/* * Copyright (c) 2009-2012, Salvatore Sanfilippo * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions are met: * * * Redistributions of source code must retain the above copyright notice, * this list of conditions and the following disclaimer. * * Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * Neither the name of Redis nor the names of its contributors may be used * to endorse or promote products derived from this software without * specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE * LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE * POSSIBILITY OF SUCH DAMAGE. */ #include "server.h" /* ================================ MULTI/EXEC ============================== */ /* Client state initialization for MULTI/EXEC */ void initClientMultiState(client *c) { c->mstate.commands = NULL; c->mstate.count = 0; c->mstate.cmd_flags = 0; c->mstate.cmd_inv_flags = 0; } /* Release all the resources associated with MULTI/EXEC state */ void freeClientMultiState(client *c) { int j; for (j = 0; j < c->mstate.count; j++) { int i; multiCmd *mc = c->mstate.commands+j; for (i = 0; i < mc->argc; i++) decrRefCount(mc->argv[i]); zfree(mc->argv); } zfree(c->mstate.commands); } /* Add a new command into the MULTI commands queue */ void queueMultiCommand(client *c) { multiCmd *mc; int j; /* No sense to waste memory if the transaction is already aborted. * this is useful in case client sends these in a pipeline, or doesn't * bother to read previous responses and didn't notice the multi was already * aborted. */ if (c->flags & CLIENT_DIRTY_EXEC) return; c->mstate.commands = zrealloc(c->mstate.commands, sizeof(multiCmd)*(c->mstate.count+1)); mc = c->mstate.commands+c->mstate.count; mc->cmd = c->cmd; mc->argc = c->argc; mc->argv = zmalloc(sizeof(robj*)*c->argc); memcpy(mc->argv,c->argv,sizeof(robj*)*c->argc); for (j = 0; j < c->argc; j++) incrRefCount(mc->argv[j]); c->mstate.count++; c->mstate.cmd_flags |= c->cmd->flags; c->mstate.cmd_inv_flags |= ~c->cmd->flags; } void discardTransaction(client *c) { freeClientMultiState(c); initClientMultiState(c); c->flags &= ~(CLIENT_MULTI|CLIENT_DIRTY_CAS|CLIENT_DIRTY_EXEC); unwatchAllKeys(c); } /* Flag the transaction as DIRTY_EXEC so that EXEC will fail. * Should be called every time there is an error while queueing a command. */ void flagTransaction(client *c) { if (c->flags & CLIENT_MULTI) c->flags |= CLIENT_DIRTY_EXEC; } void multiCommand(client *c) { if (c->flags & CLIENT_MULTI) { addReplyError(c,"MULTI calls can not be nested"); return; } c->flags |= CLIENT_MULTI; addReply(c,shared.ok); } void discardCommand(client *c) { if (!(c->flags & CLIENT_MULTI)) { addReplyError(c,"DISCARD without MULTI"); return; } discardTransaction(c); addReply(c,shared.ok); } void beforePropagateMulti() { /* Propagating MULTI */ serverAssert(!server.propagate_in_transaction); server.propagate_in_transaction = 1; } void afterPropagateExec() { /* Propagating EXEC */ serverAssert(server.propagate_in_transaction == 1); server.propagate_in_transaction = 0; } /* Send a MULTI command to all the slaves and AOF file. Check the execCommand * implementation for more information. */ void execCommandPropagateMulti(int dbid) { beforePropagateMulti(); propagate(server.multiCommand,dbid,&shared.multi,1, PROPAGATE_AOF|PROPAGATE_REPL); } void execCommandPropagateExec(int dbid) { propagate(server.execCommand,dbid,&shared.exec,1, PROPAGATE_AOF|PROPAGATE_REPL); afterPropagateExec(); } /* Aborts a transaction, with a specific error message. * The transaction is always aborted with -EXECABORT so that the client knows * the server exited the multi state, but the actual reason for the abort is * included too. * Note: 'error' may or may not end with \r\n. see addReplyErrorFormat. */ void execCommandAbort(client *c, sds error) { discardTransaction(c); if (error[0] == '-') error++; addReplyErrorFormat(c, "-EXECABORT Transaction discarded because of: %s", error); /* Send EXEC to clients waiting data from MONITOR. We did send a MULTI * already, and didn't send any of the queued commands, now we'll just send * EXEC so it is clear that the transaction is over. */ if (listLength(server.monitors) && !server.loading) replicationFeedMonitors(c,server.monitors,c->db->id,c->argv,c->argc); } void execCommand(client *c) { int j; robj **orig_argv; int orig_argc; struct redisCommand *orig_cmd; int was_master = server.masterhost == NULL; if (!