* impossible since anyway the io_keys stuff will work as lock?
*
* - Serialize special encoded things in a raw form.
+ *
+ * - When putting IO read operations on top of the queue, do this only if
+ * the already-on-top operation is not a save or if it is a save that
+ * is scheduled for later execution. If there is a save that is ready to
+ * fire, let's insert the load operation just before the first save that
+ * is scheduled for later exection for instance.
+ *
+ * - Support MULTI/EXEC transactions via a journal file, that is played on
+ * startup to check if there is cleanup to do. This way we can implement
+ * transactions with our simple file based KV store.
*/
/* Virtual Memory is composed mainly of two subsystems:
*/
void spawnIOThread(void);
+int cacheScheduleIOPushJobs(int flags);
+int processActiveIOJobs(int max);
/* =================== Virtual Memory - Blocking Side ====================== */
server.io_ready_clients = listCreate();
pthread_mutex_init(&server.io_mutex,NULL);
pthread_cond_init(&server.io_condvar,NULL);
+ pthread_mutex_init(&server.bgsavethread_mutex,NULL);
server.io_active_threads = 0;
if (pipe(pipefds) == -1) {
redisLog(REDIS_WARNING,"Unable to intialized DS: pipe(2): %s. Exiting."
* are swappable objects */
int maxtries = 100;
- if (dictSize(db->dict) == 0) continue;
- for (i = 0; i < 5; i++) {
+ for (i = 0; i < 5 && dictSize(db->dict); i++) {
dictEntry *de;
double swappability;
robj keyobj;
}
}
if (best == NULL) {
- /* FIXME: If there are objects that are in the write queue
- * so we can't delete them we should block here, at the cost of
- * slowness as the object cache memory limit is considered
- * n hard limit. */
+ /* Not able to free a single object? we should check if our
+ * IO queues have stuff in queue, and try to consume the queue
+ * otherwise we'll use an infinite amount of memory if changes to
+ * the dataset are faster than I/O */
+ if (listLength(server.cache_io_queue) > 0) {
+ redisLog(REDIS_DEBUG,"--- Busy waiting IO to reclaim memory");
+ cacheScheduleIOPushJobs(REDIS_IO_ASAP);
+ processActiveIOJobs(1);
+ return REDIS_OK;
+ }
+ /* Nothing to free at all... */
return REDIS_ERR;
}
key = dictGetEntryKey(best);
return REDIS_OK;
}
-/* Return true if it's safe to swap out objects in a given moment.
- * Basically we don't want to swap objects out while there is a BGSAVE
- * or a BGAEOREWRITE running in backgroud. */
-int dsCanTouchDiskStore(void) {
- return (server.bgsavechildpid == -1 && server.bgrewritechildpid == -1);
-}
-
/* ==================== Disk store negative caching ========================
*
* When disk store is enabled, we need negative caching, that is, to remember
/* Every time a thread finished a Job, it writes a byte into the write side
* of an unix pipe in order to "awake" the main thread, and this function
- * is called. */
+ * is called.
