4 * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
6 * This program is free software; you can redistribute it and/or modify
7 * it under the terms of the GNU General Public License version 2 only,
8 * as published by the Free Software Foundation.
10 * This program is distributed in the hope that it will be useful, but
11 * WITHOUT ANY WARRANTY; without even the implied warranty of
12 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
13 * General Public License version 2 for more details (a copy is included
14 * in the LICENSE file that accompanied this code).
16 * You should have received a copy of the GNU General Public License
17 * version 2 along with this program; If not, see
18 * http://www.sun.com/software/products/lustre/docs/GPLv2.pdf
20 * Please contact Sun Microsystems, Inc., 4150 Network Circle, Santa Clara,
21 * CA 95054 USA or visit www.sun.com if you need additional information or
27 * Copyright (c) 2002, 2010, Oracle and/or its affiliates. All rights reserved.
28 * Use is subject to license terms.
30 * Copyright (c) 2011, 2012, Intel Corporation.
33 * This file is part of Lustre, http://www.lustre.org/
34 * Lustre is a trademark of Sun Microsystems, Inc.
37 /** Implementation of client-side PortalRPC interfaces */
39 #define DEBUG_SUBSYSTEM S_RPC
41 #include <obd_support.h>
42 #include <obd_class.h>
43 #include <lustre_lib.h>
44 #include <lustre_ha.h>
45 #include <lustre_import.h>
46 #include <lustre_req_layout.h>
48 #include "ptlrpc_internal.h"
50 static int ptlrpc_send_new_req(struct ptlrpc_request
*req
);
51 static int ptlrpcd_check_work(struct ptlrpc_request
*req
);
54 * Initialize passed in client structure \a cl.
56 void ptlrpc_init_client(int req_portal
, int rep_portal
, char *name
,
57 struct ptlrpc_client
*cl
)
59 cl
->cli_request_portal
= req_portal
;
60 cl
->cli_reply_portal
= rep_portal
;
63 EXPORT_SYMBOL(ptlrpc_init_client
);
66 * Return PortalRPC connection for remote uud \a uuid
68 struct ptlrpc_connection
*ptlrpc_uuid_to_connection(struct obd_uuid
*uuid
)
70 struct ptlrpc_connection
*c
;
72 lnet_process_id_t peer
;
75 /* ptlrpc_uuid_to_peer() initializes its 2nd parameter
76 * before accessing its values. */
77 /* coverity[uninit_use_in_call] */
78 err
= ptlrpc_uuid_to_peer(uuid
, &peer
, &self
);
80 CNETERR("cannot find peer %s!\n", uuid
->uuid
);
84 c
= ptlrpc_connection_get(peer
, self
, uuid
);
86 memcpy(c
->c_remote_uuid
.uuid
,
87 uuid
->uuid
, sizeof(c
->c_remote_uuid
.uuid
));
90 CDEBUG(D_INFO
, "%s -> %p\n", uuid
->uuid
, c
);
94 EXPORT_SYMBOL(ptlrpc_uuid_to_connection
);
97 * Allocate and initialize new bulk descriptor on the sender.
98 * Returns pointer to the descriptor or NULL on error.
100 struct ptlrpc_bulk_desc
*ptlrpc_new_bulk(unsigned npages
, unsigned max_brw
,
101 unsigned type
, unsigned portal
)
103 struct ptlrpc_bulk_desc
*desc
;
106 OBD_ALLOC(desc
, offsetof(struct ptlrpc_bulk_desc
, bd_iov
[npages
]));
110 spin_lock_init(&desc
->bd_lock
);
111 init_waitqueue_head(&desc
->bd_waitq
);
112 desc
->bd_max_iov
= npages
;
113 desc
->bd_iov_count
= 0;
114 desc
->bd_portal
= portal
;
115 desc
->bd_type
= type
;
116 desc
->bd_md_count
= 0;
117 LASSERT(max_brw
> 0);
118 desc
->bd_md_max_brw
= min(max_brw
, PTLRPC_BULK_OPS_COUNT
);
119 /* PTLRPC_BULK_OPS_COUNT is the compile-time transfer limit for this
120 * node. Negotiated ocd_brw_size will always be <= this number. */
121 for (i
= 0; i
< PTLRPC_BULK_OPS_COUNT
; i
++)
122 LNetInvalidateHandle(&desc
->bd_mds
[i
]);
128 * Prepare bulk descriptor for specified outgoing request \a req that
129 * can fit \a npages * pages. \a type is bulk type. \a portal is where
130 * the bulk to be sent. Used on client-side.
131 * Returns pointer to newly allocated initialized bulk descriptor or NULL on
134 struct ptlrpc_bulk_desc
*ptlrpc_prep_bulk_imp(struct ptlrpc_request
*req
,
135 unsigned npages
, unsigned max_brw
,
136 unsigned type
, unsigned portal
)
138 struct obd_import
*imp
= req
->rq_import
;
139 struct ptlrpc_bulk_desc
*desc
;
141 LASSERT(type
== BULK_PUT_SINK
|| type
== BULK_GET_SOURCE
);
142 desc
= ptlrpc_new_bulk(npages
, max_brw
, type
, portal
);
146 desc
->bd_import_generation
= req
->rq_import_generation
;
147 desc
->bd_import
= class_import_get(imp
);
150 desc
->bd_cbid
.cbid_fn
= client_bulk_callback
;
151 desc
->bd_cbid
.cbid_arg
= desc
;
153 /* This makes req own desc, and free it when she frees herself */
158 EXPORT_SYMBOL(ptlrpc_prep_bulk_imp
);
161 * Add a page \a page to the bulk descriptor \a desc.
162 * Data to transfer in the page starts at offset \a pageoffset and
163 * amount of data to transfer from the page is \a len
165 void __ptlrpc_prep_bulk_page(struct ptlrpc_bulk_desc
*desc
,
166 struct page
*page
, int pageoffset
, int len
, int pin
)
168 LASSERT(desc
->bd_iov_count
< desc
->bd_max_iov
);
169 LASSERT(page
!= NULL
);
170 LASSERT(pageoffset
>= 0);
172 LASSERT(pageoffset
+ len
<= PAGE_CACHE_SIZE
);
177 page_cache_get(page
);
179 ptlrpc_add_bulk_page(desc
, page
, pageoffset
, len
);
181 EXPORT_SYMBOL(__ptlrpc_prep_bulk_page
);
184 * Uninitialize and free bulk descriptor \a desc.
185 * Works on bulk descriptors both from server and client side.
187 void __ptlrpc_free_bulk(struct ptlrpc_bulk_desc
*desc
, int unpin
)
191 LASSERT(desc
!= NULL
);
192 LASSERT(desc
->bd_iov_count
!= LI_POISON
); /* not freed already */
193 LASSERT(desc
->bd_md_count
== 0); /* network hands off */
194 LASSERT((desc
->bd_export
!= NULL
) ^ (desc
->bd_import
!= NULL
));
196 sptlrpc_enc_pool_put_pages(desc
);
199 class_export_put(desc
->bd_export
);
201 class_import_put(desc
->bd_import
);
204 for (i
= 0; i
< desc
->bd_iov_count
; i
++)
205 page_cache_release(desc
->bd_iov
[i
].kiov_page
);
208 OBD_FREE(desc
, offsetof(struct ptlrpc_bulk_desc
,
209 bd_iov
[desc
->bd_max_iov
]));
211 EXPORT_SYMBOL(__ptlrpc_free_bulk
);
214 * Set server timelimit for this req, i.e. how long are we willing to wait
215 * for reply before timing out this request.
217 void ptlrpc_at_set_req_timeout(struct ptlrpc_request
*req
)
223 LASSERT(req
->rq_import
);
226 /* non-AT settings */
228 * \a imp_server_timeout means this is reverse import and
229 * we send (currently only) ASTs to the client and cannot afford
230 * to wait too long for the reply, otherwise the other client
231 * (because of which we are sending this request) would
232 * timeout waiting for us
234 req
->rq_timeout
= req
->rq_import
->imp_server_timeout
?
235 obd_timeout
/ 2 : obd_timeout
;
237 at
= &req
->rq_import
->imp_at
;
238 idx
= import_at_get_index(req
->rq_import
,
239 req
->rq_request_portal
);
240 serv_est
= at_get(&at
->iat_service_estimate
[idx
]);
241 req
->rq_timeout
= at_est2timeout(serv_est
);
243 /* We could get even fancier here, using history to predict increased
246 /* Let the server know what this RPC timeout is by putting it in the
248 lustre_msg_set_timeout(req
->rq_reqmsg
, req
->rq_timeout
);
250 EXPORT_SYMBOL(ptlrpc_at_set_req_timeout
);
252 /* Adjust max service estimate based on server value */
253 static void ptlrpc_at_adj_service(struct ptlrpc_request
*req
,
254 unsigned int serv_est
)
260 LASSERT(req
->rq_import
);
261 at
= &req
->rq_import
->imp_at
;
263 idx
= import_at_get_index(req
->rq_import
, req
->rq_request_portal
);
264 /* max service estimates are tracked on the server side,
265 so just keep minimal history here */
266 oldse
= at_measured(&at
->iat_service_estimate
[idx
], serv_est
);
268 CDEBUG(D_ADAPTTO
, "The RPC service estimate for %s ptl %d "
269 "has changed from %d to %d\n",
270 req
->rq_import
->imp_obd
->obd_name
,req
->rq_request_portal
,
271 oldse
, at_get(&at
->iat_service_estimate
[idx
]));
274 /* Expected network latency per remote node (secs) */
275 int ptlrpc_at_get_net_latency(struct ptlrpc_request
*req
)
277 return AT_OFF
? 0 : at_get(&req
->rq_import
->imp_at
.iat_net_latency
);
280 /* Adjust expected network latency */
281 static void ptlrpc_at_adj_net_latency(struct ptlrpc_request
*req
,
282 unsigned int service_time
)
284 unsigned int nl
, oldnl
;
286 time_t now
= cfs_time_current_sec();
288 LASSERT(req
->rq_import
);
289 at
= &req
->rq_import
->imp_at
;
291 /* Network latency is total time less server processing time */
292 nl
= max_t(int, now
- req
->rq_sent
- service_time
, 0) +1/*st rounding*/;
293 if (service_time
> now
- req
->rq_sent
+ 3 /* bz16408 */)
294 CWARN("Reported service time %u > total measured time "
295 CFS_DURATION_T
"\n", service_time
,
296 cfs_time_sub(now
, req
->rq_sent
));
298 oldnl
= at_measured(&at
->iat_net_latency
, nl
);
300 CDEBUG(D_ADAPTTO
, "The network latency for %s (nid %s) "
301 "has changed from %d to %d\n",
302 req
->rq_import
->imp_obd
->obd_name
,
304 &req
->rq_import
->imp_connection
->c_remote_uuid
),
305 oldnl
, at_get(&at
->iat_net_latency
));
308 static int unpack_reply(struct ptlrpc_request
*req
)
312 if (SPTLRPC_FLVR_POLICY(req
->rq_flvr
.sf_rpc
) != SPTLRPC_POLICY_NULL
) {
313 rc
= ptlrpc_unpack_rep_msg(req
, req
->rq_replen
);
315 DEBUG_REQ(D_ERROR
, req
, "unpack_rep failed: %d", rc
);
320 rc
= lustre_unpack_rep_ptlrpc_body(req
, MSG_PTLRPC_BODY_OFF
);
322 DEBUG_REQ(D_ERROR
, req
, "unpack ptlrpc body failed: %d", rc
);
329 * Handle an early reply message, called with the rq_lock held.
330 * If anything goes wrong just ignore it - same as if it never happened
332 static int ptlrpc_at_recv_early_reply(struct ptlrpc_request
*req
)
334 struct ptlrpc_request
*early_req
;
339 spin_unlock(&req
->rq_lock
);
341 rc
= sptlrpc_cli_unwrap_early_reply(req
, &early_req
);
343 spin_lock(&req
->rq_lock
);
347 rc
= unpack_reply(early_req
);
349 /* Expecting to increase the service time estimate here */
350 ptlrpc_at_adj_service(req
,
351 lustre_msg_get_timeout(early_req
->rq_repmsg
));
352 ptlrpc_at_adj_net_latency(req
,
353 lustre_msg_get_service_time(early_req
->rq_repmsg
));
356 sptlrpc_cli_finish_early_reply(early_req
);
359 spin_lock(&req
->rq_lock
);
363 /* Adjust the local timeout for this req */
364 ptlrpc_at_set_req_timeout(req
);
366 spin_lock(&req
->rq_lock
);
367 olddl
= req
->rq_deadline
;
368 /* server assumes it now has rq_timeout from when it sent the
369 * early reply, so client should give it at least that long. */
370 req
->rq_deadline
= cfs_time_current_sec() + req
->rq_timeout
+
371 ptlrpc_at_get_net_latency(req
);
373 DEBUG_REQ(D_ADAPTTO
, req
,
374 "Early reply #%d, new deadline in "CFS_DURATION_T
"s "
375 "("CFS_DURATION_T
"s)", req
->rq_early_count
,
376 cfs_time_sub(req
->rq_deadline
, cfs_time_current_sec()),
377 cfs_time_sub(req
->rq_deadline
, olddl
));
382 struct kmem_cache
*request_cache
;
384 int ptlrpc_request_cache_init(void)
386 request_cache
= kmem_cache_create("ptlrpc_cache",
387 sizeof(struct ptlrpc_request
),
388 0, SLAB_HWCACHE_ALIGN
, NULL
);
389 return request_cache
== NULL
? -ENOMEM
: 0;
392 void ptlrpc_request_cache_fini(void)
394 kmem_cache_destroy(request_cache
);
397 struct ptlrpc_request
*ptlrpc_request_cache_alloc(int flags
)
399 struct ptlrpc_request
*req
;
401 OBD_SLAB_ALLOC_PTR_GFP(req
, request_cache
, flags
);
405 void ptlrpc_request_cache_free(struct ptlrpc_request
*req
)
407 OBD_SLAB_FREE_PTR(req
, request_cache
);
411 * Wind down request pool \a pool.
