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447 lines
16 KiB
C++
447 lines
16 KiB
C++
#pragma once
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#include "../acl_cpp_define.hpp"
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#include "../stdlib/noncopyable.hpp"
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#include <map>
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#include <list>
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#include <vector>
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#include "redis_result.hpp"
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#if !defined(ACL_CLIENT_ONLY) && !defined(ACL_REDIS_DISABLE)
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namespace acl
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{
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class redis_client;
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class redis_client_cluster;
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class redis_request;
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/**
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* redis 客户端命令类的纯虚父类;
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* the redis command classes's base virtual class, which includes the basic
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* functions for all sub-classes
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*/
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class ACL_CPP_API redis_command : public noncopyable
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{
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public:
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/**
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* 缺省的构造函数,如果使用此构造函数初始化类对象,则必须调用 set_client 或
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* set_cluster 设置 redis 客户端命令类对象的通讯方式。
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* default constructor. You must set the communication method by
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* set_client or set_cluster functions.
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*/
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redis_command(void);
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/**
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* 当使用非集群模式时的构造函数,可以使用此构造函数设置 redis 通信类对象。
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* Using this constructor to set the redis communication mode,
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* usually in no-cluster mode.
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* @param conn {redis_client*} redis 通信类对象
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* the redis communication in no-cluster mode
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*/
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redis_command(redis_client* conn);
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/**
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* 集群模式的构造函数,在构造类对象时指定了集群模式的 redis_client_cluster 对象。
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* Using this constructor to set the redis_client_cluster, usually in
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* cluster mode.
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* @param cluster {redis_client_cluster*} redis 集群连接对象
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* redis cluster object in cluster mode
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* @param max_conns {size_t} 与集群中所有结点之间的每个连接池的最大连接数,
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* 如果该值为 0,则在集群方式下连接池不设连接数上限
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* the max of every connection pool with all the redis nodes,
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* if be set 0, then there is no connections limit in
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* connections pool.
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*/
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redis_command(redis_client_cluster* cluster, size_t max_conns);
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virtual ~redis_command(void);
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/**
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* 在进行每个命令处理前,是否要求检查 socket 句柄与地址的匹配情况,当
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* 打开该选项时,将会严格检查匹配情况,但会影响一定性能,因此该设置仅
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* 用在 DEBUG 时的运行场景
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* @param on {bool}
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*/
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void set_check_addr(bool on);
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/**
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* 在重复使用一个继承于 redis_command 的子类操作 redis 时,需要在
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* 下一次调用前调用本方法以释放上次操作的临时对象;
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* when reusing a redis command sub-class, the reset method should be
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* called first to rlease some resources in last command operation
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* @param save_slot {bool} 当采用集群模式时,该参数决定是否需要重新
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* 计算哈希槽值,如果反复调用 redis 命令过程中的 key 值不变,则可以保留此
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* 哈希槽值以减少内部重新进行计算的次数;
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* when in cluster mode, if your operations is on the same key, you
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* can set the param save_slot to false which can reduse the times
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* of compute the same key's hash-slot.
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*/
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void clear(bool save_slot = false);
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ACL_CPP_DEPRECATED_FOR("clear")
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void reset(bool save_slot = false);
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/**
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* 在使用非集群方式时,通过本函数将从连接池获得的连接对象;
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* when not using cluster mode, the function is used
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* to set the connection for next redis command operation.
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* @param conn {redis_client*} 与 redis 客户端命令进行关联;
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* the redis connection to be set in next redis operation
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*/
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void set_client(redis_client* conn);
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/**
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* 获得当前 redis 客户端命令的连接对象;
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* get redis connection set by set_client function
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* @return {redis_client*} 返回 NULL 表示没有连接对象与当前的命令对象
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* 进行绑定;
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* the internal redis connection be returned, NULL if no redis
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* connection be set
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*/
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redis_client* get_client() const
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{
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return conn_;
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}
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/**
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* 获得当前 redis 命令对象所绑定的服务器地址,只有当该对象与 redis_client
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* 绑定时(即调用 set_client) 才可以调用本函数
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* get the redis-server's addr used by the current command. this
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* method can only be used only if the redis_client was set by
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* set_client method.
