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.gnu.org/licenses/gpl-2.0.html
23 * Copyright (c) 2003, 2010, Oracle and/or its affiliates. All rights reserved.
24 * Use is subject to license terms.
26 * Copyright (c) 2012, 2017, Intel Corporation.
29 * This file is part of Lustre, http://www.lustre.org/
30 * Lustre is a trademark of Sun Microsystems, Inc.
32 * lnet/lnet/lib-move.c
34 * Data movement routines
37 #define DEBUG_SUBSYSTEM S_LNET
39 #include <linux/pagemap.h>
41 #include <lnet/lib-lnet.h>
42 #include <linux/nsproxy.h>
43 #include <net/net_namespace.h>
45 static int local_nid_dist_zero = 1;
46 module_param(local_nid_dist_zero, int, 0444);
47 MODULE_PARM_DESC(local_nid_dist_zero, "Reserved");
49 struct lnet_send_data {
50 struct lnet_ni *sd_best_ni;
51 struct lnet_peer_ni *sd_best_lpni;
52 struct lnet_peer_ni *sd_final_dst_lpni;
53 struct lnet_peer *sd_peer;
54 struct lnet_peer *sd_gw_peer;
55 struct lnet_peer_ni *sd_gw_lpni;
56 struct lnet_peer_net *sd_peer_net;
57 struct lnet_msg *sd_msg;
58 lnet_nid_t sd_dst_nid;
59 lnet_nid_t sd_src_nid;
60 lnet_nid_t sd_rtr_nid;
67 lnet_msg_is_response(struct lnet_msg *msg)
69 return msg->msg_type == LNET_MSG_ACK || msg->msg_type == LNET_MSG_REPLY;
72 static inline struct lnet_comm_count *
73 get_stats_counts(struct lnet_element_stats *stats,
74 enum lnet_stats_type stats_type)
77 case LNET_STATS_TYPE_SEND:
78 return &stats->el_send_stats;
79 case LNET_STATS_TYPE_RECV:
80 return &stats->el_recv_stats;
81 case LNET_STATS_TYPE_DROP:
82 return &stats->el_drop_stats;
84 CERROR("Unknown stats type\n");
90 void lnet_incr_stats(struct lnet_element_stats *stats,
91 enum lnet_msg_type msg_type,
92 enum lnet_stats_type stats_type)
94 struct lnet_comm_count *counts = get_stats_counts(stats, stats_type);
100 atomic_inc(&counts->co_ack_count);
103 atomic_inc(&counts->co_put_count);
106 atomic_inc(&counts->co_get_count);
109 atomic_inc(&counts->co_reply_count);
112 atomic_inc(&counts->co_hello_count);
115 CERROR("There is a BUG in the code. Unknown message type\n");
120 __u32 lnet_sum_stats(struct lnet_element_stats *stats,
121 enum lnet_stats_type stats_type)
123 struct lnet_comm_count *counts = get_stats_counts(stats, stats_type);
127 return (atomic_read(&counts->co_ack_count) +
128 atomic_read(&counts->co_put_count) +
129 atomic_read(&counts->co_get_count) +
130 atomic_read(&counts->co_reply_count) +
131 atomic_read(&counts->co_hello_count));
134 static inline void assign_stats(struct lnet_ioctl_comm_count *msg_stats,
135 struct lnet_comm_count *counts)
137 msg_stats->ico_get_count = atomic_read(&counts->co_get_count);
138 msg_stats->ico_put_count = atomic_read(&counts->co_put_count);
139 msg_stats->ico_reply_count = atomic_read(&counts->co_reply_count);
140 msg_stats->ico_ack_count = atomic_read(&counts->co_ack_count);
141 msg_stats->ico_hello_count = atomic_read(&counts->co_hello_count);
144 void lnet_usr_translate_stats(struct lnet_ioctl_element_msg_stats *msg_stats,
145 struct lnet_element_stats *stats)
147 struct lnet_comm_count *counts;
152 counts = get_stats_counts(stats, LNET_STATS_TYPE_SEND);
155 assign_stats(&msg_stats->im_send_stats, counts);
157 counts = get_stats_counts(stats, LNET_STATS_TYPE_RECV);
160 assign_stats(&msg_stats->im_recv_stats, counts);
162 counts = get_stats_counts(stats, LNET_STATS_TYPE_DROP);
165 assign_stats(&msg_stats->im_drop_stats, counts);
169 lnet_fail_nid(lnet_nid_t nid, unsigned int threshold)
171 struct lnet_test_peer *tp;
172 struct list_head *el;
173 struct list_head *next;
176 /* NB: use lnet_net_lock(0) to serialize operations on test peers */
177 if (threshold != 0) {
178 /* Adding a new entry */
179 LIBCFS_ALLOC(tp, sizeof(*tp));
184 tp->tp_threshold = threshold;
187 list_add_tail(&tp->tp_list, &the_lnet.ln_test_peers);
194 list_for_each_safe(el, next, &the_lnet.ln_test_peers) {
195 tp = list_entry(el, struct lnet_test_peer, tp_list);
197 if (tp->tp_threshold == 0 || /* needs culling anyway */
198 nid == LNET_NID_ANY || /* removing all entries */
199 tp->tp_nid == nid) { /* matched this one */
200 list_move(&tp->tp_list, &cull);
206 while (!list_empty(&cull)) {
207 tp = list_entry(cull.next, struct lnet_test_peer, tp_list);
209 list_del(&tp->tp_list);
210 LIBCFS_FREE(tp, sizeof(*tp));
216 fail_peer (lnet_nid_t nid, int outgoing)
218 struct lnet_test_peer *tp;
219 struct list_head *el;
220 struct list_head *next;
224 /* NB: use lnet_net_lock(0) to serialize operations on test peers */
227 list_for_each_safe(el, next, &the_lnet.ln_test_peers) {
228 tp = list_entry(el, struct lnet_test_peer, tp_list);
230 if (tp->tp_threshold == 0) {
233 /* only cull zombies on outgoing tests,
234 * since we may be at interrupt priority on
235 * incoming messages. */
236 list_move(&tp->tp_list, &cull);
241 if (tp->tp_nid == LNET_NID_ANY || /* fail every peer */
242 nid == tp->tp_nid) { /* fail this peer */
245 if (tp->tp_threshold != LNET_MD_THRESH_INF) {
248 tp->tp_threshold == 0) {
250 list_move(&tp->tp_list, &cull);
259 while (!list_empty(&cull)) {
260 tp = list_entry(cull.next, struct lnet_test_peer, tp_list);
261 list_del(&tp->tp_list);
263 LIBCFS_FREE(tp, sizeof(*tp));
270 lnet_iov_nob(unsigned int niov, struct kvec *iov)
272 unsigned int nob = 0;
274 LASSERT(niov == 0 || iov != NULL);
276 nob += (iov++)->iov_len;
280 EXPORT_SYMBOL(lnet_iov_nob);
283 lnet_copy_iov2iov(unsigned int ndiov, struct kvec *diov, unsigned int doffset,
284 unsigned int nsiov, struct kvec *siov, unsigned int soffset,
287 /* NB diov, siov are READ-ONLY */
288 unsigned int this_nob;
293 /* skip complete frags before 'doffset' */
295 while (doffset >= diov->iov_len) {
296 doffset -= diov->iov_len;
302 /* skip complete frags before 'soffset' */
304 while (soffset >= siov->iov_len) {
305 soffset -= siov->iov_len;
314 this_nob = min3((unsigned int)diov->iov_len - doffset,
315 (unsigned int)siov->iov_len - soffset,
318 memcpy((char *)diov->iov_base + doffset,
319 (char *)siov->iov_base + soffset, this_nob);
322 if (diov->iov_len > doffset + this_nob) {
330 if (siov->iov_len > soffset + this_nob) {
339 EXPORT_SYMBOL(lnet_copy_iov2iov);
342 lnet_extract_iov(int dst_niov, struct kvec *dst,
343 int src_niov, struct kvec *src,
344 unsigned int offset, unsigned int len)
346 /* Initialise 'dst' to the subset of 'src' starting at 'offset',
347 * for exactly 'len' bytes, and return the number of entries.
348 * NB not destructive to 'src' */
349 unsigned int frag_len;
352 if (len == 0) /* no data => */
353 return (0); /* no frags */
355 LASSERT(src_niov > 0);
356 while (offset >= src->iov_len) { /* skip initial frags */
357 offset -= src->iov_len;
360 LASSERT(src_niov > 0);
365 LASSERT(src_niov > 0);
366 LASSERT((int)niov <= dst_niov);
368 frag_len = src->iov_len - offset;
369 dst->iov_base = ((char *)src->iov_base) + offset;
371 if (len <= frag_len) {
376 dst->iov_len = frag_len;
386 EXPORT_SYMBOL(lnet_extract_iov);
390 lnet_kiov_nob(unsigned int niov, lnet_kiov_t *kiov)
392 unsigned int nob = 0;
394 LASSERT(niov == 0 || kiov != NULL);
396 nob += (kiov++)->kiov_len;
400 EXPORT_SYMBOL(lnet_kiov_nob);
403 lnet_copy_kiov2kiov(unsigned int ndiov, lnet_kiov_t *diov, unsigned int doffset,
404 unsigned int nsiov, lnet_kiov_t *siov, unsigned int soffset,
407 /* NB diov, siov are READ-ONLY */
408 unsigned int this_nob;
415 LASSERT (!in_interrupt ());
418 while (doffset >= diov->kiov_len) {
419 doffset -= diov->kiov_len;
426 while (soffset >= siov->kiov_len) {
427 soffset -= siov->kiov_len;
436 this_nob = min3(diov->kiov_len - doffset,
437 siov->kiov_len - soffset,
441 daddr = ((char *)kmap(diov->kiov_page)) +
442 diov->kiov_offset + doffset;
444 saddr = ((char *)kmap(siov->kiov_page)) +
445 siov->kiov_offset + soffset;
447 /* Vanishing risk of kmap deadlock when mapping 2 pages.
448 * However in practice at least one of the kiovs will be mapped
449 * kernel pages and the map/unmap will be NOOPs */
451 memcpy (daddr, saddr, this_nob);
454 if (diov->kiov_len > doffset + this_nob) {
458 kunmap(diov->kiov_page);
465 if (siov->kiov_len > soffset + this_nob) {
469 kunmap(siov->kiov_page);
478 kunmap(diov->kiov_page);
480 kunmap(siov->kiov_page);
482 EXPORT_SYMBOL(lnet_copy_kiov2kiov);
485 lnet_copy_kiov2iov (unsigned int niov, struct kvec *iov, unsigned int iovoffset,
486 unsigned int nkiov, lnet_kiov_t *kiov, unsigned int kiovoffset,
489 /* NB iov, kiov are READ-ONLY */
490 unsigned int this_nob;
496 LASSERT (!in_interrupt ());
499 while (iovoffset >= iov->iov_len) {
500 iovoffset -= iov->iov_len;
507 while (kiovoffset >= kiov->kiov_len) {
508 kiovoffset -= kiov->kiov_len;
517 this_nob = min3((unsigned int)iov->iov_len - iovoffset,
518 (unsigned int)kiov->kiov_len - kiovoffset,
522 addr = ((char *)kmap(kiov->kiov_page)) +
523 kiov->kiov_offset + kiovoffset;
525 memcpy((char *)iov->iov_base + iovoffset, addr, this_nob);
528 if (iov->iov_len > iovoffset + this_nob) {
529 iovoffset += this_nob;
536 if (kiov->kiov_len > kiovoffset + this_nob) {
538 kiovoffset += this_nob;
540 kunmap(kiov->kiov_page);
550 kunmap(kiov->kiov_page);
552 EXPORT_SYMBOL(lnet_copy_kiov2iov);
555 lnet_copy_iov2kiov(unsigned int nkiov, lnet_kiov_t *kiov, unsigned int kiovoffset,
556 unsigned int niov, struct kvec *iov, unsigned int iovoffset,
559 /* NB kiov, iov are READ-ONLY */
560 unsigned int this_nob;
566 LASSERT (!in_interrupt ());
569 while (kiovoffset >= kiov->kiov_len) {
570 kiovoffset -= kiov->kiov_len;
577 while (iovoffset >= iov->iov_len) {
578 iovoffset -= iov->iov_len;
587 this_nob = min3((unsigned int)kiov->kiov_len - kiovoffset,
588 (unsigned int)iov->iov_len - iovoffset,
592 addr = ((char *)kmap(kiov->kiov_page)) +
593 kiov->kiov_offset + kiovoffset;
595 memcpy (addr, (char *)iov->iov_base + iovoffset, this_nob);
598 if (kiov->kiov_len > kiovoffset + this_nob) {
600 kiovoffset += this_nob;
602 kunmap(kiov->kiov_page);
609 if (iov->iov_len > iovoffset + this_nob) {
610 iovoffset += this_nob;
619 kunmap(kiov->kiov_page);
621 EXPORT_SYMBOL(lnet_copy_iov2kiov);
624 lnet_extract_kiov(int dst_niov, lnet_kiov_t *dst,
625 int src_niov, lnet_kiov_t *src,
626 unsigned int offset, unsigned int len)
628 /* Initialise 'dst' to the subset of 'src' starting at 'offset',
629 * for exactly 'len' bytes, and return the number of entries.
630 * NB not destructive to 'src' */
631 unsigned int frag_len;
634 if (len == 0) /* no data => */
635 return (0); /* no frags */
637 LASSERT(src_niov > 0);
638 while (offset >= src->kiov_len) { /* skip initial frags */
639 offset -= src->kiov_len;
642 LASSERT(src_niov > 0);
647 LASSERT(src_niov > 0);
648 LASSERT((int)niov <= dst_niov);
650 frag_len = src->kiov_len - offset;
651 dst->kiov_page = src->kiov_page;
652 dst->kiov_offset = src->kiov_offset + offset;
654 if (len <= frag_len) {
656 LASSERT(dst->kiov_offset + dst->kiov_len <= PAGE_SIZE);
660 dst->kiov_len = frag_len;
661 LASSERT(dst->kiov_offset + dst->kiov_len <= PAGE_SIZE);
671 EXPORT_SYMBOL(lnet_extract_kiov);
674 lnet_ni_recv(struct lnet_ni *ni, void *private, struct lnet_msg *msg,
675 int delayed, unsigned int offset, unsigned int mlen,
678 unsigned int niov = 0;
679 struct kvec *iov = NULL;
680 lnet_kiov_t *kiov = NULL;
683 LASSERT (!in_interrupt ());
684 LASSERT (mlen == 0 || msg != NULL);
687 LASSERT(msg->msg_receiving);
688 LASSERT(!msg->msg_sending);
689 LASSERT(rlen == msg->msg_len);
690 LASSERT(mlen <= msg->msg_len);
691 LASSERT(msg->msg_offset == offset);
692 LASSERT(msg->msg_wanted == mlen);
694 msg->msg_receiving = 0;
697 niov = msg->msg_niov;
699 kiov = msg->msg_kiov;
702 LASSERT ((iov == NULL) != (kiov == NULL));
706 rc = (ni->ni_net->net_lnd->lnd_recv)(ni, private, msg, delayed,
707 niov, iov, kiov, offset, mlen,
710 lnet_finalize(msg, rc);
714 lnet_setpayloadbuffer(struct lnet_msg *msg)
716 struct lnet_libmd *md = msg->msg_md;
718 LASSERT(msg->msg_len > 0);
719 LASSERT(!msg->msg_routing);
721 LASSERT(msg->msg_niov == 0);
722 LASSERT(msg->msg_iov == NULL);
723 LASSERT(msg->msg_kiov == NULL);
725 msg->msg_niov = md->md_niov;
726 if ((md->md_options & LNET_MD_KIOV) != 0)
727 msg->msg_kiov = md->md_iov.kiov;
729 msg->msg_iov = md->md_iov.iov;
733 lnet_prep_send(struct lnet_msg *msg, int type, struct lnet_process_id target,
734 unsigned int offset, unsigned int len)
736 msg->msg_type = type;
737 msg->msg_target = target;
739 msg->msg_offset = offset;
742 lnet_setpayloadbuffer(msg);
744 memset (&msg->msg_hdr, 0, sizeof (msg->msg_hdr));
745 msg->msg_hdr.type = cpu_to_le32(type);
746 /* dest_nid will be overwritten by lnet_select_pathway() */
747 msg->msg_hdr.dest_nid = cpu_to_le64(target.nid);
748 msg->msg_hdr.dest_pid = cpu_to_le32(target.pid);
749 /* src_nid will be set later */
750 msg->msg_hdr.src_pid = cpu_to_le32(the_lnet.ln_pid);
751 msg->msg_hdr.payload_length = cpu_to_le32(len);
755 lnet_ni_send(struct lnet_ni *ni, struct lnet_msg *msg)
757 void *priv = msg->msg_private;
760 LASSERT (!in_interrupt ());
761 LASSERT (LNET_NETTYP(LNET_NIDNET(ni->ni_nid)) == LOLND ||
762 (msg->msg_txcredit && msg->msg_peertxcredit));
764 rc = (ni->ni_net->net_lnd->lnd_send)(ni, priv, msg);
766 msg->msg_no_resend = true;
767 lnet_finalize(msg, rc);
772 lnet_ni_eager_recv(struct lnet_ni *ni, struct lnet_msg *msg)
776 LASSERT(!msg->msg_sending);
777 LASSERT(msg->msg_receiving);
778 LASSERT(!msg->msg_rx_ready_delay);
779 LASSERT(ni->ni_net->net_lnd->lnd_eager_recv != NULL);
781 msg->msg_rx_ready_delay = 1;
782 rc = (ni->ni_net->net_lnd->lnd_eager_recv)(ni, msg->msg_private, msg,
785 CERROR("recv from %s / send to %s aborted: "
786 "eager_recv failed %d\n",
787 libcfs_nid2str(msg->msg_rxpeer->lpni_nid),
788 libcfs_id2str(msg->msg_target), rc);
789 LASSERT(rc < 0); /* required by my callers */
796 lnet_is_peer_deadline_passed(struct lnet_peer_ni *lpni, time64_t now)
800 deadline = lpni->lpni_last_alive +
801 lpni->lpni_net->net_tunables.lct_peer_timeout;
804 * assume peer_ni is alive as long as we're within the configured
813 /* NB: returns 1 when alive, 0 when dead, negative when error;
814 * may drop the lnet_net_lock */
816 lnet_peer_alive_locked(struct lnet_ni *ni, struct lnet_peer_ni *lpni,
817 struct lnet_msg *msg)
819 time64_t now = ktime_get_seconds();
821 if (!lnet_peer_aliveness_enabled(lpni))
825 * If we're resending a message, let's attempt to send it even if
826 * the peer is down to fulfill our resend quota on the message
828 if (msg->msg_retry_count > 0)
831 /* try and send recovery messages irregardless */
832 if (msg->msg_recovery)
835 /* always send any responses */
836 if (lnet_msg_is_response(msg))
839 if (!lnet_is_peer_deadline_passed(lpni, now))
842 return lnet_is_peer_ni_alive(lpni);
846 * \param msg The message to be sent.
847 * \param do_send True if lnet_ni_send() should be called in this function.
848 * lnet_send() is going to lnet_net_unlock immediately after this, so
849 * it sets do_send FALSE and I don't do the unlock/send/lock bit.
851 * \retval LNET_CREDIT_OK If \a msg sent or OK to send.
852 * \retval LNET_CREDIT_WAIT If \a msg blocked for credit.
853 * \retval -EHOSTUNREACH If the next hop of the message appears dead.
854 * \retval -ECANCELED If the MD of the message has been unlinked.