+ *
+ * If privdata == NULL the function will try to put more jobs in the queue
+ * of IO jobs to process as more room is made. privdata is equal to NULL
+ * when the function is called from the event loop, so we want to push
+ * more IO jobs in the queue. Instead when the function is called by
+ * other functions that want to create a write-barrier to avoid race
+ * conditions we don't push new jobs in the queue. */
void vmThreadedIOCompletedJob(aeEventLoop *el, int fd, void *privdata,
int mask)
{
int retval, processed = 0, toprocess = -1;
REDIS_NOTUSED(el);
REDIS_NOTUSED(mask);
- REDIS_NOTUSED(privdata);
/* For every byte we read in the read side of the pipe, there is one
* I/O job completed to process. */
}
cacheScheduleIODelFlag(j->db,j->key,REDIS_IO_LOADINPROG);
handleClientsBlockedOnSwappedKey(j->db,j->key);
- freeIOJob(j);
} else if (j->type == REDIS_IOJOB_SAVE) {
cacheScheduleIODelFlag(j->db,j->key,REDIS_IO_SAVEINPROG);
- freeIOJob(j);
}
+ freeIOJob(j);
processed++;
+ if (privdata == NULL) cacheScheduleIOPushJobs(0);
if (processed == toprocess) return;
}
if (retval < 0 && errno != EAGAIN) {
iojob *j;
listNode *ln;
REDIS_NOTUSED(arg);
+ long long start;
pthread_detach(pthread_self());
lockThreadedIO();
/* Get a new job to process */
if (listLength(server.io_newjobs) == 0) {
/* Wait for more work to do */
+ redisLog(REDIS_DEBUG,"[T] wait for signal");
pthread_cond_wait(&server.io_condvar,&server.io_mutex);
+ redisLog(REDIS_DEBUG,"[T] signal received");
continue;
}
- redisLog(REDIS_DEBUG,"%ld IO jobs to process",
+ start = ustime();
+ redisLog(REDIS_DEBUG,"[T] %ld IO jobs to process",
listLength(server.io_newjobs));
ln = listFirst(server.io_newjobs);
j = ln->value;
ln = listLast(server.io_processing); /* We use ln later to remove it */
unlockThreadedIO();
- redisLog(REDIS_DEBUG,"Thread %ld: new job type %s: %p about key '%s'",
+ redisLog(REDIS_DEBUG,"[T] %ld: new job type %s: %p about key '%s'",
(long) pthread_self(),
(j->type == REDIS_IOJOB_LOAD) ? "load" : "save",
(void*)j, (char*)j->key->ptr);
if (j->val) j->expire = expire;
} else if (j->type == REDIS_IOJOB_SAVE) {
if (j->val) {
- dsSet(j->db,j->key,j->val);
+ dsSet(j->db,j->key,j->val,j->expire);
} else {
dsDel(j->db,j->key);
}
}
/* Done: insert the job into the processed queue */
- redisLog(REDIS_DEBUG,"Thread %ld completed the job: %p (key %s)",
+ redisLog(REDIS_DEBUG,"[T] %ld completed the job: %p (key %s)",
(long) pthread_self(), (void*)j, (char*)j->key->ptr);
+ redisLog(REDIS_DEBUG,"[T] lock IO");
lockThreadedIO();
+ redisLog(REDIS_DEBUG,"[T] IO locked");
listDelNode(server.io_processing,ln);
listAddNodeTail(server.io_processed,j);
/* Signal the main thread there is new stuff to process */
redisAssert(write(server.io_ready_pipe_write,"x",1) == 1);
+ redisLog(REDIS_DEBUG,"TIME (%c): %lld\n", j->type == REDIS_IOJOB_LOAD ? 'L' : 'S', ustime()-start);
}
/* never reached, but that's the full pattern... */
unlockThreadedIO();
server.io_active_threads++;
}
-/* Wait that all the pending IO Jobs are processed */
-void waitEmptyIOJobsQueue(void) {
- while(1) {
+/* Wait that up to 'max' pending IO Jobs are processed by the I/O thread.
+ * From our point of view an IO job processed means that the count of
+ * server.io_processed must increase by one.
+ *
+ * If max is -1, all the pending IO jobs will be processed.
+ *
+ * Returns the number of IO jobs processed.
+ *
+ * NOTE: while this may appear like a busy loop, we are actually blocked
+ * by IO since we continuously acquire/release the IO lock. */
+int processActiveIOJobs(int max) {
+ int processed = 0;
+
+ while(max == -1 || max > 0) {
int io_processed_len;
+ redisLog(REDIS_DEBUG,"[P] lock IO");
lockThreadedIO();
+ redisLog(REDIS_DEBUG,"Waiting IO jobs processing: new:%d proessing:%d processed:%d",listLength(server.io_newjobs),listLength(server.io_processing),listLength(server.io_processed));
+
if (listLength(server.io_newjobs) == 0 &&
listLength(server.io_processing) == 0)
{
+ /* There is nothing more to process */
+ redisLog(REDIS_DEBUG,"[P] Nothing to process, unlock IO, return");
unlockThreadedIO();
- return;
+ break;
}
+
+#if 1
/* If there are new jobs we need to signal the thread to
- * process the next one. */
- redisLog(REDIS_DEBUG,"waitEmptyIOJobsQueue: new %d, processing %d",
+ * process the next one. FIXME: drop this if useless. */
+ redisLog(REDIS_DEBUG,"[P] waitEmptyIOJobsQueue: new %d, processing %d, processed %d",
listLength(server.io_newjobs),
- listLength(server.io_processing));
+ listLength(server.io_processing),
+ listLength(server.io_processed));
- /* FIXME: signal or not?