412 * Frees all requests from the pool too
414 void ptlrpc_free_rq_pool(struct ptlrpc_request_pool
*pool
)
416 struct list_head
*l
, *tmp
;
417 struct ptlrpc_request
*req
;
419 LASSERT(pool
!= NULL
);
421 spin_lock(&pool
->prp_lock
);
422 list_for_each_safe(l
, tmp
, &pool
->prp_req_list
) {
423 req
= list_entry(l
, struct ptlrpc_request
, rq_list
);
424 list_del(&req
->rq_list
);
425 LASSERT(req
->rq_reqbuf
);
426 LASSERT(req
->rq_reqbuf_len
== pool
->prp_rq_size
);
427 OBD_FREE_LARGE(req
->rq_reqbuf
, pool
->prp_rq_size
);
428 ptlrpc_request_cache_free(req
);
430 spin_unlock(&pool
->prp_lock
);
431 OBD_FREE(pool
, sizeof(*pool
));
433 EXPORT_SYMBOL(ptlrpc_free_rq_pool
);
436 * Allocates, initializes and adds \a num_rq requests to the pool \a pool
438 void ptlrpc_add_rqs_to_pool(struct ptlrpc_request_pool
*pool
, int num_rq
)
443 while (size
< pool
->prp_rq_size
)
446 LASSERTF(list_empty(&pool
->prp_req_list
) ||
447 size
== pool
->prp_rq_size
,
448 "Trying to change pool size with nonempty pool "
449 "from %d to %d bytes\n", pool
->prp_rq_size
, size
);
451 spin_lock(&pool
->prp_lock
);
452 pool
->prp_rq_size
= size
;
453 for (i
= 0; i
< num_rq
; i
++) {
454 struct ptlrpc_request
*req
;
455 struct lustre_msg
*msg
;
457 spin_unlock(&pool
->prp_lock
);
458 req
= ptlrpc_request_cache_alloc(GFP_NOFS
);
461 OBD_ALLOC_LARGE(msg
, size
);
463 ptlrpc_request_cache_free(req
);
466 req
->rq_reqbuf
= msg
;
467 req
->rq_reqbuf_len
= size
;
469 spin_lock(&pool
->prp_lock
);
470 list_add_tail(&req
->rq_list
, &pool
->prp_req_list
);
472 spin_unlock(&pool
->prp_lock
);
475 EXPORT_SYMBOL(ptlrpc_add_rqs_to_pool
);
478 * Create and initialize new request pool with given attributes:
479 * \a num_rq - initial number of requests to create for the pool
480 * \a msgsize - maximum message size possible for requests in thid pool
481 * \a populate_pool - function to be called when more requests need to be added
483 * Returns pointer to newly created pool or NULL on error.
485 struct ptlrpc_request_pool
*
486 ptlrpc_init_rq_pool(int num_rq
, int msgsize
,
487 void (*populate_pool
)(struct ptlrpc_request_pool
*, int))
489 struct ptlrpc_request_pool
*pool
;
491 OBD_ALLOC(pool
, sizeof(struct ptlrpc_request_pool
));
495 /* Request next power of two for the allocation, because internally
496 kernel would do exactly this */
498 spin_lock_init(&pool
->prp_lock
);
499 INIT_LIST_HEAD(&pool
->prp_req_list
);
500 pool
->prp_rq_size
= msgsize
+ SPTLRPC_MAX_PAYLOAD
;
501 pool
->prp_populate
= populate_pool
;
503 populate_pool(pool
, num_rq
);
505 if (list_empty(&pool
->prp_req_list
)) {
506 /* have not allocated a single request for the pool */
507 OBD_FREE(pool
, sizeof(struct ptlrpc_request_pool
));
512 EXPORT_SYMBOL(ptlrpc_init_rq_pool
);
515 * Fetches one request from pool \a pool
517 static struct ptlrpc_request
*
518 ptlrpc_prep_req_from_pool(struct ptlrpc_request_pool
*pool
)
520 struct ptlrpc_request
*request
;
521 struct lustre_msg
*reqbuf
;
526 spin_lock(&pool
->prp_lock
);
528 /* See if we have anything in a pool, and bail out if nothing,
529 * in writeout path, where this matters, this is safe to do, because
530 * nothing is lost in this case, and when some in-flight requests
531 * complete, this code will be called again. */
532 if (unlikely(list_empty(&pool
->prp_req_list
))) {
533 spin_unlock(&pool
->prp_lock
);
537 request
= list_entry(pool
->prp_req_list
.next
, struct ptlrpc_request
,
539 list_del_init(&request
->rq_list
);
540 spin_unlock(&pool
->prp_lock
);
542 LASSERT(request
->rq_reqbuf
);
543 LASSERT(request
->rq_pool
);
545 reqbuf
= request
->rq_reqbuf
;
546 memset(request
, 0, sizeof(*request
));
547 request
->rq_reqbuf
= reqbuf
;
548 request
->rq_reqbuf_len
= pool
->prp_rq_size
;
549 request
->rq_pool
= pool
;
555 * Returns freed \a request to pool.
557 static void __ptlrpc_free_req_to_pool(struct ptlrpc_request
*request
)
559 struct ptlrpc_request_pool
*pool
= request
->rq_pool
;
561 spin_lock(&pool
->prp_lock
);
562 LASSERT(list_empty(&request
->rq_list
));
563 LASSERT(!request
->rq_receiving_reply
);
564 list_add_tail(&request
->rq_list
, &pool
->prp_req_list
);
565 spin_unlock(&pool
->prp_lock
);
568 static int __ptlrpc_request_bufs_pack(struct ptlrpc_request
*request
,
569 __u32 version
, int opcode
,
570 int count
, __u32
*lengths
, char **bufs
,
571 struct ptlrpc_cli_ctx
*ctx
)
573 struct obd_import
*imp
= request
->rq_import
;
577 request
->rq_cli_ctx
= sptlrpc_cli_ctx_get(ctx
);
579 rc
= sptlrpc_req_get_ctx(request
);
584 sptlrpc_req_set_flavor(request
, opcode
);
586 rc
= lustre_pack_request(request
, imp
->imp_msg_magic
, count
,
589 LASSERT(!request
->rq_pool
);
593 lustre_msg_add_version(request
->rq_reqmsg
, version
);
594 request
->rq_send_state
= LUSTRE_IMP_FULL
;
595 request
->rq_type
= PTL_RPC_MSG_REQUEST
;
596 request
->rq_export
= NULL
;
598 request
->rq_req_cbid
.cbid_fn
= request_out_callback
;
599 request
->rq_req_cbid
.cbid_arg
= request
;
601 request
->rq_reply_cbid
.cbid_fn
= reply_in_callback
;
602 request
->rq_reply_cbid
.cbid_arg
= request
;
604 request
->rq_reply_deadline
= 0;
605 request
->rq_phase
= RQ_PHASE_NEW
;
606 request
->rq_next_phase
= RQ_PHASE_UNDEFINED
;
608 request
->rq_request_portal
= imp
->imp_client
->cli_request_portal
;
609 request
->rq_reply_portal
= imp
->imp_client
->cli_reply_portal
;
611 ptlrpc_at_set_req_timeout(request
);
613 spin_lock_init(&request
->rq_lock
);
614 INIT_LIST_HEAD(&request
->rq_list
);
615 INIT_LIST_HEAD(&request
->rq_timed_list
);
616 INIT_LIST_HEAD(&request
->rq_replay_list
);
617 INIT_LIST_HEAD(&request
->rq_ctx_chain
);
618 INIT_LIST_HEAD(&request
->rq_set_chain
);
619 INIT_LIST_HEAD(&request
->rq_history_list
);
620 INIT_LIST_HEAD(&request
->rq_exp_list
);
621 init_waitqueue_head(&request
->rq_reply_waitq
);
622 init_waitqueue_head(&request
->rq_set_waitq
);
623 request
->rq_xid
= ptlrpc_next_xid();
624 atomic_set(&request
->rq_refcount
, 1);
626 lustre_msg_set_opc(request
->rq_reqmsg
, opcode
);
630 sptlrpc_cli_ctx_put(request
->rq_cli_ctx
, 1);
632 class_import_put(imp
);
636 int ptlrpc_request_bufs_pack(struct ptlrpc_request
*request
,
637 __u32 version
, int opcode
, char **bufs
,
638 struct ptlrpc_cli_ctx
*ctx
)
642 count
= req_capsule_filled_sizes(&request
->rq_pill
, RCL_CLIENT
);
643 return __ptlrpc_request_bufs_pack(request
, version
, opcode
, count
,
644 request
->rq_pill
.rc_area
[RCL_CLIENT
],
647 EXPORT_SYMBOL(ptlrpc_request_bufs_pack
);
650 * Pack request buffers for network transfer, performing necessary encryption
651 * steps if necessary.
653 int ptlrpc_request_pack(struct ptlrpc_request
*request
,
654 __u32 version
, int opcode
)
657 rc
= ptlrpc_request_bufs_pack(request
, version
, opcode
, NULL
, NULL
);
661 /* For some old 1.8 clients (< 1.8.7), they will LASSERT the size of
662 * ptlrpc_body sent from server equal to local ptlrpc_body size, so we
663 * have to send old ptlrpc_body to keep interoperability with these
666 * Only three kinds of server->client RPCs so far:
671 * XXX This should be removed whenever we drop the interoperability with
672 * the these old clients.
674 if (opcode
== LDLM_BL_CALLBACK
|| opcode
== LDLM_CP_CALLBACK
||
675 opcode
== LDLM_GL_CALLBACK
)
676 req_capsule_shrink(&request
->rq_pill
, &RMF_PTLRPC_BODY
,
677 sizeof(struct ptlrpc_body_v2
), RCL_CLIENT
);
681 EXPORT_SYMBOL(ptlrpc_request_pack
);
684 * Helper function to allocate new request on import \a imp
685 * and possibly using existing request from pool \a pool if provided.
686 * Returns allocated request structure with import field filled or
690 struct ptlrpc_request
*__ptlrpc_request_alloc(struct obd_import
*imp
,
691 struct ptlrpc_request_pool
*pool
)
693 struct ptlrpc_request
*request
= NULL
;
696 request
= ptlrpc_prep_req_from_pool(pool
);
699 request
= ptlrpc_request_cache_alloc(GFP_NOFS
);
702 LASSERTF((unsigned long)imp
> 0x1000, "%p", imp
);
703 LASSERT(imp
!= LP_POISON
);
704 LASSERTF((unsigned long)imp
->imp_client
> 0x1000, "%p",
706 LASSERT(imp
->imp_client
!= LP_POISON
);
708 request
->rq_import
= class_import_get(imp
);
710 CERROR("request allocation out of memory\n");
717 * Helper function for creating a request.
718 * Calls __ptlrpc_request_alloc to allocate new request structure and inits
719 * buffer structures according to capsule template \a format.
720 * Returns allocated request structure pointer or NULL on error.
722 static struct ptlrpc_request
*
723 ptlrpc_request_alloc_internal(struct obd_import
*imp
,
724 struct ptlrpc_request_pool
* pool
,
725 const struct req_format
*format
)
727 struct ptlrpc_request
*request
;
729 request
= __ptlrpc_request_alloc(imp
, pool
);
733 req_capsule_init(&request
->rq_pill
, request
, RCL_CLIENT
);
734 req_capsule_set(&request
->rq_pill
, format
);
739 * Allocate new request structure for import \a imp and initialize its
740 * buffer structure according to capsule template \a format.
742 struct ptlrpc_request
*ptlrpc_request_alloc(struct obd_import
*imp
,
743 const struct req_format
*format
)
745 return ptlrpc_request_alloc_internal(imp
, NULL
, format
);
747 EXPORT_SYMBOL(ptlrpc_request_alloc
);
750 * Allocate new request structure for import \a imp from pool \a pool and
751 * initialize its buffer structure according to capsule template \a format.
753 struct ptlrpc_request
*ptlrpc_request_alloc_pool(struct obd_import
*imp
,
754 struct ptlrpc_request_pool
* pool
,
755 const struct req_format
*format
)
757 return ptlrpc_request_alloc_internal(imp
, pool
, format
);
759 EXPORT_SYMBOL(ptlrpc_request_alloc_pool
);
762 * For requests not from pool, free memory of the request structure.
763 * For requests obtained from a pool earlier, return request back to pool.
765 void ptlrpc_request_free(struct ptlrpc_request
*request
)
767 if (request
->rq_pool
)
768 __ptlrpc_free_req_to_pool(request
);
770 ptlrpc_request_cache_free(request
);
772 EXPORT_SYMBOL(ptlrpc_request_free
);
775 * Allocate new request for operation \a opcode and immediately pack it for
777 * Only used for simple requests like OBD_PING where the only important
778 * part of the request is operation itself.
779 * Returns allocated request or NULL on error.
781 struct ptlrpc_request
*ptlrpc_request_alloc_pack(struct obd_import
*imp
,
782 const struct req_format
*format
,
783 __u32 version
, int opcode
)
785 struct ptlrpc_request
*req
= ptlrpc_request_alloc(imp
, format
);
789 rc
= ptlrpc_request_pack(req
, version
, opcode
);
791 ptlrpc_request_free(req
);
797 EXPORT_SYMBOL(ptlrpc_request_alloc_pack
);
800 * Prepare request (fetched from pool \a pool if not NULL) on import \a imp
801 * for operation \a opcode. Request would contain \a count buffers.
802 * Sizes of buffers are described in array \a lengths and buffers themselves
803 * are provided by a pointer \a bufs.
804 * Returns prepared request structure pointer or NULL on error.
