/* $NetBSD: cluster_locking.c,v 1.1.1.3 2009/12/02 00:26:24 haad Exp $ */ /* * Copyright (C) 2002-2004 Sistina Software, Inc. All rights reserved. * Copyright (C) 2004-2009 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 */ /* * Locking functions for LVM. * The main purpose of this part of the library is to serialise LVM * management operations across a cluster. */ #include "lib.h" #include "clvm.h" #include "lvm-string.h" #include "locking.h" #include "locking_types.h" #include "toolcontext.h" #include #include #include #include #include #ifndef CLUSTER_LOCKING_INTERNAL int lock_resource(struct cmd_context *cmd, const char *resource, uint32_t flags); int query_resource(const char *resource, int *mode); void locking_end(void); int locking_init(int type, struct config_tree *cf, uint32_t *flags); #endif typedef struct lvm_response { char node[255]; char *response; int status; int len; } lvm_response_t; /* * This gets stuck at the start of memory we allocate so we * can sanity-check it at deallocation time */ #define LVM_SIGNATURE 0x434C564D /* * NOTE: the LVMD uses the socket FD as the client ID, this means * that any client that calls fork() will inherit the context of * it's parent. */ static int _clvmd_sock = -1; /* FIXME Install SIGPIPE handler? */ /* Open connection to the Cluster Manager daemon */ static int _open_local_sock(void) { int local_socket; struct sockaddr_un sockaddr; /* Open local socket */ if ((local_socket = socket(PF_UNIX, SOCK_STREAM, 0)) < 0) { log_error("Local socket creation failed: %s", strerror(errno)); return -1; } memset(&sockaddr, 0, sizeof(sockaddr)); memcpy(sockaddr.sun_path, CLVMD_SOCKNAME, sizeof(CLVMD_SOCKNAME)); sockaddr.sun_family = AF_UNIX; if (connect(local_socket,(struct sockaddr *) &sockaddr, sizeof(sockaddr))) { int saved_errno = errno; log_error("connect() failed on local socket: %s", strerror(errno)); if (close(local_socket)) stack; errno = saved_errno; return -1; } return local_socket; } /* Send a request and return the status */ static int _send_request(char *inbuf, int inlen, char **retbuf) { char outbuf[PIPE_BUF] __attribute((aligned(8))); struct clvm_header *outheader = (struct clvm_header *) outbuf; int len; int off; int buflen; int err; /* Send it to CLVMD */ rewrite: if ( (err = write(_clvmd_sock, inbuf, inlen)) != inlen) { if (err == -1 && errno == EINTR) goto rewrite; log_error("Error writing data to clvmd: %s", strerror(errno)); return 0; } /* Get the response */ reread: if ((len = read(_clvmd_sock, outbuf, sizeof(struct clvm_header))) < 0) { if (errno == EINTR) goto reread; log_error("Error reading data from clvmd: %s", strerror(errno)); return 0; } if (len == 0) { log_error("EOF reading CLVMD"); errno = ENOTCONN; return 0; } /* Allocate buffer */ buflen = len + outheader->arglen; *retbuf = dm_malloc(buflen); if (!*retbuf) { errno = ENOMEM; return 0; } /* Copy the header */ memcpy(*retbuf, outbuf, len); outheader = (struct clvm_header *) *retbuf; /* Read the returned values */ off = 1; /* we've already read the first byte */ while (off <= outheader->arglen && len > 0) { len = read(_clvmd_sock, outheader->args + off, buflen - off - offsetof(struct clvm_header, args)); if (len > 0) off += len; } /* Was it an error ? */ if (outheader->status != 0) { errno = outheader->status; /* Only return an error here if there are no node-specific errors present in the message that might have more detail */ if (!(outheader->flags & CLVMD_FLAG_NODEERRS)) { log_error("cluster request failed: %s", strerror(errno)); return 0; } } return 1; } /* Build the structure header and parse-out wildcard node names */ /* FIXME: Cleanup implicit casts of clvmd_cmd (int, char, uint8_t, etc). */ static void _build_header(struct clvm_header *head, int clvmd_cmd, const char *node, int len) { head->cmd = clvmd_cmd; head->status = 0; head->flags = 0; head->clientid = 0; head->arglen = len; if (node) { /* * Allow a couple of special node names: * "*" for all nodes, * "." for the local node only */ if (strcmp(node, "*") == 0) { head->node[0] = '\0'; } else if (strcmp(node, ".") == 0) { head->node[0] = '\0'; head->flags = CLVMD_FLAG_LOCAL; } else