857 lnet_post_send_locked(struct lnet_msg *msg, int do_send)
859 struct lnet_peer_ni *lp = msg->msg_txpeer;
860 struct lnet_ni *ni = msg->msg_txni;
861 int cpt = msg->msg_tx_cpt;
862 struct lnet_tx_queue *tq = ni->ni_tx_queues[cpt];
864 /* non-lnet_send() callers have checked before */
865 LASSERT(!do_send || msg->msg_tx_delayed);
866 LASSERT(!msg->msg_receiving);
867 LASSERT(msg->msg_tx_committed);
868 /* can't get here if we're sending to the loopback interface */
869 LASSERT(lp->lpni_nid != the_lnet.ln_loni->ni_nid);
871 /* NB 'lp' is always the next hop */
872 if ((msg->msg_target.pid & LNET_PID_USERFLAG) == 0 &&
873 lnet_peer_alive_locked(ni, lp, msg) == 0) {
874 the_lnet.ln_counters[cpt]->lct_common.lcc_drop_count++;
875 the_lnet.ln_counters[cpt]->lct_common.lcc_drop_length +=
877 lnet_net_unlock(cpt);
879 lnet_incr_stats(&msg->msg_txpeer->lpni_stats,
881 LNET_STATS_TYPE_DROP);
883 lnet_incr_stats(&msg->msg_txni->ni_stats,
885 LNET_STATS_TYPE_DROP);
887 CNETERR("Dropping message for %s: peer not alive\n",
888 libcfs_id2str(msg->msg_target));
889 msg->msg_health_status = LNET_MSG_STATUS_REMOTE_DROPPED;
891 lnet_finalize(msg, -EHOSTUNREACH);
894 return -EHOSTUNREACH;
897 if (msg->msg_md != NULL &&
898 (msg->msg_md->md_flags & LNET_MD_FLAG_ABORTED) != 0) {
899 lnet_net_unlock(cpt);
901 CNETERR("Aborting message for %s: LNetM[DE]Unlink() already "
902 "called on the MD/ME.\n",
903 libcfs_id2str(msg->msg_target));
905 msg->msg_no_resend = true;
906 CDEBUG(D_NET, "msg %p to %s canceled and will not be resent\n",
907 msg, libcfs_id2str(msg->msg_target));
908 lnet_finalize(msg, -ECANCELED);
915 if (!msg->msg_peertxcredit) {
916 spin_lock(&lp->lpni_lock);
917 LASSERT((lp->lpni_txcredits < 0) ==
918 !list_empty(&lp->lpni_txq));
920 msg->msg_peertxcredit = 1;
921 lp->lpni_txqnob += msg->msg_len + sizeof(struct lnet_hdr);
922 lp->lpni_txcredits--;
924 if (lp->lpni_txcredits < lp->lpni_mintxcredits)
925 lp->lpni_mintxcredits = lp->lpni_txcredits;
927 if (lp->lpni_txcredits < 0) {
928 msg->msg_tx_delayed = 1;
929 list_add_tail(&msg->msg_list, &lp->lpni_txq);
930 spin_unlock(&lp->lpni_lock);
931 return LNET_CREDIT_WAIT;
933 spin_unlock(&lp->lpni_lock);
936 if (!msg->msg_txcredit) {
937 LASSERT((tq->tq_credits < 0) ==
938 !list_empty(&tq->tq_delayed));
940 msg->msg_txcredit = 1;
942 atomic_dec(&ni->ni_tx_credits);
944 if (tq->tq_credits < tq->tq_credits_min)
945 tq->tq_credits_min = tq->tq_credits;
947 if (tq->tq_credits < 0) {
948 msg->msg_tx_delayed = 1;
949 list_add_tail(&msg->msg_list, &tq->tq_delayed);
950 return LNET_CREDIT_WAIT;
954 /* unset the tx_delay flag as we're going to send it now */
955 msg->msg_tx_delayed = 0;
958 lnet_net_unlock(cpt);
959 lnet_ni_send(ni, msg);
962 return LNET_CREDIT_OK;
966 static struct lnet_rtrbufpool *
967 lnet_msg2bufpool(struct lnet_msg *msg)
969 struct lnet_rtrbufpool *rbp;
972 LASSERT(msg->msg_rx_committed);
974 cpt = msg->msg_rx_cpt;
975 rbp = &the_lnet.ln_rtrpools[cpt][0];
977 LASSERT(msg->msg_len <= LNET_MTU);
978 while (msg->msg_len > (unsigned int)rbp->rbp_npages * PAGE_SIZE) {
980 LASSERT(rbp < &the_lnet.ln_rtrpools[cpt][LNET_NRBPOOLS]);
987 lnet_post_routed_recv_locked(struct lnet_msg *msg, int do_recv)
989 /* lnet_parse is going to lnet_net_unlock immediately after this, so it
990 * sets do_recv FALSE and I don't do the unlock/send/lock bit.
991 * I return LNET_CREDIT_WAIT if msg blocked and LNET_CREDIT_OK if
992 * received or OK to receive */
993 struct lnet_peer_ni *lpni = msg->msg_rxpeer;
994 struct lnet_peer *lp;
995 struct lnet_rtrbufpool *rbp;
996 struct lnet_rtrbuf *rb;
998 LASSERT(msg->msg_iov == NULL);
999 LASSERT(msg->msg_kiov == NULL);
1000 LASSERT(msg->msg_niov == 0);
1001 LASSERT(msg->msg_routing);
1002 LASSERT(msg->msg_receiving);
1003 LASSERT(!msg->msg_sending);
1004 LASSERT(lpni->lpni_peer_net);
1005 LASSERT(lpni->lpni_peer_net->lpn_peer);
1007 lp = lpni->lpni_peer_net->lpn_peer;
1009 /* non-lnet_parse callers only receive delayed messages */
1010 LASSERT(!do_recv || msg->msg_rx_delayed);
1012 if (!msg->msg_peerrtrcredit) {
1013 /* lpni_lock protects the credit manipulation */
1014 spin_lock(&lpni->lpni_lock);
1015 /* lp_lock protects the lp_rtrq */
1016 spin_lock(&lp->lp_lock);
1018 msg->msg_peerrtrcredit = 1;
1019 lpni->lpni_rtrcredits--;
1020 if (lpni->lpni_rtrcredits < lpni->lpni_minrtrcredits)
1021 lpni->lpni_minrtrcredits = lpni->lpni_rtrcredits;
1023 if (lpni->lpni_rtrcredits < 0) {
1024 /* must have checked eager_recv before here */
1025 LASSERT(msg->msg_rx_ready_delay);
1026 msg->msg_rx_delayed = 1;
1027 list_add_tail(&msg->msg_list, &lp->lp_rtrq);
1028 spin_unlock(&lp->lp_lock);
1029 spin_unlock(&lpni->lpni_lock);
1030 return LNET_CREDIT_WAIT;
1032 spin_unlock(&lp->lp_lock);
1033 spin_unlock(&lpni->lpni_lock);
1036 rbp = lnet_msg2bufpool(msg);
1038 if (!msg->msg_rtrcredit) {
1039 msg->msg_rtrcredit = 1;
1041 if (rbp->rbp_credits < rbp->rbp_mincredits)
1042 rbp->rbp_mincredits = rbp->rbp_credits;
1044 if (rbp->rbp_credits < 0) {
1045 /* must have checked eager_recv before here */
1046 LASSERT(msg->msg_rx_ready_delay);
1047 msg->msg_rx_delayed = 1;
1048 list_add_tail(&msg->msg_list, &rbp->rbp_msgs);
1049 return LNET_CREDIT_WAIT;
1053 LASSERT(!list_empty(&rbp->rbp_bufs));
1054 rb = list_entry(rbp->rbp_bufs.next, struct lnet_rtrbuf, rb_list);
1055 list_del(&rb->rb_list);
1057 msg->msg_niov = rbp->rbp_npages;
1058 msg->msg_kiov = &rb->rb_kiov[0];
1060 /* unset the msg-rx_delayed flag since we're receiving the message */
1061 msg->msg_rx_delayed = 0;
1064 int cpt = msg->msg_rx_cpt;
1066 lnet_net_unlock(cpt);
1067 lnet_ni_recv(msg->msg_rxni, msg->msg_private, msg, 1,
1068 0, msg->msg_len, msg->msg_len);
1071 return LNET_CREDIT_OK;
1075 lnet_return_tx_credits_locked(struct lnet_msg *msg)
1077 struct lnet_peer_ni *txpeer = msg->msg_txpeer;
1078 struct lnet_ni *txni = msg->msg_txni;
1079 struct lnet_msg *msg2;
1081 if (msg->msg_txcredit) {
1082 struct lnet_ni *ni = msg->msg_txni;
1083 struct lnet_tx_queue *tq = ni->ni_tx_queues[msg->msg_tx_cpt];
1085 /* give back NI txcredits */
1086 msg->msg_txcredit = 0;
1088 LASSERT((tq->tq_credits < 0) ==
1089 !list_empty(&tq->tq_delayed));
1092 atomic_inc(&ni->ni_tx_credits);
1093 if (tq->tq_credits <= 0) {
1094 msg2 = list_entry(tq->tq_delayed.next,
1095 struct lnet_msg, msg_list);
1096 list_del(&msg2->msg_list);
1098 LASSERT(msg2->msg_txni == ni);
1099 LASSERT(msg2->msg_tx_delayed);
1100 LASSERT(msg2->msg_tx_cpt == msg->msg_tx_cpt);
1102 (void) lnet_post_send_locked(msg2, 1);
1106 if (msg->msg_peertxcredit) {
1107 /* give back peer txcredits */
1108 msg->msg_peertxcredit = 0;
1110 spin_lock(&txpeer->lpni_lock);
1111 LASSERT((txpeer->lpni_txcredits < 0) ==
1112 !list_empty(&txpeer->lpni_txq));
1114 txpeer->lpni_txqnob -= msg->msg_len + sizeof(struct lnet_hdr);
1115 LASSERT(txpeer->lpni_txqnob >= 0);
1117 txpeer->lpni_txcredits++;
1118 if (txpeer->lpni_txcredits <= 0) {
1121 msg2 = list_entry(txpeer->lpni_txq.next,
1122 struct lnet_msg, msg_list);
1123 list_del(&msg2->msg_list);
1124 spin_unlock(&txpeer->lpni_lock);
1126 LASSERT(msg2->msg_txpeer == txpeer);
1127 LASSERT(msg2->msg_tx_delayed);
1129 msg2_cpt = msg2->msg_tx_cpt;
1132 * The msg_cpt can be different from the msg2_cpt
1133 * so we need to make sure we lock the correct cpt
1135 * Once we call lnet_post_send_locked() it is no
1136 * longer safe to access msg2, since it could've
1137 * been freed by lnet_finalize(), but we still
1138 * need to relock the correct cpt, so we cache the
1139 * msg2_cpt for the purpose of the check that
1140 * follows the call to lnet_pose_send_locked().
1142 if (msg2_cpt != msg->msg_tx_cpt) {
1143 lnet_net_unlock(msg->msg_tx_cpt);
1144 lnet_net_lock(msg2_cpt);
1146 (void) lnet_post_send_locked(msg2, 1);
1147 if (msg2_cpt != msg->msg_tx_cpt) {
1148 lnet_net_unlock(msg2_cpt);
1149 lnet_net_lock(msg->msg_tx_cpt);
1152 spin_unlock(&txpeer->lpni_lock);
1157 msg->msg_txni = NULL;
1158 lnet_ni_decref_locked(txni, msg->msg_tx_cpt);
1161 if (txpeer != NULL) {
1162 msg->msg_txpeer = NULL;
1163 lnet_peer_ni_decref_locked(txpeer);
1168 lnet_schedule_blocked_locked(struct lnet_rtrbufpool *rbp)
1170 struct lnet_msg *msg;
1172 if (list_empty(&rbp->rbp_msgs))
1174 msg = list_entry(rbp->rbp_msgs.next,
1175 struct lnet_msg, msg_list);
1176 list_del(&msg->msg_list);
1178 (void)lnet_post_routed_recv_locked(msg, 1);
1182 lnet_drop_routed_msgs_locked(struct list_head *list, int cpt)
1184 struct lnet_msg *msg;
1185 struct lnet_msg *tmp;
1187 lnet_net_unlock(cpt);
1189 list_for_each_entry_safe(msg, tmp, list, msg_list) {
1190 lnet_ni_recv(msg->msg_rxni, msg->msg_private, NULL,
1191 0, 0, 0, msg->msg_hdr.payload_length);
1192 list_del_init(&msg->msg_list);
1193 msg->msg_no_resend = true;
1194 msg->msg_health_status = LNET_MSG_STATUS_REMOTE_ERROR;
1195 lnet_finalize(msg, -ECANCELED);
1202 lnet_return_rx_credits_locked(struct lnet_msg *msg)
1204 struct lnet_peer_ni *rxpeerni = msg->msg_rxpeer;
1205 struct lnet_peer *lp;
1206 struct lnet_ni *rxni = msg->msg_rxni;
1207 struct lnet_msg *msg2;
1209 if (msg->msg_rtrcredit) {
1210 /* give back global router credits */
1211 struct lnet_rtrbuf *rb;
1212 struct lnet_rtrbufpool *rbp;
1214 /* NB If a msg ever blocks for a buffer in rbp_msgs, it stays
1215 * there until it gets one allocated, or aborts the wait
1217 LASSERT(msg->msg_kiov != NULL);
1219 rb = list_entry(msg->msg_kiov, struct lnet_rtrbuf, rb_kiov[0]);
1222 msg->msg_kiov = NULL;
1223 msg->msg_rtrcredit = 0;
1225 LASSERT(rbp == lnet_msg2bufpool(msg));
1227 LASSERT((rbp->rbp_credits > 0) ==
1228 !list_empty(&rbp->rbp_bufs));
1230 /* If routing is now turned off, we just drop this buffer and
1231 * don't bother trying to return credits. */
1232 if (!the_lnet.ln_routing) {
1233 lnet_destroy_rtrbuf(rb, rbp->rbp_npages);
1237 /* It is possible that a user has lowered the desired number of
1238 * buffers in this pool. Make sure we never put back
1239 * more buffers than the stated number. */
1240 if (unlikely(rbp->rbp_credits >= rbp->rbp_req_nbuffers)) {
1241 /* Discard this buffer so we don't have too
1243 lnet_destroy_rtrbuf(rb, rbp->rbp_npages);
1244 rbp->rbp_nbuffers--;
1246 list_add(&rb->rb_list, &rbp->rbp_bufs);
1248 if (rbp->rbp_credits <= 0)
1249 lnet_schedule_blocked_locked(rbp);
1254 if (msg->msg_peerrtrcredit) {
1256 LASSERT(rxpeerni->lpni_peer_net);
1257 LASSERT(rxpeerni->lpni_peer_net->lpn_peer);
1259 lp = rxpeerni->lpni_peer_net->lpn_peer;
1261 /* give back peer router credits */
1262 msg->msg_peerrtrcredit = 0;
1264 spin_lock(&rxpeerni->lpni_lock);
1265 spin_lock(&lp->lp_lock);
1267 rxpeerni->lpni_rtrcredits++;
1269 /* drop all messages which are queued to be routed on that
1271 if (!the_lnet.ln_routing) {
1273 list_splice_init(&lp->lp_rtrq, &drop);
1274 spin_unlock(&lp->lp_lock);
1275 spin_unlock(&rxpeerni->lpni_lock);
1276 lnet_drop_routed_msgs_locked(&drop, msg->msg_rx_cpt);
1277 } else if (!list_empty(&lp->lp_rtrq)) {
1280 msg2 = list_entry(lp->lp_rtrq.next,
1281 struct lnet_msg, msg_list);
1282 list_del(&msg2->msg_list);
1283 msg2_cpt = msg2->msg_rx_cpt;
1284 spin_unlock(&lp->lp_lock);
1285 spin_unlock(&rxpeerni->lpni_lock);
1287 * messages on the lp_rtrq can be from any NID in
1288 * the peer, which means they might have different
1289 * cpts. We need to make sure we lock the right
1292 if (msg2_cpt != msg->msg_rx_cpt) {
1293 lnet_net_unlock(msg->msg_rx_cpt);
1294 lnet_net_lock(msg2_cpt);
1296 (void) lnet_post_routed_recv_locked(msg2, 1);
1297 if (msg2_cpt != msg->msg_rx_cpt) {
1298 lnet_net_unlock(msg2_cpt);
1299 lnet_net_lock(msg->msg_rx_cpt);
1302 spin_unlock(&lp->lp_lock);
1303 spin_unlock(&rxpeerni->lpni_lock);
1307 msg->msg_rxni = NULL;
1308 lnet_ni_decref_locked(rxni, msg->msg_rx_cpt);
1310 if (rxpeerni != NULL) {
1311 msg->msg_rxpeer = NULL;
1312 lnet_peer_ni_decref_locked(rxpeerni);
1317 lnet_compare_gw_lpnis(struct lnet_peer_ni *p1, struct lnet_peer_ni *p2)
1319 if (p1->lpni_txqnob < p2->lpni_txqnob)
1322 if (p1->lpni_txqnob > p2->lpni_txqnob)
1325 if (p1->lpni_txcredits > p2->lpni_txcredits)
1328 if (p1->lpni_txcredits < p2->lpni_txcredits)
1334 static struct lnet_peer_ni *
1335 lnet_select_peer_ni(struct lnet_ni *best_ni, lnet_nid_t dst_nid,
1336 struct lnet_peer *peer,
1337 struct lnet_peer_net *peer_net)
1340 * Look at the peer NIs for the destination peer that connect
1341 * to the chosen net. If a peer_ni is preferred when using the
1342 * best_ni to communicate, we use that one. If there is no
1343 * preferred peer_ni, or there are multiple preferred peer_ni,
1344 * the available transmit credits are used. If the transmit
1345 * credits are equal, we round-robin over the peer_ni.
1347 struct lnet_peer_ni *lpni = NULL;
1348 struct lnet_peer_ni *best_lpni = NULL;
1349 int best_lpni_credits = INT_MIN;
1350 bool preferred = false;
1352 int best_lpni_healthv = 0;
1355 while ((lpni = lnet_get_next_peer_ni_locked(peer, peer_net, lpni))) {
1357 * if the best_ni we've chosen aleady has this lpni
1358 * preferred, then let's use it
1361 ni_is_pref = lnet_peer_is_pref_nid_locked(lpni,
1363 CDEBUG(D_NET, "%s ni_is_pref = %d\n",
1364 libcfs_nid2str(best_ni->ni_nid), ni_is_pref);
1369 lpni_healthv = atomic_read(&lpni->lpni_healthv);
1372 CDEBUG(D_NET, "%s c:[%d, %d], s:[%d, %d]\n",
1373 libcfs_nid2str(lpni->lpni_nid),
1374 lpni->lpni_txcredits, best_lpni_credits,
1375 lpni->lpni_seq, best_lpni->lpni_seq);
1377 /* pick the healthiest peer ni */
1378 if (lpni_healthv < best_lpni_healthv) {
1380 } else if (lpni_healthv > best_lpni_healthv) {
1381 best_lpni_healthv = lpni_healthv;
1382 /* if this is a preferred peer use it */
1383 } else if (!preferred && ni_is_pref) {
1385 } else if (preferred && !ni_is_pref) {
1387 * this is not the preferred peer so let's ignore
1391 } else if (lpni->lpni_txcredits < best_lpni_credits) {
1393 * We already have a peer that has more credits
1394 * available than this one. No need to consider
1395 * this peer further.
