int UniquePushIVCommand(RedisModuleCtx *ctx, RedisModuleString **argv, int argc) {
if (argc < 4) {
return RedisModule_WrongArity(ctx);
}
RedisModule_AutoMemory(ctx);
// open the key and make sure it is indeed a Hash and not empty
RedisModuleKey *key =
RedisModule_OpenKey(ctx, argv[1], REDISMODULE_READ | REDISMODULE_WRITE);
int type = RedisModule_KeyType(key);
if (type != REDISMODULE_KEYTYPE_EMPTY &&
RedisModule_ModuleTypeGetType(key) != UniqueType)
{
return RedisModule_ReplyWithError(ctx,REDISMODULE_ERRORMSG_WRONGTYPE);
}
unique *unique;
if (type == REDISMODULE_KEYTYPE_EMPTY) {
unique = uniqueCreate();
RedisModule_ModuleTypeSetValue(key,UniqueType,unique);
} else {
unique = RedisModule_ModuleTypeGetValue(key);
}
sds skey, sval;
size_t skeylen, svallen;
const char *pkey;
unsigned int lvec = argc-3;
pkey = RedisModule_StringPtrLen(argv[2], &skeylen);
svallen = lvec *8;
skey = sdsnewlen(pkey, skeylen);
sval = sdsnewlen(NULL, svallen);
long long *vec = (long long*)sval;
int i;
for (i=3; i<argc; i++) {
if (REDISMODULE_OK != RedisModule_StringToLongLong(argv[i], vec+i-3)) {
return RedisModule_WrongArity(ctx);
}
}
int n = uniquePush(unique, skey, sval, merge_int64);
if (n == -1) {
RedisModule_ReplyWithError(ctx,REDISMODULE_ERRORMSG_WRONGTYPE);
} else {
RedisModule_ReplyWithLongLong(ctx, n);
}
RedisModule_ReplicateVerbatim(ctx);
return REDISMODULE_OK;
}
/* HELLOTYPE.RANGE key first count */
int HelloTypeRange_RedisCommand(RedisModuleCtx *ctx, RedisModuleString **argv, int argc) {
RedisModule_AutoMemory(ctx); /* Use automatic memory management. */
if (argc != 4) return RedisModule_WrongArity(ctx);
RedisModuleKey *key = RedisModule_OpenKey(ctx,argv[1],
REDISMODULE_READ|REDISMODULE_WRITE);
int type = RedisModule_KeyType(key);
if (type != REDISMODULE_KEYTYPE_EMPTY &&
RedisModule_ModuleTypeGetType(key) != HelloType)
{
return RedisModule_ReplyWithError(ctx,REDISMODULE_ERRORMSG_WRONGTYPE);
}
long long first, count;
if (RedisModule_StringToLongLong(argv[2],&first) != REDISMODULE_OK ||
RedisModule_StringToLongLong(argv[3],&count) != REDISMODULE_OK ||
first < 0 || count < 0)
{
return RedisModule_ReplyWithError(ctx,
"ERR invalid first or count parameters");
}
struct HelloTypeObject *hto = RedisModule_ModuleTypeGetValue(key);
struct HelloTypeNode *node = hto ? hto->head : NULL;
RedisModule_ReplyWithArray(ctx,REDISMODULE_POSTPONED_ARRAY_LEN);
long long arraylen = 0;
while(node && count--) {
RedisModule_ReplyWithLongLong(ctx,node->value);
arraylen++;
node = node->next;
}
RedisModule_ReplySetArrayLength(ctx,arraylen);
return REDISMODULE_OK;
}
/* HELLO.LEFTPAD str len ch
* This is an implementation of the infamous LEFTPAD function, that
* was at the center of an issue with the npm modules system in March 2016.
*
* LEFTPAD is a good example of using a Redis Modules API called
* "pool allocator", that was a famous way to allocate memory in yet another
* open source project, the Apache web server.
*
* The concept is very simple: there is memory that is useful to allocate
* only in the context of serving a request, and must be freed anyway when
* the callback implementing the command returns. So in that case the module
* does not need to retain a reference to these allocations, it is just
* required to free the memory before returning. When this is the case the
* module can call RedisModule_PoolAlloc() instead, that works like malloc()
* but will automatically free the memory when the module callback returns.
