cluster_library.c

#include "php_redis.h"
#include "common.h"
#include "library.h"
#include "redis_commands.h"
#include "cluster_library.h"
#include "crc16.h"
#include <zend_exceptions.h>

extern zend_class_entry *redis_cluster_exception_ce;

/* Debugging methods/
static void cluster_dump_nodes(redisCluster *c) {
    redisClusterNode *p;

    for(zend_hash_internal_pointer_reset(c->nodes);
        zend_hash_has_more_elements(c->nodes)==SUCCESS;
        zend_hash_move_forward(c->nodes))
    {
        if ((p = zend_hash_get_current_data_ptr(c->nodes)) == NULL) {
            continue;
        }

        const char *slave = (p->slave) ? "slave" : "master";
        php_printf("%d %s %d %d", p->sock->port, slave,p->sock->prefix_len,
            p->slot);

        php_printf("\n");
    }
}

static void cluster_log(char *fmt, ...)
{
    va_list args;
    char buffer[1024];

    va_start(args, fmt);
    vsnprintf(buffer,sizeof(buffer),fmt,args);
    va_end(args);

    fprintf(stderr, "%s\n", buffer);
}

// Debug function to dump a clusterReply structure recursively 
static void dump_reply(clusterReply *reply, int indent) {
    smart_string buf = {0};
    int i;

    switch(reply->type) {
        case TYPE_ERR:
            smart_string_appendl(&buf, "(error) ", sizeof("(error) ")-1);
            smart_string_appendl(&buf, reply->str, reply->len);
            break;
        case TYPE_LINE:
            smart_string_appendl(&buf, reply->str, reply->len);
            break;
        case TYPE_INT:
            smart_string_appendl(&buf, "(integer) ", sizeof("(integer) ")-1);
            smart_string_append_long(&buf, reply->integer);
            break;
        case TYPE_BULK:
            smart_string_appendl(&buf,"\"", 1);
            smart_string_appendl(&buf, reply->str, reply->len);
            smart_string_appendl(&buf, "\"", 1);
            break;
        case TYPE_MULTIBULK:
            if(reply->elements == (size_t)-1) {
                smart_string_appendl(&buf, "(nil)", sizeof("(nil)")-1);
            } else {
                for(i=0;i<reply->elements;i++) {
                    dump_reply(reply->element[i], indent+2);
                }
            }
            break;
        default:
            break;
    }

    if(buf.len > 0) {
        for(i=0;i<indent;i++) {
            php_printf(" ");
        }

        smart_string_0(&buf);
        php_printf("%s", buf.c);
        php_printf("\n");

        efree(buf.c);
    }
}
*/


/* Recursively free our reply object.  If free_data is non-zero we'll also free
 * the payload data (strings) themselves.  If not, we just free the structs */
void cluster_free_reply(clusterReply *reply, int free_data) {
    int i;

    switch(reply->type) {
        case TYPE_ERR:
        case TYPE_LINE:
        case TYPE_BULK:
            if(free_data && reply->str)
                efree(reply->str);
            break;
        case TYPE_MULTIBULK:
            for(i=0;i<reply->elements && reply->element[i]; i++) {
                cluster_free_reply(reply->element[i], free_data);
            }
            efree(reply->element);
            break;
        default:
            break;
    }
    efree(reply);
}

static void
cluster_multibulk_resp_recursive(RedisSock *sock, size_t elements,
                                 clusterReply **element, int *err TSRMLS_DC)
{
    int i;
    size_t sz;
    clusterReply *r;
    long len;
    char buf[1024];

    for (i = 0; i < elements; i++) {
        r = element[i] = ecalloc(1, sizeof(clusterReply));

        // Bomb out, flag error condition on a communication failure
        if(redis_read_reply_type(sock, &r->type, &len TSRMLS_CC)<0) {
            *err = 1;
            return;
        }

        /* Set our reply len */
        r->len = len;

        switch(r->type) {
            case TYPE_ERR:
            case TYPE_LINE:
                if(redis_sock_gets(sock,buf,sizeof(buf),&sz TSRMLS_CC)<0) {
                    *err = 1;
                    return;
                }
                r->len = (long long)sz;
                break;
            case TYPE_INT:
                r->integer = len;
                break;
            case TYPE_BULK:
                if (r->len > 0) {
                    r->str = redis_sock_read_bulk_reply(sock,r->len TSRMLS_CC);
                    if(!r->str) {
                        *err = 1;
                        return;
                    }
                }
                break;
            case TYPE_MULTIBULK:
                r->element = ecalloc(r->len,sizeof(clusterReply*));
                r->elements = r->len;
                cluster_multibulk_resp_recursive(sock, r->elements, r->element,
                    err TSRMLS_CC);
                if(*err) return;
                break;
            default:
                *err = 1;
                return;
        }
    }
}

/* Return the socket for a slot and slave index */
static RedisSock *cluster_slot_sock(redisCluster *c, unsigned short slot,
                                    ulong slaveidx)
{
    redisClusterNode *node;

    /* Return the master if we're not looking for a slave */
    if (slaveidx == 0) {
        return SLOT_SOCK(c, slot);
    }

    /* Abort if we can't find this slave */
    if (!SLOT_SLAVES(c, slot) ||
        (node = zend_hash_index_find_ptr(SLOT_SLAVES(c,slot), slaveidx)) == NULL
    ) {
        return NULL;
    }

    /* Success, return the slave */
    return node->sock;
}

/* Read the response from a cluster */
clusterReply *cluster_read_resp(redisCluster *c TSRMLS_DC) {
    return cluster_read_sock_resp(c->cmd_sock,c->reply_type,c->reply_len TSRMLS_CC);
}

/* Read any sort of response from the socket, having already issued the
 * command and consumed the reply type and meta info (length) */
clusterReply*
cluster_read_sock_resp(RedisSock *redis_sock, REDIS_REPLY_TYPE type,
                       size_t len TSRMLS_DC)
{
    clusterReply *r;

    r = ecalloc(1, sizeof(clusterReply));
    r->type = type;

    // Error flag in case we go recursive
    int err = 0;

    switch(r->type) {
        case TYPE_INT:
            r->integer = len;
            break;
        case TYPE_LINE:
        case TYPE_ERR:
            return r;
        case TYPE_BULK:
            r->len = len;
            r->str = redis_sock_read_bulk_reply(redis_sock, len TSRMLS_CC);
            if(r->len != -1 && !r->str) {
                cluster_free_reply(r, 1);
                return NULL;
            }
            break;
        case TYPE_MULTIBULK:
            r->elements = len;
            if(len != (size_t)-1) {
                r->element = ecalloc(len, sizeof(clusterReply*)*len);
                cluster_multibulk_resp_recursive(redis_sock, len, r->element,
                    &err TSRMLS_CC);
            }
            break;
        default:
            cluster_free_reply(r,1);
            return NULL;
    }

    // Free/return null on communication error
    if(err) {
        cluster_free_reply(r,1);
        return NULL;
    }

    // Success, return the reply
    return r;
}

/*
 * Helpers to send various 'control type commands to a specific node, e.g.
 * MULTI, ASKING, READONLY, READWRITE, etc
 */

/* Send a command to the specific socket and validate reply type */
static int cluster_send_direct(RedisSock *redis_sock, char *cmd, int cmd_len,
                               REDIS_REPLY_TYPE type TSRMLS_DC)
{
    char buf[1024];

    /* Connect to the socket if we aren't yet */
    CLUSTER_LAZY_CONNECT(redis_sock);

    /* Send our command, validate the reply type, and consume the first line */
    if (!CLUSTER_SEND_PAYLOAD(redis_sock,cmd,cmd_len) ||
        !CLUSTER_VALIDATE_REPLY_TYPE(redis_sock, type) ||
        !php_stream_gets(redis_sock->stream, buf, sizeof(buf))) return -1;

    /* Success! */
    return 0;
}

static int cluster_send_asking(RedisSock *redis_sock TSRMLS_DC) {
    return cluster_send_direct(redis_sock, RESP_ASKING_CMD,
        sizeof(RESP_ASKING_CMD)-1, TYPE_LINE TSRMLS_CC);
}

/* Send READONLY to a specific RedisSock unless it's already flagged as being
 * in READONLY mode.  If we can send the command, we flag the socket as being
 * in that mode. */
static int cluster_send_readonly(RedisSock *redis_sock TSRMLS_DC) {
    int ret;

    /* We don't have to do anything if we're already in readonly mode */
    if (redis_sock->readonly) return 0;

    /* Return success if we can send it */
    ret = cluster_send_direct(redis_sock, RESP_READONLY_CMD,
        sizeof(RESP_READONLY_CMD)-1, TYPE_LINE TSRMLS_CC);

    /* Flag this socket as READONLY if our command worked */
    redis_sock->readonly = !ret;

    /* Return the result of our send */
    return ret;
}

/* Send MULTI to a specific ReidsSock */
static int cluster_send_multi(redisCluster *c, short slot TSRMLS_DC) {
    if (cluster_send_direct(SLOT_SOCK(c,slot), RESP_MULTI_CMD,
        sizeof(RESP_MULTI_CMD)-1, TYPE_LINE TSRMLS_CC)==0)
    {
        c->cmd_sock->mode = MULTI;
        return 0;
    }
    return -1;
}

/* Send EXEC to a given slot.  We can use the normal command processing mechanism
 * here because we know we'll only have sent MULTI to the master nodes.  We can't
 * failover inside a transaction, as we don't know if the transaction will only
 * be readonly commands, or contain write commands as well */
PHP_REDIS_API int cluster_send_exec(redisCluster *c, short slot TSRMLS_DC) {
    int retval;

    /* Send exec */
    retval = cluster_send_slot(c, slot, RESP_EXEC_CMD, sizeof(RESP_EXEC_CMD)-1,
        TYPE_MULTIBULK TSRMLS_CC);

    /* We'll either get a length corresponding to the number of commands sent to
     * this node, or -1 in the case of EXECABORT or WATCH failure. */
    c->multi_len[slot] = c->reply_len > 0 ? 1 : -1;

    /* Return our retval */
    return retval;
}

PHP_REDIS_API int cluster_send_discard(redisCluster *c, short slot TSRMLS_DC) {
    if (cluster_send_direct(SLOT_SOCK(c,slot), RESP_DISCARD_CMD,
        sizeof(RESP_DISCARD_CMD)-1, TYPE_LINE TSRMLS_CC))
    {
        return 0;
    }
    return -1;
}