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* @return {const char*} 返回空串 "" 表示没有绑定 redis 连接对象
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* if "" was resturned, the redis connection was not set
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*/
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const char* get_client_addr() const;
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/**
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* 设置连接池集群管理器;
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* set the redis cluster object in redis cluster mode
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* @param cluster {redis_client_cluster*} redis 集群连接对象;
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* the redis_cluster connection object which can connect to any
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* redis-server and support connection pool
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* @param max_conns {size_t} 当内部动态创建连接池对象时,该值指定每个动态创建
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* 的连接池的最大连接数量;
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* when dynamicly creating connection pool to any redis-server, use
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* this param to limit the max number for each connection pool
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*/
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void set_cluster(redis_client_cluster* cluster, size_t max_conns);
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/**
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* 获得所设置的连接池集群管理器;
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* get redis_cluster object set by set_cluster function
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* @return {redis_client_cluster*}
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*/
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redis_client_cluster* get_cluster() const
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{
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return cluster_;
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}
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/**
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* 获得内存池句柄,该内存池由 redis_command 内部产生;
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* get memory pool handle be set
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* @return {dbuf_pool*}
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*/
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dbuf_pool* get_dbuf() const
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{
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return dbuf_;
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}
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/**
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* 获得当前结果结点的数据类型;
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* get the result type returned from redis-server
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* @return {redis_result_t}
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*/
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redis_result_t result_type() const;
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/**
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* 当返回值为 REDIS_RESULT_STATUS 类型时,本方法返回状态信息;
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* when result type is REDIS_RESULT_STATUS, the status info can be
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* get by this function
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* @return {const char*} 返回 "" 表示出错;
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* "" will be returned on error
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*/
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const char* result_status() const;
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/**
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* 当出错时返回值为 REDIS_RESULT_ERROR 类型,本方法返回出错信息;
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* when result type is REDIS_RESULT_ERROR, the error info can be
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* get by this function
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* @return {const char*} 返回空串 "" 表示没有出错信息;
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* "" will be returned when no error info
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*/
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const char* result_error() const;
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/**
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* 获得当前结果结点存储的对象的个数, 该方法可以获得结果为下面两个方法
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* (result_child/result_value) 所需要的数组元素的个数;
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* get number of result objects, just for functions
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* result_child/result_value
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* @return {size_t} 返回值与存储类型的对应关系如下:
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* the relation between return value and result type, as below:
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* REDIS_RESULT_ERROR: 1
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* REDIS_RESULT_STATUS: 1
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* REDIS_RESULT_INTEGER: 1
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* REDIS_RESULT_STRING: > 0 时表示该字符串数据被切分成非连接内存块的个数;
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* when the result type is REDIS_RESULT_STRING and the the
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* string is too large, the string was be cut into many small
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* chunks, the returned value is the chunks number
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* REDIS_RESULT_ARRAY: children_->size()
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*/
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size_t result_size() const;
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/**
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* 当返回值为 REDIS_RESULT_INTEGER 类型时,本方法返回对应的 32 位整数值;
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* get 32-bits number value if result type is REDIS_RESULT_INTERGER
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* @param success {bool*} 本指针非 NULL 时记录操作过程是否成功;
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* if the param pointer is not NULL, which will save status of
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* success or not for result from redis-server
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* @return {int}
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*/
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int result_number(bool* success = NULL) const;
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/**
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* 当返回值为 REDIS_RESULT_INTEGER 类型时,本方法返回对应的 64 位整数值;
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* get 64-bits number value if result type is REDIS_RESULT_INTERGER