*
* Note that PoolAlloc() does not necessarily require AutoMemory to be
* active. */
int HelloLeftPad_RedisCommand(RedisModuleCtx *ctx, RedisModuleString **argv, int argc) {
RedisModule_AutoMemory(ctx); /* Use automatic memory management. */
long long padlen;
if (argc != 4) return RedisModule_WrongArity(ctx);
if ((RedisModule_StringToLongLong(argv[2],&padlen) != REDISMODULE_OK) ||
(padlen< 0)) {
return RedisModule_ReplyWithError(ctx,"ERR invalid padding length");
}
size_t strlen, chlen;
const char *str = RedisModule_StringPtrLen(argv[1], &strlen);
const char *ch = RedisModule_StringPtrLen(argv[3], &chlen);
/* If the string is already larger than the target len, just return
* the string itself. */
if (strlen >= padlen)
return RedisModule_ReplyWithString(ctx,argv[1]);
/* Padding must be a single character in this simple implementation. */
if (chlen != 1)
return RedisModule_ReplyWithError(ctx,
"ERR padding must be a single char");
/* Here we use our pool allocator, for our throw-away allocation. */
padlen -= strlen;
char *buf = RedisModule_PoolAlloc(ctx,padlen+strlen);
for (size_t j = 0; j < padlen; j++) buf[j] = *ch;
memcpy(buf+padlen,str,strlen);
RedisModule_ReplyWithStringBuffer(ctx,buf,padlen+strlen);
return REDISMODULE_OK;
}
int UniquePopCommandHelper(RedisModuleCtx *ctx, RedisModuleString **argv, int argc,
PopReplyCB replycb) {
if (argc != 2) {
return RedisModule_WrongArity(ctx);
}
RedisModule_AutoMemory(ctx);
// open the key and make sure it is indeed a Hash and not empty
RedisModuleKey *key =
RedisModule_OpenKey(ctx, argv[1], REDISMODULE_READ);
int type = RedisModule_KeyType(key);
if (type == REDISMODULE_KEYTYPE_EMPTY) {
RedisModule_ReplyWithNull(ctx);
return REDISMODULE_OK;
}
if (RedisModule_ModuleTypeGetType(key) != UniqueType) {
return RedisModule_ReplyWithError(ctx,REDISMODULE_ERRORMSG_WRONGTYPE);
}
unique *unique = RedisModule_ModuleTypeGetValue(key);
sds skey, sval;
int r = uniquePop(unique, &skey, &sval);
if (r == 0) {
replycb(ctx, skey, sval);
sdsfree(skey);
sdsfree(sval);
} else {
RedisModule_ReplyWithNull(ctx);
}
return REDISMODULE_OK;
}
/* HELLO.LEXRANGE key min_lex max_lex min_age max_age
* This command expects a sorted set stored at key in the following form:
* - All the elements have score 0.
* - Elements are pairs of "<name>:<age>", for example "Anna:52".
* The command will return all the sorted set items that are lexicographically
* between the specified range (using the same format as ZRANGEBYLEX)
* and having an age between min_age and max_age. */
int HelloLexRange_RedisCommand(RedisModuleCtx *ctx, RedisModuleString **argv, int argc) {
RedisModule_AutoMemory(ctx); /* Use automatic memory management. */
if (argc != 6) return RedisModule_WrongArity(ctx);
RedisModuleKey *key = RedisModule_OpenKey(ctx,argv[1],
REDISMODULE_READ|REDISMODULE_WRITE);
if (RedisModule_KeyType(key) != REDISMODULE_KEYTYPE_ZSET) {
return RedisModule_ReplyWithError(ctx,REDISMODULE_ERRORMSG_WRONGTYPE);
}
if (RedisModule_ZsetFirstInLexRange(key,argv[2],argv[3]) != REDISMODULE_OK) {
return RedisModule_ReplyWithError(ctx,"invalid range");
}
int arraylen = 0;
RedisModule_ReplyWithArray(ctx,REDISMODULE_POSTPONED_ARRAY_LEN);
while(!RedisModule_ZsetRangeEndReached(key)) {
double score;
RedisModuleString *ele = RedisModule_ZsetRangeCurrentElement(key,&score);
RedisModule_ReplyWithString(ctx,ele);
RedisModule_FreeString(ctx,ele);
RedisModule_ZsetRangeNext(key);
arraylen++;
}
RedisModule_ZsetRangeStop(key);
RedisModule_ReplySetArrayLength(ctx,arraylen);
RedisModule_CloseKey(key);
return REDISMODULE_OK;
}
int UniqueLenCommand(RedisModuleCtx *ctx, RedisModuleString **argv, int argc) {
if (argc != 2) {
return RedisModule_WrongArity(ctx);
}
RedisModule_AutoMemory(ctx);
// open the key and make sure it is indeed a Hash and not empty
RedisModuleKey *key =
RedisModule_OpenKey(ctx, argv[1], REDISMODULE_READ);
int type = RedisModule_KeyType(key);
if (type == REDISMODULE_KEYTYPE_EMPTY) {
RedisModule_ReplyWithNull(ctx);
return REDISMODULE_OK;
}
if (RedisModule_ModuleTypeGetType(key) != UniqueType) {
return RedisModule_ReplyWithError(ctx,REDISMODULE_ERRORMSG_WRONGTYPE);
}
unique *unique = RedisModule_ModuleTypeGetValue(key);
size_t len = uniqueLen(unique);
RedisModule_ReplyWithLongLong(ctx, len);
return REDISMODULE_OK;
}
int UniqueGetAllCommand(RedisModuleCtx *ctx, RedisModuleString **argv, int argc) {
if (argc != 2) {
return RedisModule_WrongArity(ctx);
}
RedisModule_AutoMemory(ctx);
// open the key and make sure it is indeed a Hash and not empty
RedisModuleKey *key =
RedisModule_OpenKey(ctx, argv[1], REDISMODULE_READ);
int type = RedisModule_KeyType(key);
if (type == REDISMODULE_KEYTYPE_EMPTY) {
RedisModule_ReplyWithNull(ctx);
return REDISMODULE_OK;
}
if (RedisModule_ModuleTypeGetType(key) != UniqueType) {
return RedisModule_ReplyWithError(ctx,REDISMODULE_ERRORMSG_WRONGTYPE);
}
unique *unique = RedisModule_ModuleTypeGetValue(key);
size_t len = uniqueLen(unique);
RedisModule_ReplyWithArray(ctx, len*2);
size_t i;
listIter *it = listGetIterator(unique->l, AL_START_HEAD);
listNode *node;
for (node = listNext(it), i=0; node && i<len; node = listNext(it),i++) {
dictEntry *en = node->value;
RedisModule_ReplyWithStringBuffer(ctx, en->key, sdslen(en->key));
RedisModule_ReplyWithStringBuffer(ctx, en->v.val, sdslen(en->v.val));
}
return REDISMODULE_OK;
}
/* This is an example of strings DMA access. Given a key containing a string
* it toggles the case of each character from lower to upper case or the
* other way around.
