mac_learning_lookup(ctx->xbridge->ml, flow->dl_dst, vlan);
1441 mac_port = mac ? mac->port.p : NULL;
1442 ovs_rwlock_unlock(&ctx->xbridge->ml->rwlock);
1445 struct xbundle *mac_xbundle = xbundle_lookup(mac_port);
1446 if (mac_xbundle && mac_xbundle != in_xbundle) {
1447 xlate_report(ctx, "forwarding to learned port");
1448 output_normal(ctx, mac_xbundle, vlan);
1449 } else if (!mac_xbundle) {
1450 xlate_report(ctx, "learned port is unknown, dropping");
1452 xlate_report(ctx, "learned port is input port, dropping");
1455 struct xbundle *xbundle;
1457 xlate_report(ctx, "no learned MAC for destination, flooding");
1458 LIST_FOR_EACH (xbundle, list_node, &ctx->xbridge->xbundles) {
1459 if (xbundle != in_xbundle
1460 && xbundle_includes_vlan(xbundle, vlan)
1461 && xbundle->floodable
1462 && !xbundle_mirror_out(ctx->xbridge, xbundle)) {
1463 output_normal(ctx, xbundle, vlan);
1466 ctx->xout->nf_output_iface = NF_OUT_FLOOD;
1470 /* Compose SAMPLE action for sFlow or IPFIX. The given probability is
1471 * the number of packets out of UINT32_MAX to sample. The given
1472 * cookie is passed back in the callback for each sampled packet.
1475 compose_sample_action(const struct xbridge *xbridge,
1476 struct ofpbuf *odp_actions,
1477 const struct flow *flow,
1478 const uint32_t probability,
1479 const union user_action_cookie *cookie,
1480 const size_t cookie_size)
1482 size_t sample_offset, actions_offset;
1483 odp_port_t odp_port;
1487 sample_offset = nl_msg_start_nested(odp_actions, OVS_ACTION_ATTR_SAMPLE);
1489 nl_msg_put_u32(odp_actions, OVS_SAMPLE_ATTR_PROBABILITY, probability);
1491 actions_offset = nl_msg_start_nested(odp_actions, OVS_SAMPLE_ATTR_ACTIONS);
1493 odp_port = ofp_port_to_odp_port(xbridge, flow->in_port.ofp_port);
1494 pid = dpif_port_get_pid(xbridge->dpif, odp_port);
1495 cookie_offset = odp_put_userspace_action(pid, cookie, cookie_size, odp_actions);
1497 nl_msg_end_nested(odp_actions, actions_offset);
1498 nl_msg_end_nested(odp_actions, sample_offset);
1499 return cookie_offset;
1503 compose_sflow_cookie(const struct xbridge *xbridge, ovs_be16 vlan_tci,
1504 odp_port_t odp_port, unsigned int n_outputs,
1505 union user_action_cookie *cookie)
1509 cookie->type = USER_ACTION_COOKIE_SFLOW;
1510 cookie->sflow.vlan_tci = vlan_tci;
1512 /* See http://www.sflow.org/sflow_version_5.txt (search for "Input/output
1513 * port information") for the interpretation of cookie->output. */
1514 switch (n_outputs) {
1516 /* 0x40000000 | 256 means "packet dropped for unknown reason". */
1517 cookie->sflow.output = 0x40000000 | 256;
1521 ifindex = dpif_sflow_odp_port_to_ifindex(xbridge->sflow, odp_port);
1523 cookie->sflow.output = ifindex;
1528 /* 0x80000000 means "multiple output ports. */
1529 cookie->sflow.output = 0x80000000 | n_outputs;
1534 /* Compose SAMPLE action for sFlow bridge sampling. */
1536 compose_sflow_action(const struct xbridge *xbridge,
1537 struct ofpbuf *odp_actions,
1538 const struct flow *flow,
1539 odp_port_t odp_port)
1541 uint32_t probability;
1542 union user_action_cookie cookie;
1544 if (!xbridge->sflow || flow->in_port.ofp_port == OFPP_NONE) {
1548 probability = dpif_sflow_get_probability(xbridge->sflow);
1549 compose_sflow_cookie(xbridge, htons(0), odp_port,
1550 odp_port == ODPP_NONE ? 0 : 1, &cookie);
1552 return compose_sample_action(xbridge, odp_actions, flow, probability,
1553 &cookie, sizeof cookie.sflow);
1557 compose_flow_sample_cookie(uint16_t probability, uint32_t collector_set_id,
1558 uint32_t obs_domain_id, uint32_t obs_point_id,
1559 union user_action_cookie *cookie)
1561 cookie->type = USER_ACTION_COOKIE_FLOW_SAMPLE;
1562 cookie->flow_sample.probability = probability;
1563 cookie->flow_sample.collector_set_id = collector_set_id;
1564 cookie->flow_sample.obs_domain_id = obs_domain_id;
1565 cookie->flow_sample.obs_point_id = obs_point_id;
1569 compose_ipfix_cookie(union user_action_cookie *cookie)
1571 cookie->type = USER_ACTION_COOKIE_IPFIX;
1574 /* Compose SAMPLE action for IPFIX bridge sampling. */
1576 compose_ipfix_action(const struct xbridge *xbridge,
1577 struct ofpbuf *odp_actions,
1578 const struct flow *flow)
1580 uint32_t probability;
1581 union user_action_cookie cookie;
1583 if (!xbridge->ipfix || flow->in_port.ofp_port == OFPP_NONE) {
1587 probability = dpif_ipfix_get_bridge_exporter_probability(xbridge->ipfix);
1588 compose_ipfix_cookie(&cookie);
1590 compose_sample_action(xbridge, odp_actions, flow, probability,
1591 &cookie, sizeof cookie.ipfix);
1594 /* SAMPLE action for sFlow must be first action in any given list of
1595 * actions. At this point we do not have all information required to
1596 * build it. So try to build sample action as complete as possible. */
1598 add_sflow_action(struct xlate_ctx *ctx)
1600 ctx->user_cookie_offset = compose_sflow_action(ctx->xbridge,
1601 &ctx->xout->odp_actions,
1602 &ctx->xin->flow, ODPP_NONE);
1603 ctx->sflow_odp_port = 0;
1604 ctx->sflow_n_outputs = 0;
1607 /* SAMPLE action for IPFIX must be 1st or 2nd action in any given list
1608 * of actions, eventually after the SAMPLE action for sFlow. */
1610 add_ipfix_action(struct xlate_ctx *ctx)
1612 compose_ipfix_action(ctx->xbridge, &ctx->xout->odp_actions,
1616 /* Fix SAMPLE action according to data collected while composing ODP actions.
