2 * Copyright (c) 2009, 2010, 2011 Nicira Networks.
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 OFPROTO_OFPROTO_PROVIDER_H
18 #define OFPROTO_OFPROTO_PROVIDER_H 1
20 /* Definitions for use within ofproto. */
22 #include "ofproto/ofproto.h"
23 #include "classifier.h"
28 /* An OpenFlow switch.
30 * With few exceptions, ofproto implementations may look at these fields but
31 * should not modify them. */
33 const struct ofproto_class *ofproto_class;
34 char *type; /* Datapath type. */
35 char *name; /* Datapath name. */
36 struct hmap_node hmap_node; /* In global 'all_ofprotos' hmap. */
39 uint64_t fallback_dpid; /* Datapath ID if no better choice found. */
40 uint64_t datapath_id; /* Datapath ID. */
41 char *mfr_desc; /* Manufacturer. */
42 char *hw_desc; /* Hardware. */
43 char *sw_desc; /* Software version. */
44 char *serial_desc; /* Serial number. */
45 char *dp_desc; /* Datapath description. */
48 struct hmap ports; /* Contains "struct ofport"s. */
49 struct shash port_by_name;
52 struct classifier *tables; /* Each classifier contains "struct rule"s. */
55 /* OpenFlow connections. */
56 struct connmgr *connmgr;
58 /* Flow table operation tracking. */
59 int state; /* Internal state. */
60 struct list pending; /* List of "struct ofopgroup"s. */
61 struct hmap deletions; /* All OFOPERATION_DELETE "ofoperation"s. */
64 struct ofproto *ofproto_lookup(const char *name);
65 struct ofport *ofproto_get_port(const struct ofproto *, uint16_t ofp_port);
67 /* An OpenFlow port within a "struct ofproto".
69 * With few exceptions, ofproto implementations may look at these fields but
70 * should not modify them. */
72 struct ofproto *ofproto; /* The ofproto that contains this port. */
73 struct hmap_node hmap_node; /* In struct ofproto's "ports" hmap. */
74 struct netdev *netdev;
75 struct ofp_phy_port opp;
76 uint16_t ofp_port; /* OpenFlow port number. */
77 unsigned int change_seq;
80 /* An OpenFlow flow within a "struct ofproto".
82 * With few exceptions, ofproto implementations may look at these fields but
83 * should not modify them. */
85 struct ofproto *ofproto; /* The ofproto that contains this rule. */
86 struct list ofproto_node; /* Owned by ofproto base code. */
87 struct cls_rule cr; /* In owning ofproto's classifier. */
89 struct ofoperation *pending; /* Operation now in progress, if nonnull. */
91 ovs_be64 flow_cookie; /* Controller-issued identifier. */
93 long long int created; /* Creation time. */
94 uint16_t idle_timeout; /* In seconds from time of last use. */
95 uint16_t hard_timeout; /* In seconds from time of creation. */
96 uint8_t table_id; /* Index in ofproto's 'tables' array. */
97 bool send_flow_removed; /* Send a flow removed message? */
99 union ofp_action *actions; /* OpenFlow actions. */
100 int n_actions; /* Number of elements in actions[]. */
103 static inline struct rule *
104 rule_from_cls_rule(const struct cls_rule *cls_rule)
106 return cls_rule ? CONTAINER_OF(cls_rule, struct rule, cr) : NULL;
109 void ofproto_rule_expire(struct rule *, uint8_t reason);
110 void ofproto_rule_destroy(struct rule *);
112 void ofoperation_complete(struct ofoperation *, int status);
113 struct rule *ofoperation_get_victim(struct ofoperation *);
115 /* ofproto class structure, to be defined by each ofproto implementation.
121 * These functions work primarily with three different kinds of data
124 * - "struct ofproto", which represents an OpenFlow switch.
126 * - "struct ofport", which represents a port within an ofproto.
128 * - "struct rule", which represents an OpenFlow flow within an ofproto.
130 * Each of these data structures contains all of the implementation-independent
131 * generic state for the respective concept, called the "base" state. None of
132 * them contains any extra space for ofproto implementations to use. Instead,
133 * each implementation is expected to declare its own data structure that
134 * contains an instance of the generic data structure plus additional
135 * implementation-specific members, called the "derived" state. The
136 * implementation can use casts or (preferably) the CONTAINER_OF macro to
137 * obtain access to derived state given only a pointer to the embedded generic
144 * Four stylized functions accompany each of these data structures:
146 * "alloc" "construct" "destruct" "dealloc"
147 * ------------ ---------------- --------------- --------------
148 * ofproto ->alloc ->construct ->destruct ->dealloc
149 * ofport ->port_alloc ->port_construct ->port_destruct ->port_dealloc
150 * rule ->rule_alloc ->rule_construct ->rule_destruct ->rule_dealloc
152 * Any instance of a given data structure goes through the following life
155 * 1. The client calls the "alloc" function to obtain raw memory. If "alloc"
156 * fails, skip all the other steps.
