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cluster_library.c
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cluster_library.c
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#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;
int le_cluster_slot_cache;
/* Debugging methods/
static void cluster_dump_nodes(redisCluster *c) {
redisClusterNode *p;
ZEND_HASH_FOREACH_PTR(c->nodes, p) {
if (p == 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");
} ZEND_HASH_FOREACH_END();
}
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 < 0) {
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) {
long long 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:
if (reply->element) {
if (reply->elements > 0) {
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 int
cluster_multibulk_resp_recursive(RedisSock *sock, size_t elements,
clusterReply **element, int status_strings)
{
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) < 0) {
return FAILURE;
}
/* 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) < 0) {
return FAILURE;
}
r->len = (long long)sz;
if (status_strings) r->str = estrndup(buf, r->len);
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);
if (!r->str) {
return FAILURE;
}
}
break;
case TYPE_MULTIBULK:
r->elements = r->len;
if (r->elements > 0) {
r->element = ecalloc(r->len, sizeof(*r->element));
if (cluster_multibulk_resp_recursive(sock, r->elements, r->element, status_strings) < 0) {
return FAILURE;
}
}
break;
default:
return FAILURE;
}
}
return SUCCESS;
}
/* Return the socket for a slot and slave index */
static RedisSock *cluster_slot_sock(redisCluster *c, unsigned short slot,
zend_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, int status_strings) {
return cluster_read_sock_resp(c->cmd_sock, c->reply_type,
status_strings ? c->line_reply : NULL,
c->reply_len);
}
/* 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,
char *line_reply, long long len)
{
clusterReply *r;
r = ecalloc(1, sizeof(clusterReply));
r->type = type;
switch(r->type) {
case TYPE_INT:
r->integer = len;
break;
case TYPE_LINE:
if (line_reply) {
r->str = estrndup(line_reply, len);
r->len = len;
}
case TYPE_ERR:
return r;
case TYPE_BULK:
r->len = len;
r->str = redis_sock_read_bulk_reply(redis_sock, len);
if (r->len != -1 && !r->str) {
cluster_free_reply(r, 1);
return NULL;
}
break;
case TYPE_MULTIBULK:
r->elements = len;
if (r->elements > 0) {
r->element = ecalloc(len, sizeof(clusterReply*));
if (cluster_multibulk_resp_recursive(redis_sock, len, r->element, line_reply != NULL) < 0) {
cluster_free_reply(r, 1);
return NULL;
}
}
break;
default:
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)
{
char buf[1024];
/* Connect to the socket if we aren't yet and 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) {
return cluster_send_direct(redis_sock, RESP_ASKING_CMD,
sizeof(RESP_ASKING_CMD)-1, TYPE_LINE);
}
/* 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) {
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);
/* 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) {
if (cluster_send_direct(SLOT_SOCK(c,slot), RESP_MULTI_CMD,
sizeof(RESP_MULTI_CMD) - 1, TYPE_LINE) == 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) {
int retval;
/* Send exec */
retval = cluster_send_slot(c, slot, RESP_EXEC_CMD, sizeof(RESP_EXEC_CMD)-1,
TYPE_MULTIBULK);
/* 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) {
if (cluster_send_direct(SLOT_SOCK(c,slot), RESP_DISCARD_CMD,
sizeof(RESP_DISCARD_CMD)-1, TYPE_LINE))
{
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 */
static void cluster_dist_free_ht(zval *p) {
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,
size_t 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
)
{
char *val;
size_t val_len;
int val_free;
// Serialize our value
val_free = redis_pack(c->flags, z_val, &val, &val_len);
// 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) {
zend_string_release(c->err);
c->err = NULL;
}
if (err != NULL && err_len > 0) {
c->err = zend_string_init(err, err_len, 0);
if (err_len >= sizeof("CLUSTERDOWN") - 1 &&
!memcmp(err, "CLUSTERDOWN", sizeof("CLUSTERDOWN") - 1)
) {
c->clusterdown = 1;
}
}
}
/* Destructor for slaves */
static void ht_free_slave(zval *data) {
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 between { 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),ZEND_LONG_FMT,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)
{
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) < 0 ||
redis_read_reply_type(redis_sock, &type, &len) < 0)
{
return NULL;
}
// Consume the rest of our response
if ((r = cluster_read_sock_resp(redis_sock, type, NULL, len)) == 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;
/* Initialize our list of slot ranges */
zend_llist_init(&node->slots, sizeof(redisSlotRange), NULL, 0);
// Attach socket
node->sock = redis_sock_create(host, host_len, port,
c->flags->timeout, c->flags->read_timeout,
c->flags->persistent, NULL, 0);
/* Stream context */
node->sock->stream_ctx = c->flags->stream_ctx;
redis_sock_set_auth(node->sock, c->flags->user, c->flags->pass);
return node;
}
/* Attach a slave to a master */
PHP_REDIS_API int
cluster_node_add_slave(redisClusterNode *master, redisClusterNode *slave)
{
zend_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) {