/*
 * Cluster key distribution helpers.  For a small handlful of commands, we want
 * to distribute them across 1-N nodes.  These methods provide simple containers
 * for the purposes of splitting keys/values in this way
 * */

/* Free cluster distribution list inside a HashTable */
#if (PHP_MAJOR_VERSION < 7)
static void cluster_dist_free_ht(void *p)
#else
static void cluster_dist_free_ht(zval *p)
#endif
{
    clusterDistList *dl = *(clusterDistList**)p;
    int i;

    for(i=0; i < dl->len; i++) {
        if(dl->entry[i].key_free)
            efree(dl->entry[i].key);
        if(dl->entry[i].val_free)
            efree(dl->entry[i].val);
    }

    efree(dl->entry);
    efree(dl);
}

/* Spin up a HashTable that will contain distribution lists */
HashTable *cluster_dist_create() {
    HashTable *ret;

    ALLOC_HASHTABLE(ret);
    zend_hash_init(ret, 0, NULL, cluster_dist_free_ht, 0);

    return ret;
}

/* Free distribution list */
void cluster_dist_free(HashTable *ht) {
    zend_hash_destroy(ht);
    efree(ht);
}

/* Create a clusterDistList object */
static clusterDistList *cluster_dl_create() {
    clusterDistList *dl;

    dl        = emalloc(sizeof(clusterDistList));
    dl->entry = emalloc(CLUSTER_KEYDIST_ALLOC * sizeof(clusterKeyVal));
    dl->size  = CLUSTER_KEYDIST_ALLOC;
    dl->len   = 0;

    return dl;
}

/* Add a key to a dist list, returning the keval entry */
static clusterKeyVal *cluster_dl_add_key(clusterDistList *dl, char *key,
                                         int key_len, int key_free)
{
    // Reallocate if required
    if(dl->len==dl->size) {
        dl->entry = erealloc(dl->entry, sizeof(clusterKeyVal) * dl->size * 2);
        dl->size *= 2;
    }

    // Set key info
    dl->entry[dl->len].key = key;
    dl->entry[dl->len].key_len = key_len;
    dl->entry[dl->len].key_free = key_free;

    // NULL out any values
    dl->entry[dl->len].val = NULL;
    dl->entry[dl->len].val_len = 0;
    dl->entry[dl->len].val_free = 0;

    return &(dl->entry[dl->len++]);
}

/* Add a key, returning a pointer to the entry where passed for easy adding
 * of values to match this key */
int cluster_dist_add_key(redisCluster *c, HashTable *ht, char *key,
                          int key_len, clusterKeyVal **kv)
{
    int key_free;
    short slot;
    clusterDistList *dl;
    clusterKeyVal *retptr;

    // Prefix our key and hash it
    key_free = redis_key_prefix(c->flags, &key, &key_len);
    slot = cluster_hash_key(key, key_len);

    // We can't do this if we don't fully understand the keyspace
    if(c->master[slot] == NULL) {
        if(key_free) efree(key);
        return FAILURE;
    }

    // Look for this slot
    if ((dl = zend_hash_index_find_ptr(ht, (zend_ulong)slot)) == NULL) {
        dl = cluster_dl_create();
        zend_hash_index_update_ptr(ht, (zend_ulong)slot, dl);
    }

    // Now actually add this key
    retptr = cluster_dl_add_key(dl, key, key_len, key_free);

    // Push our return pointer if requested
    if(kv) *kv = retptr;

    return SUCCESS;
}

/* Provided a clusterKeyVal, add a value */
void cluster_dist_add_val(redisCluster *c, clusterKeyVal *kv, zval *z_val
                         TSRMLS_DC)
{
    char *val;
    int val_len, val_free;

    // Serialize our value
    val_free = redis_serialize(c->flags, z_val, &val, &val_len TSRMLS_CC);

    // Attach it to the provied keyval entry
    kv->val = val;
    kv->val_len = val_len;
    kv->val_free = val_free;
}

/* Free allocated memory for a clusterMultiCmd */
void cluster_multi_free(clusterMultiCmd *mc) {
    efree(mc->cmd.c);
    efree(mc->args.c);
}

/* Add an argument to a clusterMultiCmd */
void cluster_multi_add(clusterMultiCmd *mc, char *data, int data_len) {
    mc->argc++;
    redis_cmd_append_sstr(&(mc->args), data, data_len);
}

/* Finalize a clusterMutliCmd by constructing the whole thing */
void cluster_multi_fini(clusterMultiCmd *mc) {
    mc->cmd.len = 0;
    redis_cmd_init_sstr(&(mc->cmd), mc->argc, mc->kw, mc->kw_len);
    smart_string_appendl(&(mc->cmd), mc->args.c, mc->args.len);
}

/* Set our last error string encountered */
static void
cluster_set_err(redisCluster *c, char *err, int err_len)
{
    // Free our last error
    if (c->err != NULL) {
        efree(c->err);
    }
    if (err != NULL && err_len > 0) {
        if (err_len >= sizeof("CLUSTERDOWN") - 1 &&
            !memcmp(err, "CLUSTERDOWN", sizeof("CLUSTERDOWN") - 1)
        ) {
            c->clusterdown = 1;
        }
        c->err = estrndup(err, err_len);
        c->err_len = err_len;
    } else {
        c->err = NULL;
        c->err_len = 0;
    }
}

/* Destructor for slaves */
#if (PHP_MAJOR_VERSION < 7)
static void ht_free_slave(void *data)
#else
static void ht_free_slave(zval *data)
#endif
{
    if(*(redisClusterNode**)data) {
        cluster_free_node(*(redisClusterNode**)data);
    }
}

/* Get the hash slot for a given key */
unsigned short cluster_hash_key(const char *key, int len) {
    int s, e;

    // Find first occurrence of {, if any
    for(s=0;s<len;s++) {
        if(key[s]=='{') break;
    }

    // There is no '{', hash everything
    if(s == len) return crc16(key, len) & REDIS_CLUSTER_MOD;

    // Found it, look for a tailing '}'
    for(e=s+1;e<len;e++) {
        if(key[e]=='}') break;
    }

    // Hash the whole key if we don't find a tailing } or if {} is empty
    if(e == len || e == s+1) return crc16(key, len) & REDIS_CLUSTER_MOD;

    // Hash just the bit betweeen { and }
    return crc16((char*)key+s+1,e-s-1) & REDIS_CLUSTER_MOD;
}

/* Grab the current time in milliseconds */
long long mstime(void) {
    struct timeval tv;
    long long mst;

    gettimeofday(&tv, NULL);
    mst = ((long long)tv.tv_sec)*1000;
    mst += tv.tv_usec/1000;

    return mst;
}

/* Hash a key from a ZVAL */
unsigned short cluster_hash_key_zval(zval *z_key) {
    const char *kptr;
    char buf[255];
    int klen;

    // Switch based on ZVAL type
    switch(Z_TYPE_P(z_key)) {
        case IS_STRING:
            kptr = Z_STRVAL_P(z_key);
            klen = Z_STRLEN_P(z_key);
            break;
        case IS_LONG:
            klen = snprintf(buf,sizeof(buf),"%ld",Z_LVAL_P(z_key));
            kptr = (const char *)buf;
            break;
        case IS_DOUBLE:
            klen = snprintf(buf,sizeof(buf),"%f",Z_DVAL_P(z_key));
            kptr = (const char *)buf;
            break;
        case IS_ARRAY:
            kptr = "Array";
            klen = sizeof("Array")-1;
            break;
        case IS_OBJECT:
            kptr = "Object";
            klen = sizeof("Object")-1;
            break;
        default:
            kptr = "";
            klen = 0;
    }

    // Hash the string representation
    return cluster_hash_key(kptr, klen);
}

/* Fisher-Yates shuffle for integer array */
static void fyshuffle(int *array, size_t len) {
    int temp, n = len;
    size_t r;

    /* Randomize */
    while (n > 1) {
        r = ((int)((double)n-- * (rand() / (RAND_MAX+1.0))));
        temp = array[n];
        array[n] = array[r];
        array[r] = temp;
    };
}

/* Execute a CLUSTER SLOTS command against the seed socket, and return the
 * reply or NULL on failure. */
clusterReply* cluster_get_slots(RedisSock *redis_sock TSRMLS_DC)
{
    clusterReply *r;
    REDIS_REPLY_TYPE type;
    long len;

    // Send the command to the socket and consume reply type
    if(redis_sock_write(redis_sock, RESP_CLUSTER_SLOTS_CMD,
                        sizeof(RESP_CLUSTER_SLOTS_CMD)-1 TSRMLS_CC)<0 ||
                        redis_read_reply_type(redis_sock, &type, &len TSRMLS_CC)<0)
    {
        return NULL;
    }

    // Consume the rest of our response
    if((r = cluster_read_sock_resp(redis_sock, type, len TSRMLS_CC))==NULL ||
       r->type != TYPE_MULTIBULK || r->elements < 1)
    {
        if(r) cluster_free_reply(r, 1);
        return NULL;
    }

    // Return our reply
    return r;
}

/* Create a cluster node */
static redisClusterNode*
cluster_node_create(redisCluster *c, char *host, size_t host_len,
                    unsigned short port, unsigned short slot, short slave)
{
    redisClusterNode *node = emalloc(sizeof(redisClusterNode));

    // It lives in at least this slot, flag slave status
    node->slot   = slot;
    node->slave  = slave;
    node->slaves = NULL;

    // Attach socket
    node->sock = redis_sock_create(host, host_len, port, c->timeout,
        c->persistent, NULL, 0, 1);

    return node;
}

/* Attach a slave to a master */
PHP_REDIS_API int
cluster_node_add_slave(redisClusterNode *master, redisClusterNode *slave)
{
    ulong index;

