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#ifndef _PHPREDIS_CLUSTER_LIBRARY_H
#define _PHPREDIS_CLUSTER_LIBRARY_H
#include "common.h"
#ifdef ZTS
#include "TSRM.h"
#endif
/* Redis cluster hash slots and N-1 which we'll use to find it */
#define REDIS_CLUSTER_SLOTS 16384
#define REDIS_CLUSTER_MOD (REDIS_CLUSTER_SLOTS-1)
/* Complete representation for various commands in RESP */
#define RESP_UNWATCH_CMD "*1\r\n$7\r\nUNWATCH\r\n"
#define RESP_CLUSTER_SLOTS_CMD "*2\r\n$7\r\nCLUSTER\r\n$5\r\nSLOTS\r\n"
#define RESP_ASKING_CMD "*1\r\n$6\r\nASKING\r\n"
#define RESP_READONLY_CMD "*1\r\n$8\r\nREADONLY\r\n"
#define RESP_READWRITE_CMD "*1\r\n$9\r\nREADWRITE\r\n"
#define RESP_READONLY_CMD_LEN (sizeof(RESP_READONLY_CMD)-1)
/* MOVED/ASK comparison macros */
#define IS_MOVED(p) (p[0]=='M' && p[1]=='O' && p[2]=='V' && p[3]=='E' && \
p[4]=='D' && p[5]==' ')
#define IS_ASK(p) (p[0]=='A' && p[1]=='S' && p[2]=='K' && p[3]==' ')
/* MOVED/ASK lengths */
#define MOVED_LEN (sizeof("MOVED ")-1)
#define ASK_LEN (sizeof("ASK ")-1)
/* Initial allocation size for key distribution container */
#define CLUSTER_KEYDIST_ALLOC 8
/* Macros to access nodes, sockets, and streams for a given slot */
#define SLOT(c,s) (c->master[s])
#define SLOT_SOCK(c,s) (SLOT(c,s)->sock)
#define SLOT_STREAM(c,s) (SLOT_SOCK(c,s)->stream)
#define SLOT_SLAVES(c,s) (c->master[s]->slaves)
/* Compare redirection slot information with the passed node */
#define CLUSTER_REDIR_CMP(c, sock) \
(sock->port != c->redir_port || \
ZSTR_LEN(sock->host) != c->redir_host_len || \
memcmp(ZSTR_VAL(sock->host),c->redir_host,c->redir_host_len))
/* Clear out our "last error" */
#define CLUSTER_CLEAR_ERROR(c) do { \
if (c->err) { \
zend_string_release(c->err); \
c->err = NULL; \
} \
c->clusterdown = 0; \
} while (0)
/* Protected sending of data down the wire to a RedisSock->stream */
#define CLUSTER_SEND_PAYLOAD(sock, buf, len) \
(sock && !redis_sock_server_open(sock) && sock->stream && !redis_check_eof(sock, 0, 1) && \
redis_sock_write_raw(sock, buf, len) == len)
/* Macro to read our reply type character */
#define CLUSTER_VALIDATE_REPLY_TYPE(sock, type) \
(redis_check_eof(sock, 1, 1) == 0 && redis_sock_getc(sock) == type)
/* Reset our last single line reply buffer and length */
#define CLUSTER_CLEAR_REPLY(c) \
*c->line_reply = '\0'; c->reply_len = 0;
/* Helper to determine if we're in MULTI mode */
#define CLUSTER_IS_ATOMIC(c) (c->flags->mode != MULTI)
/* Helper that either returns false or adds false in multi mode */
#define CLUSTER_RETURN_FALSE(c) \
if(CLUSTER_IS_ATOMIC(c)) { \
RETURN_FALSE; \
} else { \
add_next_index_bool(&c->multi_resp, 0); \
return; \
}
/* Helper to either return a bool value or add it to MULTI response */
#define CLUSTER_RETURN_BOOL(c, b) \
if(CLUSTER_IS_ATOMIC(c)) { \
RETURN_BOOL(b); \
} else { \
add_next_index_bool(&c->multi_resp, b); \
}
/* Helper to respond with a double or add it to our MULTI response */
#define CLUSTER_RETURN_DOUBLE(c, d) \
if(CLUSTER_IS_ATOMIC(c)) { \
RETURN_DOUBLE(d); \
} else { \
add_next_index_double(&c->multi_resp, d); \
}
/* Helper to return a string value */
#define CLUSTER_RETURN_STRING(c, str, len) \
if(CLUSTER_IS_ATOMIC(c)) { \
RETVAL_STRINGL(str, len); \