1617 * We need to fix SAMPLE actions OVS_SAMPLE_ATTR_ACTIONS attribute, i.e. nested
1618 * USERSPACE action's user-cookie which is required for sflow. */
1620 fix_sflow_action(struct xlate_ctx *ctx)
1622 const struct flow *base = &ctx->base_flow;
1623 union user_action_cookie *cookie;
1625 if (!ctx->user_cookie_offset) {
1629 cookie = ofpbuf_at(&ctx->xout->odp_actions, ctx->user_cookie_offset,
1630 sizeof cookie->sflow);
1631 ovs_assert(cookie->type == USER_ACTION_COOKIE_SFLOW);
1633 compose_sflow_cookie(ctx->xbridge, base->vlan_tci,
1634 ctx->sflow_odp_port, ctx->sflow_n_outputs, cookie);
1637 static enum slow_path_reason
1638 process_special(struct xlate_ctx *ctx, const struct flow *flow,
1639 const struct xport *xport, const struct ofpbuf *packet)
1641 struct flow_wildcards *wc = &ctx->xout->wc;
1642 const struct xbridge *xbridge = ctx->xbridge;
1646 } else if (xport->cfm && cfm_should_process_flow(xport->cfm, flow, wc)) {
1648 cfm_process_heartbeat(xport->cfm, packet);
1651 } else if (xport->bfd && bfd_should_process_flow(xport->bfd, flow, wc)) {
1653 bfd_process_packet(xport->bfd, flow, packet);
1654 /* If POLL received, immediately sends FINAL back. */
1655 if (bfd_should_send_packet(xport->bfd)) {
1657 ofproto_dpif_monitor_port_send_soon(xport->ofport);
1659 ofproto_dpif_monitor_port_send_soon_safe(xport->ofport);
1664 } else if (xport->xbundle && xport->xbundle->lacp
1665 && flow->dl_type == htons(ETH_TYPE_LACP)) {
1667 lacp_process_packet(xport->xbundle->lacp, xport->ofport, packet);
1670 } else if (xbridge->stp && stp_should_process_flow(flow, wc)) {
1672 stp_process_packet(xport, packet);
1681 compose_output_action__(struct xlate_ctx *ctx, ofp_port_t ofp_port,
1684 const struct xport *xport = get_ofp_port(ctx->xbridge, ofp_port);
1685 struct flow_wildcards *wc = &ctx->xout->wc;
1686 struct flow *flow = &ctx->xin->flow;
1687 ovs_be16 flow_vlan_tci;
1688 uint32_t flow_pkt_mark;
1689 uint8_t flow_nw_tos;
1690 odp_port_t out_port, odp_port;
1693 /* If 'struct flow' gets additional metadata, we'll need to zero it out
1694 * before traversing a patch port. */
1695 BUILD_ASSERT_DECL(FLOW_WC_SEQ == 24);
1698 xlate_report(ctx, "Nonexistent output port");
1700 } else if (xport->config & OFPUTIL_PC_NO_FWD) {
1701 xlate_report(ctx, "OFPPC_NO_FWD set, skipping output");
1703 } else if (check_stp) {
1704 if (eth_addr_equals(ctx->base_flow.dl_dst, eth_addr_stp)) {
1705 if (!xport_stp_listen_state(xport)) {
1706 xlate_report(ctx, "STP not in listening state, "
1707 "skipping bpdu output");
1710 } else if (!xport_stp_forward_state(xport)) {
1711 xlate_report(ctx, "STP not in forwarding state, "
1717 if (mbridge_has_mirrors(ctx->xbridge->mbridge) && xport->xbundle) {
1718 ctx->xout->mirrors |= xbundle_mirror_dst(xport->xbundle->xbridge,
1723 const struct xport *peer = xport->peer;
1724 struct flow old_flow = ctx->xin->flow;
1725 enum slow_path_reason special;
1727 ctx->xbridge = peer->xbridge;
1728 flow->in_port.ofp_port = peer->ofp_port;
1729 flow->metadata = htonll(0);
1730 memset(&flow->tunnel, 0, sizeof flow->tunnel);
1731 memset(flow->regs, 0, sizeof flow->regs);
1733 special = process_special(ctx, &ctx->xin->flow, peer,
1736 ctx->xout->slow |= special;
1737 } else if (may_receive(peer, ctx)) {
1738 if (xport_stp_forward_state(peer)) {
1739 xlate_table_action(ctx, flow->in_port.ofp_port, 0, true);
1741 /* Forwarding is disabled by STP. Let OFPP_NORMAL and the
1742 * learning action look at the packet, then drop it. */
1743 struct flow old_base_flow = ctx->base_flow;
1744 size_t old_size = ctx->xout->odp_actions.size;
1745 mirror_mask_t old_mirrors = ctx->xout->mirrors;
1746 xlate_table_action(ctx, flow->in_port.ofp_port, 0, true);
1747 ctx->xout->mirrors = old_mirrors;
1748 ctx->base_flow = old_base_flow;
1749 ctx->xout->odp_actions.size = old_size;
1753 ctx->xin->flow = old_flow;
1754 ctx->xbridge = xport->xbridge;
1756 if (ctx->xin->resubmit_stats) {
1757 netdev_vport_inc_tx(xport->netdev, ctx->xin->resubmit_stats);
1758 netdev_vport_inc_rx(peer->netdev, ctx->xin->resubmit_stats);
1760 bfd_account_rx(peer->bfd, ctx->xin->resubmit_stats);
1767 flow_vlan_tci = flow->vlan_tci;
1768 flow_pkt_mark = flow->pkt_mark;
1769 flow_nw_tos = flow->nw_tos;
1771 if (dscp_from_skb_priority(xport, flow->skb_priority, &dscp)) {
1772 wc->masks.nw_tos |= IP_ECN_MASK;
1773 flow->nw_tos &= ~IP_DSCP_MASK;
1774 flow->nw_tos |= dscp;
1777 if (xport->is_tunnel) {
1778 /* Save tunnel metadata so that changes made due to
1779 * the Logical (tunnel) Port are not visible for any further
1780 * matches, while explicit set actions on tunnel metadata are.
1782 struct flow_tnl flow_tnl = flow->tunnel;
1783 odp_port = tnl_port_send(xport->ofport, flow, &ctx->xout->wc);
1784 if (odp_port == ODPP_NONE) {
1785 xlate_report(ctx, "Tunneling decided against output");
1786 goto out; /* restore flow_nw_tos */
1788 if (flow->tunnel.ip_dst == ctx->orig_tunnel_ip_dst) {
1789 xlate_report(ctx, "Not tunneling to our own address");
1790 goto out; /* restore flow_nw_tos */
1792 if (ctx->xin->resubmit_stats) {
1793 netdev_vport_inc_tx(xport->netdev, ctx->xin->resubmit_stats);
1795 out_port = odp_port;
1796 commit_odp_tunnel_action(flow, &ctx->base_flow,
1797 &ctx->xout->odp_actions);
1798 flow->tunnel = flow_tnl; /* Restore tunnel metadata */
1800 odp_port = xport->odp_port;
1801 out_port = odp_port;
1802 if (ofproto_has_vlan_splinters(ctx->xbridge->ofproto)) {
1803 ofp_port_t vlandev_port;
1805 wc->masks.vlan_tci |= htons(VLAN_VID_MASK | VLAN_CFI);
1806 vlandev_port = vsp_realdev_to_vlandev(ctx->xbridge->ofproto,
1807 ofp_port, flow->vlan_tci);
1808 if (vlandev_port != ofp_port) {
1809 out_port = ofp_port_to_odp_port(ctx->xbridge, vlandev_port);
1810 flow->vlan_tci = htons(0);
1815 if (out_port != ODPP_NONE) {
1816 ctx->xout->slow |= commit_odp_actions(flow, &ctx->base_flow,
1817 &ctx->xout->odp_actions,
1819 nl_msg_put_odp_port(&ctx->xout->odp_actions, OVS_ACTION_ATTR_OUTPUT,
1822 ctx->sflow_odp_port = odp_port;
1823 ctx->sflow_n_outputs++;
1824 ctx->xout->nf_output_iface = ofp_port;
1829 flow->vlan_tci = flow_vlan_tci;
1830 flow->pkt_mark = flow_pkt_mark;
1831 flow->nw_tos = flow_nw_tos;
1835 compose_output_action(struct xlate_ctx *ctx, ofp_port_t ofp_port)
1837 compose_output_action__(ctx, ofp_port, true);
1841 xlate_recursively(struct xlate_ctx *ctx, struct rule_dpif *rule)
1843 struct rule_dpif *old_rule = ctx->rule;
1844 struct rule_actions *actions;
1846 if (ctx->xin->resubmit_stats) {
1847 rule_dpif_credit_stats(rule, ctx->xin->resubmit_stats);
1853 actions = rule_dpif_get_actions(rule);
1854 do_xlate_actions(actions->ofpacts, actions->ofpacts_len, ctx);
1855 rule_actions_unref(actions);
1856 ctx->rule = old_rule;
1861 xlate_resubmit_resource_check(struct xlate_ctx *ctx)
1863 static struct vlog_rate_limit rl = VLOG_RATE_LIMIT_INIT(1, 1);
1865 if (ctx->recurse >= MAX_RESUBMIT_RECURSION) {
1866 VLOG_ERR_RL(&rl, "resubmit actions recursed over %d times",
1867 MAX_RESUBMIT_RECURSION);
1868 } else if (ctx->resubmits >= MAX_RESUBMITS) {
1869 VLOG_ERR_RL(&rl, "over %d resubmit actions", MAX_RESUBMITS);
1870 } else if (ctx->xout->odp_actions.size > UINT16_MAX) {
1871 VLOG_ERR_RL(&rl, "resubmits yielded over 64 kB of actions");
1872 } else if (ctx->stack.size >= 65536) {
1873 VLOG_ERR_RL(&rl, "resubmits yielded over 64 kB of stack");
1882 xlate_table_action(struct xlate_ctx *ctx,
1883 ofp_port_t in_port, uint8_t table_id, bool may_packet_in)
1885 if (xlate_resubmit_resource_check(ctx)) {
1886 ofp_port_t old_in_port = ctx->xin->flow.in_port.ofp_port;
1887 bool skip_wildcards = ctx->xin->skip_wildcards;
1888 uint8_t old_table_id = ctx->table_id;
1889 struct rule_dpif *rule;
1891 ctx->table_id = table_id;
1893 /* Look up a flow with 'in_port' as the input port. Then restore the
1894 * original input port (otherwise OFPP_NORMAL and OFPP_IN_PORT will
1895 * have surprising behavior). */
1896 ctx->xin->flow.in_port.ofp_port = in_port;
1897 rule_dpif_lookup_in_table(ctx->xbridge->ofproto, &ctx->xin->flow,
1898 !skip_wildcards ? &ctx->xout->wc : NULL,
1900 ctx->xin->flow.in_port.ofp_port = old_in_port;
1902 if (ctx->xin->resubmit_hook) {
1903 ctx->xin->resubmit_hook(ctx->xin, rule, ctx->recurse);
1906 if (!rule && may_packet_in) {
1907 struct xport *xport;
1910 * check if table configuration flags
1911 * OFPTC11_TABLE_MISS_CONTROLLER, default.
