/* -*- mode: c; c-basic-offset: 8; indent-tabs-mode: nil; -*- * vim:expandtab:shiftwidth=8:tabstop=8: * * Copyright (c) 2003 Cluster File Systems, Inc. * * This file is part of Lustre, http://www.lustre.org. * * Lustre is free software; you can redistribute it and/or * modify it under the terms of version 2 of the GNU General Public * License as published by the Free Software Foundation. * * Lustre is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with Lustre; if not, write to the Free Software * Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA. */ #ifndef EXPORT_SYMTAB # define EXPORT_SYMTAB #endif #define DEBUG_SUBSYSTEM S_LDLM #ifdef __KERNEL__ # include #else # include #endif #include #include /* for LUSTRE_OSC_NAME */ #include /* for LUSTRE_MDC_NAME */ #include #include #include #include /* @priority: if non-zero, move the selected to the list head * @nocreate: if non-zero, only search in existed connections */ static int import_set_conn(struct obd_import *imp, struct obd_uuid *uuid, int priority, int nocreate) { struct ptlrpc_connection *ptlrpc_conn; struct obd_import_conn *imp_conn = NULL, *item; int rc = 0; ENTRY; LASSERT(!(nocreate && !priority)); ptlrpc_conn = ptlrpc_uuid_to_connection(uuid); if (!ptlrpc_conn) { CERROR("can't find connection %s\n", uuid->uuid); RETURN (-EINVAL); } if (!nocreate) { OBD_ALLOC(imp_conn, sizeof(*imp_conn)); if (!imp_conn) { CERROR("fail to alloc memory\n"); GOTO(out_put, rc = -ENOMEM); } } spin_lock(&imp->imp_lock); list_for_each_entry(item, &imp->imp_conn_list, oic_item) { if (obd_uuid_equals(uuid, &item->oic_uuid)) { if (priority) { list_del(&item->oic_item); list_add(&item->oic_item, &imp->imp_conn_list); item->oic_last_attempt = 0; } CDEBUG(D_HA, "imp %p@%s: find existed conn %s%s\n", imp, imp->imp_obd->obd_name, uuid->uuid, (priority ? ", move to head." : "")); spin_unlock(&imp->imp_lock); GOTO(out_free, rc = 0); } } /* not found */ if (!nocreate) { imp_conn->oic_conn = ptlrpc_conn; imp_conn->oic_uuid = *uuid; imp_conn->oic_last_attempt = 0; if (priority) list_add(&imp_conn->oic_item, &imp->imp_conn_list); else list_add_tail(&imp_conn->oic_item, &imp->imp_conn_list); CDEBUG(D_HA, "imp %p@%s: add connection %s at %s\n", imp, imp->imp_obd->obd_name, uuid->uuid, (priority ? "head" : "tail")); } else rc = -ENOENT; spin_unlock(&imp->imp_lock); RETURN(0); out_free: if (imp_conn) OBD_FREE(imp_conn, sizeof(*imp_conn)); out_put: ptlrpc_put_connection(ptlrpc_conn); RETURN(rc); } int import_set_conn_priority(struct obd_import *imp, struct obd_uuid *uuid) { return import_set_conn(imp, uuid, 1, 1); } int client_import_add_conn(struct obd_import *imp, struct obd_uuid *uuid, int priority) { return import_set_conn(imp, uuid, priority, 0); } int client_import_del_conn(struct obd_import *imp, struct obd_uuid *uuid) { struct obd_import_conn *imp_conn; struct obd_export *dlmexp; int rc = -ENOENT; ENTRY; spin_lock(&imp->imp_lock); if (list_empty(&imp->imp_conn_list)) { LASSERT(!imp->imp_conn_current); LASSERT(!imp->imp_connection); GOTO(out, rc); } list_for_each_entry(imp_conn, &imp->imp_conn_list, oic_item) { if (!obd_uuid_equals(uuid, &imp_conn->oic_uuid)) continue; LASSERT(imp_conn->oic_conn); /* is current conn? */ if (imp_conn == imp->imp_conn_current) { LASSERT(imp_conn->oic_conn == imp->imp_connection); if (imp->imp_state != LUSTRE_IMP_CLOSED && imp->imp_state != LUSTRE_IMP_DISCON) { CERROR("can't remove current connection\n"); GOTO(out, rc = -EBUSY); } ptlrpc_put_connection(imp->imp_connection); imp->imp_connection = NULL; dlmexp = class_conn2export(&imp->imp_dlm_handle); if (dlmexp && dlmexp->exp_connection) { LASSERT(dlmexp->exp_connection == imp_conn->oic_conn); ptlrpc_put_connection(dlmexp->exp_connection); dlmexp->exp_connection = NULL; } } list_del(&imp_conn->oic_item); ptlrpc_put_connection(imp_conn->oic_conn); OBD_FREE(imp_conn, sizeof(*imp_conn)); CDEBUG(D_HA, "imp %p@%s: remove connection %s\n", imp, imp->imp_obd->obd_name, uuid->uuid); rc = 0; break; } out: spin_unlock(&imp->imp_lock); if (rc == -ENOENT) CERROR("connection %s not found\n", uuid->uuid); RETURN(rc); } int client_obd_setup(struct obd_device *obddev, obd_count len, void *buf) { struct lustre_cfg* lcfg = buf; struct client_obd *cli = &obddev->u.cli; struct obd_import *imp; struct obd_uuid server_uuid; int rq_portal, rp_portal, connect_op; char *name = obddev->obd_type->typ_name; char *mgmt_name = NULL; int rc; struct obd_device *mgmt_obd; mgmtcli_register_for_events_t register_f; ENTRY; /* In a more perfect world, we would hang a ptlrpc_client off of * obd_type and just use the values from there. */ if (!strcmp(name, LUSTRE_OSC_NAME)) { rq_portal = OST_REQUEST_PORTAL; rp_portal = OSC_REPLY_PORTAL; connect_op = OST_CONNECT; } else if (!strcmp(name, LUSTRE_MDC_NAME)) { rq_portal = MDS_REQUEST_PORTAL; rp_portal = MDC_REPLY_PORTAL; connect_op = MDS_CONNECT; } else if (!strcmp(name, LUSTRE_MGMTCLI_NAME)) { rq_portal = MGMT_REQUEST_PORTAL; rp_portal = MGMT_REPLY_PORTAL; connect_op = MGMT_CONNECT; } else { CERROR("unknown client OBD type \"%s\", can't setup\n", name); RETURN(-EINVAL); } if (LUSTRE_CFG_BUFLEN(lcfg, 1) < 1) { CERROR("requires a TARGET UUID\n"); RETURN(-EINVAL); } if (LUSTRE_CFG_BUFLEN(lcfg, 1) > 37) { CERROR("client UUID must be less than 38 characters\n"); RETURN(-EINVAL); } if (LUSTRE_CFG_BUFLEN(lcfg, 2) < 1) { CERROR("setup requires a SERVER UUID\n"); RETURN(-EINVAL); } if (LUSTRE_CFG_BUFLEN(lcfg, 2) > 37) { CERROR("target UUID must be less than 38 characters\n"); RETURN(-EINVAL); } sema_init(&cli->cl_sem, 1); cli->cl_conn_count = 0; memcpy(server_uuid.uuid, lustre_cfg_buf(lcfg, 2), min_t(unsigned int, LUSTRE_CFG_BUFLEN(lcfg, 2), sizeof(server_uuid))); cli->cl_dirty = 0; cli->cl_avail_grant = 0; /* FIXME: should limit this for the sum of