    // Allocate our slaves hash table if we haven't yet
    if(!master->slaves) {
        ALLOC_HASHTABLE(master->slaves);
        zend_hash_init(master->slaves, 0, NULL, ht_free_slave, 0);
        index = 1;
    } else {
        index = master->slaves->nNextFreeElement;
    }

    return zend_hash_index_update_ptr(master->slaves, index, slave) != NULL;
}

/* Sanity check/validation for CLUSTER SLOTS command */
#define VALIDATE_SLOTS_OUTER(r) \
    (r->elements>=3 && r2->element[0]->type == TYPE_INT && \
     r->element[1]->type==TYPE_INT)
#define VALIDATE_SLOTS_INNER(r) \
    (r->type == TYPE_MULTIBULK && r->elements>=2 && \
     r->element[0]->type == TYPE_BULK && r->element[1]->type==TYPE_INT)

/* Use the output of CLUSTER SLOTS to map our nodes */
static int cluster_map_slots(redisCluster *c, clusterReply *r) {
    int i,j, hlen, klen;
    short low, high;
    clusterReply *r2, *r3;
    redisClusterNode *pnode, *master, *slave;
    unsigned short port;
    char *host, key[1024];

    for(i=0;i<r->elements;i++) {
        // Inner response
        r2 = r->element[i];

        // Validate outer and master slot
        if(!VALIDATE_SLOTS_OUTER(r2) || !VALIDATE_SLOTS_INNER(r2->element[2])) {
            return -1;
        }

        // Master
        r3 = r2->element[2];

        // Grab our slot range, as well as master host/port
        low  = (unsigned short)r2->element[0]->integer;
        high = (unsigned short)r2->element[1]->integer;
        host = r3->element[0]->str;
        hlen = r3->element[0]->len;
        port = (unsigned short)r3->element[1]->integer;

        // If the node is new, create and add to nodes.  Otherwise use it.
        klen = snprintf(key,sizeof(key),"%s:%ld",host,port);
        if ((pnode = zend_hash_str_find_ptr(c->nodes, key, klen)) == NULL) {
            master = cluster_node_create(c, host, hlen, port, low, 0);
            zend_hash_str_update_ptr(c->nodes, key, klen, master);
        } else {
            master = pnode;
        }

        // Attach slaves
        for(j=3;j<r2->elements;j++) {
            r3 = r2->element[j];
            if(!VALIDATE_SLOTS_INNER(r3)) {
                return -1;
            }

            // Skip slaves where the host is ""
            if(r3->element[0]->len == 0) continue;

            // Attach this node to our slave
            slave = cluster_node_create(c, r3->element[0]->str,
                (int)r3->element[0]->len,
                (unsigned short)r3->element[1]->integer, low, 1);
            cluster_node_add_slave(master, slave);
        }

        // Attach this node to each slot in the range
        for(j=low;j<=high;j++) {
            c->master[j]=master;
        }
    }

    // Success
    return 0;
}

/* Free a redisClusterNode structure */
PHP_REDIS_API void cluster_free_node(redisClusterNode *node) {
    if(node->slaves) {
        zend_hash_destroy(node->slaves);
        efree(node->slaves);
    }
    redis_free_socket(node->sock);
    efree(node);
}

/* Get or create a redisClusterNode that corresponds to the asking redirection */
static redisClusterNode *cluster_get_asking_node(redisCluster *c TSRMLS_DC) {
    redisClusterNode *pNode;
    char key[1024];
    int key_len;

    /* Hashed by host:port */
    key_len = snprintf(key, sizeof(key), "%s:%u", c->redir_host, c->redir_port);

    /* See if we've already attached to it */
    if ((pNode = zend_hash_str_find_ptr(c->nodes, key, key_len)) != NULL) {
        return pNode;
    }

    /* This host:port is unknown to us, so add it */
    pNode = cluster_node_create(c, c->redir_host, c->redir_host_len,
        c->redir_port, c->redir_slot, 0);

    /* Return the node */
   return pNode;
}

/* Get or create a node at the host:port we were asked to check, and return the
 * redis_sock for it. */
static RedisSock *cluster_get_asking_sock(redisCluster *c TSRMLS_DC) {
    return cluster_get_asking_node(c TSRMLS_CC)->sock;
}

/* Our context seeds will be a hash table with RedisSock* pointers */
#if (PHP_MAJOR_VERSION < 7)
static void ht_free_seed(void *data)
#else
static void ht_free_seed(zval *data)
#endif
{
    RedisSock *redis_sock = *(RedisSock**)data;
    if(redis_sock) redis_free_socket(redis_sock);
}

/* Free redisClusterNode objects we've stored */
#if (PHP_MAJOR_VERSION < 7)
static void ht_free_node(void *data)
#else
static void ht_free_node(zval *data)
#endif
{
    redisClusterNode *node = *(redisClusterNode**)data;
    cluster_free_node(node);
}

/* Construct a redisCluster object */
PHP_REDIS_API redisCluster *cluster_create(double timeout, double read_timeout,
                                           int failover, int persistent)
{
    redisCluster *c;

    /* Actual our actual cluster structure */
    c = ecalloc(1, sizeof(redisCluster));

    /* Initialize flags and settings */
    c->flags = ecalloc(1, sizeof(RedisSock));
    c->subscribed_slot = -1;
    c->clusterdown = 0;
    c->timeout = timeout;
    c->read_timeout = read_timeout;
    c->failover = failover;
    c->persistent = persistent;
    c->err = NULL;
    c->err_len = 0;

    /* Set up our waitms based on timeout */
    c->waitms  = (long)(1000 * timeout);

    /* Allocate our seeds hash table */
    ALLOC_HASHTABLE(c->seeds);
    zend_hash_init(c->seeds, 0, NULL, ht_free_seed, 0);

    /* Allocate our nodes HashTable */
    ALLOC_HASHTABLE(c->nodes);
    zend_hash_init(c->nodes, 0, NULL, ht_free_node, 0);

    return c;
}

PHP_REDIS_API void cluster_free(redisCluster *c) {
    /* Free any allocated prefix */
    if (c->flags->prefix) efree(c->flags->prefix);
    efree(c->flags);

    /* Call hash table destructors */
    zend_hash_destroy(c->seeds);
    zend_hash_destroy(c->nodes);

    /* Free hash tables themselves */
    efree(c->seeds);
    efree(c->nodes);

    /* Free any error we've got */
    if (c->err) efree(c->err);

    /* Free structure itself */
    efree(c);
}

/* Takes our input hash table and returns a straigt C array with elements,
 * which have been randomized.  The return value needs to be freed. */
static zval **cluster_shuffle_seeds(HashTable *seeds, int *len) {
    zval **z_seeds, *z_ele;
    int *map, i, count, index=0;

    /* How many */
    count = zend_hash_num_elements(seeds);

    /* Allocate our return value and map */
    z_seeds = ecalloc(count, sizeof(zval*));
    map = emalloc(sizeof(int)*count);

    /* Fill in and shuffle our map */
    for (i = 0; i < count; i++) map[i] = i;
    fyshuffle(map, count);

    /* Iterate over our source array and use our map to create a random list */
    ZEND_HASH_FOREACH_VAL(seeds, z_ele) {
        z_seeds[map[index++]] = z_ele;
    } ZEND_HASH_FOREACH_END();

    efree(map);

    *len = count;
    return z_seeds;
}

/* Initialize seeds */
PHP_REDIS_API int
cluster_init_seeds(redisCluster *cluster, HashTable *ht_seeds) {
    RedisSock *redis_sock;
    char *str, *psep, key[1024];
    int key_len, count, i;
    zval **z_seeds, *z_seed;

    /* Get our seeds in a randomized array */
    z_seeds = cluster_shuffle_seeds(ht_seeds, &count);

    // Iterate our seeds array
    for (i = 0; i < count; i++) {
        z_seed = z_seeds[i];

        /* Has to be a string */
        if (z_seed == NULL || Z_TYPE_P(z_seed) != IS_STRING)
            continue;

        // Grab a copy of the string
        str = Z_STRVAL_P(z_seed);

        /* Make sure we have a colon for host:port.  Search right to left in the
         * case of IPv6 */
        if ((psep = strrchr(str, ':')) == NULL)
            continue;

        // Allocate a structure for this seed
        redis_sock = redis_sock_create(str, psep-str,
            (unsigned short)atoi(psep+1), cluster->timeout,
            cluster->persistent, NULL, 0, 0);

        // Index this seed by host/port
        key_len = snprintf(key, sizeof(key), "%s:%u", redis_sock->host,
            redis_sock->port);

        // Add to our seed HashTable
        zend_hash_str_update_ptr(cluster->seeds, key, key_len, redis_sock);
    }

    efree(z_seeds);

    // Success if at least one seed seems valid
    return zend_hash_num_elements(cluster->seeds) > 0 ? 0 : -1;
}

/* Initial mapping of our cluster keyspace */
PHP_REDIS_API int cluster_map_keyspace(redisCluster *c TSRMLS_DC) {
    RedisSock *seed;
    clusterReply *slots=NULL;
    int mapped=0;

    // Iterate over seeds until we can get slots
    for(zend_hash_internal_pointer_reset(c->seeds);
        !mapped && zend_hash_has_more_elements(c->seeds) == SUCCESS;
        zend_hash_move_forward(c->seeds))
    {
        // Grab the redis_sock for this seed
        if ((seed = zend_hash_get_current_data_ptr(c->seeds)) == NULL) {
            continue;
        }

        // Attempt to connect to this seed node
        if (redis_sock_connect(seed TSRMLS_CC) != 0) {
            continue;
        }

        // Parse out cluster nodes.  Flag mapped if we are valid
        slots = cluster_get_slots(seed TSRMLS_CC);
        if(slots) mapped = !cluster_map_slots(c, slots);

        // Bin anything mapped, if we failed somewhere
        if(!mapped && slots) {
            memset(c->master, 0, sizeof(redisClusterNode*)*REDIS_CLUSTER_SLOTS);
        }
        redis_sock_disconnect(seed TSRMLS_CC);
    }

    // Clean up slots reply if we got one
    if(slots) cluster_free_reply(slots, 1);

    // Throw an exception if we couldn't map
    if(!mapped) {
        zend_throw_exception(redis_cluster_exception_ce,
            "Couldn't map cluster keyspace using any provided seed", 0
            TSRMLS_CC);
        return -1;
    }

    return 0;
}

/* Parse the MOVED OR ASK redirection payload when we get such a response
 * and apply this information to our cluster.  If we encounter a parse error
 * nothing in the cluster will be modified, and -1 is returned. */
static int cluster_set_redirection(redisCluster* c, char *msg, int moved)
{
    char *host, *port;

