/* * Copyright (C) 2007-2009 Red Hat, Inc. All rights reserved. * * This file is part of LVM2. * * This copyrighted material is made available to anyone wishing to use, * modify, copy, or redistribute it subject to the terms and conditions * of the GNU Lesser General Public License v.2.1. * * You should have received a copy of the GNU Lesser General Public License * along with this program; if not, write to the Free Software Foundation, * Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA */ /* * This provides the interface between clvmd and OpenAIS as the cluster * and lock manager. */ #include "clvmd-common.h" #include #include #include #include #include #include #include #include "locking.h" #include "clvm.h" #include "clvmd-comms.h" #include "lvm-functions.h" #include "clvmd.h" /* Timeout value for several openais calls */ #define TIMEOUT 10 static void openais_cpg_deliver_callback (cpg_handle_t handle, const struct cpg_name *groupName, uint32_t nodeid, uint32_t pid, void *msg, size_t msg_len); static void openais_cpg_confchg_callback(cpg_handle_t handle, const struct cpg_name *groupName, const struct cpg_address *member_list, size_t member_list_entries, const struct cpg_address *left_list, size_t left_list_entries, const struct cpg_address *joined_list, size_t joined_list_entries); static void _cluster_closedown(void); /* Hash list of nodes in the cluster */ static struct dm_hash_table *node_hash; /* For associating lock IDs & resource handles */ static struct dm_hash_table *lock_hash; /* Number of active nodes */ static int num_nodes; static unsigned int our_nodeid; static struct local_client *cluster_client; /* OpenAIS handles */ static cpg_handle_t cpg_handle; static SaLckHandleT lck_handle; static struct cpg_name cpg_group_name; /* Openais callback structs */ cpg_callbacks_t openais_cpg_callbacks = { .cpg_deliver_fn = openais_cpg_deliver_callback, .cpg_confchg_fn = openais_cpg_confchg_callback, }; struct node_info { enum {NODE_UNKNOWN, NODE_DOWN, NODE_UP, NODE_CLVMD} state; int nodeid; }; struct lock_info { SaLckResourceHandleT res_handle; SaLckLockIdT lock_id; SaNameT lock_name; }; /* Set errno to something approximating the right value and return 0 or -1 */ static int ais_to_errno(SaAisErrorT err) { switch(err) { case SA_AIS_OK: return 0; case SA_AIS_ERR_LIBRARY: errno = EINVAL; break; case SA_AIS_ERR_VERSION: errno = EINVAL; break; case SA_AIS_ERR_INIT: errno = EINVAL; break; case SA_AIS_ERR_TIMEOUT: errno = ETIME; break; case SA_AIS_ERR_TRY_AGAIN: errno = EAGAIN; break; case SA_AIS_ERR_INVALID_PARAM: errno = EINVAL; break; case SA_AIS_ERR_NO_MEMORY: errno = ENOMEM; break; case SA_AIS_ERR_BAD_HANDLE: errno = EINVAL; break; case SA_AIS_ERR_BUSY: errno = EBUSY; break; case SA_AIS_ERR_ACCESS: errno = EPERM; break; case SA_AIS_ERR_NOT_EXIST: errno = ENOENT; break; case SA_AIS_ERR_NAME_TOO_LONG: errno = ENAMETOOLONG; break; case SA_AIS_ERR_EXIST: errno = EEXIST; break; case SA_AIS_ERR_NO_SPACE: errno = ENOSPC; break; case SA_AIS_ERR_INTERRUPT: errno = EINTR; break; case SA_AIS_ERR_NAME_NOT_FOUND: errno = ENOENT; break; case SA_AIS_ERR_NO_RESOURCES: errno = ENOMEM; break; case SA_AIS_ERR_NOT_SUPPORTED: errno = EOPNOTSUPP; break; case SA_AIS_ERR_BAD_OPERATION: errno = EINVAL; break; case SA_AIS_ERR_FAILED_OPERATION: errno = EIO; break; case SA_AIS_ERR_MESSAGE_ERROR: errno = EIO; break; case SA_AIS_ERR_QUEUE_FULL: errno = EXFULL; break; case SA_AIS_ERR_QUEUE_NOT_AVAILABLE: errno = EINVAL; break; case SA_AIS_ERR_BAD_FLAGS: errno = EINVAL; break; case SA_AIS_ERR_TOO_BIG: errno = E2BIG; break; case