all cl_dirty_max */ cli->cl_dirty_max = OSC_MAX_DIRTY_DEFAULT * 1024 * 1024; if (cli->cl_dirty_max >> PAGE_SHIFT > num_physpages / 8) cli->cl_dirty_max = num_physpages << (PAGE_SHIFT - 3); INIT_LIST_HEAD(&cli->cl_cache_waiters); INIT_LIST_HEAD(&cli->cl_loi_ready_list); INIT_LIST_HEAD(&cli->cl_loi_write_list); INIT_LIST_HEAD(&cli->cl_loi_read_list); spin_lock_init(&cli->cl_loi_list_lock); cli->cl_r_in_flight = 0; cli->cl_w_in_flight = 0; spin_lock_init(&cli->cl_read_rpc_hist.oh_lock); spin_lock_init(&cli->cl_write_rpc_hist.oh_lock); spin_lock_init(&cli->cl_read_page_hist.oh_lock); spin_lock_init(&cli->cl_write_page_hist.oh_lock); if (num_physpages >> (20 - PAGE_SHIFT) <= 128) { /* <= 128 MB */ cli->cl_max_pages_per_rpc = PTLRPC_MAX_BRW_PAGES / 4; cli->cl_max_rpcs_in_flight = OSC_MAX_RIF_DEFAULT / 4; } else if (num_physpages >> (20 - PAGE_SHIFT) <= 512) { /* <= 512 MB */ cli->cl_max_pages_per_rpc = PTLRPC_MAX_BRW_PAGES / 2; cli->cl_max_rpcs_in_flight = OSC_MAX_RIF_DEFAULT / 2; } else { cli->cl_max_pages_per_rpc = PTLRPC_MAX_BRW_PAGES; cli->cl_max_rpcs_in_flight = OSC_MAX_RIF_DEFAULT; } rc = ldlm_get_ref(); if (rc) { CERROR("ldlm_get_ref failed: %d\n", rc); GOTO(err, rc); } ptlrpc_init_client(rq_portal, rp_portal, name, &obddev->obd_ldlm_client); imp = class_new_import(); if (imp == NULL) GOTO(err_ldlm, rc = -ENOENT); imp->imp_client = &obddev->obd_ldlm_client; imp->imp_obd = obddev; imp->imp_connect_op = connect_op; imp->imp_generation = 0; imp->imp_initial_recov = 1; INIT_LIST_HEAD(&imp->imp_pinger_chain); memcpy(imp->imp_target_uuid.uuid, lustre_cfg_buf(lcfg, 1), LUSTRE_CFG_BUFLEN(lcfg, 1)); class_import_put(imp); rc = client_import_add_conn(imp, &server_uuid, 1); if (rc) { CERROR("can't add initial connection\n"); GOTO(err_import, rc); } cli->cl_import = imp; cli->cl_max_mds_easize = sizeof(struct lov_mds_md); cli->cl_max_mds_cookiesize = sizeof(struct llog_cookie); cli->cl_sandev = to_kdev_t(0); if (LUSTRE_CFG_BUFLEN(lcfg, 3) > 0) { if (!strcmp(lustre_cfg_string(lcfg, 3), "inactive")) { CDEBUG(D_HA, "marking %s %s->%s as inactive\n", name, obddev->obd_name, imp->imp_target_uuid.uuid); imp->imp_invalid = 1; if (LUSTRE_CFG_BUFLEN(lcfg, 4) > 0) mgmt_name = lustre_cfg_string(lcfg, 4); } else { mgmt_name = lustre_cfg_string(lcfg, 3); } } if (mgmt_name != NULL) { /* Register with management client if we need to. */ CDEBUG(D_HA, "%s registering with %s for events about %s\n", obddev->obd_name, mgmt_name, server_uuid.uuid); mgmt_obd = class_name2obd(mgmt_name); if (!mgmt_obd) { CERROR("can't find mgmtcli %s to register\n", mgmt_name); GOTO(err_import, rc = -ENOSYS); } register_f = (mgmtcli_register_for_events_t)symbol_get("mgmtcli_register_for_events"); if (!register_f) { CERROR("can't i_m_g mgmtcli_register_for_events\n"); GOTO(err_import, rc = -ENOSYS); } rc = register_f(mgmt_obd, obddev, &imp->imp_target_uuid); symbol_put("mgmtcli_register_for_events"); if (!rc) cli->cl_mgmtcli_obd = mgmt_obd; } RETURN(rc); err_import: class_destroy_import(imp); err_ldlm: ldlm_put_ref(0); err: RETURN(rc); } int client_obd_cleanup(struct obd_device *obddev, int flags) { struct client_obd *cli = &obddev->u.cli; ENTRY; if (!cli->cl_import) RETURN(-EINVAL); if (cli->cl_mgmtcli_obd) { mgmtcli_deregister_for_events_t dereg_f; dereg_f = (mgmtcli_deregister_for_events_t)symbol_get("mgmtcli_deregister_for_events"); dereg_f(cli->cl_mgmtcli_obd, obddev); symbol_put("mgmtcli_deregister_for_events"); } /* Here we try to drop the security structure after destroy import, * to avoid issue of "sleep in spinlock". */ class_import_get(cli->cl_import); class_destroy_import(cli->cl_import); ptlrpcs_import_drop_sec(cli->cl_import); class_import_put(cli->cl_import); cli->cl_import = NULL; ldlm_put_ref(flags & OBD_OPT_FORCE); RETURN(0); } int client_connect_import(struct lustre_handle *dlm_handle, struct obd_device *obd, struct obd_uuid *cluuid, struct obd_connect_data *conn_data, unsigned long connect_flags) { struct client_obd *cli = &obd->u.cli; struct obd_import *imp = cli->cl_import; struct obd_export *exp; int rc; ENTRY; down(&cli->cl_sem); rc = class_connect(dlm_handle, obd, cluuid); if (rc) GOTO(out_sem, rc); cli->cl_conn_count++; if (cli->cl_conn_count > 1) GOTO(out_sem, rc); exp = class_conn2export(dlm_handle); if (obd->obd_namespace != NULL) CERROR("already have namespace!\n"); obd->obd_namespace = ldlm_namespace_new(obd->obd_name, LDLM_NAMESPACE_CLIENT); if (obd->obd_namespace == NULL) GOTO(out_disco, rc = -ENOMEM); rc = ptlrpcs_import_get_sec(imp); if (rc != 0) GOTO(out_ldlm, rc); imp->imp_dlm_handle = *dlm_handle; rc = ptlrpc_init_import(imp); if (rc != 0) GOTO(out_ldlm, rc); imp->imp_connect_flags = connect_flags; if (conn_data) memcpy(&imp->imp_connect_data, conn_data, sizeof(*conn_data)); rc = ptlrpc_connect_import(imp, NULL); if (rc != 0) { LASSERT (imp->imp_state == LUSTRE_IMP_DISCON); GOTO(out_ldlm, rc); } LASSERT(exp->exp_connection); ptlrpc_pinger_add_import(imp); EXIT; if (rc) { out_ldlm: ldlm_namespace_free(obd->obd_namespace, 0); obd->obd_namespace = NULL; out_disco: cli->cl_conn_count--; class_disconnect(exp, 0); } else { class_export_put(exp); } out_sem: up(&cli->cl_sem); return rc; } int client_disconnect_export(struct obd_export *exp, unsigned long flags) { struct obd_device *obd = class_exp2obd(exp); struct client_obd *cli = &obd->u.cli; struct obd_import *imp = cli->cl_import; int rc = 0, err; ENTRY; if (!obd) { CERROR("invalid export for disconnect: exp %p cookie "LPX64"\n", exp, exp ? exp->exp_handle.h_cookie : -1); RETURN(-EINVAL); } down(&cli->cl_sem); if (!cli->cl_conn_count) { CERROR("disconnecting disconnected device (%s)\n", obd->obd_name); GOTO(out_sem, rc = -EINVAL); } cli->cl_conn_count--; if (cli->cl_conn_count) GOTO(out_no_disconnect, rc = 0); /* Some non-replayable