158 * 2. The client initializes all of the data structure's base state. If this
159 * fails, skip to step 7.
161 * 3. The client calls the "construct" function. The implementation
162 * initializes derived state. It may refer to the already-initialized
163 * base state. If "construct" fails, skip to step 6.
165 * 4. The data structure is now initialized and in use.
167 * 5. When the data structure is no longer needed, the client calls the
168 * "destruct" function. The implementation uninitializes derived state.
169 * The base state has not been uninitialized yet, so the implementation
170 * may still refer to it.
172 * 6. The client uninitializes all of the data structure's base state.
174 * 7. The client calls the "dealloc" to free the raw memory. The
175 * implementation must not refer to base or derived state in the data
176 * structure, because it has already been uninitialized.
178 * Each "alloc" function allocates and returns a new instance of the respective
179 * data structure. The "alloc" function is not given any information about the
180 * use of the new data structure, so it cannot perform much initialization.
181 * Its purpose is just to ensure that the new data structure has enough room
182 * for base and derived state. It may return a null pointer if memory is not
183 * available, in which case none of the other functions is called.
185 * Each "construct" function initializes derived state in its respective data
186 * structure. When "construct" is called, all of the base state has already
187 * been initialized, so the "construct" function may refer to it. The
188 * "construct" function is allowed to fail, in which case the client calls the
189 * "dealloc" function (but not the "destruct" function).
191 * Each "destruct" function uninitializes and frees derived state in its
192 * respective data structure. When "destruct" is called, the base state has
193 * not yet been uninitialized, so the "destruct" function may refer to it. The
194 * "destruct" function is not allowed to fail.
196 * Each "dealloc" function frees raw memory that was allocated by the the
197 * "alloc" function. The memory's base and derived members might not have ever
198 * been initialized (but if "construct" returned successfully, then it has been
199 * "destruct"ed already). The "dealloc" function is not allowed to fail.
205 * Most of these functions return 0 if they are successful or a positive error
206 * code on failure. Depending on the function, valid error codes are either
207 * errno values or OpenFlow error codes constructed with ofp_mkerr().
209 * Most of these functions are expected to execute synchronously, that is, to
210 * block as necessary to obtain a result. Thus, these functions may return
211 * EAGAIN (or EWOULDBLOCK or EINPROGRESS) only where the function descriptions
212 * explicitly say those errors are a possibility. We may relax this
213 * requirement in the future if and when we encounter performance problems. */
214 struct ofproto_class {
215 /* ## ----------------- ## */
216 /* ## Factory Functions ## */
217 /* ## ----------------- ## */
219 /* Enumerates the types of all support ofproto types into 'types'. The
220 * caller has already initialized 'types' and other ofproto classes might
221 * already have added names to it. */
222 void (*enumerate_types)(struct sset *types);
224 /* Enumerates the names of all existing datapath of the specified 'type'
225 * into 'names' 'all_dps'. The caller has already initialized 'names' as
228 * 'type' is one of the types enumerated by ->enumerate_types().
230 * Returns 0 if successful, otherwise a positive errno value.
232 int (*enumerate_names)(const char *type, struct sset *names);
234 /* Deletes the datapath with the specified 'type' and 'name'. The caller
235 * should have closed any open ofproto with this 'type' and 'name'; this
236 * function is allowed to fail if that is not the case.
238 * 'type' is one of the types enumerated by ->enumerate_types().
239 * 'name' is one of the names enumerated by ->enumerate_names() for 'type'.
241 * Returns 0 if successful, otherwise a positive errno value.
243 int (*del)(const char *type, const char *name);
245 /* ## --------------------------- ## */
246 /* ## Top-Level ofproto Functions ## */
247 /* ## --------------------------- ## */
249 /* Life-cycle functions for an "ofproto" (see "Life Cycle" above).
255 * ->construct() should not modify most base members of the ofproto. In
256 * particular, the client will initialize the ofproto's 'ports' member
257 * after construction is complete.
