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t_hash.c
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t_hash.c
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#include "redis.h"
#include <math.h>
/*-----------------------------------------------------------------------------
* Hash type API
*----------------------------------------------------------------------------*/
/* Check the length of a number of objects to see if we need to convert a
* ziplist to a real hash. Note that we only check string encoded objects
* as their string length can be queried in constant time. */
void hashTypeTryConversion(robj *o, robj **argv, int start, int end) {
int i;
if (o->encoding != REDIS_ENCODING_ZIPLIST) return;
for (i = start; i <= end; i++) {
if (argv[i]->encoding == REDIS_ENCODING_RAW &&
sdslen(argv[i]->ptr) > server.hash_max_ziplist_value)
{
hashTypeConvert(o, REDIS_ENCODING_HT);
break;
}
}
}
/* Encode given objects in-place when the hash uses a dict. */
void hashTypeTryObjectEncoding(robj *subject, robj **o1, robj **o2) {
if (subject->encoding == REDIS_ENCODING_HT) {
if (o1) *o1 = tryObjectEncoding(*o1);
if (o2) *o2 = tryObjectEncoding(*o2);
}
}
/* Get the value from a ziplist encoded hash, identified by field.
* Returns -1 when the field cannot be found. */
int hashTypeGetFromZiplist(robj *o, robj *field,
unsigned char **vstr,
unsigned int *vlen,
long long *vll)
{
unsigned char *zl, *fptr = NULL, *vptr = NULL;
int ret;
redisAssert(o->encoding == REDIS_ENCODING_ZIPLIST);
field = getDecodedObject(field);
zl = o->ptr;
fptr = ziplistIndex(zl, ZIPLIST_HEAD);
if (fptr != NULL) {
fptr = ziplistFind(fptr, field->ptr, sdslen(field->ptr), 1);
if (fptr != NULL) {
/* Grab pointer to the value (fptr points to the field) */
vptr = ziplistNext(zl, fptr);
redisAssert(vptr != NULL);
}
}
decrRefCount(field);
if (vptr != NULL) {
ret = ziplistGet(vptr, vstr, vlen, vll);
redisAssert(ret);
return 0;
}
return -1;
}
/* Get the value from a hash table encoded hash, identified by field.
* Returns -1 when the field cannot be found. */
int hashTypeGetFromHashTable(robj *o, robj *field, robj **value) {
dictEntry *de;
redisAssert(o->encoding == REDIS_ENCODING_HT);
de = dictFind(o->ptr, field);
if (de == NULL) return -1;
*value = dictGetVal(de);
return 0;
}
/* Higher level function of hashTypeGet*() that always returns a Redis
* object (either new or with refcount incremented), so that the caller
* can retain a reference or call decrRefCount after the usage.
*
* The lower level function can prevent copy on write so it is
* the preferred way of doing read operations. */
robj *hashTypeGetObject(robj *o, robj *field) {
robj *value = NULL;
if (o->encoding == REDIS_ENCODING_ZIPLIST) {
unsigned char *vstr = NULL;
unsigned int vlen = UINT_MAX;
long long vll = LLONG_MAX;
if (hashTypeGetFromZiplist(o, field, &vstr, &vlen, &vll) == 0) {
if (vstr) {
value = createStringObject((char*)vstr, vlen);
} else {
value = createStringObjectFromLongLong(vll);
}
}
} else if (o->encoding == REDIS_ENCODING_HT) {
robj *aux;
if (hashTypeGetFromHashTable(o, field, &aux) == 0) {
incrRefCount(aux);
value = aux;
}
} else {
redisPanic("Unknown hash encoding");
}
return value;
}
/* Test if the specified field exists in the given hash. Returns 1 if the field
* exists, and 0 when it doesn't. */
int hashTypeExists(robj *o, robj *field) {
if (o->encoding == REDIS_ENCODING_ZIPLIST) {
unsigned char *vstr = NULL;
unsigned int vlen = UINT_MAX;
long long vll = LLONG_MAX;
if (hashTypeGetFromZiplist(o, field, &vstr, &vlen, &vll) == 0) return 1;
} else if (o->encoding == REDIS_ENCODING_HT) {
robj *aux;
if (hashTypeGetFromHashTable(o, field, &aux) == 0) return 1;
} else {
redisPanic("Unknown hash encoding");
}
return 0;
}
/* Add an element, discard the old if the key already exists.