1912 * OFPTC11_TABLE_MISS_CONTINUE,
1913 * OFPTC11_TABLE_MISS_DROP
1914 * When OF1.0, OFPTC11_TABLE_MISS_CONTINUE is used. What to do? */
1915 xport = get_ofp_port(ctx->xbridge, ctx->xin->flow.in_port.ofp_port);
1916 choose_miss_rule(xport ? xport->config : 0,
1917 ctx->xbridge->miss_rule,
1918 ctx->xbridge->no_packet_in_rule, &rule);
1921 xlate_recursively(ctx, rule);
1922 rule_dpif_unref(rule);
1925 ctx->table_id = old_table_id;
1933 xlate_group_bucket(struct xlate_ctx *ctx, const struct ofputil_bucket *bucket)
1935 uint64_t action_list_stub[1024 / 8];
1936 struct ofpbuf action_list, action_set;
1938 ofpbuf_use_const(&action_set, bucket->ofpacts, bucket->ofpacts_len);
1939 ofpbuf_use_stub(&action_list, action_list_stub, sizeof action_list_stub);
1941 ofpacts_execute_action_set(&action_list, &action_set);
1943 do_xlate_actions(action_list.data, action_list.size, ctx);
1946 ofpbuf_uninit(&action_set);
1947 ofpbuf_uninit(&action_list);
1951 xlate_all_group(struct xlate_ctx *ctx, struct group_dpif *group)
1953 const struct ofputil_bucket *bucket;
1954 const struct list *buckets;
1955 struct flow old_flow = ctx->xin->flow;
1957 group_dpif_get_buckets(group, &buckets);
1959 LIST_FOR_EACH (bucket, list_node, buckets) {
1960 xlate_group_bucket(ctx, bucket);
1961 /* Roll back flow to previous state.
1962 * This is equivalent to cloning the packet for each bucket.
1964 * As a side effect any subsequently applied actions will
1965 * also effectively be applied to a clone of the packet taken
1966 * just before applying the all or indirect group. */
1967 ctx->xin->flow = old_flow;
1972 xlate_ff_group(struct xlate_ctx *ctx, struct group_dpif *group)
1974 const struct ofputil_bucket *bucket;
1976 bucket = group_first_live_bucket(ctx, group, 0);
1978 xlate_group_bucket(ctx, bucket);
1983 xlate_select_group(struct xlate_ctx *ctx, struct group_dpif *group)
1985 struct flow_wildcards *wc = &ctx->xout->wc;
1986 const struct ofputil_bucket *bucket;
1989 basis = hash_bytes(ctx->xin->flow.dl_dst, sizeof ctx->xin->flow.dl_dst, 0);
1990 bucket = group_best_live_bucket(ctx, group, basis);
1992 memset(&wc->masks.dl_dst, 0xff, sizeof wc->masks.dl_dst);
1993 xlate_group_bucket(ctx, bucket);
1998 xlate_group_action__(struct xlate_ctx *ctx, struct group_dpif *group)
2000 ctx->in_group = true;
2002 switch (group_dpif_get_type(group)) {
2004 case OFPGT11_INDIRECT:
2005 xlate_all_group(ctx, group);
2007 case OFPGT11_SELECT:
2008 xlate_select_group(ctx, group);
2011 xlate_ff_group(ctx, group);
2016 group_dpif_release(group);
2018 ctx->in_group = false;
2022 xlate_group_resource_check(struct xlate_ctx *ctx)
2024 if (!xlate_resubmit_resource_check(ctx)) {
2026 } else if (ctx->in_group) {
2027 /* Prevent nested translation of OpenFlow groups.