imports (MDS's OSCs) are pinged, so just * delete it regardless. (It's safe to delete an import that was * never added.) */ (void)ptlrpc_pinger_del_import(imp); if (obd->obd_namespace != NULL) { /* obd_no_recov == local only */ ldlm_cli_cancel_unused(obd->obd_namespace, NULL, obd->obd_no_recov, NULL); ldlm_namespace_free(obd->obd_namespace, obd->obd_no_recov); obd->obd_namespace = NULL; } /* * Yeah, obd_no_recov also (mainly) means "forced shutdown". */ if (obd->obd_no_recov) ptlrpc_invalidate_import(imp, 0); else rc = ptlrpc_disconnect_import(imp); EXIT; out_no_disconnect: err = class_disconnect(exp, 0); if (!rc && err) rc = err; out_sem: up(&cli->cl_sem); RETURN(rc); } /* -------------------------------------------------------------------------- * from old lib/target.c * -------------------------------------------------------------------------- */ int target_handle_reconnect(struct lustre_handle *conn, struct obd_export *exp, struct obd_uuid *cluuid, int initial_conn) { if (exp->exp_connection && !initial_conn) { struct lustre_handle *hdl; hdl = &exp->exp_imp_reverse->imp_remote_handle; /* Might be a re-connect after a partition. */ if (!memcmp(&conn->cookie, &hdl->cookie, sizeof conn->cookie)) { CERROR("%s reconnecting\n", cluuid->uuid); conn->cookie = exp->exp_handle.h_cookie; RETURN(EALREADY); } else { CERROR("%s reconnecting from %s, " "handle mismatch (ours "LPX64", theirs " LPX64")\n", cluuid->uuid, exp->exp_connection->c_remote_uuid.uuid, hdl->cookie, conn->cookie); memset(conn, 0, sizeof *conn); RETURN(-EALREADY); } } conn->cookie = exp->exp_handle.h_cookie; CDEBUG(D_INFO, "existing export for UUID '%s' at %p\n", cluuid->uuid, exp); CDEBUG(D_IOCTL,"connect: cookie "LPX64"\n", conn->cookie); RETURN(0); } static inline int ptlrpc_peer_is_local(struct ptlrpc_peer *peer) { ptl_process_id_t myid; PtlGetId(peer->peer_ni->pni_ni_h, &myid); return (memcmp(&peer->peer_id, &myid, sizeof(myid)) == 0); } int target_handle_connect(struct ptlrpc_request *req) { unsigned long connect_flags = 0, *cfp; struct obd_device *target; struct obd_export *export = NULL; struct obd_import *revimp; struct lustre_handle conn; struct obd_uuid tgtuuid; struct obd_uuid cluuid; struct obd_uuid remote_uuid; struct list_head *p; struct obd_connect_data *conn_data; int conn_data_size = sizeof(*conn_data); char *str, *tmp; int rc = 0; unsigned long flags; int initial_conn = 0; char peer_str[PTL_NALFMT_SIZE]; const int offset = 1; ENTRY; OBD_RACE(OBD_FAIL_TGT_CONN_RACE); LASSERT_REQSWAB (req, offset + 0); str = lustre_msg_string(req->rq_reqmsg, offset + 0, sizeof(tgtuuid) - 1); if (str == NULL) { CERROR("bad target UUID for connect\n"); GOTO(out, rc = -EINVAL); } obd_str2uuid (&tgtuuid, str); target = class_uuid2obd(&tgtuuid); if (!target) target = class_name2obd(str); if (!target || target->obd_stopping || !target->obd_set_up) { CERROR("UUID '%s' is not available for connect from %s\n", str, req->rq_peerstr); GOTO(out, rc = -ENODEV); } LASSERT_REQSWAB (req, offset + 1); str = lustre_msg_string(req->rq_reqmsg, offset + 1, sizeof(cluuid) - 1); if (str == NULL) { CERROR("bad client UUID for connect\n"); GOTO(out, rc = -EINVAL); } obd_str2uuid (&cluuid, str); /* XXX extract a nettype and format accordingly */ switch (sizeof(ptl_nid_t)) { /* NB the casts only avoid compiler warnings */ case 8: snprintf(remote_uuid.uuid, sizeof remote_uuid, "NET_"LPX64"_UUID", (__u64)req->rq_peer.peer_id.nid); break; case 4: snprintf(remote_uuid.uuid, sizeof remote_uuid, "NET_%x_UUID", (__u32)req->rq_peer.peer_id.nid); break; default: LBUG(); } tmp = lustre_msg_buf(req->rq_reqmsg, offset + 2, sizeof conn); if (tmp == NULL) GOTO(out, rc = -EPROTO); memcpy(&conn, tmp, sizeof conn); cfp = lustre_msg_buf(req->rq_reqmsg, offset + 3, sizeof(unsigned long)); LASSERT(cfp != NULL); connect_flags = *cfp; conn_data = lustre_swab_reqbuf(req, offset + 4, sizeof(*conn_data), lustre_swab_connect); if (!conn_data) GOTO(out, rc = -EPROTO); rc = lustre_pack_reply(req, 1, &conn_data_size, NULL); if (rc) GOTO(out, rc); if (lustre_msg_get_op_flags(req->rq_reqmsg) & MSG_CONNECT_INITIAL) initial_conn = 1; /* lctl gets a backstage, all-access pass. */ if (obd_uuid_equals(&cluuid, &target->obd_uuid)) goto dont_check_exports; spin_lock(&target->obd_dev_lock); list_for_each(p, &target->obd_exports) { export = list_entry(p, struct obd_export, exp_obd_chain); if (obd_uuid_equals(&cluuid, &export->exp_client_uuid)) { spin_unlock(&target->obd_dev_lock); LASSERT(export->exp_obd == target); rc = target_handle_reconnect(&conn, export, &cluuid, initial_conn); break; } export = NULL; } /* If we found an export, we already unlocked. */ if (!export) { spin_unlock(&target->obd_dev_lock); } else if (req->rq_export == NULL && atomic_read(&export->exp_rpc_count) > 0) { CWARN("%s: refuse connection from %s/%s to 0x%p/%d\n", target->obd_name, cluuid.uuid, ptlrpc_peernid2str(&req->rq_peer, peer_str), export, atomic_read(&export->exp_refcount)); GOTO(out, rc = -EBUSY); } else if (req->rq_export != NULL && atomic_read(&export->exp_rpc_count) > 1) { CWARN("%s: refuse reconnection from %s@%s to 0x%p/%d\n", target->obd_name, cluuid.uuid, ptlrpc_peernid2str(&req->rq_peer, peer_str), export, atomic_read(&export->exp_rpc_count)); GOTO(out, rc = -EBUSY); } else if (req->rq_reqmsg->conn_cnt == 1 && !initial_conn) { CERROR("%s reconnected with 1 conn_cnt; cookies not random?