* Return 0 on insert and 1 on update.
* This function will take care of incrementing the reference count of the
* retained fields and value objects. */
int hashTypeSet(robj *o, robj *field, robj *value) {
int update = 0;
if (o->encoding == REDIS_ENCODING_ZIPLIST) {
unsigned char *zl, *fptr, *vptr;
field = getDecodedObject(field);
value = getDecodedObject(value);
zl = o->ptr;
fptr = ziplistIndex(zl, ZIPLIST_HEAD);
if (fptr != NULL) {
fptr = ziplistFind(fptr, field->ptr, sdslen(field->ptr), 1);
if (fptr != NULL) {
/* Grab pointer to the value (fptr points to the field) */
vptr = ziplistNext(zl, fptr);
redisAssert(vptr != NULL);
update = 1;
/* Delete value */
zl = ziplistDelete(zl, &vptr);
/* Insert new value */
zl = ziplistInsert(zl, vptr, value->ptr, sdslen(value->ptr));
}
}
if (!update) {
/* Push new field/value pair onto the tail of the ziplist */
zl = ziplistPush(zl, field->ptr, sdslen(field->ptr), ZIPLIST_TAIL);
zl = ziplistPush(zl, value->ptr, sdslen(value->ptr), ZIPLIST_TAIL);
}
o->ptr = zl;
decrRefCount(field);
decrRefCount(value);
/* Check if the ziplist needs to be converted to a hash table */
if (hashTypeLength(o) > server.hash_max_ziplist_entries)
hashTypeConvert(o, REDIS_ENCODING_HT);
} else if (o->encoding == REDIS_ENCODING_HT) {
if (dictReplace(o->ptr, field, value)) { /* Insert */
incrRefCount(field);
} else { /* Update */
update = 1;
}
incrRefCount(value);
} else {
redisPanic("Unknown hash encoding");
}
return update;
}
/* Delete an element from a hash.
* Return 1 on deleted and 0 on not found. */
int hashTypeDelete(robj *o, robj *field) {
int deleted = 0;
if (o->encoding == REDIS_ENCODING_ZIPLIST) {
unsigned char *zl, *fptr;
field = getDecodedObject(field);
zl = o->ptr;
fptr = ziplistIndex(zl, ZIPLIST_HEAD);
if (fptr != NULL) {
fptr = ziplistFind(fptr, field->ptr, sdslen(field->ptr), 1);
if (fptr != NULL) {
zl = ziplistDelete(zl,&fptr);
zl = ziplistDelete(zl,&fptr);
o->ptr = zl;
deleted = 1;
}
}
decrRefCount(field);
} else if (o->encoding == REDIS_ENCODING_HT) {
if (dictDelete((dict*)o->ptr, field) == REDIS_OK) {
deleted = 1;
/* Always check if the dictionary needs a resize after a delete. */
if (htNeedsResize(o->ptr)) dictResize(o->ptr);
}
} else {
redisPanic("Unknown hash encoding");
}
return deleted;
}
/* Return the number of elements in a hash. */
unsigned long hashTypeLength(robj *o) {
unsigned long length = ULONG_MAX;
if (o->encoding == REDIS_ENCODING_ZIPLIST) {
length = ziplistLen(o->ptr) / 2;
} else if (o->encoding == REDIS_ENCODING_HT) {
length = dictSize((dict*)o->ptr);
} else {
redisPanic("Unknown hash encoding");
}
return length;
}
hashTypeIterator *hashTypeInitIterator(robj *subject) {
hashTypeIterator *hi = zmalloc(sizeof(hashTypeIterator));
hi->subject = subject;
hi->encoding = subject->encoding;
if (hi->encoding == REDIS_ENCODING_ZIPLIST) {
hi->fptr = NULL;
hi->vptr = NULL;