    /* Move past "MOVED" or "ASK */
    msg += moved ? MOVED_LEN : ASK_LEN;

    /* Make sure we can find host */
    if ((host = strchr(msg, ' ')) == NULL) return -1;
    *host++ = '\0';

    /* Find port, searching right to left in case of IPv6 */
    if ((port = strrchr(host, ':')) == NULL) return -1;
    *port++ = '\0';

    // Success, apply it
    c->redir_type = moved ? REDIR_MOVED : REDIR_ASK;
    strncpy(c->redir_host, host, sizeof(c->redir_host));
    c->redir_host_len = port - host - 1;
    c->redir_slot = (unsigned short)atoi(msg);
    c->redir_port = (unsigned short)atoi(port);

    return 0;
}

/* Once we write a command to a node in our cluster, this function will check
 * the reply type and extract information from those that will specify a length
 * bit.  If we encounter an error condition, we'll check for MOVED or ASK
 * redirection, parsing out slot host and port so the caller can take
 * appropriate action.
 *
 * In the case of a non MOVED/ASK error, we wlll set our cluster error
 * condition so GetLastError can be queried by the client.
 *
 * This function will return -1 on a critical error (e.g. parse/communication
 * error, 0 if no redirection was encountered, and 1 if the data was moved. */
static int cluster_check_response(redisCluster *c, REDIS_REPLY_TYPE *reply_type
                                  TSRMLS_DC)
{
    size_t sz;

    // Clear out any prior error state and our last line response
    CLUSTER_CLEAR_ERROR(c);
    CLUSTER_CLEAR_REPLY(c);

    if(-1 == redis_check_eof(c->cmd_sock, 1 TSRMLS_CC) ||
       EOF == (*reply_type = php_stream_getc(c->cmd_sock->stream)))
    {
        return -1;
    }

    // In the event of an ERROR, check if it's a MOVED/ASK error
    if(*reply_type == TYPE_ERR) {
        char inbuf[1024];
        int moved;

        // Attempt to read the error
        if(!php_stream_gets(c->cmd_sock->stream, inbuf, sizeof(inbuf))) {
            return -1;
        }

        // Check for MOVED or ASK redirection
        if((moved = IS_MOVED(inbuf)) || IS_ASK(inbuf)) {
            // Set our redirection information
            if(cluster_set_redirection(c,inbuf,moved)<0) {
                return -1;
            }

            // Data moved
            return 1;
        } else {
            // Capture the error string Redis returned
            cluster_set_err(c, inbuf, strlen(inbuf)-2);
            return 0;
        }
    }

    // Fetch the first line of our response from Redis.
    if(redis_sock_gets(c->cmd_sock,c->line_reply,sizeof(c->line_reply),
                       &sz TSRMLS_CC)<0)
    {
        return -1;
    }

    // For replies that will give us a numberic length, convert it
    if(*reply_type != TYPE_LINE) {
        c->reply_len = strtol(c->line_reply, NULL, 10);
    } else {
        c->reply_len = (long long)sz;
    }

    // Clear out any previous error, and return that the data is here
    CLUSTER_CLEAR_ERROR(c);
    return 0;
}

/* Disconnect from each node we're connected to */
PHP_REDIS_API void cluster_disconnect(redisCluster *c TSRMLS_DC) {
    redisClusterNode *node;

    for(zend_hash_internal_pointer_reset(c->nodes);
        (node = zend_hash_get_current_data_ptr(c->nodes)) != NULL;
        zend_hash_move_forward(c->nodes))
    {
        redis_sock_disconnect(node->sock TSRMLS_CC);
        node->sock->lazy_connect = 1;
    }
}

/* This method attempts to write our command at random to the master and any
 * attached slaves, until we either successufly do so, or fail. */
static int cluster_dist_write(redisCluster *c, const char *cmd, size_t sz,
                              int nomaster TSRMLS_DC)
{
    int i, count=1, *nodes;
    RedisSock *redis_sock;

    /* Determine our overall node count */
    if (c->master[c->cmd_slot]->slaves) {
        count += zend_hash_num_elements(c->master[c->cmd_slot]->slaves);
    }

    /* Allocate memory for master + slaves or just slaves */
    nodes = emalloc(sizeof(int)*count);

    /* Populate our array with the master and each of it's slaves, then
     * randomize them, so we will pick from the master or some slave.  */
    for (i = 0; i < count; i++) nodes[i] = i;
    fyshuffle(nodes, count);

    /* Iterate through our nodes until we find one we can write to or fail */
    for (i = 0; i < count; i++) {
        /* Skip if this is the master node and we don't want to query that */
        if (nomaster && nodes[i] == 0)
           continue;

        /* Get the slave for this index */
        redis_sock = cluster_slot_sock(c, c->cmd_slot, nodes[i]);
        if (!redis_sock) continue;

        /* Connect to this node if we haven't already */
        CLUSTER_LAZY_CONNECT(redis_sock);

        /* If we're not on the master, attempt to send the READONLY command to
         * this slave, and skip it if that fails */
        if (nodes[i] == 0 || redis_sock->readonly ||
            cluster_send_readonly(redis_sock TSRMLS_CC) == 0)
        {
            /* Attempt to send the command */
            if (CLUSTER_SEND_PAYLOAD(redis_sock, cmd, sz)) {
                c->cmd_sock = redis_sock;
                efree(nodes);
                return 0;
            }
        }
    }

    /* Clean up our shuffled array */
    efree(nodes);

    /* Couldn't send to the master or any slave */
    return -1;
}

/* Attempt to write our command to the current c->cmd_sock socket.  For write
 * commands, we attempt to query the master for this slot, and in the event of
 * a failure, try to query every remaining node for a redirection.
 *
 * If we're issuing a readonly command, we use one of three strategies, depending
 * on our redisCluster->failover setting.
 *
 * REDIS_FAILOVER_NONE:
 *   The command is treated just like a write command, and will only be executed
 *   against the known master for this slot.
 * REDIS_FAILOVER_ERROR:
 *   If we're unable to communicate with this slot's master, we attempt the query
 *   against any slaves (at random) that this master has.
 * REDIS_FAILOVER_DISTRIBUTE:
 *   We pick at random from the master and any slaves it has.  This option will
 *   load balance between masters and slaves
 * REDIS_FAILOVER_DISTRIBUTE_SLAVES:
 *   We pick at random from slave nodes of a given master.  This option is
 *   used to load balance read queries against N slaves.
 *
 * Once we are able to find a node we can write to, we check for MOVED or
 * ASKING redirection, such that the keyspace can be updated.
*/
static int cluster_sock_write(redisCluster *c, const char *cmd, size_t sz,
                              int direct TSRMLS_DC)
{
    redisClusterNode *seed_node;
    RedisSock *redis_sock;
    int failover, nomaster;

    /* First try the socket requested */
    redis_sock = c->cmd_sock;

    /* Readonly is irrelevant if we're not configured to failover */
    failover = c->readonly && c->failover != REDIS_FAILOVER_NONE ?
        c->failover : REDIS_FAILOVER_NONE;

    /* If in ASK redirection, get/create the node for that host:port, otherwise
     * just use the command socket. */
    if(c->redir_type == REDIR_ASK) {
        redis_sock = cluster_get_asking_sock(c TSRMLS_CC);
        if(cluster_send_asking(redis_sock TSRMLS_CC)<0) {
            return -1;
        }
    }

    /* Attempt to send our command payload to the cluster.  If we're not set up
     * to failover, just try the master.  If we're configured to failover on
     * error, try the master and then fall back to any slaves.  When we're set
     * up to distribute the commands, try to write to any node on this slot
     * at random. */
    if (failover == REDIS_FAILOVER_NONE) {
        /* Success if we can send our payload to the master */
        CLUSTER_LAZY_CONNECT(redis_sock);
        if (CLUSTER_SEND_PAYLOAD(redis_sock, cmd, sz)) return 0;
    } else if (failover == REDIS_FAILOVER_ERROR) {
        /* Try the master, then fall back to any slaves we may have */
        CLUSTER_LAZY_CONNECT(redis_sock);
        if (CLUSTER_SEND_PAYLOAD(redis_sock, cmd, sz) ||
           !cluster_dist_write(c, cmd, sz, 1 TSRMLS_CC)) return 0;
    } else {
        /* Include or exclude master node depending on failover option and
         * attempt to make our write */
        nomaster = failover == REDIS_FAILOVER_DISTRIBUTE_SLAVES;
        if (!cluster_dist_write(c, cmd, sz, nomaster TSRMLS_CC)) {
            /* We were able to write to a master or slave at random */
            return 0;
        }
    }

    /* Don't fall back if direct communication with this slot is required. */
    if(direct) return -1;

    /* Fall back by attempting the request against every known node */
    for(zend_hash_internal_pointer_reset(c->nodes);
        zend_hash_has_more_elements(c->nodes)==SUCCESS;
        zend_hash_move_forward(c->nodes))
    {
        /* Grab node */
        if ((seed_node = zend_hash_get_current_data_ptr(c->nodes)) == NULL) {
            continue;
        }

        /* Skip this node if it's the one that failed, or if it's a slave */
        if(seed_node->sock == redis_sock || seed_node->slave) continue;

        /* Connect to this node if we haven't already */
        CLUSTER_LAZY_CONNECT(seed_node->sock);

        /* Attempt to write our request to this node */
        if (CLUSTER_SEND_PAYLOAD(seed_node->sock, cmd, sz)) {
            c->cmd_slot = seed_node->slot;
            c->cmd_sock = seed_node->sock;
            return 0;
        }
    }

    /* We were unable to write to any node in our cluster */
    return -1;
}

/* Helper to find if we've got a host:port mapped in our cluster nodes. */
static redisClusterNode *cluster_find_node(redisCluster *c, const char *host,
                                           unsigned short port)
{
    int key_len;
    char key[1024];

    key_len = snprintf(key,sizeof(key),"%s:%d", host, port);

    return zend_hash_str_find_ptr(c->nodes, key, key_len);
}

/* Provided a redisCluster object, the slot where we thought data was and
 * the slot where data was moved, update our node mapping */
static void cluster_update_slot(redisCluster *c TSRMLS_DC) {
    redisClusterNode *node;
    char key[1024];
    size_t klen;