1398 } else if (lpni->lpni_txcredits == best_lpni_credits) {
1400 * The best peer found so far and the current peer
1401 * have the same number of available credits let's
1402 * make sure to select between them using Round
1406 if (best_lpni->lpni_seq <= lpni->lpni_seq)
1412 best_lpni_credits = lpni->lpni_txcredits;
1415 /* if we still can't find a peer ni then we can't reach it */
1417 __u32 net_id = (peer_net) ? peer_net->lpn_net_id :
1418 LNET_NIDNET(dst_nid);
1419 CDEBUG(D_NET, "no peer_ni found on peer net %s\n",
1420 libcfs_net2str(net_id));
1424 CDEBUG(D_NET, "sd_best_lpni = %s\n",
1425 libcfs_nid2str(best_lpni->lpni_nid));
1431 * Prerequisite: the best_ni should already be set in the sd
1433 static inline struct lnet_peer_ni *
1434 lnet_find_best_lpni_on_net(struct lnet_ni *lni, lnet_nid_t dst_nid,
1435 struct lnet_peer *peer, __u32 net_id)
1437 struct lnet_peer_net *peer_net;
1440 * The gateway is Multi-Rail capable so now we must select the
1443 peer_net = lnet_peer_get_net_locked(peer, net_id);
1446 CERROR("gateway peer %s has no NI on net %s\n",
1447 libcfs_nid2str(peer->lp_primary_nid),
1448 libcfs_net2str(net_id));
1452 return lnet_select_peer_ni(lni, dst_nid, peer, peer_net);
1455 /* Compare route priorities and hop counts */
1457 lnet_compare_routes(struct lnet_route *r1, struct lnet_route *r2)
1459 int r1_hops = (r1->lr_hops == LNET_UNDEFINED_HOPS) ? 1 : r1->lr_hops;
1460 int r2_hops = (r2->lr_hops == LNET_UNDEFINED_HOPS) ? 1 : r2->lr_hops;
1462 if (r1->lr_priority < r2->lr_priority)
1465 if (r1->lr_priority > r2->lr_priority)
1468 if (r1_hops < r2_hops)
1471 if (r1_hops > r2_hops)
1477 static struct lnet_route *
1478 lnet_find_route_locked(struct lnet_remotenet *rnet, __u32 src_net,
1479 struct lnet_route **prev_route,
1480 struct lnet_peer_ni **gwni)
1482 struct lnet_peer_ni *lpni, *best_gw_ni = NULL;
1483 struct lnet_route *best_route;
1484 struct lnet_route *last_route;
1485 struct lnet_route *route;
1488 __u32 any_net = LNET_NIDNET(LNET_NID_ANY);
1490 best_route = last_route = NULL;
1491 list_for_each_entry(route, &rnet->lrn_routes, lr_list) {
1492 if (!lnet_is_route_alive(route))
1495 /* If the src_net is specified then we need to find an lpni
1498 restrict_net = src_net == any_net ? route->lr_lnet : src_net;
1500 lpni = lnet_find_best_lpni_on_net(NULL, LNET_NID_ANY,
1504 best_route = last_route = route;
1507 CERROR("Gateway %s does not have a peer NI on net %s\n",
1508 libcfs_nid2str(route->lr_gateway->lp_primary_nid),
1509 libcfs_net2str(restrict_net));
1514 /* no protection on below fields, but it's harmless */
1515 if (last_route->lr_seq - route->lr_seq < 0)
1518 rc = lnet_compare_routes(route, best_route);
1522 lpni = lnet_find_best_lpni_on_net(NULL, LNET_NID_ANY,
1526 CERROR("Gateway %s does not have a peer NI on net %s\n",
1527 libcfs_nid2str(route->lr_gateway->lp_primary_nid),
1528 libcfs_net2str(restrict_net));
1538 rc = lnet_compare_gw_lpnis(lpni, best_gw_ni);
1542 if (rc == 1 || route->lr_seq <= best_route->lr_seq) {
1549 *prev_route = last_route;
1555 static struct lnet_ni *
1556 lnet_get_best_ni(struct lnet_net *local_net, struct lnet_ni *best_ni,
1557 struct lnet_peer *peer, struct lnet_peer_net *peer_net,
1560 struct lnet_ni *ni = NULL;
1561 unsigned int shortest_distance;
1566 * If there is no peer_ni that we can send to on this network,
1567 * then there is no point in looking for a new best_ni here.
1569 if (!lnet_get_next_peer_ni_locked(peer, peer_net, NULL))
1572 if (best_ni == NULL) {
1573 shortest_distance = UINT_MAX;
1574 best_credits = INT_MIN;
1577 shortest_distance = cfs_cpt_distance(lnet_cpt_table(), md_cpt,
1578 best_ni->ni_dev_cpt);
1579 best_credits = atomic_read(&best_ni->ni_tx_credits);
1580 best_healthv = atomic_read(&best_ni->ni_healthv);
1583 while ((ni = lnet_get_next_ni_locked(local_net, ni))) {
1584 unsigned int distance;
1589 ni_credits = atomic_read(&ni->ni_tx_credits);
1590 ni_healthv = atomic_read(&ni->ni_healthv);
1591 ni_fatal = atomic_read(&ni->ni_fatal_error_on);
1594 * calculate the distance from the CPT on which
1595 * the message memory is allocated to the CPT of
1596 * the NI's physical device
1598 distance = cfs_cpt_distance(lnet_cpt_table(),
1602 CDEBUG(D_NET, "compare ni %s [c:%d, d:%d, s:%d] with best_ni %s [c:%d, d:%d, s:%d]\n",
1603 libcfs_nid2str(ni->ni_nid), ni_credits, distance,
1604 ni->ni_seq, (best_ni) ? libcfs_nid2str(best_ni->ni_nid)
1605 : "not seleced", best_credits, shortest_distance,
1606 (best_ni) ? best_ni->ni_seq : 0);
1609 * All distances smaller than the NUMA range
1610 * are treated equally.
1612 if (distance < lnet_numa_range)
1613 distance = lnet_numa_range;
1616 * Select on health, shorter distance, available
1617 * credits, then round-robin.
1621 } else if (ni_healthv < best_healthv) {
1623 } else if (ni_healthv > best_healthv) {
1624 best_healthv = ni_healthv;
1626 * If we're going to prefer this ni because it's
1627 * the healthiest, then we should set the
1628 * shortest_distance in the algorithm in case
1629 * there are multiple NIs with the same health but
1630 * different distances.
1632 if (distance < shortest_distance)
1633 shortest_distance = distance;
1634 } else if (distance > shortest_distance) {
1636 } else if (distance < shortest_distance) {
1637 shortest_distance = distance;
1638 } else if (ni_credits < best_credits) {
1640 } else if (ni_credits == best_credits) {
1641 if (best_ni && best_ni->ni_seq <= ni->ni_seq)
1645 best_credits = ni_credits;
1648 CDEBUG(D_NET, "selected best_ni %s\n",
1649 (best_ni) ? libcfs_nid2str(best_ni->ni_nid) : "no selection");
1655 * Traffic to the LNET_RESERVED_PORTAL may not trigger peer discovery,
1656 * because such traffic is required to perform discovery. We therefore
1657 * exclude all GET and PUT on that portal. We also exclude all ACK and
1658 * REPLY traffic, but that is because the portal is not tracked in the
1659 * message structure for these message types. We could restrict this
1660 * further by also checking for LNET_PROTO_PING_MATCHBITS.
1663 lnet_msg_discovery(struct lnet_msg *msg)
1665 if (msg->msg_type == LNET_MSG_PUT) {
1666 if (msg->msg_hdr.msg.put.ptl_index != LNET_RESERVED_PORTAL)
1668 } else if (msg->msg_type == LNET_MSG_GET) {
1669 if (msg->msg_hdr.msg.get.ptl_index != LNET_RESERVED_PORTAL)
1675 #define SRC_SPEC 0x0001
1676 #define SRC_ANY 0x0002
1677 #define LOCAL_DST 0x0004
1678 #define REMOTE_DST 0x0008
1679 #define MR_DST 0x0010
1680 #define NMR_DST 0x0020
1681 #define SND_RESP 0x0040
1683 /* The following to defines are used for return codes */
1684 #define REPEAT_SEND 0x1000
1685 #define PASS_THROUGH 0x2000
1687 /* The different cases lnet_select pathway needs to handle */
1688 #define SRC_SPEC_LOCAL_MR_DST (SRC_SPEC | LOCAL_DST | MR_DST)
1689 #define SRC_SPEC_ROUTER_MR_DST (SRC_SPEC | REMOTE_DST | MR_DST)
1690 #define SRC_SPEC_LOCAL_NMR_DST (SRC_SPEC | LOCAL_DST | NMR_DST)
1691 #define SRC_SPEC_ROUTER_NMR_DST (SRC_SPEC | REMOTE_DST | NMR_DST)
1692 #define SRC_ANY_LOCAL_MR_DST (SRC_ANY | LOCAL_DST | MR_DST)
1693 #define SRC_ANY_ROUTER_MR_DST (SRC_ANY | REMOTE_DST | MR_DST)
1694 #define SRC_ANY_LOCAL_NMR_DST (SRC_ANY | LOCAL_DST | NMR_DST)
1695 #define SRC_ANY_ROUTER_NMR_DST (SRC_ANY | REMOTE_DST | NMR_DST)
1698 lnet_handle_lo_send(struct lnet_send_data *sd)
1700 struct lnet_msg *msg = sd->sd_msg;
1701 int cpt = sd->sd_cpt;
1703 /* No send credit hassles with LOLND */
1704 lnet_ni_addref_locked(the_lnet.ln_loni, cpt);
1705 msg->msg_hdr.dest_nid = cpu_to_le64(the_lnet.ln_loni->ni_nid);
1706 if (!msg->msg_routing)
1707 msg->msg_hdr.src_nid =
1708 cpu_to_le64(the_lnet.ln_loni->ni_nid);
1709 msg->msg_target.nid = the_lnet.ln_loni->ni_nid;
1710 lnet_msg_commit(msg, cpt);
1711 msg->msg_txni = the_lnet.ln_loni;
1713 return LNET_CREDIT_OK;
1717 lnet_handle_send(struct lnet_send_data *sd)
1719 struct lnet_ni *best_ni = sd->sd_best_ni;
1720 struct lnet_peer_ni *best_lpni = sd->sd_best_lpni;
1721 struct lnet_peer_ni *final_dst_lpni = sd->sd_final_dst_lpni;
1722 struct lnet_msg *msg = sd->sd_msg;
1724 __u32 send_case = sd->sd_send_case;
1726 __u32 routing = send_case & REMOTE_DST;
1727 struct lnet_rsp_tracker *rspt;
1730 * Increment sequence number of the selected peer so that we
1731 * pick the next one in Round Robin.
1733 best_lpni->lpni_seq++;
1736 * grab a reference on the peer_ni so it sticks around even if
1737 * we need to drop and relock the lnet_net_lock below.
1739 lnet_peer_ni_addref_locked(best_lpni);
1742 * Use lnet_cpt_of_nid() to determine the CPT used to commit the
1743 * message. This ensures that we get a CPT that is correct for
1744 * the NI when the NI has been restricted to a subset of all CPTs.
1745 * If the selected CPT differs from the one currently locked, we
1746 * must unlock and relock the lnet_net_lock(), and then check whether
1747 * the configuration has changed. We don't have a hold on the best_ni
1748 * yet, and it may have vanished.
1750 cpt2 = lnet_cpt_of_nid_locked(best_lpni->lpni_nid, best_ni);
1751 if (sd->sd_cpt != cpt2) {
1752 __u32 seq = lnet_get_dlc_seq_locked();
1753 lnet_net_unlock(sd->sd_cpt);
1755 lnet_net_lock(sd->sd_cpt);
1756 if (seq != lnet_get_dlc_seq_locked()) {
1757 lnet_peer_ni_decref_locked(best_lpni);
1763 * store the best_lpni in the message right away to avoid having
1764 * to do the same operation under different conditions
1766 msg->msg_txpeer = best_lpni;
1767 msg->msg_txni = best_ni;
1770 * grab a reference for the best_ni since now it's in use in this
1771 * send. The reference will be dropped in lnet_finalize()
1773 lnet_ni_addref_locked(msg->msg_txni, sd->sd_cpt);
1776 * Always set the target.nid to the best peer picked. Either the
1777 * NID will be one of the peer NIDs selected, or the same NID as
1778 * what was originally set in the target or it will be the NID of
1779 * a router if this message should be routed
1781 msg->msg_target.nid = msg->msg_txpeer->lpni_nid;
1784 * lnet_msg_commit assigns the correct cpt to the message, which
1785 * is used to decrement the correct refcount on the ni when it's
1786 * time to return the credits
1788 lnet_msg_commit(msg, sd->sd_cpt);
1791 * If we are routing the message then we keep the src_nid that was
1792 * set by the originator. If we are not routing then we are the
1793 * originator and set it here.
1795 if (!msg->msg_routing)
1796 msg->msg_hdr.src_nid = cpu_to_le64(msg->msg_txni->ni_nid);
1799 msg->msg_target_is_router = 1;
1800 msg->msg_target.pid = LNET_PID_LUSTRE;
1802 * since we're routing we want to ensure that the
1803 * msg_hdr.dest_nid is set to the final destination. When
1804 * the router receives this message it knows how to route
1807 * final_dst_lpni is set at the beginning of the
1808 * lnet_select_pathway() function and is never changed.
1809 * It's safe to use it here.
1811 msg->msg_hdr.dest_nid = cpu_to_le64(final_dst_lpni->lpni_nid);
1814 * if we're not routing set the dest_nid to the best peer
1815 * ni NID that we picked earlier in the algorithm.
1817 msg->msg_hdr.dest_nid = cpu_to_le64(msg->msg_txpeer->lpni_nid);
1821 * if we have response tracker block update it with the next hop
1825 rspt = msg->msg_md->md_rspt_ptr;
1827 rspt->rspt_next_hop_nid = msg->msg_txpeer->lpni_nid;
1828 CDEBUG(D_NET, "rspt_next_hop_nid = %s\n",
1829 libcfs_nid2str(rspt->rspt_next_hop_nid));
1833 rc = lnet_post_send_locked(msg, 0);
1836 CDEBUG(D_NET, "TRACE: %s(%s:%s) -> %s(%s:%s) %s : %s try# %d\n",
1837 libcfs_nid2str(msg->msg_hdr.src_nid),
1838 libcfs_nid2str(msg->msg_txni->ni_nid),
1839 libcfs_nid2str(sd->sd_src_nid),
1840 libcfs_nid2str(msg->msg_hdr.dest_nid),
1841 libcfs_nid2str(sd->sd_dst_nid),
1842 libcfs_nid2str(msg->msg_txpeer->lpni_nid),
1843 libcfs_nid2str(sd->sd_rtr_nid),
1844 lnet_msgtyp2str(msg->msg_type), msg->msg_retry_count);
1850 lnet_set_non_mr_pref_nid(struct lnet_peer_ni *lpni, struct lnet_ni *lni,
1851 struct lnet_msg *msg)
1853 if (!lnet_msg_is_response(msg) && lpni->lpni_pref_nnids == 0) {
1854 CDEBUG(D_NET, "Setting preferred local NID %s on NMR peer %s\n",
1855 libcfs_nid2str(lni->ni_nid),
1856 libcfs_nid2str(lpni->lpni_nid));
1857 lnet_peer_ni_set_non_mr_pref_nid(lpni, lni->ni_nid);
1866 * use the source and destination NIDs as the pathway
1869 lnet_handle_spec_local_nmr_dst(struct lnet_send_data *sd)
1871 /* the destination lpni is set before we get here. */
1874 sd->sd_best_ni = lnet_nid2ni_locked(sd->sd_src_nid, sd->sd_cpt);
1875 if (!sd->sd_best_ni) {
1876 CERROR("Can't send to %s: src %s is not a "
1877 "local nid\n", libcfs_nid2str(sd->sd_dst_nid),
1878 libcfs_nid2str(sd->sd_src_nid));
1882 lnet_set_non_mr_pref_nid(sd->sd_best_lpni, sd->sd_best_ni, sd->sd_msg);
1884 return lnet_handle_send(sd);
1892 * Don't run the selection algorithm on the peer NIs. By specifying the
1893 * local NID, we're also saying that we should always use the destination NID
1894 * provided. This handles the case where we should be using the same
1895 * destination NID for the all the messages which belong to the same RPC
1899 lnet_handle_spec_local_mr_dst(struct lnet_send_data *sd)
1901 sd->sd_best_ni = lnet_nid2ni_locked(sd->sd_src_nid, sd->sd_cpt);
1902 if (!sd->sd_best_ni) {
1903 CERROR("Can't send to %s: src %s is not a "
1904 "local nid\n", libcfs_nid2str(sd->sd_dst_nid),
1905 libcfs_nid2str(sd->sd_src_nid));
1909 if (sd->sd_best_lpni &&
1910 sd->sd_best_lpni->lpni_nid == the_lnet.ln_loni->ni_nid)
1911 return lnet_handle_lo_send(sd);
1912 else if (sd->sd_best_lpni)
1913 return lnet_handle_send(sd);
1915 CERROR("can't send to %s. no NI on %s\n",
1916 libcfs_nid2str(sd->sd_dst_nid),
1917 libcfs_net2str(sd->sd_best_ni->ni_net->net_id));
1919 return -EHOSTUNREACH;
1923 lnet_find_best_ni_on_spec_net(struct lnet_ni *cur_best_ni,
1924 struct lnet_peer *peer,
1925 struct lnet_peer_net *peer_net,
1929 struct lnet_net *local_net;
1930 struct lnet_ni *best_ni;
1932 local_net = lnet_get_net_locked(peer_net->lpn_net_id);
1937 * Iterate through the NIs in this local Net and select
1938 * the NI to send from. The selection is determined by
1939 * these 3 criterion in the following priority:
1941 * 2. NI available credits
1944 best_ni = lnet_get_best_ni(local_net, cur_best_ni,
1945 peer, peer_net, cpt);
1947 if (incr_seq && best_ni)
1954 lnet_initiate_peer_discovery(struct lnet_peer_ni *lpni, struct lnet_msg *msg,
1957 struct lnet_peer *peer;
1960 lnet_peer_ni_addref_locked(lpni);
1962 peer = lpni->lpni_peer_net->lpn_peer;
1964 if (lnet_peer_gw_discovery(peer)) {
1965 lnet_peer_ni_decref_locked(lpni);
1969 if (!lnet_msg_discovery(msg) || lnet_peer_is_uptodate(peer)) {
1970 lnet_peer_ni_decref_locked(lpni);
1974 rc = lnet_discover_peer_locked(lpni, cpt, false);
1976 lnet_peer_ni_decref_locked(lpni);
1979 /* The peer may have changed. */
1980 peer = lpni->lpni_peer_net->lpn_peer;
1981 spin_lock(&peer->lp_lock);
1982 if (lnet_peer_is_uptodate_locked(peer)) {
1983 spin_unlock(&peer->lp_lock);
1984 lnet_peer_ni_decref_locked(lpni);
1987 /* queue message and return */
1988 msg->msg_sending = 0;
1989 msg->msg_txpeer = NULL;
1990 list_add_tail(&msg->msg_list, &peer->lp_dc_pendq);
1991 spin_unlock(&peer->lp_lock);
1993 lnet_peer_ni_decref_locked(lpni);
1995 CDEBUG(D_NET, "msg %p delayed. %s pending discovery\n",
1996 msg, libcfs_nid2str(peer->lp_primary_nid));
1998 return LNET_DC_WAIT;
2002 lnet_handle_find_routed_path(struct lnet_send_data *sd,
2004 struct lnet_peer_ni **gw_lpni,
2005 struct lnet_peer **gw_peer)
2009 struct lnet_peer *gw;
2010 struct lnet_peer *lp;
2011 struct lnet_peer_net *lpn;
2012 struct lnet_peer_net *best_lpn = NULL;
2013 struct lnet_remotenet *rnet, *best_rnet = NULL;
2014 struct lnet_route *best_route = NULL;
2015 struct lnet_route *last_route = NULL;
2016 struct lnet_peer_ni *lpni = NULL;
2017 struct lnet_peer_ni *gwni = NULL;
2018 lnet_nid_t src_nid = sd->sd_src_nid;
2020 /* If a router nid was specified then we are replying to a GET or
2021 * sending an ACK. In this case we use the gateway associated with the
2022 * specified router nid.
