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qsrv.h
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qsrv.h
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/*
This file is a part of t18qsrv project (proxy-server plugin for QUIK terminal)
Copyright (C) 2019, Arech ([email protected]; https://github.com/Arech)
This program is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 3 of the License, or
(at your option) any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program. If not, see <https://www.gnu.org/licenses/>.
*/
#pragma once
//#WARNING!!! The following code was taken almost as is from official boost::asio documentation and
//it produces zombie objects! See elaborate problem description in Russian here https://habr.com/ru/post/471326/
#include <chrono>
#include <memory>
#include <deque>
//#include <forward_list>
#include <list>
#include <cstring>
#include <boost/asio/buffer.hpp>
#include <boost/asio/io_context.hpp>
#include <boost/asio/ip/tcp.hpp>
//#include <boost/asio/ip/udp.hpp>
//#include <boost/asio/read_until.hpp>
#include <boost/asio/read.hpp>
#include <boost/asio/steady_timer.hpp>
#include <boost/asio/write.hpp>
#include "..\t18/t18\proxy\protocol.h"
#if defined(_DEBUG) || defined(DEBUG)
#define DBGQMESSAGE(txt) m_handler.hndMessage((txt))
#else//defined(_DEBUG) || defined(DEBUG)
#ifdef T18_RELEASE_WITH_DEBUG
#define DBGQMESSAGE(txt) m_handler.hndMessage((txt))
#else//def T18_RELEASE_WITH_DEBUG
#define DBGQMESSAGE(a) ((void)(0))
#endif//def T18_RELEASE_WITH_DEBUG
#endif//defined(_DEBUG) || defined(DEBUG)
namespace t18 {
namespace proxy {
namespace asio = ::boost::asio;
using asio::ip::tcp;
//using asio::ip::udp;
using namespace ::std::string_literals;
namespace _impl_qsrv {
//valid until finalize is called
template<typename SessT>
class AllTrades_Sender : private asio::noncopyable {
SessT* pSess{nullptr};
char* pPacket{nullptr};
const ::std::uint16_t maxTradesPerPacket;
::std::uint16_t totTrades{ 0 };
public:
AllTrades_Sender(SessT& s, const size_t maxpp) : pSess(&s)
, maxTradesPerPacket(static_cast<decltype(maxTradesPerPacket)>(maxpp))
{
if (UNLIKELY(::std::numeric_limits<decltype(maxTradesPerPacket)>::max() <= maxpp || maxpp == 0)) {
throw ::std::runtime_error("Invalid count of trades/deals chosen!");
}
}
AllTrades_Sender(AllTrades_Sender&& o)noexcept : maxTradesPerPacket(o.maxTradesPerPacket) {
pSess = o.pSess;
o.pSess = nullptr;
pPacket = o.pPacket;
o.pPacket = nullptr;
totTrades = o.totTrades;
}
~AllTrades_Sender() {
exceptionCaught();
}
auto& getSession()noexcept { return *pSess; }
prxyTsDeal* newAllTrades() {
prxyTsDeal* r;
if (totTrades >= maxTradesPerPacket) pPacket = nullptr;
if (pPacket) {
r = reinterpret_cast<prxyTsDeal*>(pPacket + totTrades * prxyTsDeal_Size);
++totTrades;
} else {
pPacket = pSess->_alloc_packet_AllTrades(maxTradesPerPacket);
T18_ASSERT(pPacket);
totTrades = 1;
r = reinterpret_cast<prxyTsDeal*>(pPacket);
}
return r;
}
void exceptionCaught() {
if (pPacket) {
//either finalize was not called, or it's stack unwinding during exception handling
//but we can't findout what is it, so presumable it's stack unwinding
if (totTrades > 1) {
T18_ASSERT(pPacket);
--totTrades;
//sending as much as possible, just dropping current unfinished entry
finalize();
} else {
pSess->_dismiss_packet();
pPacket = nullptr;
}
}
}
void finalize() {
if (pPacket && totTrades<maxTradesPerPacket) {
T18_ASSERT(totTrades > 0);
pSess->_fix_packet_AllTrades(totTrades);
}
pPacket = nullptr;
}
};
}
template<typename HandlerT>
class qsrv_tcp_session : public ::std::enable_shared_from_this<qsrv_tcp_session<HandlerT>> {
typedef ::std::enable_shared_from_this<qsrv_tcp_session<HandlerT>> base_class_t;
