2 * Copyright (c) 2008, 2009, 2010, 2011, 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.
17 #ifndef OPENFLOW_NICIRA_EXT_H
18 #define OPENFLOW_NICIRA_EXT_H 1
20 #include "openflow/openflow.h"
21 #include "openvswitch/types.h"
23 /* The following vendor extensions, proposed by Nicira, are not yet
24 * standardized, so they are not included in openflow.h. Some of them may be
25 * suitable for standardization; others we never expect to standardize. */
27 #define NX_VENDOR_ID 0x00002320
29 /* Nicira vendor-specific error messages extension.
31 * OpenFlow 1.0 has a set of predefined error types (OFPET_*) and codes (which
32 * are specific to each type). It does not have any provision for
33 * vendor-specific error codes, and it does not even provide "generic" error
34 * codes that can apply to problems not anticipated by the OpenFlow
35 * specification authors.
37 * This extension attempts to address the problem by adding a generic "error
38 * vendor extension". The extension works as follows: use NXET_VENDOR as type
39 * and NXVC_VENDOR_ERROR as code, followed by struct nx_vendor_error with
40 * vendor-specific details, followed by at least 64 bytes of the failed
43 * It would be better to have a type-specific vendor extension, e.g. so that
44 * OFPET_BAD_ACTION could be used with vendor-specific code values. But
45 * OFPET_BAD_ACTION and most other standardized types already specify that
46 * their 'data' values are (the start of) the OpenFlow message being replied
47 * to, so there is no room to insert a vendor ID.
49 * Currently this extension is only implemented by Open vSwitch, but it seems
50 * like a reasonable candidate for future standardization.
53 /* This is a random number to avoid accidental collision with any other
54 * vendor's extension. */
55 #define NXET_VENDOR 0xb0c2
57 /* ofp_error msg 'code' values for NXET_VENDOR. */
59 NXVC_VENDOR_ERROR /* 'data' contains struct nx_vendor_error. */
62 /* 'data' for 'type' == NXET_VENDOR, 'code' == NXVC_VENDOR_ERROR. */
63 struct nx_vendor_error {
64 ovs_be32 vendor; /* Vendor ID as in struct ofp_vendor_header. */
65 ovs_be16 type; /* Vendor-defined type. */
66 ovs_be16 code; /* Vendor-defined subtype. */
67 /* Followed by at least the first 64 bytes of the failed request. */
70 /* Nicira vendor requests and replies. */
72 /* Header for Nicira vendor requests and replies. */
73 struct nicira_header {
74 struct ofp_header header;
75 ovs_be32 vendor; /* NX_VENDOR_ID. */
76 ovs_be32 subtype; /* See the NXT numbers in ofp-msgs.h. */
78 OFP_ASSERT(sizeof(struct nicira_header) == 16);
80 /* Header for Nicira vendor stats request and reply messages in OpenFlow
82 struct nicira10_stats_msg {
83 struct ofp10_vendor_stats_msg vsm; /* Vendor NX_VENDOR_ID. */
84 ovs_be32 subtype; /* One of NXST_* below. */
85 uint8_t pad[4]; /* Align to 64-bits. */
87 OFP_ASSERT(sizeof(struct nicira10_stats_msg) == 24);
89 /* Header for Nicira vendor stats request and reply messages in OpenFlow
91 struct nicira11_stats_msg {
92 struct ofp11_vendor_stats_msg vsm; /* Vendor NX_VENDOR_ID. */
93 ovs_be32 subtype; /* One of NXST_* below. */
95 OFP_ASSERT(sizeof(struct nicira11_stats_msg) == 24);
97 /* Fields to use when hashing flows. */
99 /* Ethernet source address (NXM_OF_ETH_SRC) only. */
100 NX_HASH_FIELDS_ETH_SRC,
102 /* L2 through L4, symmetric across src/dst. Specifically, each of the
103 * following fields, if present, is hashed (slashes separate symmetric
106 * - NXM_OF_ETH_DST / NXM_OF_ETH_SRC
108 * - The VID bits from NXM_OF_VLAN_TCI, ignoring PCP and CFI.
110 * - NXM_OF_IP_SRC / NXM_OF_IP_DST
111 * - NXM_OF_TCP_SRC / NXM_OF_TCP_DST
113 NX_HASH_FIELDS_SYMMETRIC_L4
116 /* This command enables or disables an Open vSwitch extension that allows a
117 * controller to specify the OpenFlow table to which a flow should be added,
118 * instead of having the switch decide which table is most appropriate as
119 * required by OpenFlow 1.0. By default, the extension is disabled.
121 * When this feature is enabled, Open vSwitch treats struct ofp10_flow_mod's
122 * 16-bit 'command' member as two separate fields. The upper 8 bits are used
123 * as the table ID, the lower 8 bits specify the command as usual. A table ID
124 * of 0xff is treated like a wildcarded table ID.
126 * The specific treatment of the table ID depends on the type of flow mod:
128 * - OFPFC_ADD: Given a specific table ID, the flow is always placed in that
129 * table. If an identical flow already exists in that table only, then it
130 * is replaced. If the flow cannot be placed in the specified table,
131 * either because the table is full or because the table cannot support
132 * flows of the given type, the switch replies with an OFPFMFC_TABLE_FULL
133 * error. (A controller can distinguish these cases by comparing the
134 * current and maximum number of entries reported in ofp_table_stats.)
136 * If the table ID is wildcarded, the switch picks an appropriate table
137 * itself. If an identical flow already exist in the selected flow table,
138 * then it is replaced. The choice of table might depend on the flows
139 * that are already in the switch; for example, if one table fills up then
140 * the switch might fall back to another one.
142 * - OFPFC_MODIFY, OFPFC_DELETE: Given a specific table ID, only flows
143 * within that table are matched and modified or deleted. If the table ID
144 * is wildcarded, flows within any table may be matched and modified or
147 * - OFPFC_MODIFY_STRICT, OFPFC_DELETE_STRICT: Given a specific table ID,
148 * only a flow within that table may be matched and modified or deleted.
149 * If the table ID is wildcarded and exactly one flow within any table
150 * matches, then it is modified or deleted; if flows in more than one
151 * table match, then none is modified or deleted.
153 struct nx_flow_mod_table_id {
154 uint8_t set; /* Nonzero to enable, zero to disable. */
157 OFP_ASSERT(sizeof(struct nx_flow_mod_table_id) == 8);
159 enum nx_packet_in_format {
160 NXPIF_OPENFLOW10 = 0, /* Standard OpenFlow 1.0 compatible. */
161 NXPIF_NXM = 1 /* Nicira Extended. */
164 /* NXT_SET_PACKET_IN_FORMAT request. */
165 struct nx_set_packet_in_format {
166 ovs_be32 format; /* One of NXPIF_*. */
168 OFP_ASSERT(sizeof(struct nx_set_packet_in_format) == 4);
170 /* NXT_PACKET_IN (analogous to OFPT_PACKET_IN).
172 * NXT_PACKET_IN is similar to the OpenFlow 1.2 OFPT_PACKET_IN. The
175 * - NXT_PACKET_IN includes the cookie of the rule that triggered the
176 * message. (OpenFlow 1.3 OFPT_PACKET_IN also includes the cookie.)
178 * - The metadata fields use NXM (instead of OXM) field numbers.
180 * Open vSwitch 1.9.0 and later omits metadata fields that are zero (as allowed
181 * by OpenFlow 1.2). Earlier versions included all implemented metadata
184 * Open vSwitch does not include non-metadata in the nx_match, because by
185 * definition that information can be found in the packet itself. The format
186 * and the standards allow this, however, so controllers should be prepared to
187 * tolerate future changes.
189 * The NXM format is convenient for reporting metadata values, but it is
190 * important not to interpret the format as matching against a flow, because it
191 * does not. Nothing is being matched; arbitrary metadata masks would not be
194 * Whereas in most cases a controller can expect to only get back NXM fields
195 * that it set up itself (e.g. flow dumps will ordinarily report only NXM
196 * fields from flows that the controller added), NXT_PACKET_IN messages might
197 * contain fields that the controller does not understand, because the switch
198 * might support fields (new registers, new protocols, etc.) that the
199 * controller does not. The controller must prepared to tolerate these.
201 * The 'cookie' and 'table_id' fields have no meaning when 'reason' is
202 * OFPR_NO_MATCH. In this case they should be set to 0. */
203 struct nx_packet_in {
204 ovs_be32 buffer_id; /* ID assigned by datapath. */
205 ovs_be16 total_len; /* Full length of frame. */
206 uint8_t reason; /* Reason packet is sent (one of OFPR_*). */
207 uint8_t table_id; /* ID of the table that was looked up. */
208 ovs_be64 cookie; /* Cookie of the rule that was looked up. */
209 ovs_be16 match_len; /* Size of nx_match. */
210 uint8_t pad[6]; /* Align to 64-bits. */
212 * - Exactly match_len (possibly 0) bytes containing the nx_match, then
213 * - Exactly (match_len + 7)/8*8 - match_len (between 0 and 7) bytes of
214 * all-zero bytes, then
215 * - Exactly 2 all-zero padding bytes, then
216 * - An Ethernet frame whose length is inferred from nxh.header.length.
218 * The padding bytes preceding the Ethernet frame ensure that the IP
219 * header (if any) following the Ethernet header is 32-bit aligned. */
221 /* uint8_t nxm_fields[...]; */ /* NXM headers. */
222 /* uint8_t pad[2]; */ /* Align to 64 bit + 16 bit. */
223 /* uint8_t data[0]; */ /* Ethernet frame. */
225 OFP_ASSERT(sizeof(struct nx_packet_in) == 24);
227 /* Configures the "role" of the sending controller. The default role is:
229 * - Other (NX_ROLE_OTHER), which allows the controller access to all
232 * The other possible roles are a related pair:
234 * - Master (NX_ROLE_MASTER) is equivalent to Other, except that there may
235 * be at most one Master controller at a time: when a controller
236 * configures itself as Master, any existing Master is demoted to the
239 * - Slave (NX_ROLE_SLAVE) allows the controller read-only access to
240 * OpenFlow features. In particular attempts to modify the flow table
241 * will be rejected with an OFPBRC_EPERM error.
243 * Slave controllers do not receive OFPT_PACKET_IN or OFPT_FLOW_REMOVED
244 * messages, but they do receive OFPT_PORT_STATUS messages.
246 struct nx_role_request {
247 ovs_be32 role; /* One of NX_ROLE_*. */
249 OFP_ASSERT(sizeof(struct nx_role_request) == 4);
252 NX_ROLE_OTHER, /* Default role, full access. */
253 NX_ROLE_MASTER, /* Full access, at most one. */
254 NX_ROLE_SLAVE /* Read-only access. */
257 /* NXT_SET_ASYNC_CONFIG.
259 * Sent by a controller, this message configures the asynchronous messages that
260 * the controller wants to receive. Element 0 in each array specifies messages
261 * of interest when the controller has an "other" or "master" role; element 1,
262 * when the controller has a "slave" role.
264 * Each array element is a bitmask in which a 0-bit disables receiving a
265 * particular message and a 1-bit enables receiving it. Each bit controls the
266 * message whose 'reason' corresponds to the bit index. For example, the bit
267 * with value 1<<2 == 4 in port_status_mask[1] determines whether the
268 * controller will receive OFPT_PORT_STATUS messages with reason OFPPR_MODIFY
269 * (value 2) when the controller has a "slave" role.
271 * As a side effect, for service controllers, this message changes the
272 * miss_send_len from default of zero to OFP_DEFAULT_MISS_SEND_LEN (128).
