#include "redis.h"
#include "pqsort.h" /* Partial qsort for SORT+LIMIT */
+#include <math.h> /* isnan() */
+
+zskiplistNode* zslGetElementByRank(zskiplist *zsl, unsigned long rank);
redisSortOperation *createSortOperation(int type, robj *pattern) {
redisSortOperation *so = zmalloc(sizeof(*so));
return so;
}
-/* Return the value associated to the key with a name obtained
- * substituting the first occurence of '*' in 'pattern' with 'subst'.
+/* Return the value associated to the key with a name obtained using
+ * the following rules:
+ *
+ * 1) The first occurence of '*' in 'pattern' is substituted with 'subst'.
+ *
+ * 2) If 'pattern' matches the "->" string, everything on the left of
+ * the arrow is treated as the name of an hash field, and the part on the
+ * left as the key name containing an hash. The value of the specified
+ * field is returned.
+ *
+ * 3) If 'pattern' equals "#", the function simply returns 'subst' itself so
+ * that the SORT command can be used like: SORT key GET # to retrieve
+ * the Set/List elements directly.
+ *
* The returned object will always have its refcount increased by 1
* when it is non-NULL. */
robj *lookupKeyByPattern(redisDb *db, robj *pattern, robj *subst) {
- char *p, *f;
+ char *p, *f, *k;
sds spat, ssub;
- robj keyobj, fieldobj, *o;
+ robj *keyobj, *fieldobj = NULL, *o;
int prefixlen, sublen, postfixlen, fieldlen;
- /* Expoit the internal sds representation to create a sds string allocated on the stack in order to make this function faster */
- struct {
- int len;
- int free;
- char buf[REDIS_SORTKEY_MAX+1];
- } keyname, fieldname;
/* If the pattern is "#" return the substitution object itself in order
* to implement the "SORT ... GET #" feature. */
* a decoded object on the fly. Otherwise getDecodedObject will just
* increment the ref count, that we'll decrement later. */
subst = getDecodedObject(subst);
-
ssub = subst->ptr;
- if (sdslen(spat)+sdslen(ssub)-1 > REDIS_SORTKEY_MAX) return NULL;
+
+ /* If we can't find '*' in the pattern we return NULL as to GET a
+ * fixed key does not make sense. */
p = strchr(spat,'*');
if (!p) {
decrRefCount(subst);
}
/* Find out if we're dealing with a hash dereference. */
- if ((f = strstr(p+1, "->")) != NULL) {
- fieldlen = sdslen(spat)-(f-spat);
- /* this also copies \0 character */
- memcpy(fieldname.buf,f+2,fieldlen-1);
- fieldname.len = fieldlen-2;
+ if ((f = strstr(p+1, "->")) != NULL && *(f+2) != '\0') {
+ fieldlen = sdslen(spat)-(f-spat)-2;
+ fieldobj = createStringObject(f+2,fieldlen);
} else {
fieldlen = 0;
}
+ /* Perform the '*' substitution. */
prefixlen = p-spat;
sublen = sdslen(ssub);
- postfixlen = sdslen(spat)-(prefixlen+1)-fieldlen;
- memcpy(keyname.buf,spat,prefixlen);
- memcpy(keyname.buf+prefixlen,ssub,sublen);
- memcpy(keyname.buf+prefixlen+sublen,p+1,postfixlen);
- keyname.buf[prefixlen+sublen+postfixlen] = '\0';
- keyname.len = prefixlen+sublen+postfixlen;
- decrRefCount(subst);
+ postfixlen = sdslen(spat)-(prefixlen+1)-(fieldlen ? fieldlen+2 : 0);
+ keyobj = createStringObject(NULL,prefixlen+sublen+postfixlen);
+ k = keyobj->ptr;
+ memcpy(k,spat,prefixlen);
+ memcpy(k+prefixlen,ssub,sublen);
+ memcpy(k+prefixlen+sublen,p+1,postfixlen);
+ decrRefCount(subst); /* Incremented by decodeObject() */
/* Lookup substituted key */
- initStaticStringObject(keyobj,((char*)&keyname)+(sizeof(struct sdshdr)));
- o = lookupKeyRead(db,&keyobj);
- if (o == NULL) return NULL;