2024 if (sd->sd_rtr_nid != LNET_NID_ANY) {
2025 gwni = lnet_find_peer_ni_locked(sd->sd_rtr_nid);
2027 CERROR("No peer NI for gateway %s\n",
2028 libcfs_nid2str(sd->sd_rtr_nid));
2029 return -EHOSTUNREACH;
2031 gw = gwni->lpni_peer_net->lpn_peer;
2032 lnet_peer_ni_decref_locked(gwni);
2033 local_lnet = LNET_NIDNET(sd->sd_rtr_nid);
2035 /* we've already looked up the initial lpni using dst_nid */
2036 lpni = sd->sd_best_lpni;
2037 /* the peer tree must be in existence */
2038 LASSERT(lpni && lpni->lpni_peer_net &&
2039 lpni->lpni_peer_net->lpn_peer);
2040 lp = lpni->lpni_peer_net->lpn_peer;
2042 list_for_each_entry(lpn, &lp->lp_peer_nets, lpn_peer_nets) {
2043 /* is this remote network reachable? */
2044 rnet = lnet_find_rnet_locked(lpn->lpn_net_id);
2053 if (best_lpn->lpn_seq <= lpn->lpn_seq)
2061 CERROR("peer %s has no available nets\n",
2062 libcfs_nid2str(sd->sd_dst_nid));
2063 return -EHOSTUNREACH;
2066 sd->sd_best_lpni = lnet_find_best_lpni_on_net(sd->sd_best_ni,
2069 best_lpn->lpn_net_id);
2070 if (!sd->sd_best_lpni) {
2071 CERROR("peer %s down\n",
2072 libcfs_nid2str(sd->sd_dst_nid));
2073 return -EHOSTUNREACH;
2076 best_route = lnet_find_route_locked(best_rnet,
2077 LNET_NIDNET(src_nid),
2078 &last_route, &gwni);
2080 CERROR("no route to %s from %s\n",
2081 libcfs_nid2str(dst_nid),
2082 libcfs_nid2str(src_nid));
2083 return -EHOSTUNREACH;
2087 CERROR("Internal Error. Route expected to %s from %s\n",
2088 libcfs_nid2str(dst_nid),
2089 libcfs_nid2str(src_nid));
2093 gw = best_route->lr_gateway;
2094 LASSERT(gw == gwni->lpni_peer_net->lpn_peer);
2095 local_lnet = best_route->lr_lnet;
2100 * Discover this gateway if it hasn't already been discovered.
2101 * This means we might delay the message until discovery has
2104 sd->sd_msg->msg_src_nid_param = sd->sd_src_nid;
2105 rc = lnet_initiate_peer_discovery(gwni, sd->sd_msg, sd->sd_cpt);
2109 if (!sd->sd_best_ni)
2110 sd->sd_best_ni = lnet_find_best_ni_on_spec_net(NULL, gw,
2111 lnet_peer_get_net_locked(gw,
2116 if (!sd->sd_best_ni) {
2117 CERROR("Internal Error. Expected local ni on %s but non found :%s\n",
2118 libcfs_net2str(local_lnet),
2119 libcfs_nid2str(sd->sd_src_nid));
2127 * increment the sequence numbers since now we're sure we're
2128 * going to use this path
2130 if (sd->sd_rtr_nid == LNET_NID_ANY) {
2131 LASSERT(best_route && last_route);
2132 best_route->lr_seq = last_route->lr_seq + 1;
2133 best_lpn->lpn_seq++;
2144 * Remote destination
2145 * Non-MR destination
2149 * Remote destination
2152 * The handling of these two cases is similar. Even though the destination
2153 * can be MR or non-MR, we'll deal directly with the router.
2156 lnet_handle_spec_router_dst(struct lnet_send_data *sd)
2159 struct lnet_peer_ni *gw_lpni = NULL;
2160 struct lnet_peer *gw_peer = NULL;
2163 sd->sd_best_ni = lnet_nid2ni_locked(sd->sd_src_nid, sd->sd_cpt);
2164 if (!sd->sd_best_ni) {
2165 CERROR("Can't send to %s: src %s is not a "
2166 "local nid\n", libcfs_nid2str(sd->sd_dst_nid),
2167 libcfs_nid2str(sd->sd_src_nid));
2171 rc = lnet_handle_find_routed_path(sd, sd->sd_dst_nid, &gw_lpni,
2176 if (sd->sd_send_case & NMR_DST)
2178 * since the final destination is non-MR let's set its preferred
2179 * NID before we send
2181 lnet_set_non_mr_pref_nid(sd->sd_best_lpni, sd->sd_best_ni,
2185 * We're going to send to the gw found so let's set its
2188 sd->sd_peer = gw_peer;
2189 sd->sd_best_lpni = gw_lpni;
2191 return lnet_handle_send(sd);
2195 lnet_find_best_ni_on_local_net(struct lnet_peer *peer, int md_cpt,
2198 struct lnet_peer_net *peer_net = NULL;
2199 struct lnet_ni *best_ni = NULL;
2200 int lpn_healthv = 0;
2203 * The peer can have multiple interfaces, some of them can be on
2204 * the local network and others on a routed network. We should
2205 * prefer the local network. However if the local network is not
2206 * available then we need to try the routed network
2209 /* go through all the peer nets and find the best_ni */
2210 list_for_each_entry(peer_net, &peer->lp_peer_nets, lpn_peer_nets) {
2212 * The peer's list of nets can contain non-local nets. We
2213 * want to only examine the local ones.
2215 if (!lnet_get_net_locked(peer_net->lpn_net_id))
2218 /* always select the lpn with the best health */
2219 if (lpn_healthv <= peer_net->lpn_healthv)
2220 lpn_healthv = peer_net->lpn_healthv;
2224 best_ni = lnet_find_best_ni_on_spec_net(best_ni, peer, peer_net,
2228 * if this is a discovery message and lp_disc_net_id is
2229 * specified then use that net to send the discovery on.
2231 if (peer->lp_disc_net_id == peer_net->lpn_net_id &&
2237 /* increment sequence number so we can round robin */
2243 static struct lnet_ni *
2244 lnet_find_existing_preferred_best_ni(struct lnet_peer_ni *lpni, int cpt)
2246 struct lnet_ni *best_ni = NULL;
2247 struct lnet_peer_net *peer_net = lpni->lpni_peer_net;
2248 struct lnet_peer_ni *lpni_entry;
2251 * We must use a consistent source address when sending to a
2252 * non-MR peer. However, a non-MR peer can have multiple NIDs
2253 * on multiple networks, and we may even need to talk to this
2254 * peer on multiple networks -- certain types of
2255 * load-balancing configuration do this.
2257 * So we need to pick the NI the peer prefers for this
2258 * particular network.
2261 list_for_each_entry(lpni_entry, &peer_net->lpn_peer_nis,
2263 if (lpni_entry->lpni_pref_nnids == 0)
2265 LASSERT(lpni_entry->lpni_pref_nnids == 1);
2266 best_ni = lnet_nid2ni_locked(lpni_entry->lpni_pref.nid, cpt);
2273 /* Prerequisite: sd->sd_peer and sd->sd_best_lpni should be set */
2275 lnet_select_preferred_best_ni(struct lnet_send_data *sd)
2277 struct lnet_ni *best_ni = NULL;
2278 struct lnet_peer_ni *best_lpni = sd->sd_best_lpni;
2281 * We must use a consistent source address when sending to a
2282 * non-MR peer. However, a non-MR peer can have multiple NIDs
2283 * on multiple networks, and we may even need to talk to this
2284 * peer on multiple networks -- certain types of
2285 * load-balancing configuration do this.
2287 * So we need to pick the NI the peer prefers for this
2288 * particular network.
2291 best_ni = lnet_find_existing_preferred_best_ni(sd->sd_best_lpni,
2294 /* if best_ni is still not set just pick one */
2297 lnet_find_best_ni_on_spec_net(NULL, sd->sd_peer,
2298 sd->sd_best_lpni->lpni_peer_net,
2299 sd->sd_md_cpt, true);
2300 /* If there is no best_ni we don't have a route */
2302 CERROR("no path to %s from net %s\n",
2303 libcfs_nid2str(best_lpni->lpni_nid),
2304 libcfs_net2str(best_lpni->lpni_net->net_id));
2305 return -EHOSTUNREACH;
2309 sd->sd_best_ni = best_ni;
2311 /* Set preferred NI if necessary. */
2312 lnet_set_non_mr_pref_nid(sd->sd_best_lpni, sd->sd_best_ni, sd->sd_msg);
2319 * Source not specified
2323 * always use the same source NID for NMR peers
2324 * If we've talked to that peer before then we already have a preferred
2325 * source NI associated with it. Otherwise, we select a preferred local NI
2326 * and store it in the peer
2329 lnet_handle_any_local_nmr_dst(struct lnet_send_data *sd)
2333 /* sd->sd_best_lpni is already set to the final destination */
2336 * At this point we should've created the peer ni and peer. If we
2337 * can't find it, then something went wrong. Instead of assert
2338 * output a relevant message and fail the send
2340 if (!sd->sd_best_lpni) {
2341 CERROR("Internal fault. Unable to send msg %s to %s. "
2343 lnet_msgtyp2str(sd->sd_msg->msg_type),
2344 libcfs_nid2str(sd->sd_dst_nid));
2348 rc = lnet_select_preferred_best_ni(sd);
2350 rc = lnet_handle_send(sd);
2356 lnet_handle_any_mr_dsta(struct lnet_send_data *sd)
2359 * NOTE we've already handled the remote peer case. So we only
2360 * need to worry about the local case here.
2362 * if we're sending a response, ACK or reply, we need to send it
2363 * to the destination NID given to us. At this point we already
2364 * have the peer_ni we're suppose to send to, so just find the
2365 * best_ni on the peer net and use that. Since we're sending to an
2366 * MR peer then we can just run the selection algorithm on our
2367 * local NIs and pick the best one.
2369 if (sd->sd_send_case & SND_RESP) {
2371 lnet_find_best_ni_on_spec_net(NULL, sd->sd_peer,
2372 sd->sd_best_lpni->lpni_peer_net,
2373 sd->sd_md_cpt, true);
2375 if (!sd->sd_best_ni) {
2377 * We're not going to deal with not able to send
2378 * a response to the provided final destination
2380 CERROR("Can't send response to %s. "
2381 "No local NI available\n",
2382 libcfs_nid2str(sd->sd_dst_nid));
2383 return -EHOSTUNREACH;
2386 return lnet_handle_send(sd);
2390 * If we get here that means we're sending a fresh request, PUT or
2391 * GET, so we need to run our standard selection algorithm.
2392 * First find the best local interface that's on any of the peer's
2395 sd->sd_best_ni = lnet_find_best_ni_on_local_net(sd->sd_peer,
2397 lnet_msg_discovery(sd->sd_msg));
2398 if (sd->sd_best_ni) {
2400 lnet_find_best_lpni_on_net(sd->sd_best_ni, sd->sd_dst_nid,
2402 sd->sd_best_ni->ni_net->net_id);
2405 * if we're successful in selecting a peer_ni on the local
2406 * network, then send to it. Otherwise fall through and
2407 * try and see if we can reach it over another routed
2410 if (sd->sd_best_lpni &&
2411 sd->sd_best_lpni->lpni_nid == the_lnet.ln_loni->ni_nid) {
2413 * in case we initially started with a routed
2414 * destination, let's reset to local
2416 sd->sd_send_case &= ~REMOTE_DST;
2417 sd->sd_send_case |= LOCAL_DST;
2418 return lnet_handle_lo_send(sd);
2419 } else if (sd->sd_best_lpni) {
2421 * in case we initially started with a routed
2422 * destination, let's reset to local
2424 sd->sd_send_case &= ~REMOTE_DST;
2425 sd->sd_send_case |= LOCAL_DST;
2426 return lnet_handle_send(sd);
2429 CERROR("Internal Error. Expected to have a best_lpni: "
2431 libcfs_nid2str(sd->sd_src_nid),
2432 libcfs_nid2str(sd->sd_dst_nid));
2438 * Peer doesn't have a local network. Let's see if there is
2439 * a remote network we can reach it on.
2441 return PASS_THROUGH;
2446 * Source NID not specified
2451 * Source NID not speified
2452 * Remote destination
2455 * In both of these cases if we're sending a response, ACK or REPLY, then
2456 * we need to send to the destination NID provided.
2458 * In the remote case let's deal with MR routers.
2463 lnet_handle_any_mr_dst(struct lnet_send_data *sd)
2466 struct lnet_peer *gw_peer = NULL;
2467 struct lnet_peer_ni *gw_lpni = NULL;
2470 * handle sending a response to a remote peer here so we don't
2471 * have to worry about it if we hit lnet_handle_any_mr_dsta()
2473 if (sd->sd_send_case & REMOTE_DST &&
2474 sd->sd_send_case & SND_RESP) {
2475 struct lnet_peer_ni *gw;
2476 struct lnet_peer *gw_peer;
2478 rc = lnet_handle_find_routed_path(sd, sd->sd_dst_nid, &gw,
2481 CERROR("Can't send response to %s. "
2482 "No route available\n",
2483 libcfs_nid2str(sd->sd_dst_nid));
2484 return -EHOSTUNREACH;
2485 } else if (rc > 0) {
2489 sd->sd_best_lpni = gw;
2490 sd->sd_peer = gw_peer;
2492 return lnet_handle_send(sd);
2496 * Even though the NID for the peer might not be on a local network,
2497 * since the peer is MR there could be other interfaces on the
2498 * local network. In that case we'd still like to prefer the local
2499 * network over the routed network. If we're unable to do that
2500 * then we select the best router among the different routed networks,
2501 * and if the router is MR then we can deal with it as such.
2503 rc = lnet_handle_any_mr_dsta(sd);
2504 if (rc != PASS_THROUGH)
2508 * Now that we must route to the destination, we must consider the
2509 * MR case, where the destination has multiple interfaces, some of
2510 * which we can route to and others we do not. For this reason we
2511 * need to select the destination which we can route to and if
2512 * there are multiple, we need to round robin.
2514 rc = lnet_handle_find_routed_path(sd, sd->sd_dst_nid, &gw_lpni,
2519 sd->sd_send_case &= ~LOCAL_DST;
2520 sd->sd_send_case |= REMOTE_DST;
2522 sd->sd_peer = gw_peer;
2523 sd->sd_best_lpni = gw_lpni;
2525 return lnet_handle_send(sd);
2529 * Source not specified
2530 * Remote destination
2533 * Must send to the specified peer NID using the same source NID that
2534 * we've used before. If it's the first time to talk to that peer then
2535 * find the source NI and assign it as preferred to that peer
2538 lnet_handle_any_router_nmr_dst(struct lnet_send_data *sd)
2541 struct lnet_peer_ni *gw_lpni = NULL;
2542 struct lnet_peer *gw_peer = NULL;
2545 * Let's see if we have a preferred NI to talk to this NMR peer
2547 sd->sd_best_ni = lnet_find_existing_preferred_best_ni(sd->sd_best_lpni,
2551 * find the router and that'll find the best NI if we didn't find
2554 rc = lnet_handle_find_routed_path(sd, sd->sd_dst_nid, &gw_lpni,
2560 * set the best_ni we've chosen as the preferred one for
2563 lnet_set_non_mr_pref_nid(sd->sd_best_lpni, sd->sd_best_ni, sd->sd_msg);
2565 /* we'll be sending to the gw */
2566 sd->sd_best_lpni = gw_lpni;
2567 sd->sd_peer = gw_peer;
2569 return lnet_handle_send(sd);
2573 lnet_handle_send_case_locked(struct lnet_send_data *sd)
2576 * turn off the SND_RESP bit.
2577 * It will be checked in the case handling
2579 __u32 send_case = sd->sd_send_case &= ~SND_RESP ;
2581 CDEBUG(D_NET, "Source %s%s to %s %s %s destination\n",
2582 (send_case & SRC_SPEC) ? "Specified: " : "ANY",
2583 (send_case & SRC_SPEC) ? libcfs_nid2str(sd->sd_src_nid) : "",
2584 (send_case & MR_DST) ? "MR: " : "NMR: ",
2585 libcfs_nid2str(sd->sd_dst_nid),
2586 (send_case & LOCAL_DST) ? "local" : "routed");
2588 switch (send_case) {
2590 * For all cases where the source is specified, we should always
2591 * use the destination NID, whether it's an MR destination or not,
2592 * since we're continuing a series of related messages for the
2595 case SRC_SPEC_LOCAL_NMR_DST:
2596 return lnet_handle_spec_local_nmr_dst(sd);
2597 case SRC_SPEC_LOCAL_MR_DST:
2598 return lnet_handle_spec_local_mr_dst(sd);
2599 case SRC_SPEC_ROUTER_NMR_DST:
2600 case SRC_SPEC_ROUTER_MR_DST:
2601 return lnet_handle_spec_router_dst(sd);
2602 case SRC_ANY_LOCAL_NMR_DST:
2603 return lnet_handle_any_local_nmr_dst(sd);
2604 case SRC_ANY_LOCAL_MR_DST:
2605 case SRC_ANY_ROUTER_MR_DST:
2606 return lnet_handle_any_mr_dst(sd);
2607 case SRC_ANY_ROUTER_NMR_DST:
2608 return lnet_handle_any_router_nmr_dst(sd);
2610 CERROR("Unknown send case\n");
2616 lnet_select_pathway(lnet_nid_t src_nid, lnet_nid_t dst_nid,
2617 struct lnet_msg *msg, lnet_nid_t rtr_nid)
2619 struct lnet_peer_ni *lpni;
2620 struct lnet_peer *peer;
2621 struct lnet_send_data send_data;
2624 __u32 send_case = 0;
2626 memset(&send_data, 0, sizeof(send_data));
2629 * get an initial CPT to use for locking. The idea here is not to
2630 * serialize the calls to select_pathway, so that as many
2631 * operations can run concurrently as possible. To do that we use
2632 * the CPT where this call is being executed. Later on when we
2633 * determine the CPT to use in lnet_message_commit, we switch the
2634 * lock and check if there was any configuration change. If none,
2635 * then we proceed, if there is, then we restart the operation.
2637 cpt = lnet_net_lock_current();
2639 md_cpt = lnet_cpt_of_md(msg->msg_md, msg->msg_offset);
2640 if (md_cpt == CFS_CPT_ANY)
2646 * If we're being asked to send to the loopback interface, there
2647 * is no need to go through any selection. We can just shortcut
2648 * the entire process and send over lolnd
2650 send_data.sd_msg = msg;
2651 send_data.sd_cpt = cpt;
2652 if (LNET_NETTYP(LNET_NIDNET(dst_nid)) == LOLND) {
2653 rc = lnet_handle_lo_send(&send_data);
2654 lnet_net_unlock(cpt);
2659 * find an existing peer_ni, or create one and mark it as having been
2660 * created due to network traffic. This call will create the
2661 * peer->peer_net->peer_ni tree.
2663 lpni = lnet_nid2peerni_locked(dst_nid, LNET_NID_ANY, cpt);
2665 lnet_net_unlock(cpt);
2666 return PTR_ERR(lpni);
2670 * Cache the original src_nid and rtr_nid. If we need to resend the
2671 * message then we'll need to know whether the src_nid was originally
2672 * specified for this message. If it was originally specified,
2673 * then we need to keep using the same src_nid since it's
2674 * continuing the same sequence of messages. Similarly, rtr_nid will
2675 * affect our choice of next hop.
2677 msg->msg_src_nid_param = src_nid;
2678 msg->msg_rtr_nid_param = rtr_nid;
2681 * If necessary, perform discovery on the peer that owns this peer_ni.
2682 * Note, this can result in the ownership of this peer_ni changing
2683 * to another peer object.
2685 rc = lnet_initiate_peer_discovery(lpni, msg, cpt);
2687 lnet_peer_ni_decref_locked(lpni);
2688 lnet_net_unlock(cpt);
2691 lnet_peer_ni_decref_locked(lpni);
2693 peer = lpni->lpni_peer_net->lpn_peer;
2696 * Identify the different send cases
2698 if (src_nid == LNET_NID_ANY)
2699 send_case |= SRC_ANY;
2701 send_case |= SRC_SPEC;
2703 if (lnet_get_net_locked(LNET_NIDNET(dst_nid)))
2704 send_case |= LOCAL_DST;
2706 send_case |= REMOTE_DST;
2709 * if this is a non-MR peer or if we're recovering a peer ni then
2710 * let's consider this an NMR case so we can hit the destination
2713 if (!lnet_peer_is_multi_rail(peer) || msg->msg_recovery)
2714 send_case |= NMR_DST;
2716 send_case |= MR_DST;
2718 if (lnet_msg_is_response(msg))
2719 send_case |= SND_RESP;
2721 /* assign parameters to the send_data */
2722 send_data.sd_rtr_nid = rtr_nid;
2723 send_data.sd_src_nid = src_nid;
2724 send_data.sd_dst_nid = dst_nid;
2725 send_data.sd_best_lpni = lpni;
2727 * keep a pointer to the final destination in case we're going to
2728 * route, so we'll need to access it later
2730 send_data.sd_final_dst_lpni = lpni;
2731 send_data.sd_peer = peer;
2732 send_data.sd_md_cpt = md_cpt;
2733 send_data.sd_send_case = send_case;
2735 rc = lnet_handle_send_case_locked(&send_data);
2738 * Update the local cpt since send_data.sd_cpt might've been
2739 * updated as a result of calling lnet_handle_send_case_locked().