} else if (hi->encoding == REDIS_ENCODING_HT) {
hi->di = dictGetIterator(subject->ptr);
} else {
redisPanic("Unknown hash encoding");
}
return hi;
}
void hashTypeReleaseIterator(hashTypeIterator *hi) {
if (hi->encoding == REDIS_ENCODING_HT) {
dictReleaseIterator(hi->di);
}
zfree(hi);
}
/* Move to the next entry in the hash. Return REDIS_OK when the next entry
* could be found and REDIS_ERR when the iterator reaches the end. */
int hashTypeNext(hashTypeIterator *hi) {
if (hi->encoding == REDIS_ENCODING_ZIPLIST) {
unsigned char *zl;
unsigned char *fptr, *vptr;
zl = hi->subject->ptr;
fptr = hi->fptr;
vptr = hi->vptr;
if (fptr == NULL) {
/* Initialize cursor */
redisAssert(vptr == NULL);
fptr = ziplistIndex(zl, 0);
} else {
/* Advance cursor */
redisAssert(vptr != NULL);
fptr = ziplistNext(zl, vptr);
}
if (fptr == NULL) return REDIS_ERR;
/* Grab pointer to the value (fptr points to the field) */
vptr = ziplistNext(zl, fptr);
redisAssert(vptr != NULL);
/* fptr, vptr now point to the first or next pair */
hi->fptr = fptr;
hi->vptr = vptr;
} else if (hi->encoding == REDIS_ENCODING_HT) {
if ((hi->de = dictNext(hi->di)) == NULL) return REDIS_ERR;
} else {
redisPanic("Unknown hash encoding");
}
return REDIS_OK;
}
/* Get the field or value at iterator cursor, for an iterator on a hash value
* encoded as a ziplist. Prototype is similar to `hashTypeGetFromZiplist`. */
void hashTypeCurrentFromZiplist(hashTypeIterator *hi, int what,
unsigned char **vstr,
unsigned int *vlen,
long long *vll)
{
int ret;
redisAssert(hi->encoding == REDIS_ENCODING_ZIPLIST);
if (what & REDIS_HASH_KEY) {
ret = ziplistGet(hi->fptr, vstr, vlen, vll);
redisAssert(ret);
} else {
ret = ziplistGet(hi->vptr, vstr, vlen, vll);
redisAssert(ret);
}
}
/* Get the field or value at iterator cursor, for an iterator on a hash value
* encoded as a ziplist. Prototype is similar to `hashTypeGetFromHashTable`. */
void hashTypeCurrentFromHashTable(hashTypeIterator *hi, int what, robj **dst) {
redisAssert(hi->encoding == REDIS_ENCODING_HT);
if (what & REDIS_HASH_KEY) {
*dst = dictGetKey(hi->de);
} else {
*dst = dictGetVal(hi->de);
}
}
/* A non copy-on-write friendly but higher level version of hashTypeCurrent*()
* that returns an object with incremented refcount (or a new object). It is up
* to the caller to decrRefCount() the object if no reference is retained. */
robj *hashTypeCurrentObject(hashTypeIterator *hi, int what) {
robj *dst;
if (hi->encoding == REDIS_ENCODING_ZIPLIST) {
unsigned char *vstr = NULL;
unsigned int vlen = UINT_MAX;
long long vll = LLONG_MAX;
hashTypeCurrentFromZiplist(hi, what, &vstr, &vlen, &vll);
if (vstr) {
dst = createStringObject((char*)vstr, vlen);
} else {
dst = createStringObjectFromLongLong(vll);
}
} else if (hi->encoding == REDIS_ENCODING_HT) {
hashTypeCurrentFromHashTable(hi, what, &dst);
incrRefCount(dst);
} else {
