redox.cpp
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/**
* Redis C++11 wrapper.
*/
#include <signal.h>
#include "redox.hpp"
using namespace std;
namespace redox {
void Redox::connected(const redisAsyncContext *ctx, int status) {
if (status != REDIS_OK) {
cerr << "[ERROR] Connecting to Redis: " << ctx->errstr << endl;
return;
}
// Disable hiredis automatically freeing reply objects
ctx->c.reader->fn->freeObject = [](void* reply) {};
Redox* rdx = (Redox*) ctx->data;
rdx->connected_lock.unlock();
cout << "[INFO] Connected to Redis." << endl;
}
void Redox::disconnected(const redisAsyncContext *ctx, int status) {
if (status != REDIS_OK) {
cerr << "[ERROR] Disconnecting from Redis: " << ctx->errstr << endl;
return;
}
// Re-enable hiredis automatically freeing reply objects
ctx->c.reader->fn->freeObject = freeReplyObject;
Redox* rdx = (Redox*) ctx->data;
rdx->connected_lock.unlock();
cout << "[INFO] Disconnected from Redis." << endl;
}
Redox::Redox(const string& host, const int port)
: host(host), port(port) {
// Required by libev
signal(SIGPIPE, SIG_IGN);
// Create a redisAsyncContext
ctx = redisAsyncConnect(host.c_str(), port);
if (ctx->err) {
printf("Error: %s\n", ctx->errstr);
return;
}
// Create a new event loop and attach it to hiredis
evloop = ev_loop_new(EVFLAG_AUTO);
redisLibevAttach(evloop, ctx);
// Set the callbacks to be invoked on server connection/disconnection
redisAsyncSetConnectCallback(ctx, Redox::connected);
redisAsyncSetDisconnectCallback(ctx, Redox::disconnected);
// Set back references to this Redox object (for use in callbacks)
ev_set_userdata(evloop, (void*)this);
ctx->data = (void*)this;
// Lock this mutex until the connected callback is invoked
connected_lock.lock();
}
Redox::~Redox() {
redisAsyncDisconnect(ctx);
stop();
if(event_loop_thread.joinable())
event_loop_thread.join();
ev_loop_destroy(evloop);
std::cout << "[INFO] Redox created " << commands_created
<< " Commands and freed " << commands_deleted << "." << std::endl;
}
void Redox::run_event_loop() {
// Events to connect to Redox
ev_run(evloop, EVRUN_NOWAIT);
// Block until connected to Redis
connected_lock.lock();
connected_lock.unlock();
// Set up asynchronous watcher which we signal every
// time we add a command
ev_async_init(&async_w, process_queued_commands);
ev_async_start(evloop, &async_w);
running = true;
running_waiter.notify_one();
// Run the event loop
while (!to_exit) {
ev_run(evloop, EVRUN_NOWAIT);
}
cout << "[INFO] Stop signal detected." << endl;
// Run a few more times to clear out canceled events
for(int i = 0; i < 100; i++) {
ev_run(evloop, EVRUN_NOWAIT);
}
if(commands_created != commands_deleted) {
cerr << "[ERROR] All commands were not freed! "
<< commands_deleted << "/" << commands_created << endl;
}
exited = true;
running = false;
// Let go for block_until_stopped method
exit_waiter.notify_one();
cout << "[INFO] Event thread exited." << endl;
}
void Redox::start() {
event_loop_thread = thread([this] { run_event_loop(); });
// Block until connected and running the event loop
unique_lock<mutex> ul(running_waiter_lock);
running_waiter.wait(ul, [this] { return running.load(); });
}
void Redox::stop_signal() {
to_exit = true;
}
void Redox::block() {
unique_lock<mutex> ul(exit_waiter_lock);
exit_waiter.wait(ul, [this] { return exited.load(); });
}
void Redox::stop() {
stop_signal();
block();
}
template<class ReplyT>
Command<ReplyT>* Redox::find_command(long id) {
lock_guard<mutex> lg(command_map_guard);
auto& command_map = get_command_map<ReplyT>();
auto it = command_map.find(id);
if(it == command_map.end()) return nullptr;
return it->second;
}
template<class ReplyT>
void Redox::command_callback(redisAsyncContext *ctx, void *r, void *privdata) {
Redox* rdx = (Redox*) ctx->data;
long id = (long)privdata;
redisReply* reply_obj = (redisReply*) r;
Command<ReplyT>* c = rdx->find_command<ReplyT>(id);
if(c == nullptr) {
// cout << "[WARNING] Couldn't find Command " << id << " in command_map (command_callback)." << endl;
freeReplyObject(reply_obj);
return;
}
c->reply_obj = reply_obj;
c->process_reply();
// Increment the Redox object command counter
rdx->cmd_count++;
}
/**
* Submit an asynchronous command to the Redox server. Return
* true if succeeded, false otherwise.
