acl/lib_acl_cpp/include/acl_cpp/redis/redis_stream.hpp

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#pragma once
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#include "../acl_cpp_define.hpp"
#include "../stdlib/string.hpp"
#include "redis_command.hpp"
#if !defined(ACL_CLIENT_ONLY) && !defined(ACL_REDIS_DISABLE)
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namespace acl
{
struct redis_stream_field
{
string name;
string value;
};
struct redis_stream_message
{
string id;
std::vector<redis_stream_field> fields;
};
struct redis_stream_messages
{
string key;
std::vector<redis_stream_message> messages;
bool empty(void) const
{
return messages.empty();
}
size_t size(void) const
{
return messages.size();
}
};
struct redis_xinfo_consumer
{
string name;
size_t pending;
size_t idle;
redis_xinfo_consumer(void)
{
pending = 0;
idle = 0;
}
};
struct redis_xinfo_group
{
string name;
string last_delivered_id;
size_t consumers;
size_t pending;
redis_xinfo_group(void)
{
consumers = 0;
pending = 0;
}
};
struct redis_stream_info
{
size_t length;
size_t radix_tree_keys;
size_t radix_tree_nodes;
size_t groups;
string last_generated_id;
redis_stream_message first_entry;
redis_stream_message last_entry;
redis_stream_info(void)
{
length = 0;
radix_tree_keys = 0;
radix_tree_nodes = 0;
groups = 0;
}
};
struct redis_pending_consumer
{
string name;
size_t pending_number;
redis_pending_consumer(void)
{
pending_number = 0;
}
};
struct redis_pending_summary
{
string smallest_id;
string greatest_id;
std::vector<redis_pending_consumer> consumers;
bool empty(void) const
{
return consumers.empty();
}
size_t size(void) const
{
return consumers.size();
}
};
struct redis_pending_message
{
string id;
string consumer;
unsigned long long elapsed;
size_t delivered;
redis_pending_message(void)
{
elapsed = 0;
delivered = 0;
}
};
struct redis_pending_detail
{
std::map<string, redis_pending_message> messages;
bool empty(void) const
{
return messages.empty();
}
size_t size(void) const
{
return messages.size();
}
};
class ACL_CPP_API redis_stream : virtual public redis_command
{
public:
redis_stream(void);
redis_stream(redis_client* conn);
redis_stream(redis_client_cluster* cluster);
redis_stream(redis_client_pipeline* pipeline);
ACL_CPP_DEPRECATED
redis_stream(redis_client_cluster* cluster, size_t max_conns);
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virtual ~redis_stream(void);
/////////////////////////////////////////////////////////////////////
/**
* appends the specified stream entry to the stream at the specified key
* @param key {const char*} the specified key of the stream
* @param fields {const std::map<string, string>&} holds all the entries
* to be appended to the stream, the map's key is the entry's name,
* and the value is the entry's value
* @param result {string&} will hold the message-id of the added entry
* @param id {const char*} a stream entry ID identifies a given entry
* inside a stream, default "*" mean that redis-server will choose
* one ID internal. When the user specified and explicit ID, the ID's
* format is look like 1526919030474-55 that includes two numbers
* separated by '-', the minimum valid ID is 0-1
* param maxlen {size_t} if > 0, limit the size of the stream
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* @return {bool} return true if entry was added successfully, or some
* error happened which the error reason can be acquied by calling
* result_error() of the base class redis_command.
*/
bool xadd(const char* key, const std::map<string, string>& fields,
string& result, const char* id = "*");
bool xadd(const char* key, const std::vector<string>& names,
const std::vector<string>& values,
string& result, const char* id = "*");
bool xadd(const char* key, const std::vector<const char*>& names,
const std::vector<const char*>& values, string& result,
const char* id = "*");
bool xadd(const char* key, const char* names[], const size_t names_len[],
const char* values[], const size_t values_len[], size_t argc,
string& result, const char* id = "*");
bool xadd_with_maxlen(const char* key, size_t maxlen,
const std::map<string, string>& fields, string& result,
const char* id = "*");
/**
* returns the number of entries inside a stream.