2029 * OpenFlow allows this restriction. We enforce this restriction only
2030 * because, with the current architecture, we would otherwise have to
2031 * take a possibly recursive read lock on the ofgroup rwlock, which is
2032 * unsafe given that POSIX allows taking a read lock to block if there
2033 * is a thread blocked on taking the write lock. Other solutions
2034 * without this restriction are also possible, but seem unwarranted
2035 * given the current limited use of groups. */
2036 static struct vlog_rate_limit rl = VLOG_RATE_LIMIT_INIT(1, 1);
2038 VLOG_ERR_RL(&rl, "cannot recursively translate OpenFlow group");
2046 xlate_group_action(struct xlate_ctx *ctx, uint32_t group_id)
2048 if (xlate_group_resource_check(ctx)) {
2049 struct group_dpif *group;
2052 got_group = group_dpif_lookup(ctx->xbridge->ofproto, group_id, &group);
2054 xlate_group_action__(ctx, group);
2064 xlate_ofpact_resubmit(struct xlate_ctx *ctx,
2065 const struct ofpact_resubmit *resubmit)
2070 in_port = resubmit->in_port;
2071 if (in_port == OFPP_IN_PORT) {
2072 in_port = ctx->xin->flow.in_port.ofp_port;
2075 table_id = resubmit->table_id;
2076 if (table_id == 255) {
2077 table_id = ctx->table_id;
2080 xlate_table_action(ctx, in_port, table_id, false);
2084 flood_packets(struct xlate_ctx *ctx, bool all)
2086 const struct xport *xport;
2088 HMAP_FOR_EACH (xport, ofp_node, &ctx->xbridge->xports) {
2089 if (xport->ofp_port == ctx->xin->flow.in_port.ofp_port) {
2094 compose_output_action__(ctx, xport->ofp_port, false);
2095 } else if (!(xport->config & OFPUTIL_PC_NO_FLOOD)) {
2096 compose_output_action(ctx, xport->ofp_port);
2100 ctx->xout->nf_output_iface = NF_OUT_FLOOD;
2104 execute_controller_action(struct xlate_ctx *ctx, int len,
2105 enum ofp_packet_in_reason reason,
2106 uint16_t controller_id)
2108 struct ofproto_packet_in *pin;
2109 struct ofpbuf *packet;
2110 struct pkt_metadata md = PKT_METADATA_INITIALIZER(0);
2112 ctx->xout->slow |= SLOW_CONTROLLER;
2113 if (!ctx->xin->packet) {
2117 packet = ofpbuf_clone(ctx->xin->packet);
2119 ctx->xout->slow |= commit_odp_actions(&ctx->xin->flow, &ctx->base_flow,
2120 &ctx->xout->odp_actions,
2123 odp_execute_actions(NULL, packet, &md, ctx->xout->odp_actions.data,
2124 ctx->xout->odp_actions.size, NULL);
2126 pin = xmalloc(sizeof *pin);
2127 pin->up.packet_len = packet->size;
2128 pin->up.packet = ofpbuf_steal_data(packet);
2129 pin->up.reason = reason;
2130 pin->up.table_id = ctx->table_id;
2131 pin->up.cookie = (ctx->rule
2132 ? rule_dpif_get_flow_cookie(ctx->rule)
2135 flow_get_metadata(&ctx->xin->flow, &pin->up.fmd);
2137 pin->controller_id = controller_id;
2138 pin->send_len = len;
2139 pin->generated_by_table_miss = (ctx->rule
2140 && rule_dpif_is_table_miss(ctx->rule));
2141 ofproto_dpif_send_packet_in(ctx->xbridge->ofproto, pin);
2142 ofpbuf_delete(packet);
2146 compose_mpls_push_action(struct xlate_ctx *ctx, struct ofpact_push_mpls *mpls)
2148 struct flow_wildcards *wc = &ctx->xout->wc;
2149 struct flow *flow = &ctx->xin->flow;
2152 ovs_assert(eth_type_mpls(mpls->ethertype));
2154 n = flow_count_mpls_labels(flow, wc);
2156 ctx->xout->slow |= commit_odp_actions(flow, &ctx->base_flow,
2157 &ctx->xout->odp_actions,
2159 } else if (n >= FLOW_MAX_MPLS_LABELS) {
2160 if (ctx->xin->packet != NULL) {
2161 static struct vlog_rate_limit rl = VLOG_RATE_LIMIT_INIT(1, 5);
2162 VLOG_WARN_RL(&rl, "bridge %s: dropping packet on which an "
2163 "MPLS push action can't be performed as it would "
2164 "have more MPLS LSEs than the %d supported.",
2165 ctx->xbridge->name, FLOW_MAX_MPLS_LABELS);
2169 } else if (n >= ctx->xbridge->max_mpls_depth) {
2170 COVERAGE_INC(xlate_actions_mpls_overflow);
2171 ctx->xout->slow |= SLOW_ACTION;
2174 flow_push_mpls(flow, n, mpls->ethertype, wc);
2178 compose_mpls_pop_action(struct xlate_ctx *ctx, ovs_be16 eth_type)
2180 struct flow_wildcards *wc = &ctx->xout->wc;
2181 struct flow *flow = &ctx->xin->flow;
2182 int n = flow_count_mpls_labels(flow, wc);
2184 if (!flow_pop_mpls(flow, n, eth_type, wc) && n >= FLOW_MAX_MPLS_LABELS) {
2185 if (ctx->xin->packet != NULL) {
2186 static struct vlog_rate_limit rl = VLOG_RATE_LIMIT_INIT(1, 5);
2187 VLOG_WARN_RL(&rl, "bridge %s: dropping packet on which an "
2188 "MPLS pop action can't be performed as it has "
2189 "more MPLS LSEs than the %d supported.",
2190 ctx->xbridge->name, FLOW_MAX_MPLS_LABELS);
2193 ofpbuf_clear(&ctx->xout->odp_actions);
2198 compose_dec_ttl(struct xlate_ctx *ctx, struct ofpact_cnt_ids *ids)
2200 struct flow *flow = &ctx->xin->flow;
2202 if (!is_ip_any(flow)) {
2206 ctx->xout->wc.masks.nw_ttl = 0xff;
2207 if (flow->nw_ttl > 1) {
2213 for (i = 0; i < ids->n_controllers; i++) {
2214 execute_controller_action(ctx, UINT16_MAX, OFPR_INVALID_TTL,
2218 /* Stop processing for current table. */
2224 compose_set_mpls_label_action(struct xlate_ctx *ctx, ovs_be32 label)
2226 if (eth_type_mpls(ctx->xin->flow.dl_type)) {
2227 ctx->xout->wc.masks.mpls_lse[0] |= htonl(MPLS_LABEL_MASK);
2228 set_mpls_lse_label(&ctx->xin->flow.mpls_lse[0], label);
2233 compose_set_mpls_tc_action(struct xlate_ctx *ctx, uint8_t tc)
2235 if (eth_type_mpls(ctx->xin->flow.dl_type)) {
2236 ctx->xout->wc.masks.mpls_lse[0] |= htonl(MPLS_TC_MASK);
2237 set_mpls_lse_tc(&ctx->xin->flow.mpls_lse[0], tc);
2242 compose_set_mpls_ttl_action(struct xlate_ctx *ctx, uint8_t ttl)
2244 if (eth_type_mpls(ctx->xin->flow.dl_type)) {
2245 ctx->xout->wc.masks.mpls_lse[0] |= htonl(MPLS_TTL_MASK);
2246 set_mpls_lse_ttl(&ctx->xin->flow.mpls_lse[0], ttl);
2251 compose_dec_mpls_ttl_action(struct xlate_ctx *ctx)
2253 struct flow *flow = &ctx->xin->flow;
2254 uint8_t ttl = mpls_lse_to_ttl(flow->mpls_lse[0]);
2255 struct flow_wildcards *wc = &ctx->xout->wc;
2257 memset(&wc->masks.mpls_lse, 0xff, sizeof wc->masks.mpls_lse);
2258 if (eth_type_mpls(flow->dl_type)) {
2261 set_mpls_lse_ttl(&flow->mpls_lse[0], ttl);