274 struct nx_async_config {
275 ovs_be32 packet_in_mask[2]; /* Bitmasks of OFPR_* values. */
276 ovs_be32 port_status_mask[2]; /* Bitmasks of OFPRR_* values. */
277 ovs_be32 flow_removed_mask[2]; /* Bitmasks of OFPPR_* values. */
279 OFP_ASSERT(sizeof(struct nx_async_config) == 24);
281 /* Nicira vendor flow actions. */
283 enum nx_action_subtype {
284 NXAST_SNAT__OBSOLETE, /* No longer used. */
285 NXAST_RESUBMIT, /* struct nx_action_resubmit */
286 NXAST_SET_TUNNEL, /* struct nx_action_set_tunnel */
287 NXAST_DROP_SPOOFED_ARP__OBSOLETE,
288 NXAST_SET_QUEUE, /* struct nx_action_set_queue */
289 NXAST_POP_QUEUE, /* struct nx_action_pop_queue */
290 NXAST_REG_MOVE, /* struct nx_action_reg_move */
291 NXAST_REG_LOAD, /* struct nx_action_reg_load */
292 NXAST_NOTE, /* struct nx_action_note */
293 NXAST_SET_TUNNEL64, /* struct nx_action_set_tunnel64 */
294 NXAST_MULTIPATH, /* struct nx_action_multipath */
295 NXAST_AUTOPATH__DEPRECATED, /* struct nx_action_autopath */
296 NXAST_BUNDLE, /* struct nx_action_bundle */
297 NXAST_BUNDLE_LOAD, /* struct nx_action_bundle */
298 NXAST_RESUBMIT_TABLE, /* struct nx_action_resubmit */
299 NXAST_OUTPUT_REG, /* struct nx_action_output_reg */
300 NXAST_LEARN, /* struct nx_action_learn */
301 NXAST_EXIT, /* struct nx_action_header */
302 NXAST_DEC_TTL, /* struct nx_action_header */
303 NXAST_FIN_TIMEOUT, /* struct nx_action_fin_timeout */
304 NXAST_CONTROLLER, /* struct nx_action_controller */
305 NXAST_DEC_TTL_CNT_IDS, /* struct nx_action_cnt_ids */
308 /* Header for Nicira-defined actions. */
309 struct nx_action_header {
310 ovs_be16 type; /* OFPAT_VENDOR. */
311 ovs_be16 len; /* Length is 16. */
312 ovs_be32 vendor; /* NX_VENDOR_ID. */
313 ovs_be16 subtype; /* NXAST_*. */
316 OFP_ASSERT(sizeof(struct nx_action_header) == 16);
318 /* Action structures for NXAST_RESUBMIT and NXAST_RESUBMIT_TABLE.
320 * These actions search one of the switch's flow tables:
322 * - For NXAST_RESUBMIT_TABLE only, if the 'table' member is not 255, then
323 * it specifies the table to search.
325 * - Otherwise (for NXAST_RESUBMIT_TABLE with a 'table' of 255, or for
326 * NXAST_RESUBMIT regardless of 'table'), it searches the current flow
327 * table, that is, the OpenFlow flow table that contains the flow from
328 * which this action was obtained. If this action did not come from a
329 * flow table (e.g. it came from an OFPT_PACKET_OUT message), then table 0
330 * is the current table.
332 * The flow table lookup uses a flow that may be slightly modified from the
335 * - For NXAST_RESUBMIT, the 'in_port' member of struct nx_action_resubmit
336 * is used as the flow's in_port.
338 * - For NXAST_RESUBMIT_TABLE, if the 'in_port' member is not OFPP_IN_PORT,
339 * then its value is used as the flow's in_port. Otherwise, the original
342 * - If actions that modify the flow (e.g. OFPAT_SET_VLAN_VID) precede the
343 * resubmit action, then the flow is updated with the new values.
345 * Following the lookup, the original in_port is restored.
347 * If the modified flow matched in the flow table, then the corresponding
348 * actions are executed. Afterward, actions following the resubmit in the
349 * original set of actions, if any, are executed; any changes made to the
350 * packet (e.g. changes to VLAN) by secondary actions persist when those
351 * actions are executed, although the original in_port is restored.
353 * Resubmit actions may be used any number of times within a set of actions.
355 * Resubmit actions may nest to an implementation-defined depth. Beyond this
356 * implementation-defined depth, further resubmit actions are simply ignored.
358 * NXAST_RESUBMIT ignores 'table' and 'pad'. NXAST_RESUBMIT_TABLE requires
359 * 'pad' to be all-bits-zero.
361 * Open vSwitch 1.0.1 and earlier did not support recursion. Open vSwitch
362 * before 1.2.90 did not support NXAST_RESUBMIT_TABLE.
364 struct nx_action_resubmit {
365 ovs_be16 type; /* OFPAT_VENDOR. */
366 ovs_be16 len; /* Length is 16. */
367 ovs_be32 vendor; /* NX_VENDOR_ID. */
368 ovs_be16 subtype; /* NXAST_RESUBMIT. */
369 ovs_be16 in_port; /* New in_port for checking flow table. */
370 uint8_t table; /* NXAST_RESUBMIT_TABLE: table to use. */
373 OFP_ASSERT(sizeof(struct nx_action_resubmit) == 16);
375 /* Action structure for NXAST_SET_TUNNEL.
377 * Sets the encapsulating tunnel ID to a 32-bit value. The most-significant 32
378 * bits of the tunnel ID are set to 0. */
379 struct nx_action_set_tunnel {
380 ovs_be16 type; /* OFPAT_VENDOR. */
381 ovs_be16 len; /* Length is 16. */
382 ovs_be32 vendor; /* NX_VENDOR_ID. */
383 ovs_be16 subtype; /* NXAST_SET_TUNNEL. */
385 ovs_be32 tun_id; /* Tunnel ID. */
387 OFP_ASSERT(sizeof(struct nx_action_set_tunnel) == 16);
389 /* Action structure for NXAST_SET_TUNNEL64.
391 * Sets the encapsulating tunnel ID to a 64-bit value. */
392 struct nx_action_set_tunnel64 {
393 ovs_be16 type; /* OFPAT_VENDOR. */
394 ovs_be16 len; /* Length is 24. */
395 ovs_be32 vendor; /* NX_VENDOR_ID. */
396 ovs_be16 subtype; /* NXAST_SET_TUNNEL64. */
398 ovs_be64 tun_id; /* Tunnel ID. */
400 OFP_ASSERT(sizeof(struct nx_action_set_tunnel64) == 24);
402 /* Action structure for NXAST_SET_QUEUE.
404 * Set the queue that should be used when packets are output. This is similar
405 * to the OpenFlow OFPAT_ENQUEUE action, but does not take the output port as
406 * an argument. This allows the queue to be defined before the port is
408 struct nx_action_set_queue {
409 ovs_be16 type; /* OFPAT_VENDOR. */
410 ovs_be16 len; /* Length is 16. */
411 ovs_be32 vendor; /* NX_VENDOR_ID. */
412 ovs_be16 subtype; /* NXAST_SET_QUEUE. */
414 ovs_be32 queue_id; /* Where to enqueue packets. */
416 OFP_ASSERT(sizeof(struct nx_action_set_queue) == 16);
418 /* Action structure for NXAST_POP_QUEUE.
420 * Restores the queue to the value it was before any NXAST_SET_QUEUE actions
421 * were used. Only the original queue can be restored this way; no stack is
423 struct nx_action_pop_queue {
424 ovs_be16 type; /* OFPAT_VENDOR. */
425 ovs_be16 len; /* Length is 16. */
426 ovs_be32 vendor; /* NX_VENDOR_ID. */
427 ovs_be16 subtype; /* NXAST_POP_QUEUE. */
430 OFP_ASSERT(sizeof(struct nx_action_pop_queue) == 16);
432 /* Action structure for NXAST_REG_MOVE.
434 * Copies src[src_ofs:src_ofs+n_bits] to dst[dst_ofs:dst_ofs+n_bits], where
435 * a[b:c] denotes the bits within 'a' numbered 'b' through 'c' (not including
436 * bit 'c'). Bit numbering starts at 0 for the least-significant bit, 1 for
437 * the next most significant bit, and so on.
439 * 'src' and 'dst' are nxm_header values with nxm_hasmask=0. (It doesn't make
440 * sense to use nxm_hasmask=1 because the action does not do any kind of
441 * matching; it uses the actual value of a field.)
443 * The following nxm_header values are potentially acceptable as 'src':
466 * - NXM_NX_ICMPV6_TYPE
467 * - NXM_NX_ICMPV6_CODE
470 * - NXM_NX_REG(idx) for idx in the switch's accepted range.
472 * The following nxm_header values are potentially acceptable as 'dst':
483 * Modifying any of the above fields changes the corresponding packet
486 * - NXM_NX_REG(idx) for idx in the switch's accepted range.
488 * - NXM_OF_VLAN_TCI. Modifying this field's value has side effects on the
489 * packet's 802.1Q header. Setting a value with CFI=0 removes the 802.1Q
490 * header (if any), ignoring the other bits. Setting a value with CFI=1
491 * adds or modifies the 802.1Q header appropriately, setting the TCI field
492 * to the field's new value (with the CFI bit masked out).
494 * - NXM_NX_TUN_ID. Modifying this value modifies the tunnel ID used for the
495 * packet's next tunnel encapsulation.
497 * A given nxm_header value may be used as 'src' or 'dst' only on a flow whose
498 * nx_match satisfies its prerequisites. For example, NXM_OF_IP_TOS may be
499 * used only if the flow's nx_match includes an nxm_entry that specifies
500 * nxm_type=NXM_OF_ETH_TYPE, nxm_hasmask=0, and nxm_value=0x0800.
502 * The switch will reject actions for which src_ofs+n_bits is greater than the
503 * width of 'src' or dst_ofs+n_bits is greater than the width of 'dst' with
504 * error type OFPET_BAD_ACTION, code OFPBAC_BAD_ARGUMENT.
506 struct nx_action_reg_move {
507 ovs_be16 type; /* OFPAT_VENDOR. */
508 ovs_be16 len; /* Length is 24. */
509 ovs_be32 vendor; /* NX_VENDOR_ID. */
510 ovs_be16 subtype; /* NXAST_REG_MOVE. */
511 ovs_be16 n_bits; /* Number of bits. */
512 ovs_be16 src_ofs; /* Starting bit offset in source. */
513 ovs_be16 dst_ofs; /* Starting bit offset in destination. */
514 ovs_be32 src; /* Source register. */
515 ovs_be32 dst; /* Destination register. */
517 OFP_ASSERT(sizeof(struct nx_action_reg_move) == 24);
519 /* Action structure for NXAST_REG_LOAD.
521 * Copies value[0:n_bits] to dst[ofs:ofs+n_bits], where a[b:c] denotes the bits
522 * within 'a' numbered 'b' through 'c' (not including bit 'c'). Bit numbering
523 * starts at 0 for the least-significant bit, 1 for the next most significant
526 * 'dst' is an nxm_header with nxm_hasmask=0. See the documentation for
527 * NXAST_REG_MOVE, above, for the permitted fields and for the side effects of
530 * The 'ofs' and 'n_bits' fields are combined into a single 'ofs_nbits' field
531 * to avoid enlarging the structure by another 8 bytes. To allow 'n_bits' to
532 * take a value between 1 and 64 (inclusive) while taking up only 6 bits, it is
533 * also stored as one less than its true value:
536 * +------------------------------+------------------+
537 * | ofs | n_bits - 1 |
538 * +------------------------------+------------------+
540 * The switch will reject actions for which ofs+n_bits is greater than the
541 * width of 'dst', or in which any bits in 'value' with value 2**n_bits or
542 * greater are set to 1, with error type OFPET_BAD_ACTION, code
543 * OFPBAC_BAD_ARGUMENT.
545 struct nx_action_reg_load {
546 ovs_be16 type; /* OFPAT_VENDOR. */
547 ovs_be16 len; /* Length is 24. */
548 ovs_be32 vendor; /* NX_VENDOR_ID. */
549 ovs_be16 subtype; /* NXAST_REG_LOAD. */
550 ovs_be16 ofs_nbits; /* (ofs << 6) | (n_bits - 1). */
551 ovs_be32 dst; /* Destination register. */
552 ovs_be64 value; /* Immediate value. */
554 OFP_ASSERT(sizeof(struct nx_action_reg_load) == 24);
556 /* Action structure for NXAST_NOTE.
558 * This action has no effect. It is variable length. The switch does not
559 * attempt to interpret the user-defined 'note' data in any way. A controller
560 * can use this action to attach arbitrary metadata to a flow.
562 * This action might go away in the future.
564 struct nx_action_note {
565 ovs_be16 type; /* OFPAT_VENDOR. */
566 ovs_be16 len; /* A multiple of 8, but at least 16. */
567 ovs_be32 vendor; /* NX_VENDOR_ID. */
568 ovs_be16 subtype; /* NXAST_NOTE. */
569 uint8_t note[6]; /* Start of user-defined data. */
570 /* Possibly followed by additional user-defined data. */
572 OFP_ASSERT(sizeof(struct nx_action_note) == 16);
574 /* Action structure for NXAST_MULTIPATH.
576 * This action performs the following steps in sequence:
578 * 1. Hashes the fields designated by 'fields', one of NX_HASH_FIELDS_*.
579 * Refer to the definition of "enum nx_mp_fields" for details.
581 * The 'basis' value is used as a universal hash parameter, that is,
582 * different values of 'basis' yield different hash functions. The
583 * particular universal hash function used is implementation-defined.