} else { \
add_next_index_stringl(&c->multi_resp, str, len); \
} \
/* Return a LONG value */
#define CLUSTER_RETURN_LONG(c, val) \
if(CLUSTER_IS_ATOMIC(c)) { \
RETURN_LONG(val); \
} else { \
add_next_index_long(&c->multi_resp, val); \
}
/* Macro to clear out a clusterMultiCmd structure */
#define CLUSTER_MULTI_CLEAR(mc) \
mc->cmd.len = 0; \
mc->args.len = 0; \
mc->argc = 0; \
/* Initialize a clusterMultiCmd with a keyword and length */
#define CLUSTER_MULTI_INIT(mc, keyword, keyword_len) \
mc.kw = keyword; \
mc.kw_len = keyword_len; \
#define CLUSTER_CACHING_ENABLED() (INI_INT("redis.clusters.cache_slots") == 1)
/* Cluster redirection enum */
typedef enum CLUSTER_REDIR_TYPE {
REDIR_NONE,
REDIR_MOVED,
REDIR_ASK
} CLUSTER_REDIR_TYPE;
/* MULTI BULK response callback typedef */
typedef int (*mbulk_cb)(RedisSock*,zval*,long long, void*);
/* A list of covered slot ranges */
typedef struct redisSlotRange {
unsigned short low;
unsigned short high;
} redisSlotRange;
/* Simple host/port information for our cache */
typedef struct redisCachedHost {
zend_string *addr;
unsigned short port;
} redisCachedHost;
/* Storage for a cached master node */
typedef struct redisCachedMaster {
redisCachedHost host;
redisSlotRange *slot; /* Slots and count */
size_t slots;
redisCachedHost *slave; /* Slaves and their count */
size_t slaves;
} redisCachedMaster;
typedef struct redisCachedCluster {
// int rsrc_id; /* Zend resource ID */
zend_string *hash; /* What we're cached by */
redisCachedMaster *master; /* Array of masters */
size_t count; /* Number of masters */
} redisCachedCluster;
/* A Redis Cluster master node */
typedef struct redisClusterNode {
RedisSock *sock; /* Our Redis socket in question */
short slot; /* One slot we believe this node serves */
zend_llist slots; /* List of all slots we believe this node serves */
unsigned short slave; /* Are we a slave */
HashTable *slaves; /* Hash table of slaves */
} redisClusterNode;
/* Forward declarations */
typedef struct clusterFoldItem clusterFoldItem;
/* RedisCluster implementation structure */
typedef struct redisCluster {
/* One RedisSock struct for serialization and prefix information */
RedisSock *flags;
/* How long in milliseconds should we wait when being bounced around */
long waitms;
/* Are we flagged as being in readonly mode, meaning we could fall back to
* a given master's slave */
short readonly;
/* RedisCluster failover options (never, on error, to load balance) */
short failover;
/* Hash table of seed host/ports */
HashTable *seeds;
/* RedisCluster masters, by direct slot */
redisClusterNode *master[REDIS_CLUSTER_SLOTS];
/* All RedisCluster objects we've created/are connected to */
HashTable *nodes;
/* Transaction handling linked list, and where we are as we EXEC */
clusterFoldItem *multi_head;
clusterFoldItem *multi_curr;
/* When we issue EXEC to nodes, we need to keep track of how many replies
* we have, as this can fail for various reasons (EXECABORT, watch, etc.) */
char multi_len[REDIS_CLUSTER_SLOTS];
/* Variable to store MULTI response */
zval multi_resp;
/* Flag for when we get a CLUSTERDOWN error */
short clusterdown;
/* Key to our persistent list cache and number of redirections we've
