Author | Tokens | Token Proportion | Commits | Commit Proportion |
---|---|---|---|---|
David Howells | 3292 | 99.64% | 49 | 90.74% |
Wang Lei | 3 | 0.09% | 1 | 1.85% |
Ingo Molnar | 3 | 0.09% | 1 | 1.85% |
Andrew Morton | 2 | 0.06% | 1 | 1.85% |
Gustavo A. R. Silva | 2 | 0.06% | 1 | 1.85% |
Thomas Gleixner | 2 | 0.06% | 1 | 1.85% |
Total | 3304 | 54 |
// SPDX-License-Identifier: GPL-2.0-or-later /* Handle fileserver selection and rotation. * * Copyright (C) 2017 Red Hat, Inc. All Rights Reserved. * Written by David Howells (dhowells@redhat.com) */ #include <linux/kernel.h> #include <linux/slab.h> #include <linux/fs.h> #include <linux/sched.h> #include <linux/delay.h> #include <linux/sched/signal.h> #include "internal.h" #include "afs_fs.h" #include "protocol_uae.h" void afs_clear_server_states(struct afs_operation *op) { unsigned int i; if (op->server_states) { for (i = 0; i < op->server_list->nr_servers; i++) afs_put_endpoint_state(op->server_states[i].endpoint_state, afs_estate_trace_put_server_state); kfree(op->server_states); } } /* * Begin iteration through a server list, starting with the vnode's last used * server if possible, or the last recorded good server if not. */ static bool afs_start_fs_iteration(struct afs_operation *op, struct afs_vnode *vnode) { struct afs_server *server; void *cb_server; int i; trace_afs_rotate(op, afs_rotate_trace_start, 0); read_lock(&op->volume->servers_lock); op->server_list = afs_get_serverlist( rcu_dereference_protected(op->volume->servers, lockdep_is_held(&op->volume->servers_lock))); read_unlock(&op->volume->servers_lock); op->server_states = kcalloc(op->server_list->nr_servers, sizeof(op->server_states[0]), GFP_KERNEL); if (!op->server_states) { afs_op_nomem(op); trace_afs_rotate(op, afs_rotate_trace_nomem, 0); return false; } rcu_read_lock(); for (i = 0; i < op->server_list->nr_servers; i++) { struct afs_endpoint_state *estate; struct afs_server_state *s = &op->server_states[i]; server = op->server_list->servers[i].server; estate = rcu_dereference(server->endpoint_state); s->endpoint_state = afs_get_endpoint_state(estate, afs_estate_trace_get_server_state); s->probe_seq = estate->probe_seq; s->untried_addrs = (1UL << estate->addresses->nr_addrs) - 1; init_waitqueue_entry(&s->probe_waiter, current); afs_get_address_preferences(op->net, estate->addresses); } rcu_read_unlock(); op->untried_servers = (1UL << op->server_list->nr_servers) - 1; op->server_index = -1; cb_server = vnode->cb_server; if (cb_server) { /* See if the vnode's preferred record is still available */ for (i = 0; i < op->server_list->nr_servers; i++) { server = op->server_list->servers[i].server; if (server == cb_server) { op->server_index = i; goto found_interest; } } /* If we have a lock outstanding on a server that's no longer * serving this vnode, then we can't switch to another server * and have to return an error. */ if (op->flags & AFS_OPERATION_CUR_ONLY) { afs_op_set_error(op, -ESTALE); trace_afs_rotate(op, afs_rotate_trace_stale_lock, 0); return false; } /* Note that the callback promise is effectively broken */ write_seqlock(&vnode->cb_lock); ASSERTCMP(cb_server, ==, vnode->cb_server); vnode->cb_server = NULL; if (atomic64_xchg(&vnode->cb_expires_at, AFS_NO_CB_PROMISE) != AFS_NO_CB_PROMISE) vnode->cb_break++; write_sequnlock(&vnode->cb_lock); } found_interest: return true; } /* * Post volume busy note. */ static void afs_busy(struct afs_operation *op, u32 abort_code) { const char *m; switch (abort_code) { case VOFFLINE: m = "offline"; break; case VRESTARTING: m = "restarting"; break; case VSALVAGING: m = "being salvaged"; break; default: m = "busy"; break; } pr_notice("kAFS: Volume %llu '%s' on server %pU is %s\n", op->volume->vid, op->volume->name, &op->server->uuid, m); } /* * Sleep and retry the operation to the same fileserver. */ static bool afs_sleep_and_retry(struct afs_operation *op) { trace_afs_rotate(op, afs_rotate_trace_busy_sleep, 0); if (!