if (listLength(server.io_newjobs)) {
+ redisLog(REDIS_DEBUG,"[P] There are new jobs, signal");
pthread_cond_signal(&server.io_condvar);
}
- */
- /* While waiting for empty jobs queue condition we post-process some
- * finshed job, as I/O threads may be hanging trying to write against
- * the io_ready_pipe_write FD but there are so much pending jobs that
- * it's blocking. */
+#endif
+
+ /* Check if we can process some finished job */
io_processed_len = listLength(server.io_processed);
+ redisLog(REDIS_DEBUG,"[P] Unblock IO");
unlockThreadedIO();
+ redisLog(REDIS_DEBUG,"[P] Wait");
+ usleep(10000);
if (io_processed_len) {
vmThreadedIOCompletedJob(NULL,server.io_ready_pipe_read,
(void*)0xdeadbeef,0);
- /* FIXME: probably wiser to drop this sleeps. Anyway
- * the contention on the IO thread will avoid we to loop
- * too fast here. */
- usleep(1000); /* 1 millisecond */
- } else {
- /* FIXME: same as fixme above. */
- usleep(10000); /* 10 milliseconds */
+ processed++;
+ if (max != -1) max--;
}
}
+ return processed;
}
-/* Process all the IO Jobs already completed by threads but still waiting
- * processing from the main thread. */
-void processAllPendingIOJobs(void) {
- while(1) {
+void waitEmptyIOJobsQueue(void) {
+ processActiveIOJobs(-1);
+}
+
+/* Process up to 'max' IO Jobs already completed by threads but still waiting
+ * processing from the main thread.
+ *
+ * If max == -1 all the pending jobs are processed.
+ *
+ * The number of processed jobs is returned. */
+int processPendingIOJobs(int max) {
+ int processed = 0;
+
+ while(max == -1 || max > 0) {
int io_processed_len;
lockThreadedIO();
io_processed_len = listLength(server.io_processed);
unlockThreadedIO();
- if (io_processed_len == 0) return;
+ if (io_processed_len == 0) break;
vmThreadedIOCompletedJob(NULL,server.io_ready_pipe_read,
(void*)0xdeadbeef,0);
+ if (max != -1) max--;
+ processed++;
}
+ return processed;
+}
+
+void processAllPendingIOJobs(void) {
+ processPendingIOJobs(-1);
}
/* This function must be called while with threaded IO locked */
redisLog(REDIS_DEBUG,"Queued IO Job %p type %d about key '%s'\n",
(void*)j, j->type, (char*)j->key->ptr);
listAddNodeTail(server.io_newjobs,j);
- if (server.io_active_threads < server.vm_max_threads)
- spawnIOThread();
}
-void dsCreateIOJob(int type, redisDb *db, robj *key, robj *val) {
+/* Consume all the IO scheduled operations, and all the thread IO jobs
+ * so that eventually the state of diskstore is a point-in-time snapshot.