806 struct ptlrpc_request
*
807 ptlrpc_prep_req_pool(struct obd_import
*imp
,
808 __u32 version
, int opcode
,
809 int count
, __u32
*lengths
, char **bufs
,
810 struct ptlrpc_request_pool
*pool
)
812 struct ptlrpc_request
*request
;
815 request
= __ptlrpc_request_alloc(imp
, pool
);
819 rc
= __ptlrpc_request_bufs_pack(request
, version
, opcode
, count
,
820 lengths
, bufs
, NULL
);
822 ptlrpc_request_free(request
);
827 EXPORT_SYMBOL(ptlrpc_prep_req_pool
);
830 * Same as ptlrpc_prep_req_pool, but without pool
832 struct ptlrpc_request
*
833 ptlrpc_prep_req(struct obd_import
*imp
, __u32 version
, int opcode
, int count
,
834 __u32
*lengths
, char **bufs
)
836 return ptlrpc_prep_req_pool(imp
, version
, opcode
, count
, lengths
, bufs
,
839 EXPORT_SYMBOL(ptlrpc_prep_req
);
842 * Allocate and initialize new request set structure.
843 * Returns a pointer to the newly allocated set structure or NULL on error.
845 struct ptlrpc_request_set
*ptlrpc_prep_set(void)
847 struct ptlrpc_request_set
*set
;
849 OBD_ALLOC(set
, sizeof(*set
));
852 atomic_set(&set
->set_refcount
, 1);
853 INIT_LIST_HEAD(&set
->set_requests
);
854 init_waitqueue_head(&set
->set_waitq
);
855 atomic_set(&set
->set_new_count
, 0);
856 atomic_set(&set
->set_remaining
, 0);
857 spin_lock_init(&set
->set_new_req_lock
);
858 INIT_LIST_HEAD(&set
->set_new_requests
);
859 INIT_LIST_HEAD(&set
->set_cblist
);
860 set
->set_max_inflight
= UINT_MAX
;
861 set
->set_producer
= NULL
;
862 set
->set_producer_arg
= NULL
;
867 EXPORT_SYMBOL(ptlrpc_prep_set
);
870 * Allocate and initialize new request set structure with flow control
871 * extension. This extension allows to control the number of requests in-flight
872 * for the whole set. A callback function to generate requests must be provided
873 * and the request set will keep the number of requests sent over the wire to
875 * Returns a pointer to the newly allocated set structure or NULL on error.
877 struct ptlrpc_request_set
*ptlrpc_prep_fcset(int max
, set_producer_func func
,
881 struct ptlrpc_request_set
*set
;
883 set
= ptlrpc_prep_set();
887 set
->set_max_inflight
= max
;
888 set
->set_producer
= func
;
889 set
->set_producer_arg
= arg
;
893 EXPORT_SYMBOL(ptlrpc_prep_fcset
);
896 * Wind down and free request set structure previously allocated with
898 * Ensures that all requests on the set have completed and removes
899 * all requests from the request list in a set.
900 * If any unsent request happen to be on the list, pretends that they got
901 * an error in flight and calls their completion handler.
903 void ptlrpc_set_destroy(struct ptlrpc_request_set
*set
)
905 struct list_head
*tmp
;
906 struct list_head
*next
;
910 /* Requests on the set should either all be completed, or all be new */
911 expected_phase
= (atomic_read(&set
->set_remaining
) == 0) ?
912 RQ_PHASE_COMPLETE
: RQ_PHASE_NEW
;
913 list_for_each(tmp
, &set
->set_requests
) {
914 struct ptlrpc_request
*req
=
915 list_entry(tmp
, struct ptlrpc_request
,
918 LASSERT(req
->rq_phase
== expected_phase
);
922 LASSERTF(atomic_read(&set
->set_remaining
) == 0 ||
923 atomic_read(&set
->set_remaining
) == n
, "%d / %d\n",
924 atomic_read(&set
->set_remaining
), n
);
926 list_for_each_safe(tmp
, next
, &set
->set_requests
) {
927 struct ptlrpc_request
*req
=
928 list_entry(tmp
, struct ptlrpc_request
,
930 list_del_init(&req
->rq_set_chain
);
932 LASSERT(req
->rq_phase
== expected_phase
);
934 if (req
->rq_phase
== RQ_PHASE_NEW
) {
935 ptlrpc_req_interpret(NULL
, req
, -EBADR
);
936 atomic_dec(&set
->set_remaining
);
939 spin_lock(&req
->rq_lock
);
941 req
->rq_invalid_rqset
= 0;
942 spin_unlock(&req
->rq_lock
);
944 ptlrpc_req_finished(req
);
947 LASSERT(atomic_read(&set
->set_remaining
) == 0);
949 ptlrpc_reqset_put(set
);
951 EXPORT_SYMBOL(ptlrpc_set_destroy
);
954 * Add a callback function \a fn to the set.
955 * This function would be called when all requests on this set are completed.
956 * The function will be passed \a data argument.
958 int ptlrpc_set_add_cb(struct ptlrpc_request_set
*set
,
959 set_interpreter_func fn
, void *data
)
961 struct ptlrpc_set_cbdata
*cbdata
;
963 OBD_ALLOC_PTR(cbdata
);
967 cbdata
->psc_interpret
= fn
;
968 cbdata
->psc_data
= data
;
969 list_add_tail(&cbdata
->psc_item
, &set
->set_cblist
);
973 EXPORT_SYMBOL(ptlrpc_set_add_cb
);
976 * Add a new request to the general purpose request set.
977 * Assumes request reference from the caller.
979 void ptlrpc_set_add_req(struct ptlrpc_request_set
*set
,
980 struct ptlrpc_request
*req
)
982 LASSERT(list_empty(&req
->rq_set_chain
));
984 /* The set takes over the caller's request reference */
985 list_add_tail(&req
->rq_set_chain
, &set
->set_requests
);
987 atomic_inc(&set
->set_remaining
);
988 req
->rq_queued_time
= cfs_time_current();
990 if (req
->rq_reqmsg
!= NULL
)
991 lustre_msg_set_jobid(req
->rq_reqmsg
, NULL
);
993 if (set
->set_producer
!= NULL
)
994 /* If the request set has a producer callback, the RPC must be
995 * sent straight away */
996 ptlrpc_send_new_req(req
);
998 EXPORT_SYMBOL(ptlrpc_set_add_req
);
1001 * Add a request to a request with dedicated server thread
1002 * and wake the thread to make any necessary processing.
1003 * Currently only used for ptlrpcd.
1005 void ptlrpc_set_add_new_req(struct ptlrpcd_ctl
*pc
,
1006 struct ptlrpc_request
*req
)
1008 struct ptlrpc_request_set
*set
= pc
->pc_set
;
1011 LASSERT(req
->rq_set
== NULL
);
1012 LASSERT(test_bit(LIOD_STOP
, &pc
->pc_flags
) == 0);
1014 spin_lock(&set
->set_new_req_lock
);
1016 * The set takes over the caller's request reference.
1019 req
->rq_queued_time
= cfs_time_current();
1020 list_add_tail(&req
->rq_set_chain
, &set
->set_new_requests
);
1021 count
= atomic_inc_return(&set
->set_new_count
);
1022 spin_unlock(&set
->set_new_req_lock
);
1024 /* Only need to call wakeup once for the first entry. */
1026 wake_up(&set
->set_waitq
);
1028 /* XXX: It maybe unnecessary to wakeup all the partners. But to
1029 * guarantee the async RPC can be processed ASAP, we have
1030 * no other better choice. It maybe fixed in future. */
1031 for (i
= 0; i
< pc
->pc_npartners
; i
++)
1032 wake_up(&pc
->pc_partners
[i
]->pc_set
->set_waitq
);
1035 EXPORT_SYMBOL(ptlrpc_set_add_new_req
);
1038 * Based on the current state of the import, determine if the request
1039 * can be sent, is an error, or should be delayed.
1041 * Returns true if this request should be delayed. If false, and
1042 * *status is set, then the request can not be sent and *status is the
1043 * error code. If false and status is 0, then request can be sent.
1045 * The imp->imp_lock must be held.
1047 static int ptlrpc_import_delay_req(struct obd_import
*imp
,
1048 struct ptlrpc_request
*req
, int *status
)
1052 LASSERT(status
!= NULL
);
1055 if (req
->rq_ctx_init
|| req
->rq_ctx_fini
) {
1056 /* always allow ctx init/fini rpc go through */
1057 } else if (imp
->imp_state
== LUSTRE_IMP_NEW
) {
1058 DEBUG_REQ(D_ERROR
, req
, "Uninitialized import.");
1060 } else if (imp
->imp_state
== LUSTRE_IMP_CLOSED
) {
1061 /* pings may safely race with umount */
1062 DEBUG_REQ(lustre_msg_get_opc(req
->rq_reqmsg
) == OBD_PING
?
1063 D_HA
: D_ERROR
, req
, "IMP_CLOSED ");
1065 } else if (ptlrpc_send_limit_expired(req
)) {
1066 /* probably doesn't need to be a D_ERROR after initial testing */
1067 DEBUG_REQ(D_ERROR
, req
, "send limit expired ");
1069 } else if (req
->rq_send_state
== LUSTRE_IMP_CONNECTING
&&
1070 imp
->imp_state
== LUSTRE_IMP_CONNECTING
) {
1071 /* allow CONNECT even if import is invalid */
1072 if (atomic_read(&imp
->imp_inval_count
) != 0) {
1073 DEBUG_REQ(D_ERROR
, req
, "invalidate in flight");
1076 } else if (imp
->imp_invalid
|| imp
->imp_obd
->obd_no_recov
) {
1077 if (!imp
->imp_deactive
)
1078 DEBUG_REQ(D_NET
, req
, "IMP_INVALID");
1079 *status
= -ESHUTDOWN
; /* bz 12940 */
1080 } else if (req
->rq_import_generation
!= imp
->imp_generation
) {
1081 DEBUG_REQ(D_ERROR
, req
, "req wrong generation:");
1083 } else if (req
->rq_send_state
!= imp
->imp_state
) {
1084 /* invalidate in progress - any requests should be drop */
1085 if (atomic_read(&imp
->imp_inval_count
) != 0) {
1086 DEBUG_REQ(D_ERROR
, req
, "invalidate in flight");
1088 } else if (imp
->imp_dlm_fake
|| req
->rq_no_delay
) {
1089 *status
= -EWOULDBLOCK
;
1090 } else if (req
->rq_allow_replay
&&
1091 (imp
->imp_state
== LUSTRE_IMP_REPLAY
||
1092 imp
->imp_state
== LUSTRE_IMP_REPLAY_LOCKS
||
1093 imp
->imp_state
== LUSTRE_IMP_REPLAY_WAIT
||
1094 imp
->imp_state
== LUSTRE_IMP_RECOVER
)) {
1095 DEBUG_REQ(D_HA
, req
, "allow during recovery.\n");
1105 * Decide if the error message regarding provided request \a req
1106 * should be printed to the console or not.
1107 * Makes it's decision on request status and other properties.
1108 * Returns 1 to print error on the system console or 0 if not.
1110 static int ptlrpc_console_allow(struct ptlrpc_request
*req
)
1115 LASSERT(req
->rq_reqmsg
!= NULL
);
1116 opc
= lustre_msg_get_opc(req
->rq_reqmsg
);
1118 /* Suppress particular reconnect errors which are to be expected. No
1119 * errors are suppressed for the initial connection on an import */
1120 if ((lustre_handle_is_used(&req
->rq_import
->imp_remote_handle
)) &&
1121 (opc
== OST_CONNECT
|| opc
== MDS_CONNECT
|| opc
== MGS_CONNECT
)) {
1123 /* Suppress timed out reconnect requests */
1124 if (req
->rq_timedout
)
1127 /* Suppress unavailable/again reconnect requests */
1128 err
= lustre_msg_get_status(req
->rq_repmsg
);
1129 if (err
== -ENODEV
|| err
== -EAGAIN
)
1137 * Check request processing status.
1138 * Returns the status.
1140 static int ptlrpc_check_status(struct ptlrpc_request
*req
)
1144 err
= lustre_msg_get_status(req
->rq_repmsg
);
1145 if (lustre_msg_get_type(req
->rq_repmsg
) == PTL_RPC_MSG_ERR
) {
1146 struct obd_import
*imp
= req
->rq_import
;
1147 __u32 opc
= lustre_msg_get_opc(req
->rq_reqmsg
);
1148 if (ptlrpc_console_allow(req
))
1149 LCONSOLE_ERROR_MSG(0x011, "%s: Communicating with %s,"
1150 " operation %s failed with %d.\n",
1151 imp
->imp_obd
->obd_name
,
1153 imp
->imp_connection
->c_peer
.nid
),
1154 ll_opcode2str(opc
), err
);
1155 return err
< 0 ? err
: -EINVAL
;
1159 DEBUG_REQ(D_INFO
, req
, "status is %d", err
);
1160 } else if (err
> 0) {
1161 /* XXX: translate this error from net to host */
1162 DEBUG_REQ(D_INFO
, req
, "status is %d", err
);
1169 * save pre-versions of objects into request for replay.
1170 * Versions are obtained from server reply.
1173 static void ptlrpc_save_versions(struct ptlrpc_request
*req
)
1175 struct lustre_msg
*repmsg
= req
->rq_repmsg
;
1176 struct lustre_msg
*reqmsg
= req
->rq_reqmsg
;
1177 __u64
*versions
= lustre_msg_get_versions(repmsg
);
1179 if (lustre_msg_get_flags(req
->rq_reqmsg
) & MSG_REPLAY
)
1183 lustre_msg_set_versions(reqmsg
, versions
);
1184 CDEBUG(D_INFO
, "Client save versions ["LPX64
"/"LPX64
"]\n",
1185 versions
[0], versions
[1]);
1189 * Callback function called when client receives RPC reply for \a req.
1190 * Returns 0 on success or error code.
1191 * The return value would be assigned to req->rq_status by the caller
1192 * as request processing status.
1193 * This function also decides if the request needs to be saved for later replay.
1195 static int after_reply(struct ptlrpc_request
*req
)
1197 struct obd_import
*imp
= req
->rq_import
;
1198 struct obd_device
*obd
= req
->rq_import
->imp_obd
;
1200 struct timeval work_start
;
1203 LASSERT(obd
!= NULL
);
1204 /* repbuf must be unlinked */
1205 LASSERT(!req
->rq_receiving_reply
&& !req
->rq_must_unlink
);
1207 if (req
->rq_reply_truncate
) {
1208 if (ptlrpc_no_resend(req
)) {
1209 DEBUG_REQ(D_ERROR
, req
, "reply buffer overflow,"
1210 " expected: %d, actual size: %d",
1211 req
->rq_nob_received
, req
->rq_repbuf_len
);
1215 sptlrpc_cli_free_repbuf(req
);
1216 /* Pass the required reply buffer size (include
1217 * space for early reply).