* received since construction */
zend_string *cache_key;
uint64_t redirections;
/* The last ERROR we encountered */
zend_string *err;
/* The slot our command is operating on, as well as it's socket */
unsigned short cmd_slot;
RedisSock *cmd_sock;
/* The slot where we're subscribed */
short subscribed_slot;
/* The first line of our last reply, not including our reply type byte
* or the trailing \r\n */
char line_reply[1024];
/* The last reply type and length or integer response we got */
REDIS_REPLY_TYPE reply_type;
long long reply_len;
/* Last MOVED or ASK redirection response information */
CLUSTER_REDIR_TYPE redir_type;
char redir_host[255];
int redir_host_len;
unsigned short redir_slot;
unsigned short redir_port;
/* Zend object handler */
zend_object std;
} redisCluster;
/* RedisCluster response processing callback */
typedef void (*cluster_cb)(INTERNAL_FUNCTION_PARAMETERS, redisCluster*, void*);
/* Context for processing transactions */
struct clusterFoldItem {
/* Response processing callback */
cluster_cb callback;
/* The actual socket where we send this request */
unsigned short slot;
/* Any context we need to send to our callback */
void *ctx;
/* Next item in our list */
struct clusterFoldItem *next;
};
/* Key and value container, with info if they need freeing */
typedef struct clusterKeyVal {
char *key, *val;
int key_len, val_len;
int key_free, val_free;
} clusterKeyVal;
/* Container to hold keys (and possibly values) for when we need to distribute
* commands across more than 1 node (e.g. WATCH, MGET, MSET, etc) */
typedef struct clusterDistList {
clusterKeyVal *entry;
size_t len, size;
} clusterDistList;
/* Context for things like MGET/MSET/MSETNX. When executing in MULTI mode,
* we'll want to re-integrate into one running array, except for the last
* command execution, in which we'll want to return the value (or add it) */
typedef struct clusterMultiCtx {
/* Our running array */
zval *z_multi;
/* How many keys did we request for this bit */
int count;
/* Is this the last entry */
short last;
} clusterMultiCtx;
/* Container for things like MGET, MSET, and MSETNX, which split the command
* into a header and payload while aggregating to a specific slot. */
typedef struct clusterMultiCmd {
/* Keyword and keyword length */
char *kw;
int kw_len;
/* Arguments in our payload */
int argc;
/* The full command, built into cmd, and args as we aggregate */
smart_string cmd;
smart_string args;
} clusterMultiCmd;
/* Hiredis like structure for processing any sort of reply Redis Cluster might
* give us, including N level deep nested multi-bulk replies. Unlike hiredis
* we don't encode errors, here as that's handled in the cluster structure. */
typedef struct clusterReply {
REDIS_REPLY_TYPE type; /* Our reply type */
size_t integer; /* Integer reply */
long long len; /* Length of our string */
char *str; /* String reply */
long long elements; /* Count of array elements */
struct clusterReply **element; /* Array elements */
} clusterReply;
/* Direct variant response handler */
clusterReply *cluster_read_resp(redisCluster *c, int status_strings);
clusterReply *cluster_read_sock_resp(RedisSock *redis_sock,
REDIS_REPLY_TYPE type, char *line_reply, long long reply_len);