2741 cpt = send_data.sd_cpt;
2743 if (rc == REPEAT_SEND)
2746 lnet_net_unlock(cpt);
2752 lnet_send(lnet_nid_t src_nid, struct lnet_msg *msg, lnet_nid_t rtr_nid)
2754 lnet_nid_t dst_nid = msg->msg_target.nid;
2758 * NB: rtr_nid is set to LNET_NID_ANY for all current use-cases,
2759 * but we might want to use pre-determined router for ACK/REPLY
2762 /* NB: ni != NULL == interface pre-determined (ACK/REPLY) */
2763 LASSERT(msg->msg_txpeer == NULL);
2764 LASSERT(msg->msg_txni == NULL);
2765 LASSERT(!msg->msg_sending);
2766 LASSERT(!msg->msg_target_is_router);
2767 LASSERT(!msg->msg_receiving);
2769 msg->msg_sending = 1;
2771 LASSERT(!msg->msg_tx_committed);
2773 rc = lnet_select_pathway(src_nid, dst_nid, msg, rtr_nid);
2775 if (rc == -EHOSTUNREACH)
2776 msg->msg_health_status = LNET_MSG_STATUS_REMOTE_ERROR;
2778 msg->msg_health_status = LNET_MSG_STATUS_LOCAL_ERROR;
2782 if (rc == LNET_CREDIT_OK)
2783 lnet_ni_send(msg->msg_txni, msg);
2785 /* rc == LNET_CREDIT_OK or LNET_CREDIT_WAIT or LNET_DC_WAIT */
2789 enum lnet_mt_event_type {
2790 MT_TYPE_LOCAL_NI = 0,
2794 struct lnet_mt_event_info {
2795 enum lnet_mt_event_type mt_type;
2799 /* called with res_lock held */
2801 lnet_detach_rsp_tracker(struct lnet_libmd *md, int cpt)
2803 struct lnet_rsp_tracker *rspt;
2806 * msg has a refcount on the MD so the MD is not going away.
2807 * The rspt queue for the cpt is protected by
2808 * the lnet_net_lock(cpt). cpt is the cpt of the MD cookie.
2810 if (!md->md_rspt_ptr)
2813 rspt = md->md_rspt_ptr;
2816 LASSERT(rspt->rspt_cpt == cpt);
2818 md->md_rspt_ptr = NULL;
2820 if (LNetMDHandleIsInvalid(rspt->rspt_mdh)) {
2822 * The monitor thread has invalidated this handle because the
2823 * response timed out, but it failed to lookup the MD. That
2824 * means this response tracker is on the zombie list. We can
2825 * safely remove it under the resource lock (held by caller) and
2826 * free the response tracker block.
2828 list_del(&rspt->rspt_on_list);
2829 lnet_rspt_free(rspt, cpt);
2832 * invalidate the handle to indicate that a response has been
2833 * received, which will then lead the monitor thread to clean up
2836 LNetInvalidateMDHandle(&rspt->rspt_mdh);
2841 lnet_clean_zombie_rstqs(void)
2843 struct lnet_rsp_tracker *rspt, *tmp;
2846 cfs_cpt_for_each(i, lnet_cpt_table()) {
2847 list_for_each_entry_safe(rspt, tmp,
2848 the_lnet.ln_mt_zombie_rstqs[i],
2850 list_del(&rspt->rspt_on_list);
2851 lnet_rspt_free(rspt, i);
2855 cfs_percpt_free(the_lnet.ln_mt_zombie_rstqs);
2859 lnet_finalize_expired_responses(void)
2861 struct lnet_libmd *md;
2862 struct lnet_rsp_tracker *rspt, *tmp;
2866 if (the_lnet.ln_mt_rstq == NULL)
2869 cfs_cpt_for_each(i, lnet_cpt_table()) {
2870 LIST_HEAD(local_queue);
2873 if (!the_lnet.ln_mt_rstq[i]) {
2877 list_splice_init(the_lnet.ln_mt_rstq[i], &local_queue);
2882 list_for_each_entry_safe(rspt, tmp, &local_queue, rspt_on_list) {
2884 * The rspt mdh will be invalidated when a response
2885 * is received or whenever we want to discard the
2886 * block the monitor thread will walk the queue
2887 * and clean up any rsts with an invalid mdh.
2888 * The monitor thread will walk the queue until
2889 * the first unexpired rspt block. This means that
2890 * some rspt blocks which received their
2891 * corresponding responses will linger in the
2892 * queue until they are cleaned up eventually.
2895 if (LNetMDHandleIsInvalid(rspt->rspt_mdh)) {
2897 list_del(&rspt->rspt_on_list);
2898 lnet_rspt_free(rspt, i);
2902 if (ktime_compare(now, rspt->rspt_deadline) >= 0 ||
2903 the_lnet.ln_mt_state == LNET_MT_STATE_SHUTDOWN) {
2904 struct lnet_peer_ni *lpni;
2907 md = lnet_handle2md(&rspt->rspt_mdh);
2909 /* MD has been queued for unlink, but
2910 * rspt hasn't been detached (Note we've
2911 * checked above that the rspt_mdh is
2912 * valid). Since we cannot lookup the MD
2913 * we're unable to detach the rspt
2914 * ourselves. Thus, move the rspt to the
2915 * zombie list where we'll wait for
2917 * 1. The remaining operations on the
2918 * MD to complete. In this case the
2919 * final operation will result in
2920 * lnet_msg_detach_md()->
2921 * lnet_detach_rsp_tracker() where
2922 * we will clean up this response
2924 * 2. LNet to shutdown. In this case
2925 * we'll wait until after all LND Nets
2926 * have shutdown and then we can
2927 * safely free any remaining response
2928 * tracker blocks on the zombie list.
2929 * Note: We need to hold the resource
2930 * lock when adding to the zombie list
2931 * because we may have concurrent access
2932 * with lnet_detach_rsp_tracker().
2934 LNetInvalidateMDHandle(&rspt->rspt_mdh);
2935 list_move(&rspt->rspt_on_list,
2936 the_lnet.ln_mt_zombie_rstqs[i]);
2940 LASSERT(md->md_rspt_ptr == rspt);
2941 md->md_rspt_ptr = NULL;
2944 LNetMDUnlink(rspt->rspt_mdh);
2946 nid = rspt->rspt_next_hop_nid;
2948 list_del(&rspt->rspt_on_list);
2949 lnet_rspt_free(rspt, i);
2951 /* If we're shutting down we just want to clean
2952 * up the rspt blocks
2954 if (the_lnet.ln_mt_state == LNET_MT_STATE_SHUTDOWN)
2958 the_lnet.ln_counters[i]->lct_health.lch_response_timeout_count++;
2962 "Response timeout: md = %p: nid = %s\n",
2963 md, libcfs_nid2str(nid));
2966 * If there is a timeout on the response
2967 * from the next hop decrement its health
2968 * value so that we don't use it
2971 lpni = lnet_find_peer_ni_locked(nid);
2973 lnet_handle_remote_failure_locked(lpni);
2974 lnet_peer_ni_decref_locked(lpni);
2983 if (!list_empty(&local_queue)) {
2985 list_splice(&local_queue, the_lnet.ln_mt_rstq[i]);
2992 lnet_resend_pending_msgs_locked(struct list_head *resendq, int cpt)
2994 struct lnet_msg *msg;
2996 while (!list_empty(resendq)) {
2997 struct lnet_peer_ni *lpni;
2999 msg = list_entry(resendq->next, struct lnet_msg,
3002 list_del_init(&msg->msg_list);
3004 lpni = lnet_find_peer_ni_locked(msg->msg_hdr.dest_nid);
3006 lnet_net_unlock(cpt);
3007 CERROR("Expected that a peer is already created for %s\n",
3008 libcfs_nid2str(msg->msg_hdr.dest_nid));
3009 msg->msg_no_resend = true;
3010 lnet_finalize(msg, -EFAULT);
3013 struct lnet_peer *peer;
3015 lnet_nid_t src_nid = LNET_NID_ANY;
3018 * if this message is not being routed and the
3019 * peer is non-MR then we must use the same
3020 * src_nid that was used in the original send.
3021 * Otherwise if we're routing the message (IE
3022 * we're a router) then we can use any of our
3023 * local interfaces. It doesn't matter to the
3024 * final destination.
3026 peer = lpni->lpni_peer_net->lpn_peer;
3027 if (!msg->msg_routing &&
3028 !lnet_peer_is_multi_rail(peer))
3029 src_nid = le64_to_cpu(msg->msg_hdr.src_nid);
3032 * If we originally specified a src NID, then we
3033 * must attempt to reuse it in the resend as well.
3035 if (msg->msg_src_nid_param != LNET_NID_ANY)
3036 src_nid = msg->msg_src_nid_param;
3037 lnet_peer_ni_decref_locked(lpni);
3039 lnet_net_unlock(cpt);
3040 CDEBUG(D_NET, "resending %s->%s: %s recovery %d try# %d\n",
3041 libcfs_nid2str(src_nid),
3042 libcfs_id2str(msg->msg_target),
3043 lnet_msgtyp2str(msg->msg_type),
3045 msg->msg_retry_count);
3046 rc = lnet_send(src_nid, msg, LNET_NID_ANY);
3048 CERROR("Error sending %s to %s: %d\n",
3049 lnet_msgtyp2str(msg->msg_type),
3050 libcfs_id2str(msg->msg_target), rc);
3051 msg->msg_no_resend = true;
3052 lnet_finalize(msg, rc);
3056 the_lnet.ln_counters[cpt]->lct_health.lch_resend_count++;
3062 lnet_resend_pending_msgs(void)
3066 cfs_cpt_for_each(i, lnet_cpt_table()) {
3068 lnet_resend_pending_msgs_locked(the_lnet.ln_mt_resendqs[i], i);
3073 /* called with cpt and ni_lock held */
3075 lnet_unlink_ni_recovery_mdh_locked(struct lnet_ni *ni, int cpt, bool force)
3077 struct lnet_handle_md recovery_mdh;
3079 LNetInvalidateMDHandle(&recovery_mdh);
3081 if (ni->ni_recovery_state & LNET_NI_RECOVERY_PENDING ||
3083 recovery_mdh = ni->ni_ping_mdh;
3084 LNetInvalidateMDHandle(&ni->ni_ping_mdh);
3087 lnet_net_unlock(cpt);
3088 if (!LNetMDHandleIsInvalid(recovery_mdh))
3089 LNetMDUnlink(recovery_mdh);
3095 lnet_recover_local_nis(void)
3097 struct lnet_mt_event_info *ev_info;
3098 LIST_HEAD(processed_list);
3099 LIST_HEAD(local_queue);
3100 struct lnet_handle_md mdh;
3101 struct lnet_ni *tmp;
3108 * splice the recovery queue on a local queue. We will iterate
3109 * through the local queue and update it as needed. Once we're
3110 * done with the traversal, we'll splice the local queue back on
3111 * the head of the ln_mt_localNIRecovq. Any newly added local NIs
3112 * will be traversed in the next iteration.
3115 list_splice_init(&the_lnet.ln_mt_localNIRecovq,
3119 list_for_each_entry_safe(ni, tmp, &local_queue, ni_recovery) {
3121 * if an NI is being deleted or it is now healthy, there
3122 * is no need to keep it around in the recovery queue.
3123 * The monitor thread is the only thread responsible for
3124 * removing the NI from the recovery queue.
3125 * Multiple threads can be adding NIs to the recovery
3128 healthv = atomic_read(&ni->ni_healthv);
3132 if (ni->ni_state != LNET_NI_STATE_ACTIVE ||
3133 healthv == LNET_MAX_HEALTH_VALUE) {
3134 list_del_init(&ni->ni_recovery);
3135 lnet_unlink_ni_recovery_mdh_locked(ni, 0, false);
3137 lnet_ni_decref_locked(ni, 0);
3143 * if the local NI failed recovery we must unlink the md.
3144 * But we want to keep the local_ni on the recovery queue
3145 * so we can continue the attempts to recover it.
3147 if (ni->ni_recovery_state & LNET_NI_RECOVERY_FAILED) {
3148 lnet_unlink_ni_recovery_mdh_locked(ni, 0, true);
3149 ni->ni_recovery_state &= ~LNET_NI_RECOVERY_FAILED;
3156 CDEBUG(D_NET, "attempting to recover local ni: %s\n",
3157 libcfs_nid2str(ni->ni_nid));
3160 if (!(ni->ni_recovery_state & LNET_NI_RECOVERY_PENDING)) {
3161 ni->ni_recovery_state |= LNET_NI_RECOVERY_PENDING;
3164 LIBCFS_ALLOC(ev_info, sizeof(*ev_info));
3166 CERROR("out of memory. Can't recover %s\n",
3167 libcfs_nid2str(ni->ni_nid));
3169 ni->ni_recovery_state &=
3170 ~LNET_NI_RECOVERY_PENDING;
3175 mdh = ni->ni_ping_mdh;
3177 * Invalidate the ni mdh in case it's deleted.
3178 * We'll unlink the mdh in this case below.
3180 LNetInvalidateMDHandle(&ni->ni_ping_mdh);
3184 * remove the NI from the local queue and drop the
3185 * reference count to it while we're recovering
3186 * it. The reason for that, is that the NI could
3187 * be deleted, and the way the code is structured
3188 * is if we don't drop the NI, then the deletion
3189 * code will enter a loop waiting for the
3190 * reference count to be removed while holding the
3191 * ln_mutex_lock(). When we look up the peer to
3192 * send to in lnet_select_pathway() we will try to
3193 * lock the ln_mutex_lock() as well, leading to
3194 * a deadlock. By dropping the refcount and
3195 * removing it from the list, we allow for the NI
3196 * to be removed, then we use the cached NID to
3197 * look it up again. If it's gone, then we just
3198 * continue examining the rest of the queue.
3201 list_del_init(&ni->ni_recovery);
3202 lnet_ni_decref_locked(ni, 0);
3205 ev_info->mt_type = MT_TYPE_LOCAL_NI;
3206 ev_info->mt_nid = nid;
3207 rc = lnet_send_ping(nid, &mdh, LNET_INTERFACES_MIN,
3208 ev_info, the_lnet.ln_mt_eq, true);
3209 /* lookup the nid again */
3211 ni = lnet_nid2ni_locked(nid, 0);
3214 * the NI has been deleted when we dropped
3222 * Same note as in lnet_recover_peer_nis(). When
3223 * we're sending the ping, the NI is free to be
3224 * deleted or manipulated. By this point it
3225 * could've been added back on the recovery queue,
3226 * and a refcount taken on it.
3227 * So we can't just add it blindly again or we'll
3228 * corrupt the queue. We must check under lock if
3229 * it's not on any list and if not then add it
3230 * to the processed list, which will eventually be
3231 * spliced back on to the recovery queue.
3233 ni->ni_ping_mdh = mdh;
3234 if (list_empty(&ni->ni_recovery)) {
3235 list_add_tail(&ni->ni_recovery, &processed_list);
3236 lnet_ni_addref_locked(ni, 0);
3242 ni->ni_recovery_state &= ~LNET_NI_RECOVERY_PENDING;
3248 * put back the remaining NIs on the ln_mt_localNIRecovq to be
3249 * reexamined in the next iteration.
3251 list_splice_init(&processed_list, &local_queue);
3253 list_splice(&local_queue, &the_lnet.ln_mt_localNIRecovq);
3258 lnet_resendqs_create(void)
3260 struct list_head **resendqs;
3261 resendqs = lnet_create_array_of_queues();
3266 lnet_net_lock(LNET_LOCK_EX);
3267 the_lnet.ln_mt_resendqs = resendqs;
3268 lnet_net_unlock(LNET_LOCK_EX);
3274 lnet_clean_local_ni_recoveryq(void)
3278 /* This is only called when the monitor thread has stopped */
3281 while (!list_empty(&the_lnet.ln_mt_localNIRecovq)) {
3282 ni = list_entry(the_lnet.ln_mt_localNIRecovq.next,
3283 struct lnet_ni, ni_recovery);
3284 list_del_init(&ni->ni_recovery);
3286 lnet_unlink_ni_recovery_mdh_locked(ni, 0, true);
3288 lnet_ni_decref_locked(ni, 0);
3295 lnet_unlink_lpni_recovery_mdh_locked(struct lnet_peer_ni *lpni, int cpt,
3298 struct lnet_handle_md recovery_mdh;
3300 LNetInvalidateMDHandle(&recovery_mdh);
3302 if (lpni->lpni_state & LNET_PEER_NI_RECOVERY_PENDING || force) {
3303 recovery_mdh = lpni->lpni_recovery_ping_mdh;
3304 LNetInvalidateMDHandle(&lpni->lpni_recovery_ping_mdh);
3306 spin_unlock(&lpni->lpni_lock);
3307 lnet_net_unlock(cpt);
3308 if (!LNetMDHandleIsInvalid(recovery_mdh))
3309 LNetMDUnlink(recovery_mdh);
3311 spin_lock(&lpni->lpni_lock);
3315 lnet_clean_peer_ni_recoveryq(void)
3317 struct lnet_peer_ni *lpni, *tmp;
3319 lnet_net_lock(LNET_LOCK_EX);
3321 list_for_each_entry_safe(lpni, tmp, &the_lnet.ln_mt_peerNIRecovq,
3323 list_del_init(&lpni->lpni_recovery);
3324 spin_lock(&lpni->lpni_lock);
3325 lnet_unlink_lpni_recovery_mdh_locked(lpni, LNET_LOCK_EX, true);
3326 spin_unlock(&lpni->lpni_lock);
3327 lnet_peer_ni_decref_locked(lpni);
3330 lnet_net_unlock(LNET_LOCK_EX);
3334 lnet_clean_resendqs(void)
3336 struct lnet_msg *msg, *tmp;
3340 cfs_cpt_for_each(i, lnet_cpt_table()) {
3342 list_splice_init(the_lnet.ln_mt_resendqs[i], &msgs);
3344 list_for_each_entry_safe(msg, tmp, &msgs, msg_list) {
3345 list_del_init(&msg->msg_list);
3346 msg->msg_no_resend = true;
3347 lnet_finalize(msg, -ESHUTDOWN);
3351 cfs_percpt_free(the_lnet.ln_mt_resendqs);
3355 lnet_recover_peer_nis(void)
3357 struct lnet_mt_event_info *ev_info;
3358 LIST_HEAD(processed_list);
3359 LIST_HEAD(local_queue);
3360 struct lnet_handle_md mdh;
3361 struct lnet_peer_ni *lpni;
3362 struct lnet_peer_ni *tmp;
3368 * Always use cpt 0 for locking across all interactions with
3369 * ln_mt_peerNIRecovq
3372 list_splice_init(&the_lnet.ln_mt_peerNIRecovq,
3376 list_for_each_entry_safe(lpni, tmp, &local_queue,
3379 * The same protection strategy is used here as is in the
3380 * local recovery case.