    /* Do we already have the new slot mapped */
    if(c->master[c->redir_slot]) {
        /* No need to do anything if it's the same node */
        if(!CLUSTER_REDIR_CMP(c)) {
            return;
        }

        /* Check to see if we have this new node mapped */
        node = cluster_find_node(c, c->redir_host, c->redir_port);

        if(node) {
            /* Just point to this slot */
            c->master[c->redir_slot] = node;
        } else {
            /* Create our node */
            node = cluster_node_create(c, c->redir_host, c->redir_host_len,
                c->redir_port, c->redir_slot, 0);

            /* Our node is new, so keep track of it for cleanup */
            klen = snprintf(key,sizeof(key),"%s:%ld",c->redir_host,c->redir_port);
            zend_hash_str_update_ptr(c->nodes, key, klen, node);

            /* Now point our slot at the node */
            c->master[c->redir_slot] = node;
        }
    } else {
        /* Check to see if the ip and port are mapped */
        node = cluster_find_node(c, c->redir_host, c->redir_port);
        if(!node) {
            node = cluster_node_create(c, c->redir_host, c->redir_host_len,
                c->redir_port, c->redir_slot, 0);
        }

        /* Map the slot to this node */
        c->master[c->redir_slot] = node;
    }

    /* Update slot inside of node, so it can be found for command sending */
    node->slot = c->redir_slot;

    /* Make sure we unflag this node as a slave, as Redis Cluster will only ever
     * direct us to master nodes. */
    node->slave = 0;
}

/* Abort any transaction in process, by sending DISCARD to any nodes that
 * have active transactions in progress.  If we can't send DISCARD, we need
 * to disconnect as it would leave us in an undefined state. */
PHP_REDIS_API int cluster_abort_exec(redisCluster *c TSRMLS_DC) {
    clusterFoldItem *fi = c->multi_head;

    /* Loop through our fold items */
    while(fi) {
        if(SLOT_SOCK(c,fi->slot)->mode == MULTI) {
            if(cluster_send_discard(c, fi->slot TSRMLS_CC)<0) {
                cluster_disconnect(c TSRMLS_CC);
                return -1;
            }
            SLOT_SOCK(c,fi->slot)->mode = ATOMIC;
            SLOT_SOCK(c,fi->slot)->watching = 0;
        }
        fi = fi->next;
    }

    /* Update our overall cluster state */
    c->flags->mode = ATOMIC;

    /* Success */
    return 0;
}

/* Iterate through our slots, looking for the host/port in question.  This
 * should perform well enough as in almost all situations, a few or a few
 * dozen servers will map all the slots */
PHP_REDIS_API short cluster_find_slot(redisCluster *c, const char *host,
                               unsigned short port)
{
    int i;

    for(i=0;i<REDIS_CLUSTER_SLOTS;i++) {
        if(c->master[i] && c->master[i]->sock &&
           c->master[i]->sock->port == port &&
           !strcasecmp(c->master[i]->sock->host, host))
        {
            return i;
        }
    }

    // We didn't find it
    return -1;
}

/* Send a command to a specific slot */
PHP_REDIS_API int cluster_send_slot(redisCluster *c, short slot, char *cmd,
                             int cmd_len, REDIS_REPLY_TYPE rtype TSRMLS_DC)
{
    /* Point our cluster to this slot and it's socket */
    c->cmd_slot = slot;
    c->cmd_sock = SLOT_SOCK(c, slot);

    /* Enable multi mode on this slot if we've been directed to but haven't
     * send it to this node yet */
    if (c->flags->mode == MULTI && c->cmd_sock->mode != MULTI) {
        if (cluster_send_multi(c, slot TSRMLS_CC) == -1) {
            zend_throw_exception(redis_cluster_exception_ce,
                "Unable to enter MULTI mode on requested slot",
                0 TSRMLS_CC);
            return -1;
        }
    }

    /* Try the slot */
    if(cluster_sock_write(c, cmd, cmd_len, 1 TSRMLS_CC)==-1) {
        return -1;
    }

    /* Check our response */
    if(cluster_check_response(c, &c->reply_type TSRMLS_CC)!=0 ||
       (rtype != TYPE_EOF && rtype != c->reply_type)) return -1;

    /* Success */
    return 0;
}

/* Send a command to given slot in our cluster.  If we get a MOVED or ASK error
 * we attempt to send the command to the node as directed. */
PHP_REDIS_API short cluster_send_command(redisCluster *c, short slot, const char *cmd,
                                  int cmd_len TSRMLS_DC)
{
    int resp, timedout=0;
    long msstart;

    /* Set the slot we're operating against as well as it's socket.  These can
     * change during our request loop if we have a master failure and are
     * configured to fall back to slave nodes, or if we have to fall back to
     * a different slot due to no nodes serving this slot being reachable. */
    c->cmd_slot = slot;
    c->cmd_sock = SLOT_SOCK(c, slot);

    /* Get the current time in milliseconds to handle any timeout */
    msstart = mstime();

    /* Our main cluster request/reply loop.  This loop runs until we're able to
     * get a valid reply from a node, hit our "request" timeout, or enounter a
     * CLUSTERDOWN state from Redis Cluster. */
    do {
        /* Send MULTI to the socket if we're in MULTI mode but haven't yet */
        if (c->flags->mode == MULTI && CMD_SOCK(c)->mode != MULTI) {
            /* We have to fail if we can't send MULTI to the node */
            if (cluster_send_multi(c, slot TSRMLS_CC) == -1) {
                zend_throw_exception(redis_cluster_exception_ce,
                    "Unable to enter MULTI mode on requested slot",
                    0 TSRMLS_CC);
                return -1;
            }
        }

        /* Attempt to deliver our command to the node, and that failing, to any
         * node until we find one that is available. */
        if (cluster_sock_write(c, cmd, cmd_len, 0 TSRMLS_CC) == -1) {
            /* We have to abort, as no nodes are reachable */
            zend_throw_exception(redis_cluster_exception_ce,
                "Can't communicate with any node in the cluster",
                0 TSRMLS_CC);
            return -1;
        }

        /* Now check the response from the node we queried. */
        resp = cluster_check_response(c, &c->reply_type TSRMLS_CC);

        /* Handle MOVED or ASKING redirection */
        if (resp == 1) {
           /* Abort if we're in a transaction as it will be invalid */
           if (c->flags->mode == MULTI) {
               zend_throw_exception(redis_cluster_exception_ce,
                   "Can't process MULTI sequence when cluster is resharding",
                   0 TSRMLS_CC);
               return -1;
           }

           /* Update mapping if the data has MOVED */
           if (c->redir_type == REDIR_MOVED) {
               cluster_update_slot(c TSRMLS_CC);
               c->cmd_sock = SLOT_SOCK(c, slot);
           }
        }

        /* Figure out if we've timed out trying to read or write the data */
        timedout = resp && c->waitms ? mstime() - msstart >= c->waitms : 0;
    } while(resp != 0 && !c->clusterdown && !timedout);

    // If we've detected the cluster is down, throw an exception
    if(c->clusterdown) {
        zend_throw_exception(redis_cluster_exception_ce,
            "The Redis Cluster is down (CLUSTERDOWN)", 0 TSRMLS_CC);
        return -1;
    } else if (timedout) {
        zend_throw_exception(redis_cluster_exception_ce,
            "Timed out attempting to find data in the correct node!", 0 TSRMLS_CC);
    }

    /* Clear redirection flag */
    c->redir_type = REDIR_NONE;

    // Success, return the slot where data exists.
    return 0;
}

/* RedisCluster response handlers.  These methods all have the same prototype
 * and set the proper return value for the calling cluster method.  These
 * methods will never be called in the case of a communication error when
 * we try to send the request to the Cluster *or* if a non MOVED or ASK
 * error is encountered, in which case our response processing macro will
 * short circuit and RETURN_FALSE, as the error will have already been
 * consumed. */

/* RAW bulk response handler */
PHP_REDIS_API void cluster_bulk_raw_resp(INTERNAL_FUNCTION_PARAMETERS,
                                  redisCluster *c, void *ctx)
{
    char *resp;

    // Make sure we can read the response
    if(c->reply_type != TYPE_BULK ||
       (resp = redis_sock_read_bulk_reply(c->cmd_sock, c->reply_len TSRMLS_CC))==NULL)
    {
        if(c->flags->mode != MULTI) {
            RETURN_FALSE;
        } else {
            add_next_index_bool(&c->multi_resp, 0);
            return;
        }
    }

    // Return our response raw
    CLUSTER_RETURN_STRING(c, resp, c->reply_len);
    efree(resp);
}

/* BULK response handler */
PHP_REDIS_API void cluster_bulk_resp(INTERNAL_FUNCTION_PARAMETERS, redisCluster *c,
                              void *ctx)
{
    char *resp;

    // Make sure we can read the response
    if(c->reply_type != TYPE_BULK ||
       (resp = redis_sock_read_bulk_reply(c->cmd_sock, c->reply_len TSRMLS_CC))==NULL)
    {
        CLUSTER_RETURN_FALSE(c);
    }

    if (CLUSTER_IS_ATOMIC(c)) {
        if (!redis_unserialize(c->flags, resp, c->reply_len, return_value TSRMLS_CC)) {
            CLUSTER_RETURN_STRING(c, resp, c->reply_len);
        }
    } else {
        zval zv, *z = &zv;
        if (redis_unserialize(c->flags, resp, c->reply_len, z TSRMLS_CC)) {
#if (PHP_MAJOR_VERSION < 7)
            MAKE_STD_ZVAL(z);
            *z = zv;
#endif
            add_next_index_zval(&c->multi_resp, z);
        } else {
            add_next_index_stringl(&c->multi_resp, resp, c->reply_len);
        }
    }
    efree(resp);
}

/* Bulk response where we expect a double */
PHP_REDIS_API void cluster_dbl_resp(INTERNAL_FUNCTION_PARAMETERS, redisCluster *c,
                             void *ctx)
{
    char *resp;
    double dbl;

    // Make sure we can read the response
    if(c->reply_type != TYPE_BULK ||
       (resp = redis_sock_read_bulk_reply(c->cmd_sock, c->reply_len TSRMLS_CC))==NULL)
    {
        CLUSTER_RETURN_FALSE(c);
    }