\n", cluuid.uuid); GOTO(out, rc = -EALREADY); } /* Tell the client if we're in recovery. */ /* If this is the first client, start the recovery timer */ CWARN("%s: connection from %s@%s/%lu %st"LPU64"\n", target->obd_name, cluuid.uuid, ptlrpc_peernid2str(&req->rq_peer, peer_str), *cfp, target->obd_recovering ? "recovering/" : "", conn_data->transno); if (target->obd_recovering) { lustre_msg_add_op_flags(req->rq_repmsg, MSG_CONNECT_RECOVERING); target_start_recovery_timer(target); } #if 0 /* Tell the client if we support replayable requests */ if (target->obd_replayable) lustre_msg_add_op_flags(req->rq_repmsg, MSG_CONNECT_REPLAYABLE); #endif if (export == NULL) { if (target->obd_recovering) { CERROR("%s denying connection for new client %s@%s: " "%d clients in recovery for %lds\n", target->obd_name, cluuid.uuid, ptlrpc_peernid2str(&req->rq_peer, peer_str), target->obd_recoverable_clients, (target->obd_recovery_timer.expires-jiffies)/HZ); rc = -EBUSY; } else { dont_check_exports: rc = obd_connect(&conn, target, &cluuid, conn_data, connect_flags); } } /* Return only the parts of obd_connect_data that we understand, so the * client knows that we don't understand the rest. */ conn_data->ocd_connect_flags &= OBD_CONNECT_SUPPORTED; memcpy(lustre_msg_buf(req->rq_repmsg, 0, sizeof(*conn_data)), conn_data, sizeof(*conn_data)); /* Tell the client if we support replayable requests */ if (target->obd_replayable) lustre_msg_add_op_flags(req->rq_repmsg, MSG_CONNECT_REPLAYABLE); /* If all else goes well, this is our RPC return code. */ req->rq_status = 0; if (rc && rc != EALREADY) GOTO(out, rc); req->rq_repmsg->handle = conn; /* If the client and the server are the same node, we will already * have an export that really points to the client's DLM export, * because we have a shared handles table. * * XXX this will go away when shaver stops sending the "connect" handle * in the real "remote handle" field of the request --phik 24 Apr 2003 */ if (req->rq_export != NULL) class_export_put(req->rq_export); /* ownership of this export ref transfers to the request */ export = req->rq_export = class_conn2export(&conn); LASSERT(export != NULL); spin_lock_irqsave(&export->exp_lock, flags); if (initial_conn) { req->rq_repmsg->conn_cnt = export->exp_conn_cnt + 1; } else if (export->exp_conn_cnt >= req->rq_reqmsg->conn_cnt) { CERROR("%s@%s: already connected at a higher conn_cnt: %d > %d\n", cluuid.uuid, ptlrpc_peernid2str(&req->rq_peer, peer_str), export->exp_conn_cnt, req->rq_reqmsg->conn_cnt); spin_unlock_irqrestore(&export->exp_lock, flags); GOTO(out, rc = -EALREADY); } export->exp_conn_cnt = req->rq_reqmsg->conn_cnt; spin_unlock_irqrestore(&export->exp_lock, flags); /* request from liblustre? */ if (lustre_msg_get_op_flags(req->rq_reqmsg) & MSG_CONNECT_LIBCLIENT) export->exp_libclient = 1; if (!(lustre_msg_get_op_flags(req->rq_reqmsg) & MSG_CONNECT_ASYNC) && ptlrpc_peer_is_local(&req->rq_peer)) { CWARN("%s: exp %p set sync\n", target->obd_name, export); export->exp_sync = 1; } else { CDEBUG(D_HA, "%s: exp %p set async\n",target->obd_name,export); export->exp_sync = 0; } if (export->exp_connection != NULL) ptlrpc_put_connection(export->exp_connection); export->exp_connection = ptlrpc_get_connection(&req->rq_peer, &remote_uuid); if (rc == EALREADY) { /* We indicate the reconnection in a flag, not an error code. */ lustre_msg_add_op_flags(req->rq_repmsg, MSG_CONNECT_RECONNECT); GOTO(out, rc = 0); } spin_lock_bh(&target->obd_processing_task_lock); if (target->obd_recovering && export->exp_connected == 0) { __u64 t = conn_data->transno; export->exp_connected = 1; if ((lustre_msg_get_op_flags(req->rq_reqmsg) & MSG_CONNECT_TRANSNO) && t < target->obd_next_recovery_transno) target->obd_next_recovery_transno = t; target->obd_connected_clients++; if (target->obd_connected_clients == target->obd_max_recoverable_clients) wake_up(&target->obd_next_transno_waitq); } spin_unlock_bh(&target->obd_processing_task_lock); memcpy(&conn, lustre_msg_buf(req->rq_reqmsg, offset + 2, sizeof(conn)), sizeof(conn)); if (export->exp_imp_reverse != NULL) { /* same logic as client_obd_cleanup */ class_import_get(export->exp_imp_reverse); class_destroy_import(export->exp_imp_reverse); ptlrpcs_import_drop_sec(export->exp_imp_reverse); class_import_put(export->exp_imp_reverse); } /* for the rest part, we return -ENOTCONN in case of errors * in order to let client initialize connection again. */ revimp = export->exp_imp_reverse = class_new_import(); if (!revimp) { CERROR("fail to alloc new reverse import.\n"); GOTO(out, rc = -ENOTCONN); } revimp->imp_connection = ptlrpc_connection_addref(export->exp_connection); revimp->imp_client = &export->exp_obd->obd_ldlm_client; revimp->imp_remote_handle = conn; revimp->imp_obd = target; revimp->imp_dlm_fake = 1; revimp->imp_state = LUSTRE_IMP_FULL; rc = ptlrpcs_import_get_sec(revimp); if (rc) { CERROR("reverse import can not get sec: %d\n", rc); class_destroy_import(revimp); export->exp_imp_reverse = NULL; GOTO(out, rc = -ENOTCONN); } class_import_put(revimp); rc = obd_connect_post(export, initial_conn, connect_flags); out: if (rc) req->rq_status = rc; RETURN(rc); } int target_handle_disconnect(struct ptlrpc_request *req) { struct obd_export *exp; int rc; ENTRY; rc = lustre_pack_reply(req, 0, NULL, NULL); if (rc) RETURN(rc); /* keep the rq_export around so we can send the reply */ exp = class_export_get(req->rq_export); req->rq_status = obd_disconnect(exp, 0); RETURN(0); } void target_destroy_export(struct obd_export *exp) { /* exports created from last_rcvd data, and "fake" exports created by lctl don't have an import */ if (exp->exp_imp_reverse != NULL) { ptlrpcs_import_drop_sec(exp->exp_imp_reverse); class_destroy_import(exp->exp_imp_reverse); } /* We cancel locks at disconnect time, but this will catch any locks * granted in a race with recovery-induced disconnect. */ if (exp->exp_obd->obd_namespace != NULL) ldlm_cancel_locks_for_export(exp); } /* * Recovery functions */ struct ptlrpc_request * ptlrpc_clone_req( struct ptlrpc_request *orig_req) { struct ptlrpc_request *copy_req; struct lustre_msg *copy_reqmsg; OBD_ALLOC(copy_req, sizeof *copy_req); if (!copy_req) return