3383 healthv = atomic_read(&lpni->lpni_healthv);
3384 spin_lock(&lpni->lpni_lock);
3385 if (lpni->lpni_state & LNET_PEER_NI_DELETING ||
3386 healthv == LNET_MAX_HEALTH_VALUE) {
3387 list_del_init(&lpni->lpni_recovery);
3388 lnet_unlink_lpni_recovery_mdh_locked(lpni, 0, false);
3389 spin_unlock(&lpni->lpni_lock);
3390 lnet_peer_ni_decref_locked(lpni);
3396 * If the peer NI has failed recovery we must unlink the
3397 * md. But we want to keep the peer ni on the recovery
3398 * queue so we can try to continue recovering it
3400 if (lpni->lpni_state & LNET_PEER_NI_RECOVERY_FAILED) {
3401 lnet_unlink_lpni_recovery_mdh_locked(lpni, 0, true);
3402 lpni->lpni_state &= ~LNET_PEER_NI_RECOVERY_FAILED;
3405 spin_unlock(&lpni->lpni_lock);
3409 * NOTE: we're racing with peer deletion from user space.
3410 * It's possible that a peer is deleted after we check its
3411 * state. In this case the recovery can create a new peer
3413 spin_lock(&lpni->lpni_lock);
3414 if (!(lpni->lpni_state & LNET_PEER_NI_RECOVERY_PENDING) &&
3415 !(lpni->lpni_state & LNET_PEER_NI_DELETING)) {
3416 lpni->lpni_state |= LNET_PEER_NI_RECOVERY_PENDING;
3417 spin_unlock(&lpni->lpni_lock);
3419 LIBCFS_ALLOC(ev_info, sizeof(*ev_info));
3421 CERROR("out of memory. Can't recover %s\n",
3422 libcfs_nid2str(lpni->lpni_nid));
3423 spin_lock(&lpni->lpni_lock);
3424 lpni->lpni_state &= ~LNET_PEER_NI_RECOVERY_PENDING;
3425 spin_unlock(&lpni->lpni_lock);
3429 /* look at the comments in lnet_recover_local_nis() */
3430 mdh = lpni->lpni_recovery_ping_mdh;
3431 LNetInvalidateMDHandle(&lpni->lpni_recovery_ping_mdh);
3432 nid = lpni->lpni_nid;
3434 list_del_init(&lpni->lpni_recovery);
3435 lnet_peer_ni_decref_locked(lpni);
3438 ev_info->mt_type = MT_TYPE_PEER_NI;
3439 ev_info->mt_nid = nid;
3440 rc = lnet_send_ping(nid, &mdh, LNET_INTERFACES_MIN,
3441 ev_info, the_lnet.ln_mt_eq, true);
3444 * lnet_find_peer_ni_locked() grabs a refcount for
3445 * us. No need to take it explicitly.
3447 lpni = lnet_find_peer_ni_locked(nid);
3454 lpni->lpni_recovery_ping_mdh = mdh;
3456 * While we're unlocked the lpni could've been
3457 * readded on the recovery queue. In this case we
3458 * don't need to add it to the local queue, since
3459 * it's already on there and the thread that added
3460 * it would've incremented the refcount on the
3461 * peer, which means we need to decref the refcount
3462 * that was implicitly grabbed by find_peer_ni_locked.
3463 * Otherwise, if the lpni is still not on
3464 * the recovery queue, then we'll add it to the
3467 if (list_empty(&lpni->lpni_recovery))
3468 list_add_tail(&lpni->lpni_recovery, &processed_list);
3470 lnet_peer_ni_decref_locked(lpni);
3473 spin_lock(&lpni->lpni_lock);
3475 lpni->lpni_state &= ~LNET_PEER_NI_RECOVERY_PENDING;
3477 spin_unlock(&lpni->lpni_lock);
3480 list_splice_init(&processed_list, &local_queue);
3482 list_splice(&local_queue, &the_lnet.ln_mt_peerNIRecovq);
3487 lnet_monitor_thread(void *arg)
3489 time64_t recovery_timeout = 0;
3490 time64_t rsp_timeout = 0;
3494 wait_for_completion(&the_lnet.ln_started);
3496 * The monitor thread takes care of the following:
3497 * 1. Checks the aliveness of routers
3498 * 2. Checks if there are messages on the resend queue to resend
3500 * 3. Check if there are any NIs on the local recovery queue and
3502 * 4. Checks if there are any NIs on the remote recovery queue
3505 while (the_lnet.ln_mt_state == LNET_MT_STATE_RUNNING) {
3506 now = ktime_get_real_seconds();
3508 if (lnet_router_checker_active())
3509 lnet_check_routers();
3511 lnet_resend_pending_msgs();
3513 if (now >= rsp_timeout) {
3514 lnet_finalize_expired_responses();
3515 rsp_timeout = now + (lnet_transaction_timeout / 2);
3518 if (now >= recovery_timeout) {
3519 lnet_recover_local_nis();
3520 lnet_recover_peer_nis();
3521 recovery_timeout = now + lnet_recovery_interval;
3525 * TODO do we need to check if we should sleep without
3526 * timeout? Technically, an active system will always
3527 * have messages in flight so this check will always
3528 * evaluate to false. And on an idle system do we care
3529 * if we wake up every 1 second? Although, we've seen
3530 * cases where we get a complaint that an idle thread
3531 * is waking up unnecessarily.
3533 * Take into account the current net_count when you wake
3534 * up for alive router checking, since we need to check
3535 * possibly as many networks as we have configured.
3537 interval = min(lnet_recovery_interval,
3538 min((unsigned int) alive_router_check_interval /
3539 lnet_current_net_count,
3540 lnet_transaction_timeout / 2));
3541 wait_for_completion_interruptible_timeout(
3542 &the_lnet.ln_mt_wait_complete,
3543 cfs_time_seconds(interval));
3544 /* Must re-init the completion before testing anything,
3545 * including ln_mt_state.
3547 reinit_completion(&the_lnet.ln_mt_wait_complete);
3551 lnet_net_lock(LNET_LOCK_EX);
3552 the_lnet.ln_mt_state = LNET_MT_STATE_SHUTDOWN;
3553 lnet_net_unlock(LNET_LOCK_EX);
3555 /* signal that the monitor thread is exiting */
3556 up(&the_lnet.ln_mt_signal);
3564 * Returns == 0 if success
3565 * Returns > 0 if LNetMDBind or prior fails
3566 * Returns < 0 if LNetGet fails
3569 lnet_send_ping(lnet_nid_t dest_nid,
3570 struct lnet_handle_md *mdh, int nnis,
3571 void *user_data, struct lnet_eq *eq, bool recovery)
3573 struct lnet_md md = { NULL };
3574 struct lnet_process_id id;
3575 struct lnet_ping_buffer *pbuf;
3578 if (dest_nid == LNET_NID_ANY) {
3583 pbuf = lnet_ping_buffer_alloc(nnis, GFP_NOFS);
3589 /* initialize md content */
3590 md.start = &pbuf->pb_info;
3591 md.length = LNET_PING_INFO_SIZE(nnis);
3592 md.threshold = 2; /* GET/REPLY */
3594 md.options = LNET_MD_TRUNCATE;
3595 md.user_ptr = user_data;
3598 rc = LNetMDBind(md, LNET_UNLINK, mdh);
3600 lnet_ping_buffer_decref(pbuf);
3601 CERROR("Can't bind MD: %d\n", rc);
3602 rc = -rc; /* change the rc to positive */
3605 id.pid = LNET_PID_LUSTRE;
3608 rc = LNetGet(LNET_NID_ANY, *mdh, id,
3609 LNET_RESERVED_PORTAL,
3610 LNET_PROTO_PING_MATCHBITS, 0, recovery);
3613 goto fail_unlink_md;
3619 LNetInvalidateMDHandle(mdh);
3625 lnet_handle_recovery_reply(struct lnet_mt_event_info *ev_info,
3626 int status, bool unlink_event)
3628 lnet_nid_t nid = ev_info->mt_nid;
3630 if (ev_info->mt_type == MT_TYPE_LOCAL_NI) {
3634 ni = lnet_nid2ni_locked(nid, 0);
3640 ni->ni_recovery_state &= ~LNET_NI_RECOVERY_PENDING;
3642 ni->ni_recovery_state |= LNET_NI_RECOVERY_FAILED;
3647 CERROR("local NI (%s) recovery failed with %d\n",
3648 libcfs_nid2str(nid), status);
3652 * need to increment healthv for the ni here, because in
3653 * the lnet_finalize() path we don't have access to this
3654 * NI. And in order to get access to it, we'll need to
3655 * carry forward too much information.
3656 * In the peer case, it'll naturally be incremented
3659 lnet_inc_healthv(&ni->ni_healthv);
3661 struct lnet_peer_ni *lpni;
3664 cpt = lnet_net_lock_current();
3665 lpni = lnet_find_peer_ni_locked(nid);
3667 lnet_net_unlock(cpt);
3670 spin_lock(&lpni->lpni_lock);
3671 lpni->lpni_state &= ~LNET_PEER_NI_RECOVERY_PENDING;
3673 lpni->lpni_state |= LNET_PEER_NI_RECOVERY_FAILED;
3674 spin_unlock(&lpni->lpni_lock);
3675 lnet_peer_ni_decref_locked(lpni);
3676 lnet_net_unlock(cpt);
3679 CERROR("peer NI (%s) recovery failed with %d\n",
3680 libcfs_nid2str(nid), status);
3685 lnet_mt_event_handler(struct lnet_event *event)
3687 struct lnet_mt_event_info *ev_info = event->md.user_ptr;
3688 struct lnet_ping_buffer *pbuf;
3690 /* TODO: remove assert */
3691 LASSERT(event->type == LNET_EVENT_REPLY ||
3692 event->type == LNET_EVENT_SEND ||
3693 event->type == LNET_EVENT_UNLINK);
3695 CDEBUG(D_NET, "Received event: %d status: %d\n", event->type,
3698 switch (event->type) {
3699 case LNET_EVENT_UNLINK:
3700 CDEBUG(D_NET, "%s recovery ping unlinked\n",
3701 libcfs_nid2str(ev_info->mt_nid));
3703 case LNET_EVENT_REPLY:
3704 lnet_handle_recovery_reply(ev_info, event->status,
3705 event->type == LNET_EVENT_UNLINK);
3707 case LNET_EVENT_SEND:
3708 CDEBUG(D_NET, "%s recovery message sent %s:%d\n",
3709 libcfs_nid2str(ev_info->mt_nid),
3710 (event->status) ? "unsuccessfully" :
3711 "successfully", event->status);
3714 CERROR("Unexpected event: %d\n", event->type);
3717 if (event->unlinked) {
3718 LIBCFS_FREE(ev_info, sizeof(*ev_info));
3719 pbuf = LNET_PING_INFO_TO_BUFFER(event->md.start);
3720 lnet_ping_buffer_decref(pbuf);
3725 lnet_rsp_tracker_create(void)
3727 struct list_head **rstqs;
3728 rstqs = lnet_create_array_of_queues();
3733 the_lnet.ln_mt_rstq = rstqs;
3739 lnet_rsp_tracker_clean(void)
3741 lnet_finalize_expired_responses();
3743 cfs_percpt_free(the_lnet.ln_mt_rstq);
3744 the_lnet.ln_mt_rstq = NULL;
3747 int lnet_monitor_thr_start(void)
3750 struct task_struct *task;
3752 if (the_lnet.ln_mt_state != LNET_MT_STATE_SHUTDOWN)
3755 rc = lnet_resendqs_create();
3759 rc = lnet_rsp_tracker_create();
3763 sema_init(&the_lnet.ln_mt_signal, 0);
3765 lnet_net_lock(LNET_LOCK_EX);
3766 the_lnet.ln_mt_state = LNET_MT_STATE_RUNNING;
3767 lnet_net_unlock(LNET_LOCK_EX);
3768 task = kthread_run(lnet_monitor_thread, NULL, "monitor_thread");
3771 CERROR("Can't start monitor thread: %d\n", rc);
3778 lnet_net_lock(LNET_LOCK_EX);
3779 the_lnet.ln_mt_state = LNET_MT_STATE_STOPPING;
3780 lnet_net_unlock(LNET_LOCK_EX);
3781 /* block until event callback signals exit */
3782 down(&the_lnet.ln_mt_signal);
3784 lnet_net_lock(LNET_LOCK_EX);
3785 the_lnet.ln_mt_state = LNET_MT_STATE_SHUTDOWN;
3786 lnet_net_unlock(LNET_LOCK_EX);
3787 lnet_rsp_tracker_clean();
3788 lnet_clean_local_ni_recoveryq();
3789 lnet_clean_peer_ni_recoveryq();
3790 lnet_clean_resendqs();
3791 the_lnet.ln_mt_eq = NULL;
3794 lnet_rsp_tracker_clean();
3795 lnet_clean_local_ni_recoveryq();
3796 lnet_clean_peer_ni_recoveryq();
3797 lnet_clean_resendqs();
3801 void lnet_monitor_thr_stop(void)
3803 if (the_lnet.ln_mt_state == LNET_MT_STATE_SHUTDOWN)
3806 LASSERT(the_lnet.ln_mt_state == LNET_MT_STATE_RUNNING);
3807 lnet_net_lock(LNET_LOCK_EX);
3808 the_lnet.ln_mt_state = LNET_MT_STATE_STOPPING;
3809 lnet_net_unlock(LNET_LOCK_EX);
3811 /* tell the monitor thread that we're shutting down */
3812 complete(&the_lnet.ln_mt_wait_complete);
3814 /* block until monitor thread signals that it's done */
3815 down(&the_lnet.ln_mt_signal);
3816 LASSERT(the_lnet.ln_mt_state == LNET_MT_STATE_SHUTDOWN);
3818 /* perform cleanup tasks */
3819 lnet_rsp_tracker_clean();
3820 lnet_clean_local_ni_recoveryq();
3821 lnet_clean_peer_ni_recoveryq();
3822 lnet_clean_resendqs();
3826 lnet_drop_message(struct lnet_ni *ni, int cpt, void *private, unsigned int nob,
3830 lnet_incr_stats(&ni->ni_stats, msg_type, LNET_STATS_TYPE_DROP);
3831 the_lnet.ln_counters[cpt]->lct_common.lcc_drop_count++;
3832 the_lnet.ln_counters[cpt]->lct_common.lcc_drop_length += nob;
3833 lnet_net_unlock(cpt);
3835 lnet_ni_recv(ni, private, NULL, 0, 0, 0, nob);
3839 lnet_recv_put(struct lnet_ni *ni, struct lnet_msg *msg)
3841 struct lnet_hdr *hdr = &msg->msg_hdr;
3843 if (msg->msg_wanted != 0)
3844 lnet_setpayloadbuffer(msg);
3846 lnet_build_msg_event(msg, LNET_EVENT_PUT);
3848 /* Must I ACK? If so I'll grab the ack_wmd out of the header and put
3849 * it back into the ACK during lnet_finalize() */
3850 msg->msg_ack = (!lnet_is_wire_handle_none(&hdr->msg.put.ack_wmd) &&
3851 (msg->msg_md->md_options & LNET_MD_ACK_DISABLE) == 0);
3853 lnet_ni_recv(ni, msg->msg_private, msg, msg->msg_rx_delayed,
3854 msg->msg_offset, msg->msg_wanted, hdr->payload_length);
3858 lnet_parse_put(struct lnet_ni *ni, struct lnet_msg *msg)
3860 struct lnet_hdr *hdr = &msg->msg_hdr;
3861 struct lnet_match_info info;
3865 /* Convert put fields to host byte order */
3866 hdr->msg.put.match_bits = le64_to_cpu(hdr->msg.put.match_bits);
3867 hdr->msg.put.ptl_index = le32_to_cpu(hdr->msg.put.ptl_index);
3868 hdr->msg.put.offset = le32_to_cpu(hdr->msg.put.offset);
3870 /* Primary peer NID. */
3871 info.mi_id.nid = msg->msg_initiator;
3872 info.mi_id.pid = hdr->src_pid;
3873 info.mi_opc = LNET_MD_OP_PUT;
3874 info.mi_portal = hdr->msg.put.ptl_index;
3875 info.mi_rlength = hdr->payload_length;
3876 info.mi_roffset = hdr->msg.put.offset;
3877 info.mi_mbits = hdr->msg.put.match_bits;
3878 info.mi_cpt = lnet_cpt_of_nid(msg->msg_initiator, ni);
3880 msg->msg_rx_ready_delay = ni->ni_net->net_lnd->lnd_eager_recv == NULL;
3881 ready_delay = msg->msg_rx_ready_delay;
3884 rc = lnet_ptl_match_md(&info, msg);
3889 case LNET_MATCHMD_OK:
3890 lnet_recv_put(ni, msg);
3893 case LNET_MATCHMD_NONE:
3895 /* no eager_recv or has already called it, should
3896 * have been attached on delayed list */
3899 rc = lnet_ni_eager_recv(ni, msg);
3906 case LNET_MATCHMD_DROP:
3907 CNETERR("Dropping PUT from %s portal %d match %llu"
3908 " offset %d length %d: %d\n",
3909 libcfs_id2str(info.mi_id), info.mi_portal,
3910 info.mi_mbits, info.mi_roffset, info.mi_rlength, rc);
3912 return -ENOENT; /* -ve: OK but no match */
3917 lnet_parse_get(struct lnet_ni *ni, struct lnet_msg *msg, int rdma_get)
3919 struct lnet_match_info info;
3920 struct lnet_hdr *hdr = &msg->msg_hdr;
3921 struct lnet_process_id source_id;
3922 struct lnet_handle_wire reply_wmd;
3925 /* Convert get fields to host byte order */
3926 hdr->msg.get.match_bits = le64_to_cpu(hdr->msg.get.match_bits);
3927 hdr->msg.get.ptl_index = le32_to_cpu(hdr->msg.get.ptl_index);
3928 hdr->msg.get.sink_length = le32_to_cpu(hdr->msg.get.sink_length);
3929 hdr->msg.get.src_offset = le32_to_cpu(hdr->msg.get.src_offset);
3931 source_id.nid = hdr->src_nid;
3932 source_id.pid = hdr->src_pid;
3933 /* Primary peer NID */
3934 info.mi_id.nid = msg->msg_initiator;
3935 info.mi_id.pid = hdr->src_pid;
3936 info.mi_opc = LNET_MD_OP_GET;
3937 info.mi_portal = hdr->msg.get.ptl_index;
3938 info.mi_rlength = hdr->msg.get.sink_length;
3939 info.mi_roffset = hdr->msg.get.src_offset;
3940 info.mi_mbits = hdr->msg.get.match_bits;
3941 info.mi_cpt = lnet_cpt_of_nid(msg->msg_initiator, ni);
3943 rc = lnet_ptl_match_md(&info, msg);
3944 if (rc == LNET_MATCHMD_DROP) {
3945 CNETERR("Dropping GET from %s portal %d match %llu"
3946 " offset %d length %d\n",
3947 libcfs_id2str(info.mi_id), info.mi_portal,
3948 info.mi_mbits, info.mi_roffset, info.mi_rlength);
3949 return -ENOENT; /* -ve: OK but no match */
3952 LASSERT(rc == LNET_MATCHMD_OK);
3954 lnet_build_msg_event(msg, LNET_EVENT_GET);
3956 reply_wmd = hdr->msg.get.return_wmd;
3958 lnet_prep_send(msg, LNET_MSG_REPLY, source_id,
3959 msg->msg_offset, msg->msg_wanted);
3961 msg->msg_hdr.msg.reply.dst_wmd = reply_wmd;
3964 /* The LND completes the REPLY from her recv procedure */
3965 lnet_ni_recv(ni, msg->msg_private, msg, 0,
3966 msg->msg_offset, msg->msg_len, msg->msg_len);
3970 lnet_ni_recv(ni, msg->msg_private, NULL, 0, 0, 0, 0);
3971 msg->msg_receiving = 0;
3973 rc = lnet_send(ni->ni_nid, msg, msg->msg_from);
3975 /* didn't get as far as lnet_ni_send() */