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* @param success {bool*} 本指针非 NULL 时记录操作过程是否成功;
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* if the param pointer is not NULL, which will save status of
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* success or not for result from redis-server
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* @return {long long int}
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*/
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long long int result_number64(bool* success = NULL) const;
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/**
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* 返回对应下标的数据(当数据类型非 REDIS_RESULT_ARRAY 时);
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* get string result when result type isn't REDIS_RESULT_ARRAY
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* @param i {size_t} 数组下标;
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* the array index
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* @param len {size_t*} 当为非 NULL 指针时存储所返回数据的长度;
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* *len will save the result's length if len is not NULL
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* @return {const char*} 返回 NULL 表示下标越界;
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* NULL will return if i beyonds the array's size
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*/
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const char* get_result(size_t i, size_t* len = NULL) const;
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/**
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* 判断当前所绑定的 redis 连接流对象(redis_client) 连接是否已经关闭;
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* 只有内部的 conn_ 流对象非空时调用此函数才有意义;
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* to judge if the redis connection was be closed, only redis_client
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* object be set internal
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* @return {bool}
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*/
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bool eof() const;
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/**
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* 获得本次 redis 操作过程的结果;
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* get result object of last redis operation
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* @return {redis_result*}
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*/
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const redis_result* get_result() const;
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/**
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* 当查询结果为数组对象时调用本方法获得一个数组元素对象;
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* get one result ojbect of array if result type is REDIS_RESULT_ARRAY
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* @param i {size_t} 数组对象的下标值;
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* the result array's index
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* @return {const redis_result*} 当结果非数组对象或结果为空或出错时
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* 该方法返回 NULL;
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* NULL will be resturned when result is not REDIS_RESULT_ARRAY or
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* array empty or error
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*/
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const redis_result* result_child(size_t i) const;
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/**
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* 当从 redis-server 获得的数据是一组字符串类型的结果集时,可以调用
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* 本函数获得某个指定下标位置的数据;
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* when the reply from redis-serveer are strings array, this
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* function can be used to get the string specified by a subscript
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* @param i {size_t} 下标(从 0 开始)
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* the subscript of strings array
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* @param len {size_t*} 若该指针非空,则存储所返回结果的长度(仅当该
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* 方法返回非空指针时有效)
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* if len not a NULL pointer, it will store the length of string
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* specified by the subscript
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* @return {const char*} 返回对应下标的值,当返回 NULL 时表示该下标没
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* 有值,为了保证使用上的安全性,返回的数据总能保证最后是以 \0 结尾,
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* 在计算数据长度时不包含该结尾符,但为了兼容二进制情形,调用者还是
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* 应该通过返回的 len 存放的长度值来获得数据的真实长度
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* the string will be returned associate with the subscript, if there
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* are nothing with the subscript, NULL will be returned
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*/
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const char* result_value(size_t i, size_t* len = NULL) const;
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/////////////////////////////////////////////////////////////////////
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/**
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* 设置是否对请求数据进行分片处理,如果为 true 则内部在组装请求协议的时候不会
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* 将所有数据块重新组装成一个连续的大数据块
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* just for request package, setting flag for sending data with
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* multi data chunks; this is useful when the request data is large
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* @param on {bool} 内部默认值为 false
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* if true the request data will not be combined one package,
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* internal default is false
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*/
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void set_slice_request(bool on);
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/**
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* 设置是否对响应数据进行分片处理,如果为 true 则当服务器的返回数据比较大时则
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* 将数据进行分片,分成一些不连续的数据块
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* just for response package, settint flag for receiving data
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* if split the large response data into multi little chunks
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* @param on {bool} 内部默认值为 false
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* if true the response data will be splitted into multi little
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* data, which is useful for large reponse data for avoiding
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* malloc large continuously memory from system.