void cluster_free_reply(clusterReply *reply, int free_data);
/* Cluster distribution helpers for WATCH */
HashTable *cluster_dist_create(void);
void cluster_dist_free(HashTable *ht);
int cluster_dist_add_key(redisCluster *c, HashTable *ht, char *key,
size_t key_len, clusterKeyVal **kv);
void cluster_dist_add_val(redisCluster *c, clusterKeyVal *kv, zval *val
);
/* Aggregation for multi commands like MGET, MSET, and MSETNX */
void cluster_multi_init(clusterMultiCmd *mc, char *kw, int kw_len);
void cluster_multi_free(clusterMultiCmd *mc);
void cluster_multi_add(clusterMultiCmd *mc, char *data, int data_len);
void cluster_multi_fini(clusterMultiCmd *mc);
/* Hash a key to it's slot, using the Redis Cluster hash algorithm */
unsigned short cluster_hash_key_zval(zval *key);
unsigned short cluster_hash_key(const char *key, int len);
unsigned short cluster_hash_key_zstr(zend_string *key);
/* Validate and sanitize cluster construction args */
zend_string** cluster_validate_args(double timeout, double read_timeout,
HashTable *seeds, uint32_t *nseeds, char **errstr);
void free_seed_array(zend_string **seeds, uint32_t nseeds);
/* Generate a unique hash string from seeds array */
zend_string *cluster_hash_seeds(zend_string **seeds, uint32_t nseeds);
/* Get the current time in milliseconds */
long long mstime(void);
PHP_REDIS_API short cluster_send_command(redisCluster *c, short slot, const char *cmd,
int cmd_len);
PHP_REDIS_API void cluster_disconnect(redisCluster *c, int force);
PHP_REDIS_API int cluster_send_exec(redisCluster *c, short slot);
PHP_REDIS_API int cluster_send_discard(redisCluster *c, short slot);
PHP_REDIS_API int cluster_abort_exec(redisCluster *c);
PHP_REDIS_API short cluster_find_slot(redisCluster *c, const char *host,
unsigned short port);
PHP_REDIS_API int cluster_send_slot(redisCluster *c, short slot, char *cmd,
int cmd_len, REDIS_REPLY_TYPE rtype);
PHP_REDIS_API redisCluster *cluster_create(double timeout, double read_timeout,
int failover, int persistent);
PHP_REDIS_API void cluster_free(redisCluster *c, int free_ctx);
PHP_REDIS_API void cluster_init_seeds(redisCluster *c, zend_string **seeds, uint32_t nseeds);
PHP_REDIS_API int cluster_map_keyspace(redisCluster *c);
PHP_REDIS_API void cluster_free_node(redisClusterNode *node);
/* Functions for interacting with cached slots maps */
PHP_REDIS_API redisCachedCluster *cluster_cache_create(zend_string *hash, HashTable *nodes);
PHP_REDIS_API void cluster_cache_free(redisCachedCluster *rcc);
PHP_REDIS_API void cluster_init_cache(redisCluster *c, redisCachedCluster *rcc);
/* Functions to facilitate cluster slot caching */
PHP_REDIS_API char **cluster_sock_read_multibulk_reply(RedisSock *redis_sock, int *len);
PHP_REDIS_API void cluster_cache_store(zend_string *hash, HashTable *nodes);
PHP_REDIS_API redisCachedCluster *cluster_cache_load(zend_string *hash);
/*
* Redis Cluster response handlers. Our response handlers generally take the
* following form:
* PHP_REDIS_API void handler(INTERNAL_FUNCTION_PARAMETERS, redisCluster *c,
* void *ctx)
*
* Reply handlers are responsible for setting the PHP return value (either to
* something valid, or FALSE in the case of some failures).