redisPanic("Unknown hash encoding");
}
return dst;
}
robj *hashTypeLookupWriteOrCreate(redisClient *c, robj *key) {
robj *o = lookupKeyWrite(c->db,key);
if (o == NULL) {
o = createHashObject();
dbAdd(c->db,key,o);
} else {
if (o->type != REDIS_HASH) {
addReply(c,shared.wrongtypeerr);
return NULL;
}
}
return o;
}
void hashTypeConvertZiplist(robj *o, int enc) {
redisAssert(o->encoding == REDIS_ENCODING_ZIPLIST);
if (enc == REDIS_ENCODING_ZIPLIST) {
/* Nothing to do... */
} else if (enc == REDIS_ENCODING_HT) {
hashTypeIterator *hi;
dict *dict;
int ret;
hi = hashTypeInitIterator(o);
dict = dictCreate(&hashDictType, NULL);
while (hashTypeNext(hi) != REDIS_ERR) {
robj *field, *value;
field = hashTypeCurrentObject(hi, REDIS_HASH_KEY);
field = tryObjectEncoding(field);
value = hashTypeCurrentObject(hi, REDIS_HASH_VALUE);
value = tryObjectEncoding(value);
ret = dictAdd(dict, field, value);
if (ret != DICT_OK) {
redisLogHexDump(REDIS_WARNING,"ziplist with dup elements dump",
o->ptr,ziplistBlobLen(o->ptr));
redisAssert(ret == DICT_OK);
}
}
hashTypeReleaseIterator(hi);
zfree(o->ptr);
o->encoding = REDIS_ENCODING_HT;
o->ptr = dict;
} else {
redisPanic("Unknown hash encoding");
}
}
void hashTypeConvert(robj *o, int enc) {
if (o->encoding == REDIS_ENCODING_ZIPLIST) {
hashTypeConvertZiplist(o, enc);
} else if (o->encoding == REDIS_ENCODING_HT) {
redisPanic("Not implemented");
} else {
redisPanic("Unknown hash encoding");
}
}
/*-----------------------------------------------------------------------------
* Hash type commands
*----------------------------------------------------------------------------*/
void hsetCommand(redisClient *c) {
int update;
robj *o;
if ((o = hashTypeLookupWriteOrCreate(c,c->argv[1])) == NULL) return;
hashTypeTryConversion(o,c->argv,2,3);
hashTypeTryObjectEncoding(o,&c->argv[2], &c->argv[3]);
update = hashTypeSet(o,c->argv[2],c->argv[3]);
addReply(c, update ? shared.czero : shared.cone);
signalModifiedKey(c->db,c->argv[1]);
server.dirty++;
}
void hsetnxCommand(redisClient *c) {
robj *o;
if ((o = hashTypeLookupWriteOrCreate(c,c->argv[1])) == NULL) return;
hashTypeTryConversion(o,c->argv,2,3);
if (hashTypeExists(o, c->argv[2])) {
addReply(c, shared.czero);
} else {
hashTypeTryObjectEncoding(o,&c->argv[2], &c->argv[3]);
hashTypeSet(o,c->argv[2],c->argv[3]);
addReply(c, shared.cone);
signalModifiedKey(c->db,c->argv[1]);
server.dirty++;
}
}
void hmsetCommand(redisClient *c) {
int i;
robj *o;
if ((c->argc % 2) == 1) {
addReplyError(c,"wrong number of arguments for HMSET");
return;
}
if ((o = hashTypeLookupWriteOrCreate(c,c->argv[1])) == NULL) return;
hashTypeTryConversion(o,c->argv,2,c->argc-1);
for (i = 2; i < c->argc; i += 2) {
hashTypeTryObjectEncoding(o,&c->argv[i], &c->argv[i+1]);
hashTypeSet(o,c->argv[i],c->argv[i+1]);
}
addReply(c, shared.ok);
signalModifiedKey(c->db,c->argv[1]);
server.dirty++;
}