(op->flags & AFS_OPERATION_UNINTR)) { msleep_interruptible(1000); if (signal_pending(current)) { afs_op_set_error(op, -ERESTARTSYS); return false; } } else { msleep(1000); } return true; } /* * Select the fileserver to use. May be called multiple times to rotate * through the fileservers. */ bool afs_select_fileserver(struct afs_operation *op) { struct afs_addr_list *alist; struct afs_server *server; struct afs_vnode *vnode = op->file[0].vnode; unsigned long set, failed; s32 abort_code = op->call_abort_code; int best_prio = 0; int error = op->call_error, addr_index, i, j; op->nr_iterations++; _enter("OP=%x+%x,%llx,%u{%lx},%u{%lx},%d,%d", op->debug_id, op->nr_iterations, op->volume->vid, op->server_index, op->untried_servers, op->addr_index, op->addr_tried, error, abort_code); if (op->flags & AFS_OPERATION_STOP) { trace_afs_rotate(op, afs_rotate_trace_stopped, 0); _leave(" = f [stopped]"); return false; } if (op->nr_iterations == 0) goto start; WRITE_ONCE(op->estate->addresses->addrs[op->addr_index].last_error, error); trace_afs_rotate(op, afs_rotate_trace_iter, op->call_error); /* Evaluate the result of the previous operation, if there was one. */ switch (op->call_error) { case 0: clear_bit(AFS_SE_VOLUME_OFFLINE, &op->server_list->servers[op->server_index].flags); clear_bit(AFS_SE_VOLUME_BUSY, &op->server_list->servers[op->server_index].flags); op->cumul_error.responded = true; /* We succeeded, but we may need to redo the op from another * server if we're looking at a set of RO volumes where some of * the servers have not yet been brought up to date lest we * regress the data. We only switch to the new version once * >=50% of the servers are updated. */ error = afs_update_volume_state(op); if (error != 0) { if (error == 1) { afs_sleep_and_retry(op); goto restart_from_beginning; } afs_op_set_error(op, error); goto failed; } fallthrough; default: /* Success or local failure. Stop. */ afs_op_set_error(op, error); op->flags |= AFS_OPERATION_STOP; trace_afs_rotate(op, afs_rotate_trace_stop, error); _leave(" = f [okay/local %d]", error); return false; case -ECONNABORTED: /* The far side rejected the operation on some grounds. This * might involve the server being busy or the volume having been moved. * * Note that various V* errors should not be sent to a cache manager * by a fileserver as they should be translated to more modern UAE* * errors instead. IBM AFS and OpenAFS fileservers, however, do leak * these abort codes. */ trace_afs_rotate(op, afs_rotate_trace_aborted, abort_code); op->cumul_error.responded = true; switch (abort_code) { case VNOVOL: /* This fileserver doesn't know about the volume. * - May indicate that the VL is wrong - retry once and compare * the results. * - May indicate that the fileserver couldn't attach to the vol. * - The volume might have been temporarily removed so that it can * be replaced by a volume restore. "vos" might have ended one * transaction and has yet to create the next. * - The volume might not be blessed or might not be in-service * (administrative action). */ if (op->flags & AFS_OPERATION_VNOVOL) { afs_op_accumulate_error(op, -EREMOTEIO, abort_code); goto