* @param key {const char*} the specified key of the stream
* @return {int} value >= 0 if the command was executed correctly, -1
* will returned if some error happened.
*/
int xlen(const char* key);
/**
* removes the specified entries from a stream, and returns the number
* of entries deleted, that may be different from the number of IDs
* passed to the command in case certain IDs do not exist.
* @param key {const char*} the specified key of the stream
* @param id {const char*} a stream entry ID look like 1526919030474-55
* @return {int} return the number of entries actually deleted, if some
* error happened -1 will be returned.
*/
int xdel(const char* key, const char* id);
/**
* removes some entries with the specified IDs, and returns the number
* of entries deleted.
* @param key {const char*}
* @param ids {const std::vector<string>&} holds the entries' IDs to
* be deleted
* @return {int}
*/
int xdel(const char* key, const std::vector<string>& ids);
int xdel(const char* key, const std::vector<const char*>& ids);
/**
* trims the stream to a given number of items, evicting older items
* (items with lower IDs) if needed.
* @param key {const char*}
* @param maxlen {size_t} specify the latest exactly items to be deleted
* @param tilde {bool} if true, the number of items to be deleted is
* not exactly equal the maxlen, the real number maybe more than the
* maxlen with a few tens, but never less than the maxlen
* @return return the number of entries deleted from the stream
*/
int xtrim(const char* key, size_t maxlen, bool tilde = false);
/////////////////////////////////////////////////////////////////////
/**
* read data from one or multiple streams, only returning entries with
* an ID greater than the last received ID reported by the caller.
* @param messages {redis_stream_messages&} will hold the read's items,
* redis_stream_messages defined above
* @param streams {const std::map<string, string>&} holds the specified
* streams' keys to be read by users
* @param count {size_t} specifies the max count of items to be read,
* no limit when 0 was set
* @param block {ssize_t} specifies the read timeout, block if 0 set,
* no-block if -1 set
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* @return {bool} return the status of executing the xread command
*/
bool xread(redis_stream_messages& messages,
const std::map<string, string>& streams,
size_t count = 1000, ssize_t block = 0);
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/**
* the XREADGROUP command is a special version of the XREAD command
* with support for consumer groups.
* @param messages {redis_stream_messages&}
* @param group {const char*} the consumer group
* @param consumer {const char*} the consumer belonging to the group
* @param streams {const std::map<string, string>&} holds the streams'
* keys and IDs for each streams, the map's key is the stream's key
* and the map's value is the stream's ID option, which can be one
* of the following two:
* 1. The special > ID, which means that the consumer want to receive
* only messages that were never delivered to any other consumer.
* It just means, give me new messages.
* 2. Any other ID, that is, 0 or any other valid ID or incomplete ID
* (just the millisecond time part), will have the effect of
* returning entries that are pending for the consumer sending the
* command. So basically if the ID is not >, then the command will
* just let the client access its pending entries: delivered to it,
* but not yet acknowledged.
* @param count {size_t}
* @param block {ssize_t} set the blocked timeout waiting for messages,
* if block is 0, will block until getting one message at least;
* if block is -1, don't block for messages.
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* @param noack {bool} The NOACK subcommand can be used to avoid adding
* the message to the PEL in cases where reliability is not a
* requirement and the occasional message loss is acceptable. This is
* equivalent to acknowledging the message when it is read.
* @return {bool} return the status of xreadgroup command
*/
bool xreadgroup(redis_stream_messages& messages, const char* group,
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const char* consumer, const std::map<string, string>& streams,
size_t count = 1000, ssize_t block = 0, bool noack = false);
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/**
* the XREADGROUP with NOACK subcommand for reading messages.
* @param messages {redis_stream_messages&}
* @param group {const char*}
* @param consumer {const char*}
* @param streams {const std::map<string, string>&}
* @param count {size_t}
* @param block {ssize_t}
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* @return {bool}
*/
bool xreadgroup_with_noack(redis_stream_messages& messages,
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const char* group, const char* consumer,
const std::map<string, string>& streams,
size_t count = 1000, ssize_t block = 0);
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/**
* The command returns the stream entries matching a given range of IDs.