1218 * NB: no need to roundup because alloc_repbuf
1219 * will roundup it */
1220 req
->rq_replen
= req
->rq_nob_received
;
1221 req
->rq_nob_received
= 0;
1222 spin_lock(&req
->rq_lock
);
1224 spin_unlock(&req
->rq_lock
);
1229 * NB Until this point, the whole of the incoming message,
1230 * including buflens, status etc is in the sender's byte order.
1232 rc
= sptlrpc_cli_unwrap_reply(req
);
1234 DEBUG_REQ(D_ERROR
, req
, "unwrap reply failed (%d):", rc
);
1239 * Security layer unwrap might ask resend this request.
1244 rc
= unpack_reply(req
);
1248 /* retry indefinitely on EINPROGRESS */
1249 if (lustre_msg_get_status(req
->rq_repmsg
) == -EINPROGRESS
&&
1250 ptlrpc_no_resend(req
) == 0 && !req
->rq_no_retry_einprogress
) {
1251 time_t now
= cfs_time_current_sec();
1253 DEBUG_REQ(D_RPCTRACE
, req
, "Resending request on EINPROGRESS");
1255 req
->rq_nr_resend
++;
1257 /* allocate new xid to avoid reply reconstruction */
1258 if (!req
->rq_bulk
) {
1259 /* new xid is already allocated for bulk in
1260 * ptlrpc_check_set() */
1261 req
->rq_xid
= ptlrpc_next_xid();
1262 DEBUG_REQ(D_RPCTRACE
, req
, "Allocating new xid for "
1263 "resend on EINPROGRESS");
1266 /* Readjust the timeout for current conditions */
1267 ptlrpc_at_set_req_timeout(req
);
1268 /* delay resend to give a chance to the server to get ready.
1269 * The delay is increased by 1s on every resend and is capped to
1270 * the current request timeout (i.e. obd_timeout if AT is off,
1271 * or AT service time x 125% + 5s, see at_est2timeout) */
1272 if (req
->rq_nr_resend
> req
->rq_timeout
)
1273 req
->rq_sent
= now
+ req
->rq_timeout
;
1275 req
->rq_sent
= now
+ req
->rq_nr_resend
;
1280 do_gettimeofday(&work_start
);
1281 timediff
= cfs_timeval_sub(&work_start
, &req
->rq_arrival_time
, NULL
);
1282 if (obd
->obd_svc_stats
!= NULL
) {
1283 lprocfs_counter_add(obd
->obd_svc_stats
, PTLRPC_REQWAIT_CNTR
,
1285 ptlrpc_lprocfs_rpc_sent(req
, timediff
);
1288 if (lustre_msg_get_type(req
->rq_repmsg
) != PTL_RPC_MSG_REPLY
&&
1289 lustre_msg_get_type(req
->rq_repmsg
) != PTL_RPC_MSG_ERR
) {
1290 DEBUG_REQ(D_ERROR
, req
, "invalid packet received (type=%u)",
1291 lustre_msg_get_type(req
->rq_repmsg
));
1295 if (lustre_msg_get_opc(req
->rq_reqmsg
) != OBD_PING
)
1296 CFS_FAIL_TIMEOUT(OBD_FAIL_PTLRPC_PAUSE_REP
, cfs_fail_val
);
1297 ptlrpc_at_adj_service(req
, lustre_msg_get_timeout(req
->rq_repmsg
));
1298 ptlrpc_at_adj_net_latency(req
,
1299 lustre_msg_get_service_time(req
->rq_repmsg
));
1301 rc
= ptlrpc_check_status(req
);
1302 imp
->imp_connect_error
= rc
;
1306 * Either we've been evicted, or the server has failed for
1307 * some reason. Try to reconnect, and if that fails, punt to
1310 if (ll_rpc_recoverable_error(rc
)) {
1311 if (req
->rq_send_state
!= LUSTRE_IMP_FULL
||
1312 imp
->imp_obd
->obd_no_recov
|| imp
->imp_dlm_fake
) {
1315 ptlrpc_request_handle_notconn(req
);
1320 * Let's look if server sent slv. Do it only for RPC with
1323 ldlm_cli_update_pool(req
);
1327 * Store transno in reqmsg for replay.
1329 if (!(lustre_msg_get_flags(req
->rq_reqmsg
) & MSG_REPLAY
)) {
1330 req
->rq_transno
= lustre_msg_get_transno(req
->rq_repmsg
);
1331 lustre_msg_set_transno(req
->rq_reqmsg
, req
->rq_transno
);
1334 if (imp
->imp_replayable
) {
1335 spin_lock(&imp
->imp_lock
);
1337 * No point in adding already-committed requests to the replay
1338 * list, we will just remove them immediately. b=9829
1340 if (req
->rq_transno
!= 0 &&
1342 lustre_msg_get_last_committed(req
->rq_repmsg
) ||
1344 /** version recovery */
1345 ptlrpc_save_versions(req
);
1346 ptlrpc_retain_replayable_request(req
, imp
);
1347 } else if (req
->rq_commit_cb
!= NULL
&&
1348 list_empty(&req
->rq_replay_list
)) {
1349 /* NB: don't call rq_commit_cb if it's already on
1350 * rq_replay_list, ptlrpc_free_committed() will call
1351 * it later, see LU-3618 for details */
1352 spin_unlock(&imp
->imp_lock
);
1353 req
->rq_commit_cb(req
);
1354 spin_lock(&imp
->imp_lock
);
1358 * Replay-enabled imports return commit-status information.
1360 if (lustre_msg_get_last_committed(req
->rq_repmsg
)) {
1361 imp
->imp_peer_committed_transno
=
1362 lustre_msg_get_last_committed(req
->rq_repmsg
);
1365 ptlrpc_free_committed(imp
);
1367 if (!list_empty(&imp
->imp_replay_list
)) {
1368 struct ptlrpc_request
*last
;
1370 last
= list_entry(imp
->imp_replay_list
.prev
,
1371 struct ptlrpc_request
,
1374 * Requests with rq_replay stay on the list even if no
1375 * commit is expected.
1377 if (last
->rq_transno
> imp
->imp_peer_committed_transno
)
1378 ptlrpc_pinger_commit_expected(imp
);
1381 spin_unlock(&imp
->imp_lock
);
1388 * Helper function to send request \a req over the network for the first time
1389 * Also adjusts request phase.
1390 * Returns 0 on success or error code.
1392 static int ptlrpc_send_new_req(struct ptlrpc_request
*req
)
1394 struct obd_import
*imp
= req
->rq_import
;
1397 LASSERT(req
->rq_phase
== RQ_PHASE_NEW
);
1398 if (req
->rq_sent
&& (req
->rq_sent
> cfs_time_current_sec()) &&
1399 (!req
->rq_generation_set
||
1400 req
->rq_import_generation
== imp
->imp_generation
))
1403 ptlrpc_rqphase_move(req
, RQ_PHASE_RPC
);
1405 spin_lock(&imp
->imp_lock
);
1407 if (!req
->rq_generation_set
)
1408 req
->rq_import_generation
= imp
->imp_generation
;
1410 if (ptlrpc_import_delay_req(imp
, req
, &rc
)) {
1411 spin_lock(&req
->rq_lock
);
1412 req
->rq_waiting
= 1;
1413 spin_unlock(&req
->rq_lock
);
1415 DEBUG_REQ(D_HA
, req
, "req from PID %d waiting for recovery: "
1416 "(%s != %s)", lustre_msg_get_status(req
->rq_reqmsg
),
1417 ptlrpc_import_state_name(req
->rq_send_state
),
1418 ptlrpc_import_state_name(imp
->imp_state
));
1419 LASSERT(list_empty(&req
->rq_list
));
1420 list_add_tail(&req
->rq_list
, &imp
->imp_delayed_list
);
1421 atomic_inc(&req
->rq_import
->imp_inflight
);
1422 spin_unlock(&imp
->imp_lock
);
1427 spin_unlock(&imp
->imp_lock
);
1428 req
->rq_status
= rc
;
1429 ptlrpc_rqphase_move(req
, RQ_PHASE_INTERPRET
);
1433 LASSERT(list_empty(&req
->rq_list
));
1434 list_add_tail(&req
->rq_list
, &imp
->imp_sending_list
);
1435 atomic_inc(&req
->rq_import
->imp_inflight
);
1436 spin_unlock(&imp
->imp_lock
);
1438 lustre_msg_set_status(req
->rq_reqmsg
, current_pid());
1440 rc
= sptlrpc_req_refresh_ctx(req
, -1);
1443 req
->rq_status
= rc
;
1446 spin_lock(&req
->rq_lock
);
1447 req
->rq_wait_ctx
= 1;
1448 spin_unlock(&req
->rq_lock
);
1453 CDEBUG(D_RPCTRACE
, "Sending RPC pname:cluuid:pid:xid:nid:opc"
1454 " %s:%s:%d:"LPU64
":%s:%d\n", current_comm(),
1455 imp
->imp_obd
->obd_uuid
.uuid
,
1456 lustre_msg_get_status(req
->rq_reqmsg
), req
->rq_xid
,
1457 libcfs_nid2str(imp
->imp_connection
->c_peer
.nid
),
1458 lustre_msg_get_opc(req
->rq_reqmsg
));
1460 rc
= ptl_send_rpc(req
, 0);
1462 DEBUG_REQ(D_HA
, req
, "send failed (%d); expect timeout", rc
);
1463 spin_lock(&req
->rq_lock
);
1464 req
->rq_net_err
= 1;
1465 spin_unlock(&req
->rq_lock
);
1471 static inline int ptlrpc_set_producer(struct ptlrpc_request_set
*set
)
1475 LASSERT(set
->set_producer
!= NULL
);
1477 remaining
= atomic_read(&set
->set_remaining
);
1479 /* populate the ->set_requests list with requests until we
1480 * reach the maximum number of RPCs in flight for this set */
1481 while (atomic_read(&set
->set_remaining
) < set
->set_max_inflight
) {
1482 rc
= set
->set_producer(set
, set
->set_producer_arg
);
1483 if (rc
== -ENOENT
) {
1484 /* no more RPC to produce */
1485 set
->set_producer
= NULL
;
1486 set
->set_producer_arg
= NULL
;
1491 return (atomic_read(&set
->set_remaining
) - remaining
);
1495 * this sends any unsent RPCs in \a set and returns 1 if all are sent
1496 * and no more replies are expected.
1497 * (it is possible to get less replies than requests sent e.g. due to timed out
1498 * requests or requests that we had trouble to send out)
1500 int ptlrpc_check_set(const struct lu_env
*env
, struct ptlrpc_request_set
*set
)
1502 struct list_head
*tmp
, *next
;
1503 int force_timer_recalc
= 0;
1505 if (atomic_read(&set
->set_remaining
) == 0)
1508 list_for_each_safe(tmp
, next
, &set
->set_requests
) {
1509 struct ptlrpc_request
*req
=
1510 list_entry(tmp
, struct ptlrpc_request
,
1512 struct obd_import
*imp
= req
->rq_import
;
1513 int unregistered
= 0;
1516 if (req
->rq_phase
== RQ_PHASE_NEW
&&
1517 ptlrpc_send_new_req(req
)) {
1518 force_timer_recalc
= 1;
1521 /* delayed send - skip */
1522 if (req
->rq_phase
== RQ_PHASE_NEW
&& req
->rq_sent
)
1525 /* delayed resend - skip */
1526 if (req
->rq_phase
== RQ_PHASE_RPC
&& req
->rq_resend
&&
1527 req
->rq_sent
> cfs_time_current_sec())
1530 if (!(req
->rq_phase
== RQ_PHASE_RPC
||
1531 req
->rq_phase
== RQ_PHASE_BULK
||
1532 req
->rq_phase
== RQ_PHASE_INTERPRET
||
1533 req
->rq_phase
== RQ_PHASE_UNREGISTERING
||
1534 req
->rq_phase
== RQ_PHASE_COMPLETE
)) {
1535 DEBUG_REQ(D_ERROR
, req
, "bad phase %x", req
->rq_phase
);
1539 if (req
->rq_phase
== RQ_PHASE_UNREGISTERING
) {
1540 LASSERT(req
->rq_next_phase
!= req
->rq_phase
);
1541 LASSERT(req
->rq_next_phase
!= RQ_PHASE_UNDEFINED
);
1544 * Skip processing until reply is unlinked. We
1545 * can't return to pool before that and we can't
1546 * call interpret before that. We need to make
1547 * sure that all rdma transfers finished and will
1548 * not corrupt any data.
1550 if (ptlrpc_client_recv_or_unlink(req
) ||
1551 ptlrpc_client_bulk_active(req
))
1555 * Turn fail_loc off to prevent it from looping
1558 if (OBD_FAIL_CHECK(OBD_FAIL_PTLRPC_LONG_REPL_UNLINK
)) {
1559 OBD_FAIL_CHECK_ORSET(OBD_FAIL_PTLRPC_LONG_REPL_UNLINK
,
1562 if (OBD_FAIL_CHECK(OBD_FAIL_PTLRPC_LONG_BULK_UNLINK
)) {
1563 OBD_FAIL_CHECK_ORSET(OBD_FAIL_PTLRPC_LONG_BULK_UNLINK
,
1568 * Move to next phase if reply was successfully
1571 ptlrpc_rqphase_move(req
, req
->rq_next_phase
);
1574 if (req
->rq_phase
== RQ_PHASE_COMPLETE
)
1577 if (req
->rq_phase
== RQ_PHASE_INTERPRET
)
1578 GOTO(interpret
, req
->rq_status
);
1581 * Note that this also will start async reply unlink.