585 * The hashed fields' values are drawn from the current state of the
586 * flow, including all modifications that have been made by actions up to
589 * 2. Applies the multipath link choice algorithm specified by 'algorithm',
590 * one of NX_MP_ALG_*. Refer to the definition of "enum nx_mp_algorithm"
593 * The output of the algorithm is 'link', an unsigned integer less than
594 * or equal to 'max_link'.
596 * Some algorithms use 'arg' as an additional argument.
598 * 3. Stores 'link' in dst[ofs:ofs+n_bits]. The format and semantics of
599 * 'dst' and 'ofs_nbits' are similar to those for the NXAST_REG_LOAD
602 * The switch will reject actions that have an unknown 'fields', or an unknown
603 * 'algorithm', or in which ofs+n_bits is greater than the width of 'dst', or
604 * in which 'max_link' is greater than or equal to 2**n_bits, with error type
605 * OFPET_BAD_ACTION, code OFPBAC_BAD_ARGUMENT.
607 struct nx_action_multipath {
608 ovs_be16 type; /* OFPAT_VENDOR. */
609 ovs_be16 len; /* Length is 32. */
610 ovs_be32 vendor; /* NX_VENDOR_ID. */
611 ovs_be16 subtype; /* NXAST_MULTIPATH. */
613 /* What fields to hash and how. */
614 ovs_be16 fields; /* One of NX_HASH_FIELDS_*. */
615 ovs_be16 basis; /* Universal hash parameter. */
618 /* Multipath link choice algorithm to apply to hash value. */
619 ovs_be16 algorithm; /* One of NX_MP_ALG_*. */
620 ovs_be16 max_link; /* Number of output links, minus 1. */
621 ovs_be32 arg; /* Algorithm-specific argument. */
624 /* Where to store the result. */
625 ovs_be16 ofs_nbits; /* (ofs << 6) | (n_bits - 1). */
626 ovs_be32 dst; /* Destination. */
628 OFP_ASSERT(sizeof(struct nx_action_multipath) == 32);
630 /* NXAST_MULTIPATH: Multipath link choice algorithm to apply.
632 * In the descriptions below, 'n_links' is max_link + 1. */
633 enum nx_mp_algorithm {
634 /* link = hash(flow) % n_links.
636 * Redistributes all traffic when n_links changes. O(1) performance. See
639 * Use UINT16_MAX for max_link to get a raw hash value. */
642 /* link = hash(flow) / (MAX_HASH / n_links).
644 * Redistributes between one-quarter and one-half of traffic when n_links
645 * changes. O(1) performance. See RFC 2992.
647 NX_MP_ALG_HASH_THRESHOLD,
649 /* for i in [0,n_links):
650 * weights[i] = hash(flow, i)
651 * link = { i such that weights[i] >= weights[j] for all j != i }
653 * Redistributes 1/n_links of traffic when n_links changes. O(n_links)
654 * performance. If n_links is greater than a threshold (currently 64, but
655 * subject to change), Open vSwitch will substitute another algorithm
656 * automatically. See RFC 2992. */
657 NX_MP_ALG_HRW, /* Highest Random Weight. */
662 * link = hash(flow, i) % arg
663 * while link > max_link
665 * Redistributes 1/n_links of traffic when n_links changes. O(1)
666 * performance when arg/max_link is bounded by a constant.
668 * Redistributes all traffic when arg changes.
670 * arg must be greater than max_link and for best performance should be no
671 * more than approximately max_link * 2. If arg is outside the acceptable
672 * range, Open vSwitch will automatically substitute the least power of 2
673 * greater than max_link.
675 * This algorithm is specific to Open vSwitch.
677 NX_MP_ALG_ITER_HASH /* Iterative Hash. */
680 /* Action structure for NXAST_LEARN.
682 * This action adds or modifies a flow in an OpenFlow table, similar to
683 * OFPT_FLOW_MOD with OFPFC_MODIFY_STRICT as 'command'. The new flow has the
684 * specified idle timeout, hard timeout, priority, cookie, and flags. The new
685 * flow's match criteria and actions are built by applying each of the series
686 * of flow_mod_spec elements included as part of the action.
688 * A flow_mod_spec starts with a 16-bit header. A header that is all-bits-0 is
689 * a no-op used for padding the action as a whole to a multiple of 8 bytes in
690 * length. Otherwise, the flow_mod_spec can be thought of as copying 'n_bits'
691 * bits from a source to a destination. In this case, the header contains
694 * 15 14 13 12 11 10 0
695 * +------+---+------+---------------------------------+
696 * | 0 |src| dst | n_bits |
697 * +------+---+------+---------------------------------+
699 * The meaning and format of a flow_mod_spec depends on 'src' and 'dst'. The
700 * following table summarizes the meaning of each possible combination.
701 * Details follow the table:
704 * --- --- ----------------------------------------------------------
705 * 0 0 Add match criteria based on value in a field.
706 * 1 0 Add match criteria based on an immediate value.
707 * 0 1 Add NXAST_REG_LOAD action to copy field into a different field.
708 * 1 1 Add NXAST_REG_LOAD action to load immediate value into a field.
709 * 0 2 Add OFPAT_OUTPUT action to output to port from specified field.
710 * All other combinations are undefined and not allowed.
712 * The flow_mod_spec header is followed by a source specification and a
713 * destination specification. The format and meaning of the source
714 * specification depends on 'src':
716 * - If 'src' is 0, the source bits are taken from a field in the flow to
717 * which this action is attached. (This should be a wildcarded field. If
718 * its value is fully specified then the source bits being copied have
721 * The source specification is an ovs_be32 'field' and an ovs_be16 'ofs'.
722 * 'field' is an nxm_header with nxm_hasmask=0, and 'ofs' the starting bit
723 * offset within that field. The source bits are field[ofs:ofs+n_bits-1].
724 * 'field' and 'ofs' are subject to the same restrictions as the source
725 * field in NXAST_REG_MOVE.
727 * - If 'src' is 1, the source bits are a constant value. The source
728 * specification is (n_bits+15)/16*2 bytes long. Taking those bytes as a
729 * number in network order, the source bits are the 'n_bits'
730 * least-significant bits. The switch will report an error if other bits
731 * in the constant are nonzero.
733 * The flow_mod_spec destination specification, for 'dst' of 0 or 1, is an
734 * ovs_be32 'field' and an ovs_be16 'ofs'. 'field' is an nxm_header with
735 * nxm_hasmask=0 and 'ofs' is a starting bit offset within that field. The
736 * meaning of the flow_mod_spec depends on 'dst':
738 * - If 'dst' is 0, the flow_mod_spec specifies match criteria for the new
739 * flow. The new flow matches only if bits field[ofs:ofs+n_bits-1] in a
740 * packet equal the source bits. 'field' may be any nxm_header with
741 * nxm_hasmask=0 that is allowed in NXT_FLOW_MOD.
743 * Order is significant. Earlier flow_mod_specs must satisfy any
744 * prerequisites for matching fields specified later, by copying constant
745 * values into prerequisite fields.
747 * The switch will reject flow_mod_specs that do not satisfy NXM masking
750 * - If 'dst' is 1, the flow_mod_spec specifies an NXAST_REG_LOAD action for
751 * the new flow. The new flow copies the source bits into
752 * field[ofs:ofs+n_bits-1]. Actions are executed in the same order as the
755 * A single NXAST_REG_LOAD action writes no more than 64 bits, so n_bits
756 * greater than 64 yields multiple NXAST_REG_LOAD actions.
758 * The flow_mod_spec destination spec for 'dst' of 2 (when 'src' is 0) is
759 * empty. It has the following meaning:
761 * - The flow_mod_spec specifies an OFPAT_OUTPUT action for the new flow.
762 * The new flow outputs to the OpenFlow port specified by the source field.
763 * Of the special output ports with value OFPP_MAX or larger, OFPP_IN_PORT,
764 * OFPP_FLOOD, OFPP_LOCAL, and OFPP_ALL are supported. Other special ports
767 * Resource Management
768 * -------------------
770 * A switch has a finite amount of flow table space available for learning.
771 * When this space is exhausted, no new learning table entries will be learned
772 * until some existing flow table entries expire. The controller should be
773 * prepared to handle this by flooding (which can be implemented as a
774 * low-priority flow).
776 * If a learned flow matches a single TCP stream with a relatively long
777 * timeout, one may make the best of resource constraints by setting
778 * 'fin_idle_timeout' or 'fin_hard_timeout' (both measured in seconds), or
779 * both, to shorter timeouts. When either of these is specified as a nonzero
780 * value, OVS adds a NXAST_FIN_TIMEOUT action, with the specified timeouts, to
786 * The following examples give a prose description of the flow_mod_specs along
787 * with informal notation for how those would be represented and a hex dump of
788 * the bytes that would be required.
790 * These examples could work with various nx_action_learn parameters. Typical
791 * values would be idle_timeout=OFP_FLOW_PERMANENT, hard_timeout=60,
792 * priority=OFP_DEFAULT_PRIORITY, flags=0, table_id=10.
794 * 1. Learn input port based on the source MAC, with lookup into
795 * NXM_NX_REG1[16:31] by resubmit to in_port=99:
797 * Match on in_port=99:
798 * ovs_be16(src=1, dst=0, n_bits=16), 20 10
799 * ovs_be16(99), 00 63
800 * ovs_be32(NXM_OF_IN_PORT), ovs_be16(0) 00 00 00 02 00 00
802 * Match Ethernet destination on Ethernet source from packet:
803 * ovs_be16(src=0, dst=0, n_bits=48), 00 30
804 * ovs_be32(NXM_OF_ETH_SRC), ovs_be16(0) 00 00 04 06 00 00
805 * ovs_be32(NXM_OF_ETH_DST), ovs_be16(0) 00 00 02 06 00 00
807 * Set NXM_NX_REG1[16:31] to the packet's input port:
808 * ovs_be16(src=0, dst=1, n_bits=16), 08 10
809 * ovs_be32(NXM_OF_IN_PORT), ovs_be16(0) 00 00 00 02 00 00
810 * ovs_be32(NXM_NX_REG1), ovs_be16(16) 00 01 02 04 00 10
812 * Given a packet that arrived on port A with Ethernet source address B,
813 * this would set up the flow "in_port=99, dl_dst=B,
814 * actions=load:A->NXM_NX_REG1[16..31]".
816 * In syntax accepted by ovs-ofctl, this action is: learn(in_port=99,
817 * NXM_OF_ETH_DST[]=NXM_OF_ETH_SRC[],
818 * load:NXM_OF_IN_PORT[]->NXM_NX_REG1[16..31])
820 * 2. Output to input port based on the source MAC and VLAN VID, with lookup
821 * into NXM_NX_REG1[16:31]:
823 * Match on same VLAN ID as packet:
824 * ovs_be16(src=0, dst=0, n_bits=12), 00 0c
825 * ovs_be32(NXM_OF_VLAN_TCI), ovs_be16(0) 00 00 08 02 00 00
826 * ovs_be32(NXM_OF_VLAN_TCI), ovs_be16(0) 00 00 08 02 00 00
828 * Match Ethernet destination on Ethernet source from packet:
829 * ovs_be16(src=0, dst=0, n_bits=48), 00 30
830 * ovs_be32(NXM_OF_ETH_SRC), ovs_be16(0) 00 00 04 06 00 00
831 * ovs_be32(NXM_OF_ETH_DST), ovs_be16(0) 00 00 02 06 00 00
833 * Output to the packet's input port:
834 * ovs_be16(src=0, dst=2, n_bits=16), 10 10
835 * ovs_be32(NXM_OF_IN_PORT), ovs_be16(0) 00 00 00 02 00 00
837 * Given a packet that arrived on port A with Ethernet source address B in
838 * VLAN C, this would set up the flow "dl_dst=B, vlan_vid=C,
841 * In syntax accepted by ovs-ofctl, this action is:
842 * learn(NXM_OF_VLAN_TCI[0..11], NXM_OF_ETH_DST[]=NXM_OF_ETH_SRC[],
843 * output:NXM_OF_IN_PORT[])
845 * 3. Here's a recipe for a very simple-minded MAC learning switch. It uses a
846 * 10-second MAC expiration time to make it easier to see what's going on
848 * ovs-vsctl del-controller br0
849 * ovs-ofctl del-flows br0
850 * ovs-ofctl add-flow br0 "table=0 actions=learn(table=1, \
851 hard_timeout=10, NXM_OF_VLAN_TCI[0..11], \
852 NXM_OF_ETH_DST[]=NXM_OF_ETH_SRC[], \
853 output:NXM_OF_IN_PORT[]), resubmit(,1)"
854 * ovs-ofctl add-flow br0 "table=1 priority=0 actions=flood"
856 * You can then dump the MAC learning table with:
858 * ovs-ofctl dump-flows br0 table=1
863 * For best performance, segregate learned flows into a table that is not used
864 * for any other flows except possibly for a lowest-priority "catch-all" flow
865 * (a flow with no match criteria). If different learning actions specify
866 * different match criteria, use different tables for the learned flows.