+ *
+ * This is useful when we need to BGSAVE with diskstore enabled. */
+void cacheForcePointInTime(void) {
+ redisLog(REDIS_NOTICE,"Diskstore: synching on disk to reach point-in-time state.");
+ while (listLength(server.cache_io_queue) != 0) {
+ cacheScheduleIOPushJobs(REDIS_IO_ASAP);
+ processActiveIOJobs(1);
+ }
+ waitEmptyIOJobsQueue();
+ processAllPendingIOJobs();
+}
+
+void cacheCreateIOJob(int type, redisDb *db, robj *key, robj *val, time_t expire) {
iojob *j;
j = zmalloc(sizeof(*j));
incrRefCount(key);
j->val = val;
if (val) incrRefCount(val);
+ j->expire = expire;
lockThreadedIO();
queueIOJob(j);
#define REDIS_IO_LOADINPROG 4
#define REDIS_IO_SAVEINPROG 8
-void cacheScheduleIOPushJobs(int onlyloads);
-
void cacheScheduleIOAddFlag(redisDb *db, robj *key, long flag) {
struct dictEntry *de = dictFind(db->io_queued,key);
* in queue for the same key. */
if (type == REDIS_IO_LOAD && !(flags & REDIS_IO_SAVE)) {
listAddNodeHead(server.cache_io_queue, op);
- cacheScheduleIOPushJobs(1);
+ cacheScheduleIOPushJobs(REDIS_IO_ONLYLOADS);
} else {
/* FIXME: probably when this happens we want to at least move
* the write job about this queue on top, and set the creation time
}
/* Push scheduled IO operations into IO Jobs that the IO thread can process.
- * If 'onlyloads' is true only IO_LOAD jobs are processed: this is useful
- * since it's save to push LOAD IO jobs from any place of the code, while
+ *
+ * If flags include REDIS_IO_ONLYLOADS only load jobs are processed:this is
+ * useful since it's safe to push LOAD IO jobs from any place of the code, while
* SAVE io jobs should never be pushed while we are processing a command
* (not protected by lookupKey() that will block on keys in IO_SAVEINPROG
- * state. */
-#define MAX_IO_JOBS_QUEUE 100
-void cacheScheduleIOPushJobs(int onlyloads) {
+ * state.
+ *
+ * The REDIS_IO_ASAP flag tells the function to don't wait for the IO job
+ * scheduled completion time, but just do the operation ASAP. This is useful
+ * when we need to reclaim memory from the IO queue.
+ */
+#define MAX_IO_JOBS_QUEUE 10
+int cacheScheduleIOPushJobs(int flags) {
time_t now = time(NULL);
listNode *ln;
- int jobs, topush = 0;
+ int jobs, topush = 0, pushed = 0;
+
+ /* Don't push new jobs if there is a threaded BGSAVE in progress. */
+ if (server.bgsavethread != (pthread_t) -1) return 0;
/* Sync stuff on disk, but only if we have less
* than MAX_IO_JOBS_QUEUE IO jobs. */
while((ln = listFirst(server.cache_io_queue)) != NULL) {
ioop *op = ln->value;
+ struct dictEntry *de;
+ robj *val;
if (!topush) break;
topush--;
- if (op->type == REDIS_IO_LOAD ||
- (!onlyloads && (now - op->ctime) >= server.cache_flush_delay))
+ if (op->type != REDIS_IO_LOAD && flags & REDIS_IO_ONLYLOADS) break;
+
+ /* Don't execute SAVE before the scheduled time for completion */
+ if (op->type == REDIS_IO_SAVE && !(flags & REDIS_IO_ASAP) &&
+ (now - op->ctime) < server.cache_flush_delay) break;
+
+ /* Don't add a SAVE job in the IO thread queue if there is already
+ * a save in progress for the same key. */
+ if (op->type == REDIS_IO_SAVE &&
+ cacheScheduleIOGetFlags(op->db,op->key) & REDIS_IO_SAVEINPROG)
{
- struct dictEntry *de;
- robj *val;
-
- /* Don't add a SAVE job in queue if there is already
- * a save in progress for the same key. */
- if (op->type == REDIS_IO_SAVE &&
- cacheScheduleIOGetFlags(op->db,op->key) & REDIS_IO_SAVEINPROG)
- {
- /* Move the operation at the end of the list of there
- * are other operations. Otherwise break, nothing to do
- * here. */
- if (listLength(server.cache_io_queue) > 1) {
- listDelNode(server.cache_io_queue,ln);
- listAddNodeTail(server.cache_io_queue,op);
- continue;
- } else {
- break;
- }
+ /* Move the operation at the end of the list if there
+ * are other operations, so we can try to process the next one.