*
* No automatic memory management is used in this example (for the sake
* of variety).
*
* HELLO.TOGGLE.CASE key */
int HelloToggleCase_RedisCommand(RedisModuleCtx *ctx, RedisModuleString **argv, int argc) {
if (argc != 2) return RedisModule_WrongArity(ctx);
RedisModuleKey *key = RedisModule_OpenKey(ctx,argv[1],
REDISMODULE_READ|REDISMODULE_WRITE);
int keytype = RedisModule_KeyType(key);
if (keytype != REDISMODULE_KEYTYPE_STRING &&
keytype != REDISMODULE_KEYTYPE_EMPTY)
{
RedisModule_CloseKey(key);
return RedisModule_ReplyWithError(ctx,REDISMODULE_ERRORMSG_WRONGTYPE);
}
if (keytype == REDISMODULE_KEYTYPE_STRING) {
size_t len, j;
char *s = RedisModule_StringDMA(key,&len,REDISMODULE_WRITE);
for (j = 0; j < len; j++) {
if (isupper(s[j])) {
s[j] = tolower(s[j]);
} else {
s[j] = toupper(s[j]);
}
}
}
RedisModule_CloseKey(key);
RedisModule_ReplyWithSimpleString(ctx,"OK");
RedisModule_ReplicateVerbatim(ctx);
return REDISMODULE_OK;
}
/* Another command to show replication. In this case, we call
* RedisModule_ReplicateVerbatim() to mean we want just the command to be
* propagated to slaves / AOF exactly as it was called by the user.
*
* This command also shows how to work with string objects.
* It takes a list, and increments all the elements (that must have
* a numerical value) by 1, returning the sum of all the elements
* as reply.
*
* Usage: HELLO.REPL2 <list-key> */
int HelloRepl2_RedisCommand(RedisModuleCtx *ctx, RedisModuleString **argv, int argc) {
if (argc != 2) return RedisModule_WrongArity(ctx);
RedisModule_AutoMemory(ctx); /* Use automatic memory management. */
RedisModuleKey *key = RedisModule_OpenKey(ctx,argv[1],
REDISMODULE_READ|REDISMODULE_WRITE);
if (RedisModule_KeyType(key) != REDISMODULE_KEYTYPE_LIST)
return RedisModule_ReplyWithError(ctx,REDISMODULE_ERRORMSG_WRONGTYPE);
size_t listlen = RedisModule_ValueLength(key);
long long sum = 0;
/* Rotate and increment. */
while(listlen--) {
RedisModuleString *ele = RedisModule_ListPop(key,REDISMODULE_LIST_TAIL);
long long val;
if (RedisModule_StringToLongLong(ele,&val) != REDISMODULE_OK) val = 0;
val++;
sum += val;
RedisModuleString *newele = RedisModule_CreateStringFromLongLong(ctx,val);
RedisModule_ListPush(key,REDISMODULE_LIST_HEAD,newele);
}
RedisModule_ReplyWithLongLong(ctx,sum);
RedisModule_ReplicateVerbatim(ctx);
return REDISMODULE_OK;
}
/* HELLOTYPE.INSERT key value */
int HelloTypeInsert_RedisCommand(RedisModuleCtx *ctx, RedisModuleString **argv, int argc) {
RedisModule_AutoMemory(ctx); /* Use automatic memory management. */
if (argc != 3) return RedisModule_WrongArity(ctx);
RedisModuleKey *key = RedisModule_OpenKey(ctx,argv[1],
REDISMODULE_READ|REDISMODULE_WRITE);
int type = RedisModule_KeyType(key);
if (type != REDISMODULE_KEYTYPE_EMPTY &&
RedisModule_ModuleTypeGetType(key) != HelloType)
{
return RedisModule_ReplyWithError(ctx,REDISMODULE_ERRORMSG_WRONGTYPE);
}
long long value;
if ((RedisModule_StringToLongLong(argv[2],&value) != REDISMODULE_OK)) {
return RedisModule_ReplyWithError(ctx,"ERR invalid value: must be a signed 64 bit integer");
}
/* Create an empty value object if the key is currently empty. */
struct HelloTypeObject *hto;
if (type == REDISMODULE_KEYTYPE_EMPTY) {
hto = createHelloTypeObject();
RedisModule_ModuleTypeSetValue(key,HelloType,hto);
} else {
hto = RedisModule_ModuleTypeGetValue(key);
}
/* Insert the new element. */
HelloTypeInsert(hto,value);
RedisModule_ReplyWithLongLong(ctx,hto->len);
RedisModule_ReplicateVerbatim(ctx);
return REDISMODULE_OK;
}
int GMBlurCommand(RedisModuleCtx *ctx, RedisModuleString **argv, int argc) {
if (argc != 4) {
return RedisModule_WrongArity(ctx);
}
// init auto memory for created strings
RedisModule_AutoMemory(ctx);
// open the key
RedisModuleKey *key = RedisModule_OpenKey(ctx, argv[1], REDISMODULE_READ|REDISMODULE_WRITE);
// If key doesn't exist then return immediately
if (RedisModule_KeyType(key) == REDISMODULE_KEYTYPE_EMPTY) {
RedisModule_ReplyWithError(ctx, "empty key");
return REDISMODULE_OK;
}
// Validate key is a string
if (RedisModule_KeyType(key) != REDISMODULE_KEYTYPE_STRING) {
RedisModule_ReplyWithError(ctx, REDISMODULE_ERRORMSG_WRONGTYPE);
return REDISMODULE_ERR;
}
// Validate inputs are valid floats
double radius;