NULL; OBD_ALLOC(copy_reqmsg, orig_req->rq_reqlen); if (!copy_reqmsg){ OBD_FREE(copy_req, sizeof *copy_req); return NULL; } memcpy(copy_req, orig_req, sizeof *copy_req); memcpy(copy_reqmsg, orig_req->rq_reqmsg, orig_req->rq_reqlen); /* the copied req takes over the reply state and security data */ orig_req->rq_reply_state = NULL; orig_req->rq_sec_svcdata = NULL; copy_req->rq_reqmsg = copy_reqmsg; class_export_get(copy_req->rq_export); INIT_LIST_HEAD(©_req->rq_list); return copy_req; } void ptlrpc_free_clone( struct ptlrpc_request *req) { if (req->rq_svcsec) svcsec_cleanup_req(req); class_export_put(req->rq_export); list_del(&req->rq_list); OBD_FREE(req->rq_reqmsg, req->rq_reqlen); OBD_FREE(req, sizeof *req); } static void target_release_saved_req(struct ptlrpc_request *req) { if (req->rq_svcsec) svcsec_cleanup_req(req); class_export_put(req->rq_export); OBD_FREE(req->rq_reqmsg, req->rq_reqlen); OBD_FREE(req, sizeof *req); } static void target_finish_recovery(struct obd_device *obd) { int rc; ldlm_reprocess_all_ns(obd->obd_namespace); /* when recovery finished, cleanup orphans on mds and ost */ if (OBT(obd) && OBP(obd, postrecov)) { rc = OBP(obd, postrecov)(obd); if (rc >= 0) CWARN("%s: all clients recovered, %d MDS " "orphans deleted\n", obd->obd_name, rc); else CERROR("postrecov failed %d\n", rc); } obd->obd_recovery_end = LTIME_S(CURRENT_TIME); return; } static void abort_req_replay_queue(struct obd_device *obd) { struct ptlrpc_request *req; struct list_head *tmp, *n; int rc; list_for_each_safe(tmp, n, &obd->obd_req_replay_queue) { req = list_entry(tmp, struct ptlrpc_request, rq_list); list_del(&req->rq_list); DEBUG_REQ(D_ERROR, req, "aborted:"); req->rq_status = -ENOTCONN; req->rq_type = PTL_RPC_MSG_ERR; rc = lustre_pack_reply(req, 0, NULL, NULL); if (rc == 0) { ptlrpc_reply(req); } else { DEBUG_REQ(D_ERROR, req, "packing failed for abort-reply; skipping"); } target_release_saved_req(req); } } static void abort_lock_replay_queue(struct obd_device *obd) { struct ptlrpc_request *req; struct list_head *tmp, *n; int rc; list_for_each_safe(tmp, n, &obd->obd_lock_replay_queue) { req = list_entry(tmp, struct ptlrpc_request, rq_list); list_del(&req->rq_list); DEBUG_REQ(D_ERROR, req, "aborted:"); req->rq_status = -ENOTCONN; req->rq_type = PTL_RPC_MSG_ERR; rc = lustre_pack_reply(req, 0, NULL, NULL); if (rc == 0) { ptlrpc_reply(req); } else { DEBUG_REQ(D_ERROR, req, "packing failed for abort-reply; skipping"); } target_release_saved_req(req); } } /* Called from a cleanup function if the device is being cleaned up forcefully. The exports should all have been disconnected already, the only thing left to do is - clear the recovery flags - cancel the timer - free queued requests and replies, but don't send replies Because the obd_stopping flag is set, no new requests should be received. */ void target_cleanup_recovery(struct obd_device *obd) { struct list_head *tmp, *n; struct ptlrpc_request *req; spin_lock_bh(&obd->obd_processing_task_lock); if (!obd->obd_recovering) { spin_unlock_bh(&obd->obd_processing_task_lock); EXIT; return; } obd->obd_recovering = obd->obd_abort_recovery = 0; target_cancel_recovery_timer(obd); spin_unlock_bh(&obd->obd_processing_task_lock); list_for_each_safe(tmp, n, &obd->obd_req_replay_queue) { req = list_entry(tmp, struct ptlrpc_request, rq_list); list_del(&req->rq_list); LASSERT (req->rq_reply_state == 0); target_release_saved_req(req); } list_for_each_safe(tmp, n, &obd->obd_lock_replay_queue) { req = list_entry(tmp, struct ptlrpc_request, rq_list); list_del(&req->rq_list); LASSERT (req->rq_reply_state == 0); target_release_saved_req(req); } list_for_each_safe(tmp, n, &obd->obd_final_req_queue) { req = list_entry(tmp, struct ptlrpc_request, rq_list); list_del(&req->rq_list); LASSERT (req->rq_reply_state == 0); target_release_saved_req(req); } } #if 0 static void target_abort_recovery(void *data) { struct obd_device *obd = data; LASSERT(!obd->obd_recovering); class_disconnect_stale_exports(obd, 0); CERROR("%s: recovery period over; disconnecting unfinished clients.\n", obd->obd_name); abort_recovery_queue(obd); target_finish_recovery(obd); ptlrpc_run_recovery_over_upcall(obd); } #endif static void target_recovery_expired(unsigned long castmeharder) { struct obd_device *obd = (struct obd_device *)castmeharder; spin_lock_bh(&obd->obd_processing_task_lock); if (obd->obd_recovering) obd->obd_abort_recovery = 1; wake_up(&obd->obd_next_transno_waitq); spin_unlock_bh(&obd->obd_processing_task_lock); } /* obd_processing_task_lock should be held */ void target_cancel_recovery_timer(struct obd_device *obd) { CDEBUG(D_HA, "%s: cancel recovery timer\n", obd->obd_name); del_timer(&obd->obd_recovery_timer); } #ifdef __KERNEL__ static void reset_recovery_timer(struct obd_device *obd) { spin_lock_bh(&obd->obd_processing_task_lock); if (!obd->obd_recovering) { spin_unlock_bh(&obd->obd_processing_task_lock); return; } CDEBUG(D_HA, "timer will expire in %u seconds\n", OBD_RECOVERY_TIMEOUT / HZ); mod_timer(&obd->obd_recovery_timer, jiffies + OBD_RECOVERY_TIMEOUT); spin_unlock_bh(&obd->obd_processing_task_lock); } #endif /* Only start it the first time called */ void target_start_recovery_timer(struct obd_device *obd) { spin_lock_bh(&obd->obd_processing_task_lock); if (!obd->obd_recovering || timer_pending(&obd->obd_recovery_timer)) { spin_unlock_bh(&obd->obd_processing_task_lock); return; } CWARN("%s: starting recovery timer (%us)\n", obd->obd_name, OBD_RECOVERY_TIMEOUT / HZ); obd->obd_recovery_timer.function = target_recovery_expired; obd->obd_recovery_timer.data = (unsigned long)obd; mod_timer(&obd->obd_recovery_timer, jiffies + OBD_RECOVERY_TIMEOUT); spin_unlock_bh(&obd->obd_processing_task_lock); } #ifdef __KERNEL__ static int check_for_next_transno(struct