    // Convert to double, free response
    dbl = atof(resp);
    efree(resp);

    CLUSTER_RETURN_DOUBLE(c, dbl);
}

/* A boolean response.  If we get here, we've consumed the '+' reply
 * type and will now just verify we can read the OK */
PHP_REDIS_API void cluster_bool_resp(INTERNAL_FUNCTION_PARAMETERS, redisCluster *c,
                              void *ctx)
{
    // Check that we have +OK
    if(c->reply_type != TYPE_LINE || c->reply_len != 2 ||
       c->line_reply[0] != 'O' || c->line_reply[1] != 'K')
    {
        CLUSTER_RETURN_FALSE(c);
    }

    CLUSTER_RETURN_BOOL(c, 1);
}

/* Boolean response, specialized for PING */
PHP_REDIS_API void cluster_ping_resp(INTERNAL_FUNCTION_PARAMETERS, redisCluster *c,
                              void *ctx)
{
    if(c->reply_type != TYPE_LINE || c->reply_len != 4 ||
       memcmp(c->line_reply,"PONG",sizeof("PONG")-1))
    {
        CLUSTER_RETURN_FALSE(c);
    }

    CLUSTER_RETURN_BOOL(c, 1);
}

/* 1 or 0 response, for things like SETNX */
PHP_REDIS_API void cluster_1_resp(INTERNAL_FUNCTION_PARAMETERS, redisCluster *c,
                           void *ctx)
{
    // Validate our reply type, and check for a zero
    if(c->reply_type != TYPE_INT || c->reply_len == 0) {
        CLUSTER_RETURN_FALSE(c);
    }

    CLUSTER_RETURN_BOOL(c, 1);
}

/* Generic integer response */
PHP_REDIS_API void cluster_long_resp(INTERNAL_FUNCTION_PARAMETERS, redisCluster *c,
                              void *ctx)
{
    if(c->reply_type != TYPE_INT) {
        CLUSTER_RETURN_FALSE(c);
    }
    CLUSTER_RETURN_LONG(c, c->reply_len);
}

/* TYPE response handler */
PHP_REDIS_API void cluster_type_resp(INTERNAL_FUNCTION_PARAMETERS, redisCluster *c,
                              void *ctx)
{
    // Make sure we got the right kind of response
    if(c->reply_type != TYPE_LINE) {
        CLUSTER_RETURN_FALSE(c);
    }

    // Switch on the type
    if(strncmp (c->line_reply, "string", 6)==0) {
        CLUSTER_RETURN_LONG(c, REDIS_STRING);
    } else if (strncmp(c->line_reply, "set", 3)==0) {
        CLUSTER_RETURN_LONG(c, REDIS_SET);
    } else if (strncmp(c->line_reply, "list", 4)==0) {
        CLUSTER_RETURN_LONG(c, REDIS_LIST);
    } else if (strncmp(c->line_reply, "hash", 4)==0) {
        CLUSTER_RETURN_LONG(c, REDIS_HASH);
    } else if (strncmp(c->line_reply, "zset", 4)==0) {
        CLUSTER_RETURN_LONG(c, REDIS_ZSET);
    } else {
        CLUSTER_RETURN_LONG(c, REDIS_NOT_FOUND);
    }
}

/* SUBSCRIBE/PSCUBSCRIBE handler */
PHP_REDIS_API void cluster_sub_resp(INTERNAL_FUNCTION_PARAMETERS, redisCluster *c,
                             void *ctx)
{
    subscribeContext *sctx = (subscribeContext*)ctx;
    zval z_tab, *z_tmp;
    int pull=0;


    // Consume each MULTI BULK response (one per channel/pattern)
    while(sctx->argc--) {
        if (!cluster_zval_mbulk_resp(INTERNAL_FUNCTION_PARAM_PASSTHRU, c,
            pull, mbulk_resp_loop_raw, &z_tab)
        ) {
            efree(sctx);
            RETURN_FALSE;
        }

        if ((z_tmp = zend_hash_index_find(Z_ARRVAL(z_tab), 0)) == NULL ||
            strcasecmp(Z_STRVAL_P(z_tmp), sctx->kw) != 0
        ) {
            zval_dtor(&z_tab);
            efree(sctx);
            RETURN_FALSE;
        }

        zval_dtor(&z_tab);
        pull = 1;
    }

    // Set up our callback pointers
#if (PHP_MAJOR_VERSION < 7)
    zval *z_ret, **z_args[4];
    sctx->cb.retval_ptr_ptr = &z_ret;
#else
    zval z_ret, z_args[4];
    sctx->cb.retval = &z_ret;
#endif
    sctx->cb.params = z_args;
    sctx->cb.no_separation = 0;

    /* We're in a subscribe loop */
    c->subscribed_slot = c->cmd_slot;

    /* Multibulk response, {[pattern], type, channel, payload} */
    while(1) {
        /* Arguments */
        zval *z_type, *z_chan, *z_pat, *z_data;
        int tab_idx=1, is_pmsg;

        // Get the next subscribe response
        if (!cluster_zval_mbulk_resp(INTERNAL_FUNCTION_PARAM_PASSTHRU, c, 1, mbulk_resp_loop, &z_tab) ||
            (z_type = zend_hash_index_find(Z_ARRVAL(z_tab), 0)) == NULL
        ) {
            break;
        }

        // Make sure we have a message or pmessage
        if (!strncmp(Z_STRVAL_P(z_type), "message", 7) ||
            !strncmp(Z_STRVAL_P(z_type), "pmessage", 8)
        ) {
            is_pmsg = *Z_STRVAL_P(z_type) == 'p';
        } else {
            zval_dtor(&z_tab);
            continue;
        }

        if (is_pmsg && (z_pat = zend_hash_index_find(Z_ARRVAL(z_tab), tab_idx++)) == NULL) {
            break;
        }

        // Extract channel and data
        if ((z_chan = zend_hash_index_find(Z_ARRVAL(z_tab), tab_idx++)) == NULL ||
           (z_data = zend_hash_index_find(Z_ARRVAL(z_tab), tab_idx++)) == NULL
        ) {
            break;
        }

        // Always pass our object through
#if (PHP_MAJOR_VERSION < 7)
        z_args[0] = &getThis();

        // Set up calbacks depending on type
        if(is_pmsg) {
            z_args[1] = &z_pat;
            z_args[2] = &z_chan;
            z_args[3] = &z_data;
        } else {
            z_args[1] = &z_chan;
            z_args[2] = &z_data;
        }
#else
        z_args[0] = *getThis();

        // Set up calbacks depending on type
        if(is_pmsg) {
            z_args[1] = *z_pat;
            z_args[2] = *z_chan;
            z_args[3] = *z_data;
        } else {
            z_args[1] = *z_chan;
            z_args[2] = *z_data;
        }
#endif

        // Set arg count
        sctx->cb.param_count = tab_idx;

        // Execute our callback
        if(zend_call_function(&(sctx->cb), &(sctx->cb_cache) TSRMLS_CC)!=
                              SUCCESS)
        {
            break;
        }

        // If we have a return value, free it
        zval_ptr_dtor(&z_ret);

        zval_dtor(&z_tab);
    }

    // We're no longer subscribing, due to an error
    c->subscribed_slot = -1;

    // Cleanup
    zval_dtor(&z_tab);
    efree(sctx);

    // Failure
    RETURN_FALSE;
}

/* UNSUBSCRIBE/PUNSUBSCRIBE */
PHP_REDIS_API void cluster_unsub_resp(INTERNAL_FUNCTION_PARAMETERS,
                               redisCluster *c, void *ctx)
{
    subscribeContext *sctx = (subscribeContext*)ctx;
    zval z_tab, *z_chan, *z_flag;
    int pull = 0, argc = sctx->argc;

    efree(sctx);
    array_init(return_value);

    // Consume each response
    while(argc--) {
        // Fail if we didn't get an array or can't find index 1
        if (!cluster_zval_mbulk_resp(INTERNAL_FUNCTION_PARAM_PASSTHRU, c, pull, mbulk_resp_loop_raw, &z_tab) ||
            (z_chan = zend_hash_index_find(Z_ARRVAL(z_tab), 1)) == NULL
        ) {
            zval_dtor(&z_tab);
            zval_dtor(return_value);
            RETURN_FALSE;
        }

        // Find the flag for this channel/pattern
        if ((z_flag = zend_hash_index_find(Z_ARRVAL(z_tab), 2)) == NULL ||
            Z_STRLEN_P(z_flag) != 2
        ) {
            zval_dtor(&z_tab);
            zval_dtor(return_value);
            RETURN_FALSE;
        }

        // Redis will give us either :1 or :0 here
        char *flag = Z_STRVAL_P(z_flag);

        // Add result
        add_assoc_bool(return_value, Z_STRVAL_P(z_chan), flag[1]=='1');

        zval_dtor(&z_tab);
        pull = 1;
    }
}

/* Recursive MULTI BULK -> PHP style response handling */
static void cluster_mbulk_variant_resp(clusterReply *r, zval *z_ret)
{
    zval zv, *z_sub_ele = &zv;
    int i;

    switch(r->type) {
        case TYPE_INT:
            add_next_index_long(z_ret, r->integer);
            break;
        case TYPE_LINE:
            add_next_index_bool(z_ret, 1);
            break;
        case TYPE_BULK:
            if (r->len > -1) {
                add_next_index_stringl(z_ret, r->str, r->len);
                efree(r->str);
            } else {
                add_next_index_null(z_ret);
            }
            break;
        case TYPE_MULTIBULK:
#if (PHP_MAJOR_VERSION < 7)
            MAKE_STD_ZVAL(z_sub_ele);
#endif
            array_init(z_sub_ele);
            for(i=0;i<r->elements;i++) {
                cluster_mbulk_variant_resp(r->element[i], z_sub_ele);
            }
            add_next_index_zval(z_ret, z_sub_ele);
            break;
        default:
            add_next_index_bool(z_ret, 0);
            break;
    }
}

/* Variant response handling, for things like EVAL and various other responses
 * where we just map the replies from Redis type values to PHP ones directly. */
PHP_REDIS_API void cluster_variant_resp(INTERNAL_FUNCTION_PARAMETERS, redisCluster *c,
                                 void *ctx)
{
    clusterReply *r;
    zval zv, *z_arr = &zv;
    int i;