if (RedisModule_StringToDouble(argv[2], &radius) == REDISMODULE_ERR) {
RedisModule_ReplyWithError(ctx, "Invalid arguments");
return REDISMODULE_ERR;
}
double sigma;
if (RedisModule_StringToDouble(argv[3], &sigma) == REDISMODULE_ERR) {
RedisModule_ReplyWithError(ctx, "Invalid arguments");
return REDISMODULE_ERR;
}
// Get access to the image
size_t key_len;
char *buf = RedisModule_StringDMA(key, &key_len, REDISMODULE_READ);
if (!buf) {
RedisModule_ReplyWithError(ctx, REDISMODULE_ERRORMSG_WRONGTYPE);
return REDISMODULE_ERR;
}
struct GoImgBlur_return r = GoImgBlur(buf, key_len, radius, sigma);
if (r.r3 != 0) {
RedisModule_ReplyWithError(ctx, r.r2);
free(r.r0);
free(r.r2);
return REDISMODULE_ERR;
}
int result = UpdateTransformedImage(ctx, key, r.r0, r.r1);
free(r.r0);
free(r.r2);
return result;
}
int GMThumbnailCommand(RedisModuleCtx *ctx, RedisModuleString **argv, int argc) {
if (argc != 4) {
return RedisModule_WrongArity(ctx);
}
// init auto memory for created strings
RedisModule_AutoMemory(ctx);
// open the key
RedisModuleKey *key = RedisModule_OpenKey(ctx, argv[1], REDISMODULE_READ | REDISMODULE_WRITE);
// If key doesn't exist then return immediately
if (RedisModule_KeyType(key) == REDISMODULE_KEYTYPE_EMPTY) {
RedisModule_ReplyWithError(ctx, "empty key");
return REDISMODULE_OK;
}
// Validate key is a string
if (RedisModule_KeyType(key) != REDISMODULE_KEYTYPE_STRING) {
RedisModule_ReplyWithError(ctx, REDISMODULE_ERRORMSG_WRONGTYPE);
return REDISMODULE_ERR;
}
// Validate inputs are valid unsigned ints
long long width;
if (RedisModule_StringToLongLong(argv[2], &width) == REDISMODULE_ERR || width <= 0) {
RedisModule_ReplyWithError(ctx, "Invalid arguments");
return REDISMODULE_ERR;
}
long long height;
if (RedisModule_StringToLongLong(argv[3], &height) == REDISMODULE_ERR || height <= 0) {
RedisModule_ReplyWithError(ctx, "Invalid arguments");
return REDISMODULE_ERR;
}
// Get access to the image
size_t key_len;
char *buf = RedisModule_StringDMA(key, &key_len, REDISMODULE_READ);
if (!buf) {
RedisModule_ReplyWithError(ctx, REDISMODULE_ERRORMSG_WRONGTYPE);
return REDISMODULE_ERR;
}
struct GoImgThumbnail_return r = GoImgThumbnail(buf, key_len, width, height);
if (r.r3 != 0) {
RedisModule_ReplyWithError(ctx, r.r2);
free(r.r0);
free(r.r2);
return REDISMODULE_ERR;
}
int result = UpdateTransformedImage(ctx, key, r.r0, r.r1);
free(r.r0);
free(r.r2);
return result;
}
/* HELLO.PUSH.CALL2
* This is exaxctly as HELLO.PUSH.CALL, but shows how we can reply to the
* client using directly a reply object that Call() returned. */
int HelloPushCall2_RedisCommand(RedisModuleCtx *ctx, RedisModuleString **argv, int argc)
{
if (argc != 3) return RedisModule_WrongArity(ctx);
RedisModuleCallReply *reply;
reply = RedisModule_Call(ctx,"RPUSH","ss",argv[1],argv[2]);
RedisModule_ReplyWithCallReply(ctx,reply);
RedisModule_FreeCallReply(reply);
return REDISMODULE_OK;
}
static int cmd_password_hcheck(RedisModuleCtx *ctx, RedisModuleString **argv, int argc) {
RedisModuleCallReply *reply;
if (argc != 4) {
RedisModule_WrongArity(ctx);
return REDISMODULE_OK;
}
reply = RedisModule_Call(ctx, "HGET", "ss", argv[1], argv[2]);
validate(ctx, reply, argv[3]);
return REDISMODULE_OK;
}
/*
## FT.SUGLEN key
Get the size of an autoc-complete suggestion dictionary
### Parameters:
- key: the suggestion dictionary key.
### Returns:
Integer reply: the current size of the suggestion dictionary.
*/
int RSSuggestLenCommand(RedisModuleCtx *ctx, RedisModuleString **argv, int argc) {
RedisModule_AutoMemory(ctx); /* Use automatic memory management. */
if (argc != 2) return RedisModule_WrongArity(ctx);
RedisModuleKey *key = RedisModule_OpenKey(ctx, argv[1], REDISMODULE_READ);
int type = RedisModule_KeyType(key);
if (type != REDISMODULE_KEYTYPE_EMPTY && RedisModule_ModuleTypeGetType(key) != TrieType) {
return RedisModule_ReplyWithError(ctx, REDISMODULE_ERRORMSG_WRONGTYPE);
}
Trie *tree = RedisModule_ModuleTypeGetValue(key);
return RedisModule_ReplyWithLongLong(ctx, tree ? tree->size : 0);
}
/* HELLO.PUSH.NATIVE re-implements RPUSH, and shows the low level modules API
* where you can "open" keys, make low level operations, create new keys by
* pushing elements into non-existing keys, and so forth.