using base_class_t::shared_from_this;
typedef qsrv_tcp_session<HandlerT> self_t;
protected:
//typedef ::std::vector<::std::uint8_t> data_packet_raw_t;
typedef ::std::vector<char> data_packet_raw_t;
public:
typedef typename HandlerT::SessionData SessionData_t;
typedef _impl_qsrv::AllTrades_Sender<self_t> AllTrades_Sender_t;
friend AllTrades_Sender_t;
public:
static constexpr long timeoutReadMs = HandlerT::timeoutReadMs;
static constexpr long timeoutWriteMs = HandlerT::timeoutWriteMs;
protected:
tcp::socket m_socket;
asio::steady_timer m_readDeadline{ m_socket.get_executor() };
asio::steady_timer m_writeDeadline{ m_socket.get_executor() };
Cli2Srv_PacketHdr m_cliHdr;
::std::deque<data_packet_raw_t> m_writeQueue;
data_packet_raw_t m_readBuf;
HandlerT& m_handler;
bool m_bWriteInProgress{ false };
bool m_bReadInProgress{ false };
SessionData_t m_SessionData;//just storage in session object. Used by external entities
public:
SessionData_t& getSessionData()noexcept { return m_SessionData; }
//////////////////////////////////////////////////////////////////////////
public:
~qsrv_tcp_session() {
m_SessionData._onDestroy(m_handler);
}
qsrv_tcp_session(HandlerT& h, tcp::socket&& socket) : m_socket(std::move(socket)), m_handler(h) {
m_readDeadline.expires_at(asio::steady_timer::time_point::max());
m_writeDeadline.expires_at(asio::steady_timer::time_point::max());
// The non_empty_output_queue_ asio::steady_timer is set to the maximum time
// point whenever the output queue is empty. This ensures that the output
// actor stays asleep until a message is put into the queue.
//m_non_empty_output_queue.expires_at(asio::steady_timer::time_point::max());
}
// Called by the server object to initiate the four actors.
void start() {
_read_request();
_check_deadline(m_readDeadline, "read");
//_await_output();
_check_deadline(m_writeDeadline, "write");
m_handler.hndMessage("session started!");
}
void stop(bool bSay = true) {
if (! stopped()) {
m_socket.shutdown(tcp::socket::shutdown_both);
::boost::system::error_code ignored_error;
m_socket.close(ignored_error);
if (ignored_error) {
//#todo there was some error during closing, #log it here
}
}
m_readDeadline.cancel();
m_writeDeadline.cancel();
if(bSay) m_handler.hndMessage("session stopped!");
}
bool stopped() const { return !m_socket.is_open(); }
void enqueue_packet(const ProtoSrv2Cli pid, const char*const str, const size_t slength, const Srv2Cli_PacketHdr_flags_t flags7b = 0) {
char* pData = _make_packet(pid, slength, flags7b);
T18_ASSERT(pData);
if (str) {
T18_ASSERT(!packetHaveOnlyHeader(pid));
::std::memcpy(pData, str, slength);
} else {
T18_ASSERT(packetHaveOnlyHeader(pid));
T18_ASSERT(slength == 0);
}
}
void enqueue_packet(const ProtoSrv2Cli pid, const ::std::string& str, const Srv2Cli_PacketHdr_flags_t flags7b = 0) {
enqueue_packet(pid, str.data(), str.length(), flags7b);
}
template<size_t N>
void enqueue_packet(const ProtoSrv2Cli pid, char (&str)[N], const Srv2Cli_PacketHdr_flags_t flags7b = 0) {
enqueue_packet(pid, str, N, flags7b);
}
void enqueue_packet(const ProtoSrv2Cli pid, const char*const str, const Srv2Cli_PacketHdr_flags_t flags7b = 0) {
//#sec The bad thing here is that we can't pre-set for sure the largest possible string length for strnlen_s().
// However, strlen() doesn't seems to be a security issue here, because by design this function either recieves
//a data directly from QUIK, which is expected to be secure and properly null-terminated (in the other
// case there's nothing to talk about), or it's properly derived from this data and properly null-terminated
// (in other case the problem is with wrong function to call - that's a weak argument, but let it be for now)
// or it's directly specified C-string.