+ o = lookupKeyRead(db,keyobj);
+ if (o == NULL) goto noobj;
- if (fieldlen > 0) {
- if (o->type != REDIS_HASH || fieldname.len < 1) return NULL;
+ if (fieldobj) {
+ if (o->type != REDIS_HASH) goto noobj;
/* Retrieve value from hash by the field name. This operation
* already increases the refcount of the returned object. */
- initStaticStringObject(fieldobj,((char*)&fieldname)+(sizeof(struct sdshdr)));
- o = hashTypeGetObject(o, &fieldobj);
+ o = hashTypeGetObject(o, fieldobj);
} else {
- if (o->type != REDIS_STRING) return NULL;
+ if (o->type != REDIS_STRING) goto noobj;
/* Every object that this function returns needs to have its refcount
* increased. sortCommand decreases it again. */
incrRefCount(o);
}
-
+ decrRefCount(keyobj);
+ if (fieldobj) decrRefCount(fieldobj);
return o;
+
+noobj:
+ decrRefCount(keyobj);
+ if (fieldlen) decrRefCount(fieldobj);
+ return NULL;
}
/* sortCompare() is used by qsort in sortCommand(). Given that qsort_r with
} else if (so1->u.score < so2->u.score) {
cmp = -1;
} else {
- cmp = 0;
+ /* Objects have the same score, but we don't want the comparison
+ * to be undefined, so we compare objects lexicographycally.
+ * This way the result of SORT is deterministic. */
+ cmp = compareStringObjects(so1->obj,so2->obj);
}
} else {
/* Alphanumeric sorting */
list *operations;
unsigned int outputlen = 0;
int desc = 0, alpha = 0;
- int limit_start = 0, limit_count = -1, start, end;
+ long limit_start = 0, limit_count = -1, start, end;
int j, dontsort = 0, vectorlen;
int getop = 0; /* GET operation counter */
+ int int_convertion_error = 0;
robj *sortval, *sortby = NULL, *storekey = NULL;
redisSortObject *vector; /* Resulting vector to sort */
/* Lookup the key to sort. It must be of the right types */
sortval = lookupKeyRead(c->db,c->argv[1]);
- if (sortval == NULL) {
- addReply(c,shared.emptymultibulk);
- return;
- }
- if (sortval->type != REDIS_SET && sortval->type != REDIS_LIST &&
- sortval->type != REDIS_ZSET)
+ if (sortval && sortval->type != REDIS_SET &&
+ sortval->type != REDIS_LIST &&
+ sortval->type != REDIS_ZSET)
{
addReply(c,shared.wrongtypeerr);
return;
* Operations can be GET/DEL/INCR/DECR */
operations = listCreate();
listSetFreeMethod(operations,zfree);
- j = 2;
+ j = 2; /* options start at argv[2] */
/* Now we need to protect sortval incrementing its count, in the future
* SORT may have options able to overwrite/delete keys during the sorting
* and the sorted key itself may get destroied */
- incrRefCount(sortval);
+ if (sortval)
+ incrRefCount(sortval);
+ else
+ sortval = createListObject();
/* The SORT command has an SQL-alike syntax, parse it */
while(j < c->argc) {
} else if (!strcasecmp(c->argv[j]->ptr,"alpha")) {
alpha = 1;
} else if (!strcasecmp(c->argv[j]->ptr,"limit") && leftargs >= 2) {
- limit_start = atoi(c->argv[j+1]->ptr);
- limit_count = atoi(c->argv[j+2]->ptr);
+ if ((getLongFromObjectOrReply(c, c->argv[j+1], &limit_start, NULL) != REDIS_OK) ||
+ (getLongFromObjectOrReply(c, c->argv[j+2], &limit_count, NULL) != REDIS_OK)) return;
j+=2;
} else if (!strcasecmp(c->argv[j]->ptr,"store") && leftargs >= 1) {
storekey = c->argv[j+1];
j++;
}
- /* Load the sorting vector with all the objects to sort */
+ /* For the STORE option, or when SORT is called from a Lua script,
+ * we want to force a specific ordering even when no explicit ordering
+ * was asked (SORT BY nosort). This guarantees that replication / AOF
+ * is deterministic.