*
* You'll find this command to be roughly as fast as the actual RPUSH
* command. */
int HelloPushNative_RedisCommand(RedisModuleCtx *ctx, RedisModuleString **argv, int argc)
{
if (argc != 3) return RedisModule_WrongArity(ctx);
RedisModuleKey *key = RedisModule_OpenKey(ctx,argv[1],
REDISMODULE_READ|REDISMODULE_WRITE);
RedisModule_ListPush(key,REDISMODULE_LIST_TAIL,argv[2]);
size_t newlen = RedisModule_ValueLength(key);
RedisModule_CloseKey(key);
RedisModule_ReplyWithLongLong(ctx,newlen);
return REDISMODULE_OK;
}
/*
## FT.SUGGADD key string score [INCR] [PAYLOAD {payload}]
Add a suggestion string to an auto-complete suggestion dictionary. This is
disconnected from the
index definitions, and leaves creating and updating suggestino dictionaries to
the user.
### Parameters:
- key: the suggestion dictionary key.
- string: the suggestion string we index
- score: a floating point number of the suggestion string's weight
-INCR: if set, we increment the existing entry of the suggestion by the
given
score, instead
of
replacing the score. This is useful for updating the dictionary based on
user queries in
real
time
- PAYLOAD: Add a payload to the suggestion string that will be used as additional information.
### Returns:
Integer reply: the current size of the suggestion dictionary.
*/
int RSSuggestAddCommand(RedisModuleCtx *ctx, RedisModuleString **argv, int argc) {
if (argc < 4 || argc > 7) {
return RedisModule_WrongArity(ctx);
}
int incr = 0, rv = AC_OK;
RSPayload payload = {0};
ArgsCursor ac = {0};
ArgsCursor_InitRString(&ac, argv + 4, argc - 4);
while (!AC_IsAtEnd(&ac)) {
const char *s = AC_GetStringNC(&ac, NULL);
if (!strcasecmp(s, "INCR")) {
incr = 1;
} else if (!strcasecmp(s, "PAYLOAD")) {
if ((rv = AC_GetString(&ac, (const char **)&payload.data, &payload.len, 0)) != AC_OK) {
return RMUtil_ReplyWithErrorFmt(ctx, "Invalid payload: %s", AC_Strerror(rv));
}
} else {
return RMUtil_ReplyWithErrorFmt(ctx, "Unknown argument `%s`", s);
}
}
RedisModule_AutoMemory(ctx); /* Use automatic memory management. */
RedisModuleKey *key = RedisModule_OpenKey(ctx, argv[1], REDISMODULE_READ | REDISMODULE_WRITE);
int type = RedisModule_KeyType(key);
if (type != REDISMODULE_KEYTYPE_EMPTY && RedisModule_ModuleTypeGetType(key) != TrieType) {
return RedisModule_ReplyWithError(ctx, REDISMODULE_ERRORMSG_WRONGTYPE);
}
RedisModuleString *val = argv[2];
double score;
if ((RedisModule_StringToDouble(argv[3], &score) != REDISMODULE_OK)) {
return RedisModule_ReplyWithError(ctx, "ERR invalid score");
}
/* Create an empty value object if the key is currently empty. */
Trie *tree;
if (type == REDISMODULE_KEYTYPE_EMPTY) {
tree = NewTrie();
RedisModule_ModuleTypeSetValue(key, TrieType, tree);
} else {
tree = RedisModule_ModuleTypeGetValue(key);
}
/* Insert the new element. */
Trie_Insert(tree, val, score, incr, &payload);
RedisModule_ReplyWithLongLong(ctx, tree->size);
RedisModule_ReplicateVerbatim(ctx);
return REDISMODULE_OK;
}
/* HELLO.RAND.ARRAY <count>
* Shows how to generate arrays as commands replies.