void hincrbyCommand(redisClient *c) {
long long value, incr, oldvalue;
robj *o, *current, *new;
if (getLongLongFromObjectOrReply(c,c->argv[3],&incr,NULL) != REDIS_OK) return;
if ((o = hashTypeLookupWriteOrCreate(c,c->argv[1])) == NULL) return;
if ((current = hashTypeGetObject(o,c->argv[2])) != NULL) {
if (getLongLongFromObjectOrReply(c,current,&value,
"hash value is not an integer") != REDIS_OK) {
decrRefCount(current);
return;
}
decrRefCount(current);
} else {
value = 0;
}
oldvalue = value;
if ((incr < 0 && oldvalue < 0 && incr < (LLONG_MIN-oldvalue)) ||
(incr > 0 && oldvalue > 0 && incr > (LLONG_MAX-oldvalue))) {
addReplyError(c,"increment or decrement would overflow");
return;
}
value += incr;
new = createStringObjectFromLongLong(value);
hashTypeTryObjectEncoding(o,&c->argv[2],NULL);
hashTypeSet(o,c->argv[2],new);
decrRefCount(new);
addReplyLongLong(c,value);
signalModifiedKey(c->db,c->argv[1]);
server.dirty++;
}
void hincrbyfloatCommand(redisClient *c) {
double long value, incr;
robj *o, *current, *new, *aux;
if (getLongDoubleFromObjectOrReply(c,c->argv[3],&incr,NULL) != REDIS_OK) return;
if ((o = hashTypeLookupWriteOrCreate(c,c->argv[1])) == NULL) return;
if ((current = hashTypeGetObject(o,c->argv[2])) != NULL) {
if (getLongDoubleFromObjectOrReply(c,current,&value,
"hash value is not a valid float") != REDIS_OK) {
decrRefCount(current);
return;
}
decrRefCount(current);
} else {
value = 0;
}
value += incr;
new = createStringObjectFromLongDouble(value);
hashTypeTryObjectEncoding(o,&c->argv[2],NULL);
hashTypeSet(o,c->argv[2],new);
addReplyBulk(c,new);
signalModifiedKey(c->db,c->argv[1]);
server.dirty++;
/* Always replicate HINCRBYFLOAT as an HSET command with the final value
* in order to make sure that differences in float pricision or formatting
* will not create differences in replicas or after an AOF restart. */
aux = createStringObject("HSET",4);
rewriteClientCommandArgument(c,0,aux);
decrRefCount(aux);
rewriteClientCommandArgument(c,3,new);
decrRefCount(new);
}
static void addHashFieldToReply(redisClient *c, robj *o, robj *field) {
int ret;
if (o == NULL) {
addReply(c, shared.nullbulk);
return;
}
if (o->encoding == REDIS_ENCODING_ZIPLIST) {
unsigned char *vstr = NULL;
unsigned int vlen = UINT_MAX;
long long vll = LLONG_MAX;
ret = hashTypeGetFromZiplist(o, field, &vstr, &vlen, &vll);
if (ret < 0) {
addReply(c, shared.nullbulk);
} else {
if (vstr) {
addReplyBulkCBuffer(c, vstr, vlen);
} else {
addReplyBulkLongLong(c, vll);
}
}
} else if (o->encoding == REDIS_ENCODING_HT) {
robj *value;
ret = hashTypeGetFromHashTable(o, field, &value);
if (ret < 0) {
addReply(c, shared.nullbulk);
} else {
addReplyBulk(c, value);
}
} else {
redisPanic("Unknown hash encoding");
}
}
void hgetCommand(redisClient *c) {
robj *o;
if ((o = lookupKeyReadOrReply(c,c->argv[1],shared.nullbulk)) == NULL ||
checkType(c,o,REDIS_HASH)) return;