//
enqueue_packet(pid, str, str ? ::std::strlen(str) : 0, flags7b);
}
AllTrades_Sender_t make_AllTrades_sender(const size_t maxTradesPerPacket) {
return AllTrades_Sender_t(*this, maxTradesPerPacket);
}
char* _make_packet(const ProtoSrv2Cli pid, const size_t payloadLen, const Srv2Cli_PacketHdr_flags_t flags7b = 0) {
//same as _alloc, just syntactic wrap, because _alloc assumes subsequent _fix, that updates the length of data
return _alloc_packet(pid, payloadLen, flags7b);
}
void write_responce() {
//MUST do this check because communicating party may induce new write requests while some older
//requests are in process
if (m_writeQueue.empty() || m_bWriteInProgress) return;
m_bWriteInProgress = true;
// Set a deadline for the write operation.
m_writeDeadline.expires_after(::std::chrono::milliseconds(timeoutWriteMs));
// Start an asynchronous operation to send a message.
auto self(shared_from_this());
//IMPORTANT: NO other write operations MUST be issued before completion handler fires
//that is why we need the write queue
asio::async_write(m_socket, asio::buffer(m_writeQueue.front()),
[this, self](const ::boost::system::error_code& error, ::std::size_t /*n*/)
{
// Check if the session was stopped while the operation was pending.
if (UNLIKELY(stopped())) return;
m_bWriteInProgress = false;
if (UNLIKELY(error)) {
//#log
m_handler.hndMessage(::std::string("write failed, reason: ") + error.message());
stop(false);
} else {
m_writeQueue.pop_front();
if (m_writeQueue.empty()) {
//no more data to send. Resetting deadline
m_writeDeadline.expires_at(asio::steady_timer::time_point::max());
//and going asleep until new item will be added to the queue
//_asleep_till_output();
} else {
//sending next message
write_responce();
}
}
});
}
protected:
//WARNING! alloc/fix/dismiss_packet MUST be used from the very same thread, that runs io_context and
//the whole alloc/fix/dismiss_packet cycle MUST ends within a single io_context job context.
// Also NO additional allocs permitted before either fix or dismiss is called, or the prev packet will be finalized
char* _alloc_packet(const ProtoSrv2Cli pid, const size_t payloadLen, const Srv2Cli_PacketHdr_flags_t flags7b = 0) {
T18_ASSERT(flags7b < 0x80);
T18_ASSERT(maxPossible_Cli2Srv_Packet_Payload_Len >= payloadLen);
const size_t TotalLen = Srv2Cli_PacketHdr_Size + payloadLen;
m_writeQueue.emplace_back(TotalLen);
auto& s = m_writeQueue.back();
T18_ASSERT(s.size() >= TotalLen);
Srv2Cli_PacketHdr* pHdr = reinterpret_cast<Srv2Cli_PacketHdr*>(s.data());
pHdr->wTotalPacketLen = static_cast<decltype(Srv2Cli_PacketHdr().wTotalPacketLen)>(TotalLen);
pHdr->bPacketType = static_cast<decltype(pHdr->bPacketType)>(pid);
pHdr->bFlags = flags7b | (m_handler.hndIsQuikConnected()
? static_cast<Srv2Cli_PacketHdr_flags_t>(0x80)
: static_cast<Srv2Cli_PacketHdr_flags_t>(0));
return s.data() + Srv2Cli_PacketHdr_Size;
}
//fix may be skipped if realPayloadLen==payloadLen passed to _alloc_packet
void _fix_packet(const size_t realPayloadLen) {
T18_ASSERT(realPayloadLen > 0 || !"Dont fix empty packets, dismiss them!");
T18_ASSERT(maxPossible_Cli2Srv_Packet_Payload_Len >= realPayloadLen);
const size_t TotalLen = Srv2Cli_PacketHdr_Size + realPayloadLen;
if (UNLIKELY(m_writeQueue.size() == 0)) throw ::std::runtime_error("_fix_packet - Invalid queue state");
auto& s = m_writeQueue.back();
if (UNLIKELY(s.size() < TotalLen)) throw ::std::runtime_error("_fix_packet - invalid cur packet");
s.resize(TotalLen);
Srv2Cli_PacketHdr* pHdr = reinterpret_cast<Srv2Cli_PacketHdr*>(s.data());
pHdr->wTotalPacketLen = static_cast<decltype(Srv2Cli_PacketHdr().wTotalPacketLen)>(TotalLen);
}
void _dismiss_packet() {
if (UNLIKELY(m_writeQueue.size() == 0)) throw ::std::runtime_error("_dismiss_packet - Invalid queue state");
m_writeQueue.pop_back();
}
char* _alloc_packet_AllTrades(const size_t maxTradesInPacket) {
return _alloc_packet(ProtoSrv2Cli::AllTrades, maxTradesInPacket*prxyTsDeal_Size);
}
void _fix_packet_AllTrades(const size_t tradesInPacket) {
return _fix_packet(tradesInPacket*prxyTsDeal_Size);
}
protected:
decltype(auto) _read_hdr_buffer()noexcept {
return asio::buffer(&m_cliHdr, Cli2Srv_PacketHdr_Size);
}
void _check_deadline(asio::steady_timer& deadline, const char*const dname) {
auto self(shared_from_this());
deadline.async_wait([this, self, &deadline, dname](const ::boost::system::error_code& /*error*/) {
// Check if the session was stopped while the operation was pending.