obd_device *obd) { struct ptlrpc_request *req = NULL; int wake_up = 0, connected, completed, queue_len, max; __u64 next_transno, req_transno; spin_lock_bh(&obd->obd_processing_task_lock); if (!list_empty(&obd->obd_req_replay_queue)) { req = list_entry(obd->obd_req_replay_queue.next, struct ptlrpc_request, rq_list); req_transno = req->rq_reqmsg->transno; } else { req_transno = 0; } max = obd->obd_max_recoverable_clients; connected = obd->obd_connected_clients; completed = max - obd->obd_recoverable_clients; queue_len = obd->obd_requests_queued_for_recovery; next_transno = obd->obd_next_recovery_transno; CDEBUG(D_HA,"max: %d, connected: %d, completed: %d, queue_len: %d, " "req_transno: "LPU64", next_transno: "LPU64"\n", max, connected, completed, queue_len, req_transno, next_transno); if (obd->obd_abort_recovery) { CDEBUG(D_HA, "waking for aborted recovery\n"); wake_up = 1; } else if (atomic_read(&obd->obd_req_replay_clients) == 0) { CDEBUG(D_HA, "waking for completed recovery\n"); wake_up = 1; } else if (req_transno == next_transno) { CDEBUG(D_HA, "waking for next ("LPD64")\n", next_transno); wake_up = 1; } else if (queue_len + completed == max) { LASSERT(req->rq_reqmsg->transno >= next_transno); if (req_transno > obd->obd_last_committed) CDEBUG(D_ERROR, "waking for skipped transno (skip: " LPD64", ql: %d, comp: %d, conn: %d, next: " LPD64")\n", next_transno, queue_len, completed, max, req_transno); obd->obd_next_recovery_transno = req_transno; wake_up = 1; } else if (queue_len == atomic_read(&obd->obd_req_replay_clients)) { /* some clients haven't connected in time, but we need * their requests to continue recovery. so, we abort ... */ CDEBUG(D_ERROR, "abort due to missed clients: queue: %d max: %d\n", queue_len, max); obd->obd_abort_recovery = 1; wake_up = 1; } spin_unlock_bh(&obd->obd_processing_task_lock); return wake_up; } static struct ptlrpc_request * target_next_replay_req(struct obd_device *obd) { struct l_wait_info lwi = { 0 }; struct ptlrpc_request *req; CDEBUG(D_HA, "Waiting for transno "LPD64"\n", obd->obd_next_recovery_transno); l_wait_event(obd->obd_next_transno_waitq, check_for_next_transno(obd), &lwi); spin_lock_bh(&obd->obd_processing_task_lock); if (obd->obd_abort_recovery) { req = NULL; } else if (!list_empty(&obd->obd_req_replay_queue)) { req = list_entry(obd->obd_req_replay_queue.next, struct ptlrpc_request, rq_list); list_del_init(&req->rq_list); obd->obd_requests_queued_for_recovery--; } else { req = NULL; } spin_unlock_bh(&obd->obd_processing_task_lock); return req; } static int check_for_next_lock(struct obd_device *obd) { struct ptlrpc_request *req = NULL; int wake_up = 0; spin_lock_bh(&obd->obd_processing_task_lock); if (!list_empty(&obd->obd_lock_replay_queue)) { req = list_entry(obd->obd_lock_replay_queue.next, struct ptlrpc_request, rq_list); CDEBUG(D_HA, "waking for next lock\n"); wake_up = 1; } else if (atomic_read(&obd->obd_lock_replay_clients) == 0) { CDEBUG(D_HA, "waking for completed lock replay\n"); wake_up = 1; } else if (obd->obd_abort_recovery) { CDEBUG(D_HA, "waking for aborted recovery\n"); wake_up = 1; } spin_unlock_bh(&obd->obd_processing_task_lock); return wake_up; } static struct ptlrpc_request * target_next_replay_lock(struct obd_device *obd) { struct l_wait_info lwi = { 0 }; struct ptlrpc_request *req; CDEBUG(D_HA, "Waiting for lock\n"); l_wait_event(obd->obd_next_transno_waitq, check_for_next_lock(obd), &lwi); spin_lock_bh(&obd->obd_processing_task_lock); if (obd->obd_abort_recovery) { req = NULL; } else if (!list_empty(&obd->obd_lock_replay_queue)) { req = list_entry(obd->obd_lock_replay_queue.next, struct ptlrpc_request, rq_list); list_del_init(&req->rq_list); } else { req = NULL; } spin_unlock_bh(&obd->obd_processing_task_lock); return req; } static struct ptlrpc_request * target_next_final_ping(struct obd_device *obd) { struct ptlrpc_request *req; spin_lock_bh(&obd->obd_processing_task_lock); if (!list_empty(&obd->obd_final_req_queue)) { req = list_entry(obd->obd_final_req_queue.next, struct ptlrpc_request, rq_list); list_del_init(&req->rq_list); } else { req = NULL; } spin_unlock_bh(&obd->obd_processing_task_lock); return req; } static int req_replay_done(struct obd_export *exp) { if (exp->exp_req_replay_needed) return 0; return 1; } static int lock_replay_done(struct obd_export *exp) { if (exp->exp_lock_replay_needed) return 0; return 1; } static int connect_done(struct obd_export *exp) { if (exp->exp_connected) return 1; return 0; } static int check_for_clients(struct obd_device *obd) { if (obd->obd_abort_recovery) return 1; LASSERT(obd->obd_connected_clients <= obd->obd_max_recoverable_clients); if (obd->obd_connected_clients == obd->obd_max_recoverable_clients) return 1; return 0; } static int target_recovery_thread(void *arg) { struct obd_device *obd = arg; struct ptlrpc_request *req; struct target_recovery_data *trd = &obd->obd_recovery_data; char peer_str[PTL_NALFMT_SIZE]; struct l_wait_info lwi = { 0 }; unsigned long flags; ENTRY; kportal_daemonize("tgt-recov"); SIGNAL_MASK_LOCK(current, flags); sigfillset(¤t->blocked); RECALC_SIGPENDING; SIGNAL_MASK_UNLOCK(current, flags); CERROR("%s: started recovery thread pid %d\n", obd->obd_name, current->pid); trd->trd_processing_task = current->pid; obd->obd_recovering = 1; complete(&trd->trd_starting); /* first of all, we have to know the first transno to replay */ obd->obd_abort_recovery = 0; l_wait_event(obd->obd_next_transno_waitq, check_for_clients(obd), &lwi); spin_lock_bh(&obd->obd_processing_task_lock); target_cancel_recovery_timer(obd); spin_unlock_bh(&obd->obd_processing_task_lock); /* If some clients haven't connected in time, evict them */ if (obd->obd_abort_recovery) { int stale; CERROR("some clients haven't connect in time, evict them ...