259 * ->construct() should initialize the base 'n_tables' member to the number
260 * of flow tables supported by the datapath (between 1 and 255, inclusive),
261 * initialize the base 'tables' member with space for one classifier per
262 * table, and initialize each classifier with classifier_init. Each flow
263 * table should be initially empty, so ->construct() should delete flows
264 * from the underlying datapath, if necessary, rather than populating the
267 * Only one ofproto instance needs to be supported for any given datapath.
268 * If a datapath is already open as part of one "ofproto", then another
269 * attempt to "construct" the same datapath as part of another ofproto is
270 * allowed to fail with an error.
272 * ->construct() returns 0 if successful, otherwise a positive errno
279 * ->destruct() must do at least the following:
281 * - If 'ofproto' has any pending asynchronous operations, ->destruct()
282 * must complete all of them by calling ofoperation_complete().
284 * - If 'ofproto' has any rules left in any of its flow tables, ->
286 struct ofproto *(*alloc)(void);
287 int (*construct)(struct ofproto *ofproto);
288 void (*destruct)(struct ofproto *ofproto);
289 void (*dealloc)(struct ofproto *ofproto);
291 /* Performs any periodic activity required by 'ofproto'. It should:
293 * - Call connmgr_send_packet_in() for each received packet that missed
294 * in the OpenFlow flow table or that had a OFPP_CONTROLLER output
297 * - Call ofproto_rule_expire() for each OpenFlow flow that has reached
298 * its hard_timeout or idle_timeout, to expire the flow.
300 * Returns 0 if successful, otherwise a positive errno value. The ENODEV
301 * return value specifically means that the datapath underlying 'ofproto'
302 * has been destroyed (externally, e.g. by an admin running ovs-dpctl).
304 int (*run)(struct ofproto *ofproto);
306 /* Causes the poll loop to wake up when 'ofproto''s 'run' function needs to
307 * be called, e.g. by calling the timer or fd waiting functions in
309 void (*wait)(struct ofproto *ofproto);
311 /* Every "struct rule" in 'ofproto' is about to be deleted, one by one.
312 * This function may prepare for that, for example by clearing state in
313 * advance. It should *not* actually delete any "struct rule"s from
314 * 'ofproto', only prepare for it.
316 * This function is optional; it's really just for optimization in case
317 * it's cheaper to delete all the flows from your hardware in a single pass
318 * than to do it one by one. */
319 void (*flush)(struct ofproto *ofproto);
321 /* Helper for the OpenFlow OFPT_FEATURES_REQUEST request.
323 * The implementation should store true in '*arp_match_ip' if the switch
324 * supports matching IP addresses inside ARP requests and replies, false
327 * The implementation should store in '*actions' a bitmap of the supported
328 * OpenFlow actions: the bit with value (1 << n) should be set to 1 if the
329 * implementation supports the action with value 'n', and to 0 otherwise.
330 * For example, if the implementation supports the OFPAT_OUTPUT and
331 * OFPAT_ENQUEUE actions, but no others, it would set '*actions' to (1 <<
332 * OFPAT_OUTPUT) | (1 << OFPAT_ENQUEUE). Vendor actions are not included
334 void (*get_features)(struct ofproto *ofproto,
335 bool *arp_match_ip, uint32_t *actions);
337 /* Helper for the OpenFlow OFPST_TABLE statistics request.
339 * The 'ots' array contains 'ofproto->n_tables' elements. Each element is
342 * - 'table_id' to the array index.
344 * - 'name' to "table#" where # is the table ID.
346 * - 'wildcards' to OFPFW_ALL.
348 * - 'max_entries' to 1,000,000.
350 * - 'active_count' to the classifier_count() for the table.
352 * - 'lookup_count' and 'matched_count' to 0.
354 * The implementation should update any members in each element for which
355 * it has better values:
357 * - 'name' to a more meaningful name.
359 * - 'wildcards' to the set of wildcards actually supported by the table
360 * (if it doesn't support all OpenFlow wildcards).
362 * - 'max_entries' to the maximum number of flows actually supported by
365 * - 'lookup_count' to the number of packets looked up in this flow table
368 * - 'matched_count' to the number of packets looked up in this flow
369 * table so far that matched one of the flow entries.
371 * Keep in mind that all of the members of struct ofp_table_stats are in
372 * network byte order.
374 void (*get_tables)(struct ofproto *ofproto, struct ofp_table_stats *ots);
376 /* ## ---------------- ## */
377 /* ## ofport Functions ## */
378 /* ## ---------------- ## */
380 /* Life-cycle functions for a "struct ofport" (see "Life Cycle" above).