* @param messages {redis_stream_messages&}
* @param key {const char*}
* @param start {const char*} the start ID of the query interval;
* '-' means starting from the minimum ID possible inside a stream
* @param end {const char*} the end ID of the query interval;
* '+' means the end of the maximum ID possible inside a stream
* @param count {size_t} reduce the number of entries reported
* @return {bool}
*/
bool xrange(redis_stream_messages& messages, const char* key,
const char* start = "-", const char* end = "+",
size_t count = 1000);
/**
* Return a range of elements in a stream, with IDs matching the
* specified IDs interval, in reverse order (from greater to smaller
* IDs) compared to XRANGE.
* @param messages {redis_stream_messages&}
* @param key {const char*}
* @param start {const char*} start with the higher ID
* @param end (const char*} end with the lower ID
* @param count {size_t}
* @return {bool}
*/
bool xrevrange(redis_stream_messages& messages, const char* key,
const char* start = "+", const char* end = "-",
size_t count = 1000);
/////////////////////////////////////////////////////////////////////
/**
* In the context of a stream consumer group, this command changes
* the ownership of a pending message, so that the new owner is
* the consumer specified as the command argument.
* @param messages {std::vector<redis_stream_message>&} holds the
* messages been XLAIMed
* @param key {const char*}
* @param group {const char*}
* @param consumer {const char*}
* @param min_idle_time {long}
* @param ids {const std::vector<string>&} the IDs to be XCLAIMed
* @param idle {size_t}
* @param time_ms {long long}
* @param retry_count {int}
* @param force {bool}
* @return {bool}
*/
bool xclaim(std::vector<redis_stream_message>& messages,
const char* key, const char* group, const char* consumer,
long min_idle_time, const std::vector<string>& ids,
size_t idle = 0, long long time_ms = -1,
int retry_count = -1, bool force = false);
/**
* XCLAIM with the JUSTID subcommand
*/
bool xclaim_with_justid(std::vector<string>& messages_ids,
const char* key, const char* group, const char* consumer,
long min_idle_time, const std::vector<string>& ids,
size_t idle = 0, long long time_ms = -1,
int retry_count = -1, bool force = false);
/////////////////////////////////////////////////////////////////////
/**
* Removes one message from the pending entries list (PEL) of
* a stream consumer group.
* @param key {const char*}
* @param group {const char*}
* @param id {const char*}
* @return {int} return integer >= 0 if ok, -1 if error
*/
int xack(const char* key, const char* group, const char* id);
/**
* Removes one or multiple message from the pending entries list (PEL)
* of a stream consumer group.
* @param key {const char*}
* @param group {const char*}
* @param ids {const std::vector<string>&}
* @return {int} return count of messages been acked, return -1 if error
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*/
int xack(const char* key, const char* group,
const std::vector<string>& ids);
int xack(const char* key, const char* group,
const std::vector<const char*>& ids);
int xack(const char* key, const char* group,
const std::list<string>& ids, size_t size);
int xack(const char* key, const char* group,
const std::list<const char*>& ids, size_t size);
/////////////////////////////////////////////////////////////////////
/**
* The XPENDING command with SUMMARY subcommand.
* @param key {const char*}
* @param group {const char*}
* @param result {redis_pending_summary&} defined above
* @return {bool}
*/
bool xpending_summary(const char* key, const char* group,
redis_pending_summary& result);
/**
* The XPENDING command with DETAIL subcommand.
* @param result {redis_pending_summary&} defined above
* @param key {const char*}
* @param group {const char*}
* @param start_id {const char*}
* @param end_id {const char*}
* @param count {size_t} limit the max count to be saved in result
* @param consumer {const char*}
* @return {bool}
*/
bool xpending_detail(redis_pending_detail& result,
const char* key, const char* group,
const char* start_id = "-", const char* end_id = "+",
size_t count = 1, const char* consumer = NULL);
/////////////////////////////////////////////////////////////////////
/**
* The XGROUP command with the subcommand HELP
* @param result {std::vector<string>&} will hold the result
* @return {bool}
*/
bool xgroup_help(std::vector<string>& result);
/**
* The XGROUP command with the subcommand CREATE
* @param key {const char*}
* @param group {const char*}
* @param id {const char*} the ID of the last item in the stream to
* consider already delivered, "$" means the ID of the last item
* in the stream
* @param mkstream {bool} when mkstream is true, the stream with the
* specified key will be created if the stream doesn't exist
* @return {bool}
*/
bool xgroup_create(const char* key, const char* group,
const char* id = "$", bool mkstream = true);
/**
* The XGROUP command with the subcommand DESTROY. With this command,
* the consumer group will be destroyed even if there are active
* consumers and pending messages, so make sure to call this command
* only when really needed.