2264 execute_controller_action(ctx, UINT16_MAX, OFPR_INVALID_TTL, 0);
2266 /* Stop processing for current table. */
2275 xlate_output_action(struct xlate_ctx *ctx,
2276 ofp_port_t port, uint16_t max_len, bool may_packet_in)
2278 ofp_port_t prev_nf_output_iface = ctx->xout->nf_output_iface;
2280 ctx->xout->nf_output_iface = NF_OUT_DROP;
2284 compose_output_action(ctx, ctx->xin->flow.in_port.ofp_port);
2287 xlate_table_action(ctx, ctx->xin->flow.in_port.ofp_port,
2294 flood_packets(ctx, false);
2297 flood_packets(ctx, true);
2299 case OFPP_CONTROLLER:
2300 execute_controller_action(ctx, max_len, OFPR_ACTION, 0);
2306 if (port != ctx->xin->flow.in_port.ofp_port) {
2307 compose_output_action(ctx, port);
2309 xlate_report(ctx, "skipping output to input port");
2314 if (prev_nf_output_iface == NF_OUT_FLOOD) {
2315 ctx->xout->nf_output_iface = NF_OUT_FLOOD;
2316 } else if (ctx->xout->nf_output_iface == NF_OUT_DROP) {
2317 ctx->xout->nf_output_iface = prev_nf_output_iface;
2318 } else if (prev_nf_output_iface != NF_OUT_DROP &&
2319 ctx->xout->nf_output_iface != NF_OUT_FLOOD) {
2320 ctx->xout->nf_output_iface = NF_OUT_MULTI;
2325 xlate_output_reg_action(struct xlate_ctx *ctx,
2326 const struct ofpact_output_reg *or)
2328 uint64_t port = mf_get_subfield(&or->src, &ctx->xin->flow);
2329 if (port <= UINT16_MAX) {
2330 union mf_subvalue value;
2332 memset(&value, 0xff, sizeof value);
2333 mf_write_subfield_flow(&or->src, &value, &ctx->xout->wc.masks);
2334 xlate_output_action(ctx, u16_to_ofp(port),
2335 or->max_len, false);
2340 xlate_enqueue_action(struct xlate_ctx *ctx,
2341 const struct ofpact_enqueue *enqueue)
2343 ofp_port_t ofp_port = enqueue->port;
2344 uint32_t queue_id = enqueue->queue;
2345 uint32_t flow_priority, priority;
2348 /* Translate queue to priority. */
2349 error = dpif_queue_to_priority(ctx->xbridge->dpif, queue_id, &priority);
2351 /* Fall back to ordinary output action. */
2352 xlate_output_action(ctx, enqueue->port, 0, false);
2356 /* Check output port. */
2357 if (ofp_port == OFPP_IN_PORT) {
2358 ofp_port = ctx->xin->flow.in_port.ofp_port;
2359 } else if (ofp_port == ctx->xin->flow.in_port.ofp_port) {
2363 /* Add datapath actions. */
2364 flow_priority = ctx->xin->flow.skb_priority;
2365 ctx->xin->flow.skb_priority = priority;
2366 compose_output_action(ctx, ofp_port);
2367 ctx->xin->flow.skb_priority = flow_priority;
2369 /* Update NetFlow output port. */
2370 if (ctx->xout->nf_output_iface == NF_OUT_DROP) {
2371 ctx->xout->nf_output_iface = ofp_port;
2372 } else if (ctx->xout->nf_output_iface != NF_OUT_FLOOD) {
2373 ctx->xout->nf_output_iface = NF_OUT_MULTI;
2378 xlate_set_queue_action(struct xlate_ctx *ctx, uint32_t queue_id)
2380 uint32_t skb_priority;
2382 if (!dpif_queue_to_priority(ctx->xbridge->dpif, queue_id, &skb_priority)) {
2383 ctx->xin->flow.skb_priority = skb_priority;
2385 /* Couldn't translate queue to a priority. Nothing to do. A warning
2386 * has already been logged. */
2391 slave_enabled_cb(ofp_port_t ofp_port, void *xbridge_)
2393 const struct xbridge *xbridge = xbridge_;
2404 case OFPP_CONTROLLER: /* Not supported by the bundle action. */
2407 port = get_ofp_port(xbridge, ofp_port);
2408 return port ? port->may_enable : false;
2413 xlate_bundle_action(struct xlate_ctx *ctx,
2414 const struct ofpact_bundle *bundle)
2418 port = bundle_execute(bundle, &ctx->xin->flow, &ctx->xout->wc,
2420 CONST_CAST(struct xbridge *, ctx->xbridge));
2421 if (bundle->dst.field) {
2422 nxm_reg_load(&bundle->dst, ofp_to_u16(port), &ctx->xin->flow,
2425 xlate_output_action(ctx, port, 0, false);
2430 xlate_learn_action(struct xlate_ctx *ctx,
2431 const struct ofpact_learn *learn)
2433 uint64_t ofpacts_stub[1024 / 8];
2434 struct ofputil_flow_mod fm;
2435 struct ofpbuf ofpacts;
2437 ctx->xout->has_learn = true;
2439 learn_mask(learn, &ctx->xout->wc);
2441 if (!ctx->xin->may_learn) {
2445 ofpbuf_use_stub(&ofpacts, ofpacts_stub, sizeof ofpacts_stub);
2446 learn_execute(learn, &ctx->xin->flow, &fm, &ofpacts);
2447 ofproto_dpif_flow_mod(ctx->xbridge->ofproto, &fm);
2448 ofpbuf_uninit(&ofpacts);
2452 xlate_fin_timeout(struct xlate_ctx *ctx,
2453 const struct ofpact_fin_timeout *oft)
2455 if (ctx->xin->tcp_flags & (TCP_FIN | TCP_RST) && ctx->rule) {
2456 rule_dpif_reduce_timeouts(ctx->rule, oft->fin_idle_timeout,
2457 oft->fin_hard_timeout);
2462 xlate_sample_action(struct xlate_ctx *ctx,
2463 const struct ofpact_sample *os)
2465 union user_action_cookie cookie;
2466 /* Scale the probability from 16-bit to 32-bit while representing
2467 * the same percentage. */
2468 uint32_t probability = (os->probability << 16) | os->probability;
2470 if (!ctx->xbridge->variable_length_userdata) {
2471 static struct vlog_rate_limit rl = VLOG_RATE_LIMIT_INIT(1, 1);
2473 VLOG_ERR_RL(&rl, "ignoring NXAST_SAMPLE action because datapath "
2474 "lacks support (needs Linux 3.10+ or kernel module from "
2479 ctx->xout->slow |= commit_odp_actions(&ctx->xin->flow, &ctx->base_flow,
2480 &ctx->xout->odp_actions,
2483 compose_flow_sample_cookie(os->probability, os->collector_set_id,
2484 os->obs_domain_id, os->obs_point_id, &cookie);
2485 compose_sample_action(ctx->xbridge, &ctx->xout->odp_actions, &ctx->xin->flow,
2486 probability, &cookie, sizeof cookie.flow_sample);
2490 may_receive(const struct xport *xport, struct xlate_ctx *ctx)
2492 if (xport->config & (eth_addr_equals(ctx->xin->flow.dl_dst, eth_addr_stp)
2493 ? OFPUTIL_PC_NO_RECV_STP
2494 : OFPUTIL_PC_NO_RECV)) {
2498 /* Only drop packets here if both forwarding and learning are
2499 * disabled. If just learning is enabled, we need to have
2500 * OFPP_NORMAL and the learning action have a look at the packet
2501 * before we can drop it. */
2502 if (!xport_stp_forward_state(xport) && !xport_stp_learn_state(xport)) {
2510 xlate_write_actions(struct xlate_ctx *ctx, const struct ofpact *a)
2512 struct ofpact_nest *on = ofpact_get_WRITE_ACTIONS(a);