868 * The meaning of 'hard_timeout' and 'idle_timeout' can be counterintuitive.
869 * These timeouts apply to the flow that is added, which means that a flow with
870 * an idle timeout will expire when no traffic has been sent *to* the learned
871 * address. This is not usually the intent in MAC learning; instead, we want
872 * the MAC learn entry to expire when no traffic has been sent *from* the
873 * learned address. Use a hard timeout for that.
875 struct nx_action_learn {
876 ovs_be16 type; /* OFPAT_VENDOR. */
877 ovs_be16 len; /* At least 24. */
878 ovs_be32 vendor; /* NX_VENDOR_ID. */
879 ovs_be16 subtype; /* NXAST_LEARN. */
880 ovs_be16 idle_timeout; /* Idle time before discarding (seconds). */
881 ovs_be16 hard_timeout; /* Max time before discarding (seconds). */
882 ovs_be16 priority; /* Priority level of flow entry. */
883 ovs_be64 cookie; /* Cookie for new flow. */
884 ovs_be16 flags; /* Either 0 or OFPFF_SEND_FLOW_REM. */
885 uint8_t table_id; /* Table to insert flow entry. */
886 uint8_t pad; /* Must be zero. */
887 ovs_be16 fin_idle_timeout; /* Idle timeout after FIN, if nonzero. */
888 ovs_be16 fin_hard_timeout; /* Hard timeout after FIN, if nonzero. */
889 /* Followed by a sequence of flow_mod_spec elements, as described above,
890 * until the end of the action is reached. */
892 OFP_ASSERT(sizeof(struct nx_action_learn) == 32);
894 #define NX_LEARN_N_BITS_MASK 0x3ff
896 #define NX_LEARN_SRC_FIELD (0 << 13) /* Copy from field. */
897 #define NX_LEARN_SRC_IMMEDIATE (1 << 13) /* Copy from immediate value. */
898 #define NX_LEARN_SRC_MASK (1 << 13)
900 #define NX_LEARN_DST_MATCH (0 << 11) /* Add match criterion. */
901 #define NX_LEARN_DST_LOAD (1 << 11) /* Add NXAST_REG_LOAD action. */
902 #define NX_LEARN_DST_OUTPUT (2 << 11) /* Add OFPAT_OUTPUT action. */
903 #define NX_LEARN_DST_RESERVED (3 << 11) /* Not yet defined. */
904 #define NX_LEARN_DST_MASK (3 << 11)
906 /* Action structure for NXAST_FIN_TIMEOUT.
908 * This action changes the idle timeout or hard timeout, or both, of this
909 * OpenFlow rule when the rule matches a TCP packet with the FIN or RST flag.
910 * When such a packet is observed, the action reduces the rule's idle timeout
911 * to 'fin_idle_timeout' and its hard timeout to 'fin_hard_timeout'. This
912 * action has no effect on an existing timeout that is already shorter than the
913 * one that the action specifies. A 'fin_idle_timeout' or 'fin_hard_timeout'
914 * of zero has no effect on the respective timeout.
916 * 'fin_idle_timeout' and 'fin_hard_timeout' are measured in seconds.
917 * 'fin_hard_timeout' specifies time since the flow's creation, not since the
918 * receipt of the FIN or RST.
920 * This is useful for quickly discarding learned TCP flows that otherwise will
921 * take a long time to expire.
923 * This action is intended for use with an OpenFlow rule that matches only a
924 * single TCP flow. If the rule matches multiple TCP flows (e.g. it wildcards
925 * all TCP traffic, or all TCP traffic to a particular port), then any FIN or
926 * RST in any of those flows will cause the entire OpenFlow rule to expire
927 * early, which is not normally desirable.
929 struct nx_action_fin_timeout {
930 ovs_be16 type; /* OFPAT_VENDOR. */
931 ovs_be16 len; /* 16. */
932 ovs_be32 vendor; /* NX_VENDOR_ID. */
933 ovs_be16 subtype; /* NXAST_FIN_TIMEOUT. */
934 ovs_be16 fin_idle_timeout; /* New idle timeout, if nonzero. */
935 ovs_be16 fin_hard_timeout; /* New hard timeout, if nonzero. */
936 ovs_be16 pad; /* Must be zero. */
938 OFP_ASSERT(sizeof(struct nx_action_fin_timeout) == 16);
940 /* Action structure for NXAST_AUTOPATH.
942 * This action performs the following steps in sequence:
944 * 1. Hashes the flow using an implementation-defined hash function.
946 * The hashed fields' values are drawn from the current state of the
947 * flow, including all modifications that have been made by actions up to
950 * 2. Selects an OpenFlow 'port'.
952 * 'port' is selected in an implementation-defined manner, taking into
953 * account 'id' and the hash value calculated in step 1.
955 * Generally a switch will have been configured with a set of ports that
956 * may be chosen given 'id'. The switch may take into account any number
957 * of factors when choosing 'port' from its configured set. Factors may
958 * include carrier, load, and the results of configuration protocols such
961 * 3. Stores 'port' in dst[ofs:ofs+n_bits].
963 * The format and semantics of 'dst' and 'ofs_nbits' are similar to those
964 * for the NXAST_REG_LOAD action.
966 * The switch will reject actions in which ofs+n_bits is greater than the width
967 * of 'dst', with error type OFPET_BAD_ACTION, code OFPBAC_BAD_ARGUMENT.
969 struct nx_action_autopath {
970 ovs_be16 type; /* OFPAT_VENDOR. */
971 ovs_be16 len; /* Length is 24. */
972 ovs_be32 vendor; /* NX_VENDOR_ID. */
973 ovs_be16 subtype; /* NXAST_AUTOPATH. */
975 /* Where to store the result. */
976 ovs_be16 ofs_nbits; /* (ofs << 6) | (n_bits - 1). */
977 ovs_be32 dst; /* Destination. */
979 ovs_be32 id; /* Autopath ID. */
982 OFP_ASSERT(sizeof(struct nx_action_autopath) == 24);
984 /* Action structure for NXAST_BUNDLE and NXAST_BUNDLE_LOAD.
986 * The bundle actions choose a slave from a supplied list of options.
987 * NXAST_BUNDLE outputs to its selection. NXAST_BUNDLE_LOAD writes its
988 * selection to a register.
990 * The list of possible slaves follows the nx_action_bundle structure. The size
991 * of each slave is governed by its type as indicated by the 'slave_type'
992 * parameter. The list of slaves should be padded at its end with zeros to make
993 * the total length of the action a multiple of 8.
995 * Switches infer from the 'slave_type' parameter the size of each slave. All
996 * implementations must support the NXM_OF_IN_PORT 'slave_type' which indicates
997 * that the slaves are OpenFlow port numbers with NXM_LENGTH(NXM_OF_IN_PORT) ==
998 * 2 byte width. Switches should reject actions which indicate unknown or
999 * unsupported slave types.
1001 * Switches use a strategy dictated by the 'algorithm' parameter to choose a
1002 * slave. If the switch does not support the specified 'algorithm' parameter,
1003 * it should reject the action.
1005 * Several algorithms take into account liveness when selecting slaves. The
1006 * liveness of a slave is implementation defined (with one exception), but will
1007 * generally take into account things like its carrier status and the results
1008 * of any link monitoring protocols which happen to be running on it. In order
1009 * to give controllers a place-holder value, the OFPP_NONE port is always
1012 * Some slave selection strategies require the use of a hash function, in which
1013 * case the 'fields' and 'basis' parameters should be populated. The 'fields'
1014 * parameter (one of NX_HASH_FIELDS_*) designates which parts of the flow to
1015 * hash. Refer to the definition of "enum nx_hash_fields" for details. The
1016 * 'basis' parameter is used as a universal hash parameter. Different values
1017 * of 'basis' yield different hash results.
1019 * The 'zero' parameter at the end of the action structure is reserved for
1020 * future use. Switches are required to reject actions which have nonzero
1021 * bytes in the 'zero' field.
1023 * NXAST_BUNDLE actions should have 'ofs_nbits' and 'dst' zeroed. Switches
1024 * should reject actions which have nonzero bytes in either of these fields.
1026 * NXAST_BUNDLE_LOAD stores the OpenFlow port number of the selected slave in
1027 * dst[ofs:ofs+n_bits]. The format and semantics of 'dst' and 'ofs_nbits' are
1028 * similar to those for the NXAST_REG_LOAD action. */
1029 struct nx_action_bundle {
1030 ovs_be16 type; /* OFPAT_VENDOR. */
1031 ovs_be16 len; /* Length including slaves. */
1032 ovs_be32 vendor; /* NX_VENDOR_ID. */
1033 ovs_be16 subtype; /* NXAST_BUNDLE or NXAST_BUNDLE_LOAD. */
1035 /* Slave choice algorithm to apply to hash value. */
1036 ovs_be16 algorithm; /* One of NX_BD_ALG_*. */
1038 /* What fields to hash and how. */
1039 ovs_be16 fields; /* One of NX_HASH_FIELDS_*. */
1040 ovs_be16 basis; /* Universal hash parameter. */
1042 ovs_be32 slave_type; /* NXM_OF_IN_PORT. */
1043 ovs_be16 n_slaves; /* Number of slaves. */
1045 ovs_be16 ofs_nbits; /* (ofs << 6) | (n_bits - 1). */
1046 ovs_be32 dst; /* Destination. */
1048 uint8_t zero[4]; /* Reserved. Must be zero. */
1050 OFP_ASSERT(sizeof(struct nx_action_bundle) == 32);
1052 /* NXAST_BUNDLE: Bundle slave choice algorithm to apply.
1054 * In the descriptions below, 'slaves' is the list of possible slaves in the
1055 * order they appear in the OpenFlow action. */
1056 enum nx_bd_algorithm {
1057 /* Chooses the first live slave listed in the bundle.
1059 * O(n_slaves) performance. */
1060 NX_BD_ALG_ACTIVE_BACKUP,
1062 /* for i in [0,n_slaves):
1063 * weights[i] = hash(flow, i)
1064 * slave = { slaves[i] such that weights[i] >= weights[j] for all j != i }
1066 * Redistributes 1/n_slaves of traffic when a slave's liveness changes.
1067 * O(n_slaves) performance.
1069 * Uses the 'fields' and 'basis' parameters. */
1070 NX_BD_ALG_HRW /* Highest Random Weight. */
1074 /* Action structure for NXAST_DEC_TTL_CNT_IDS.
1076 * If the packet is not IPv4 or IPv6, does nothing. For IPv4 or IPv6, if the
1077 * TTL or hop limit is at least 2, decrements it by 1. Otherwise, if TTL or
1078 * hop limit is 0 or 1, sends a packet-in to the controllers with each of the
1079 * 'n_controllers' controller IDs specified in 'cnt_ids'.
1081 * (This differs from NXAST_DEC_TTL in that for NXAST_DEC_TTL the packet-in is
1082 * sent only to controllers with id 0.)
1084 struct nx_action_cnt_ids {
1085 ovs_be16 type; /* OFPAT_VENDOR. */
1086 ovs_be16 len; /* Length including slaves. */
1087 ovs_be32 vendor; /* NX_VENDOR_ID. */
1088 ovs_be16 subtype; /* NXAST_DEC_TTL_CNT_IDS. */
1090 ovs_be16 n_controllers; /* Number of controllers. */
1091 uint8_t zeros[4]; /* Must be zero. */
1093 /* Followed by 1 or more controller ids.
1095 * uint16_t cnt_ids[]; // Controller ids.
1096 * uint8_t pad[]; // Must be 0 to 8-byte align cnt_ids[].
1099 OFP_ASSERT(sizeof(struct nx_action_cnt_ids) == 16);
1102 /* Action structure for NXAST_OUTPUT_REG.
1104 * Outputs to the OpenFlow port number written to src[ofs:ofs+nbits].
1106 * The format and semantics of 'src' and 'ofs_nbits' are similar to those for
1107 * the NXAST_REG_LOAD action.
1109 * The acceptable nxm_header values for 'src' are the same as the acceptable
1110 * nxm_header values for the 'src' field of NXAST_REG_MOVE.