\n"); obd->obd_abort_recovery = 0; stale = class_disconnect_stale_exports(obd, connect_done, 0); atomic_sub(stale, &obd->obd_req_replay_clients); atomic_sub(stale, &obd->obd_lock_replay_clients); } /* next stage: replay requests */ CWARN("1: request replay stage - %d clients from t"LPU64"\n", atomic_read(&obd->obd_req_replay_clients), obd->obd_next_recovery_transno); while ((req = target_next_replay_req(obd))) { LASSERT(trd->trd_processing_task == current->pid); DEBUG_REQ(D_HA, req, "processing t"LPD64" from %s: ", req->rq_reqmsg->transno, ptlrpc_peernid2str(&req->rq_peer, peer_str)); (void)trd->trd_recovery_handler(req); obd->obd_replayed_requests++; reset_recovery_timer(obd); /* bug 1580: decide how to properly sync() in recovery*/ //mds_fsync_super(mds->mds_sb); ptlrpc_free_clone(req); spin_lock_bh(&obd->obd_processing_task_lock); obd->obd_next_recovery_transno++; spin_unlock_bh(&obd->obd_processing_task_lock); } spin_lock_bh(&obd->obd_processing_task_lock); target_cancel_recovery_timer(obd); spin_unlock_bh(&obd->obd_processing_task_lock); /* If some clients haven't replayed requests in time, evict them */ if (obd->obd_abort_recovery) { int stale; CERROR("req replay timed out, aborting ...\n"); obd->obd_abort_recovery = 0; stale = class_disconnect_stale_exports(obd, req_replay_done, 0); atomic_sub(stale, &obd->obd_lock_replay_clients); abort_req_replay_queue(obd); } /* The second stage: replay locks */ CWARN("2: lock replay stage - %d clients\n", atomic_read(&obd->obd_lock_replay_clients)); while ((req = target_next_replay_lock(obd))) { LASSERT(trd->trd_processing_task == current->pid); DEBUG_REQ(D_HA, req, "processing lock from %s: ", ptlrpc_peernid2str(&req->rq_peer, peer_str)); (void)trd->trd_recovery_handler(req); reset_recovery_timer(obd); ptlrpc_free_clone(req); obd->obd_replayed_locks++; } spin_lock_bh(&obd->obd_processing_task_lock); target_cancel_recovery_timer(obd); spin_unlock_bh(&obd->obd_processing_task_lock); /* If some clients haven't replayed requests in time, evict them */ if (obd->obd_abort_recovery) { int stale; CERROR("lock replay timed out, aborting ...\n"); obd->obd_abort_recovery = 0; stale = class_disconnect_stale_exports(obd, lock_replay_done, 0); abort_lock_replay_queue(obd); } /* We drop recoverying flag to forward all new requests * to regular mds_handle() since now */ spin_lock_bh(&obd->obd_processing_task_lock); obd->obd_recovering = 0; spin_unlock_bh(&obd->obd_processing_task_lock); /* The third stage: reply on final pings */ CWARN("3: final stage - process recovery completion pings\n"); while ((req = target_next_final_ping(obd))) { LASSERT(trd->trd_processing_task == current->pid); DEBUG_REQ(D_HA, req, "processing final ping from %s: ", ptlrpc_peernid2str(&req->rq_peer, peer_str)); (void)trd->trd_recovery_handler(req); ptlrpc_free_clone(req); } CWARN("4: recovery completed - %d/%d reqs/locks replayed\n", obd->obd_replayed_requests, obd->obd_replayed_locks); target_finish_recovery(obd); trd->trd_processing_task = 0; complete(&trd->trd_finishing); return 0; } int target_start_recovery_thread(struct obd_device *obd, svc_handler_t handler) { int rc = 0; struct target_recovery_data *trd = &obd->obd_recovery_data; memset(trd, 0, sizeof(*trd)); init_completion(&trd->trd_starting); init_completion(&trd->trd_finishing); trd->trd_recovery_handler = handler; if (kernel_thread(target_recovery_thread, obd, 0) > 0) { wait_for_completion(&trd->trd_starting); LASSERT(obd->obd_recovering != 0); } else rc = -ECHILD; return rc; } void target_stop_recovery_thread(struct obd_device *obd) { spin_lock_bh(&obd->obd_processing_task_lock); if (obd->obd_recovery_data.trd_processing_task > 0) { struct target_recovery_data *trd = &obd->obd_recovery_data; CERROR("%s: aborting recovery\n", obd->obd_name); obd->obd_abort_recovery = 1; wake_up(&obd->obd_next_transno_waitq); spin_unlock_bh(&obd->obd_processing_task_lock); wait_for_completion(&trd->trd_finishing); } else { spin_unlock_bh(&obd->obd_processing_task_lock); } } #endif int target_process_req_flags(struct obd_device *obd, struct ptlrpc_request *req) { struct obd_export *exp = req->rq_export; LASSERT(exp != NULL); if (lustre_msg_get_flags(req->rq_reqmsg) & MSG_REQ_REPLAY_DONE) { /* client declares he's ready to replay locks */ spin_lock_bh(&obd->obd_processing_task_lock); if (exp->exp_req_replay_needed) { LASSERT(atomic_read(&obd->obd_req_replay_clients) > 0); exp->exp_req_replay_needed = 0; atomic_dec(&obd->obd_req_replay_clients); obd->obd_recoverable_clients--; if (atomic_read(&obd->obd_req_replay_clients) == 0) { CDEBUG(D_HA, "all clients have replayed reqs\n"); wake_up(&obd->obd_next_transno_waitq); } } spin_unlock_bh(&obd->obd_processing_task_lock); } if (lustre_msg_get_flags(req->rq_reqmsg) & MSG_LOCK_REPLAY_DONE) { /* client declares he's ready to complete recovery * so, we put the request on th final queue */ spin_lock_bh(&obd->obd_processing_task_lock); if (exp->exp_lock_replay_needed) { LASSERT(atomic_read(&obd->obd_lock_replay_clients) > 0); exp->exp_lock_replay_needed = 0; atomic_dec(&obd->obd_lock_replay_clients); if (atomic_read(&obd->obd_lock_replay_clients) == 0) { CDEBUG(D_HA, "all clients have replayed locks\n"); wake_up(&obd->obd_next_transno_waitq); } } spin_unlock_bh(&obd->obd_processing_task_lock); } return 0; } int target_queue_recovery_request(struct ptlrpc_request *req, struct obd_device *obd) { struct list_head *tmp; int inserted = 0; __u64 transno = req->rq_reqmsg->transno; if (obd->obd_recovery_data.trd_processing_task == current->pid) { /* Processing the queue right now, don't re-add. */ return 1; } target_process_req_flags(obd, req); if (lustre_msg_get_flags(req->rq_reqmsg) & MSG_LOCK_REPLAY_DONE) { /* client declares he's ready to complete recovery * so, we put the request on th