    // Make sure we can read it
    if((r = cluster_read_resp(c TSRMLS_CC))==NULL) {
        CLUSTER_RETURN_FALSE(c);
    }

    // Handle ATOMIC vs. MULTI mode in a seperate switch
    if(CLUSTER_IS_ATOMIC(c)) {
        switch(r->type) {
            case TYPE_INT:
                RETVAL_LONG(r->integer);
                break;
            case TYPE_ERR:
                RETVAL_FALSE;
                break;
            case TYPE_LINE:
                RETVAL_TRUE;
                break;
            case TYPE_BULK:
                RETVAL_STRINGL(r->str, r->len);
                break;
            case TYPE_MULTIBULK:
                array_init(z_arr);

                for(i=0;i<r->elements;i++) {
                    cluster_mbulk_variant_resp(r->element[i], z_arr);
                }
                RETVAL_ZVAL(z_arr, 1, 0);
                break;
            default:
                RETVAL_FALSE;
                break;
        }
    } else {
        switch(r->type) {
            case TYPE_INT:
                add_next_index_long(&c->multi_resp, r->integer);
                break;
            case TYPE_ERR:
                add_next_index_bool(&c->multi_resp, 0);
                break;
            case TYPE_LINE:
                add_next_index_bool(&c->multi_resp, 1);
                break;
            case TYPE_BULK:
                add_next_index_stringl(&c->multi_resp, r->str, r->len);
                efree(r->str);
                break;
            case TYPE_MULTIBULK:
                cluster_mbulk_variant_resp(r, &c->multi_resp);
                break;
            default:
                add_next_index_bool(&c->multi_resp, 0);
                break;
        }
    }

    // Free our response structs, but not allocated data itself
    cluster_free_reply(r, 0);
}

/* Generic MULTI BULK response processor */
PHP_REDIS_API void cluster_gen_mbulk_resp(INTERNAL_FUNCTION_PARAMETERS,
                                   redisCluster *c, mbulk_cb cb, void *ctx)
{
    zval zv, *z_result = &zv;

    /* Return FALSE if we didn't get a multi-bulk response */
    if (c->reply_type != TYPE_MULTIBULK) {
        CLUSTER_RETURN_FALSE(c);
    }

    /* Allocate our array */
#if (PHP_MAJOR_VERSION < 7)
    MAKE_STD_ZVAL(z_result);
#endif
    array_init(z_result);

    /* Consume replies as long as there are more than zero */
    if (c->reply_len > 0) {
        /* Push serialization settings from the cluster into our socket */
        c->cmd_sock->serializer = c->flags->serializer;

        /* Call our specified callback */
        if (cb(c->cmd_sock, z_result, c->reply_len, ctx TSRMLS_CC)==FAILURE) {
            zval_dtor(z_result);
#if (PHP_MAJOR_VERSION < 7)
            efree(z_result);
#endif
            CLUSTER_RETURN_FALSE(c);
        }
    }

    // Success, make this array our return value
    if(CLUSTER_IS_ATOMIC(c)) {
        RETVAL_ZVAL(z_result, 0, 1);
    } else {
        add_next_index_zval(&c->multi_resp, z_result);
    }
}

/* HSCAN, SSCAN, ZSCAN */
PHP_REDIS_API int cluster_scan_resp(INTERNAL_FUNCTION_PARAMETERS, redisCluster *c,
                              REDIS_SCAN_TYPE type, long *it)
{
    char *pit;

    // We always want to see a MULTIBULK response with two elements
    if(c->reply_type != TYPE_MULTIBULK || c->reply_len != 2)
    {
        return FAILURE;
    }

    // Read the BULK size
    if(cluster_check_response(c, &c->reply_type TSRMLS_CC),0 ||
       c->reply_type != TYPE_BULK)
    {
        return FAILURE;
    }

    // Read the iterator
    if((pit = redis_sock_read_bulk_reply(c->cmd_sock,c->reply_len TSRMLS_CC))==NULL)
    {
        return FAILURE;
    }

    // Push the new iterator value to our caller
    *it = atol(pit);
    efree(pit);

    // We'll need another MULTIBULK response for the payload
    if(cluster_check_response(c, &c->reply_type TSRMLS_CC)<0)
    {
        return FAILURE;
    }

    // Use the proper response callback depending on scan type
    switch(type) {
        case TYPE_SCAN:
            cluster_mbulk_raw_resp(INTERNAL_FUNCTION_PARAM_PASSTHRU,c,NULL);
            break;
        case TYPE_SSCAN:
            cluster_mbulk_resp(INTERNAL_FUNCTION_PARAM_PASSTHRU,c,NULL);
            break;
        case TYPE_HSCAN:
            cluster_mbulk_zipstr_resp(INTERNAL_FUNCTION_PARAM_PASSTHRU,c,NULL);
            break;
        case TYPE_ZSCAN:
            cluster_mbulk_zipdbl_resp(INTERNAL_FUNCTION_PARAM_PASSTHRU,c,NULL);
            break;
        default:
            return FAILURE;
    }

    // Success
    return SUCCESS;
}

/* INFO response */
PHP_REDIS_API void cluster_info_resp(INTERNAL_FUNCTION_PARAMETERS, redisCluster *c,
                              void *ctx)
{
    zval zv, *z_result = &zv;
    char *info;

    // Read our bulk response
    if((info = redis_sock_read_bulk_reply(c->cmd_sock, c->reply_len TSRMLS_CC))==NULL)
    {
        CLUSTER_RETURN_FALSE(c);
    }

    /* Parse response, free memory */
    redis_parse_info_response(info, z_result);
    efree(info);

    // Return our array
    if(CLUSTER_IS_ATOMIC(c)) {
        RETVAL_ZVAL(z_result, 1, 0);
    } else {
        add_next_index_zval(&c->multi_resp, z_result);
    }
}

/* CLIENT LIST response */
PHP_REDIS_API void cluster_client_list_resp(INTERNAL_FUNCTION_PARAMETERS, redisCluster *c,
                                     void *ctx)
{
    char *info;
    zval zv, *z_result = &zv;

    /* Read the bulk response */
    info = redis_sock_read_bulk_reply(c->cmd_sock, c->reply_len TSRMLS_CC);
    if (info == NULL) {
        CLUSTER_RETURN_FALSE(c);
    }

#if (PHP_MAJOR_VERSION < 7)
    MAKE_STD_ZVAL(z_result);
#endif

    /* Parse it and free the bulk string */
    redis_parse_client_list_response(info, z_result);
    efree(info);

    if (CLUSTER_IS_ATOMIC(c)) {
        RETVAL_ZVAL(z_result, 0, 1);
    } else {
        add_next_index_zval(&c->multi_resp, z_result);
    }
}

/* MULTI BULK response loop where we might pull the next one */
PHP_REDIS_API zval *cluster_zval_mbulk_resp(INTERNAL_FUNCTION_PARAMETERS,
                                     redisCluster *c, int pull, mbulk_cb cb, zval *z_ret)
{
    // Pull our next response if directed
    if(pull) {
        if(cluster_check_response(c, &c->reply_type TSRMLS_CC)<0)
        {
            return NULL;
        }
    }

    // Validate reply type and length
    if(c->reply_type != TYPE_MULTIBULK || c->reply_len == -1) {
        return NULL;
    }

    array_init(z_ret);

    // Call our callback
    if(cb(c->cmd_sock, z_ret, c->reply_len, NULL TSRMLS_CC)==FAILURE) {
        zval_dtor(z_ret);
        return NULL;
    }

    return z_ret;
}

/* MULTI MULTI BULK reply (for EXEC) */
PHP_REDIS_API void cluster_multi_mbulk_resp(INTERNAL_FUNCTION_PARAMETERS,
                                     redisCluster *c, void *ctx)
{
    zval *multi_resp = &c->multi_resp;
    array_init(multi_resp);

    clusterFoldItem *fi = c->multi_head;
    while(fi) {
        /* Make sure our transaction didn't fail here */
        if (c->multi_len[fi->slot] > -1) {
            /* Set the slot where we should look for responses.  We don't allow
             * failover inside a transaction, so it will be the master we have
             * mapped. */
            c->cmd_slot = fi->slot;
            c->cmd_sock = SLOT_SOCK(c, fi->slot);

            if(cluster_check_response(c, &c->reply_type TSRMLS_CC)<0) {
                zval_dtor(multi_resp);
                RETURN_FALSE;
            }

            fi->callback(INTERNAL_FUNCTION_PARAM_PASSTHRU, c, fi->ctx);
        } else {
            /* Just add false */
            add_next_index_bool(multi_resp, 0);
        }
        fi = fi->next;
    }

    // Set our return array
    zval_dtor(return_value);
    RETVAL_ZVAL(multi_resp, 0, 1);
}

/* Generic handler for MGET */
PHP_REDIS_API void cluster_mbulk_mget_resp(INTERNAL_FUNCTION_PARAMETERS,
                                    redisCluster *c, void *ctx)
{
    clusterMultiCtx *mctx = (clusterMultiCtx*)ctx;

    /* Protect against an invalid response type, -1 response length, and failure
     * to consume the responses. */
    c->cmd_sock->serializer = c->flags->serializer;
    short fail = c->reply_type != TYPE_MULTIBULK || c->reply_len == -1 ||
        mbulk_resp_loop(c->cmd_sock, mctx->z_multi, c->reply_len, NULL TSRMLS_CC)==FAILURE;

    // If we had a failure, pad results with FALSE to indicate failure.  Non
    // existant keys (e.g. for MGET will come back as NULL)
    if(fail) {
        while(mctx->count--) {
            add_next_index_bool(mctx->z_multi, 0);
        }
    }

    // If this is the tail of our multi command, we can set our returns
    if(mctx->last) {
        if(CLUSTER_IS_ATOMIC(c)) {
            RETVAL_ZVAL(mctx->z_multi, 0, 1);
        } else {
            add_next_index_zval(&c->multi_resp, mctx->z_multi);
        }
    }

    // Clean up this context item
    efree(mctx);
}

/* Handler for MSETNX */
PHP_REDIS_API void cluster_msetnx_resp(INTERNAL_FUNCTION_PARAMETERS, redisCluster *c,
                                void *ctx)
{
    clusterMultiCtx *mctx = (clusterMultiCtx*)ctx;
    int real_argc = mctx->count/2;