382 * ->port_construct() should not modify any base members of the ofport.
384 * ofports are managed by the base ofproto code. The ofproto
385 * implementation should only create and destroy them in response to calls
386 * to these functions. The base ofproto code will create and destroy
387 * ofports in the following situations:
389 * - Just after the ->construct() function is called, the base ofproto
390 * iterates over all of the implementation's ports, using
391 * ->port_dump_start() and related functions, and constructs an ofport
392 * for each dumped port.
394 * - If ->port_poll() reports that a specific port has changed, then the
395 * base ofproto will query that port with ->port_query_by_name() and
396 * construct or destruct ofports as necessary to reflect the updated
399 * - If ->port_poll() returns ENOBUFS to report an unspecified port set
400 * change, then the base ofproto will iterate over all of the
401 * implementation's ports, in the same way as at ofproto
402 * initialization, and construct and destruct ofports to reflect all of
405 * ->port_construct() returns 0 if successful, otherwise a positive errno
408 struct ofport *(*port_alloc)(void);
409 int (*port_construct)(struct ofport *ofport);
410 void (*port_destruct)(struct ofport *ofport);
411 void (*port_dealloc)(struct ofport *ofport);
413 /* Called after 'ofport->netdev' is replaced by a new netdev object. If
414 * the ofproto implementation uses the ofport's netdev internally, then it
415 * should switch to using the new one. The old one has been closed.
417 * An ofproto implementation that doesn't need to do anything in this
418 * function may use a null pointer. */
419 void (*port_modified)(struct ofport *ofport);
421 /* Called after an OpenFlow OFPT_PORT_MOD request changes a port's
422 * configuration. 'ofport->opp.config' contains the new configuration.
423 * 'old_config' contains the previous configuration.
425 * The caller implements OFPPC_PORT_DOWN using netdev functions to turn
426 * NETDEV_UP on and off, so this function doesn't have to do anything for
427 * that bit (and it won't be called if that is the only bit that
429 void (*port_reconfigured)(struct ofport *ofport, ovs_be32 old_config);
431 /* Looks up a port named 'devname' in 'ofproto'. On success, initializes
432 * '*port' appropriately.
434 * The caller owns the data in 'port' and must free it with
435 * ofproto_port_destroy() when it is no longer needed. */
436 int (*port_query_by_name)(const struct ofproto *ofproto,
437 const char *devname, struct ofproto_port *port);
439 /* Attempts to add 'netdev' as a port on 'ofproto'. Returns 0 if
440 * successful, otherwise a positive errno value. If successful, sets
441 * '*ofp_portp' to the new port's port number.
443 * It doesn't matter whether the new port will be returned by a later call
444 * to ->port_poll(); the implementation may do whatever is more
446 int (*port_add)(struct ofproto *ofproto, struct netdev *netdev,
447 uint16_t *ofp_portp);
449 /* Deletes port number 'ofp_port' from the datapath for 'ofproto'. Returns
450 * 0 if successful, otherwise a positive errno value.
452 * It doesn't matter whether the new port will be returned by a later call
453 * to ->port_poll(); the implementation may do whatever is more
455 int (*port_del)(struct ofproto *ofproto, uint16_t ofp_port);
457 /* Port iteration functions.
459 * The client might not be entirely in control of the ports within an
460 * ofproto. Some hardware implementations, for example, might have a fixed
461 * set of ports in a datapath, and the Linux datapath allows the system
462 * administrator to externally add and remove ports with ovs-dpctl. For
463 * this reason, the client needs a way to iterate through all the ports
464 * that are actually in a datapath. These functions provide that
467 * The 'state' pointer provides the implementation a place to
468 * keep track of its position. Its format is opaque to the caller.
470 * The ofproto provider retains ownership of the data that it stores into
471 * ->port_dump_next()'s 'port' argument. The data must remain valid until
472 * at least the next call to ->port_dump_next() or ->port_dump_done() for
473 * 'state'. The caller will not modify or free it.
478 * ->port_dump_start() attempts to begin dumping the ports in 'ofproto'.
479 * On success, it should return 0 and initialize '*statep' with any data
480 * needed for iteration. On failure, returns a positive errno value, and
481 * the client will not call ->port_dump_next() or ->port_dump_done().
483 * ->port_dump_next() attempts to retrieve another port from 'ofproto' for
484 * 'state'. If there is another port, it should store the port's
485 * information into 'port' and return 0. It should return EOF if all ports
486 * have already been iterated. Otherwise, on error, it should return a
487 * positive errno value. This function will not be called again once it
488 * returns nonzero once for a given iteration (but the 'port_dump_done'
489 * function will be called afterward).