2513 ofpbuf_put(&ctx->action_set, on->actions, ofpact_nest_get_action_len(on));
2514 ofpact_pad(&ctx->action_set);
2518 xlate_action_set(struct xlate_ctx *ctx)
2520 uint64_t action_list_stub[1024 / 64];
2521 struct ofpbuf action_list;
2523 ofpbuf_use_stub(&action_list, action_list_stub, sizeof action_list_stub);
2524 ofpacts_execute_action_set(&action_list, &ctx->action_set);
2525 do_xlate_actions(action_list.data, action_list.size, ctx);
2526 ofpbuf_uninit(&action_list);
2530 do_xlate_actions(const struct ofpact *ofpacts, size_t ofpacts_len,
2531 struct xlate_ctx *ctx)
2533 struct flow_wildcards *wc = &ctx->xout->wc;
2534 struct flow *flow = &ctx->xin->flow;
2535 const struct ofpact *a;
2537 /* dl_type already in the mask, not set below. */
2539 OFPACT_FOR_EACH (a, ofpacts, ofpacts_len) {
2540 struct ofpact_controller *controller;
2541 const struct ofpact_metadata *metadata;
2542 const struct ofpact_set_field *set_field;
2543 const struct mf_field *mf;
2551 xlate_output_action(ctx, ofpact_get_OUTPUT(a)->port,
2552 ofpact_get_OUTPUT(a)->max_len, true);
2556 if (xlate_group_action(ctx, ofpact_get_GROUP(a)->group_id)) {
2561 case OFPACT_CONTROLLER:
2562 controller = ofpact_get_CONTROLLER(a);
2563 execute_controller_action(ctx, controller->max_len,
2565 controller->controller_id);
2568 case OFPACT_ENQUEUE:
2569 xlate_enqueue_action(ctx, ofpact_get_ENQUEUE(a));
2572 case OFPACT_SET_VLAN_VID:
2573 wc->masks.vlan_tci |= htons(VLAN_VID_MASK | VLAN_CFI);
2574 if (flow->vlan_tci & htons(VLAN_CFI) ||
2575 ofpact_get_SET_VLAN_VID(a)->push_vlan_if_needed) {
2576 flow->vlan_tci &= ~htons(VLAN_VID_MASK);
2577 flow->vlan_tci |= (htons(ofpact_get_SET_VLAN_VID(a)->vlan_vid)
2582 case OFPACT_SET_VLAN_PCP:
2583 wc->masks.vlan_tci |= htons(VLAN_PCP_MASK | VLAN_CFI);
2584 if (flow->vlan_tci & htons(VLAN_CFI) ||
2585 ofpact_get_SET_VLAN_PCP(a)->push_vlan_if_needed) {
2586 flow->vlan_tci &= ~htons(VLAN_PCP_MASK);
2587 flow->vlan_tci |= htons((ofpact_get_SET_VLAN_PCP(a)->vlan_pcp
2588 << VLAN_PCP_SHIFT) | VLAN_CFI);
2592 case OFPACT_STRIP_VLAN:
2593 memset(&wc->masks.vlan_tci, 0xff, sizeof wc->masks.vlan_tci);
2594 flow->vlan_tci = htons(0);
2597 case OFPACT_PUSH_VLAN:
2598 /* XXX 802.1AD(QinQ) */
2599 memset(&wc->masks.vlan_tci, 0xff, sizeof wc->masks.vlan_tci);
2600 flow->vlan_tci = htons(VLAN_CFI);
2603 case OFPACT_SET_ETH_SRC:
2604 memset(&wc->masks.dl_src, 0xff, sizeof wc->masks.dl_src);
2605 memcpy(flow->dl_src, ofpact_get_SET_ETH_SRC(a)->mac, ETH_ADDR_LEN);
2608 case OFPACT_SET_ETH_DST:
2609 memset(&wc->masks.dl_dst, 0xff, sizeof wc->masks.dl_dst);
2610 memcpy(flow->dl_dst, ofpact_get_SET_ETH_DST(a)->mac, ETH_ADDR_LEN);
2613 case OFPACT_SET_IPV4_SRC:
2614 if (flow->dl_type == htons(ETH_TYPE_IP)) {
2615 memset(&wc->masks.nw_src, 0xff, sizeof wc->masks.nw_src);
2616 flow->nw_src = ofpact_get_SET_IPV4_SRC(a)->ipv4;
2620 case OFPACT_SET_IPV4_DST:
2621 if (flow->dl_type == htons(ETH_TYPE_IP)) {
2622 memset(&wc->masks.nw_dst, 0xff, sizeof wc->masks.nw_dst);
2623 flow->nw_dst = ofpact_get_SET_IPV4_DST(a)->ipv4;
2627 case OFPACT_SET_IP_DSCP:
2628 if (is_ip_any(flow)) {
2629 wc->masks.nw_tos |= IP_DSCP_MASK;
2630 flow->nw_tos &= ~IP_DSCP_MASK;
2631 flow->nw_tos |= ofpact_get_SET_IP_DSCP(a)->dscp;
2635 case OFPACT_SET_IP_ECN:
2636 if (is_ip_any(flow)) {
2637 wc->masks.nw_tos |= IP_ECN_MASK;
2638 flow->nw_tos &= ~IP_ECN_MASK;
2639 flow->nw_tos |= ofpact_get_SET_IP_ECN(a)->ecn;
2643 case OFPACT_SET_IP_TTL:
2644 if (is_ip_any(flow)) {
2645 wc->masks.nw_ttl = 0xff;
2646 flow->nw_ttl = ofpact_get_SET_IP_TTL(a)->ttl;
2650 case OFPACT_SET_L4_SRC_PORT:
2651 if (is_ip_any(flow)) {
2652 memset(&wc->masks.nw_proto, 0xff, sizeof wc->masks.nw_proto);
2653 memset(&wc->masks.tp_src, 0xff, sizeof wc->masks.tp_src);
2654 flow->tp_src = htons(ofpact_get_SET_L4_SRC_PORT(a)->port);
2658 case OFPACT_SET_L4_DST_PORT:
2659 if (is_ip_any(flow)) {
2660 memset(&wc->masks.nw_proto, 0xff, sizeof wc->masks.nw_proto);
2661 memset(&wc->masks.tp_dst, 0xff, sizeof wc->masks.tp_dst);
2662 flow->tp_dst = htons(ofpact_get_SET_L4_DST_PORT(a)->port);
2666 case OFPACT_RESUBMIT:
2667 xlate_ofpact_resubmit(ctx, ofpact_get_RESUBMIT(a));
2670 case OFPACT_SET_TUNNEL:
2671 flow->tunnel.tun_id = htonll(ofpact_get_SET_TUNNEL(a)->tun_id);
2674 case OFPACT_SET_QUEUE:
2675 xlate_set_queue_action(ctx, ofpact_get_SET_QUEUE(a)->queue_id);
2678 case OFPACT_POP_QUEUE:
2679 flow->skb_priority = ctx->orig_skb_priority;
2682 case OFPACT_REG_MOVE:
2683 nxm_execute_reg_move(ofpact_get_REG_MOVE(a), flow, wc);
2686 case OFPACT_REG_LOAD:
2687 nxm_execute_reg_load(ofpact_get_REG_LOAD(a), flow, wc);
2690 case OFPACT_SET_FIELD:
2691 set_field = ofpact_get_SET_FIELD(a);
2692 mf = set_field->field;
2693 mf_mask_field_and_prereqs(mf, &wc->masks);
2695 /* Set field action only ever overwrites packet's outermost
2696 * applicable header fields. Do nothing if no header exists. */
2697 if ((mf->id != MFF_VLAN_VID || flow->vlan_tci & htons(VLAN_CFI))
2698 && ((mf->id != MFF_MPLS_LABEL && mf->id != MFF_MPLS_TC)
2699 || eth_type_mpls(flow->dl_type))) {
2700 mf_set_flow_value(mf, &set_field->value, flow);
2704 case OFPACT_STACK_PUSH:
2705 nxm_execute_stack_push(ofpact_get_STACK_PUSH(a), flow, wc,
2709 case OFPACT_STACK_POP:
2710 nxm_execute_stack_pop(ofpact_get_STACK_POP(a), flow, wc,
2714 case OFPACT_PUSH_MPLS:
2715 compose_mpls_push_action(ctx, ofpact_get_PUSH_MPLS(a));
2718 case OFPACT_POP_MPLS:
2719 compose_mpls_pop_action(ctx, ofpact_get_POP_MPLS(a)->ethertype);
2722 case OFPACT_SET_MPLS_LABEL:
2723 compose_set_mpls_label_action(
2724 ctx, ofpact_get_SET_MPLS_LABEL(a)->label);
2727 case OFPACT_SET_MPLS_TC:
2728 compose_set_mpls_tc_action(ctx, ofpact_get_SET_MPLS_TC(a)->tc);
2731 case OFPACT_SET_MPLS_TTL:
2732 compose_set_mpls_ttl_action(ctx, ofpact_get_SET_MPLS_TTL(a)->ttl);
2735 case OFPACT_DEC_MPLS_TTL:
2736 if (compose_dec_mpls_ttl_action(ctx)) {
2741 case OFPACT_DEC_TTL:
2742 wc->masks.nw_ttl = 0xff;
2743 if (compose_dec_ttl(ctx, ofpact_get_DEC_TTL(a))) {
2749 /* Nothing to do. */
2752 case OFPACT_MULTIPATH:
2753 multipath_execute(ofpact_get_MULTIPATH(a), flow, wc);
2757 xlate_bundle_action(ctx, ofpact_get_BUNDLE(a));
2760 case OFPACT_OUTPUT_REG:
2761 xlate_output_reg_action(ctx, ofpact_get_OUTPUT_REG(a));
2765 xlate_learn_action(ctx, ofpact_get_LEARN(a));
2772 case OFPACT_FIN_TIMEOUT:
2773 memset(&wc->masks.nw_proto, 0xff, sizeof wc->masks.nw_proto);
2774 ctx->xout->has_fin_timeout = true;
2775 xlate_fin_timeout(ctx, ofpact_get_FIN_TIMEOUT(a));
2778 case OFPACT_CLEAR_ACTIONS:
2779 ofpbuf_clear(&ctx->action_set);
2782 case OFPACT_WRITE_ACTIONS:
2783 xlate_write_actions(ctx, a);
2786 case OFPACT_WRITE_METADATA:
2787 metadata = ofpact_get_WRITE_METADATA(a);
2788 flow->metadata &= ~metadata->mask;
2789 flow->metadata |= metadata->metadata & metadata->mask;
2793 /* Not implemented yet. */
2796 case OFPACT_GOTO_TABLE: {
2797 struct ofpact_goto_table *ogt = ofpact_get_GOTO_TABLE(a);
2799 ovs_assert(ctx->table_id < ogt->table_id);
2800 xlate_table_action(ctx, ctx->xin->flow.in_port.ofp_port,
2801 ogt->table_id, true);
2806 xlate_sample_action(ctx, ofpact_get_SAMPLE(a));
2813 xlate_in_init(struct xlate_in *xin, struct ofproto_dpif *ofproto,
2814 const struct flow *flow, struct rule_dpif *rule,
2815 uint16_t tcp_flags, const struct ofpbuf *packet)
2817 xin->ofproto = ofproto;
2819 xin->packet = packet;
2820 xin->may_learn = packet != NULL;
2822 xin->ofpacts = NULL;
2823 xin->ofpacts_len = 0;
2824 xin->tcp_flags = tcp_flags;
2825 xin->resubmit_hook = NULL;
2826 xin->report_hook = NULL;
2827 xin->resubmit_stats = NULL;
2828 xin->skip_wildcards = false;
2832 xlate_out_uninit(struct xlate_out *xout)
2835 ofpbuf_uninit(&xout->odp_actions);
2839 /* Translates the 'ofpacts_len' bytes of "struct ofpact"s starting at 'ofpacts'
2840 * into datapath actions, using 'ctx', and discards the datapath actions. */
2842 xlate_actions_for_side_effects(struct xlate_in *xin)
2844 struct xlate_out xout;
2846 xlate_actions(xin, &xout);
2847 xlate_out_uninit(&xout);
2851 xlate_report(struct xlate_ctx *ctx, const char *s)
2853 if (ctx->xin->report_hook) {
2854 ctx->xin->report_hook(ctx->xin, s, ctx->recurse);
2859 xlate_out_copy(struct xlate_out *dst, const struct xlate_out *src)
2862 dst->slow = src->slow;
2863 dst->has_learn = src->has_learn;
2864 dst->has_normal = src->has_normal;
2865 dst->has_fin_timeout = src->has_fin_timeout;
2866 dst->nf_output_iface = src->nf_output_iface;
2867 dst->mirrors = src->mirrors;
2869 ofpbuf_use_stub(&dst->odp_actions, dst->odp_actions_stub,
2870 sizeof dst->odp_actions_stub);
2871 ofpbuf_put(&dst->odp_actions, src->odp_actions.data,
2872 src->odp_actions.size);
2875 static struct skb_priority_to_dscp *
2876 get_skb_priority(const struct xport *xport, uint32_t skb_priority)
2878 struct skb_priority_to_dscp *pdscp;
2881 hash = hash_int(skb_priority, 0);
2882 HMAP_FOR_EACH_IN_BUCKET (pdscp, hmap_node, hash, &xport->skb_priorities) {
2883 if (pdscp->skb_priority == skb_priority) {
2891 dscp_from_skb_priority(const struct xport *xport, uint32_t skb_priority,
2894 struct skb_priority_to_dscp *pdscp = get_skb_priority(xport, skb_priority);
2895 *dscp = pdscp ? pdscp->dscp : 0;
2896 return pdscp != NULL;
2900 clear_skb_priorities(struct xport *xport)
2902 struct skb_priority_to_dscp *pdscp, *next;
2904 HMAP_FOR_EACH_SAFE (pdscp, next, hmap_node, &xport->skb_priorities) {
2905 hmap_remove(&xport->skb_priorities, &pdscp->hmap_node);
2911 actions_output_to_local_port(const struct xlate_ctx *ctx)
2913 odp_port_t local_odp_port = ofp_port_to_odp_port(ctx->xbridge, OFPP_LOCAL);
2914 const struct nlattr *a;
2917 NL_ATTR_FOR_EACH_UNSAFE (a, left, ctx->xout->odp_actions.data,
2918 ctx->xout->odp_actions.size) {
2919 if (nl_attr_type(a) == OVS_ACTION_ATTR_OUTPUT
2920 && nl_attr_get_odp_port(a) == local_odp_port) {
2927 /* Thread safe call to xlate_actions__(). */
2929 xlate_actions(struct xlate_in *xin, struct xlate_out *xout)
2930 OVS_EXCLUDED(xlate_rwlock)
2932 ovs_rwlock_rdlock(&xlate_rwlock);
2933 xlate_actions__(xin, xout);
2934 ovs_rwlock_unlock(&xlate_rwlock);
2937 /* Translates the 'ofpacts_len' bytes of "struct ofpacts" starting at 'ofpacts'
2938 * into datapath actions in 'odp_actions', using 'ctx'.
2940 * The caller must take responsibility for eventually freeing 'xout', with
2941 * xlate_out_uninit(). */
2943 xlate_actions__(struct xlate_in *xin, struct xlate_out *xout)
2944 OVS_REQ_RDLOCK(xlate_rwlock)
2946 struct flow_wildcards *wc = &xout->wc;
2947 struct flow *flow = &xin->flow;
2948 struct rule_dpif *rule = NULL;
2950 struct rule_actions *actions = NULL;
2951 enum slow_path_reason special;
2952 const struct ofpact *ofpacts;
2953 struct xport *in_port;
2954 struct flow orig_flow;
2955 struct xlate_ctx ctx;
2960 COVERAGE_INC(xlate_actions);
2962 /* Flow initialization rules:
2963 * - 'base_flow' must match the kernel's view of the packet at the
2964 * time that action processing starts. 'flow' represents any
2965 * transformations we wish to make through actions.
2966 * - By default 'base_flow' and 'flow' are the same since the input
2967 * packet matches the output before any actions are applied.
2968 * - When using VLAN splinters, 'base_flow''s VLAN is set to the value
2969 * of the received packet as seen by the kernel. If we later output
2970 * to another device without any modifications this will cause us to
2971 * insert a new tag since the original one was stripped off by the
2973 * - Tunnel metadata as received is retained in 'flow'. This allows
2974 * tunnel metadata matching also in later tables.
2975 * Since a kernel action for setting the tunnel metadata will only be
2976 * generated with actual tunnel output, changing the tunnel metadata
2977 * values in 'flow' (such as tun_id) will only have effect with a later
2978 * tunnel output action.
