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executor.h
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executor.h
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#pragma once
#include "thdq.hpp"
#include "msgstruct.h"
#include <atomic>
#include <array>
#include <list>
#include <future>
class jpsock;
class minethd;
class telemetry;
class executor
{
public:
static executor* inst()
{
if (oInst == nullptr) oInst = new executor;
return oInst;
};
void ex_start() { my_thd = new std::thread(&executor::ex_main, this); }
void ex_main();
void get_http_report(ex_event_name ev_id, std::string& data);
inline void push_event(ex_event&& ev) { oEventQ.push(std::move(ev)); }
void push_timed_event(ex_event&& ev, size_t sec);
constexpr static size_t invalid_pool_id = 0;
constexpr static size_t dev_pool_id = 1;
constexpr static size_t usr_pool_id = 2;
private:
struct timed_event
{
ex_event event;
size_t ticks_left;
timed_event(ex_event&& ev, size_t ticks) : event(std::move(ev)), ticks_left(ticks) {}
};
// In miliseconds, has to divide a second (1000ms) into an integer number
constexpr static size_t iTickTime = 500;
// Dev donation time period in seconds. 100 minutes by default.
// We will divide up this period according to the config setting
constexpr static size_t iDevDonatePeriod = 100 * 60;
std::list<timed_event> lTimedEvents;
std::mutex timed_event_mutex;
thdq<ex_event> oEventQ;
telemetry* telem;
std::vector<minethd*>* pvThreads;
std::thread* my_thd;
size_t current_pool_id;
jpsock* usr_pool;
jpsock* dev_pool;
jpsock* pick_pool_by_id(size_t pool_id);
bool is_dev_time;
executor();
static executor* oInst;
void ex_clock_thd();
void pool_connect(jpsock* pool);
void hashrate_report(std::string& out);
void result_report(std::string& out);
void connection_report(std::string& out);
void http_hashrate_report(std::string& out);
void http_result_report(std::string& out);
void http_connection_report(std::string& out);
void http_report(ex_event_name ev);
void print_report(ex_event_name ev);
std::string* pHttpString = nullptr;
std::promise<void> httpReady;
std::mutex httpMutex;
size_t iReconnectAttempts = 0;
struct sck_error_log
{
std::chrono::system_clock::time_point time;
std::string msg;
sck_error_log(std::string&& err) : msg(std::move(err))
{
time = std::chrono::system_clock::now();
}
};
std::vector<sck_error_log> vSocketLog;
// Element zero is always the success element.
// Keep in mind that this is a tally and not a log like above
struct result_tally
{
std::chrono::system_clock::time_point time;
std::string msg;
size_t count;
result_tally() : msg("[OK]"), count(0)
{
time = std::chrono::system_clock::now();
}
result_tally(std::string&& err) : msg(std::move(err)), count(1)
{
time = std::chrono::system_clock::now();
}
void increment()
{
count++;
time = std::chrono::system_clock::now();
}
bool compare(std::string& err)
{
if(msg == err)
{
increment();
return true;
}
else
return false;
}
};
std::vector<result_tally> vMineResults;
//More result statistics
std::array<size_t, 10> iTopDiff { { } }; //Initialize to zero
std::chrono::system_clock::time_point tPoolConnTime;
size_t iPoolHashes = 0;
uint64_t iPoolDiff = 0;
// Set it to 16 bit so that we can just let it grow
// Maximum realistic growth rate - 5MB / month
std::vector<uint16_t> iPoolCallTimes;
//Those stats are reset if we disconnect
inline void reset_stats()
{
iPoolCallTimes.clear();
tPoolConnTime = std::chrono::system_clock::now();
iPoolHashes = 0;
iPoolDiff = 0;
}
double fHighestHps = 0.0;
void log_socket_error(std::string&& sError);
void log_result_error(std::string&& sError);
void log_result_ok(uint64_t iActualDiff);
void sched_reconnect();
void on_sock_ready(size_t pool_id);
void on_sock_error(size_t pool_id, std::string&& sError);
void on_pool_have_job(size_t pool_id, pool_job& oPoolJob);
void on_miner_result(size_t pool_id, job_result& oResult);
void on_reconnect(size_t pool_id);
void on_switch_pool(size_t pool_id);
inline size_t sec_to_ticks(size_t sec) { return sec * (1000 / iTickTime); }
};