1583 if (req
->rq_net_err
&& !req
->rq_timedout
) {
1584 ptlrpc_expire_one_request(req
, 1);
1587 * Check if we still need to wait for unlink.
1589 if (ptlrpc_client_recv_or_unlink(req
) ||
1590 ptlrpc_client_bulk_active(req
))
1592 /* If there is no need to resend, fail it now. */
1593 if (req
->rq_no_resend
) {
1594 if (req
->rq_status
== 0)
1595 req
->rq_status
= -EIO
;
1596 ptlrpc_rqphase_move(req
, RQ_PHASE_INTERPRET
);
1597 GOTO(interpret
, req
->rq_status
);
1604 spin_lock(&req
->rq_lock
);
1605 req
->rq_replied
= 0;
1606 spin_unlock(&req
->rq_lock
);
1607 if (req
->rq_status
== 0)
1608 req
->rq_status
= -EIO
;
1609 ptlrpc_rqphase_move(req
, RQ_PHASE_INTERPRET
);
1610 GOTO(interpret
, req
->rq_status
);
1613 /* ptlrpc_set_wait->l_wait_event sets lwi_allow_intr
1614 * so it sets rq_intr regardless of individual rpc
1615 * timeouts. The synchronous IO waiting path sets
1616 * rq_intr irrespective of whether ptlrpcd
1617 * has seen a timeout. Our policy is to only interpret
1618 * interrupted rpcs after they have timed out, so we
1619 * need to enforce that here.
1622 if (req
->rq_intr
&& (req
->rq_timedout
|| req
->rq_waiting
||
1623 req
->rq_wait_ctx
)) {
1624 req
->rq_status
= -EINTR
;
1625 ptlrpc_rqphase_move(req
, RQ_PHASE_INTERPRET
);
1626 GOTO(interpret
, req
->rq_status
);
1629 if (req
->rq_phase
== RQ_PHASE_RPC
) {
1630 if (req
->rq_timedout
|| req
->rq_resend
||
1631 req
->rq_waiting
|| req
->rq_wait_ctx
) {
1634 if (!ptlrpc_unregister_reply(req
, 1))
1637 spin_lock(&imp
->imp_lock
);
1638 if (ptlrpc_import_delay_req(imp
, req
,
1640 /* put on delay list - only if we wait
1641 * recovery finished - before send */
1642 list_del_init(&req
->rq_list
);
1643 list_add_tail(&req
->rq_list
,
1646 spin_unlock(&imp
->imp_lock
);
1651 req
->rq_status
= status
;
1652 ptlrpc_rqphase_move(req
,
1653 RQ_PHASE_INTERPRET
);
1654 spin_unlock(&imp
->imp_lock
);
1655 GOTO(interpret
, req
->rq_status
);
1657 if (ptlrpc_no_resend(req
) &&
1658 !req
->rq_wait_ctx
) {
1659 req
->rq_status
= -ENOTCONN
;
1660 ptlrpc_rqphase_move(req
,
1661 RQ_PHASE_INTERPRET
);
1662 spin_unlock(&imp
->imp_lock
);
1663 GOTO(interpret
, req
->rq_status
);
1666 list_del_init(&req
->rq_list
);
1667 list_add_tail(&req
->rq_list
,
1668 &imp
->imp_sending_list
);
1670 spin_unlock(&imp
->imp_lock
);
1672 spin_lock(&req
->rq_lock
);
1673 req
->rq_waiting
= 0;
1674 spin_unlock(&req
->rq_lock
);
1676 if (req
->rq_timedout
|| req
->rq_resend
) {
1677 /* This is re-sending anyways,
1678 * let's mark req as resend. */
1679 spin_lock(&req
->rq_lock
);
1681 spin_unlock(&req
->rq_lock
);
1685 if (!ptlrpc_unregister_bulk(req
, 1))
1688 /* ensure previous bulk fails */
1689 old_xid
= req
->rq_xid
;
1690 req
->rq_xid
= ptlrpc_next_xid();
1691 CDEBUG(D_HA
, "resend bulk "
1694 old_xid
, req
->rq_xid
);
1698 * rq_wait_ctx is only touched by ptlrpcd,
1699 * so no lock is needed here.
1701 status
= sptlrpc_req_refresh_ctx(req
, -1);
1704 req
->rq_status
= status
;
1705 spin_lock(&req
->rq_lock
);
1706 req
->rq_wait_ctx
= 0;
1707 spin_unlock(&req
->rq_lock
);
1708 force_timer_recalc
= 1;
1710 spin_lock(&req
->rq_lock
);
1711 req
->rq_wait_ctx
= 1;
1712 spin_unlock(&req
->rq_lock
);
1717 spin_lock(&req
->rq_lock
);
1718 req
->rq_wait_ctx
= 0;
1719 spin_unlock(&req
->rq_lock
);
1722 rc
= ptl_send_rpc(req
, 0);
1724 DEBUG_REQ(D_HA
, req
,
1725 "send failed: rc = %d", rc
);
1726 force_timer_recalc
= 1;
1727 spin_lock(&req
->rq_lock
);
1728 req
->rq_net_err
= 1;
1729 spin_unlock(&req
->rq_lock
);
1732 /* need to reset the timeout */
1733 force_timer_recalc
= 1;
1736 spin_lock(&req
->rq_lock
);
1738 if (ptlrpc_client_early(req
)) {
1739 ptlrpc_at_recv_early_reply(req
);
1740 spin_unlock(&req
->rq_lock
);
1744 /* Still waiting for a reply? */
1745 if (ptlrpc_client_recv(req
)) {
1746 spin_unlock(&req
->rq_lock
);
1750 /* Did we actually receive a reply? */
1751 if (!ptlrpc_client_replied(req
)) {
1752 spin_unlock(&req
->rq_lock
);
1756 spin_unlock(&req
->rq_lock
);
1758 /* unlink from net because we are going to
1759 * swab in-place of reply buffer */
1760 unregistered
= ptlrpc_unregister_reply(req
, 1);
1764 req
->rq_status
= after_reply(req
);
1768 /* If there is no bulk associated with this request,
1769 * then we're done and should let the interpreter
1770 * process the reply. Similarly if the RPC returned
1771 * an error, and therefore the bulk will never arrive.
1773 if (req
->rq_bulk
== NULL
|| req
->rq_status
< 0) {
1774 ptlrpc_rqphase_move(req
, RQ_PHASE_INTERPRET
);
1775 GOTO(interpret
, req
->rq_status
);
1778 ptlrpc_rqphase_move(req
, RQ_PHASE_BULK
);
1781 LASSERT(req
->rq_phase
== RQ_PHASE_BULK
);
1782 if (ptlrpc_client_bulk_active(req
))
1785 if (req
->rq_bulk
->bd_failure
) {
1786 /* The RPC reply arrived OK, but the bulk screwed
1787 * up! Dead weird since the server told us the RPC
1788 * was good after getting the REPLY for her GET or
1789 * the ACK for her PUT. */
1790 DEBUG_REQ(D_ERROR
, req
, "bulk transfer failed");
1791 req
->rq_status
= -EIO
;
1794 ptlrpc_rqphase_move(req
, RQ_PHASE_INTERPRET
);
1797 LASSERT(req
->rq_phase
== RQ_PHASE_INTERPRET
);
1799 /* This moves to "unregistering" phase we need to wait for
1801 if (!unregistered
&& !ptlrpc_unregister_reply(req
, 1)) {
1802 /* start async bulk unlink too */
1803 ptlrpc_unregister_bulk(req
, 1);
1807 if (!ptlrpc_unregister_bulk(req
, 1))
1810 /* When calling interpret receiving already should be
1812 LASSERT(!req
->rq_receiving_reply
);
1814 ptlrpc_req_interpret(env
, req
, req
->rq_status
);
1816 if (ptlrpcd_check_work(req
)) {
1817 atomic_dec(&set
->set_remaining
);
1820 ptlrpc_rqphase_move(req
, RQ_PHASE_COMPLETE
);
1822 CDEBUG(req
->rq_reqmsg
!= NULL
? D_RPCTRACE
: 0,
1823 "Completed RPC pname:cluuid:pid:xid:nid:"
1824 "opc %s:%s:%d:"LPU64
":%s:%d\n",
1825 current_comm(), imp
->imp_obd
->obd_uuid
.uuid
,
1826 lustre_msg_get_status(req
->rq_reqmsg
), req
->rq_xid
,
1827 libcfs_nid2str(imp
->imp_connection
->c_peer
.nid
),
1828 lustre_msg_get_opc(req
->rq_reqmsg
));
1830 spin_lock(&imp
->imp_lock
);
1831 /* Request already may be not on sending or delaying list. This
1832 * may happen in the case of marking it erroneous for the case
1833 * ptlrpc_import_delay_req(req, status) find it impossible to
1834 * allow sending this rpc and returns *status != 0. */
1835 if (!list_empty(&req
->rq_list
)) {
1836 list_del_init(&req
->rq_list
);
1837 atomic_dec(&imp
->imp_inflight
);
1839 spin_unlock(&imp
->imp_lock
);
1841 atomic_dec(&set
->set_remaining
);
1842 wake_up_all(&imp
->imp_recovery_waitq
);
1844 if (set
->set_producer
) {
1845 /* produce a new request if possible */
1846 if (ptlrpc_set_producer(set
) > 0)
1847 force_timer_recalc
= 1;
1849 /* free the request that has just been completed
1850 * in order not to pollute set->set_requests */
1851 list_del_init(&req
->rq_set_chain
);
1852 spin_lock(&req
->rq_lock
);
1854 req
->rq_invalid_rqset
= 0;
1855 spin_unlock(&req
->rq_lock
);
1857 /* record rq_status to compute the final status later */
1858 if (req
->rq_status
!= 0)
1859 set
->set_rc
= req
->rq_status
;
1860 ptlrpc_req_finished(req
);
1864 /* If we hit an error, we want to recover promptly. */
1865 return atomic_read(&set
->set_remaining
) == 0 || force_timer_recalc
;
1867 EXPORT_SYMBOL(ptlrpc_check_set
);
1870 * Time out request \a req. is \a async_unlink is set, that means do not wait
1871 * until LNet actually confirms network buffer unlinking.
1872 * Return 1 if we should give up further retrying attempts or 0 otherwise.
1874 int ptlrpc_expire_one_request(struct ptlrpc_request
*req
, int async_unlink
)
1876 struct obd_import
*imp
= req
->rq_import
;
1879 spin_lock(&req
->rq_lock
);
1880 req
->rq_timedout
= 1;
1881 spin_unlock(&req
->rq_lock
);
1883 DEBUG_REQ(D_WARNING
, req
, "Request sent has %s: [sent "CFS_DURATION_T
1884 "/real "CFS_DURATION_T
"]",
1885 req
->rq_net_err
? "failed due to network error" :
1886 ((req
->rq_real_sent
== 0 ||
1887 cfs_time_before(req
->rq_real_sent
, req
->rq_sent
) ||
1888 cfs_time_aftereq(req
->rq_real_sent
, req
->rq_deadline
)) ?
1889 "timed out for sent delay" : "timed out for slow reply"),
1890 req
->rq_sent
, req
->rq_real_sent
);
1892 if (imp
!= NULL
&& obd_debug_peer_on_timeout
)
1893 LNetCtl(IOC_LIBCFS_DEBUG_PEER
, &imp
->imp_connection
->c_peer
);
1895 ptlrpc_unregister_reply(req
, async_unlink
);
1896 ptlrpc_unregister_bulk(req
, async_unlink
);
1898 if (obd_dump_on_timeout
)
1899 libcfs_debug_dumplog();
1902 DEBUG_REQ(D_HA
, req
, "NULL import: already cleaned up?");
1906 atomic_inc(&imp
->imp_timeouts
);
1908 /* The DLM server doesn't want recovery run on its imports. */
1909 if (imp
->imp_dlm_fake
)
1912 /* If this request is for recovery or other primordial tasks,
1913 * then error it out here. */
1914 if (req
->rq_ctx_init
|| req
->rq_ctx_fini
||
1915 req
->rq_send_state
!= LUSTRE_IMP_FULL
||
1916 imp
->imp_obd
->obd_no_recov
) {
1917 DEBUG_REQ(D_RPCTRACE
, req
, "err -110, sent_state=%s (now=%s)",
1918 ptlrpc_import_state_name(req
->rq_send_state
),
1919 ptlrpc_import_state_name(imp
->imp_state
));
1920 spin_lock(&req
->rq_lock
);
1921 req
->rq_status
= -ETIMEDOUT
;
1923 spin_unlock(&req
->rq_lock
);
1927 /* if a request can't be resent we can't wait for an answer after
1929 if (ptlrpc_no_resend(req
)) {
1930 DEBUG_REQ(D_RPCTRACE
, req
, "TIMEOUT-NORESEND:");
1934 ptlrpc_fail_import(imp
, lustre_msg_get_conn_cnt(req
->rq_reqmsg
));
1940 * Time out all uncompleted requests in request set pointed by \a data
1941 * Callback used when waiting on sets with l_wait_event.
1944 int ptlrpc_expired_set(void *data
)
1946 struct ptlrpc_request_set
*set
= data
;
1947 struct list_head
*tmp
;
1948 time_t now
= cfs_time_current_sec();
1950 LASSERT(set
!= NULL
);
1953 * A timeout expired. See which reqs it applies to...
1955 list_for_each(tmp
, &set
->set_requests
) {
1956 struct ptlrpc_request
*req
=
1957 list_entry(tmp
, struct ptlrpc_request
,
1960 /* don't expire request waiting for context */
1961 if (req
->rq_wait_ctx
)
1964 /* Request in-flight? */
1965 if (!((req
->rq_phase
== RQ_PHASE_RPC
&&
1966 !req
->rq_waiting
&& !req
->rq_resend
) ||
1967 (req
->rq_phase
== RQ_PHASE_BULK
)))
1970 if (req
->rq_timedout
|| /* already dealt with */
1971 req
->rq_deadline
> now
) /* not expired */
1974 /* Deal with this guy. Do it asynchronously to not block
1975 * ptlrpcd thread. */
1976 ptlrpc_expire_one_request(req
, 1);
1980 * When waiting for a whole set, we always break out of the
1981 * sleep so we can recalculate the timeout, or enable interrupts
1982 * if everyone's timed out.