*/
PHP_REDIS_API void cluster_bool_resp(INTERNAL_FUNCTION_PARAMETERS, redisCluster *c,
void *ctx);
PHP_REDIS_API void cluster_ping_resp(INTERNAL_FUNCTION_PARAMETERS, redisCluster *c,
void *ctx);
PHP_REDIS_API void cluster_pop_resp(INTERNAL_FUNCTION_PARAMETERS, redisCluster *c,
void *ctx);
PHP_REDIS_API void cluster_object_resp(INTERNAL_FUNCTION_PARAMETERS, redisCluster *c,
void *ctx);
PHP_REDIS_API void cluster_lpos_resp(INTERNAL_FUNCTION_PARAMETERS, redisCluster *c,
void *ctx);
PHP_REDIS_API void cluster_hrandfield_resp(INTERNAL_FUNCTION_PARAMETERS, redisCluster *c,
void *ctx);
PHP_REDIS_API void cluster_zdiff_resp(INTERNAL_FUNCTION_PARAMETERS, redisCluster *c,
void *ctx);
PHP_REDIS_API void cluster_zadd_resp(INTERNAL_FUNCTION_PARAMETERS, redisCluster *c,
void *ctx);
PHP_REDIS_API void cluster_zrandmember_resp(INTERNAL_FUNCTION_PARAMETERS, redisCluster *c,
void *ctx);
PHP_REDIS_API void cluster_srandmember_resp(INTERNAL_FUNCTION_PARAMETERS, redisCluster *c,
void *ctx);
PHP_REDIS_API void cluster_set_resp(INTERNAL_FUNCTION_PARAMETERS, redisCluster *c,
void *ctx);
PHP_REDIS_API void cluster_geosearch_resp(INTERNAL_FUNCTION_PARAMETERS, redisCluster *c,
void *ctx);
PHP_REDIS_API void cluster_single_line_resp(INTERNAL_FUNCTION_PARAMETERS, redisCluster *c,
void *ctx);
PHP_REDIS_API void cluster_bulk_resp(INTERNAL_FUNCTION_PARAMETERS, redisCluster *c,
void *ctx);
PHP_REDIS_API void cluster_bulk_raw_resp(INTERNAL_FUNCTION_PARAMETERS, redisCluster *c,
void *ctx);
PHP_REDIS_API void cluster_dbl_resp(INTERNAL_FUNCTION_PARAMETERS, redisCluster *c,
void *ctx);
PHP_REDIS_API void cluster_1_resp(INTERNAL_FUNCTION_PARAMETERS, redisCluster *c,
void *ctx);
PHP_REDIS_API void cluster_long_resp(INTERNAL_FUNCTION_PARAMETERS, redisCluster *c,
void *ctx);
PHP_REDIS_API void cluster_type_resp(INTERNAL_FUNCTION_PARAMETERS, redisCluster *c,
void *ctx);
PHP_REDIS_API void cluster_sub_resp(INTERNAL_FUNCTION_PARAMETERS, redisCluster *c,
void *ctx);
PHP_REDIS_API void cluster_unsub_resp(INTERNAL_FUNCTION_PARAMETERS, redisCluster *c,
void *ctx);
PHP_REDIS_API void cluster_zrange_resp(INTERNAL_FUNCTION_PARAMETERS, redisCluster *c,
void *ctx);
PHP_REDIS_API void cluster_variant_resp(INTERNAL_FUNCTION_PARAMETERS,
redisCluster *c, void *ctx);
PHP_REDIS_API void cluster_variant_raw_resp(INTERNAL_FUNCTION_PARAMETERS,
redisCluster *c, void *ctx);
PHP_REDIS_API void cluster_variant_resp_strings(INTERNAL_FUNCTION_PARAMETERS,
redisCluster *c, void *ctx);
/* MULTI BULK response functions */
PHP_REDIS_API void cluster_gen_mbulk_resp(INTERNAL_FUNCTION_PARAMETERS,
redisCluster *c, mbulk_cb func, void *ctx);
PHP_REDIS_API void cluster_mbulk_raw_resp(INTERNAL_FUNCTION_PARAMETERS,
redisCluster *c, void *ctx);
PHP_REDIS_API void cluster_mbulk_resp(INTERNAL_FUNCTION_PARAMETERS,
redisCluster *c, void *ctx);
PHP_REDIS_API void cluster_mbulk_zipstr_resp(INTERNAL_FUNCTION_PARAMETERS,