next_server; } write_lock(&op->volume->servers_lock); op->server_list->vnovol_mask |= 1 << op->server_index; write_unlock(&op->volume->servers_lock); set_bit(AFS_VOLUME_NEEDS_UPDATE, &op->volume->flags); error = afs_check_volume_status(op->volume, op); if (error < 0) { afs_op_set_error(op, error); goto failed; } if (test_bit(AFS_VOLUME_DELETED, &op->volume->flags)) { afs_op_set_error(op, -ENOMEDIUM); goto failed; } /* If the server list didn't change, then assume that * it's the fileserver having trouble. */ if (rcu_access_pointer(op->volume->servers) == op->server_list) { afs_op_accumulate_error(op, -EREMOTEIO, abort_code); goto next_server; } /* Try again */ op->flags |= AFS_OPERATION_VNOVOL; _leave(" = t [vnovol]"); return true; case VVOLEXISTS: case VONLINE: /* These should not be returned from the fileserver. */ pr_warn("Fileserver returned unexpected abort %d\n", abort_code); afs_op_accumulate_error(op, -EREMOTEIO, abort_code); goto next_server; case VNOSERVICE: /* Prior to AFS 3.2 VNOSERVICE was returned from the fileserver * if the volume was neither in-service nor administratively * blessed. All usage was replaced by VNOVOL because AFS 3.1 and * earlier cache managers did not handle VNOSERVICE and assumed * it was the client OSes errno 105. * * Starting with OpenAFS 1.4.8 VNOSERVICE was repurposed as the * fileserver idle dead time error which was sent in place of * RX_CALL_TIMEOUT (-3). The error was intended to be sent if the * fileserver took too long to send a reply to the client. * RX_CALL_TIMEOUT would have caused the cache manager to mark the * server down whereas VNOSERVICE since AFS 3.2 would cause cache * manager to temporarily (up to 15 minutes) mark the volume * instance as unusable. * * The idle dead logic resulted in cache inconsistency since a * state changing call that the cache manager assumed was dead * could still be processed to completion by the fileserver. This * logic was removed in OpenAFS 1.8.0 and VNOSERVICE is no longer * returned. However, many 1.4.8 through 1.6.24 fileservers are * still in existence. * * AuriStorFS fileservers have never returned VNOSERVICE. * * VNOSERVICE should be treated as an alias for RX_CALL_TIMEOUT. */ case RX_CALL_TIMEOUT: afs_op_accumulate_error(op, -ETIMEDOUT, abort_code); goto next_server; case VSALVAGING: /* This error should not be leaked to cache managers * but is from OpenAFS demand attach fileservers. * It should be treated as an alias for VOFFLINE. */ case VSALVAGE: /* VSALVAGE should be treated as a synonym of VOFFLINE */ case VOFFLINE: /* The volume is in use by the volserver or another volume utility * for an operation that might alter the contents. The volume is * expected to come back but it might take a long time (could be * days). */ if (!test_and_set_bit(AFS_SE_VOLUME_OFFLINE, &op->server_list->servers[op->server_index].flags)) { afs_busy(op, abort_code); clear_bit(AFS_SE_VOLUME_BUSY, &op->server_list->servers[op->server_index].flags); } if (op->flags & AFS_OPERATION_NO_VSLEEP) { afs_op_set_error(op, -EADV); goto failed; } goto busy; case VRESTARTING: /* The fileserver is either shutting down or starting up. */ case VBUSY: /* The volume is in use by the volserver or another volume * utility for an operation that is not expected to alter the * contents of the volume. VBUSY does not need to be returned * for a ROVOL or BACKVOL bound to an ITBusy volserver * transaction. The fileserver is permitted to continue serving * content from ROVOLs and BACKVOLs during an ITBusy transaction * because the content will not change. However, many fileserver * releases