(c->flags & CLIENT_MULTI)) { addReplyError(c,"EXEC without MULTI"); return; } /* Check if we need to abort the EXEC because: * 1) Some WATCHed key was touched. * 2) There was a previous error while queueing commands. * A failed EXEC in the first case returns a multi bulk nil object * (technically it is not an error but a special behavior), while * in the second an EXECABORT error is returned. */ if (c->flags & (CLIENT_DIRTY_CAS|CLIENT_DIRTY_EXEC)) { addReply(c, c->flags & CLIENT_DIRTY_EXEC ? shared.execaborterr : shared.nullarray[c->resp]); discardTransaction(c); goto handle_monitor; } uint64_t old_flags = c->flags; /* we do not want to allow blocking commands inside multi */ c->flags |= CLIENT_DENY_BLOCKING; /* Exec all the queued commands */ unwatchAllKeys(c); /* Unwatch ASAP otherwise we'll waste CPU cycles */ server.in_exec = 1; orig_argv = c->argv; orig_argc = c->argc; orig_cmd = c->cmd; addReplyArrayLen(c,c->mstate.count); for (j = 0; j < c->mstate.count; j++) { c->argc = c->mstate.commands[j].argc; c->argv = c->mstate.commands[j].argv; c->cmd = c->mstate.commands[j].cmd; /* ACL permissions are also checked at the time of execution in case * they were changed after the commands were queued. */ int acl_errpos; int acl_retval = ACLCheckAllPerm(c,&acl_errpos); if (acl_retval != ACL_OK) { char *reason; switch (acl_retval) { case ACL_DENIED_CMD: reason = "no permission to execute the command or subcommand"; break; case ACL_DENIED_KEY: reason = "no permission to touch the specified keys"; break; case ACL_DENIED_CHANNEL: reason = "no permission to access one of the channels used " "as arguments"; break; default: reason = "no permission"; break; } addACLLogEntry(c,acl_retval,acl_errpos,NULL); addReplyErrorFormat(c, "-NOPERM ACLs rules changed between the moment the " "transaction was accumulated and the EXEC call. " "This command is no longer allowed for the " "following reason: %s", reason); } else { call(c,server.loading ? CMD_CALL_NONE : CMD_CALL_FULL); serverAssert((c->flags & CLIENT_BLOCKED) == 0); } /* Commands may alter argc/argv, restore mstate. */ c->mstate.commands[j].argc = c->argc; c->mstate.commands[j].argv = c->argv; c->mstate.commands[j].cmd = c->cmd; } // restore old DENY_BLOCKING value if (!(old_flags & CLIENT_DENY_BLOCKING)) c->flags &= ~CLIENT_DENY_BLOCKING; c->argv = orig_argv; c->argc = orig_argc; c->cmd = orig_cmd; discardTransaction(c); /* Make sure the EXEC command will be propagated as well if MULTI * was already propagated. */ if (server.propagate_in_transaction) { int is_master = server.masterhost == NULL; server.dirty++; /* If inside the MULTI/EXEC block this instance was suddenly * switched from master to slave (using the SLAVEOF command), the * initial MULTI was propagated into the replication backlog, but the * rest was not. We need to make sure to at least terminate the * backlog with the final EXEC. */ if (server.repl_backlog && was_master && !is_master) { char *execcmd = "*1\r\n$4\r\nEXEC\r\n"; feedReplicationBacklog(execcmd,strlen(execcmd)); } afterPropagateExec(); } server.in_exec = 0; handle_monitor: /* Send EXEC to clients waiting data from MONITOR. We do it here * since the natural order of commands execution is actually: * MUTLI, EXEC, ... commands inside transaction ... * Instead EXEC is flagged as CMD_SKIP_MONITOR in the command * table, and we do it here with correct ordering. */ if (listLength(server.monitors) && !server.loading) replicationFeedMonitors(c,server.monitors,c->db->id,c->argv,c->argc); } /* ===================== WATCH (CAS alike for MULTI/EXEC) =================== * * The