SA_AIS_ERR_NO_SECTIONS: errno = ENOMEM; break; default: errno = EINVAL; break; } return -1; } static char *print_openais_csid(const char *csid) { static char buf[128]; int id; memcpy(&id, csid, sizeof(int)); sprintf(buf, "%d", id); return buf; } static int add_internal_client(int fd, fd_callback_t callback) { struct local_client *client; DEBUGLOG("Add_internal_client, fd = %d\n", fd); client = calloc(1, sizeof(struct local_client)); if (!client) { DEBUGLOG("malloc failed\n"); return -1; } client->fd = fd; client->type = CLUSTER_INTERNAL; client->callback = callback; add_client(client); /* Set Close-on-exec */ fcntl(fd, F_SETFD, 1); return 0; } static void openais_cpg_deliver_callback (cpg_handle_t handle, const struct cpg_name *groupName, uint32_t nodeid, uint32_t pid, void *msg, size_t msg_len) { int target_nodeid; memcpy(&target_nodeid, msg, OPENAIS_CSID_LEN); DEBUGLOG("%u got message from nodeid %d for %d. len %" PRIsize_t "\n", our_nodeid, nodeid, target_nodeid, msg_len-4); if (nodeid != our_nodeid) if (target_nodeid == our_nodeid || target_nodeid == 0) process_message(cluster_client, (char *)msg+OPENAIS_CSID_LEN, msg_len-OPENAIS_CSID_LEN, (char*)&nodeid); } static void openais_cpg_confchg_callback(cpg_handle_t handle, const struct cpg_name *groupName, const struct cpg_address *member_list, size_t member_list_entries, const struct cpg_address *left_list, size_t left_list_entries, const struct cpg_address *joined_list, size_t joined_list_entries) { int i; struct node_info *ninfo; DEBUGLOG("confchg callback. %" PRIsize_t " joined, " "%" PRIsize_t " left, %" PRIsize_t " members\n", joined_list_entries, left_list_entries, member_list_entries); for (i=0; inodeid = joined_list[i].nodeid; dm_hash_insert_binary(node_hash, (char *)&ninfo->nodeid, OPENAIS_CSID_LEN, ninfo); } } ninfo->state = NODE_CLVMD; } for (i=0; istate = NODE_DOWN; } for (i=0; inodeid = member_list[i].nodeid; dm_hash_insert_binary(node_hash, (char *)&ninfo->nodeid, OPENAIS_CSID_LEN, ninfo); } } ninfo->state = NODE_CLVMD; } num_nodes = member_list_entries; } static int lck_dispatch(struct local_client *client, char *buf, int len, const char *csid, struct local_client **new_client) { *new_client = NULL; saLckDispatch(lck_handle, SA_DISPATCH_ONE); return 1; } static int _init_cluster(void) { SaAisErrorT err; SaVersionT ver = { 'B', 1, 1 }; int select_fd; node_hash = dm_hash_create(100); lock_hash = dm_hash_create(10); err = cpg_initialize(&cpg_handle, &openais_cpg_callbacks); if (err != SA_AIS_OK) { syslog(LOG_ERR, "Cannot initialise OpenAIS CPG service: %d", err); DEBUGLOG("Cannot initialise OpenAIS CPG service: %d", err); return ais_to_errno(err); } err = saLckInitialize(&lck_handle, NULL, &ver); if (err != SA_AIS_OK) { cpg_initialize(&cpg_handle, &openais_cpg_callbacks); syslog(LOG_ERR, "Cannot initialise OpenAIS lock service: %d", err); DEBUGLOG("Cannot initialise OpenAIS lock service: %d\n\n", err); return ais_to_errno(err); } /* Connect to the clvmd group */ strcpy((char *)cpg_group_name.value, "clvmd"); cpg_group_name.length = strlen((char *)cpg_group_name.value); err = cpg_join(cpg_handle, &cpg_group_name); if (err != SA_AIS_OK) { cpg_finalize(cpg_handle); saLckFinalize(lck_handle); syslog(LOG_ERR, "Cannot join clvmd process group"); DEBUGLOG("Cannot join clvmd process group: %d\n", err); return ais_to_errno(err); } err = cpg_local_get(cpg_handle, &our_nodeid); if (err != SA_AIS_OK) { cpg_finalize(cpg_handle); saLckFinalize(lck_handle); syslog(LOG_ERR, "Cannot get local node id\n"); return ais_to_errno(err); } DEBUGLOG("Our local