491 * ->port_dump_done() allows the implementation to release resources used
492 * for iteration. The caller might decide to stop iteration in the middle
493 * by calling this function before ->port_dump_next() returns nonzero.
501 * error = ofproto->ofproto_class->port_dump_start(ofproto, &state);
504 * struct ofproto_port port;
506 * error = ofproto->ofproto_class->port_dump_next(
507 * ofproto, state, &port);
511 * // Do something with 'port' here (without modifying or freeing
512 * // any of its data).
514 * ofproto->ofproto_class->port_dump_done(ofproto, state);
516 * // 'error' is now EOF (success) or a positive errno value (failure).
518 int (*port_dump_start)(const struct ofproto *ofproto, void **statep);
519 int (*port_dump_next)(const struct ofproto *ofproto, void *state,
520 struct ofproto_port *port);
521 int (*port_dump_done)(const struct ofproto *ofproto, void *state);
523 /* Polls for changes in the set of ports in 'ofproto'. If the set of ports
524 * in 'ofproto' has changed, then this function should do one of the
527 * - Preferably: store the name of the device that was added to or deleted
528 * from 'ofproto' in '*devnamep' and return 0. The caller is responsible
529 * for freeing '*devnamep' (with free()) when it no longer needs it.
531 * - Alternatively: return ENOBUFS, without indicating the device that was
534 * Occasional 'false positives', in which the function returns 0 while
535 * indicating a device that was not actually added or deleted or returns
536 * ENOBUFS without any change, are acceptable.
538 * The purpose of 'port_poll' is to let 'ofproto' know about changes made
539 * externally to the 'ofproto' object, e.g. by a system administrator via
540 * ovs-dpctl. Therefore, it's OK, and even preferable, for port_poll() to
541 * not report changes made through calls to 'port_add' or 'port_del' on the
542 * same 'ofproto' object. (But it's OK for it to report them too, just
543 * slightly less efficient.)
545 * If the set of ports in 'ofproto' has not changed, returns EAGAIN. May
546 * also return other positive errno values to indicate that something has
549 * If the set of ports in a datapath is fixed, or if the only way that the
550 * set of ports in a datapath can change is through ->port_add() and
551 * ->port_del(), then this function may be a null pointer.
553 int (*port_poll)(const struct ofproto *ofproto, char **devnamep);
555 /* Arranges for the poll loop to wake up when ->port_poll() will return a
556 * value other than EAGAIN.
558 * If the set of ports in a datapath is fixed, or if the only way that the
559 * set of ports in a datapath can change is through ->port_add() and
560 * ->port_del(), or if the poll loop will always wake up anyway when
561 * ->port_poll() will return a value other than EAGAIN, then this function
562 * may be a null pointer.
564 void (*port_poll_wait)(const struct ofproto *ofproto);
566 /* Checks the status of LACP negotiation for 'port'. Returns 1 if LACP
567 * partner information for 'port' is up-to-date, 0 if LACP partner
568 * information is not current (generally indicating a connectivity
569 * problem), or -1 if LACP is not enabled on 'port'.
571 * This function may be a null pointer if the ofproto implementation does
572 * not support LACP. */
573 int (*port_is_lacp_current)(const struct ofport *port);
575 /* ## ----------------------- ## */
576 /* ## OpenFlow Rule Functions ## */
577 /* ## ----------------------- ## */
581 /* Chooses an appropriate table for 'cls_rule' within 'ofproto'. On
582 * success, stores the table ID into '*table_idp' and returns 0. On
583 * failure, returns an OpenFlow error code (as returned by ofp_mkerr()).
585 * The choice of table should be a function of 'cls_rule' and 'ofproto''s
586 * datapath capabilities. It should not depend on the flows already in
587 * 'ofproto''s flow tables. Failure implies that an OpenFlow rule with
588 * 'cls_rule' as its matching condition can never be inserted into
589 * 'ofproto', even starting from an empty flow table.
591 * If multiple tables are candidates for inserting the flow, the function
592 * should choose one arbitrarily (but deterministically).
594 * This function will never be called for an ofproto that has only one
595 * table, so it may be NULL in that case. */
596 int (*rule_choose_table)(const struct ofproto *ofproto,
597 const struct cls_rule *cls_rule,
600 /* Life-cycle functions for a "struct rule" (see "Life Cycle" above).