+ *
+ * However in the case 'dontsort' is true, but the type to sort is a
+ * sorted set, we don't need to do anything as ordering is guaranteed
+ * in this special case. */
+ if ((storekey || c->flags & REDIS_LUA_CLIENT) &&
+ (dontsort && sortval->type != REDIS_ZSET))
+ {
+ /* Force ALPHA sorting */
+ dontsort = 0;
+ alpha = 1;
+ sortby = NULL;
+ }
+
+ /* Destructively convert encoded sorted sets for SORT. */
+ if (sortval->type == REDIS_ZSET)
+ zsetConvert(sortval, REDIS_ENCODING_SKIPLIST);
+
+ /* Objtain the length of the object to sort. */
switch(sortval->type) {
case REDIS_LIST: vectorlen = listTypeLength(sortval); break;
case REDIS_SET: vectorlen = setTypeSize(sortval); break;
case REDIS_ZSET: vectorlen = dictSize(((zset*)sortval->ptr)->dict); break;
default: vectorlen = 0; redisPanic("Bad SORT type"); /* Avoid GCC warning */
}
+
+ /* Perform LIMIT start,count sanity checking. */
+ start = (limit_start < 0) ? 0 : limit_start;
+ end = (limit_count < 0) ? vectorlen-1 : start+limit_count-1;
+ if (start >= vectorlen) {
+ start = vectorlen-1;
+ end = vectorlen-2;
+ }
+ if (end >= vectorlen) end = vectorlen-1;
+
+ /* Optimization:
+ *
+ * 1) if the object to sort is a sorted set.
+ * 2) There is nothing to sort as dontsort is true (BY <constant string>).
+ * 3) We have a LIMIT option that actually reduces the number of elements
+ * to fetch.
+ *
+ * In this case to load all the objects in the vector is a huge waste of
+ * resources. We just allocate a vector that is big enough for the selected
+ * range length, and make sure to load just this part in the vector. */
+ if (sortval->type == REDIS_ZSET &&
+ dontsort &&
+ (start != 0 || end != vectorlen-1))
+ {
+ vectorlen = end-start+1;
+ }
+
+ /* Load the sorting vector with all the objects to sort */
vector = zmalloc(sizeof(redisSortObject)*vectorlen);
j = 0;
j++;
}
setTypeReleaseIterator(si);
+ } else if (sortval->type == REDIS_ZSET && dontsort) {
+ /* Special handling for a sorted set, if 'dontsort' is true.
+ * This makes sure we return elements in the sorted set original
+ * ordering, accordingly to DESC / ASC options.