+ * Otherwise break, nothing to do here. */
+ if (listLength(server.cache_io_queue) > 1) {
+ listDelNode(server.cache_io_queue,ln);
+ listAddNodeTail(server.cache_io_queue,op);
+ continue;
+ } else {
+ break;
}
+ }
- redisLog(REDIS_DEBUG,"Creating IO %s Job for key %s",
- op->type == REDIS_IO_LOAD ? "load" : "save", op->key->ptr);
+ redisLog(REDIS_DEBUG,"Creating IO %s Job for key %s",
+ op->type == REDIS_IO_LOAD ? "load" : "save", op->key->ptr);
- if (op->type == REDIS_IO_LOAD) {
- dsCreateIOJob(REDIS_IOJOB_LOAD,op->db,op->key,NULL);
+ if (op->type == REDIS_IO_LOAD) {
+ cacheCreateIOJob(REDIS_IOJOB_LOAD,op->db,op->key,NULL,0);
+ } else {
+ time_t expire = -1;
+
+ /* Lookup the key, in order to put the current value in the IO
+ * Job. Otherwise if the key does not exists we schedule a disk
+ * store delete operation, setting the value to NULL. */
+ de = dictFind(op->db->dict,op->key->ptr);
+ if (de) {
+ val = dictGetEntryVal(de);
+ expire = getExpire(op->db,op->key);
} else {
- /* Lookup the key, in order to put the current value in the IO
- * Job. Otherwise if the key does not exists we schedule a disk
- * store delete operation, setting the value to NULL. */
- de = dictFind(op->db->dict,op->key->ptr);
- if (de) {
- val = dictGetEntryVal(de);
- } else {
- /* Setting the value to NULL tells the IO thread to delete
- * the key on disk. */
- val = NULL;
- }
- dsCreateIOJob(REDIS_IOJOB_SAVE,op->db,op->key,val);
+ /* Setting the value to NULL tells the IO thread to delete
+ * the key on disk. */
+ val = NULL;
}
- /* Mark the operation as in progress. */
- cacheScheduleIODelFlag(op->db,op->key,op->type);
- cacheScheduleIOAddFlag(op->db,op->key,
- (op->type == REDIS_IO_LOAD) ? REDIS_IO_LOADINPROG :
- REDIS_IO_SAVEINPROG);
- /* Finally remove the operation from the queue.
- * But we'll have trace of it in the hash table. */
- listDelNode(server.cache_io_queue,ln);
- decrRefCount(op->key);
- zfree(op);
- } else {
- break; /* too early */
+ cacheCreateIOJob(REDIS_IOJOB_SAVE,op->db,op->key,val,expire);
}
+ /* Mark the operation as in progress. */
+ cacheScheduleIODelFlag(op->db,op->key,op->type);
+ cacheScheduleIOAddFlag(op->db,op->key,
+ (op->type == REDIS_IO_LOAD) ? REDIS_IO_LOADINPROG :
+ REDIS_IO_SAVEINPROG);
+ /* Finally remove the operation from the queue.
+ * But we'll have trace of it in the hash table. */
+ listDelNode(server.cache_io_queue,ln);
+ decrRefCount(op->key);
+ zfree(op);
+ pushed++;
}
+ return pushed;
}
void cacheCron(void) {
listAddNodeTail(l,c);
/* Are we already loading the key from disk? If not create a job */
- if (de == NULL)
- cacheScheduleIO(c->db,key,REDIS_IO_LOAD);
- return 1;
-}
-
-/* Preload keys for any command with first, last and step values for
- * the command keys prototype, as defined in the command table. */
-void waitForMultipleSwappedKeys(redisClient *c, struct redisCommand *cmd, int argc, robj **argv) {
- int j, last;
- if (cmd->vm_firstkey == 0) return;
- last = cmd->vm_lastkey;
- if (last < 0) last = argc+last;
- for (j = cmd->vm_firstkey; j <= last; j += cmd->vm_keystep) {
- redisAssert(j < argc);
- waitForSwappedKey(c,argv[j]);
- }
-}
-
-/* Preload keys needed for the ZUNIONSTORE and ZINTERSTORE commands.