* @param key {const char*}
* @param group {const char*}
* @return {int} return the number of pending messages for the
* specified group, return -1 if error
*/
int xgroup_destroy(const char* key, const char* group);
bool xgroup_setid(const char* key, const char* group,
const char* id = "$");
/**
* The XGROUP command with the subcommand DELCONSUMER. With this command,
* just remove a given consumer from a consumer group.
* @param key {const char*}
* @param group {const char*}
* @param consumer {const char*}
* @return {int} return the number of the pending messages for the
* specified consumer, return -1 if error
*/
int xgroup_delconsumer(const char* key, const char* group,
const char* consumer);
/////////////////////////////////////////////////////////////////////
/**
* The XINFO command with the subcommand HELP
* @param result {std::vector<string>&}
* @return {bool}
*/
bool xinfo_help(std::vector<string>& result);
/**
* The XINFO command with the subcommand CONSUMERS. With this command,
* every consumer in a specific consumer group can be got.
* @param key {const char*}
* @param group {const char*}
* @param result {std::map<string, redis_xinfo_consumer>&}
* @return {bool}
*/
bool xinfo_consumers(const char* key, const char* group,
std::map<string, redis_xinfo_consumer>& result);
/**
* The XINFO command with the subcommand GROUPS.
* @param key {const char*}
* @param result {std::map<string, redis_xinfo_group>&}
* @return {bool}
*/
bool xinfo_groups(const char* key,
std::map<string, redis_xinfo_group>& result);
/**
* The XINFO command with the subcommand STREAM. In this form the
* command returns general information about the stream stored
* at the specified key.
* @param key {const char*}
* @param result {redis_stream_info&} devined about
* @return {bool}
*/
bool xinfo_stream(const char* key, redis_stream_info& result);
/////////////////////////////////////////////////////////////////////
private:
void build(const char* cmd, const char* key, const char* id,
const std::map<string, string>& fields);
void build(const char* cmd, const char* key, const char* id,
const std::vector<string>& names,
const std::vector<string>& values);
void build(const char* cmd, const char* key, const char* id,
const std::vector<const char*>& names,
const std::vector<const char*>& values);
void build(const char* cmd, const char* key, const char* id,
const char* names[], const size_t names_len[],
const char* values[], const size_t values_len[], size_t argc);
void build(const std::map<string, string>& streams, size_t i,
size_t count, ssize_t block, bool noack = false);
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void xread_build(const std::map<string, string>& streams,
size_t count, ssize_t block);
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void xreadgroup_build(const char* group, const char* consumer,
const std::map<string, string>& streams,
size_t count, ssize_t block, bool noack);
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bool get_results(redis_stream_messages& messages);
bool get_messages(const redis_result& rr, redis_stream_messages& messages);
bool get_one_message(const redis_result& rr, redis_stream_message& message);
bool range(redis_stream_messages& messages, const char* cmd,
const char* key, const char* start, const char* end, size_t count);
bool get_one_consumer(const redis_result& rr, redis_xinfo_consumer& consumer);
bool get_one_group(const redis_result& rr, redis_xinfo_group& group);
bool get_pending_consumer(const redis_result& rr,
redis_pending_consumer& consumer);
bool get_pending_message(const redis_result& rr,
redis_pending_message& message);
void xclaim_build(const char* key, const char* group,
const char* consumer, long min_idle_time,
const std::vector<string>& ids, size_t idle, long long time_ms,
int retry_count, bool force, bool justid);
};
} // namespace acl
#endif // !defined(ACL_CLIENT_ONLY) && !defined(ACL_REDIS_DISABLE)