1112 * The 'max_len' field indicates the number of bytes to send when the chosen
1113 * port is OFPP_CONTROLLER. Its semantics are equivalent to the 'max_len'
1114 * field of OFPAT_OUTPUT.
1116 * The 'zero' field is required to be zeroed for forward compatibility. */
1117 struct nx_action_output_reg {
1118 ovs_be16 type; /* OFPAT_VENDOR. */
1119 ovs_be16 len; /* 24. */
1120 ovs_be32 vendor; /* NX_VENDOR_ID. */
1121 ovs_be16 subtype; /* NXAST_OUTPUT_REG. */
1123 ovs_be16 ofs_nbits; /* (ofs << 6) | (n_bits - 1). */
1124 ovs_be32 src; /* Source. */
1126 ovs_be16 max_len; /* Max length to send to controller. */
1128 uint8_t zero[6]; /* Reserved, must be zero. */
1130 OFP_ASSERT(sizeof(struct nx_action_output_reg) == 24);
1134 * Discontinues action processing.
1136 * The NXAST_EXIT action causes the switch to immediately halt processing
1137 * actions for the flow. Any actions which have already been processed are
1138 * executed by the switch. However, any further actions, including those which
1139 * may be in different tables, or different levels of the NXAST_RESUBMIT
1140 * hierarchy, will be ignored.
1142 * Uses the nx_action_header structure. */
1144 /* Flexible flow specifications (aka NXM = Nicira Extended Match).
1146 * OpenFlow 1.0 has "struct ofp10_match" for specifying flow matches. This
1147 * structure is fixed-length and hence difficult to extend. This section
1148 * describes a more flexible, variable-length flow match, called "nx_match" for
1149 * short, that is also supported by Open vSwitch. This section also defines a
1150 * replacement for each OpenFlow message that includes struct ofp10_match.
1156 * An nx_match is a sequence of zero or more "nxm_entry"s, which are
1157 * type-length-value (TLV) entries, each 5 to 259 (inclusive) bytes long.
1158 * "nxm_entry"s are not aligned on or padded to any multibyte boundary. The
1159 * first 4 bytes of an nxm_entry are its "header", followed by the entry's
1162 * An nxm_entry's header is interpreted as a 32-bit word in network byte order:
1164 * |<-------------------- nxm_type ------------------>|
1166 * |31 16 15 9| 8 7 0
1167 * +----------------------------------+---------------+--+------------------+
1168 * | nxm_vendor | nxm_field |hm| nxm_length |
1169 * +----------------------------------+---------------+--+------------------+
1171 * The most-significant 23 bits of the header are collectively "nxm_type".
1172 * Bits 16...31 are "nxm_vendor", one of the NXM_VENDOR_* values below. Bits
1173 * 9...15 are "nxm_field", which is a vendor-specific value. nxm_type normally
1174 * designates a protocol header, such as the Ethernet type, but it can also
1175 * refer to packet metadata, such as the switch port on which a packet arrived.
1177 * Bit 8 is "nxm_hasmask" (labeled "hm" above for space reasons). The meaning
1178 * of this bit is explained later.
1180 * The least-significant 8 bits are "nxm_length", a positive integer. The
1181 * length of the nxm_entry, including the header, is exactly 4 + nxm_length
1184 * For a given nxm_vendor, nxm_field, and nxm_hasmask value, nxm_length is a
1185 * constant. It is included only to allow software to minimally parse
1186 * "nxm_entry"s of unknown types. (Similarly, for a given nxm_vendor,
1187 * nxm_field, and nxm_length, nxm_hasmask is a constant.)
1193 * A zero-length nx_match (one with no "nxm_entry"s) matches every packet.
1195 * An nxm_entry places a constraint on the packets matched by the nx_match:
1197 * - If nxm_hasmask is 0, the nxm_entry's body contains a value for the
1198 * field, called "nxm_value". The nx_match matches only packets in which
1199 * the field equals nxm_value.
1201 * - If nxm_hasmask is 1, then the nxm_entry's body contains a value for the
1202 * field (nxm_value), followed by a bitmask of the same length as the
1203 * value, called "nxm_mask". For each 1-bit in position J in nxm_mask, the
1204 * nx_match matches only packets for which bit J in the given field's value
1205 * matches bit J in nxm_value. A 0-bit in nxm_mask causes the
1206 * corresponding bits in nxm_value and the field's value to be ignored.
1207 * (The sense of the nxm_mask bits is the opposite of that used by the
1208 * "wildcards" member of struct ofp10_match.)
1210 * When nxm_hasmask is 1, nxm_length is always even.
1212 * An all-zero-bits nxm_mask is equivalent to omitting the nxm_entry
1213 * entirely. An all-one-bits nxm_mask is equivalent to specifying 0 for
1216 * When there are multiple "nxm_entry"s, all of the constraints must be met.
1222 * Masks may be restricted:
1224 * - Some nxm_types may not support masked wildcards, that is, nxm_hasmask
1225 * must always be 0 when these fields are specified. For example, the
1226 * field that identifies the port on which a packet was received may not be
1229 * - Some nxm_types that do support masked wildcards may only support certain
1230 * nxm_mask patterns. For example, fields that have IPv4 address values
1231 * may be restricted to CIDR masks.
1233 * These restrictions should be noted in specifications for individual fields.
1234 * A switch may accept an nxm_hasmask or nxm_mask value that the specification
1235 * disallows, if the switch correctly implements support for that nxm_hasmask
1236 * or nxm_mask value. A switch must reject an attempt to set up a flow that
1237 * contains a nxm_hasmask or nxm_mask value that it does not support.
1240 * Prerequisite Restrictions
1241 * =========================
1243 * The presence of an nxm_entry with a given nxm_type may be restricted based
1244 * on the presence of or values of other "nxm_entry"s. For example:
1246 * - An nxm_entry for nxm_type=NXM_OF_IP_TOS is allowed only if it is
1247 * preceded by another entry with nxm_type=NXM_OF_ETH_TYPE, nxm_hasmask=0,
1248 * and nxm_value=0x0800. That is, matching on the IP source address is
1249 * allowed only if the Ethernet type is explicitly set to IP.
1251 * - An nxm_entry for nxm_type=NXM_OF_TCP_SRC is allowed only if it is
1252 * preceded by an entry with nxm_type=NXM_OF_ETH_TYPE, nxm_hasmask=0, and
1253 * nxm_value either 0x0800 or 0x86dd, and another with
1254 * nxm_type=NXM_OF_IP_PROTO, nxm_hasmask=0, nxm_value=6, in that order.
1255 * That is, matching on the TCP source port is allowed only if the Ethernet
1256 * type is IP or IPv6 and the IP protocol is TCP.
1258 * These restrictions should be noted in specifications for individual fields.
1259 * A switch may implement relaxed versions of these restrictions. A switch
1260 * must reject an attempt to set up a flow that violates its restrictions.
1263 * Ordering Restrictions
1264 * =====================
1266 * An nxm_entry that has prerequisite restrictions must appear after the
1267 * "nxm_entry"s for its prerequisites. Ordering of "nxm_entry"s within an
1268 * nx_match is not otherwise constrained.
1270 * Any given nxm_type may appear in an nx_match at most once.
1273 * nxm_entry Examples
1274 * ==================
1276 * These examples show the format of a single nxm_entry with particular
1277 * nxm_hasmask and nxm_length values. The diagrams are labeled with field
1278 * numbers and byte indexes.
1281 * 8-bit nxm_value, nxm_hasmask=1, nxm_length=2:
1284 * +------------+---+---+
1285 * | header | v | m |
1286 * +------------+---+---+
1289 * 16-bit nxm_value, nxm_hasmask=0, nxm_length=2:
1292 * +------------+------+
1294 * +------------+------+
1297 * 32-bit nxm_value, nxm_hasmask=0, nxm_length=4:
1300 * +------------+-------------+
1301 * | header | nxm_value |
1302 * +------------+-------------+
1305 * 48-bit nxm_value, nxm_hasmask=0, nxm_length=6:
1308 * +------------+------------------+
1309 * | header | nxm_value |
1310 * +------------+------------------+
1313 * 48-bit nxm_value, nxm_hasmask=1, nxm_length=12:
1316 * +------------+------------------+------------------+
1317 * | header | nxm_value | nxm_mask |
1318 * +------------+------------------+------------------+
1324 * A switch should report an error in an nx_match using error type
1325 * OFPET_BAD_REQUEST and one of the NXBRC_NXM_* codes. Ideally the switch
1326 * should report a specific error code, if one is assigned for the particular
1327 * problem, but NXBRC_NXM_INVALID is also available to report a generic
1331 #define NXM_HEADER__(VENDOR, FIELD, HASMASK, LENGTH) \
1332 (((VENDOR) << 16) | ((FIELD) << 9) | ((HASMASK) << 8) | (LENGTH))
1333 #define NXM_HEADER(VENDOR, FIELD, LENGTH) \
1334 NXM_HEADER__(VENDOR, FIELD, 0, LENGTH)
1335 #define NXM_HEADER_W(VENDOR, FIELD, LENGTH) \
1336 NXM_HEADER__(VENDOR, FIELD, 1, (LENGTH) * 2)
1337 #define NXM_VENDOR(HEADER) ((HEADER) >> 16)
1338 #define NXM_FIELD(HEADER) (((HEADER) >> 9) & 0x7f)
1339 #define NXM_TYPE(HEADER) (((HEADER) >> 9) & 0x7fffff)
1340 #define NXM_HASMASK(HEADER) (((HEADER) >> 8) & 1)
1341 #define NXM_LENGTH(HEADER) ((HEADER) & 0xff)
1343 #define NXM_MAKE_WILD_HEADER(HEADER) \
1344 NXM_HEADER_W(NXM_VENDOR(HEADER), NXM_FIELD(HEADER), NXM_LENGTH(HEADER))
1346 /* ## ------------------------------- ## */
1347 /* ## OpenFlow 1.0-compatible fields. ## */
1348 /* ## ------------------------------- ## */
1350 /* Physical or virtual port on which the packet was received.
1354 * Format: 16-bit integer in network byte order.
1356 * Masking: Not maskable. */
1357 #define NXM_OF_IN_PORT NXM_HEADER (0x0000, 0, 2)
1359 /* Source or destination address in Ethernet header.
1363 * Format: 48-bit Ethernet MAC address.
1365 * Masking: Fully maskable, in versions 1.8 and later. Earlier versions only
1366 * supported the following masks for NXM_OF_ETH_DST_W: 00:00:00:00:00:00,
1367 * fe:ff:ff:ff:ff:ff, 01:00:00:00:00:00, ff:ff:ff:ff:ff:ff. */
1368 #define NXM_OF_ETH_DST NXM_HEADER (0x0000, 1, 6)
1369 #define NXM_OF_ETH_DST_W NXM_HEADER_W(0x0000, 1, 6)
1370 #define NXM_OF_ETH_SRC NXM_HEADER (0x0000, 2, 6)
1371 #define NXM_OF_ETH_SRC_W NXM_HEADER_W(0x0000, 2, 6)
1373 /* Packet's Ethernet type.
1375 * For an Ethernet II packet this is taken from the Ethernet header. For an
1376 * 802.2 LLC+SNAP header with OUI 00-00-00 this is taken from the SNAP header.
1377 * A packet that has neither format has value 0x05ff
1378 * (OFP_DL_TYPE_NOT_ETH_TYPE).
1380 * For a packet with an 802.1Q header, this is the type of the encapsulated
1385 * Format: 16-bit integer in network byte order.
1387 * Masking: Not maskable. */
1388 #define NXM_OF_ETH_TYPE NXM_HEADER (0x0000, 3, 2)
1392 * For a packet with an 802.1Q header, this is the Tag Control Information
1393 * (TCI) field, with the CFI bit forced to 1. For a packet with no 802.1Q
1394 * header, this has value 0.
1398 * Format: 16-bit integer in network byte order.
1400 * Masking: Arbitrary masks.
1402 * This field can be used in various ways:
1404 * - If it is not constrained at all, the nx_match matches packets without
1405 * an 802.1Q header or with an 802.1Q header that has any TCI value.
1407 * - Testing for an exact match with 0 matches only packets without an
1410 * - Testing for an exact match with a TCI value with CFI=1 matches packets
1411 * that have an 802.1Q header with a specified VID and PCP.
1413 * - Testing for an exact match with a nonzero TCI value with CFI=0 does
1414 * not make sense. The switch may reject this combination.
1416 * - Testing with a specific VID and CFI=1, with nxm_mask=0x1fff, matches
1417 * packets that have an 802.1Q header with that VID (and any PCP).