final queue */ req = ptlrpc_clone_req(req); if (req == NULL) return -ENOMEM; DEBUG_REQ(D_HA, req, "queue final req"); spin_lock_bh(&obd->obd_processing_task_lock); list_add_tail(&req->rq_list, &obd->obd_final_req_queue); spin_unlock_bh(&obd->obd_processing_task_lock); return 0; } if (lustre_msg_get_flags(req->rq_reqmsg) & MSG_REQ_REPLAY_DONE) { /* client declares he's ready to replay locks */ req = ptlrpc_clone_req(req); if (req == NULL) return -ENOMEM; DEBUG_REQ(D_HA, req, "queue lock replay req"); spin_lock_bh(&obd->obd_processing_task_lock); list_add_tail(&req->rq_list, &obd->obd_lock_replay_queue); spin_unlock_bh(&obd->obd_processing_task_lock); wake_up(&obd->obd_next_transno_waitq); return 0; } /* CAVEAT EMPTOR: The incoming request message has been swabbed * (i.e. buflens etc are in my own byte order), but type-dependent * buffers (eg mds_body, ost_body etc) have NOT been swabbed. */ if (!transno) { INIT_LIST_HEAD(&req->rq_list); DEBUG_REQ(D_HA, req, "not queueing"); return 1; } /* If we're processing the queue, we want don't want to queue this * message. * * Also, if this request has a transno less than the one we're waiting * for, we should process it now. It could (and currently always will) * be an open request for a descriptor that was opened some time ago. * * Also, a resent, replayed request that has already been * handled will pass through here and be processed immediately. */ spin_lock_bh(&obd->obd_processing_task_lock); if (transno < obd->obd_next_recovery_transno && check_for_clients(obd)) { /* Processing the queue right now, don't re-add. */ LASSERT(list_empty(&req->rq_list)); spin_unlock_bh(&obd->obd_processing_task_lock); return 1; } spin_unlock_bh(&obd->obd_processing_task_lock); /* A resent, replayed request that is still on the queue; just drop it. The queued request will handle this. */ if ((lustre_msg_get_flags(req->rq_reqmsg) & (MSG_RESENT | MSG_REPLAY)) == (MSG_RESENT | MSG_REPLAY)) { DEBUG_REQ(D_ERROR, req, "dropping resent queued req"); return 0; } req = ptlrpc_clone_req(req); if (req == NULL) return -ENOMEM; spin_lock_bh(&obd->obd_processing_task_lock); /* XXX O(n^2) */ list_for_each(tmp, &obd->obd_req_replay_queue) { struct ptlrpc_request *reqiter = list_entry(tmp, struct ptlrpc_request, rq_list); if (reqiter->rq_reqmsg->transno > transno) { list_add_tail(&req->rq_list, &reqiter->rq_list); inserted = 1; break; } } if (!inserted) list_add_tail(&req->rq_list, &obd->obd_req_replay_queue); obd->obd_requests_queued_for_recovery++; wake_up(&obd->obd_next_transno_waitq); spin_unlock_bh(&obd->obd_processing_task_lock); return 0; } struct obd_device * target_req2obd(struct ptlrpc_request *req) { return req->rq_export->exp_obd; } int target_send_reply_msg (struct ptlrpc_request *req, int rc, int fail_id) { if (OBD_FAIL_CHECK(fail_id | OBD_FAIL_ONCE)) { obd_fail_loc |= OBD_FAIL_ONCE | OBD_FAILED; DEBUG_REQ(D_ERROR, req, "dropping reply"); /* NB this does _not_ send with ACK disabled, to simulate * sending OK, but timing out for the ACK */ if (req->rq_reply_state != NULL) { if (!req->rq_reply_state->rs_difficult) { lustre_free_reply_state (req->rq_reply_state); req->rq_reply_state = NULL; } else { struct ptlrpc_service *svc = req->rq_rqbd->rqbd_srv_ni->sni_service; atomic_inc(&svc->srv_outstanding_replies); } } return (-ECOMM); } if (rc) { req->rq_status = rc; return (ptlrpc_error(req)); } else { DEBUG_REQ(D_NET, req, "sending reply"); } return (ptlrpc_send_reply(req, 1)); } void target_send_reply(struct ptlrpc_request *req, int rc, int fail_id) { int netrc; unsigned long flags; struct ptlrpc_reply_state *rs; struct obd_device *obd; struct obd_export *exp; struct ptlrpc_srv_ni *sni; struct ptlrpc_service *svc; sni = req->rq_rqbd->rqbd_srv_ni; svc = sni->sni_service; rs = req->rq_reply_state; if (rs == NULL || !rs->rs_difficult) { /* The easy case; no notifiers and reply_out_callback() * cleans up (i.e. we can't look inside rs after a * successful send) */ netrc = target_send_reply_msg (req, rc, fail_id); LASSERT (netrc == 0 || req->rq_reply_state == NULL); return; } /* must be an export if locks saved */ LASSERT (req->rq_export != NULL); /* req/reply consistent */ LASSERT (rs->rs_srv_ni == sni); /* "fresh" reply */ LASSERT (!rs->rs_scheduled); LASSERT (!rs->rs_scheduled_ever); LASSERT (!rs->rs_handled); LASSERT (!rs->rs_on_net); LASSERT (rs->rs_export == NULL); LASSERT (list_empty(&rs->rs_obd_list)); LASSERT (list_empty(&rs->rs_exp_list)); exp = class_export_get (req->rq_export); obd = exp->exp_obd; /* disable reply scheduling onto srv_reply_queue while I'm setting up */ rs->rs_scheduled = 1; rs->rs_on_net = 1; rs->rs_xid = req->rq_xid; rs->rs_transno = req->rq_transno; rs->rs_export = exp; spin_lock_irqsave (&obd->obd_uncommitted_replies_lock, flags); if (rs->rs_transno > obd->obd_last_committed) { /* not committed already */ list_add_tail (&rs->rs_obd_list, &obd->obd_uncommitted_replies); } spin_unlock (&obd->obd_uncommitted_replies_lock); spin_lock (&exp->exp_lock); list_add_tail (&rs->rs_exp_list, &exp->exp_outstanding_replies); spin_unlock_irqrestore (&exp->exp_lock, flags); netrc = target_send_reply_msg (req, rc, fail_id); spin_lock_irqsave (&svc->srv_lock, flags); svc->srv_n_difficult_replies++; if (netrc != 0) /* error sending: reply is off the net */ rs->rs_on_net = 0; if (!rs->rs_on_net || /* some notifier */ list_empty(&rs->rs_exp_list) || /* completed already */ list_empty(&rs->rs_obd_list)) { list_add_tail (&rs->rs_list, &svc->srv_reply_queue); wake_up (&svc->srv_waitq); } else { list_add (&rs->rs_list, &sni->sni_active_replies); rs->rs_scheduled = 0; /* allow notifier to schedule */ } spin_unlock_irqrestore (&svc->srv_lock, flags); } int target_handle_ping(struct ptlrpc_request *req) { return lustre_pack_reply(req, 0, NULL, NULL); }