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* internal default is false
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*/
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void set_slice_respond(bool on);
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public:
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/**
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* 直接组合 redis 协议命令方式,从 redis 服务器获得结果
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* @param argc {size_t} 后面数组中数组元素个数
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* @param argv {const char*[]} redis 命令组成的数组
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* @param lens {size_t[]} argv 中数组元素的长度
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* @param nchild {size_t} 有的 redis 命令需要获取多个结果集,如:subop
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* @return {const redis_result*} 返回的结果集
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*/
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const redis_result* request(size_t argc, const char* argv[],
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size_t lens[], size_t nchild = 0);
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/**
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* 直接组合 redis 协议命令方式,从 redis 服务器获得结果
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* @param args {const std::vector<string>&} redis 命令组成的数组
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* @param nchild {size_t} 有的 redis 命令需要获取多个结果集,如:subop
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* @return {const redis_result*} 返回的结果集
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*/
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const redis_result* request(const std::vector<string>& args,
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size_t nchind = 0);
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const string* request_buf(void) const
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{
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return request_buf_;
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}
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protected:
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const redis_result* run(size_t nchild = 0, int* timeout = NULL);
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const redis_result* run(redis_client_cluster* cluster,
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size_t nchild, int* timeout = NULL);
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void build_request(size_t argc, const char* argv[], size_t lens[]);
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void clear_request();
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const redis_result** scan_keys(const char* cmd, const char* key,
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int& cursor, size_t& size, const char* pattern,
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const size_t* count);
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/*******************************************************************/
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void build(const char* cmd, const char* key,
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const std::map<string, string>& attrs);
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void build(const char* cmd, const char* key,
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const std::map<string, const char*>& attrs);
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void build(const char* cmd, const char* key,
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const std::vector<string>& names,
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const std::vector<string>& values);
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void build(const char* cmd, const char* key,
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const std::vector<const char*>& names,
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const std::vector<const char*>& values);
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void build(const char* cmd, const char* key,
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const char* names[], const char* values[], size_t argc);
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void build(const char* cmd, const char* key,
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const int names[], const char* values[], size_t argc);
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void build(const char* cmd, const char* key,
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const char* names[], const size_t names_len[],
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const char* values[], const size_t values_len[], size_t argc);
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/*******************************************************************/
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void build(const char* cmd, const char* key,
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const std::vector<string>& names);
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void build(const char* cmd, const char* key,
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const std::vector<const char*>& names);
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void build(const char* cmd, const char* key,
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const std::vector<int>& names);
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void build(const char* cmd, const char* key,
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const char* names[], size_t argc);
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void build(const char* cmd, const char* key,
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const char* names[], const size_t lens[], size_t argc);
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void build(const char* cmd, const char* key,
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const int names[], size_t argc);
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/*******************************************************************/
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protected:
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int get_number(bool* success = NULL);
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long long int get_number64(bool* success = NULL);
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int get_number(std::vector<int>& out);
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int get_number64(std::vector<long long int>& out);
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bool check_status(const char* success = "OK");
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int get_status(std::vector<bool>& out);
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const char* get_status();
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int get_string(string& buf);
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int get_string(string* buf);
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int get_string(char* buf, size_t size);
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int get_strings(std::vector<string>& result);
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int get_strings(std::vector<string>* result);
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int get_strings(std::list<string>& result);
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int get_strings(std::list<string>* result);
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int get_strings(std::map<string, string>& result);
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int get_strings(std::vector<string>& names,
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std::vector<string>& values);
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int get_strings(std::vector<const char*>& names,
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std::vector<const char*>& values);
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/************************** common *********************************/
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protected:
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dbuf_pool* dbuf_;
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// 根据键值计算哈希槽值
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void hash_slot(const char* key);
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void hash_slot(const char* key, size_t len);
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protected:
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bool check_addr_;
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char addr_[32];
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redis_client* conn_;
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redis_client_cluster* cluster_;
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size_t max_conns_;
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int slot_;
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int redirect_max_;
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int redirect_sleep_;
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redis_client* peek_conn(redis_client_cluster* cluster, int slot);
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redis_client* redirect(redis_client_cluster* cluster, const char* addr);
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const char* get_addr(const char* info);
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void set_client_addr(const char* addr);
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||
void set_client_addr(redis_client& conn);
|
||
|
||
protected:
|
||
/************************** request ********************************/
|
||
bool slice_req_;
|
||
string* request_buf_;
|
||
redis_request* request_obj_;
|
||
size_t argv_size_;
|
||
const char** argv_;
|
||
size_t* argv_lens_;
|
||
size_t argc_;
|
||
|
||
void argv_space(size_t n);
|
||
void build_request1(size_t argc, const char* argv[], size_t lens[]);
|
||
void build_request2(size_t argc, const char* argv[], size_t lens[]);
|
||
|
||
protected:
|
||
/************************** respond ********************************/
|
||
bool slice_res_;
|
||
const redis_result* result_;
|
||
|
||
void logger_result(const redis_result* result);
|
||
};
|
||
|
||
} // namespace acl
|
||
|
||
#endif // !defined(ACL_CLIENT_ONLY) && !defined(ACL_REDIS_DISABLE)
|