implementation uses a per-DB hash table mapping keys to list of clients * WATCHing those keys, so that given a key that is going to be modified * we can mark all the associated clients as dirty. * * Also every client contains a list of WATCHed keys so that's possible to * un-watch such keys when the client is freed or when UNWATCH is called. */ /* In the client->watched_keys list we need to use watchedKey structures * as in order to identify a key in Redis we need both the key name and the * DB */ typedef struct watchedKey { robj *key; redisDb *db; } watchedKey; /* Watch for the specified key */ void watchForKey(client *c, robj *key) { list *clients = NULL; listIter li; listNode *ln; watchedKey *wk; /* Check if we are already watching for this key */ listRewind(c->watched_keys,&li); while((ln = listNext(&li))) { wk = listNodeValue(ln); if (wk->db == c->db && equalStringObjects(key,wk->key)) return; /* Key already watched */ } /* This key is not already watched in this DB. Let's add it */ clients = dictFetchValue(c->db->watched_keys,key); if (!clients) { clients = listCreate(); dictAdd(c->db->watched_keys,key,clients); incrRefCount(key); } listAddNodeTail(clients,c); /* Add the new key to the list of keys watched by this client */ wk = zmalloc(sizeof(*wk)); wk->key = key; wk->db = c->db; incrRefCount(key); listAddNodeTail(c->watched_keys,wk); } /* Unwatch all the keys watched by this client. To clean the EXEC dirty * flag is up to the caller. */ void unwatchAllKeys(client *c) { listIter li; listNode *ln; if (listLength(c->watched_keys) == 0) return; listRewind(c->watched_keys,&li); while((ln = listNext(&li))) { list *clients; watchedKey *wk; /* Lookup the watched key -> clients list and remove the client * from the list */ wk = listNodeValue(ln); clients = dictFetchValue(wk->db->watched_keys, wk->key); serverAssertWithInfo(c,NULL,clients != NULL); listDelNode(clients,listSearchKey(clients,c)); /* Kill the entry at all if this was the only client */ if (listLength(clients) == 0) dictDelete(wk->db->watched_keys, wk->key); /* Remove this watched key from the client->watched list */ listDelNode(c->watched_keys,ln); decrRefCount(wk->key); zfree(wk); } } /* "Touch" a key, so that if this key is being WATCHed by some client the * next EXEC will fail. */ void touchWatchedKey(redisDb *db, robj *key) { list *clients; listIter li; listNode *ln; if (dictSize(db->watched_keys) == 0) return; clients = dictFetchValue(db->watched_keys, key); if (!clients) return; /* Mark all the clients watching this key as CLIENT_DIRTY_CAS */ /* Check if we are already watching for this key */ listRewind(clients,&li); while((ln = listNext(&li))) { client *c = listNodeValue(ln); c->flags |= CLIENT_DIRTY_CAS; } } /* Set CLIENT_DIRTY_CAS to all clients of DB when DB is dirty. * It may happen in the following situations: * FLUSHDB, FLUSHALL, SWAPDB * * replaced_with: for SWAPDB, the WATCH should be invalidated if * the key exists in either of them, and skipped only if it * doesn't exist in both. */ void touchAllWatchedKeysInDb(redisDb *emptied, redisDb *replaced_with) { listIter li; listNode *ln; dictEntry *de; if (dictSize(emptied->watched_keys) == 0) return; dictIterator *di = dictGetSafeIterator(emptied->watched_keys); while((de = dictNext(di)) != NULL) { robj *key = dictGetKey(de); list *clients = dictGetVal(de); if (!clients) continue; listRewind(clients,&li); while((ln = listNext(&li))) { client *c = listNodeValue(ln); if (dictFind(emptied->dict, key->ptr)) { c->flags |= CLIENT_DIRTY_CAS; } else if (replaced_with && dictFind(replaced_with->dict, key->ptr)) { c->flags |= CLIENT_DIRTY_CAS; } } } dictReleaseIterator(di); } void watchCommand(client *c) { int j; if (c->flags & CLIENT_MULTI) { addReplyError(c,"WATCH inside MULTI is not allowed"); return; } for (j = 1; j < c->argc; j++) watchForKey(c,c->argv[j]); addReply(c,shared.ok); } void unwatchCommand(client *c) { unwatchAllKeys(c); c->flags &= (~CLIENT_DIRTY_CAS); addReply(c,shared.ok); }