- * Note that the number of keys to preload is user-defined, so we need to
- * apply a sanity check against argc. */
-void zunionInterBlockClientOnSwappedKeys(redisClient *c, struct redisCommand *cmd, int argc, robj **argv) {
- int i, num;
- REDIS_NOTUSED(cmd);
-
- num = atoi(argv[2]->ptr);
- if (num > (argc-3)) return;
- for (i = 0; i < num; i++) {
- waitForSwappedKey(c,argv[3+i]);
- }
-}
-
-/* Preload keys needed to execute the entire MULTI/EXEC block.
- *
- * This function is called by blockClientOnSwappedKeys when EXEC is issued,
- * and will block the client when any command requires a swapped out value. */
-void execBlockClientOnSwappedKeys(redisClient *c, struct redisCommand *cmd, int argc, robj **argv) {
- int i, margc;
- struct redisCommand *mcmd;
- robj **margv;
- REDIS_NOTUSED(cmd);
- REDIS_NOTUSED(argc);
- REDIS_NOTUSED(argv);
-
- if (!(c->flags & REDIS_MULTI)) return;
- for (i = 0; i < c->mstate.count; i++) {
- mcmd = c->mstate.commands[i].cmd;
- margc = c->mstate.commands[i].argc;
- margv = c->mstate.commands[i].argv;
-
- if (mcmd->vm_preload_proc != NULL) {
- mcmd->vm_preload_proc(c,mcmd,margc,margv);
- } else {
- waitForMultipleSwappedKeys(c,mcmd,margc,margv);
- }
+ if (de == NULL) {
+ int flags = cacheScheduleIOGetFlags(c->db,key);
+
+ /* It is possible that even if there are no clients waiting for
+ * a load operation, still we have a load operation in progress.
+ * For instance think to a client performing a GET and then
+ * closing the connection */
+ if ((flags & (REDIS_IO_LOAD|REDIS_IO_LOADINPROG)) == 0)
+ cacheScheduleIO(c->db,key,REDIS_IO_LOAD);
}
+ return 1;
}
/* Is this client attempting to run a command against swapped keys?
* Return 1 if the client is marked as blocked, 0 if the client can
* continue as the keys it is going to access appear to be in memory. */
int blockClientOnSwappedKeys(redisClient *c, struct redisCommand *cmd) {
- if (cmd->vm_preload_proc != NULL) {
- cmd->vm_preload_proc(c,cmd,c->argc,c->argv);
+ int *keyindex, numkeys, j, i;
+
+ /* EXEC is a special case, we need to preload all the commands
+ * queued into the transaction */
+ if (cmd->proc == execCommand) {
+ struct redisCommand *mcmd;
+ robj **margv;
+ int margc;
+
+ if (!(c->flags & REDIS_MULTI)) return 0;
+ for (i = 0; i < c->mstate.count; i++) {
+ mcmd = c->mstate.commands[i].cmd;
+ margc = c->mstate.commands[i].argc;
+ margv = c->mstate.commands[i].argv;
+
+ keyindex = getKeysFromCommand(mcmd,margv,margc,&numkeys,
+ REDIS_GETKEYS_PRELOAD);
+ for (j = 0; j < numkeys; j++) {
+ redisLog(REDIS_WARNING,"Preloading %s",
+ (char*)margv[keyindex[j]]->ptr);
+ waitForSwappedKey(c,margv[keyindex[j]]);
+ }
+ getKeysFreeResult(keyindex);
+ }
} else {
- waitForMultipleSwappedKeys(c,cmd,c->argc,c->argv);
+ keyindex = getKeysFromCommand(cmd,c->argv,c->argc,&numkeys,
+ REDIS_GETKEYS_PRELOAD);
+ for (j = 0; j < numkeys; j++) {
+ redisLog(REDIS_WARNING,"Preloading %s",
+ (char*)c->argv[keyindex[j]]->ptr);
+ waitForSwappedKey(c,c->argv[keyindex[j]]);
+ }
+ getKeysFreeResult(keyindex);
}
/* If the client was blocked for at least one key, mark it as blocked. */
projects / redis.git / blobdiff