3976 CERROR("%s: Unable to send REPLY for GET from %s: %d\n",
3977 libcfs_nid2str(ni->ni_nid),
3978 libcfs_id2str(info.mi_id), rc);
3980 lnet_finalize(msg, rc);
3987 lnet_parse_reply(struct lnet_ni *ni, struct lnet_msg *msg)
3989 void *private = msg->msg_private;
3990 struct lnet_hdr *hdr = &msg->msg_hdr;
3991 struct lnet_process_id src = {0};
3992 struct lnet_libmd *md;
3993 unsigned int rlength;
3994 unsigned int mlength;
3997 cpt = lnet_cpt_of_cookie(hdr->msg.reply.dst_wmd.wh_object_cookie);
4000 src.nid = hdr->src_nid;
4001 src.pid = hdr->src_pid;
4003 /* NB handles only looked up by creator (no flips) */
4004 md = lnet_wire_handle2md(&hdr->msg.reply.dst_wmd);
4005 if (md == NULL || md->md_threshold == 0 || md->md_me != NULL) {
4006 CNETERR("%s: Dropping REPLY from %s for %s "
4008 libcfs_nid2str(ni->ni_nid), libcfs_id2str(src),
4009 (md == NULL) ? "invalid" : "inactive",
4010 hdr->msg.reply.dst_wmd.wh_interface_cookie,
4011 hdr->msg.reply.dst_wmd.wh_object_cookie);
4012 if (md != NULL && md->md_me != NULL)
4013 CERROR("REPLY MD also attached to portal %d\n",
4014 md->md_me->me_portal);
4016 lnet_res_unlock(cpt);
4017 return -ENOENT; /* -ve: OK but no match */
4020 LASSERT(md->md_offset == 0);
4022 rlength = hdr->payload_length;
4023 mlength = min(rlength, md->md_length);
4025 if (mlength < rlength &&
4026 (md->md_options & LNET_MD_TRUNCATE) == 0) {
4027 CNETERR("%s: Dropping REPLY from %s length %d "
4028 "for MD %#llx would overflow (%d)\n",
4029 libcfs_nid2str(ni->ni_nid), libcfs_id2str(src),
4030 rlength, hdr->msg.reply.dst_wmd.wh_object_cookie,
4032 lnet_res_unlock(cpt);
4033 return -ENOENT; /* -ve: OK but no match */
4036 CDEBUG(D_NET, "%s: Reply from %s of length %d/%d into md %#llx\n",
4037 libcfs_nid2str(ni->ni_nid), libcfs_id2str(src),
4038 mlength, rlength, hdr->msg.reply.dst_wmd.wh_object_cookie);
4040 lnet_msg_attach_md(msg, md, 0, mlength);
4043 lnet_setpayloadbuffer(msg);
4045 lnet_res_unlock(cpt);
4047 lnet_build_msg_event(msg, LNET_EVENT_REPLY);
4049 lnet_ni_recv(ni, private, msg, 0, 0, mlength, rlength);
4054 lnet_parse_ack(struct lnet_ni *ni, struct lnet_msg *msg)
4056 struct lnet_hdr *hdr = &msg->msg_hdr;
4057 struct lnet_process_id src = {0};
4058 struct lnet_libmd *md;
4061 src.nid = hdr->src_nid;
4062 src.pid = hdr->src_pid;
4064 /* Convert ack fields to host byte order */
4065 hdr->msg.ack.match_bits = le64_to_cpu(hdr->msg.ack.match_bits);
4066 hdr->msg.ack.mlength = le32_to_cpu(hdr->msg.ack.mlength);
4068 cpt = lnet_cpt_of_cookie(hdr->msg.ack.dst_wmd.wh_object_cookie);
4071 /* NB handles only looked up by creator (no flips) */
4072 md = lnet_wire_handle2md(&hdr->msg.ack.dst_wmd);
4073 if (md == NULL || md->md_threshold == 0 || md->md_me != NULL) {
4074 /* Don't moan; this is expected */
4076 "%s: Dropping ACK from %s to %s MD %#llx.%#llx\n",
4077 libcfs_nid2str(ni->ni_nid), libcfs_id2str(src),
4078 (md == NULL) ? "invalid" : "inactive",
4079 hdr->msg.ack.dst_wmd.wh_interface_cookie,
4080 hdr->msg.ack.dst_wmd.wh_object_cookie);
4081 if (md != NULL && md->md_me != NULL)
4082 CERROR("Source MD also attached to portal %d\n",
4083 md->md_me->me_portal);
4085 lnet_res_unlock(cpt);
4086 return -ENOENT; /* -ve! */
4089 CDEBUG(D_NET, "%s: ACK from %s into md %#llx\n",
4090 libcfs_nid2str(ni->ni_nid), libcfs_id2str(src),
4091 hdr->msg.ack.dst_wmd.wh_object_cookie);
4093 lnet_msg_attach_md(msg, md, 0, 0);
4095 lnet_res_unlock(cpt);
4097 lnet_build_msg_event(msg, LNET_EVENT_ACK);
4099 lnet_ni_recv(ni, msg->msg_private, msg, 0, 0, 0, msg->msg_len);
4104 * \retval LNET_CREDIT_OK If \a msg is forwarded
4105 * \retval LNET_CREDIT_WAIT If \a msg is blocked because w/o buffer
4106 * \retval -ve error code
4109 lnet_parse_forward_locked(struct lnet_ni *ni, struct lnet_msg *msg)
4113 if (!the_lnet.ln_routing)
4116 if (msg->msg_rxpeer->lpni_rtrcredits <= 0 ||
4117 lnet_msg2bufpool(msg)->rbp_credits <= 0) {
4118 if (ni->ni_net->net_lnd->lnd_eager_recv == NULL) {
4119 msg->msg_rx_ready_delay = 1;
4121 lnet_net_unlock(msg->msg_rx_cpt);
4122 rc = lnet_ni_eager_recv(ni, msg);
4123 lnet_net_lock(msg->msg_rx_cpt);
4128 rc = lnet_post_routed_recv_locked(msg, 0);
4133 lnet_parse_local(struct lnet_ni *ni, struct lnet_msg *msg)
4137 switch (msg->msg_type) {
4139 rc = lnet_parse_ack(ni, msg);
4142 rc = lnet_parse_put(ni, msg);
4145 rc = lnet_parse_get(ni, msg, msg->msg_rdma_get);
4147 case LNET_MSG_REPLY:
4148 rc = lnet_parse_reply(ni, msg);
4150 default: /* prevent an unused label if !kernel */
4155 LASSERT(rc == 0 || rc == -ENOENT);
4160 lnet_msgtyp2str (int type)
4169 case LNET_MSG_REPLY:
4171 case LNET_MSG_HELLO:
4174 return ("<UNKNOWN>");
4179 lnet_print_hdr(struct lnet_hdr *hdr)
4181 struct lnet_process_id src = {
4182 .nid = hdr->src_nid,
4183 .pid = hdr->src_pid,
4185 struct lnet_process_id dst = {
4186 .nid = hdr->dest_nid,
4187 .pid = hdr->dest_pid,
4189 char *type_str = lnet_msgtyp2str(hdr->type);
4191 CWARN("P3 Header at %p of type %s\n", hdr, type_str);
4192 CWARN(" From %s\n", libcfs_id2str(src));
4193 CWARN(" To %s\n", libcfs_id2str(dst));
4195 switch (hdr->type) {
4200 CWARN(" Ptl index %d, ack md %#llx.%#llx, "
4201 "match bits %llu\n",
4202 hdr->msg.put.ptl_index,
4203 hdr->msg.put.ack_wmd.wh_interface_cookie,
4204 hdr->msg.put.ack_wmd.wh_object_cookie,
4205 hdr->msg.put.match_bits);
4206 CWARN(" Length %d, offset %d, hdr data %#llx\n",
4207 hdr->payload_length, hdr->msg.put.offset,
4208 hdr->msg.put.hdr_data);
4212 CWARN(" Ptl index %d, return md %#llx.%#llx, "
4213 "match bits %llu\n", hdr->msg.get.ptl_index,
4214 hdr->msg.get.return_wmd.wh_interface_cookie,
4215 hdr->msg.get.return_wmd.wh_object_cookie,
4216 hdr->msg.get.match_bits);
4217 CWARN(" Length %d, src offset %d\n",
4218 hdr->msg.get.sink_length,
4219 hdr->msg.get.src_offset);
4223 CWARN(" dst md %#llx.%#llx, "
4224 "manipulated length %d\n",
4225 hdr->msg.ack.dst_wmd.wh_interface_cookie,
4226 hdr->msg.ack.dst_wmd.wh_object_cookie,
4227 hdr->msg.ack.mlength);
4230 case LNET_MSG_REPLY:
4231 CWARN(" dst md %#llx.%#llx, "
4233 hdr->msg.reply.dst_wmd.wh_interface_cookie,
4234 hdr->msg.reply.dst_wmd.wh_object_cookie,
4235 hdr->payload_length);
4241 lnet_parse(struct lnet_ni *ni, struct lnet_hdr *hdr, lnet_nid_t from_nid,
4242 void *private, int rdma_req)
4244 struct lnet_peer_ni *lpni;
4245 struct lnet_msg *msg;
4246 __u32 payload_length;
4247 lnet_pid_t dest_pid;
4248 lnet_nid_t dest_nid;
4256 LASSERT (!in_interrupt ());
4258 type = le32_to_cpu(hdr->type);
4259 src_nid = le64_to_cpu(hdr->src_nid);
4260 dest_nid = le64_to_cpu(hdr->dest_nid);
4261 dest_pid = le32_to_cpu(hdr->dest_pid);
4262 payload_length = le32_to_cpu(hdr->payload_length);
4264 for_me = (ni->ni_nid == dest_nid);
4265 cpt = lnet_cpt_of_nid(from_nid, ni);
4267 CDEBUG(D_NET, "TRACE: %s(%s) <- %s : %s - %s\n",
4268 libcfs_nid2str(dest_nid),
4269 libcfs_nid2str(ni->ni_nid),
4270 libcfs_nid2str(src_nid),
4271 lnet_msgtyp2str(type),
4272 (for_me) ? "for me" : "routed");
4277 if (payload_length > 0) {
4278 CERROR("%s, src %s: bad %s payload %d (0 expected)\n",
4279 libcfs_nid2str(from_nid),
4280 libcfs_nid2str(src_nid),
4281 lnet_msgtyp2str(type), payload_length);
4287 case LNET_MSG_REPLY:
4288 if (payload_length >
4289 (__u32)(for_me ? LNET_MAX_PAYLOAD : LNET_MTU)) {
4290 CERROR("%s, src %s: bad %s payload %d "
4291 "(%d max expected)\n",
4292 libcfs_nid2str(from_nid),
4293 libcfs_nid2str(src_nid),
4294 lnet_msgtyp2str(type),
4296 for_me ? LNET_MAX_PAYLOAD : LNET_MTU);
4302 CERROR("%s, src %s: Bad message type 0x%x\n",
4303 libcfs_nid2str(from_nid),
4304 libcfs_nid2str(src_nid), type);
4308 if (the_lnet.ln_routing &&
4309 ni->ni_net->net_last_alive != ktime_get_real_seconds()) {
4311 spin_lock(&ni->ni_net->net_lock);
4312 ni->ni_net->net_last_alive = ktime_get_real_seconds();
4313 spin_unlock(&ni->ni_net->net_lock);
4314 if (ni->ni_status != NULL &&
4315 ni->ni_status->ns_status == LNET_NI_STATUS_DOWN) {
4316 ni->ni_status->ns_status = LNET_NI_STATUS_UP;
4323 lnet_push_update_to_peers(1);
4325 /* Regard a bad destination NID as a protocol error. Senders should
4326 * know what they're doing; if they don't they're misconfigured, buggy
4327 * or malicious so we chop them off at the knees :) */
4330 if (LNET_NIDNET(dest_nid) == LNET_NIDNET(ni->ni_nid)) {
4331 /* should have gone direct */
4332 CERROR("%s, src %s: Bad dest nid %s "
4333 "(should have been sent direct)\n",
4334 libcfs_nid2str(from_nid),
4335 libcfs_nid2str(src_nid),
4336 libcfs_nid2str(dest_nid));
4340 if (lnet_islocalnid(dest_nid)) {
4341 /* dest is another local NI; sender should have used
4342 * this node's NID on its own network */
4343 CERROR("%s, src %s: Bad dest nid %s "
4344 "(it's my nid but on a different network)\n",
4345 libcfs_nid2str(from_nid),
4346 libcfs_nid2str(src_nid),
4347 libcfs_nid2str(dest_nid));
4351 if (rdma_req && type == LNET_MSG_GET) {
4352 CERROR("%s, src %s: Bad optimized GET for %s "
4353 "(final destination must be me)\n",
4354 libcfs_nid2str(from_nid),
4355 libcfs_nid2str(src_nid),
4356 libcfs_nid2str(dest_nid));
4360 if (!the_lnet.ln_routing) {
4361 CERROR("%s, src %s: Dropping message for %s "
4362 "(routing not enabled)\n",
4363 libcfs_nid2str(from_nid),
4364 libcfs_nid2str(src_nid),
4365 libcfs_nid2str(dest_nid));
4370 /* Message looks OK; we're not going to return an error, so we MUST
4371 * call back lnd_recv() come what may... */
4373 if (!list_empty(&the_lnet.ln_test_peers) && /* normally we don't */
4374 fail_peer(src_nid, 0)) { /* shall we now? */
4375 CERROR("%s, src %s: Dropping %s to simulate failure\n",
4376 libcfs_nid2str(from_nid), libcfs_nid2str(src_nid),
4377 lnet_msgtyp2str(type));
4381 if (!list_empty(&the_lnet.ln_drop_rules) &&
4382 lnet_drop_rule_match(hdr, ni->ni_nid, NULL)) {
4384 "%s, src %s, dst %s: Dropping %s to simulate silent message loss\n",
4385 libcfs_nid2str(from_nid), libcfs_nid2str(src_nid),
4386 libcfs_nid2str(dest_nid), lnet_msgtyp2str(type));
4390 if (lnet_drop_asym_route && for_me &&
4391 LNET_NIDNET(src_nid) != LNET_NIDNET(from_nid)) {
4392 struct lnet_net *net;
4393 struct lnet_remotenet *rnet;
4396 /* we are dealing with a routed message,
4397 * so see if route to reach src_nid goes through from_nid
4400 net = lnet_get_net_locked(LNET_NIDNET(ni->ni_nid));
4402 lnet_net_unlock(cpt);
4403 CERROR("net %s not found\n",
4404 libcfs_net2str(LNET_NIDNET(ni->ni_nid)));
4408 rnet = lnet_find_rnet_locked(LNET_NIDNET(src_nid));
4410 struct lnet_peer *gw = NULL;
4411 struct lnet_peer_ni *lpni = NULL;
4412 struct lnet_route *route;
4414 list_for_each_entry(route, &rnet->lrn_routes, lr_list) {
4416 gw = route->lr_gateway;
4417 if (route->lr_lnet != net->net_id)
4420 * if the nid is one of the gateway's NIDs
4421 * then this is a valid gateway
4423 while ((lpni = lnet_get_next_peer_ni_locked(gw,
4424 NULL, lpni)) != NULL) {
4425 if (lpni->lpni_nid == from_nid) {
4432 lnet_net_unlock(cpt);
4434 /* we would not use from_nid to route a message to
4436 * => asymmetric routing detected but forbidden
4438 CERROR("%s, src %s: Dropping asymmetrical route %s\n",
4439 libcfs_nid2str(from_nid),
4440 libcfs_nid2str(src_nid), lnet_msgtyp2str(type));
4445 msg = lnet_msg_alloc();
4447 CERROR("%s, src %s: Dropping %s (out of memory)\n",
4448 libcfs_nid2str(from_nid), libcfs_nid2str(src_nid),
4449 lnet_msgtyp2str(type));
4453 /* msg zeroed in lnet_msg_alloc; i.e. flags all clear,
4454 * pointers NULL etc */
4456 msg->msg_type = type;
4457 msg->msg_private = private;
4458 msg->msg_receiving = 1;
4459 msg->msg_rdma_get = rdma_req;
4460 msg->msg_len = msg->msg_wanted = payload_length;
4461 msg->msg_offset = 0;
4462 msg->msg_hdr = *hdr;
4463 /* for building message event */
4464 msg->msg_from = from_nid;
4466 msg->msg_target.pid = dest_pid;
4467 msg->msg_target.nid = dest_nid;
4468 msg->msg_routing = 1;
4471 /* convert common msg->hdr fields to host byteorder */
4472 msg->msg_hdr.type = type;
4473 msg->msg_hdr.src_nid = src_nid;
4474 msg->msg_hdr.src_pid = le32_to_cpu(msg->msg_hdr.src_pid);
4475 msg->msg_hdr.dest_nid = dest_nid;
4476 msg->msg_hdr.dest_pid = dest_pid;
4477 msg->msg_hdr.payload_length = payload_length;
4481 lpni = lnet_nid2peerni_locked(from_nid, ni->ni_nid, cpt);
4483 lnet_net_unlock(cpt);
4484 CERROR("%s, src %s: Dropping %s "
4485 "(error %ld looking up sender)\n",
4486 libcfs_nid2str(from_nid), libcfs_nid2str(src_nid),
4487 lnet_msgtyp2str(type), PTR_ERR(lpni));
4489 if (rc == -ESHUTDOWN)
4490 /* We are shutting down. Don't do anything more */
4495 if (the_lnet.ln_routing)
4496 lpni->lpni_last_alive = ktime_get_seconds();
4498 msg->msg_rxpeer = lpni;
4500 lnet_ni_addref_locked(ni, cpt);
4501 /* Multi-Rail: Primary NID of source. */
4502 msg->msg_initiator = lnet_peer_primary_nid_locked(src_nid);
4505 * mark the status of this lpni as UP since we received a message
4506 * from it. The ping response reports back the ns_status which is
4507 * marked on the remote as up or down and we cache it here.
4509 msg->msg_rxpeer->lpni_ns_status = LNET_NI_STATUS_UP;
4511 lnet_msg_commit(msg, cpt);
4513 /* message delay simulation */
4514 if (unlikely(!list_empty(&the_lnet.ln_delay_rules) &&
4515 lnet_delay_rule_match_locked(hdr, msg))) {
4516 lnet_net_unlock(cpt);
4521 rc = lnet_parse_forward_locked(ni, msg);
4522 lnet_net_unlock(cpt);
4527 if (rc == LNET_CREDIT_OK) {
4528 lnet_ni_recv(ni, msg->msg_private, msg, 0,
4529 0, payload_length, payload_length);
4534 lnet_net_unlock(cpt);
4536 rc = lnet_parse_local(ni, msg);
4542 LASSERT(msg->msg_md == NULL);
4543 lnet_finalize(msg, rc);
4546 lnet_drop_message(ni, cpt, private, payload_length, type);
4549 EXPORT_SYMBOL(lnet_parse);
4552 lnet_drop_delayed_msg_list(struct list_head *head, char *reason)
4554 while (!list_empty(head)) {
4555 struct lnet_process_id id = {0};
4556 struct lnet_msg *msg;
4558 msg = list_entry(head->next, struct lnet_msg, msg_list);
4559 list_del(&msg->msg_list);
4561 id.nid = msg->msg_hdr.src_nid;
4562 id.pid = msg->msg_hdr.src_pid;
4564 LASSERT(msg->msg_md == NULL);
4565 LASSERT(msg->msg_rx_delayed);
4566 LASSERT(msg->msg_rxpeer != NULL);
4567 LASSERT(msg->msg_hdr.type == LNET_MSG_PUT);
4569 CWARN("Dropping delayed PUT from %s portal %d match %llu"
4570 " offset %d length %d: %s\n",
4572 msg->msg_hdr.msg.put.ptl_index,
4573 msg->msg_hdr.msg.put.match_bits,
4574 msg->msg_hdr.msg.put.offset,
4575 msg->msg_hdr.payload_length, reason);
4577 /* NB I can't drop msg's ref on msg_rxpeer until after I've
4578 * called lnet_drop_message(), so I just hang onto msg as well
4579 * until that's done */
4581 lnet_drop_message(msg->msg_rxni, msg->msg_rx_cpt,
4582 msg->msg_private, msg->msg_len,
4585 msg->msg_no_resend = true;
4587 * NB: message will not generate event because w/o attached MD,
4588 * but we still should give error code so lnet_msg_decommit()
4589 * can skip counters operations and other checks.