1419 * - Testing with a specific PCP and CFI=1, with nxm_mask=0xf000, matches
1420 * packets that have an 802.1Q header with that PCP (and any VID).
1422 * - Testing with nxm_value=0, nxm_mask=0x0fff matches packets with no 802.1Q
1423 * header or with an 802.1Q header with a VID of 0.
1425 * - Testing with nxm_value=0, nxm_mask=0xe000 matches packets with no 802.1Q
1426 * header or with an 802.1Q header with a PCP of 0.
1428 * - Testing with nxm_value=0, nxm_mask=0xefff matches packets with no 802.1Q
1429 * header or with an 802.1Q header with both VID and PCP of 0.
1431 #define NXM_OF_VLAN_TCI NXM_HEADER (0x0000, 4, 2)
1432 #define NXM_OF_VLAN_TCI_W NXM_HEADER_W(0x0000, 4, 2)
1434 /* The "type of service" byte of the IP header, with the ECN bits forced to 0.
1436 * Prereqs: NXM_OF_ETH_TYPE must be either 0x0800 or 0x86dd.
1438 * Format: 8-bit integer with 2 least-significant bits forced to 0.
1440 * Masking: Not maskable. */
1441 #define NXM_OF_IP_TOS NXM_HEADER (0x0000, 5, 1)
1443 /* The "protocol" byte in the IP header.
1445 * Prereqs: NXM_OF_ETH_TYPE must be either 0x0800 or 0x86dd.
1447 * Format: 8-bit integer.
1449 * Masking: Not maskable. */
1450 #define NXM_OF_IP_PROTO NXM_HEADER (0x0000, 6, 1)
1452 /* The source or destination address in the IP header.
1454 * Prereqs: NXM_OF_ETH_TYPE must match 0x0800 exactly.
1456 * Format: 32-bit integer in network byte order.
1458 * Masking: Fully maskable, in Open vSwitch 1.8 and later. In earlier
1459 * versions, only CIDR masks are allowed, that is, masks that consist of N
1460 * high-order bits set to 1 and the other 32-N bits set to 0. */
1461 #define NXM_OF_IP_SRC NXM_HEADER (0x0000, 7, 4)
1462 #define NXM_OF_IP_SRC_W NXM_HEADER_W(0x0000, 7, 4)
1463 #define NXM_OF_IP_DST NXM_HEADER (0x0000, 8, 4)
1464 #define NXM_OF_IP_DST_W NXM_HEADER_W(0x0000, 8, 4)
1466 /* The source or destination port in the TCP header.
1469 * NXM_OF_ETH_TYPE must be either 0x0800 or 0x86dd.
1470 * NXM_OF_IP_PROTO must match 6 exactly.
1472 * Format: 16-bit integer in network byte order.
1474 * Masking: Fully maskable, in Open vSwitch 1.6 and later. Not maskable, in
1475 * earlier versions. */
1476 #define NXM_OF_TCP_SRC NXM_HEADER (0x0000, 9, 2)
1477 #define NXM_OF_TCP_SRC_W NXM_HEADER_W(0x0000, 9, 2)
1478 #define NXM_OF_TCP_DST NXM_HEADER (0x0000, 10, 2)
1479 #define NXM_OF_TCP_DST_W NXM_HEADER_W(0x0000, 10, 2)
1481 /* The source or destination port in the UDP header.
1484 * NXM_OF_ETH_TYPE must match either 0x0800 or 0x86dd.
1485 * NXM_OF_IP_PROTO must match 17 exactly.
1487 * Format: 16-bit integer in network byte order.
1489 * Masking: Fully maskable, in Open vSwitch 1.6 and later. Not maskable, in
1490 * earlier versions. */
1491 #define NXM_OF_UDP_SRC NXM_HEADER (0x0000, 11, 2)
1492 #define NXM_OF_UDP_SRC_W NXM_HEADER_W(0x0000, 11, 2)
1493 #define NXM_OF_UDP_DST NXM_HEADER (0x0000, 12, 2)
1494 #define NXM_OF_UDP_DST_W NXM_HEADER_W(0x0000, 12, 2)
1496 /* The type or code in the ICMP header.
1499 * NXM_OF_ETH_TYPE must match 0x0800 exactly.
1500 * NXM_OF_IP_PROTO must match 1 exactly.
1502 * Format: 8-bit integer.
1504 * Masking: Not maskable. */
1505 #define NXM_OF_ICMP_TYPE NXM_HEADER (0x0000, 13, 1)
1506 #define NXM_OF_ICMP_CODE NXM_HEADER (0x0000, 14, 1)
1510 * For an Ethernet+IP ARP packet, the opcode in the ARP header. Always 0
1511 * otherwise. Only ARP opcodes between 1 and 255 should be specified for
1514 * Prereqs: NXM_OF_ETH_TYPE must match 0x0806 exactly.
1516 * Format: 16-bit integer in network byte order.
1518 * Masking: Not maskable. */
1519 #define NXM_OF_ARP_OP NXM_HEADER (0x0000, 15, 2)
1521 /* For an Ethernet+IP ARP packet, the source or target protocol address
1522 * in the ARP header. Always 0 otherwise.
1524 * Prereqs: NXM_OF_ETH_TYPE must match 0x0806 exactly.
1526 * Format: 32-bit integer in network byte order.
1528 * Masking: Fully maskable, in Open vSwitch 1.8 and later. In earlier
1529 * versions, only CIDR masks are allowed, that is, masks that consist of N
1530 * high-order bits set to 1 and the other 32-N bits set to 0. */
1531 #define NXM_OF_ARP_SPA NXM_HEADER (0x0000, 16, 4)
1532 #define NXM_OF_ARP_SPA_W NXM_HEADER_W(0x0000, 16, 4)
1533 #define NXM_OF_ARP_TPA NXM_HEADER (0x0000, 17, 4)
1534 #define NXM_OF_ARP_TPA_W NXM_HEADER_W(0x0000, 17, 4)
1536 /* ## ------------------------ ## */
1537 /* ## Nicira match extensions. ## */
1538 /* ## ------------------------ ## */
1540 /* Metadata registers.
1542 * Registers initially have value 0. Actions allow register values to be
1547 * Format: Array of 32-bit integer registers. Space is reserved for up to
1548 * NXM_NX_MAX_REGS registers, but switches may implement fewer.
1550 * Masking: Arbitrary masks. */
1551 #define NXM_NX_MAX_REGS 16
1552 #define NXM_NX_REG(IDX) NXM_HEADER (0x0001, IDX, 4)
1553 #define NXM_NX_REG_W(IDX) NXM_HEADER_W(0x0001, IDX, 4)
1554 #define NXM_NX_REG_IDX(HEADER) NXM_FIELD(HEADER)
1555 #define NXM_IS_NX_REG(HEADER) (!((((HEADER) ^ NXM_NX_REG0)) & 0xffffe1ff))
1556 #define NXM_IS_NX_REG_W(HEADER) (!((((HEADER) ^ NXM_NX_REG0_W)) & 0xffffe1ff))
1557 #define NXM_NX_REG0 NXM_HEADER (0x0001, 0, 4)
1558 #define NXM_NX_REG0_W NXM_HEADER_W(0x0001, 0, 4)
1559 #define NXM_NX_REG1 NXM_HEADER (0x0001, 1, 4)
1560 #define NXM_NX_REG1_W NXM_HEADER_W(0x0001, 1, 4)
1561 #define NXM_NX_REG2 NXM_HEADER (0x0001, 2, 4)
1562 #define NXM_NX_REG2_W NXM_HEADER_W(0x0001, 2, 4)
1563 #define NXM_NX_REG3 NXM_HEADER (0x0001, 3, 4)
1564 #define NXM_NX_REG3_W NXM_HEADER_W(0x0001, 3, 4)
1565 #define NXM_NX_REG4 NXM_HEADER (0x0001, 4, 4)
1566 #define NXM_NX_REG4_W NXM_HEADER_W(0x0001, 4, 4)
1567 #define NXM_NX_REG5 NXM_HEADER (0x0001, 5, 4)
1568 #define NXM_NX_REG5_W NXM_HEADER_W(0x0001, 5, 4)
1569 #define NXM_NX_REG6 NXM_HEADER (0x0001, 6, 4)
1570 #define NXM_NX_REG6_W NXM_HEADER_W(0x0001, 6, 4)
1571 #define NXM_NX_REG7 NXM_HEADER (0x0001, 7, 4)
1572 #define NXM_NX_REG7_W NXM_HEADER_W(0x0001, 7, 4)
1576 * For a packet received via GRE tunnel including a (32-bit) key, the key is
1577 * stored in the low 32-bits and the high bits are zeroed. For other packets,
1582 * Format: 64-bit integer in network byte order.
1584 * Masking: Arbitrary masks. */
1585 #define NXM_NX_TUN_ID NXM_HEADER (0x0001, 16, 8)
1586 #define NXM_NX_TUN_ID_W NXM_HEADER_W(0x0001, 16, 8)
1588 /* For an Ethernet+IP ARP packet, the source or target hardware address
1589 * in the ARP header. Always 0 otherwise.
1591 * Prereqs: NXM_OF_ETH_TYPE must match 0x0806 exactly.
1593 * Format: 48-bit Ethernet MAC address.
1595 * Masking: Not maskable. */
1596 #define NXM_NX_ARP_SHA NXM_HEADER (0x0001, 17, 6)
1597 #define NXM_NX_ARP_THA NXM_HEADER (0x0001, 18, 6)
1599 /* The source or destination address in the IPv6 header.
1601 * Prereqs: NXM_OF_ETH_TYPE must match 0x86dd exactly.
1603 * Format: 128-bit IPv6 address.
1605 * Masking: Fully maskable, in Open vSwitch 1.8 and later. In previous
1606 * versions, only CIDR masks are allowed, that is, masks that consist of N
1607 * high-order bits set to 1 and the other 128-N bits set to 0. */
1608 #define NXM_NX_IPV6_SRC NXM_HEADER (0x0001, 19, 16)
1609 #define NXM_NX_IPV6_SRC_W NXM_HEADER_W(0x0001, 19, 16)
1610 #define NXM_NX_IPV6_DST NXM_HEADER (0x0001, 20, 16)
1611 #define NXM_NX_IPV6_DST_W NXM_HEADER_W(0x0001, 20, 16)
1613 /* The type or code in the ICMPv6 header.
1616 * NXM_OF_ETH_TYPE must match 0x86dd exactly.
1617 * NXM_OF_IP_PROTO must match 58 exactly.
1619 * Format: 8-bit integer.
1621 * Masking: Not maskable. */
1622 #define NXM_NX_ICMPV6_TYPE NXM_HEADER (0x0001, 21, 1)
1623 #define NXM_NX_ICMPV6_CODE NXM_HEADER (0x0001, 22, 1)
1625 /* The target address in an IPv6 Neighbor Discovery message.
1628 * NXM_OF_ETH_TYPE must match 0x86dd exactly.
1629 * NXM_OF_IP_PROTO must match 58 exactly.
1630 * NXM_OF_ICMPV6_TYPE must be either 135 or 136.
1632 * Format: 128-bit IPv6 address.
1634 * Masking: Fully maskable, in Open vSwitch 1.8 and later. In previous
1635 * versions, only CIDR masks are allowed, that is, masks that consist of N
1636 * high-order bits set to 1 and the other 128-N bits set to 0. */
1637 #define NXM_NX_ND_TARGET NXM_HEADER (0x0001, 23, 16)
1638 #define NXM_NX_ND_TARGET_W NXM_HEADER_W (0x0001, 23, 16)
1640 /* The source link-layer address option in an IPv6 Neighbor Discovery
1644 * NXM_OF_ETH_TYPE must match 0x86dd exactly.
1645 * NXM_OF_IP_PROTO must match 58 exactly.
1646 * NXM_OF_ICMPV6_TYPE must be exactly 135.
1648 * Format: 48-bit Ethernet MAC address.
1650 * Masking: Not maskable. */
1651 #define NXM_NX_ND_SLL NXM_HEADER (0x0001, 24, 6)
1653 /* The target link-layer address option in an IPv6 Neighbor Discovery
1657 * NXM_OF_ETH_TYPE must match 0x86dd exactly.
1658 * NXM_OF_IP_PROTO must match 58 exactly.
1659 * NXM_OF_ICMPV6_TYPE must be exactly 136.
1661 * Format: 48-bit Ethernet MAC address.
1663 * Masking: Not maskable. */
1664 #define NXM_NX_ND_TLL NXM_HEADER (0x0001, 25, 6)
1666 /* IP fragment information.
1669 * NXM_OF_ETH_TYPE must be either 0x0800 or 0x86dd.