603 * Asynchronous Operation Support
604 * ==============================
606 * The life-cycle operations on rules can operate asynchronously, meaning
607 * that ->rule_construct() and ->rule_destruct() only need to initiate
608 * their respective operations and do not need to wait for them to complete
609 * before they return. ->rule_modify_actions() also operates
612 * An ofproto implementation reports the success or failure of an
613 * asynchronous operation on a rule using the rule's 'pending' member,
614 * which points to a opaque "struct ofoperation" that represents the
615 * ongoing opreation. When the operation completes, the ofproto
616 * implementation calls ofoperation_complete(), passing the ofoperation and
617 * an error indication.
619 * Only the following contexts may call ofoperation_complete():
621 * - The function called to initiate the operation,
622 * e.g. ->rule_construct() or ->rule_destruct(). This is the best
623 * choice if the operation completes quickly.
625 * - The implementation's ->run() function.
627 * - The implementation's ->destruct() function.
629 * The ofproto base code updates the flow table optimistically, assuming
630 * that the operation will probably succeed:
632 * - ofproto adds or replaces the rule in the flow table before calling
633 * ->rule_construct().
635 * - ofproto updates the rule's actions before calling
636 * ->rule_modify_actions().
638 * - ofproto removes the rule before calling ->rule_destruct().
640 * With one exception, when an asynchronous operation completes with an
641 * error, ofoperation_complete() backs out the already applied changes:
643 * - If adding or replacing a rule in the flow table fails, ofproto
644 * removes the new rule or restores the original rule.
646 * - If modifying a rule's actions fails, ofproto restores the original
649 * - Removing a rule is not allowed to fail. It must always succeed.
651 * The ofproto base code serializes operations: if any operation is in
652 * progress on a given rule, ofproto postpones initiating any new operation
653 * on that rule until the pending operation completes. Therefore, every
654 * operation must eventually complete through a call to
655 * ofoperation_complete() to avoid delaying new operations indefinitely
656 * (including any OpenFlow request that affects the rule in question, even
657 * just to query its statistics).
663 * When ->rule_construct() is called, the caller has already inserted
664 * 'rule' into 'rule->ofproto''s flow table numbered 'rule->table_id'.
665 * There are two cases:
667 * - 'rule' is a new rule in its flow table. In this case,
668 * ofoperation_get_victim(rule) returns NULL.
670 * - 'rule' is replacing an existing rule in its flow table that had the
671 * same matching criteria and priority. In this case,
672 * ofoperation_get_victim(rule) returns the rule being replaced.
674 * ->rule_construct() should set the following in motion:
676 * - Validate that the matching rule in 'rule->cr' is supported by the
677 * datapath. For example, if the rule's table does not support
678 * registers, then it is an error if 'rule->cr' does not wildcard all
681 * - Validate that 'rule->actions' and 'rule->n_actions' are well-formed
682 * OpenFlow actions that the datapath can correctly implement. The
683 * validate_actions() function (in ofp-util.c) can be useful as a model
684 * for action validation, but it accepts all of the OpenFlow actions
685 * that OVS understands. If your ofproto implementation only
686 * implements a subset of those, then you should implement your own
689 * - If the rule is valid, update the datapath flow table, adding the new
690 * rule or replacing the existing one.
692 * (On failure, the ofproto code will roll back the insertion from the flow
693 * table, either removing 'rule' or replacing it by the flow that was
694 * originally in its place.)
696 * ->rule_construct() must act in one of the following ways:
698 * - If it succeeds, it must call ofoperation_complete() and return 0.
700 * - If it fails, it must act in one of the following ways:
702 * * Call ofoperation_complete() and return 0.
704 * * Return an OpenFlow error code (as returned by ofp_mkerr()). (Do
705 * not call ofoperation_complete() in this case.)
707 * In the former case, ->rule_destruct() will be called; in the latter
708 * case, it will not. ->rule_dealloc() will be called in either case.
710 * - If the operation is only partially complete, then it must return 0.
711 * Later, when the operation is complete, the ->run() or ->destruct()
712 * function must call ofoperation_complete() to report success or
715 * ->rule_construct() should not modify any base members of struct rule.
721 * When ->rule_destruct() is called, the caller has already removed 'rule'
722 * from 'rule->ofproto''s flow table. ->rule_destruct() should set in
723 * motion removing 'rule' from the datapath flow table. If removal
724 * completes synchronously, it should call ofoperation_complete().
725 * Otherwise, the ->run() or ->destruct() function must later call
726 * ofoperation_complete() after the operation completes.