do return VBUSY for ROVOL and BACKVOL instances under * many circumstances. * * Retry after going round all the servers unless we have a file * lock we need to maintain. */ if (op->flags & AFS_OPERATION_NO_VSLEEP) { afs_op_set_error(op, -EBUSY); goto failed; } if (!test_and_set_bit(AFS_SE_VOLUME_BUSY, &op->server_list->servers[op->server_index].flags)) { afs_busy(op, abort_code); clear_bit(AFS_SE_VOLUME_OFFLINE, &op->server_list->servers[op->server_index].flags); } busy: if (op->flags & AFS_OPERATION_CUR_ONLY) { if (!afs_sleep_and_retry(op)) goto failed; /* Retry with same server & address */ _leave(" = t [vbusy]"); return true; } op->flags |= AFS_OPERATION_VBUSY; goto next_server; case VMOVED: /* The volume migrated to another server. We consider * consider all locks and callbacks broken and request * an update from the VLDB. * * We also limit the number of VMOVED hops we will * honour, just in case someone sets up a loop. */ if (op->flags & AFS_OPERATION_VMOVED) { afs_op_set_error(op, -EREMOTEIO); goto failed; } op->flags |= AFS_OPERATION_VMOVED; set_bit(AFS_VOLUME_WAIT, &op->volume->flags); set_bit(AFS_VOLUME_NEEDS_UPDATE, &op->volume->flags); error = afs_check_volume_status(op->volume, op); if (error < 0) { afs_op_set_error(op, error); goto failed; } /* If the server list didn't change, then the VLDB is * out of sync with the fileservers. This is hopefully * a temporary condition, however, so we don't want to * permanently block access to the file. * * TODO: Try other fileservers if we can. * * TODO: Retry a few times with sleeps. */ if (rcu_access_pointer(op->volume->servers) == op->server_list) { afs_op_accumulate_error(op, -ENOMEDIUM, abort_code); goto failed; } goto restart_from_beginning; case UAEIO: case VIO: afs_op_accumulate_error(op, -EREMOTEIO, abort_code); if (op->volume->type != AFSVL_RWVOL) goto next_server; goto failed; case VDISKFULL: case UAENOSPC: /* The partition is full. Only applies to RWVOLs. * Translate locally and return ENOSPC. * No replicas to failover to. */ afs_op_set_error(op, -ENOSPC); goto failed_but_online; case VOVERQUOTA: case UAEDQUOT: /* Volume is full. Only applies to RWVOLs. * Translate locally and return EDQUOT. * No replicas to failover to. */ afs_op_set_error(op, -EDQUOT); goto failed_but_online; default: afs_op_accumulate_error(op, error, abort_code); failed_but_online: clear_bit(AFS_SE_VOLUME_OFFLINE, &op->server_list->servers[op->server_index].flags); clear_bit(AFS_SE_VOLUME_BUSY, &op->server_list->servers[op->server_index].flags); goto failed; } case -ETIMEDOUT: case -ETIME: if (afs_op_error(op) != -EDESTADDRREQ) goto iterate_address; fallthrough; case -ERFKILL: case -EADDRNOTAVAIL: case -ENETUNREACH: case -EHOSTUNREACH: case -EHOSTDOWN: case -ECONNREFUSED: _debug("no conn"); afs_op_accumulate_error(op, error, 0); goto iterate_address; case -ENETRESET: pr_warn("kAFS: Peer reset %s (op=%x)\n", op->type ? op->type->name : "???", op->debug_id); fallthrough; case -ECONNRESET: _debug("call reset"); afs_op_set_error(op, error); goto failed; } restart_from_beginning: trace_afs_rotate(op, afs_rotate_trace_restart, 0); _debug("restart"); op->estate = NULL; op->server = NULL; afs_clear_server_states(op); op->server_states = NULL; afs_put_serverlist(op->net, op->server_list); op->server_list = NULL; start: _debug("start"); ASSERTCMP(op->estate, ==, NULL); /* See if we need to do an update of the volume record. Note that the * volume may have moved or even have been deleted. */ error = afs_check_volume_status(op->volume, op); trace_afs_rotate(op, afs_rotate_trace_check_vol_status, error); if (error < 0) { afs_op_set_error(op, error); goto failed; } if (!afs_start_fs_iteration(op, vnode)) goto failed; _debug("__ VOL %llx __", op->volume->vid); pick_server: _debug("pick [%lx]", op->untried_servers); ASSERTCMP(op->estate, ==, NULL); error = afs_wait_for_fs_probes(op, op->server_states, !