1986 EXPORT_SYMBOL(ptlrpc_expired_set
);
1989 * Sets rq_intr flag in \a req under spinlock.
1991 void ptlrpc_mark_interrupted(struct ptlrpc_request
*req
)
1993 spin_lock(&req
->rq_lock
);
1995 spin_unlock(&req
->rq_lock
);
1997 EXPORT_SYMBOL(ptlrpc_mark_interrupted
);
2000 * Interrupts (sets interrupted flag) all uncompleted requests in
2001 * a set \a data. Callback for l_wait_event for interruptible waits.
2003 void ptlrpc_interrupted_set(void *data
)
2005 struct ptlrpc_request_set
*set
= data
;
2006 struct list_head
*tmp
;
2008 LASSERT(set
!= NULL
);
2009 CDEBUG(D_RPCTRACE
, "INTERRUPTED SET %p\n", set
);
2011 list_for_each(tmp
, &set
->set_requests
) {
2012 struct ptlrpc_request
*req
=
2013 list_entry(tmp
, struct ptlrpc_request
,
2016 if (req
->rq_phase
!= RQ_PHASE_RPC
&&
2017 req
->rq_phase
!= RQ_PHASE_UNREGISTERING
)
2020 ptlrpc_mark_interrupted(req
);
2023 EXPORT_SYMBOL(ptlrpc_interrupted_set
);
2026 * Get the smallest timeout in the set; this does NOT set a timeout.
2028 int ptlrpc_set_next_timeout(struct ptlrpc_request_set
*set
)
2030 struct list_head
*tmp
;
2031 time_t now
= cfs_time_current_sec();
2033 struct ptlrpc_request
*req
;
2036 SIGNAL_MASK_ASSERT(); /* XXX BUG 1511 */
2038 list_for_each(tmp
, &set
->set_requests
) {
2039 req
= list_entry(tmp
, struct ptlrpc_request
, rq_set_chain
);
2042 * Request in-flight?
2044 if (!(((req
->rq_phase
== RQ_PHASE_RPC
) && !req
->rq_waiting
) ||
2045 (req
->rq_phase
== RQ_PHASE_BULK
) ||
2046 (req
->rq_phase
== RQ_PHASE_NEW
)))
2050 * Already timed out.
2052 if (req
->rq_timedout
)
2058 if (req
->rq_wait_ctx
)
2061 if (req
->rq_phase
== RQ_PHASE_NEW
)
2062 deadline
= req
->rq_sent
;
2063 else if (req
->rq_phase
== RQ_PHASE_RPC
&& req
->rq_resend
)
2064 deadline
= req
->rq_sent
;
2066 deadline
= req
->rq_sent
+ req
->rq_timeout
;
2068 if (deadline
<= now
) /* actually expired already */
2069 timeout
= 1; /* ASAP */
2070 else if (timeout
== 0 || timeout
> deadline
- now
)
2071 timeout
= deadline
- now
;
2075 EXPORT_SYMBOL(ptlrpc_set_next_timeout
);
2078 * Send all unset request from the set and then wait until all
2079 * requests in the set complete (either get a reply, timeout, get an
2080 * error or otherwise be interrupted).
2081 * Returns 0 on success or error code otherwise.
2083 int ptlrpc_set_wait(struct ptlrpc_request_set
*set
)
2085 struct list_head
*tmp
;
2086 struct ptlrpc_request
*req
;
2087 struct l_wait_info lwi
;
2090 if (set
->set_producer
)
2091 (void)ptlrpc_set_producer(set
);
2093 list_for_each(tmp
, &set
->set_requests
) {
2094 req
= list_entry(tmp
, struct ptlrpc_request
,
2096 if (req
->rq_phase
== RQ_PHASE_NEW
)
2097 (void)ptlrpc_send_new_req(req
);
2100 if (list_empty(&set
->set_requests
))
2104 timeout
= ptlrpc_set_next_timeout(set
);
2106 /* wait until all complete, interrupted, or an in-flight
2108 CDEBUG(D_RPCTRACE
, "set %p going to sleep for %d seconds\n",
2111 if (timeout
== 0 && !cfs_signal_pending())
2113 * No requests are in-flight (ether timed out
2114 * or delayed), so we can allow interrupts.
2115 * We still want to block for a limited time,
2116 * so we allow interrupts during the timeout.
2118 lwi
= LWI_TIMEOUT_INTR_ALL(cfs_time_seconds(1),
2120 ptlrpc_interrupted_set
, set
);
2123 * At least one request is in flight, so no
2124 * interrupts are allowed. Wait until all
2125 * complete, or an in-flight req times out.
2127 lwi
= LWI_TIMEOUT(cfs_time_seconds(timeout
? timeout
: 1),
2128 ptlrpc_expired_set
, set
);
2130 rc
= l_wait_event(set
->set_waitq
, ptlrpc_check_set(NULL
, set
), &lwi
);
2132 /* LU-769 - if we ignored the signal because it was already
2133 * pending when we started, we need to handle it now or we risk
2134 * it being ignored forever */
2135 if (rc
== -ETIMEDOUT
&& !lwi
.lwi_allow_intr
&&
2136 cfs_signal_pending()) {
2137 sigset_t blocked_sigs
=
2138 cfs_block_sigsinv(LUSTRE_FATAL_SIGS
);
2140 /* In fact we only interrupt for the "fatal" signals
2141 * like SIGINT or SIGKILL. We still ignore less
2142 * important signals since ptlrpc set is not easily
2143 * reentrant from userspace again */
2144 if (cfs_signal_pending())
2145 ptlrpc_interrupted_set(set
);
2146 cfs_restore_sigs(blocked_sigs
);
2149 LASSERT(rc
== 0 || rc
== -EINTR
|| rc
== -ETIMEDOUT
);
2151 /* -EINTR => all requests have been flagged rq_intr so next
2153 * -ETIMEDOUT => someone timed out. When all reqs have
2154 * timed out, signals are enabled allowing completion with
2156 * I don't really care if we go once more round the loop in
2157 * the error cases -eeb. */
2158 if (rc
== 0 && atomic_read(&set
->set_remaining
) == 0) {
2159 list_for_each(tmp
, &set
->set_requests
) {
2160 req
= list_entry(tmp
, struct ptlrpc_request
,
2162 spin_lock(&req
->rq_lock
);
2163 req
->rq_invalid_rqset
= 1;
2164 spin_unlock(&req
->rq_lock
);
2167 } while (rc
!= 0 || atomic_read(&set
->set_remaining
) != 0);
2169 LASSERT(atomic_read(&set
->set_remaining
) == 0);
2171 rc
= set
->set_rc
; /* rq_status of already freed requests if any */
2172 list_for_each(tmp
, &set
->set_requests
) {
2173 req
= list_entry(tmp
, struct ptlrpc_request
, rq_set_chain
);
2175 LASSERT(req
->rq_phase
== RQ_PHASE_COMPLETE
);
2176 if (req
->rq_status
!= 0)
2177 rc
= req
->rq_status
;
2180 if (set
->set_interpret
!= NULL
) {
2181 int (*interpreter
)(struct ptlrpc_request_set
*set
,void *,int) =
2183 rc
= interpreter (set
, set
->set_arg
, rc
);
2185 struct ptlrpc_set_cbdata
*cbdata
, *n
;
2188 list_for_each_entry_safe(cbdata
, n
,
2189 &set
->set_cblist
, psc_item
) {
2190 list_del_init(&cbdata
->psc_item
);
2191 err
= cbdata
->psc_interpret(set
, cbdata
->psc_data
, rc
);
2194 OBD_FREE_PTR(cbdata
);
2200 EXPORT_SYMBOL(ptlrpc_set_wait
);
2203 * Helper function for request freeing.
2204 * Called when request count reached zero and request needs to be freed.
2205 * Removes request from all sorts of sending/replay lists it might be on,
2206 * frees network buffers if any are present.
2207 * If \a locked is set, that means caller is already holding import imp_lock
2208 * and so we no longer need to reobtain it (for certain lists manipulations)
2210 static void __ptlrpc_free_req(struct ptlrpc_request
*request
, int locked
)
2212 if (request
== NULL
) {
2216 LASSERTF(!request
->rq_receiving_reply
, "req %p\n", request
);
2217 LASSERTF(request
->rq_rqbd
== NULL
, "req %p\n",request
);/* client-side */
2218 LASSERTF(list_empty(&request
->rq_list
), "req %p\n", request
);
2219 LASSERTF(list_empty(&request
->rq_set_chain
), "req %p\n", request
);
2220 LASSERTF(list_empty(&request
->rq_exp_list
), "req %p\n", request
);
2221 LASSERTF(!request
->rq_replay
, "req %p\n", request
);
2223 req_capsule_fini(&request
->rq_pill
);
2225 /* We must take it off the imp_replay_list first. Otherwise, we'll set
2226 * request->rq_reqmsg to NULL while osc_close is dereferencing it. */
2227 if (request
->rq_import
!= NULL
) {
2229 spin_lock(&request
->rq_import
->imp_lock
);
2230 list_del_init(&request
->rq_replay_list
);
2232 spin_unlock(&request
->rq_import
->imp_lock
);
2234 LASSERTF(list_empty(&request
->rq_replay_list
), "req %p\n", request
);
2236 if (atomic_read(&request
->rq_refcount
) != 0) {
2237 DEBUG_REQ(D_ERROR
, request
,
2238 "freeing request with nonzero refcount");
2242 if (request
->rq_repbuf
!= NULL
)
2243 sptlrpc_cli_free_repbuf(request
);
2244 if (request
->rq_export
!= NULL
) {
2245 class_export_put(request
->rq_export
);
2246 request
->rq_export
= NULL
;
2248 if (request
->rq_import
!= NULL
) {
2249 class_import_put(request
->rq_import
);
2250 request
->rq_import
= NULL
;
2252 if (request
->rq_bulk
!= NULL
)
2253 ptlrpc_free_bulk_pin(request
->rq_bulk
);
2255 if (request
->rq_reqbuf
!= NULL
|| request
->rq_clrbuf
!= NULL
)
2256 sptlrpc_cli_free_reqbuf(request
);
2258 if (request
->rq_cli_ctx
)
2259 sptlrpc_req_put_ctx(request
, !locked
);
2261 if (request
->rq_pool
)
2262 __ptlrpc_free_req_to_pool(request
);
2264 ptlrpc_request_cache_free(request
);
2267 static int __ptlrpc_req_finished(struct ptlrpc_request
*request
, int locked
);
2269 * Drop one request reference. Must be called with import imp_lock held.
2270 * When reference count drops to zero, request is freed.
2272 void ptlrpc_req_finished_with_imp_lock(struct ptlrpc_request
*request
)
2274 assert_spin_locked(&request
->rq_import
->imp_lock
);
2275 (void)__ptlrpc_req_finished(request
, 1);
2277 EXPORT_SYMBOL(ptlrpc_req_finished_with_imp_lock
);
2281 * Drops one reference count for request \a request.
2282 * \a locked set indicates that caller holds import imp_lock.
2283 * Frees the request when reference count reaches zero.
2285 static int __ptlrpc_req_finished(struct ptlrpc_request
*request
, int locked
)
2287 if (request
== NULL
)
2290 if (request
== LP_POISON
||
2291 request
->rq_reqmsg
== LP_POISON
) {
2292 CERROR("dereferencing freed request (bug 575)\n");
2297 DEBUG_REQ(D_INFO
, request
, "refcount now %u",
2298 atomic_read(&request
->rq_refcount
) - 1);
2300 if (atomic_dec_and_test(&request
->rq_refcount
)) {
2301 __ptlrpc_free_req(request
, locked
);
2309 * Drops one reference count for a request.
2311 void ptlrpc_req_finished(struct ptlrpc_request
*request
)
2313 __ptlrpc_req_finished(request
, 0);
2315 EXPORT_SYMBOL(ptlrpc_req_finished
);
2318 * Returns xid of a \a request
2320 __u64
ptlrpc_req_xid(struct ptlrpc_request
*request
)
2322 return request
->rq_xid
;
2324 EXPORT_SYMBOL(ptlrpc_req_xid
);
2327 * Disengage the client's reply buffer from the network
2328 * NB does _NOT_ unregister any client-side bulk.
2329 * IDEMPOTENT, but _not_ safe against concurrent callers.
2330 * The request owner (i.e. the thread doing the I/O) must call...
2331 * Returns 0 on success or 1 if unregistering cannot be made.
2333 int ptlrpc_unregister_reply(struct ptlrpc_request
*request
, int async
)
2336 wait_queue_head_t
*wq
;
2337 struct l_wait_info lwi
;
2342 LASSERT(!in_interrupt());
2345 * Let's setup deadline for reply unlink.
2347 if (OBD_FAIL_CHECK(OBD_FAIL_PTLRPC_LONG_REPL_UNLINK
) &&
2348 async
&& request
->rq_reply_deadline
== 0)
2349 request
->rq_reply_deadline
= cfs_time_current_sec()+LONG_UNLINK
;
2352 * Nothing left to do.
2354 if (!ptlrpc_client_recv_or_unlink(request
))
2357 LNetMDUnlink(request
->rq_reply_md_h
);
2360 * Let's check it once again.
2362 if (!ptlrpc_client_recv_or_unlink(request
))
2366 * Move to "Unregistering" phase as reply was not unlinked yet.
2368 ptlrpc_rqphase_move(request
, RQ_PHASE_UNREGISTERING
);
2371 * Do not wait for unlink to finish.
2377 * We have to l_wait_event() whatever the result, to give liblustre
2378 * a chance to run reply_in_callback(), and to make sure we've
2379 * unlinked before returning a req to the pool.