node id is %d\n", our_nodeid); saLckSelectionObjectGet(lck_handle, (SaSelectionObjectT *)&select_fd); add_internal_client(select_fd, lck_dispatch); DEBUGLOG("Connected to OpenAIS\n"); return 0; } static void _cluster_closedown(void) { DEBUGLOG("cluster_closedown\n"); destroy_lvhash(); saLckFinalize(lck_handle); cpg_finalize(cpg_handle); } static void _get_our_csid(char *csid) { memcpy(csid, &our_nodeid, sizeof(int)); } /* OpenAIS doesn't really have nmode names so we just use the node ID in hex instead */ static int _csid_from_name(char *csid, const char *name) { int nodeid; struct node_info *ninfo; if (sscanf(name, "%x", &nodeid) == 1) { ninfo = dm_hash_lookup_binary(node_hash, csid, OPENAIS_CSID_LEN); if (ninfo) return nodeid; } return -1; } static int _name_from_csid(const char *csid, char *name) { struct node_info *ninfo; ninfo = dm_hash_lookup_binary(node_hash, csid, OPENAIS_CSID_LEN); if (!ninfo) { sprintf(name, "UNKNOWN %s", print_openais_csid(csid)); return -1; } sprintf(name, "%x", ninfo->nodeid); return 0; } static int _get_num_nodes() { DEBUGLOG("num_nodes = %d\n", num_nodes); return num_nodes; } /* Node is now known to be running a clvmd */ static void _add_up_node(const char *csid) { struct node_info *ninfo; ninfo = dm_hash_lookup_binary(node_hash, csid, OPENAIS_CSID_LEN); if (!ninfo) { DEBUGLOG("openais_add_up_node no node_hash entry for csid %s\n", print_openais_csid(csid)); return; } DEBUGLOG("openais_add_up_node %d\n", ninfo->nodeid); ninfo->state = NODE_CLVMD; return; } /* Call a callback for each node, so the caller knows whether it's up or down */ static int _cluster_do_node_callback(struct local_client *master_client, void (*callback)(struct local_client *, const char *csid, int node_up)) { struct dm_hash_node *hn; struct node_info *ninfo; int somedown = 0; dm_hash_iterate(hn, node_hash) { char csid[OPENAIS_CSID_LEN]; ninfo = dm_hash_get_data(node_hash, hn); memcpy(csid, dm_hash_get_key(node_hash, hn), OPENAIS_CSID_LEN); DEBUGLOG("down_callback. node %d, state = %d\n", ninfo->nodeid, ninfo->state); if (ninfo->state != NODE_DOWN) callback(master_client, csid, ninfo->state == NODE_CLVMD); if (ninfo->state != NODE_CLVMD) somedown = -1; } return somedown; } /* Real locking */ static int _lock_resource(char *resource, int mode, int flags, int *lockid) { struct lock_info *linfo; SaLckResourceHandleT res_handle; SaAisErrorT err; SaLckLockIdT lock_id; SaLckLockStatusT lockStatus; /* This needs to be converted from DLM/LVM2 value for OpenAIS LCK */ if (flags & LCK_NONBLOCK) flags = SA_LCK_LOCK_NO_QUEUE; linfo = malloc(sizeof(struct lock_info)); if (!linfo) return -1; DEBUGLOG("lock_resource '%s', flags=%d, mode=%d\n", resource, flags, mode); linfo->lock_name.length = strlen(resource)+1; strcpy((char *)linfo->lock_name.value, resource); err = saLckResourceOpen(lck_handle, &linfo->lock_name, SA_LCK_RESOURCE_CREATE, TIMEOUT, &res_handle); if (err != SA_AIS_OK) { DEBUGLOG("ResourceOpen returned %d\n", err); free(linfo); return ais_to_errno(err); } err = saLckResourceLock( res_handle, &lock_id, mode, flags, 0, SA_TIME_END, &lockStatus); if (err != SA_AIS_OK && lockStatus != SA_LCK_LOCK_GRANTED) { free(linfo); saLckResourceClose(res_handle); return ais_to_errno(err); } /* Wait for it to complete */ DEBUGLOG("lock_resource returning %d, lock_id=%" PRIx64 "\n", err, lock_id); linfo->lock_id = lock_id; linfo->res_handle = res_handle; dm_hash_insert(lock_hash, resource, linfo); return ais_to_errno(err); } static int _unlock_resource(char *resource, int lockid) { SaAisErrorT err; struct lock_info *linfo; DEBUGLOG("unlock_resource %s\n", resource); linfo = dm_hash_lookup(lock_hash, resource); if (!linfo) return 0; DEBUGLOG("unlock_resource: lockid: %" PRIx64 "\n", linfo->lock_id); err = saLckResourceUnlock(linfo->lock_id, SA_TIME_END); if (err != SA_AIS_OK) { DEBUGLOG("Unlock returned %d\n", err); return ais_to_errno(err); } /* Release the resource */ dm_hash_remove(lock_hash, resource); saLckResourceClose(linfo->res_handle); free(linfo); return ais_to_errno(err); } static int _sync_lock(const char *resource, int mode, int flags, int *lockid) { int status; char lock1[strlen(resource)+3]; char lock2[strlen(resource)+3]; snprintf(lock1, sizeof(lock1), "%s-1", resource); snprintf(lock2, sizeof(lock2), "%s-2", resource); switch (mode) { case LCK_EXCL: status = _lock_resource(lock1, SA_LCK_EX_LOCK_MODE, flags, lockid); if (status) goto out; /* If we can't get this lock too then bail out */ status = _lock_resource(lock2, SA_LCK_EX_LOCK_MODE, LCK_NONBLOCK, lockid); if (status == SA_LCK_LOCK_NOT_QUEUED) { _unlock_resource(lock1, *lockid); status = -1; errno = EAGAIN; } break; case LCK_PREAD: case LCK_READ: status = _lock_resource(lock1, SA_LCK_PR_LOCK_MODE, flags, lockid); if (status) goto out; _unlock_resource(lock2, *lockid); break; case LCK_WRITE: status = _lock_resource(lock2, SA_LCK_EX_LOCK_MODE, flags, lockid); if (status) goto out; _unlock_resource(lock1, *lockid); break; default: status = -1; errno = EINVAL; break; } out: *lockid = mode; return status; } static int _sync_unlock(const char *resource, int lockid) { int status = 0; char lock1[strlen(resource)+3]; char lock2[strlen(resource)+3]; snprintf(lock1, sizeof(lock1), "%s-1", resource); snprintf(lock2, sizeof(lock2), "%s-2", resource); _unlock_resource(lock1, lockid); _unlock_resource(lock2, lockid); return status; } /* We are always quorate ! */ static int _is_quorate() { return 1; } static int _get_main_cluster_fd(void) { int select_fd; cpg_fd_get(cpg_handle, &select_fd); return select_fd; } static int _cluster_fd_callback(struct local_client *fd, char *buf, int len, const char *csid, struct local_client **new_client) { cluster_client = fd; *new_client = NULL; cpg_dispatch(cpg_handle, SA_DISPATCH_ONE); return 1; } static int _cluster_send_message(const void *buf, int msglen, const char *csid, const char *errtext) { struct iovec iov[2]; SaAisErrorT err; int target_node; if (csid) memcpy(&target_node, csid, OPENAIS_CSID_LEN); else target_node = 0; iov[0].iov_base = &target_node; iov[0].iov_len = sizeof(int); iov[1].iov_base = (char *)buf; iov[1].iov_len = msglen; err = cpg_mcast_joined(cpg_handle, CPG_TYPE_AGREED, iov, 2); return ais_to_errno(err); } /* We don't have a cluster name to report here */ static int _get_cluster_name(char *buf, int buflen) { strncpy(buf, "OpenAIS", buflen); return 0; } static struct cluster_ops _cluster_openais_ops = { .name = "openais", .cluster_init_completed = NULL, .cluster_send_message = _cluster_send_message, .name_from_csid = _name_from_csid, .csid_from_name = _csid_from_name, .get_num_nodes = _get_num_nodes, .cluster_fd_callback = _cluster_fd_callback, .get_main_cluster_fd = _get_main_cluster_fd, .cluster_do_node_callback = _cluster_do_node_callback, .is_quorate = _is_quorate, .get_our_csid = _get_our_csid, .add_up_node = _add_up_node, .reread_config = NULL, .cluster_closedown = _cluster_closedown, .get_cluster_name = _get_cluster_name, .sync_lock = _sync_lock, .sync_unlock = _sync_unlock, }; struct cluster_ops *init_openais_cluster(void) { if (!_init_cluster()) return &_cluster_openais_ops; else return NULL; }