(op->flags & AFS_OPERATION_UNINTR)); switch (error) { case 0: /* No untried responsive servers and no outstanding probes */ trace_afs_rotate(op, afs_rotate_trace_probe_none, 0); goto no_more_servers; case 1: /* Got a response */ trace_afs_rotate(op, afs_rotate_trace_probe_response, 0); break; case 2: /* Probe data superseded */ trace_afs_rotate(op, afs_rotate_trace_probe_superseded, 0); goto restart_from_beginning; default: trace_afs_rotate(op, afs_rotate_trace_probe_error, error); afs_op_set_error(op, error); goto failed; } /* Pick the untried server with the highest priority untried endpoint. * If we have outstanding callbacks, we stick with the server we're * already using if we can. */ if (op->server) { _debug("server %u", op->server_index); if (test_bit(op->server_index, &op->untried_servers)) goto selected_server; op->server = NULL; _debug("no server"); } rcu_read_lock(); op->server_index = -1; best_prio = -1; for (i = 0; i < op->server_list->nr_servers; i++) { struct afs_endpoint_state *es; struct afs_server_entry *se = &op->server_list->servers[i]; struct afs_addr_list *sal; struct afs_server *s = se->server; if (!test_bit(i, &op->untried_servers) || test_bit(AFS_SE_EXCLUDED, &se->flags) || !test_bit(AFS_SERVER_FL_RESPONDING, &s->flags)) continue; es = op->server_states[i].endpoint_state; sal = es->addresses; afs_get_address_preferences_rcu(op->net, sal); for (j = 0; j < sal->nr_addrs; j++) { if (es->failed_set & (1 << j)) continue; if (!sal->addrs[j].peer) continue; if (sal->addrs[j].prio > best_prio) { op->server_index = i; best_prio = sal->addrs[j].prio; } } } rcu_read_unlock(); if (op->server_index == -1) goto no_more_servers; selected_server: trace_afs_rotate(op, afs_rotate_trace_selected_server, best_prio); _debug("use %d prio %u", op->server_index, best_prio); __clear_bit(op->server_index, &op->untried_servers); /* We're starting on a different fileserver from the list. We need to * check it, create a callback intercept, find its address list and * probe its capabilities before we use it. */ ASSERTCMP(op->estate, ==, NULL); server = op->server_list->servers[op->server_index].server; if (!afs_check_server_record(op, server, op->key)) goto failed; _debug("USING SERVER: %pU", &server->uuid); op->flags |= AFS_OPERATION_RETRY_SERVER; op->server = server; if (vnode->cb_server != server) { vnode->cb_server = server; vnode->cb_v_check = atomic_read(&vnode->volume->cb_v_break); atomic64_set(&vnode->cb_expires_at, AFS_NO_CB_PROMISE); } retry_server: op->addr_tried = 0; op->addr_index = -1; iterate_address: /* Iterate over the current server's address list to try and find an * address on which it will respond to us. */ op->estate = op->server_states[op->server_index].endpoint_state; set = READ_ONCE(op->estate->responsive_set); failed = READ_ONCE(op->estate->failed_set); _debug("iterate ES=%x rs=%lx fs=%lx", op->estate->probe_seq, set, failed); set &= ~(failed | op->addr_tried); trace_afs_rotate(op, afs_rotate_trace_iterate_addr, set); if (!set) goto wait_for_more_probe_results; alist = op->estate->addresses; best_prio = -1; addr_index = 0; for (i = 0; i < alist->nr_addrs; i++) { if (!