1671 * Format: 8-bit value with one of the values 0, 1, or 3, as described below.
1673 * Masking: Fully maskable.
1675 * This field has three possible values:
1677 * - A packet that is not an IP fragment has value 0.
1679 * - A packet that is an IP fragment with offset 0 (the first fragment) has
1680 * bit 0 set and thus value 1.
1682 * - A packet that is an IP fragment with nonzero offset has bits 0 and 1 set
1685 * NX_IP_FRAG_ANY and NX_IP_FRAG_LATER are declared to symbolically represent
1686 * the meanings of bits 0 and 1.
1688 * The switch may reject matches against values that can never appear.
1690 * It is important to understand how this field interacts with the OpenFlow IP
1691 * fragment handling mode:
1693 * - In OFPC_FRAG_DROP mode, the OpenFlow switch drops all IP fragments
1694 * before they reach the flow table, so every packet that is available for
1695 * matching will have value 0 in this field.
1697 * - Open vSwitch does not implement OFPC_FRAG_REASM mode, but if it did then
1698 * IP fragments would be reassembled before they reached the flow table and
1699 * again every packet available for matching would always have value 0.
1701 * - In OFPC_FRAG_NORMAL mode, all three values are possible, but OpenFlow
1702 * 1.0 says that fragments' transport ports are always 0, even for the
1703 * first fragment, so this does not provide much extra information.
1705 * - In OFPC_FRAG_NX_MATCH mode, all three values are possible. For
1706 * fragments with offset 0, Open vSwitch makes L4 header information
1709 #define NXM_NX_IP_FRAG NXM_HEADER (0x0001, 26, 1)
1710 #define NXM_NX_IP_FRAG_W NXM_HEADER_W(0x0001, 26, 1)
1712 /* Bits in the value of NXM_NX_IP_FRAG. */
1713 #define NX_IP_FRAG_ANY (1 << 0) /* Is this a fragment? */
1714 #define NX_IP_FRAG_LATER (1 << 1) /* Is this a fragment with nonzero offset? */
1716 /* The flow label in the IPv6 header.
1718 * Prereqs: NXM_OF_ETH_TYPE must match 0x86dd exactly.
1720 * Format: 20-bit IPv6 flow label in least-significant bits.
1722 * Masking: Not maskable. */
1723 #define NXM_NX_IPV6_LABEL NXM_HEADER (0x0001, 27, 4)
1725 /* The ECN of the IP header.
1727 * Prereqs: NXM_OF_ETH_TYPE must be either 0x0800 or 0x86dd.
1729 * Format: ECN in the low-order 2 bits.
1731 * Masking: Not maskable. */
1732 #define NXM_NX_IP_ECN NXM_HEADER (0x0001, 28, 1)
1734 /* The time-to-live/hop limit of the IP header.
1736 * Prereqs: NXM_OF_ETH_TYPE must be either 0x0800 or 0x86dd.
1738 * Format: 8-bit integer.
1740 * Masking: Not maskable. */
1741 #define NXM_NX_IP_TTL NXM_HEADER (0x0001, 29, 1)
1745 * This may be used to gain the OpenFlow 1.1-like ability to restrict
1746 * certain NXM-based Flow Mod and Flow Stats Request messages to flows
1747 * with specific cookies. See the "nx_flow_mod" and "nx_flow_stats_request"
1748 * structure definitions for more details. This match is otherwise not
1753 * Format: 64-bit integer in network byte order.
1755 * Masking: Arbitrary masks. */
1756 #define NXM_NX_COOKIE NXM_HEADER (0x0001, 30, 8)
1757 #define NXM_NX_COOKIE_W NXM_HEADER_W(0x0001, 30, 8)
1759 /* ## --------------------- ## */
1760 /* ## Requests and replies. ## */
1761 /* ## --------------------- ## */
1763 enum nx_flow_format {
1764 NXFF_OPENFLOW10 = 0, /* Standard OpenFlow 1.0 compatible. */
1765 NXFF_NXM = 2, /* Nicira extended match. */
1766 NXFF_OPENFLOW12 = 3 /* OpenFlow 1.2 format. */
1769 /* NXT_SET_FLOW_FORMAT request. */
1770 struct nx_set_flow_format {
1771 ovs_be32 format; /* One of NXFF_*. */
1773 OFP_ASSERT(sizeof(struct nx_set_flow_format) == 4);
1775 /* NXT_FLOW_MOD (analogous to OFPT_FLOW_MOD).
1777 * It is possible to limit flow deletions and modifications to certain
1778 * cookies by using the NXM_NX_COOKIE(_W) matches. The "cookie" field
1779 * is used only to add or modify flow cookies.
1781 struct nx_flow_mod {
1782 ovs_be64 cookie; /* Opaque controller-issued identifier. */
1783 ovs_be16 command; /* One of OFPFC_*. */
1784 ovs_be16 idle_timeout; /* Idle time before discarding (seconds). */
1785 ovs_be16 hard_timeout; /* Max time before discarding (seconds). */
1786 ovs_be16 priority; /* Priority level of flow entry. */
1787 ovs_be32 buffer_id; /* Buffered packet to apply to (or -1).
1788 Not meaningful for OFPFC_DELETE*. */
1789 ovs_be16 out_port; /* For OFPFC_DELETE* commands, require
1790 matching entries to include this as an
1791 output port. A value of OFPP_NONE
1792 indicates no restriction. */
1793 ovs_be16 flags; /* One of OFPFF_*. */
1794 ovs_be16 match_len; /* Size of nx_match. */
1795 uint8_t pad[6]; /* Align to 64-bits. */
1797 * - Exactly match_len (possibly 0) bytes containing the nx_match, then
1798 * - Exactly (match_len + 7)/8*8 - match_len (between 0 and 7) bytes of
1799 * all-zero bytes, then
1800 * - Actions to fill out the remainder of the message length (always a
1804 OFP_ASSERT(sizeof(struct nx_flow_mod) == 32);
1806 /* NXT_FLOW_REMOVED (analogous to OFPT_FLOW_REMOVED). */
1807 struct nx_flow_removed {
1808 ovs_be64 cookie; /* Opaque controller-issued identifier. */
1809 ovs_be16 priority; /* Priority level of flow entry. */
1810 uint8_t reason; /* One of OFPRR_*. */
1811 uint8_t pad[1]; /* Align to 32-bits. */
1812 ovs_be32 duration_sec; /* Time flow was alive in seconds. */
1813 ovs_be32 duration_nsec; /* Time flow was alive in nanoseconds beyond
1815 ovs_be16 idle_timeout; /* Idle timeout from original flow mod. */
1816 ovs_be16 match_len; /* Size of nx_match. */
1817 ovs_be64 packet_count;
1818 ovs_be64 byte_count;
1820 * - Exactly match_len (possibly 0) bytes containing the nx_match, then
1821 * - Exactly (match_len + 7)/8*8 - match_len (between 0 and 7) bytes of
1822 * all-zero bytes. */
1824 OFP_ASSERT(sizeof(struct nx_flow_removed) == 40);
1826 /* Nicira vendor stats request of type NXST_FLOW (analogous to OFPST_FLOW
1829 * It is possible to limit matches to certain cookies by using the
1830 * NXM_NX_COOKIE and NXM_NX_COOKIE_W matches.
1832 struct nx_flow_stats_request {
1833 ovs_be16 out_port; /* Require matching entries to include this
1834 as an output port. A value of OFPP_NONE
1835 indicates no restriction. */
1836 ovs_be16 match_len; /* Length of nx_match. */
1837 uint8_t table_id; /* ID of table to read (from ofp_table_stats)
1838 or 0xff for all tables. */
1839 uint8_t pad[3]; /* Align to 64 bits. */
1841 * - Exactly match_len (possibly 0) bytes containing the nx_match, then
1842 * - Exactly (match_len + 7)/8*8 - match_len (between 0 and 7) bytes of
1843 * all-zero bytes, which must also exactly fill out the length of the
1847 OFP_ASSERT(sizeof(struct nx_flow_stats_request) == 8);
1849 /* Body for Nicira vendor stats reply of type NXST_FLOW (analogous to
1850 * OFPST_FLOW reply).
1852 * The values of 'idle_age' and 'hard_age' are only meaningful when talking to
1853 * a switch that implements the NXT_FLOW_AGE extension. Zero means that the
1854 * true value is unknown, perhaps because hardware does not track the value.
1855 * (Zero is also the value that one should ordinarily expect to see talking to
1856 * a switch that does not implement NXT_FLOW_AGE, since those switches zero the
1857 * padding bytes that these fields replaced.) A nonzero value X represents X-1
1858 * seconds. A value of 65535 represents 65534 or more seconds.
1860 * 'idle_age' is the number of seconds that the flow has been idle, that is,
1861 * the number of seconds since a packet passed through the flow. 'hard_age' is
1862 * the number of seconds since the flow was last modified (e.g. OFPFC_MODIFY or
1863 * OFPFC_MODIFY_STRICT). (The 'duration_*' fields are the elapsed time since
1864 * the flow was added, regardless of subsequent modifications.)
1866 * For a flow with an idle or hard timeout, 'idle_age' or 'hard_age',
1867 * respectively, will ordinarily be smaller than the timeout, but flow
1868 * expiration times are only approximate and so one must be prepared to
1869 * tolerate expirations that occur somewhat early or late.
1871 struct nx_flow_stats {
1872 ovs_be16 length; /* Length of this entry. */
1873 uint8_t table_id; /* ID of table flow came from. */
1875 ovs_be32 duration_sec; /* Time flow has been alive in seconds. */
1876 ovs_be32 duration_nsec; /* Time flow has been alive in nanoseconds
1877 beyond duration_sec. */
1878 ovs_be16 priority; /* Priority of the entry. */
1879 ovs_be16 idle_timeout; /* Number of seconds idle before expiration. */
1880 ovs_be16 hard_timeout; /* Number of seconds before expiration. */
1881 ovs_be16 match_len; /* Length of nx_match. */
1882 ovs_be16 idle_age; /* Seconds since last packet, plus one. */
1883 ovs_be16 hard_age; /* Seconds since last modification, plus one. */
1884 ovs_be64 cookie; /* Opaque controller-issued identifier. */
1885 ovs_be64 packet_count; /* Number of packets, UINT64_MAX if unknown. */
1886 ovs_be64 byte_count; /* Number of bytes, UINT64_MAX if unknown. */
1888 * - Exactly match_len (possibly 0) bytes containing the nx_match, then
1889 * - Exactly (match_len + 7)/8*8 - match_len (between 0 and 7) bytes of
1890 * all-zero bytes, then
1891 * - Actions to fill out the remainder 'length' bytes (always a multiple
1895 OFP_ASSERT(sizeof(struct nx_flow_stats) == 48);
1897 /* Nicira vendor stats request of type NXST_AGGREGATE (analogous to
1898 * OFPST_AGGREGATE request).
1900 * The reply format is identical to the reply format for OFPST_AGGREGATE,
1901 * except for the header. */
1902 struct nx_aggregate_stats_request {
1903 ovs_be16 out_port; /* Require matching entries to include this
1904 as an output port. A value of OFPP_NONE
1905 indicates no restriction. */
1906 ovs_be16 match_len; /* Length of nx_match. */
1907 uint8_t table_id; /* ID of table to read (from ofp_table_stats)
1908 or 0xff for all tables. */
1909 uint8_t pad[3]; /* Align to 64 bits. */
1911 * - Exactly match_len (possibly 0) bytes containing the nx_match, then
1912 * - Exactly (match_len + 7)/8*8 - match_len (between 0 and 7) bytes of
1913 * all-zero bytes, which must also exactly fill out the length of the
1917 OFP_ASSERT(sizeof(struct nx_aggregate_stats_request) == 8);
1919 /* NXT_SET_CONTROLLER_ID.
1921 * Each OpenFlow controller connection has a 16-bit identifier that is
1922 * initially 0. This message changes the connection's ID to 'id'.
1924 * Controller connection IDs need not be unique.
1926 * The NXAST_CONTROLLER action is the only current user of controller
1927 * connection IDs. */
1928 struct nx_controller_id {
1929 uint8_t zero[6]; /* Must be zero. */
1930 ovs_be16 controller_id; /* New controller connection ID. */
1932 OFP_ASSERT(sizeof(struct nx_controller_id) == 8);
1934 /* Action structure for NXAST_CONTROLLER.
1936 * This generalizes using OFPAT_OUTPUT to send a packet to OFPP_CONTROLLER. In
1937 * addition to the 'max_len' that OFPAT_OUTPUT supports, it also allows
1940 * - 'reason': The reason code to use in the ofp_packet_in or nx_packet_in.