728 * Rule destruction must not fail. */
729 struct rule *(*rule_alloc)(void);
730 int (*rule_construct)(struct rule *rule);
731 void (*rule_destruct)(struct rule *rule);
732 void (*rule_dealloc)(struct rule *rule);
734 /* Obtains statistics for 'rule', storing the number of packets that have
735 * matched it in '*packet_count' and the number of bytes in those packets
736 * in '*byte_count'. UINT64_MAX indicates that the packet count or byte
737 * count is unknown. */
738 void (*rule_get_stats)(struct rule *rule, uint64_t *packet_count,
739 uint64_t *byte_count);
741 /* Applies the actions in 'rule' to 'packet'. (This implements sending
742 * buffered packets for OpenFlow OFPT_FLOW_MOD commands.)
744 * Takes ownership of 'packet' (so it should eventually free it, with
747 * 'flow' reflects the flow information for 'packet'. All of the
748 * information in 'flow' is extracted from 'packet', except for
749 * flow->tun_id and flow->in_port, which are assigned the correct values
750 * for the incoming packet. The register values are zeroed.
752 * The statistics for 'packet' should be included in 'rule'.
754 * Returns 0 if successful, otherwise an OpenFlow error code (as returned
755 * by ofp_mkerr()). */
756 int (*rule_execute)(struct rule *rule, struct flow *flow,
757 struct ofpbuf *packet);
759 /* When ->rule_modify_actions() is called, the caller has already replaced
760 * the OpenFlow actions in 'rule' by a new set. (The original actions are
761 * in rule->pending->actions.)
763 * ->rule_modify_actions() should set the following in motion:
765 * - Validate that the actions now in 'rule' are well-formed OpenFlow
766 * actions that the datapath can correctly implement.
768 * - Update the datapath flow table with the new actions.
770 * If the operation synchronously completes, ->rule_modify_actions() may
771 * call ofoperation_complete() before it returns. Otherwise, ->run()
772 * should call ofoperation_complete() later, after the operation does
775 * If the operation fails, then the base ofproto code will restore the
776 * original 'actions' and 'n_actions' of 'rule'.
778 * ->rule_modify_actions() should not modify any base members of struct
780 void (*rule_modify_actions)(struct rule *rule);
782 /* These functions implement the OpenFlow IP fragment handling policy. By
783 * default ('drop_frags' == false), an OpenFlow switch should treat IP
784 * fragments the same way as other packets (although TCP and UDP port
785 * numbers cannot be determined). With 'drop_frags' == true, the switch
786 * should drop all IP fragments without passing them through the flow
788 bool (*get_drop_frags)(struct ofproto *ofproto);
789 void (*set_drop_frags)(struct ofproto *ofproto, bool drop_frags);
791 /* Implements the OpenFlow OFPT_PACKET_OUT command. The datapath should
792 * execute the 'n_actions' in the 'actions' array on 'packet'.
794 * The caller retains ownership of 'packet', so ->packet_out() should not
797 * This function must validate that the 'n_actions' elements in 'actions'
798 * are well-formed OpenFlow actions that can be correctly implemented by
799 * the datapath. If not, then it should return an OpenFlow error code (as
800 * returned by ofp_mkerr()).
802 * 'flow' reflects the flow information for 'packet'. All of the
803 * information in 'flow' is extracted from 'packet', except for
804 * flow->in_port, which is taken from the OFPT_PACKET_OUT message.
805 * flow->tun_id and its register values are zeroed.
807 * 'packet' is not matched against the OpenFlow flow table, so its
808 * statistics should not be included in OpenFlow flow statistics.
810 * Returns 0 if successful, otherwise an OpenFlow error code (as returned
811 * by ofp_mkerr()). */
812 int (*packet_out)(struct ofproto *ofproto, struct ofpbuf *packet,
813 const struct flow *flow,
814 const union ofp_action *actions,
817 /* ## ------------------------- ## */
818 /* ## OFPP_NORMAL configuration ## */
819 /* ## ------------------------- ## */
821 /* Configures NetFlow on 'ofproto' according to the options in
822 * 'netflow_options', or turns off NetFlow if 'netflow_options' is NULL.
824 * EOPNOTSUPP as a return value indicates that 'ofproto' does not support
825 * NetFlow, as does a null pointer. */
826 int (*set_netflow)(struct ofproto *ofproto,
827 const struct netflow_options *netflow_options);
829 void (*get_netflow_ids)(const struct ofproto *ofproto,
830 uint8_t *engine_type, uint8_t *engine_id);
832 /* Configures sFlow on 'ofproto' according to the options in
833 * 'sflow_options', or turns off sFlow if 'sflow_options' is NULL.