(set & (1 << i))) continue; if (alist->addrs[i].prio > best_prio) { addr_index = i; best_prio = alist->addrs[i].prio; } } alist->preferred = addr_index; op->addr_index = addr_index; set_bit(addr_index, &op->addr_tried); op->volsync.creation = TIME64_MIN; op->volsync.update = TIME64_MIN; op->call_responded = false; _debug("address [%u] %u/%u %pISp", op->server_index, addr_index, alist->nr_addrs, rxrpc_kernel_remote_addr(alist->addrs[op->addr_index].peer)); _leave(" = t"); return true; wait_for_more_probe_results: error = afs_wait_for_one_fs_probe(op->server, op->estate, op->addr_tried, !(op->flags & AFS_OPERATION_UNINTR)); if (!error) goto iterate_address; /* We've now had a failure to respond on all of a server's addresses - * immediately probe them again and consider retrying the server. */ trace_afs_rotate(op, afs_rotate_trace_probe_fileserver, 0); afs_probe_fileserver(op->net, op->server); if (op->flags & AFS_OPERATION_RETRY_SERVER) { error = afs_wait_for_one_fs_probe(op->server, op->estate, op->addr_tried, !(op->flags & AFS_OPERATION_UNINTR)); switch (error) { case 0: op->flags &= ~AFS_OPERATION_RETRY_SERVER; trace_afs_rotate(op, afs_rotate_trace_retry_server, 0); goto retry_server; case -ERESTARTSYS: afs_op_set_error(op, error); goto failed; case -ETIME: case -EDESTADDRREQ: goto next_server; } } next_server: trace_afs_rotate(op, afs_rotate_trace_next_server, 0); _debug("next"); op->estate = NULL; goto pick_server; no_more_servers: /* That's all the servers poked to no good effect. Try again if some * of them were busy. */ trace_afs_rotate(op, afs_rotate_trace_no_more_servers, 0); if (op->flags & AFS_OPERATION_VBUSY) { afs_sleep_and_retry(op); op->flags &= ~AFS_OPERATION_VBUSY; goto restart_from_beginning; } rcu_read_lock(); for (i = 0; i < op->server_list->nr_servers; i++) { struct afs_endpoint_state *estate; estate = op->server_states[i].endpoint_state; error = READ_ONCE(estate->error); if (error < 0) afs_op_accumulate_error(op, error, estate->abort_code); } rcu_read_unlock(); failed: trace_afs_rotate(op, afs_rotate_trace_failed, 0); op->flags |= AFS_OPERATION_STOP; op->estate = NULL; _leave(" = f [failed %d]", afs_op_error(op)); return false; } /* * Dump cursor state in the case of the error being EDESTADDRREQ. */ void afs_dump_edestaddrreq(const struct afs_operation *op) { static int count; int i; if (!IS_ENABLED(CONFIG_AFS_DEBUG_CURSOR) || count > 3) return; count++; rcu_read_lock(); pr_notice("EDESTADDR occurred\n"); pr_notice("OP: cbb=%x cbb2=%x fl=%x err=%hd\n", op->file[0].cb_break_before, op->file[1].cb_break_before, op->flags, op->cumul_error.error); pr_notice("OP: ut=%lx ix=%d ni=%u\n", op->untried_servers, op->server_index, op->nr_iterations); pr_notice("OP: call er=%d ac=%d r=%u\n", op->call_error, op->call_abort_code, op->call_responded); if (op->server_list) { const struct afs_server_list *sl = op->server_list; pr_notice("FC: SL nr=%u vnov=%hx\n", sl->nr_servers, sl->vnovol_mask); for (i = 0; i < sl->nr_servers; i++) { const struct afs_server *s = sl->servers[i].server; const struct afs_endpoint_state *e = rcu_dereference(s->endpoint_state); const struct afs_addr_list *a = e->addresses; pr_notice("FC: server fl=%lx av=%u %pU\n", s->flags, s->addr_version, &s->uuid); pr_notice("FC: - pq=%x R=%lx F=%lx\n", e->probe_seq, e->responsive_set, e->failed_set); if (a) { pr_notice("FC: - av=%u nr=%u/%u/%u pr=%u\n", a->version, a->nr_ipv4, a->nr_addrs, a->max_addrs, a->preferred); if (a == e->addresses) pr_notice("FC: - current\n"); } } } pr_notice("AC: t=%lx ax=%d\n", op->addr_tried, op->addr_index); rcu_read_unlock(); }
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