2381 if (request
->rq_set
!= NULL
)
2382 wq
= &request
->rq_set
->set_waitq
;
2384 wq
= &request
->rq_reply_waitq
;
2387 /* Network access will complete in finite time but the HUGE
2388 * timeout lets us CWARN for visibility of sluggish NALs */
2389 lwi
= LWI_TIMEOUT_INTERVAL(cfs_time_seconds(LONG_UNLINK
),
2390 cfs_time_seconds(1), NULL
, NULL
);
2391 rc
= l_wait_event(*wq
, !ptlrpc_client_recv_or_unlink(request
),
2394 ptlrpc_rqphase_move(request
, request
->rq_next_phase
);
2398 LASSERT(rc
== -ETIMEDOUT
);
2399 DEBUG_REQ(D_WARNING
, request
, "Unexpectedly long timeout "
2400 "rvcng=%d unlnk=%d", request
->rq_receiving_reply
,
2401 request
->rq_must_unlink
);
2405 EXPORT_SYMBOL(ptlrpc_unregister_reply
);
2407 static void ptlrpc_free_request(struct ptlrpc_request
*req
)
2409 spin_lock(&req
->rq_lock
);
2411 spin_unlock(&req
->rq_lock
);
2413 if (req
->rq_commit_cb
!= NULL
)
2414 req
->rq_commit_cb(req
);
2415 list_del_init(&req
->rq_replay_list
);
2417 __ptlrpc_req_finished(req
, 1);
2421 * the request is committed and dropped from the replay list of its import
2423 void ptlrpc_request_committed(struct ptlrpc_request
*req
, int force
)
2425 struct obd_import
*imp
= req
->rq_import
;
2427 spin_lock(&imp
->imp_lock
);
2428 if (list_empty(&req
->rq_replay_list
)) {
2429 spin_unlock(&imp
->imp_lock
);
2433 if (force
|| req
->rq_transno
<= imp
->imp_peer_committed_transno
)
2434 ptlrpc_free_request(req
);
2436 spin_unlock(&imp
->imp_lock
);
2438 EXPORT_SYMBOL(ptlrpc_request_committed
);
2441 * Iterates through replay_list on import and prunes
2442 * all requests have transno smaller than last_committed for the
2443 * import and don't have rq_replay set.
2444 * Since requests are sorted in transno order, stops when meeting first
2445 * transno bigger than last_committed.
2446 * caller must hold imp->imp_lock
2448 void ptlrpc_free_committed(struct obd_import
*imp
)
2450 struct ptlrpc_request
*req
, *saved
;
2451 struct ptlrpc_request
*last_req
= NULL
; /* temporary fire escape */
2452 bool skip_committed_list
= true;
2454 LASSERT(imp
!= NULL
);
2455 assert_spin_locked(&imp
->imp_lock
);
2457 if (imp
->imp_peer_committed_transno
== imp
->imp_last_transno_checked
&&
2458 imp
->imp_generation
== imp
->imp_last_generation_checked
) {
2459 CDEBUG(D_INFO
, "%s: skip recheck: last_committed "LPU64
"\n",
2460 imp
->imp_obd
->obd_name
, imp
->imp_peer_committed_transno
);
2463 CDEBUG(D_RPCTRACE
, "%s: committing for last_committed "LPU64
" gen %d\n",
2464 imp
->imp_obd
->obd_name
, imp
->imp_peer_committed_transno
,
2465 imp
->imp_generation
);
2467 if (imp
->imp_generation
!= imp
->imp_last_generation_checked
)
2468 skip_committed_list
= false;
2470 imp
->imp_last_transno_checked
= imp
->imp_peer_committed_transno
;
2471 imp
->imp_last_generation_checked
= imp
->imp_generation
;
2473 list_for_each_entry_safe(req
, saved
, &imp
->imp_replay_list
,
2475 /* XXX ok to remove when 1357 resolved - rread 05/29/03 */
2476 LASSERT(req
!= last_req
);
2479 if (req
->rq_transno
== 0) {
2480 DEBUG_REQ(D_EMERG
, req
, "zero transno during replay");
2483 if (req
->rq_import_generation
< imp
->imp_generation
) {
2484 DEBUG_REQ(D_RPCTRACE
, req
, "free request with old gen");
2488 /* not yet committed */
2489 if (req
->rq_transno
> imp
->imp_peer_committed_transno
) {
2490 DEBUG_REQ(D_RPCTRACE
, req
, "stopping search");
2494 if (req
->rq_replay
) {
2495 DEBUG_REQ(D_RPCTRACE
, req
, "keeping (FL_REPLAY)");
2496 list_move_tail(&req
->rq_replay_list
,
2497 &imp
->imp_committed_list
);
2501 DEBUG_REQ(D_INFO
, req
, "commit (last_committed "LPU64
")",
2502 imp
->imp_peer_committed_transno
);
2504 ptlrpc_free_request(req
);
2506 if (skip_committed_list
)
2509 list_for_each_entry_safe(req
, saved
, &imp
->imp_committed_list
,
2511 LASSERT(req
->rq_transno
!= 0);
2512 if (req
->rq_import_generation
< imp
->imp_generation
) {
2513 DEBUG_REQ(D_RPCTRACE
, req
, "free stale open request");
2514 ptlrpc_free_request(req
);
2519 void ptlrpc_cleanup_client(struct obd_import
*imp
)
2522 EXPORT_SYMBOL(ptlrpc_cleanup_client
);
2525 * Schedule previously sent request for resend.
2526 * For bulk requests we assign new xid (to avoid problems with
2527 * lost replies and therefore several transfers landing into same buffer
2528 * from different sending attempts).
2530 void ptlrpc_resend_req(struct ptlrpc_request
*req
)
2532 DEBUG_REQ(D_HA
, req
, "going to resend");
2533 lustre_msg_set_handle(req
->rq_reqmsg
, &(struct lustre_handle
){ 0 });
2534 req
->rq_status
= -EAGAIN
;
2536 spin_lock(&req
->rq_lock
);
2538 req
->rq_net_err
= 0;
2539 req
->rq_timedout
= 0;
2541 __u64 old_xid
= req
->rq_xid
;
2543 /* ensure previous bulk fails */
2544 req
->rq_xid
= ptlrpc_next_xid();
2545 CDEBUG(D_HA
, "resend bulk old x"LPU64
" new x"LPU64
"\n",
2546 old_xid
, req
->rq_xid
);
2548 ptlrpc_client_wake_req(req
);
2549 spin_unlock(&req
->rq_lock
);
2551 EXPORT_SYMBOL(ptlrpc_resend_req
);
2553 /* XXX: this function and rq_status are currently unused */
2554 void ptlrpc_restart_req(struct ptlrpc_request
*req
)
2556 DEBUG_REQ(D_HA
, req
, "restarting (possibly-)completed request");
2557 req
->rq_status
= -ERESTARTSYS
;
2559 spin_lock(&req
->rq_lock
);
2560 req
->rq_restart
= 1;
2561 req
->rq_timedout
= 0;
2562 ptlrpc_client_wake_req(req
);
2563 spin_unlock(&req
->rq_lock
);
2565 EXPORT_SYMBOL(ptlrpc_restart_req
);
2568 * Grab additional reference on a request \a req
2570 struct ptlrpc_request
*ptlrpc_request_addref(struct ptlrpc_request
*req
)
2572 atomic_inc(&req
->rq_refcount
);
2575 EXPORT_SYMBOL(ptlrpc_request_addref
);
2578 * Add a request to import replay_list.
2579 * Must be called under imp_lock
2581 void ptlrpc_retain_replayable_request(struct ptlrpc_request
*req
,
2582 struct obd_import
*imp
)
2584 struct list_head
*tmp
;
2586 assert_spin_locked(&imp
->imp_lock
);
2588 if (req
->rq_transno
== 0) {
2589 DEBUG_REQ(D_EMERG
, req
, "saving request with zero transno");
2593 /* clear this for new requests that were resent as well
2594 as resent replayed requests. */
2595 lustre_msg_clear_flags(req
->rq_reqmsg
, MSG_RESENT
);
2597 /* don't re-add requests that have been replayed */
2598 if (!list_empty(&req
->rq_replay_list
))
2601 lustre_msg_add_flags(req
->rq_reqmsg
, MSG_REPLAY
);
2603 LASSERT(imp
->imp_replayable
);
2604 /* Balanced in ptlrpc_free_committed, usually. */
2605 ptlrpc_request_addref(req
);
2606 list_for_each_prev(tmp
, &imp
->imp_replay_list
) {
2607 struct ptlrpc_request
*iter
=
2608 list_entry(tmp
, struct ptlrpc_request
,
2611 /* We may have duplicate transnos if we create and then
2612 * open a file, or for closes retained if to match creating
2613 * opens, so use req->rq_xid as a secondary key.
2614 * (See bugs 684, 685, and 428.)
2615 * XXX no longer needed, but all opens need transnos!
2617 if (iter
->rq_transno
> req
->rq_transno
)
2620 if (iter
->rq_transno
== req
->rq_transno
) {
2621 LASSERT(iter
->rq_xid
!= req
->rq_xid
);
2622 if (iter
->rq_xid
> req
->rq_xid
)
2626 list_add(&req
->rq_replay_list
, &iter
->rq_replay_list
);
2630 list_add(&req
->rq_replay_list
, &imp
->imp_replay_list
);
2632 EXPORT_SYMBOL(ptlrpc_retain_replayable_request
);
2635 * Send request and wait until it completes.
2636 * Returns request processing status.
2638 int ptlrpc_queue_wait(struct ptlrpc_request
*req
)
2640 struct ptlrpc_request_set
*set
;
2643 LASSERT(req
->rq_set
== NULL
);
2644 LASSERT(!req
->rq_receiving_reply
);
2646 set
= ptlrpc_prep_set();
2648 CERROR("Unable to allocate ptlrpc set.");
2652 /* for distributed debugging */
2653 lustre_msg_set_status(req
->rq_reqmsg
, current_pid());
2655 /* add a ref for the set (see comment in ptlrpc_set_add_req) */
2656 ptlrpc_request_addref(req
);
2657 ptlrpc_set_add_req(set
, req
);
2658 rc
= ptlrpc_set_wait(set
);
2659 ptlrpc_set_destroy(set
);
2663 EXPORT_SYMBOL(ptlrpc_queue_wait
);
2665 struct ptlrpc_replay_async_args
{
2667 int praa_old_status
;
2671 * Callback used for replayed requests reply processing.
2672 * In case of successful reply calls registered request replay callback.
2673 * In case of error restart replay process.
2675 static int ptlrpc_replay_interpret(const struct lu_env
*env
,
2676 struct ptlrpc_request
*req
,
2677 void * data
, int rc
)
2679 struct ptlrpc_replay_async_args
*aa
= data
;
2680 struct obd_import
*imp
= req
->rq_import
;
2682 atomic_dec(&imp
->imp_replay_inflight
);
2684 if (!ptlrpc_client_replied(req
)) {
2685 CERROR("request replay timed out, restarting recovery\n");
2686 GOTO(out
, rc
= -ETIMEDOUT
);
2689 if (lustre_msg_get_type(req
->rq_repmsg
) == PTL_RPC_MSG_ERR
&&
2690 (lustre_msg_get_status(req
->rq_repmsg
) == -ENOTCONN
||
2691 lustre_msg_get_status(req
->rq_repmsg
) == -ENODEV
))
2692 GOTO(out
, rc
= lustre_msg_get_status(req
->rq_repmsg
));
2694 /** VBR: check version failure */
2695 if (lustre_msg_get_status(req
->rq_repmsg
) == -EOVERFLOW
) {
2696 /** replay was failed due to version mismatch */
2697 DEBUG_REQ(D_WARNING
, req
, "Version mismatch during replay\n");
2698 spin_lock(&imp
->imp_lock
);
2699 imp
->imp_vbr_failed
= 1;
2700 imp
->imp_no_lock_replay
= 1;
2701 spin_unlock(&imp
->imp_lock
);
2702 lustre_msg_set_status(req
->rq_repmsg
, aa
->praa_old_status
);
2704 /** The transno had better not change over replay. */
2705 LASSERTF(lustre_msg_get_transno(req
->rq_reqmsg
) ==
2706 lustre_msg_get_transno(req
->rq_repmsg
) ||
2707 lustre_msg_get_transno(req
->rq_repmsg
) == 0,
2709 lustre_msg_get_transno(req
->rq_reqmsg
),
2710 lustre_msg_get_transno(req
->rq_repmsg
));
2713 spin_lock(&imp
->imp_lock
);
2714 /** if replays by version then gap occur on server, no trust to locks */
2715 if (lustre_msg_get_flags(req
->rq_repmsg
) & MSG_VERSION_REPLAY
)
2716 imp
->imp_no_lock_replay
= 1;
2717 imp
->imp_last_replay_transno
= lustre_msg_get_transno(req
->rq_reqmsg
);
2718 spin_unlock(&imp
->imp_lock
);
2719 LASSERT(imp
->imp_last_replay_transno
);
2721 /* transaction number shouldn't be bigger than the latest replayed */
2722 if (req
->rq_transno
> lustre_msg_get_transno(req
->rq_reqmsg
)) {
2723 DEBUG_REQ(D_ERROR
, req
,
2724 "Reported transno "LPU64
" is bigger than the "
2725 "replayed one: "LPU64
, req
->rq_transno
,
2726 lustre_msg_get_transno(req
->rq_reqmsg
));
2727 GOTO(out
, rc
= -EINVAL
);
2730 DEBUG_REQ(D_HA
, req
, "got rep");
2732 /* let the callback do fixups, possibly including in the request */
2733 if (req
->rq_replay_cb
)
2734 req
->rq_replay_cb(req
);
2736 if (ptlrpc_client_replied(req
) &&
2737 lustre_msg_get_status(req
->rq_repmsg
) != aa
->praa_old_status
) {
2738 DEBUG_REQ(D_ERROR
, req
, "status %d, old was %d",
2739 lustre_msg_get_status(req
->rq_repmsg
),
2740 aa
->praa_old_status
);
2742 /* Put it back for re-replay. */
2743 lustre_msg_set_status(req
->rq_repmsg
, aa
->praa_old_status
);
2747 * Errors while replay can set transno to 0, but
2748 * imp_last_replay_transno shouldn't be set to 0 anyway
2750 if (req
->rq_transno
== 0)
2751 CERROR("Transno is 0 during replay!\n");
2753 /* continue with recovery */
2754 rc
= ptlrpc_import_recovery_state_machine(imp
);
2756 req
->rq_send_state
= aa
->praa_old_state
;
2759 /* this replay failed, so restart recovery */
2760 ptlrpc_connect_import(imp
);
2766 * Prepares and queues request for replay.