* It just outputs <count> random numbers. */
int HelloRandArray_RedisCommand(RedisModuleCtx *ctx, RedisModuleString **argv, int argc) {
if (argc != 2) return RedisModule_WrongArity(ctx);
long long count;
if (RedisModule_StringToLongLong(argv[1],&count) != REDISMODULE_OK ||
count < 0)
return RedisModule_ReplyWithError(ctx,"ERR invalid count");
/* To reply with an array, we call RedisModule_ReplyWithArray() followed
* by other "count" calls to other reply functions in order to generate
* the elements of the array. */
RedisModule_ReplyWithArray(ctx,count);
while(count--) RedisModule_ReplyWithLongLong(ctx,rand());
return REDISMODULE_OK;
}
int GMGetTypeCommand(RedisModuleCtx *ctx, RedisModuleString **argv, int argc) {
int res = REDISMODULE_ERR;
if (argc != 2) {
return RedisModule_WrongArity(ctx);
}
// init auto memory for created strings
RedisModule_AutoMemory(ctx);
// open the key
RedisModuleKey *key = RedisModule_OpenKey(ctx, argv[1], REDISMODULE_READ);
// If key doesn't exist then return immediately
if (RedisModule_KeyType(key) == REDISMODULE_KEYTYPE_EMPTY) {
RedisModule_ReplyWithError(ctx, "empty key");
return REDISMODULE_OK;
}
// Validate key is a string
if (RedisModule_KeyType(key) != REDISMODULE_KEYTYPE_STRING) {
RedisModule_ReplyWithError(ctx, REDISMODULE_ERRORMSG_WRONGTYPE);
return REDISMODULE_ERR;
}
// Get access to the image
size_t key_len;
char *buf = RedisModule_StringDMA(key, &key_len, REDISMODULE_READ);
if (!buf) {
RedisModule_ReplyWithError(ctx, REDISMODULE_ERRORMSG_WRONGTYPE);
return REDISMODULE_ERR;
}
struct GoGetImgType_return r = GoGetImgType(buf, key_len);
if (r.r3 != 0) {
RedisModule_ReplyWithError(ctx, r.r2);
free(r.r0);
free(r.r2);
return REDISMODULE_ERR;
}
RedisModule_ReplyWithSimpleString(ctx, r.r0);
free(r.r0);
free(r.r2);
return REDISMODULE_OK;
}
static int router_simple_command(RedisModuleCtx *ctx, RedisModuleString **argv, int argc) {
RedisModule_AutoMemory(ctx);
if (argc < 2) {
RedisModule_WrongArity(ctx);
return REDISMODULE_OK;
}
RedisModuleCallReply *reply;
size_t len;
const char *realCmd = RedisModule_StringPtrLen(argv[1], &len);
if (argc == 2) {
reply = RedisModule_Call(ctx, realCmd, "");
} else {
char *fmt = (char *) malloc(argc-1);
memset(fmt, 's', argc-2);
fmt[argc-2] = '\0';
ffi_cif cif;
ffi_type **ffi_argv = (ffi_type **)malloc(sizeof(ffi_type *) * (argc + 1));
void *result;
int i;
for (i = 0; i < argc+1; i++) {
ffi_argv[i] = &ffi_type_pointer;
}
void **values = (void **) malloc(sizeof(void *) * (argc + 1));
values[0] = &ctx;
values[1] = &realCmd;
values[2] = &fmt;
for (i = 3; i < argc + 1; i++) {
values[i] = &argv[i-1];
}
if (ffi_prep_cif(&cif, FFI_DEFAULT_ABI, (argc + 1), &ffi_type_pointer, ffi_argv) == FFI_OK) {
ffi_call(&cif, FFI_FN(RedisModule_Call), &result, values);
}
reply = (RedisModuleCallReply *) result;
}
if (reply == NULL) {
const char *err = "command error";
RedisModule_ReplyWithError(ctx, err);
} else {
RedisModule_ReplyWithCallReply(ctx, reply);
}
return REDISMODULE_OK;
}
/* HELLO.ZSUMRANGE key startscore endscore
* Return the sum of all the scores elements between startscore and endscore.
*
* The computation is performed two times, one time from start to end and
* another time backward. The two scores, returned as a two element array,
* should match.*/
int HelloZsumRange_RedisCommand(RedisModuleCtx *ctx, RedisModuleString **argv, int argc) {
double score_start, score_end;
if (argc != 4) return RedisModule_WrongArity(ctx);
if (RedisModule_StringToDouble(argv[2],&score_start) != REDISMODULE_OK ||
RedisModule_StringToDouble(argv[3],&score_end) != REDISMODULE_OK)
{
return RedisModule_ReplyWithError(ctx,"ERR invalid range");
}
RedisModuleKey *key = RedisModule_OpenKey(ctx,argv[1],
REDISMODULE_READ|REDISMODULE_WRITE);
if (RedisModule_KeyType(key) != REDISMODULE_KEYTYPE_ZSET) {
return RedisModule_ReplyWithError(ctx,REDISMODULE_ERRORMSG_WRONGTYPE);
}
double scoresum_a = 0;
double scoresum_b = 0;
RedisModule_ZsetFirstInScoreRange(key,score_start,score_end,0,0);
while(!RedisModule_ZsetRangeEndReached(key)) {
double score;
RedisModuleString *ele = RedisModule_ZsetRangeCurrentElement(key,&score);
RedisModule_FreeString(ctx,ele);
scoresum_a += score;
RedisModule_ZsetRangeNext(key);
}
RedisModule_ZsetRangeStop(key);
RedisModule_ZsetLastInScoreRange(key,score_start,score_end,0,0);
while(!RedisModule_ZsetRangeEndReached(key)) {
double score;
RedisModuleString *ele = RedisModule_ZsetRangeCurrentElement(key,&score);
RedisModule_FreeString(ctx,ele);
scoresum_b += score;
RedisModule_ZsetRangePrev(key);
}
RedisModule_ZsetRangeStop(key);
RedisModule_CloseKey(key);
RedisModule_ReplyWithArray(ctx,2);
RedisModule_ReplyWithDouble(ctx,scoresum_a);
RedisModule_ReplyWithDouble(ctx,scoresum_b);
return REDISMODULE_OK;
}
/* HELLOTYPE.LEN key */
int HelloTypeLen_RedisCommand(RedisModuleCtx *ctx, RedisModuleString **argv, int argc) {
RedisModule_AutoMemory(ctx); /* Use automatic memory management. */
if (argc != 2) return RedisModule_WrongArity(ctx);
RedisModuleKey *key = RedisModule_OpenKey(ctx,argv[1],
REDISMODULE_READ|REDISMODULE_WRITE);
int type = RedisModule_KeyType(key);
if (type != REDISMODULE_KEYTYPE_EMPTY &&
RedisModule_ModuleTypeGetType(key) != HelloType)
{
return RedisModule_ReplyWithError(ctx,REDISMODULE_ERRORMSG_WRONGTYPE);
}
struct HelloTypeObject *hto = RedisModule_ModuleTypeGetValue(key);
RedisModule_ReplyWithLongLong(ctx,hto ? hto->len : 0);
return REDISMODULE_OK;
}
/* HELLO.LIST.SUM.LEN returns the total length of all the items inside
* a Redis list, by using the high level Call() API.