redisCluster *c, void *ctx);
PHP_REDIS_API void cluster_mbulk_zipdbl_resp(INTERNAL_FUNCTION_PARAMETERS,
redisCluster *c, void *ctx);
PHP_REDIS_API void cluster_mbulk_dbl_resp(INTERNAL_FUNCTION_PARAMETERS,
redisCluster *c, void *ctx);
PHP_REDIS_API void cluster_mbulk_assoc_resp(INTERNAL_FUNCTION_PARAMETERS,
redisCluster *c, void *ctx);
PHP_REDIS_API void cluster_multi_mbulk_resp(INTERNAL_FUNCTION_PARAMETERS,
redisCluster *c, void *ctx);
PHP_REDIS_API zval *cluster_zval_mbulk_resp(INTERNAL_FUNCTION_PARAMETERS,
redisCluster *c, int pull, mbulk_cb cb, zval *z_ret);
/* Handlers for things like DEL/MGET/MSET/MSETNX */
PHP_REDIS_API void cluster_del_resp(INTERNAL_FUNCTION_PARAMETERS,
redisCluster *c, void *ctx);
PHP_REDIS_API void cluster_mbulk_mget_resp(INTERNAL_FUNCTION_PARAMETERS,
redisCluster *c, void *ctx);
PHP_REDIS_API void cluster_mset_resp(INTERNAL_FUNCTION_PARAMETERS,
redisCluster *c, void *ctx);
PHP_REDIS_API void cluster_msetnx_resp(INTERNAL_FUNCTION_PARAMETERS,
redisCluster *c, void *ctx);
/* Response handler for ZSCAN, SSCAN, and HSCAN */
PHP_REDIS_API int cluster_scan_resp(INTERNAL_FUNCTION_PARAMETERS,
redisCluster *c, REDIS_SCAN_TYPE type, uint64_t *cursor);
/* INFO response handler */
PHP_REDIS_API void cluster_info_resp(INTERNAL_FUNCTION_PARAMETERS,
redisCluster *c, void *ctx);
/* CLIENT LIST response handler */
PHP_REDIS_API void cluster_client_list_resp(INTERNAL_FUNCTION_PARAMETERS,
redisCluster *c, void *ctx);
/* Custom STREAM handlers */
PHP_REDIS_API void cluster_xread_resp(INTERNAL_FUNCTION_PARAMETERS,
redisCluster *c, void *ctx);
PHP_REDIS_API void cluster_xrange_resp(INTERNAL_FUNCTION_PARAMETERS,
redisCluster *c, void *ctx);
PHP_REDIS_API void cluster_xclaim_resp(INTERNAL_FUNCTION_PARAMETERS,
redisCluster *c, void *ctx);
PHP_REDIS_API void cluster_xinfo_resp(INTERNAL_FUNCTION_PARAMETERS,
redisCluster *c, void *ctx);
PHP_REDIS_API void cluster_mpop_resp(INTERNAL_FUNCTION_PARAMETERS,
redisCluster *c, void *ctx);
/* Custom ACL handlers */
PHP_REDIS_API void cluster_acl_getuser_resp(INTERNAL_FUNCTION_PARAMETERS, redisCluster *c, void *ctx);
PHP_REDIS_API void cluster_acl_log_resp(INTERNAL_FUNCTION_PARAMETERS, redisCluster *c, void *ctx);
/* MULTI BULK processing callbacks */
int mbulk_resp_loop(RedisSock *redis_sock, zval *z_result,
long long count, void *ctx);
int mbulk_resp_loop_raw(RedisSock *redis_sock, zval *z_result,
long long count, void *ctx);
int mbulk_resp_loop_zipstr(RedisSock *redis_sock, zval *z_result,
long long count, void *ctx);
int mbulk_resp_loop_dbl(RedisSock *redis_sock, zval *z_result,
long long count, void *ctx);
int mbulk_resp_loop_zipdbl(RedisSock *redis_sock, zval *z_result,
long long count, void *ctx);
int mbulk_resp_loop_assoc(RedisSock *redis_sock, zval *z_result,
long long count, void *ctx);
#endif
/* vim: set tabstop=4 softtabstop=4 expandtab shiftwidth=4: */
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