strcpy(head->node, node); } else head->node[0] = '\0'; } /* * Send a message to a(or all) node(s) in the cluster and wait for replies */ static int _cluster_request(char clvmd_cmd, const char *node, void *data, int len, lvm_response_t ** response, int *num) { char outbuf[sizeof(struct clvm_header) + len + strlen(node) + 1] __attribute((aligned(8))); char *inptr; char *retbuf = NULL; int status; int i; int num_responses = 0; struct clvm_header *head = (struct clvm_header *) outbuf; lvm_response_t *rarray; *num = 0; if (_clvmd_sock == -1) _clvmd_sock = _open_local_sock(); if (_clvmd_sock == -1) return 0; _build_header(head, clvmd_cmd, node, len); memcpy(head->node + strlen(head->node) + 1, data, len); status = _send_request(outbuf, sizeof(struct clvm_header) + strlen(head->node) + len, &retbuf); if (!status) goto out; /* Count the number of responses we got */ head = (struct clvm_header *) retbuf; inptr = head->args; while (inptr[0]) { num_responses++; inptr += strlen(inptr) + 1; inptr += sizeof(int); inptr += strlen(inptr) + 1; } /* * Allocate response array. * With an extra pair of INTs on the front to sanity * check the pointer when we are given it back to free */ *response = dm_malloc(sizeof(lvm_response_t) * num_responses); if (!*response) { errno = ENOMEM; status = 0; goto out; } rarray = *response; /* Unpack the response into an lvm_response_t array */ inptr = head->args; i = 0; while (inptr[0]) { strcpy(rarray[i].node, inptr); inptr += strlen(inptr) + 1; memcpy(&rarray[i].status, inptr, sizeof(int)); inptr += sizeof(int); rarray[i].response = dm_malloc(strlen(inptr) + 1); if (rarray[i].response == NULL) { /* Free up everything else and return error */ int j; for (j = 0; j < i; j++) dm_free(rarray[i].response); free(*response); errno = ENOMEM; status = -1; goto out; } strcpy(rarray[i].response, inptr); rarray[i].len = strlen(inptr); inptr += strlen(inptr) + 1; i++; } *num = num_responses; *response = rarray; out: if (retbuf) dm_free(retbuf); return status; } /* Free reply array */ static int _cluster_free_request(lvm_response_t * response, int num) { int i; for (i = 0; i < num; i++) { dm_free(response[i].response); } dm_free(response); return 1; } static int _lock_for_cluster(struct cmd_context *cmd, unsigned char clvmd_cmd, uint32_t flags, const char *name) { int status; int i; char *args; const char *node = ""; int len; int saved_errno = errno; lvm_response_t *response = NULL; int num_responses; assert(name); len = strlen(name) + 3; args = alloca(len); strcpy(args + 2, name); args[0] = flags & 0x7F; /* Maskoff lock flags */ args[1] = flags & 0xC0; /* Bitmap flags */ if (mirror_in_sync()) args[1] |= LCK_MIRROR_NOSYNC_MODE; if (dmeventd_monitor_mode()) args[1] |= LCK_DMEVENTD_MONITOR_MODE; if (cmd->partial_activation) args[1] |= LCK_PARTIAL_MODE; /* * VG locks are just that: locks, and have no side effects * so we only need to do them on the local node because all * locks are cluster-wide. * Also, if the lock is exclusive it makes no sense to try to * acquire it on all nodes, so just do that on the local node too. * One exception, is that P_ locks /do/ get distributed across * the cluster because they might have side-effects. */ if (strncmp(name, "P_", 2) && (clvmd_cmd == CLVMD_CMD_LOCK_VG || (flags & LCK_TYPE_MASK) == LCK_EXCL || (flags & LCK_LOCAL) || !(flags & LCK_CLUSTER_VG))) node = "."; status = _cluster_request(clvmd_cmd, node, args, len, &response, &num_responses); /* If any nodes were down then display them and return an error */ for (i = 0; i < num_responses; i++) { if (response[i].status == EHOSTDOWN) { log_error("clvmd not running on node %s", response[i].node); status = 0; errno = response[i].status; } else if (response[i].status) { log_error("Error locking on node %s: %s", response[i].node, response[i].response[0] ? response[i].response : strerror(response[i].status)); status = 0; errno = response[i].status; } } saved_errno = errno; _cluster_free_request(response, num_responses); errno = saved_errno; return status; } /* API entry point for LVM */ #ifdef CLUSTER_LOCKING_INTERNAL static int _lock_resource(struct cmd_context *cmd, const char *resource, uint32_t flags) #else int lock_resource(struct cmd_context *cmd, const char *resource, uint32_t flags) #endif { char lockname[PATH_MAX]; int clvmd_cmd = 0; const char *lock_scope; const char *lock_type = ""; assert(strlen(resource) < sizeof(lockname)); assert(resource); switch (flags & LCK_SCOPE_MASK) { case LCK_VG: if (flags == LCK_VG_BACKUP) { log_very_verbose("Requesting backup of VG metadata for %s", resource); return _lock_for_cluster(cmd, CLVMD_CMD_VG_BACKUP, LCK_CLUSTER_VG, resource); } /* If the VG name is empty then lock the unused PVs */ if (*resource == '#' || (flags & LCK_CACHE)) dm_snprintf(lockname, sizeof(lockname), "P_%s", resource); else dm_snprintf(lockname, sizeof(lockname), "V_%s", resource); lock_scope = "VG"; clvmd_cmd = CLVMD_CMD_LOCK_VG; flags &= LCK_TYPE_MASK; break; case LCK_LV: clvmd_cmd = CLVMD_CMD_LOCK_LV; strcpy(lockname, resource); lock_scope = "LV"; flags &= 0xffdf; /* Mask off HOLD flag */ break; default: log_error("Unrecognised lock scope: %d", flags & LCK_SCOPE_MASK); return 0; } switch(flags & LCK_TYPE_MASK) { case LCK_UNLOCK: lock_type = "UN"; break; case LCK_NULL: lock_type = "NL"; break; case LCK_READ: lock_type = "CR"; break; case LCK_PREAD: lock_type = "PR"; break; case LCK_WRITE: lock_type = "PW"; break; case LCK_EXCL: lock_type = "EX"; break; default: log_error("Unrecognised lock type: %u", flags & LCK_TYPE_MASK); return 0; } log_very_verbose("Locking %s %s %s %s%s%s%s (0x%x)", lock_scope, lockname, lock_type, flags & LCK_NONBLOCK ? "" : "B", flags & LCK_HOLD ? "H" : "", flags & LCK_LOCAL ? "L" : "", flags & LCK_CLUSTER_VG ? "C" : "", flags); /* Send a message to the cluster manager */ return _lock_for_cluster(cmd, clvmd_cmd, flags, lockname); } static int decode_lock_type(const char *response) { if (!response) return LCK_NULL; else if (strcmp(response, "EX")) return LCK_EXCL; else if (strcmp(response, "CR")) return LCK_READ; else if (strcmp(response, "PR")) return LCK_PREAD; stack; return 0; } #ifdef CLUSTER_LOCKING_INTERNAL static int _query_resource(const char *resource, int *mode) #else int query_resource(const char *resource, int *mode) #endif { int i, status, len, num_responses, saved_errno; const char *node = ""; char *args; lvm_response_t *response = NULL; saved_errno = errno; len = strlen(resource) + 3; args = alloca(len); strcpy(args + 2, resource); args[0] = 0; args[1] = LCK_CLUSTER_VG; status = _cluster_request(CLVMD_CMD_LOCK_QUERY, node, args, len, &response, &num_responses); *mode = LCK_NULL; for (i = 0; i < num_responses; i++) { if (response[i].status == EHOSTDOWN) continue; if (!response[i].response[0]) continue; /* * All nodes should use CR, or exactly one node * should held EX. (PR is obsolete) * If two nodes node reports different locks, * something is broken - just return more important mode. */ if (decode_lock_type(response[i].response) > *mode) *mode = decode_lock_type(response[i].response); log_debug("Lock held for %s, node %s : %s", resource, response[i].node, response[i].response); } _cluster_free_request(response, num_responses); errno = saved_errno; return status; } #ifdef CLUSTER_LOCKING_INTERNAL static void _locking_end(void) #else void locking_end(void) #endif { if (_clvmd_sock != -1 && close(_clvmd_sock)) stack; _clvmd_sock = -1; } #ifdef CLUSTER_LOCKING_INTERNAL static void _reset_locking(void) #else void reset_locking(void) #endif { if (close(_clvmd_sock)) stack; _clvmd_sock = _open_local_sock(); if (_clvmd_sock == -1) stack; } #ifdef CLUSTER_LOCKING_INTERNAL int init_cluster_locking(struct locking_type *locking, struct cmd_context *cmd) { locking->lock_resource = _lock_resource; locking->query_resource = _query_resource; locking->fin_locking = _locking_end; locking->reset_locking = _reset_locking; locking->flags = LCK_PRE_MEMLOCK | LCK_CLUSTERED; _clvmd_sock = _open_local_sock(); if (_clvmd_sock == -1) return 0; return 1; } #else int locking_init(int type, struct config_tree *cf, uint32_t *flags) { _clvmd_sock = _open_local_sock(); if (_clvmd_sock == -1) return 0; /* Ask LVM to lock memory before calling us */ *flags |= LCK_PRE_MEMLOCK; *flags |= LCK_CLUSTERED; return 1; } #endif