*/
template<class ReplyT>
bool Redox::submit_to_server(Command<ReplyT>* c) {
c->pending++;
if (redisAsyncCommand(c->rdx->ctx, command_callback<ReplyT>, (void*)c->id, c->cmd.c_str()) != REDIS_OK) {
cerr << "[ERROR] Could not send \"" << c->cmd << "\": " << c->rdx->ctx->errstr << endl;
c->invoke_error(REDOX_SEND_ERROR);
return false;
}
return true;
}
template<class ReplyT>
void Redox::submit_command_callback(struct ev_loop* loop, ev_timer* timer, int revents) {
Redox* rdx = (Redox*) ev_userdata(loop);
long id = (long)timer->data;
Command<ReplyT>* c = rdx->find_command<ReplyT>(id);
if(c == nullptr) {
cout << "[ERROR] Couldn't find Command " << id
<< " in command_map (submit_command_callback)." << endl;
return;
}
if(c->is_canceled()) {
// cout << "[INFO] Command " << c << " is completed, stopping event timer." << endl;
c->timer_guard.lock();
if((c->repeat != 0) || (c->after != 0))
ev_timer_stop(loop, &c->timer);
c->timer_guard.unlock();
// Mark for memory to be freed when all callbacks are received
c->timer.data = (void*)0;
return;
}
submit_to_server<ReplyT>(c);
}
template<class ReplyT>
bool Redox::process_queued_command(long id) {
Command<ReplyT>* c = find_command<ReplyT>(id);
if(c == nullptr) return false;
if((c->repeat == 0) && (c->after == 0)) {
submit_to_server<ReplyT>(c);
} else {
c->timer.data = (void*)c->id;
ev_timer_init(&c->timer, submit_command_callback<ReplyT>, c->after, c->repeat);
ev_timer_start(evloop, &c->timer);
c->timer_guard.unlock();
}
return true;
}
void Redox::process_queued_commands(struct ev_loop* loop, ev_async* async, int revents) {
Redox* rdx = (Redox*) ev_userdata(loop);
lock_guard<mutex> lg(rdx->queue_guard);
while(!rdx->command_queue.empty()) {
long id = rdx->command_queue.front();
rdx->command_queue.pop();
if(rdx->process_queued_command<redisReply*>(id)) {}
else if(rdx->process_queued_command<string>(id)) {}
else if(rdx->process_queued_command<char*>(id)) {}
else if(rdx->process_queued_command<int>(id)) {}
else if(rdx->process_queued_command<long long int>(id)) {}
else if(rdx->process_queued_command<nullptr_t>(id)) {}
else if(rdx->process_queued_command<vector<string>>(id)) {}
else throw runtime_error("[FATAL] Command pointer not found in any queue!");
}
}
// ----------------------------
template<> unordered_map<long, Command<redisReply*>*>&
Redox::get_command_map<redisReply*>() {
// cout << "redis reply command map at " << &commands_redis_reply << endl;
return commands_redis_reply; }
template<> unordered_map<long, Command<string>*>&
Redox::get_command_map<string>() {
// cout << "string command map at " << &commands_string_r << endl;
return commands_string_r; }
template<> unordered_map<long, Command<char*>*>&
Redox::get_command_map<char*>() {
// cout << "char* command map at " << &commands_char_p << endl;
return commands_char_p; }
template<> unordered_map<long, Command<int>*>&
Redox::get_command_map<int>() {
// cout << "int command map at " << &commands_int << " has size: " << commands_int.size() << endl;
return commands_int; }
template<> unordered_map<long, Command<long long int>*>&
Redox::get_command_map<long long int>() {
// cout << "long long int command map at " << &commands_long_long_int << endl;
return commands_long_long_int; }
template<> unordered_map<long, Command<nullptr_t>*>&
Redox::get_command_map<nullptr_t>() { return commands_null; }
template<> unordered_map<long, Command<vector<string>>*>&
Redox::get_command_map<vector<string>>() { return commands_vector_string; }
// ----------------------------
// Helpers
// ----------------------------
void Redox::command(const string& cmd) {
command<redisReply*>(cmd);
}
bool Redox::command_blocking(const string& cmd) {
Command<redisReply*>* c = command_blocking<redisReply*>(cmd);
bool succeeded = (c->status() == REDOX_OK);
c->free();
return succeeded;
}
string Redox::get(const string& key) {
auto c = command_blocking<char*>("GET " + key);
if(!c->ok()) {
throw runtime_error("[FATAL] Error getting key " + key + ": Status code " + to_string(c->status()));
}
string reply = c->reply();
c->free();
return reply;
};
bool Redox::set(const std::string& key, const std::string& value) {
return command_blocking("SET " + key + " " + value);
}
bool Redox::del(const std::string& key) {
return command_blocking("DEL " + key);
}
} // End namespace redis