* This command is an example of the array reply access. */
int HelloListSumLen_RedisCommand(RedisModuleCtx *ctx, RedisModuleString **argv, int argc)
{
if (argc != 2) return RedisModule_WrongArity(ctx);
RedisModuleCallReply *reply;
reply = RedisModule_Call(ctx,"LRANGE","sll",argv[1],(long long)0,(long long)-1);
size_t strlen = 0;
size_t items = RedisModule_CallReplyLength(reply);
size_t j;
for (j = 0; j < items; j++) {
RedisModuleCallReply *ele = RedisModule_CallReplyArrayElement(reply,j);
strlen += RedisModule_CallReplyLength(ele);
}
RedisModule_FreeCallReply(reply);
RedisModule_ReplyWithLongLong(ctx,strlen);
return REDISMODULE_OK;
}
/* HELLO.MORE.EXPIRE key milliseconds.
*
* If they key has already an associated TTL, extends it by "milliseconds"
* milliseconds. Otherwise no operation is performed. */
int HelloMoreExpire_RedisCommand(RedisModuleCtx *ctx, RedisModuleString **argv, int argc) {
RedisModule_AutoMemory(ctx); /* Use automatic memory management. */
if (argc != 3) return RedisModule_WrongArity(ctx);
mstime_t addms, expire;
if (RedisModule_StringToLongLong(argv[2],&addms) != REDISMODULE_OK)
return RedisModule_ReplyWithError(ctx,"ERR invalid expire time");
RedisModuleKey *key = RedisModule_OpenKey(ctx,argv[1],
REDISMODULE_READ|REDISMODULE_WRITE);
expire = RedisModule_GetExpire(key);
if (expire != REDISMODULE_NO_EXPIRE) {
expire += addms;
RedisModule_SetExpire(key,expire);
}
return RedisModule_ReplyWithSimpleString(ctx,"OK");
}
static int UniquePushCommand(RedisModuleCtx *ctx, RedisModuleString **argv, int argc, mergefn fn) {
if (argc != 4) {
return RedisModule_WrongArity(ctx);
}
RedisModule_AutoMemory(ctx);
// open the key and make sure it is indeed a Hash and not empty
RedisModuleKey *key =
RedisModule_OpenKey(ctx, argv[1], REDISMODULE_READ | REDISMODULE_WRITE);
int type = RedisModule_KeyType(key);
if (type != REDISMODULE_KEYTYPE_EMPTY &&
RedisModule_ModuleTypeGetType(key) != UniqueType)
{
return RedisModule_ReplyWithError(ctx,REDISMODULE_ERRORMSG_WRONGTYPE);
}
unique *unique;
if (type == REDISMODULE_KEYTYPE_EMPTY) {
unique = uniqueCreate();
RedisModule_ModuleTypeSetValue(key,UniqueType,unique);
} else {
unique = RedisModule_ModuleTypeGetValue(key);
}
sds skey, sval;
size_t skeylen, svallen;
const char *pkey, *pval;
pkey = RedisModule_StringPtrLen(argv[2], &skeylen);
pval = RedisModule_StringPtrLen(argv[3], &svallen);
skey = sdsnewlen(pkey, skeylen);
sval = sdsnewlen(pval, svallen);
int n = uniquePush(unique, skey, sval, fn);
if (n == -1) {
RedisModule_ReplyWithError(ctx,REDISMODULE_ERRORMSG_WRONGTYPE);
} else {
RedisModule_ReplyWithLongLong(ctx, n);
}
RedisModule_ReplicateVerbatim(ctx);
return REDISMODULE_OK;
}
/* HELLO.LIST.SPLICE srclist dstlist count
* Moves 'count' elements from the tail of 'srclist' to the head of
* 'dstlist'. If less than count elements are available, it moves as much
* elements as possible. */
int HelloListSplice_RedisCommand(RedisModuleCtx *ctx, RedisModuleString **argv, int argc) {
if (argc != 4) return RedisModule_WrongArity(ctx);
RedisModuleKey *srckey = RedisModule_OpenKey(ctx,argv[1],
REDISMODULE_READ|REDISMODULE_WRITE);
RedisModuleKey *dstkey = RedisModule_OpenKey(ctx,argv[2],
REDISMODULE_READ|REDISMODULE_WRITE);
/* Src and dst key must be empty or lists. */
if ((RedisModule_KeyType(srckey) != REDISMODULE_KEYTYPE_LIST &&
RedisModule_KeyType(srckey) != REDISMODULE_KEYTYPE_EMPTY) ||
(RedisModule_KeyType(dstkey) != REDISMODULE_KEYTYPE_LIST &&
RedisModule_KeyType(dstkey) != REDISMODULE_KEYTYPE_EMPTY))
{
RedisModule_CloseKey(srckey);
RedisModule_CloseKey(dstkey);
return RedisModule_ReplyWithError(ctx,REDISMODULE_ERRORMSG_WRONGTYPE);
}
long long count;
if ((RedisModule_StringToLongLong(argv[3],&count) != REDISMODULE_OK) ||
(count < 0)) {
RedisModule_CloseKey(srckey);
RedisModule_CloseKey(dstkey);
return RedisModule_ReplyWithError(ctx,"ERR invalid count");
}
while(count-- > 0) {
RedisModuleString *ele;
ele = RedisModule_ListPop(srckey,REDISMODULE_LIST_TAIL);
if (ele == NULL) break;
RedisModule_ListPush(dstkey,REDISMODULE_LIST_HEAD,ele);
RedisModule_FreeString(ctx,ele);
}
size_t len = RedisModule_ValueLength(srckey);
RedisModule_CloseKey(srckey);
RedisModule_CloseKey(dstkey);
RedisModule_ReplyWithLongLong(ctx,len);
return REDISMODULE_OK;
}
/*
## FT.SUGDEL key str
Delete a string from a suggestion index.