+ *
+ * Note that in this case we also handle LIMIT here in a direct
+ * way, just getting the required range, as an optimization. */
+
+ zset *zs = sortval->ptr;
+ zskiplist *zsl = zs->zsl;
+ zskiplistNode *ln;
+ robj *ele;
+ int rangelen = vectorlen;
+
+ /* Check if starting point is trivial, before doing log(N) lookup. */
+ if (desc) {
+ long zsetlen = dictSize(((zset*)sortval->ptr)->dict);
+
+ ln = zsl->tail;
+ if (start > 0)
+ ln = zslGetElementByRank(zsl,zsetlen-start);
+ } else {
+ ln = zsl->header->level[0].forward;
+ if (start > 0)
+ ln = zslGetElementByRank(zsl,start+1);
+ }
+
+ while(rangelen--) {
+ redisAssertWithInfo(c,sortval,ln != NULL);
+ ele = ln->obj;
+ vector[j].obj = ele;
+ vector[j].u.score = 0;
+ vector[j].u.cmpobj = NULL;
+ j++;
+ ln = desc ? ln->backward : ln->level[0].forward;
+ }
+ /* The code producing the output does not know that in the case of
+ * sorted set, 'dontsort', and LIMIT, we are able to get just the
+ * range, already sorted, so we need to adjust "start" and "end"
+ * to make sure start is set to 0. */
+ end -= start;
+ start = 0;
} else if (sortval->type == REDIS_ZSET) {
dict *set = ((zset*)sortval->ptr)->dict;
dictIterator *di;
dictEntry *setele;
di = dictGetIterator(set);
while((setele = dictNext(di)) != NULL) {
- vector[j].obj = dictGetEntryKey(setele);
+ vector[j].obj = dictGetKey(setele);
vector[j].u.score = 0;
vector[j].u.cmpobj = NULL;
j++;
} else {
redisPanic("Unknown type");
}
- redisAssert(j == vectorlen);
+ redisAssertWithInfo(c,sortval,j == vectorlen);
/* Now it's time to load the right scores in the sorting vector */
if (dontsort == 0) {
if (sortby) vector[j].u.cmpobj = getDecodedObject(byval);
} else {
if (byval->encoding == REDIS_ENCODING_RAW) {
- vector[j].u.score = strtod(byval->ptr,NULL);
+ char *eptr;
+
+ vector[j].u.score = strtod(byval->ptr,&eptr);
+ if (eptr[0] != '\0' || errno == ERANGE ||
+ isnan(vector[j].u.score))
+ {
+ int_convertion_error = 1;
+ }
} else if (byval->encoding == REDIS_ENCODING_INT) {
/* Don't need to decode the object if it's
* integer-encoded (the only encoding supported) so
* far. We can just cast it */
vector[j].u.score = (long)byval->ptr;
} else {
- redisAssert(1 != 1);
+ redisAssertWithInfo(c,sortval,1 != 1);
}
}
}
}
- /* We are ready to sort the vector... perform a bit of sanity check
- * on the LIMIT option too. We'll use a partial version of quicksort. */
- start = (limit_start < 0) ? 0 : limit_start;
- end = (limit_count < 0) ? vectorlen-1 : start+limit_count-1;
- if (start >= vectorlen) {
- start = vectorlen-1;
- end = vectorlen-2;
- }
- if (end >= vectorlen) end = vectorlen-1;
-
if (dontsort == 0) {
server.sort_desc = desc;
server.sort_alpha = alpha;
/* Send command output to the output buffer, performing the specified
* GET/DEL/INCR/DECR operations if any. */
outputlen = getop ? getop*(end-start+1) : end-start+1;
- if (storekey == NULL) {
+ if (int_convertion_error) {
+ addReplyError(c,"One or more scores can't be converted into double");
+ } else if (storekey == NULL) {
/* STORE option not specified, sent the sorting result to client */
addReplyMultiBulkLen(c,outputlen);
for (j = start; j <= end; j++) {
decrRefCount(val);
}
} else {
- redisAssert(sop->type == REDIS_SORT_GET); /* always fails */
+ /* Always fails */
+ redisAssertWithInfo(c,sortval,sop->type == REDIS_SORT_GET);
}
}
}
listTypePush(sobj,val,REDIS_TAIL);
decrRefCount(val);
} else {
- /* always fails */
- redisAssert(sop->type == REDIS_SORT_GET);
+ /* Always fails */
+ redisAssertWithInfo(c,sortval,sop->type == REDIS_SORT_GET);
}
}
}
}
- dbReplace(c->db,storekey,sobj);
- /* Note: we add 1 because the DB is dirty anyway since even if the
- * SORT result is empty a new key is set and maybe the old content
- * replaced. */
- server.dirty += 1+outputlen;
- touchWatchedKey(c->db,storekey);
+ if (outputlen) {
+ setKey(c->db,storekey,sobj);
+ server.dirty += outputlen;
+ } else if (dbDelete(c->db,storekey)) {
+ signalModifiedKey(c->db,storekey);
+ server.dirty++;
+ }
+ decrRefCount(sobj);
addReplyLongLong(c,outputlen);
}