2767 * Adds it to ptlrpcd queue for actual sending.
2768 * Returns 0 on success.
2770 int ptlrpc_replay_req(struct ptlrpc_request
*req
)
2772 struct ptlrpc_replay_async_args
*aa
;
2774 LASSERT(req
->rq_import
->imp_state
== LUSTRE_IMP_REPLAY
);
2776 LASSERT(sizeof(*aa
) <= sizeof(req
->rq_async_args
));
2777 aa
= ptlrpc_req_async_args(req
);
2778 memset(aa
, 0, sizeof(*aa
));
2780 /* Prepare request to be resent with ptlrpcd */
2781 aa
->praa_old_state
= req
->rq_send_state
;
2782 req
->rq_send_state
= LUSTRE_IMP_REPLAY
;
2783 req
->rq_phase
= RQ_PHASE_NEW
;
2784 req
->rq_next_phase
= RQ_PHASE_UNDEFINED
;
2786 aa
->praa_old_status
= lustre_msg_get_status(req
->rq_repmsg
);
2788 req
->rq_interpret_reply
= ptlrpc_replay_interpret
;
2789 /* Readjust the timeout for current conditions */
2790 ptlrpc_at_set_req_timeout(req
);
2792 /* Tell server the net_latency, so the server can calculate how long
2793 * it should wait for next replay */
2794 lustre_msg_set_service_time(req
->rq_reqmsg
,
2795 ptlrpc_at_get_net_latency(req
));
2796 DEBUG_REQ(D_HA
, req
, "REPLAY");
2798 atomic_inc(&req
->rq_import
->imp_replay_inflight
);
2799 ptlrpc_request_addref(req
); /* ptlrpcd needs a ref */
2801 ptlrpcd_add_req(req
, PDL_POLICY_LOCAL
, -1);
2804 EXPORT_SYMBOL(ptlrpc_replay_req
);
2807 * Aborts all in-flight request on import \a imp sending and delayed lists
2809 void ptlrpc_abort_inflight(struct obd_import
*imp
)
2811 struct list_head
*tmp
, *n
;
2813 /* Make sure that no new requests get processed for this import.
2814 * ptlrpc_{queue,set}_wait must (and does) hold imp_lock while testing
2815 * this flag and then putting requests on sending_list or delayed_list.
2817 spin_lock(&imp
->imp_lock
);
2819 /* XXX locking? Maybe we should remove each request with the list
2820 * locked? Also, how do we know if the requests on the list are
2821 * being freed at this time?
2823 list_for_each_safe(tmp
, n
, &imp
->imp_sending_list
) {
2824 struct ptlrpc_request
*req
=
2825 list_entry(tmp
, struct ptlrpc_request
, rq_list
);
2827 DEBUG_REQ(D_RPCTRACE
, req
, "inflight");
2829 spin_lock(&req
->rq_lock
);
2830 if (req
->rq_import_generation
< imp
->imp_generation
) {
2832 req
->rq_status
= -EIO
;
2833 ptlrpc_client_wake_req(req
);
2835 spin_unlock(&req
->rq_lock
);
2838 list_for_each_safe(tmp
, n
, &imp
->imp_delayed_list
) {
2839 struct ptlrpc_request
*req
=
2840 list_entry(tmp
, struct ptlrpc_request
, rq_list
);
2842 DEBUG_REQ(D_RPCTRACE
, req
, "aborting waiting req");
2844 spin_lock(&req
->rq_lock
);
2845 if (req
->rq_import_generation
< imp
->imp_generation
) {
2847 req
->rq_status
= -EIO
;
2848 ptlrpc_client_wake_req(req
);
2850 spin_unlock(&req
->rq_lock
);
2853 /* Last chance to free reqs left on the replay list, but we
2854 * will still leak reqs that haven't committed. */
2855 if (imp
->imp_replayable
)
2856 ptlrpc_free_committed(imp
);
2858 spin_unlock(&imp
->imp_lock
);
2860 EXPORT_SYMBOL(ptlrpc_abort_inflight
);
2863 * Abort all uncompleted requests in request set \a set
2865 void ptlrpc_abort_set(struct ptlrpc_request_set
*set
)
2867 struct list_head
*tmp
, *pos
;
2869 LASSERT(set
!= NULL
);
2871 list_for_each_safe(pos
, tmp
, &set
->set_requests
) {
2872 struct ptlrpc_request
*req
=
2873 list_entry(pos
, struct ptlrpc_request
,
2876 spin_lock(&req
->rq_lock
);
2877 if (req
->rq_phase
!= RQ_PHASE_RPC
) {
2878 spin_unlock(&req
->rq_lock
);
2883 req
->rq_status
= -EINTR
;
2884 ptlrpc_client_wake_req(req
);
2885 spin_unlock(&req
->rq_lock
);
2889 static __u64 ptlrpc_last_xid
;
2890 static spinlock_t ptlrpc_last_xid_lock
;
2893 * Initialize the XID for the node. This is common among all requests on
2894 * this node, and only requires the property that it is monotonically
2895 * increasing. It does not need to be sequential. Since this is also used
2896 * as the RDMA match bits, it is important that a single client NOT have
2897 * the same match bits for two different in-flight requests, hence we do
2898 * NOT want to have an XID per target or similar.
2900 * To avoid an unlikely collision between match bits after a client reboot
2901 * (which would deliver old data into the wrong RDMA buffer) initialize
2902 * the XID based on the current time, assuming a maximum RPC rate of 1M RPC/s.
2903 * If the time is clearly incorrect, we instead use a 62-bit random number.
2904 * In the worst case the random number will overflow 1M RPCs per second in
2905 * 9133 years, or permutations thereof.
2907 #define YEAR_2004 (1ULL << 30)
2908 void ptlrpc_init_xid(void)
2910 time_t now
= cfs_time_current_sec();
2912 spin_lock_init(&ptlrpc_last_xid_lock
);
2913 if (now
< YEAR_2004
) {
2914 cfs_get_random_bytes(&ptlrpc_last_xid
, sizeof(ptlrpc_last_xid
));
2915 ptlrpc_last_xid
>>= 2;
2916 ptlrpc_last_xid
|= (1ULL << 61);
2918 ptlrpc_last_xid
= (__u64
)now
<< 20;
2921 /* Always need to be aligned to a power-of-two for multi-bulk BRW */
2922 CLASSERT((PTLRPC_BULK_OPS_COUNT
& (PTLRPC_BULK_OPS_COUNT
- 1)) == 0);
2923 ptlrpc_last_xid
&= PTLRPC_BULK_OPS_MASK
;
2927 * Increase xid and returns resulting new value to the caller.
2929 * Multi-bulk BRW RPCs consume multiple XIDs for each bulk transfer, starting
2930 * at the returned xid, up to xid + PTLRPC_BULK_OPS_COUNT - 1. The BRW RPC
2931 * itself uses the last bulk xid needed, so the server can determine the
2932 * the number of bulk transfers from the RPC XID and a bitmask. The starting
2933 * xid must align to a power-of-two value.
2935 * This is assumed to be true due to the initial ptlrpc_last_xid
2936 * value also being initialized to a power-of-two value. LU-1431
2938 __u64
ptlrpc_next_xid(void)
2942 spin_lock(&ptlrpc_last_xid_lock
);
2943 next
= ptlrpc_last_xid
+ PTLRPC_BULK_OPS_COUNT
;
2944 ptlrpc_last_xid
= next
;
2945 spin_unlock(&ptlrpc_last_xid_lock
);
2949 EXPORT_SYMBOL(ptlrpc_next_xid
);
2952 * Get a glimpse at what next xid value might have been.
2953 * Returns possible next xid.
2955 __u64
ptlrpc_sample_next_xid(void)
2957 #if BITS_PER_LONG == 32
2958 /* need to avoid possible word tearing on 32-bit systems */
2961 spin_lock(&ptlrpc_last_xid_lock
);
2962 next
= ptlrpc_last_xid
+ PTLRPC_BULK_OPS_COUNT
;
2963 spin_unlock(&ptlrpc_last_xid_lock
);
2967 /* No need to lock, since returned value is racy anyways */
2968 return ptlrpc_last_xid
+ PTLRPC_BULK_OPS_COUNT
;
2971 EXPORT_SYMBOL(ptlrpc_sample_next_xid
);
2974 * Functions for operating ptlrpc workers.
2976 * A ptlrpc work is a function which will be running inside ptlrpc context.
2977 * The callback shouldn't sleep otherwise it will block that ptlrpcd thread.
2979 * 1. after a work is created, it can be used many times, that is:
2980 * handler = ptlrpcd_alloc_work();
2981 * ptlrpcd_queue_work();
2983 * queue it again when necessary:
2984 * ptlrpcd_queue_work();
2985 * ptlrpcd_destroy_work();
2986 * 2. ptlrpcd_queue_work() can be called by multiple processes meanwhile, but
2987 * it will only be queued once in any time. Also as its name implies, it may
2988 * have delay before it really runs by ptlrpcd thread.
2990 struct ptlrpc_work_async_args
{
2991 int (*cb
)(const struct lu_env
*, void *);
2995 static void ptlrpcd_add_work_req(struct ptlrpc_request
*req
)
2997 /* re-initialize the req */
2998 req
->rq_timeout
= obd_timeout
;
2999 req
->rq_sent
= cfs_time_current_sec();
3000 req
->rq_deadline
= req
->rq_sent
+ req
->rq_timeout
;
3001 req
->rq_reply_deadline
= req
->rq_deadline
;
3002 req
->rq_phase
= RQ_PHASE_INTERPRET
;
3003 req
->rq_next_phase
= RQ_PHASE_COMPLETE
;
3004 req
->rq_xid
= ptlrpc_next_xid();
3005 req
->rq_import_generation
= req
->rq_import
->imp_generation
;
3007 ptlrpcd_add_req(req
, PDL_POLICY_ROUND
, -1);
3010 static int work_interpreter(const struct lu_env
*env
,
3011 struct ptlrpc_request
*req
, void *data
, int rc
)
3013 struct ptlrpc_work_async_args
*arg
= data
;
3015 LASSERT(ptlrpcd_check_work(req
));
3016 LASSERT(arg
->cb
!= NULL
);
3018 rc
= arg
->cb(env
, arg
->cbdata
);
3020 list_del_init(&req
->rq_set_chain
);
3023 if (atomic_dec_return(&req
->rq_refcount
) > 1) {
3024 atomic_set(&req
->rq_refcount
, 2);
3025 ptlrpcd_add_work_req(req
);
3030 static int worker_format
;
3032 static int ptlrpcd_check_work(struct ptlrpc_request
*req
)
3034 return req
->rq_pill
.rc_fmt
== (void *)&worker_format
;
3038 * Create a work for ptlrpc.
3040 void *ptlrpcd_alloc_work(struct obd_import
*imp
,
3041 int (*cb
)(const struct lu_env
*, void *), void *cbdata
)
3043 struct ptlrpc_request
*req
= NULL
;
3044 struct ptlrpc_work_async_args
*args
;
3049 return ERR_PTR(-EINVAL
);
3051 /* copy some code from deprecated fakereq. */
3052 req
= ptlrpc_request_cache_alloc(GFP_NOFS
);
3054 CERROR("ptlrpc: run out of memory!\n");
3055 return ERR_PTR(-ENOMEM
);
3058 req
->rq_send_state
= LUSTRE_IMP_FULL
;
3059 req
->rq_type
= PTL_RPC_MSG_REQUEST
;
3060 req
->rq_import
= class_import_get(imp
);
3061 req
->rq_export
= NULL
;
3062 req
->rq_interpret_reply
= work_interpreter
;
3063 /* don't want reply */
3064 req
->rq_receiving_reply
= 0;
3065 req
->rq_must_unlink
= 0;
3066 req
->rq_no_delay
= req
->rq_no_resend
= 1;
3067 req
->rq_pill
.rc_fmt
= (void *)&worker_format
;
3069 spin_lock_init(&req
->rq_lock
);
3070 INIT_LIST_HEAD(&req
->rq_list
);
3071 INIT_LIST_HEAD(&req
->rq_replay_list
);
3072 INIT_LIST_HEAD(&req
->rq_set_chain
);
3073 INIT_LIST_HEAD(&req
->rq_history_list
);
3074 INIT_LIST_HEAD(&req
->rq_exp_list
);
3075 init_waitqueue_head(&req
->rq_reply_waitq
);
3076 init_waitqueue_head(&req
->rq_set_waitq
);
3077 atomic_set(&req
->rq_refcount
, 1);
3079 CLASSERT(sizeof(*args
) <= sizeof(req
->rq_async_args
));
3080 args
= ptlrpc_req_async_args(req
);
3082 args
->cbdata
= cbdata
;
3086 EXPORT_SYMBOL(ptlrpcd_alloc_work
);
3088 void ptlrpcd_destroy_work(void *handler
)
3090 struct ptlrpc_request
*req
= handler
;
3093 ptlrpc_req_finished(req
);
3095 EXPORT_SYMBOL(ptlrpcd_destroy_work
);
3097 int ptlrpcd_queue_work(void *handler
)
3099 struct ptlrpc_request
*req
= handler
;
3102 * Check if the req is already being queued.
3104 * Here comes a trick: it lacks a way of checking if a req is being
3105 * processed reliably in ptlrpc. Here I have to use refcount of req
3106 * for this purpose. This is okay because the caller should use this
3107 * req as opaque data. - Jinshan
3109 LASSERT(atomic_read(&req
->rq_refcount
) > 0);
3110 if (atomic_inc_return(&req
->rq_refcount
) == 2)
3111 ptlrpcd_add_work_req(req
);
3114 EXPORT_SYMBOL(ptlrpcd_queue_work
);