    // Protect against an invalid response type
    if(c->reply_type != TYPE_INT) {
        php_error_docref(0 TSRMLS_CC, E_WARNING,
            "Invalid response type for MSETNX");
        while(real_argc--) {
            add_next_index_bool(mctx->z_multi, 0);
        }
        return;
    }

    // Response will be 1/0 per key, so the client can match them up
    while(real_argc--) {
        add_next_index_long(mctx->z_multi, c->reply_len);
    }

    // Set return value if it's our last response
    if(mctx->last) {
        if(CLUSTER_IS_ATOMIC(c)) {
            RETVAL_ZVAL(mctx->z_multi, 0, 1);
        } else {
            add_next_index_zval(&c->multi_resp, mctx->z_multi);
        }
    }

    // Free multi context
    efree(mctx);
}

/* Handler for DEL */
PHP_REDIS_API void cluster_del_resp(INTERNAL_FUNCTION_PARAMETERS, redisCluster *c,
                             void *ctx)
{
    clusterMultiCtx *mctx = (clusterMultiCtx*)ctx;

    // If we get an invalid reply, inform the client
    if(c->reply_type != TYPE_INT) {
        php_error_docref(0 TSRMLS_CC, E_WARNING,
            "Invalid reply type returned for DEL command");
        efree(mctx);
        return;
    }

    // Increment by the number of keys deleted
    Z_LVAL_P(mctx->z_multi) += c->reply_len;

    if(mctx->last) {
        if(CLUSTER_IS_ATOMIC(c)) {
            ZVAL_LONG(return_value, Z_LVAL_P(mctx->z_multi));
        } else {
            add_next_index_long(&c->multi_resp, Z_LVAL_P(mctx->z_multi));
        }
        efree(mctx->z_multi);
    }

    efree(ctx);
}

/* Handler for MSET */
PHP_REDIS_API void cluster_mset_resp(INTERNAL_FUNCTION_PARAMETERS, redisCluster *c,
                              void *ctx)
{
    clusterMultiCtx *mctx = (clusterMultiCtx*)ctx;

    // If we get an invalid reply type something very wrong has happened,
    // and we have to abort.
    if(c->reply_type != TYPE_LINE) {
        php_error_docref(0 TSRMLS_CC, E_ERROR,
            "Invalid reply type returned for MSET command");
        zval_dtor(mctx->z_multi);
        efree(mctx->z_multi);
        efree(mctx);
        RETURN_FALSE;
    }

    // Set our return if it's the last call
    if(mctx->last) {
        if(CLUSTER_IS_ATOMIC(c)) {
            ZVAL_BOOL(return_value, zval_is_true(mctx->z_multi));
        } else {
            add_next_index_bool(&c->multi_resp, zval_is_true(mctx->z_multi));
        }
        efree(mctx->z_multi);
    }

    efree(mctx);
}

/* Raw MULTI BULK reply */
PHP_REDIS_API void
cluster_mbulk_raw_resp(INTERNAL_FUNCTION_PARAMETERS, redisCluster *c, void *ctx)
{
    cluster_gen_mbulk_resp(INTERNAL_FUNCTION_PARAM_PASSTHRU, c,
        mbulk_resp_loop_raw, NULL);
}

/* Unserialize all the things */
PHP_REDIS_API void
cluster_mbulk_resp(INTERNAL_FUNCTION_PARAMETERS, redisCluster *c, void *ctx)
{
    cluster_gen_mbulk_resp(INTERNAL_FUNCTION_PARAM_PASSTHRU, c,
        mbulk_resp_loop, NULL);
}

/* For handling responses where we get key, value, key, value that
 * we will turn into key => value, key => value. */
PHP_REDIS_API void
cluster_mbulk_zipstr_resp(INTERNAL_FUNCTION_PARAMETERS, redisCluster *c,
                          void *ctx)
{
    cluster_gen_mbulk_resp(INTERNAL_FUNCTION_PARAM_PASSTHRU, c,
        mbulk_resp_loop_zipstr, NULL);
}

/* Handling key,value to key=>value where the values are doubles */
PHP_REDIS_API void
cluster_mbulk_zipdbl_resp(INTERNAL_FUNCTION_PARAMETERS, redisCluster *c,
                          void *ctx)
{
    cluster_gen_mbulk_resp(INTERNAL_FUNCTION_PARAM_PASSTHRU, c,
        mbulk_resp_loop_zipdbl, NULL);
}

/* Associate multi bulk response (for HMGET really) */
PHP_REDIS_API void
cluster_mbulk_assoc_resp(INTERNAL_FUNCTION_PARAMETERS, redisCluster *c,
                         void *ctx)
{
    cluster_gen_mbulk_resp(INTERNAL_FUNCTION_PARAM_PASSTHRU, c,
        mbulk_resp_loop_assoc, ctx);
}

/*
 * Various MULTI BULK reply callback functions
 */

/* MULTI BULK response where we don't touch the values (e.g. KEYS) */
int mbulk_resp_loop_raw(RedisSock *redis_sock, zval *z_result,
                        long long count, void *ctx TSRMLS_DC)
{
    char *line;
    int line_len;

    // Iterate over the number we have
    while(count--) {
        // Read the line, which should never come back null
        line = redis_sock_read(redis_sock, &line_len TSRMLS_CC);
        if(line == NULL) return FAILURE;

        // Add to our result array
        add_next_index_stringl(z_result, line, line_len);
        efree(line);
    }

    // Success!
    return SUCCESS;
}

/* MULTI BULK response where we unserialize everything */
int mbulk_resp_loop(RedisSock *redis_sock, zval *z_result,
                    long long count, void *ctx TSRMLS_DC)
{
    char *line;
    int line_len;

    /* Iterate over the lines we have to process */
    while(count--) {
        /* Read our line */
        line = redis_sock_read(redis_sock, &line_len TSRMLS_CC);

        if (line != NULL) {
            zval zv, *z = &zv;
            if (redis_unserialize(redis_sock, line, line_len, z TSRMLS_CC)) {
#if (PHP_MAJOR_VERSION < 7)
                MAKE_STD_ZVAL(z);
                *z = zv;
#endif
                add_next_index_zval(z_result, z);
            } else {
                add_next_index_stringl(z_result, line, line_len);
            }
            efree(line);
        } else {
            if (line) efree(line);
            add_next_index_bool(z_result, 0);
        }
    }

    return SUCCESS;
}

/* MULTI BULK response where we turn key1,value1 into key1=>value1 */
int mbulk_resp_loop_zipstr(RedisSock *redis_sock, zval *z_result,
                           long long count, void *ctx TSRMLS_DC)
{
    char *line, *key;
    int line_len, key_len;
    long long idx=0;

    // Our count wil need to be divisible by 2
    if(count % 2 != 0) {
        return -1;
    }

    // Iterate through our elements
    while(count--) {
        // Grab our line, bomb out on failure
        line = redis_sock_read(redis_sock, &line_len TSRMLS_CC);
        if(!line) return -1;

        if(idx++ % 2 == 0) {
            // Save our key and length
            key = line;
            key_len = line_len;
        } else {
            /* Attempt serialization */
            zval zv, *z = &zv;
            if (redis_unserialize(redis_sock, line, line_len, z TSRMLS_CC)) {
#if (PHP_MAJOR_VERSION < 7)
                MAKE_STD_ZVAL(z);
                *z = zv;
#endif
                add_assoc_zval(z_result, key, z);
            } else {
                add_assoc_stringl_ex(z_result, key, key_len, line, line_len);
            }
            efree(line);
            efree(key);
        }
    }

    return SUCCESS;
}

/* MULTI BULK loop processor where we expect key,score key, score */
int mbulk_resp_loop_zipdbl(RedisSock *redis_sock, zval *z_result,
                           long long count, void *ctx TSRMLS_DC)
{
    char *line, *key;
    int line_len, key_len;
    long long idx=0;

    // Our context will need to be divisible by 2
    if(count %2 != 0) {
        return -1;
    }

    // While we have elements
    while(count--) {
        line = redis_sock_read(redis_sock, &line_len TSRMLS_CC);
        if (line != NULL) {
            if(idx++ % 2 == 0) {
                key = line;
                key_len = line_len;
            } else {
                zval zv, *z = &zv;
                if (redis_unserialize(redis_sock,key,key_len, z TSRMLS_CC)) {
                    convert_to_string(z);
                    add_assoc_double_ex(z_result, Z_STRVAL_P(z), Z_STRLEN_P(z), atof(line));
                    zval_dtor(z);
                } else {
                    add_assoc_double_ex(z_result, key, key_len, atof(line));
                }

                /* Free our key and line */
                efree(key);
                efree(line);
            }
        }
    }

    return SUCCESS;
}

/* MULTI BULK where we're passed the keys, and we attach vals */
int mbulk_resp_loop_assoc(RedisSock *redis_sock, zval *z_result,
                          long long count, void *ctx TSRMLS_DC)
{
    char *line;
    int line_len,i=0;
    zval *z_keys = ctx;

    // Loop while we've got replies
    while(count--) {
        line = redis_sock_read(redis_sock, &line_len TSRMLS_CC);

        if(line != NULL) {
            zval zv, *z = &zv;
            if (redis_unserialize(redis_sock, line, line_len, z TSRMLS_CC)) {
#if (PHP_MAJOR_VERSION < 7)
                MAKE_STD_ZVAL(z);
                *z = zv;
#endif
                add_assoc_zval_ex(z_result,Z_STRVAL(z_keys[i]),
                    Z_STRLEN(z_keys[i]), z);
            } else {
                add_assoc_stringl_ex(z_result, Z_STRVAL(z_keys[i]),
                    Z_STRLEN(z_keys[i]), line, line_len);
            }
            efree(line);
        } else {
            add_assoc_bool_ex(z_result, Z_STRVAL(z_keys[i]),
                Z_STRLEN(z_keys[i]), 0);
        }

        // Clean up key context
        zval_dtor(&z_keys[i]);

        // Move to the next key
        i++;
    }

    // Clean up our keys overall
    efree(z_keys);

    // Success!
    return SUCCESS;
}

/* vim: set tabstop=4 softtabstop=4 expandtab shiftwidth=4: */