4591 lnet_finalize(msg, -ENOENT);
4596 lnet_recv_delayed_msg_list(struct list_head *head)
4598 while (!list_empty(head)) {
4599 struct lnet_msg *msg;
4600 struct lnet_process_id id;
4602 msg = list_entry(head->next, struct lnet_msg, msg_list);
4603 list_del(&msg->msg_list);
4605 /* md won't disappear under me, since each msg
4606 * holds a ref on it */
4608 id.nid = msg->msg_hdr.src_nid;
4609 id.pid = msg->msg_hdr.src_pid;
4611 LASSERT(msg->msg_rx_delayed);
4612 LASSERT(msg->msg_md != NULL);
4613 LASSERT(msg->msg_rxpeer != NULL);
4614 LASSERT(msg->msg_rxni != NULL);
4615 LASSERT(msg->msg_hdr.type == LNET_MSG_PUT);
4617 CDEBUG(D_NET, "Resuming delayed PUT from %s portal %d "
4618 "match %llu offset %d length %d.\n",
4619 libcfs_id2str(id), msg->msg_hdr.msg.put.ptl_index,
4620 msg->msg_hdr.msg.put.match_bits,
4621 msg->msg_hdr.msg.put.offset,
4622 msg->msg_hdr.payload_length);
4624 lnet_recv_put(msg->msg_rxni, msg);
4629 lnet_attach_rsp_tracker(struct lnet_rsp_tracker *rspt, int cpt,
4630 struct lnet_libmd *md, struct lnet_handle_md mdh)
4633 struct lnet_rsp_tracker *local_rspt;
4636 * MD has a refcount taken by message so it's not going away.
4637 * The MD however can be looked up. We need to secure the access
4638 * to the md_rspt_ptr by taking the res_lock.
4639 * The rspt can be accessed without protection up to when it gets
4640 * added to the list.
4644 local_rspt = md->md_rspt_ptr;
4645 timeout_ns = lnet_transaction_timeout * NSEC_PER_SEC;
4646 if (local_rspt != NULL) {
4648 * we already have an rspt attached to the md, so we'll
4649 * update the deadline on that one.
4651 lnet_rspt_free(rspt, cpt);
4654 rspt->rspt_mdh = mdh;
4655 rspt->rspt_cpt = cpt;
4656 /* store the rspt so we can access it when we get the REPLY */
4657 md->md_rspt_ptr = rspt;
4660 local_rspt->rspt_deadline = ktime_add_ns(ktime_get(), timeout_ns);
4663 * add to the list of tracked responses. It's added to tail of the
4664 * list in order to expire all the older entries first.
4667 list_move_tail(&local_rspt->rspt_on_list, the_lnet.ln_mt_rstq[cpt]);
4668 lnet_net_unlock(cpt);
4669 lnet_res_unlock(cpt);
4673 * Initiate an asynchronous PUT operation.
4675 * There are several events associated with a PUT: completion of the send on
4676 * the initiator node (LNET_EVENT_SEND), and when the send completes
4677 * successfully, the receipt of an acknowledgment (LNET_EVENT_ACK) indicating
4678 * that the operation was accepted by the target. The event LNET_EVENT_PUT is
4679 * used at the target node to indicate the completion of incoming data
4682 * The local events will be logged in the EQ associated with the MD pointed to
4683 * by \a mdh handle. Using a MD without an associated EQ results in these
4684 * events being discarded. In this case, the caller must have another
4685 * mechanism (e.g., a higher level protocol) for determining when it is safe
4686 * to modify the memory region associated with the MD.
4688 * Note that LNet does not guarantee the order of LNET_EVENT_SEND and
4689 * LNET_EVENT_ACK, though intuitively ACK should happen after SEND.
4691 * \param self Indicates the NID of a local interface through which to send
4692 * the PUT request. Use LNET_NID_ANY to let LNet choose one by itself.
4693 * \param mdh A handle for the MD that describes the memory to be sent. The MD
4694 * must be "free floating" (See LNetMDBind()).
4695 * \param ack Controls whether an acknowledgment is requested.
4696 * Acknowledgments are only sent when they are requested by the initiating
4697 * process and the target MD enables them.
4698 * \param target A process identifier for the target process.
4699 * \param portal The index in the \a target's portal table.
4700 * \param match_bits The match bits to use for MD selection at the target
4702 * \param offset The offset into the target MD (only used when the target
4703 * MD has the LNET_MD_MANAGE_REMOTE option set).
4704 * \param hdr_data 64 bits of user data that can be included in the message
4705 * header. This data is written to an event queue entry at the target if an
4706 * EQ is present on the matching MD.
4708 * \retval 0 Success, and only in this case events will be generated
4709 * and logged to EQ (if it exists).
4710 * \retval -EIO Simulated failure.
4711 * \retval -ENOMEM Memory allocation failure.
4712 * \retval -ENOENT Invalid MD object.
4714 * \see struct lnet_event::hdr_data and lnet_event_kind_t.
4717 LNetPut(lnet_nid_t self, struct lnet_handle_md mdh, enum lnet_ack_req ack,
4718 struct lnet_process_id target, unsigned int portal,
4719 __u64 match_bits, unsigned int offset,
4722 struct lnet_msg *msg;
4723 struct lnet_libmd *md;
4726 struct lnet_rsp_tracker *rspt = NULL;
4728 LASSERT(the_lnet.ln_refcount > 0);
4730 if (!list_empty(&the_lnet.ln_test_peers) && /* normally we don't */
4731 fail_peer(target.nid, 1)) { /* shall we now? */
4732 CERROR("Dropping PUT to %s: simulated failure\n",
4733 libcfs_id2str(target));
4737 msg = lnet_msg_alloc();
4739 CERROR("Dropping PUT to %s: ENOMEM on struct lnet_msg\n",
4740 libcfs_id2str(target));
4743 msg->msg_vmflush = !!memory_pressure_get();
4745 cpt = lnet_cpt_of_cookie(mdh.cookie);
4747 if (ack == LNET_ACK_REQ) {
4748 rspt = lnet_rspt_alloc(cpt);
4750 CERROR("Dropping PUT to %s: ENOMEM on response tracker\n",
4751 libcfs_id2str(target));
4754 INIT_LIST_HEAD(&rspt->rspt_on_list);
4759 md = lnet_handle2md(&mdh);
4760 if (md == NULL || md->md_threshold == 0 || md->md_me != NULL) {
4761 CERROR("Dropping PUT (%llu:%d:%s): MD (%d) invalid\n",
4762 match_bits, portal, libcfs_id2str(target),
4763 md == NULL ? -1 : md->md_threshold);
4764 if (md != NULL && md->md_me != NULL)
4765 CERROR("Source MD also attached to portal %d\n",
4766 md->md_me->me_portal);
4767 lnet_res_unlock(cpt);
4769 lnet_rspt_free(rspt, cpt);
4774 CDEBUG(D_NET, "LNetPut -> %s\n", libcfs_id2str(target));
4776 lnet_msg_attach_md(msg, md, 0, 0);
4778 lnet_prep_send(msg, LNET_MSG_PUT, target, 0, md->md_length);
4780 msg->msg_hdr.msg.put.match_bits = cpu_to_le64(match_bits);
4781 msg->msg_hdr.msg.put.ptl_index = cpu_to_le32(portal);
4782 msg->msg_hdr.msg.put.offset = cpu_to_le32(offset);
4783 msg->msg_hdr.msg.put.hdr_data = hdr_data;
4785 /* NB handles only looked up by creator (no flips) */
4786 if (ack == LNET_ACK_REQ) {
4787 msg->msg_hdr.msg.put.ack_wmd.wh_interface_cookie =
4788 the_lnet.ln_interface_cookie;
4789 msg->msg_hdr.msg.put.ack_wmd.wh_object_cookie =
4790 md->md_lh.lh_cookie;
4792 msg->msg_hdr.msg.put.ack_wmd.wh_interface_cookie =
4793 LNET_WIRE_HANDLE_COOKIE_NONE;
4794 msg->msg_hdr.msg.put.ack_wmd.wh_object_cookie =
4795 LNET_WIRE_HANDLE_COOKIE_NONE;
4798 lnet_res_unlock(cpt);
4800 lnet_build_msg_event(msg, LNET_EVENT_SEND);
4802 if (ack == LNET_ACK_REQ)
4803 lnet_attach_rsp_tracker(rspt, cpt, md, mdh);
4805 if (CFS_FAIL_CHECK_ORSET(CFS_FAIL_PTLRPC_OST_BULK_CB2,
4809 rc = lnet_send(self, msg, LNET_NID_ANY);
4812 CNETERR("Error sending PUT to %s: %d\n",
4813 libcfs_id2str(target), rc);
4814 msg->msg_no_resend = true;
4815 lnet_finalize(msg, rc);
4818 /* completion will be signalled by an event */
4821 EXPORT_SYMBOL(LNetPut);
4824 * The LND can DMA direct to the GET md (i.e. no REPLY msg). This
4825 * returns a msg for the LND to pass to lnet_finalize() when the sink
4826 * data has been received.
4828 * CAVEAT EMPTOR: 'getmsg' is the original GET, which is freed when
4829 * lnet_finalize() is called on it, so the LND must call this first
4832 lnet_create_reply_msg(struct lnet_ni *ni, struct lnet_msg *getmsg)
4834 struct lnet_msg *msg = lnet_msg_alloc();
4835 struct lnet_libmd *getmd = getmsg->msg_md;
4836 struct lnet_process_id peer_id = getmsg->msg_target;
4839 LASSERT(!getmsg->msg_target_is_router);
4840 LASSERT(!getmsg->msg_routing);
4843 CERROR("%s: Dropping REPLY from %s: can't allocate msg\n",
4844 libcfs_nid2str(ni->ni_nid), libcfs_id2str(peer_id));
4848 cpt = lnet_cpt_of_cookie(getmd->md_lh.lh_cookie);
4851 LASSERT(getmd->md_refcount > 0);
4853 if (getmd->md_threshold == 0) {
4854 CERROR("%s: Dropping REPLY from %s for inactive MD %p\n",
4855 libcfs_nid2str(ni->ni_nid), libcfs_id2str(peer_id),
4857 lnet_res_unlock(cpt);
4861 LASSERT(getmd->md_offset == 0);
4863 CDEBUG(D_NET, "%s: Reply from %s md %p\n",
4864 libcfs_nid2str(ni->ni_nid), libcfs_id2str(peer_id), getmd);
4866 /* setup information for lnet_build_msg_event */
4867 msg->msg_initiator = getmsg->msg_txpeer->lpni_peer_net->lpn_peer->lp_primary_nid;
4868 msg->msg_from = peer_id.nid;
4869 msg->msg_type = LNET_MSG_GET; /* flag this msg as an "optimized" GET */
4870 msg->msg_hdr.src_nid = peer_id.nid;
4871 msg->msg_hdr.payload_length = getmd->md_length;
4872 msg->msg_receiving = 1; /* required by lnet_msg_attach_md */
4874 lnet_msg_attach_md(msg, getmd, getmd->md_offset, getmd->md_length);
4875 lnet_res_unlock(cpt);
4877 cpt = lnet_cpt_of_nid(peer_id.nid, ni);
4880 lnet_msg_commit(msg, cpt);
4881 lnet_net_unlock(cpt);
4883 lnet_build_msg_event(msg, LNET_EVENT_REPLY);
4888 cpt = lnet_cpt_of_nid(peer_id.nid, ni);
4891 lnet_incr_stats(&ni->ni_stats, LNET_MSG_GET, LNET_STATS_TYPE_DROP);
4892 the_lnet.ln_counters[cpt]->lct_common.lcc_drop_count++;
4893 the_lnet.ln_counters[cpt]->lct_common.lcc_drop_length +=
4895 lnet_net_unlock(cpt);
4902 EXPORT_SYMBOL(lnet_create_reply_msg);
4905 lnet_set_reply_msg_len(struct lnet_ni *ni, struct lnet_msg *reply,
4908 /* Set the REPLY length, now the RDMA that elides the REPLY message has
4909 * completed and I know it. */
4910 LASSERT(reply != NULL);
4911 LASSERT(reply->msg_type == LNET_MSG_GET);
4912 LASSERT(reply->msg_ev.type == LNET_EVENT_REPLY);
4914 /* NB I trusted my peer to RDMA. If she tells me she's written beyond
4915 * the end of my buffer, I might as well be dead. */
4916 LASSERT(len <= reply->msg_ev.mlength);
4918 reply->msg_ev.mlength = len;
4920 EXPORT_SYMBOL(lnet_set_reply_msg_len);
4923 * Initiate an asynchronous GET operation.
4925 * On the initiator node, an LNET_EVENT_SEND is logged when the GET request
4926 * is sent, and an LNET_EVENT_REPLY is logged when the data returned from
4927 * the target node in the REPLY has been written to local MD.
4929 * On the target node, an LNET_EVENT_GET is logged when the GET request
4930 * arrives and is accepted into a MD.
4932 * \param self,target,portal,match_bits,offset See the discussion in LNetPut().
4933 * \param mdh A handle for the MD that describes the memory into which the
4934 * requested data will be received. The MD must be "free floating" (See LNetMDBind()).
4936 * \retval 0 Success, and only in this case events will be generated
4937 * and logged to EQ (if it exists) of the MD.
4938 * \retval -EIO Simulated failure.
4939 * \retval -ENOMEM Memory allocation failure.
4940 * \retval -ENOENT Invalid MD object.
4943 LNetGet(lnet_nid_t self, struct lnet_handle_md mdh,
4944 struct lnet_process_id target, unsigned int portal,
4945 __u64 match_bits, unsigned int offset, bool recovery)
4947 struct lnet_msg *msg;
4948 struct lnet_libmd *md;
4949 struct lnet_rsp_tracker *rspt;
4953 LASSERT(the_lnet.ln_refcount > 0);
4955 if (!list_empty(&the_lnet.ln_test_peers) && /* normally we don't */
4956 fail_peer(target.nid, 1)) /* shall we now? */
4958 CERROR("Dropping GET to %s: simulated failure\n",
4959 libcfs_id2str(target));
4963 msg = lnet_msg_alloc();
4965 CERROR("Dropping GET to %s: ENOMEM on struct lnet_msg\n",
4966 libcfs_id2str(target));
4970 cpt = lnet_cpt_of_cookie(mdh.cookie);
4972 rspt = lnet_rspt_alloc(cpt);
4974 CERROR("Dropping GET to %s: ENOMEM on response tracker\n",
4975 libcfs_id2str(target));
4978 INIT_LIST_HEAD(&rspt->rspt_on_list);
4980 msg->msg_recovery = recovery;
4984 md = lnet_handle2md(&mdh);
4985 if (md == NULL || md->md_threshold == 0 || md->md_me != NULL) {
4986 CERROR("Dropping GET (%llu:%d:%s): MD (%d) invalid\n",
4987 match_bits, portal, libcfs_id2str(target),
4988 md == NULL ? -1 : md->md_threshold);
4989 if (md != NULL && md->md_me != NULL)
4990 CERROR("REPLY MD also attached to portal %d\n",
4991 md->md_me->me_portal);
4993 lnet_res_unlock(cpt);
4996 lnet_rspt_free(rspt, cpt);
5000 CDEBUG(D_NET, "LNetGet -> %s\n", libcfs_id2str(target));
5002 lnet_msg_attach_md(msg, md, 0, 0);
5004 lnet_prep_send(msg, LNET_MSG_GET, target, 0, 0);
5006 msg->msg_hdr.msg.get.match_bits = cpu_to_le64(match_bits);
5007 msg->msg_hdr.msg.get.ptl_index = cpu_to_le32(portal);
5008 msg->msg_hdr.msg.get.src_offset = cpu_to_le32(offset);
5009 msg->msg_hdr.msg.get.sink_length = cpu_to_le32(md->md_length);
5011 /* NB handles only looked up by creator (no flips) */
5012 msg->msg_hdr.msg.get.return_wmd.wh_interface_cookie =
5013 the_lnet.ln_interface_cookie;
5014 msg->msg_hdr.msg.get.return_wmd.wh_object_cookie =
5015 md->md_lh.lh_cookie;
5017 lnet_res_unlock(cpt);
5019 lnet_build_msg_event(msg, LNET_EVENT_SEND);
5021 lnet_attach_rsp_tracker(rspt, cpt, md, mdh);
5023 rc = lnet_send(self, msg, LNET_NID_ANY);
5025 CNETERR("Error sending GET to %s: %d\n",
5026 libcfs_id2str(target), rc);
5027 msg->msg_no_resend = true;
5028 lnet_finalize(msg, rc);
5031 /* completion will be signalled by an event */
5034 EXPORT_SYMBOL(LNetGet);
5037 * Calculate distance to node at \a dstnid.
5039 * \param dstnid Target NID.
5040 * \param srcnidp If not NULL, NID of the local interface to reach \a dstnid
5042 * \param orderp If not NULL, order of the route to reach \a dstnid is saved
5045 * \retval 0 If \a dstnid belongs to a local interface, and reserved option
5046 * local_nid_dist_zero is set, which is the default.
5047 * \retval positives Distance to target NID, i.e. number of hops plus one.
5048 * \retval -EHOSTUNREACH If \a dstnid is not reachable.
5051 LNetDist(lnet_nid_t dstnid, lnet_nid_t *srcnidp, __u32 *orderp)
5053 struct list_head *e;
5054 struct lnet_ni *ni = NULL;
5055 struct lnet_remotenet *rnet;
5056 __u32 dstnet = LNET_NIDNET(dstnid);
5060 struct list_head *rn_list;
5062 /* if !local_nid_dist_zero, I don't return a distance of 0 ever
5063 * (when lustre sees a distance of 0, it substitutes 0@lo), so I
5064 * keep order 0 free for 0@lo and order 1 free for a local NID
5067 LASSERT(the_lnet.ln_refcount > 0);
5069 cpt = lnet_net_lock_current();
5071 while ((ni = lnet_get_next_ni_locked(NULL, ni))) {
5072 if (ni->ni_nid == dstnid) {
5073 if (srcnidp != NULL)
5075 if (orderp != NULL) {
5076 if (LNET_NETTYP(LNET_NIDNET(dstnid)) == LOLND)
5081 lnet_net_unlock(cpt);
5083 return local_nid_dist_zero ? 0 : 1;
5086 if (LNET_NIDNET(ni->ni_nid) == dstnet) {
5087 /* Check if ni was originally created in
5088 * current net namespace.
5089 * If not, assign order above 0xffff0000,
5090 * to make this ni not a priority. */
5091 if (current->nsproxy &&
5092 !net_eq(ni->ni_net_ns, current->nsproxy->net_ns))
5093 order += 0xffff0000;
5094 if (srcnidp != NULL)
5095 *srcnidp = ni->ni_nid;
5098 lnet_net_unlock(cpt);
5105 rn_list = lnet_net2rnethash(dstnet);
5106 list_for_each(e, rn_list) {
5107 rnet = list_entry(e, struct lnet_remotenet, lrn_list);
5109 if (rnet->lrn_net == dstnet) {
5110 struct lnet_route *route;
5111 struct lnet_route *shortest = NULL;
5112 __u32 shortest_hops = LNET_UNDEFINED_HOPS;
5115 LASSERT(!list_empty(&rnet->lrn_routes));
5117 list_for_each_entry(route, &rnet->lrn_routes,
5119 route_hops = route->lr_hops;
5120 if (route_hops == LNET_UNDEFINED_HOPS)
5122 if (shortest == NULL ||
5123 route_hops < shortest_hops) {
5125 shortest_hops = route_hops;
5129 LASSERT(shortest != NULL);
5130 hops = shortest_hops;
5131 if (srcnidp != NULL) {
5132 struct lnet_net *net;
5133 net = lnet_get_net_locked(shortest->lr_lnet);
5135 ni = lnet_get_next_ni_locked(net, NULL);
5136 *srcnidp = ni->ni_nid;
5140 lnet_net_unlock(cpt);
5146 lnet_net_unlock(cpt);
5147 return -EHOSTUNREACH;
5149 EXPORT_SYMBOL(LNetDist);
git://git.whamcloud.com / fs / lustre-release.git / blob