835 * EOPNOTSUPP as a return value indicates that 'ofproto' does not support
836 * sFlow, as does a null pointer. */
837 int (*set_sflow)(struct ofproto *ofproto,
838 const struct ofproto_sflow_options *sflow_options);
840 /* Configures connectivity fault management on 'ofport'.
842 * If 'cfm_settings' is nonnull, configures CFM according to its members.
844 * If 'cfm_settings' is null, removes any connectivity fault management
845 * configuration from 'ofport'.
847 * EOPNOTSUPP as a return value indicates that this ofproto_class does not
848 * support CFM, as does a null pointer. */
849 int (*set_cfm)(struct ofport *ofport, const struct cfm_settings *s);
851 /* Checks the fault status of CFM configured on 'ofport'. Returns 1 if CFM
852 * is faulted (generally indicating a connectivity problem), 0 if CFM is
853 * not faulted, or -1 if CFM is not enabled on 'port'
855 * This function may be a null pointer if the ofproto implementation does
856 * not support CFM. */
857 int (*get_cfm_fault)(const struct ofport *ofport);
859 /* If 's' is nonnull, this function registers a "bundle" associated with
860 * client data pointer 'aux' in 'ofproto'. A bundle is the same concept as
861 * a Port in OVSDB, that is, it consists of one or more "slave" devices
862 * (Interfaces, in OVSDB) along with VLAN and LACP configuration and, if
863 * there is more than one slave, a bonding configuration. If 'aux' is
864 * already registered then this function updates its configuration to 's'.
865 * Otherwise, this function registers a new bundle.
867 * If 's' is NULL, this function unregisters the bundle registered on
868 * 'ofproto' associated with client data pointer 'aux'. If no such bundle
869 * has been registered, this has no effect.
871 * This function affects only the behavior of the NXAST_AUTOPATH action and
872 * output to the OFPP_NORMAL port. An implementation that does not support
873 * it at all may set it to NULL or return EOPNOTSUPP. An implementation
874 * that supports only a subset of the functionality should implement what
875 * it can and return 0. */
876 int (*bundle_set)(struct ofproto *ofproto, void *aux,
877 const struct ofproto_bundle_settings *s);
879 /* If 'port' is part of any bundle, removes it from that bundle. If the
880 * bundle now has no ports, deletes the bundle. If the bundle now has only
881 * one port, deconfigures the bundle's bonding configuration. */
882 void (*bundle_remove)(struct ofport *ofport);
884 /* If 's' is nonnull, this function registers a mirror associated with
885 * client data pointer 'aux' in 'ofproto'. A mirror is the same concept as
886 * a Mirror in OVSDB. If 'aux' is already registered then this function
887 * updates its configuration to 's'. Otherwise, this function registers a
890 * If 's' is NULL, this function unregisters the mirror registered on
891 * 'ofproto' associated with client data pointer 'aux'. If no such mirror
892 * has been registered, this has no effect.
894 * This function affects only the behavior of the OFPP_NORMAL action. An
895 * implementation that does not support it at all may set it to NULL or
896 * return EOPNOTSUPP. An implementation that supports only a subset of the
897 * functionality should implement what it can and return 0. */
898 int (*mirror_set)(struct ofproto *ofproto, void *aux,
899 const struct ofproto_mirror_settings *s);
901 /* Configures the VLANs whose bits are set to 1 in 'flood_vlans' as VLANs
902 * on which all packets are flooded, instead of using MAC learning. If
903 * 'flood_vlans' is NULL, then MAC learning applies to all VLANs.
905 * This function affects only the behavior of the OFPP_NORMAL action. An
906 * implementation that does not support it may set it to NULL or return
908 int (*set_flood_vlans)(struct ofproto *ofproto,
909 unsigned long *flood_vlans);
911 /* Returns true if 'aux' is a registered bundle that is currently in use as
912 * the output for a mirror. */
913 bool (*is_mirror_output_bundle)(struct ofproto *ofproto, void *aux);
916 extern const struct ofproto_class ofproto_dpif_class;
918 int ofproto_class_register(const struct ofproto_class *);
919 int ofproto_class_unregister(const struct ofproto_class *);
921 void ofproto_add_flow(struct ofproto *, const struct cls_rule *,
922 const union ofp_action *, size_t n_actions);
923 bool ofproto_delete_flow(struct ofproto *, const struct cls_rule *);
924 void ofproto_flush_flows(struct ofproto *);
926 #endif /* ofproto/ofproto-provider.h */