1942 * - 'controller_id': The ID of the controller connection to which the
1943 * ofp_packet_in should be sent. The ofp_packet_in or nx_packet_in is
1944 * sent only to controllers that have the specified controller connection
1945 * ID. See "struct nx_controller_id" for more information. */
1946 struct nx_action_controller {
1947 ovs_be16 type; /* OFPAT_VENDOR. */
1948 ovs_be16 len; /* Length is 16. */
1949 ovs_be32 vendor; /* NX_VENDOR_ID. */
1950 ovs_be16 subtype; /* NXAST_CONTROLLER. */
1951 ovs_be16 max_len; /* Maximum length to send to controller. */
1952 ovs_be16 controller_id; /* Controller ID to send packet-in. */
1953 uint8_t reason; /* enum ofp_packet_in_reason (OFPR_*). */
1954 uint8_t zero; /* Must be zero. */
1956 OFP_ASSERT(sizeof(struct nx_action_controller) == 16);
1958 /* Flow Table Monitoring
1959 * =====================
1961 * NXST_FLOW_MONITOR allows a controller to keep track of changes to OpenFlow
1962 * flow table(s) or subsets of them, with the following workflow:
1964 * 1. The controller sends an NXST_FLOW_MONITOR request to begin monitoring
1965 * flows. The 'id' in the request must be unique among all monitors that
1966 * the controller has started and not yet canceled on this OpenFlow
1969 * 2. The switch responds with an NXST_FLOW_MONITOR reply. If the request's
1970 * 'flags' included NXFMF_INITIAL, the reply includes all the flows that
1971 * matched the request at the time of the request (with event NXFME_ADDED).
1972 * If 'flags' did not include NXFMF_INITIAL, the reply is empty.
1974 * The reply uses the xid of the request (as do all replies to OpenFlow
1977 * 3. Whenever a change to a flow table entry matches some outstanding monitor
1978 * request's criteria and flags, the switch sends a notification to the
1979 * controller as an additional NXST_FLOW_MONITOR reply with xid 0.
1981 * When multiple outstanding monitors match a single change, only a single
1982 * notification is sent. This merged notification includes the information
1983 * requested in any of the individual monitors. That is, if any of the
1984 * matching monitors requests actions (NXFMF_ACTIONS), the notification
1985 * includes actions, and if any of the monitors request full changes for the
1986 * controller's own changes (NXFMF_OWN), the controller's own changes will
1987 * be included in full.
1989 * 4. The controller may cancel a monitor with NXT_FLOW_MONITOR_CANCEL. No
1990 * further notifications will be sent on the basis of the canceled monitor
1997 * OpenFlow messages for flow monitor notifications can overflow the buffer
1998 * space available to the switch, either temporarily (e.g. due to network
1999 * conditions slowing OpenFlow traffic) or more permanently (e.g. the sustained
2000 * rate of flow table change exceeds the network bandwidth between switch and
2003 * When Open vSwitch's notification buffer space reaches a limiting threshold,
2004 * OVS reacts as follows:
2006 * 1. OVS sends an NXT_FLOW_MONITOR_PAUSED message to the controller, following
2007 * all the already queued notifications. After it receives this message,
2008 * the controller knows that its view of the flow table, as represented by
2009 * flow monitor notifications, is incomplete.
2011 * 2. As long as the notification buffer is not empty:
2013 * - NXMFE_ADD and NXFME_MODIFIED notifications will not be sent.
2015 * - NXFME_DELETED notifications will still be sent, but only for flows
2016 * that existed before OVS sent NXT_FLOW_MONITOR_PAUSED.
2018 * - NXFME_ABBREV notifications will not be sent. They are treated as
2019 * the expanded version (and therefore only the NXFME_DELETED
2020 * components, if any, are sent).
2022 * 3. When the notification buffer empties, OVS sends NXFME_ADD notifications
2023 * for flows added since the buffer reached its limit and NXFME_MODIFIED
2024 * notifications for flows that existed before the limit was reached and
2025 * changed after the limit was reached.
2027 * 4. OVS sends an NXT_FLOW_MONITOR_RESUMED message to the controller. After
2028 * it receives this message, the controller knows that its view of the flow
2029 * table, as represented by flow monitor notifications, is again complete.
2031 * This allows the maximum buffer space requirement for notifications to be
2032 * bounded by the limit plus the maximum number of supported flows.
2035 * "Flow Removed" messages
2036 * =======================
2038 * The flow monitor mechanism is independent of OFPT_FLOW_REMOVED and
2039 * NXT_FLOW_REMOVED. Flow monitor updates for deletion are sent if
2040 * NXFMF_DELETE is set on a monitor, regardless of whether the
2041 * OFPFF_SEND_FLOW_REM flag was set when the flow was added. */
2043 /* NXST_FLOW_MONITOR request.
2045 * The NXST_FLOW_MONITOR request's body consists of an array of zero or more
2046 * instances of this structure. The request arranges to monitor the flows
2047 * that match the specified criteria, which are interpreted in the same way as
2050 * 'id' identifies a particular monitor for the purpose of allowing it to be
2051 * canceled later with NXT_FLOW_MONITOR_CANCEL. 'id' must be unique among
2052 * existing monitors that have not already been canceled.
2054 * The reply includes the initial flow matches for monitors that have the
2055 * NXFMF_INITIAL flag set. No single flow will be included in the reply more
2056 * than once, even if more than one requested monitor matches that flow. The
2057 * reply will be empty if none of the monitors has NXFMF_INITIAL set or if none
2058 * of the monitors initially matches any flows.
2060 * For NXFMF_ADD, an event will be reported if 'out_port' matches against the
2061 * actions of the flow being added or, for a flow that is replacing an existing
2062 * flow, if 'out_port' matches against the actions of the flow being replaced.
2063 * For NXFMF_DELETE, 'out_port' matches against the actions of a flow being
2064 * deleted. For NXFMF_MODIFY, an event will be reported if 'out_port' matches
2065 * either the old or the new actions. */
2066 struct nx_flow_monitor_request {
2067 ovs_be32 id; /* Controller-assigned ID for this monitor. */
2068 ovs_be16 flags; /* NXFMF_*. */
2069 ovs_be16 out_port; /* Required output port, if not OFPP_NONE. */
2070 ovs_be16 match_len; /* Length of nx_match. */
2071 uint8_t table_id; /* One table's ID or 0xff for all tables. */
2072 uint8_t zeros[5]; /* Align to 64 bits (must be zero). */
2074 * - Exactly match_len (possibly 0) bytes containing the nx_match, then
2075 * - Exactly (match_len + 7)/8*8 - match_len (between 0 and 7) bytes of
2076 * all-zero bytes. */
2078 OFP_ASSERT(sizeof(struct nx_flow_monitor_request) == 16);
2080 /* 'flags' bits in struct nx_flow_monitor_request. */
2081 enum nx_flow_monitor_flags {
2082 /* When to send updates. */
2083 NXFMF_INITIAL = 1 << 0, /* Initially matching flows. */
2084 NXFMF_ADD = 1 << 1, /* New matching flows as they are added. */
2085 NXFMF_DELETE = 1 << 2, /* Old matching flows as they are removed. */
2086 NXFMF_MODIFY = 1 << 3, /* Matching flows as they are changed. */
2088 /* What to include in updates. */
2089 NXFMF_ACTIONS = 1 << 4, /* If set, actions are included. */
2090 NXFMF_OWN = 1 << 5, /* If set, include own changes in full. */
2093 /* NXST_FLOW_MONITOR reply header.
2095 * The body of an NXST_FLOW_MONITOR reply is an array of variable-length
2096 * structures, each of which begins with this header. The 'length' member may
2097 * be used to traverse the array, and the 'event' member may be used to
2098 * determine the particular structure.
2100 * Every instance is a multiple of 8 bytes long. */
2101 struct nx_flow_update_header {
2102 ovs_be16 length; /* Length of this entry. */
2103 ovs_be16 event; /* One of NXFME_*. */
2104 /* ...other data depending on 'event'... */
2106 OFP_ASSERT(sizeof(struct nx_flow_update_header) == 4);
2108 /* 'event' values in struct nx_flow_update_header. */
2109 enum nx_flow_update_event {
2110 /* struct nx_flow_update_full. */
2111 NXFME_ADDED = 0, /* Flow was added. */
2112 NXFME_DELETED = 1, /* Flow was deleted. */
2113 NXFME_MODIFIED = 2, /* Flow (generally its actions) was changed. */
2115 /* struct nx_flow_update_abbrev. */
2116 NXFME_ABBREV = 3, /* Abbreviated reply. */
2119 /* NXST_FLOW_MONITOR reply for NXFME_ADDED, NXFME_DELETED, and
2120 * NXFME_MODIFIED. */
2121 struct nx_flow_update_full {
2122 ovs_be16 length; /* Length is 24. */
2123 ovs_be16 event; /* One of NXFME_*. */
2124 ovs_be16 reason; /* OFPRR_* for NXFME_DELETED, else zero. */
2125 ovs_be16 priority; /* Priority of the entry. */
2126 ovs_be16 idle_timeout; /* Number of seconds idle before expiration. */
2127 ovs_be16 hard_timeout; /* Number of seconds before expiration. */
2128 ovs_be16 match_len; /* Length of nx_match. */
2129 uint8_t table_id; /* ID of flow's table. */
2130 uint8_t pad; /* Reserved, currently zeroed. */
2131 ovs_be64 cookie; /* Opaque controller-issued identifier. */
2133 * - Exactly match_len (possibly 0) bytes containing the nx_match, then
2134 * - Exactly (match_len + 7)/8*8 - match_len (between 0 and 7) bytes of
2135 * all-zero bytes, then
2136 * - Actions to fill out the remainder 'length' bytes (always a multiple
2137 * of 8). If NXFMF_ACTIONS was not specified, or 'event' is
2138 * NXFME_DELETED, no actions are included.
2141 OFP_ASSERT(sizeof(struct nx_flow_update_full) == 24);
2143 /* NXST_FLOW_MONITOR reply for NXFME_ABBREV.
2145 * When the controller does not specify NXFMF_OWN in a monitor request, any
2146 * flow tables changes due to the controller's own requests (on the same
2147 * OpenFlow channel) will be abbreviated, when possible, to this form, which
2148 * simply specifies the 'xid' of the OpenFlow request (e.g. an OFPT_FLOW_MOD or
2149 * NXT_FLOW_MOD) that caused the change.
2151 * Some changes cannot be abbreviated and will be sent in full:
2153 * - Changes that only partially succeed. This can happen if, for example,
2154 * a flow_mod with type OFPFC_MODIFY affects multiple flows, but only some
2155 * of those modifications succeed (e.g. due to hardware limitations).
2157 * This cannot occur with the current implementation of the Open vSwitch
2158 * software datapath. It could happen with other datapath implementations.
2160 * - Changes that race with conflicting changes made by other controllers or
2161 * other flow_mods (not separated by barriers) by the same controller.
2163 * This cannot occur with the current Open vSwitch implementation
2164 * (regardless of datapath) because Open vSwitch internally serializes
2165 * potentially conflicting changes.
2167 * A flow_mod that does not change the flow table will not trigger any
2168 * notification, even an abbreviated one. For example, a "modify" or "delete"
2169 * flow_mod that does not match any flows will not trigger a notification.
2170 * Whether an "add" or "modify" that specifies all the same parameters that a
2171 * flow already has triggers a notification is unspecified and subject to
2172 * change in future versions of Open vSwitch.
2174 * OVS will always send the notifications for a given flow table change before
2175 * the reply to a OFPT_BARRIER_REQUEST request that follows the flow table
2176 * change. Thus, if the controller does not receive an abbreviated (or
2177 * unabbreviated) notification for a flow_mod before the next
2178 * OFPT_BARRIER_REPLY, it will never receive one. */
2179 struct nx_flow_update_abbrev {
2180 ovs_be16 length; /* Length is 8. */
2181 ovs_be16 event; /* NXFME_ABBREV. */
2182 ovs_be32 xid; /* Controller-specified xid from flow_mod. */
2184 OFP_ASSERT(sizeof(struct nx_flow_update_abbrev) == 8);
2186 /* NXT_FLOW_MONITOR_CANCEL.
2188 * Used by a controller to cancel an outstanding monitor. */
2189 struct nx_flow_monitor_cancel {
2190 ovs_be32 id; /* 'id' from nx_flow_monitor_request. */
2192 OFP_ASSERT(sizeof(struct nx_flow_monitor_cancel) == 4);
2194 #endif /* openflow/nicira-ext.h */