### Parameters:
- key: the suggestion dictionary key.
- str: the string to delete
### Returns:
Integer reply: 1 if the string was found and deleted, 0 otherwise.
*/
int RSSuggestDelCommand(RedisModuleCtx *ctx, RedisModuleString **argv, int argc) {
RedisModule_AutoMemory(ctx); /* Use automatic memory management. */
if (argc != 3) return RedisModule_WrongArity(ctx);
RedisModule_ReplicateVerbatim(ctx);
RedisModuleKey *key = RedisModule_OpenKey(ctx, argv[1], REDISMODULE_READ);
int type = RedisModule_KeyType(key);
if (type != REDISMODULE_KEYTYPE_EMPTY && RedisModule_ModuleTypeGetType(key) != TrieType) {
return RedisModule_ReplyWithError(ctx, REDISMODULE_ERRORMSG_WRONGTYPE);
}
Trie *tree = RedisModule_ModuleTypeGetValue(key);
if (!tree) {
return RedisModule_ReplyWithLongLong(ctx, 0);
}
size_t len;
const char *str = RedisModule_StringPtrLen(argv[2], &len);
return RedisModule_ReplyWithLongLong(ctx, Trie_Delete(tree, str, len));
}
/*
* MSISMEMBER key1 [key2 ...] member
* Checks for membership in multiple sets.
* Reply: Integer, the count of sets to which the member belongs.
*/
int MSIsMemberCommand(RedisModuleCtx *ctx, RedisModuleString **argv, int argc) {
if (argc < 3) {
if (RedisModule_IsKeysPositionRequest(ctx))
/* TODO: handle this once the getkey-api allows signalling errors */
return REDISMODULE_OK;
else
return RedisModule_WrongArity(ctx);
}
if (RedisModule_IsKeysPositionRequest(ctx)) {
size_t i;
for (i = 1; i < argc - 1; i++) RedisModule_KeyAtPos(ctx, i);
return REDISMODULE_OK;
}
RedisModule_AutoMemory(ctx);
int iele = argc - 1;
size_t count = 0;
int i;
for (i = 1; i < iele; i++) {
RedisModuleKey *key =
RedisModule_OpenKey(ctx, argv[i], REDISMODULE_READ | REDISMODULE_WRITE);
if (RedisModule_KeyType(key) == REDISMODULE_KEYTYPE_EMPTY) continue;
if (RedisModule_KeyType(key) != REDISMODULE_KEYTYPE_SET) {
RedisModule_ReplyWithError(ctx, REDISMODULE_ERRORMSG_WRONGTYPE);
return REDISMODULE_ERR;
}
RedisModuleCallReply *rep =
RedisModule_Call(ctx, "SISMEMBER", "ss", argv[i], argv[iele]);
RMUTIL_ASSERT_NOERROR(rep)
count += RedisModule_CallReplyInteger(rep);
}
RedisModule_ReplyWithLongLong(ctx, count);
return REDISMODULE_OK;
}
static int cmd_password_hset(RedisModuleCtx *ctx, RedisModuleString **argv, int argc) {
RedisModuleCallReply *reply;
size_t len;
char crypt_buf[64];
char *hash;
if (argc != 4) {
RedisModule_WrongArity(ctx);
return REDISMODULE_OK;
}
hash = do_crypt(RedisModule_StringPtrLen(argv[3], &len), crypt_buf, sizeof(crypt_buf));
if (!hash) {
RedisModule_ReplyWithError(ctx, "ERR hash error");
return REDISMODULE_ERR;
}
reply = RedisModule_Call(ctx, "HSET", "ssc!", argv[1], argv[2], hash);
RedisModule_ReplyWithCallReply(ctx, reply);
return REDISMODULE_OK;
}
/* HELLO.HCOPY key srcfield dstfield
* This is just an example command that sets the hash field dstfield to the
* same value of srcfield. If srcfield does not exist no operation is
* performed.
*
* The command returns 1 if the copy is performed (srcfield exists) otherwise
* 0 is returned. */
int HelloHCopy_RedisCommand(RedisModuleCtx *ctx, RedisModuleString **argv, int argc) {
RedisModule_AutoMemory(ctx); /* Use automatic memory management. */
if (argc != 4) return RedisModule_WrongArity(ctx);
RedisModuleKey *key = RedisModule_OpenKey(ctx,argv[1],
REDISMODULE_READ|REDISMODULE_WRITE);
int type = RedisModule_KeyType(key);
if (type != REDISMODULE_KEYTYPE_HASH &&
type != REDISMODULE_KEYTYPE_EMPTY)
{
return RedisModule_ReplyWithError(ctx,REDISMODULE_ERRORMSG_WRONGTYPE);
}
/* Get the old field value. */
RedisModuleString *oldval;
RedisModule_HashGet(key,REDISMODULE_HASH_NONE,argv[2],&oldval,NULL);
if (oldval) {
RedisModule_HashSet(key,REDISMODULE_HASH_NONE,argv[3],oldval,NULL);
}
RedisModule_ReplyWithLongLong(ctx,oldval != NULL);
return REDISMODULE_OK;
}