2979 * - Tunnel 'base_flow' is completely cleared since that is what the
2980 * kernel does. If we wish to maintain the original values an action
2981 * needs to be generated. */
2986 ctx.xout->has_learn = false;
2987 ctx.xout->has_normal = false;
2988 ctx.xout->has_fin_timeout = false;
2989 ctx.xout->nf_output_iface = NF_OUT_DROP;
2990 ctx.xout->mirrors = 0;
2991 ofpbuf_use_stub(&ctx.xout->odp_actions, ctx.xout->odp_actions_stub,
2992 sizeof ctx.xout->odp_actions_stub);
2993 ofpbuf_reserve(&ctx.xout->odp_actions, NL_A_U32_SIZE);
2995 ctx.xbridge = xbridge_lookup(xin->ofproto);
3000 ctx.rule = xin->rule;
3002 ctx.base_flow = *flow;
3003 memset(&ctx.base_flow.tunnel, 0, sizeof ctx.base_flow.tunnel);
3004 ctx.orig_tunnel_ip_dst = flow->tunnel.ip_dst;
3006 flow_wildcards_init_catchall(wc);
3007 memset(&wc->masks.in_port, 0xff, sizeof wc->masks.in_port);
3008 memset(&wc->masks.skb_priority, 0xff, sizeof wc->masks.skb_priority);
3009 memset(&wc->masks.dl_type, 0xff, sizeof wc->masks.dl_type);
3010 if (is_ip_any(flow)) {
3011 wc->masks.nw_frag |= FLOW_NW_FRAG_MASK;
3013 is_icmp = is_icmpv4(flow) || is_icmpv6(flow);
3015 tnl_may_send = tnl_xlate_init(&ctx.base_flow, flow, wc);
3016 if (ctx.xbridge->netflow) {
3017 netflow_mask_wc(flow, wc);
3022 ctx.in_group = false;
3023 ctx.orig_skb_priority = flow->skb_priority;
3027 if (!xin->ofpacts && !ctx.rule) {
3028 rule_dpif_lookup(ctx.xbridge->ofproto, flow,
3029 !xin->skip_wildcards ? wc : NULL, &rule);
3030 if (ctx.xin->resubmit_stats) {
3031 rule_dpif_credit_stats(rule, ctx.xin->resubmit_stats);
3035 xout->fail_open = ctx.rule && rule_dpif_is_fail_open(ctx.rule);
3038 ofpacts = xin->ofpacts;
3039 ofpacts_len = xin->ofpacts_len;
3040 } else if (ctx.rule) {
3041 actions = rule_dpif_get_actions(ctx.rule);
3042 ofpacts = actions->ofpacts;
3043 ofpacts_len = actions->ofpacts_len;
3048 ofpbuf_use_stub(&ctx.stack, ctx.init_stack, sizeof ctx.init_stack);
3049 ofpbuf_use_stub(&ctx.action_set,
3050 ctx.action_set_stub, sizeof ctx.action_set_stub);
3052 if (mbridge_has_mirrors(ctx.xbridge->mbridge)) {
3053 /* Do this conditionally because the copy is expensive enough that it
3054 * shows up in profiles. */
3058 if (flow->nw_frag & FLOW_NW_FRAG_ANY) {
3059 switch (ctx.xbridge->frag) {
3060 case OFPC_FRAG_NORMAL:
3061 /* We must pretend that transport ports are unavailable. */
3062 flow->tp_src = ctx.base_flow.tp_src = htons(0);
3063 flow->tp_dst = ctx.base_flow.tp_dst = htons(0);
3066 case OFPC_FRAG_DROP:
3069 case OFPC_FRAG_REASM:
3072 case OFPC_FRAG_NX_MATCH:
3073 /* Nothing to do. */
3076 case OFPC_INVALID_TTL_TO_CONTROLLER:
3081 in_port = get_ofp_port(ctx.xbridge, flow->in_port.ofp_port);
3082 if (in_port && in_port->is_tunnel && ctx.xin->resubmit_stats) {
3083 netdev_vport_inc_rx(in_port->netdev, ctx.xin->resubmit_stats);
3085 bfd_account_rx(in_port->bfd, ctx.xin->resubmit_stats);
3089 special = process_special(&ctx, flow, in_port, ctx.xin->packet);
3091 ctx.xout->slow |= special;
3093 size_t sample_actions_len;
3095 if (flow->in_port.ofp_port
3096 != vsp_realdev_to_vlandev(ctx.xbridge->ofproto,
3097 flow->in_port.ofp_port,
3099 ctx.base_flow.vlan_tci = 0;
3102 add_sflow_action(&ctx);
3103 add_ipfix_action(&ctx);
3104 sample_actions_len = ctx.xout->odp_actions.size;
3106 if (tnl_may_send && (!in_port || may_receive(in_port, &ctx))) {
3107 do_xlate_actions(ofpacts, ofpacts_len, &ctx);
3109 /* We've let OFPP_NORMAL and the learning action look at the
3110 * packet, so drop it now if forwarding is disabled. */
3111 if (in_port && !xport_stp_forward_state(in_port)) {
3112 ctx.xout->odp_actions.size = sample_actions_len;
3116 if (ctx.action_set.size) {
3117 xlate_action_set(&ctx);
3120 if (ctx.xbridge->has_in_band
3121 && in_band_must_output_to_local_port(flow)
3122 && !actions_output_to_local_port(&ctx)) {
3123 compose_output_action(&ctx, OFPP_LOCAL);
3126 fix_sflow_action(&ctx);
3128 if (mbridge_has_mirrors(ctx.xbridge->mbridge)) {
3129 add_mirror_actions(&ctx, &orig_flow);
3133 if (nl_attr_oversized(ctx.xout->odp_actions.size)) {
3134 /* These datapath actions are too big for a Netlink attribute, so we
3135 * can't hand them to the kernel directly. dpif_execute() can execute
3136 * them one by one with help, so just mark the result as SLOW_ACTION to
3137 * prevent the flow from being installed. */
3138 COVERAGE_INC(xlate_actions_oversize);
3139 ctx.xout->slow |= SLOW_ACTION;
3142 if (ctx.xin->resubmit_stats) {
3143 mirror_update_stats(ctx.xbridge->mbridge, xout->mirrors,
3144 ctx.xin->resubmit_stats->n_packets,
3145 ctx.xin->resubmit_stats->n_bytes);
3147 if (ctx.xbridge->netflow) {
3148 const struct ofpact *ofpacts;
3151 ofpacts_len = actions->ofpacts_len;
3152 ofpacts = actions->ofpacts;
3153 if (ofpacts_len == 0
3154 || ofpacts->type != OFPACT_CONTROLLER
3155 || ofpact_next(ofpacts) < ofpact_end(ofpacts, ofpacts_len)) {
3156 /* Only update netflow if we don't have controller flow. We don't
3157 * report NetFlow expiration messages for such facets because they
3158 * are just part of the control logic for the network, not real
3160 netflow_flow_update(ctx.xbridge->netflow, flow,
3161 xout->nf_output_iface,
3162 ctx.xin->resubmit_stats);
3167 ofpbuf_uninit(&ctx.stack);
3168 ofpbuf_uninit(&ctx.action_set);
3170 /* Clear the metadata and register wildcard masks, because we won't
3171 * use non-header fields as part of the cache. */
3172 flow_wildcards_clear_non_packet_fields(wc);
3174 /* ICMPv4 and ICMPv6 have 8-bit "type" and "code" fields. struct flow uses
3175 * the low 8 bits of the 16-bit tp_src and tp_dst members to represent
3176 * these fields. The datapath interface, on the other hand, represents
3177 * them with just 8 bits each. This means that if the high 8 bits of the
3178 * masks for these fields somehow become set, then they will get chopped
3179 * off by a round trip through the datapath, and revalidation will spot
3180 * that as an inconsistency and delete the flow. Avoid the problem here by
3181 * making sure that only the low 8 bits of either field can be unwildcarded
3185 wc->masks.tp_src &= htons(UINT8_MAX);
3186 wc->masks.tp_dst &= htons(UINT8_MAX);
3190 rule_actions_unref(actions);
3191 rule_dpif_unref(rule);
3194 /* Sends 'packet' out 'ofport'.
3195 * May modify 'packet'.
3196 * Returns 0 if successful, otherwise a positive errno value. */
3198 xlate_send_packet(const struct ofport_dpif *ofport, struct ofpbuf *packet)
3200 struct xport *xport;
3201 struct ofpact_output output;
3204 ofpact_init(&output.ofpact, OFPACT_OUTPUT, sizeof output);
3205 /* Use OFPP_NONE as the in_port to avoid special packet processing. */
3206 flow_extract(packet, NULL, &flow);
3207 flow.in_port.ofp_port = OFPP_NONE;
3209 ovs_rwlock_rdlock(&xlate_rwlock);
3210 xport = xport_lookup(ofport);
3212 ovs_rwlock_unlock(&xlate_rwlock);
3215 output.port = xport->ofp_port;
3217 ovs_rwlock_unlock(&xlate_rwlock);
3219 return ofproto_dpif_execute_actions(xport->xbridge->ofproto, &flow, NULL,
3220 &output.ofpact, sizeof output,