redisClusterNode *pnode, *master, *slave;
redisSlotRange range;
int i,j, hlen, klen;
short low, high;
clusterReply *r2, *r3;
unsigned short port;
char *host, key[1024];
zend_hash_clean(c->nodes);
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:%d", 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;
}
/* Append to our list of slot ranges */
range.low = low; range.high = high;
zend_llist_add_element(&master->slots, &range);
}
// 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);
}
zend_llist_destroy(&node->slots);
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) {
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) {
return cluster_get_asking_node(c)->sock;
}
/* Our context seeds will be a hash table with RedisSock* pointers */
static void ht_free_seed(zval *data) {
RedisSock *redis_sock = *(RedisSock**)data;
if (redis_sock) redis_free_socket(redis_sock);
}
/* Free redisClusterNode objects we've stored */
static void ht_free_node(zval *data) {
redisClusterNode *node = *(redisClusterNode**)data;
cluster_free_node(node);
}
/* zend_llist of slot ranges -> persistent array */
static redisSlotRange *slot_range_list_clone(zend_llist *src, size_t *count) {
redisSlotRange *dst, *range;
size_t i = 0;
*count = zend_llist_count(src);
dst = pemalloc(*count * sizeof(*dst), 1);
range = zend_llist_get_first(src);
while (range) {
memcpy(&dst[i++], range, sizeof(*range));
range = zend_llist_get_next(src);
}
return dst;
}
/* 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->flags->timeout = timeout;
c->flags->read_timeout = read_timeout;
c->flags->persistent = persistent;
c->subscribed_slot = -1;
c->clusterdown = 0;
c->failover = failover;
c->err = NULL;
/* 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, int free_ctx)
{
/* Disconnect from each node we're connected to */
cluster_disconnect(c, 0);
/* Free any allocated prefix */
if (c->flags->prefix) zend_string_release(c->flags->prefix);
redis_sock_free_auth(c->flags);
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) zend_string_release(c->err);
if (c->cache_key) {
/* Invalidate persistent cache if the cluster has changed */
if (c->redirections) {
zend_hash_del(&EG(persistent_list), c->cache_key);
}
/* Release our hold on the cache key */
zend_string_release(c->cache_key);
}
/* Free structure itself */
if (free_ctx) efree(c);
}
/* Create a cluster slot cache structure */
PHP_REDIS_API
redisCachedCluster *cluster_cache_create(zend_string *hash, HashTable *nodes) {
redisCachedCluster *cc;
redisCachedMaster *cm;
redisClusterNode *node, *slave;
cc = pecalloc(1, sizeof(*cc), 1);
cc->hash = zend_string_dup(hash, 1);
/* Copy nodes */
cc->master = pecalloc(zend_hash_num_elements(nodes), sizeof(*cc->master), 1);
ZEND_HASH_FOREACH_PTR(nodes, node) {
/* Skip slaves */
if (node->slave) continue;
cm = &cc->master[cc->count];
/* Duplicate host/port and clone slot ranges */
cm->host.addr = zend_string_dup(node->sock->host, 1);
cm->host.port = node->sock->port;
/* Copy over slot ranges */
cm->slot = slot_range_list_clone(&node->slots, &cm->slots);
/* Attach any slave nodes we have. */
if (node->slaves) {
/* Allocate memory for slaves */
cm->slave = pecalloc(zend_hash_num_elements(node->slaves), sizeof(*cm->slave), 1);
/* Copy host/port information for each slave */
ZEND_HASH_FOREACH_PTR(node->slaves, slave) {
cm->slave[cm->slaves].addr = zend_string_dup(slave->sock->host, 1);
cm->slave[cm->slaves].port = slave->sock->port;
cm->slaves++;
} ZEND_HASH_FOREACH_END();
}
cc->count++;
} ZEND_HASH_FOREACH_END();
return cc;
}
static void cluster_free_cached_master(redisCachedMaster *cm) {
size_t i;
/* Free each slave entry */
for (i = 0; i < cm->slaves; i++) {
zend_string_release(cm->slave[i].addr);
}
/* Free other elements */
zend_string_release(cm->host.addr);
pefree(cm->slave, 1);
pefree(cm->slot, 1);
}
static redisClusterNode*
cached_master_clone(redisCluster *c, redisCachedMaster *cm) {
redisClusterNode *node;
size_t i;
node = cluster_node_create(c, ZSTR_VAL(cm->host.addr), ZSTR_LEN(cm->host.addr),
cm->host.port, cm->slot[0].low, 0);
/* Now copy in our slot ranges */
for (i = 0; i < cm->slots; i++) {
zend_llist_add_element(&node->slots, &cm->slot[i]);
}
return node;
}
/* Destroy a persistent cached cluster */
PHP_REDIS_API void cluster_cache_free(redisCachedCluster *rcc) {
size_t i;
/* Free masters */
for (i = 0; i < rcc->count; i++) {
cluster_free_cached_master(&rcc->master[i]);
}
zend_string_release(rcc->hash);
pefree(rcc->master, 1);
pefree(rcc, 1);
}
/* Initialize cluster from cached slots */
PHP_REDIS_API
void cluster_init_cache(redisCluster *c, redisCachedCluster *cc) {
RedisSock *sock;
redisClusterNode *mnode, *slave;
redisCachedMaster *cm;
char key[HOST_NAME_MAX];
size_t keylen, i, j, s;
int *map;
/* Randomize seeds */
map = emalloc(sizeof(*map) * cc->count);
for (i = 0; i < cc->count; i++) map[i] = i;
fyshuffle(map, cc->count);
/* Duplicate the hash key so we can invalidate when redirected */
c->cache_key = zend_string_copy(cc->hash);
/* Iterate over masters */
for (i = 0; i < cc->count; i++) {
/* Grab the next master */
cm = &cc->master[map[i]];
/* Hash our host and port */
keylen = snprintf(key, sizeof(key), "%s:%u", ZSTR_VAL(cm->host.addr), cm->host.port);
/* Create socket */