addHashFieldToReply(c, o, c->argv[2]);
}
void hmgetCommand(redisClient *c) {
robj *o;
int i;
/* Don't abort when the key cannot be found. Non-existing keys are empty
* hashes, where HMGET should respond with a series of null bulks. */
o = lookupKeyRead(c->db, c->argv[1]);
if (o != NULL && o->type != REDIS_HASH) {
addReply(c, shared.wrongtypeerr);
return;
}
addReplyMultiBulkLen(c, c->argc-2);
for (i = 2; i < c->argc; i++) {
addHashFieldToReply(c, o, c->argv[i]);
}
}
void hdelCommand(redisClient *c) {
robj *o;
int j, deleted = 0;
if ((o = lookupKeyWriteOrReply(c,c->argv[1],shared.czero)) == NULL ||
checkType(c,o,REDIS_HASH)) return;
for (j = 2; j < c->argc; j++) {
if (hashTypeDelete(o,c->argv[j])) {
deleted++;
if (hashTypeLength(o) == 0) {
dbDelete(c->db,c->argv[1]);
break;
}
}
}
if (deleted) {
signalModifiedKey(c->db,c->argv[1]);
server.dirty += deleted;
}
addReplyLongLong(c,deleted);
}
void hlenCommand(redisClient *c) {
robj *o;
if ((o = lookupKeyReadOrReply(c,c->argv[1],shared.czero)) == NULL ||
checkType(c,o,REDIS_HASH)) return;
addReplyLongLong(c,hashTypeLength(o));
}
static void addHashIteratorCursorToReply(redisClient *c, hashTypeIterator *hi, int what) {
if (hi->encoding == REDIS_ENCODING_ZIPLIST) {
unsigned char *vstr = NULL;
unsigned int vlen = UINT_MAX;
long long vll = LLONG_MAX;
hashTypeCurrentFromZiplist(hi, what, &vstr, &vlen, &vll);
if (vstr) {
addReplyBulkCBuffer(c, vstr, vlen);
} else {
addReplyBulkLongLong(c, vll);
}
} else if (hi->encoding == REDIS_ENCODING_HT) {
robj *value;
hashTypeCurrentFromHashTable(hi, what, &value);
addReplyBulk(c, value);
} else {
redisPanic("Unknown hash encoding");
}
}
void genericHgetallCommand(redisClient *c, int flags) {
robj *o;
hashTypeIterator *hi;
int multiplier = 0;
int length, count = 0;
if ((o = lookupKeyReadOrReply(c,c->argv[1],shared.emptymultibulk)) == NULL
|| checkType(c,o,REDIS_HASH)) return;
if (flags & REDIS_HASH_KEY) multiplier++;
if (flags & REDIS_HASH_VALUE) multiplier++;
length = hashTypeLength(o) * multiplier;
addReplyMultiBulkLen(c, length);
hi = hashTypeInitIterator(o);
while (hashTypeNext(hi) != REDIS_ERR) {
if (flags & REDIS_HASH_KEY) {
addHashIteratorCursorToReply(c, hi, REDIS_HASH_KEY);
count++;
}
if (flags & REDIS_HASH_VALUE) {
addHashIteratorCursorToReply(c, hi, REDIS_HASH_VALUE);
count++;
}
}
hashTypeReleaseIterator(hi);
redisAssert(count == length);
}
void hkeysCommand(redisClient *c) {
genericHgetallCommand(c,REDIS_HASH_KEY);
}
void hvalsCommand(redisClient *c) {
genericHgetallCommand(c,REDIS_HASH_VALUE);
}
void hgetallCommand(redisClient *c) {
genericHgetallCommand(c,REDIS_HASH_KEY|REDIS_HASH_VALUE);
}
void hexistsCommand(redisClient *c) {
robj *o;
if ((o = lookupKeyReadOrReply(c,c->argv[1],shared.czero)) == NULL ||
checkType(c,o,REDIS_HASH)) return;
addReply(c, hashTypeExists(o,c->argv[2]) ? shared.cone : shared.czero);
}