if (UNLIKELY(stopped())) return;
// Check whether the deadline has passed. We compare the deadline
// against the current time since a new asynchronous operation may
// have moved the deadline before this actor had a chance to run.
if (UNLIKELY(deadline.expiry() <= asio::steady_timer::clock_type::now())) {
// The deadline has passed. Stop the session. The other actors will
// terminate as soon as possible.
//#log
m_handler.hndMessage(::std::string(dname) + " deadline failed, stopping session");
stop(false);
} else {
// Put the actor back to sleep.
_check_deadline(deadline, dname);
}
});
}
void _enqueue_heartbeat() {
// We received a heartbeat message from the client. If there's
// nothing else being sent or ready to be sent, send a heartbeat
// right back.
if (m_writeQueue.empty()) {
_make_packet(ProtoSrv2Cli::heartbeat, 0);
}
}
//////////////////////////////////////////////////////////////////////////
void _log_read_failed(const ::boost::system::error_code& error, const ::std::size_t n
, const ::std::size_t expected, const char* const nme)const
{
//#log
::std::string s;
s.reserve(256);
s += "read ";
s += nme;
s += " failed, reason: ";
if (error) {
s += error.message();
} else {
s += "incoherent read count (";
s += ::std::to_string(n); s += " instead of "; s += ::std::to_string(expected);
s += ")";
}
m_handler.hndMessage(s);
}
void _read_request() {
//no additional read operations could be induced by a communicating party, so just asserting it
T18_ASSERT(!m_bReadInProgress);
m_bReadInProgress = true;
// Set a deadline for the read operation.
m_readDeadline.expires_after(::std::chrono::milliseconds(timeoutReadMs));
auto self(shared_from_this());
//#TODO IMPORTANT: NO other read operation MUST be issued before completion handler fires
asio::async_read(m_socket, _read_hdr_buffer()
, [this, self](const ::boost::system::error_code& error, const ::std::size_t n)
{
// Check if the session was stopped while the operation was pending.
if (UNLIKELY(stopped())) return;
if (UNLIKELY(error || (n != Cli2Srv_PacketHdr_Size))) {
_log_read_failed(error, n, Cli2Srv_PacketHdr_Size, "hdr");
stop(false);
} else {
T18_ASSERT(m_cliHdr.wTotalPacketLen >= Cli2Srv_PacketHdr_Size);
const auto packetType = static_cast<ProtoCli2Srv>(m_cliHdr.bPacketType);
if (packetHaveOnlyHeader(packetType)) {
//ProtoCli2Srv::heartbeat == packetType) {
T18_ASSERT(m_cliHdr.wTotalPacketLen == Cli2Srv_PacketHdr_Size || !"Invalid hdr only packet size!");
m_bReadInProgress = false;
m_readDeadline.expires_at(asio::steady_timer::time_point::max());
_process_header_only_packet(packetType);
//repeat wait for incoming data
_read_request();
} else {
// we must read the packet entirely and parse it
m_readDeadline.expires_after(::std::chrono::milliseconds(timeoutReadMs));
const auto expectedLen = (static_cast<::std::size_t>(m_cliHdr.wTotalPacketLen) - Cli2Srv_PacketHdr_Size);
m_readBuf.clear();
m_readBuf.reserve(expectedLen + 1);//we may need +1 to parse strings
asio::async_read(m_socket, asio::dynamic_buffer(m_readBuf, expectedLen)
, [this, self, expectedLen, packetType]
(const ::boost::system::error_code& error2, const ::std::size_t payloadLen)
{
// Check if the session was stopped while the operation was pending.
if (UNLIKELY(stopped())) return;
if (UNLIKELY(error2 || (payloadLen != expectedLen))) {
_log_read_failed(error2, payloadLen, expectedLen, ("body("s
+ ::std::to_string(static_cast<int>(packetType)) + ")").c_str());
stop(false);
} else {
//#todo msg processing
m_bReadInProgress = false;
//stopping the deadline timer to prevent false positive during possibly long
//processing of the packet
m_readDeadline.expires_at(asio::steady_timer::time_point::max());
_process_packet(packetType, payloadLen);
//repeat wait for incoming data
_read_request();
}
});
}
}
});
}
void _process_header_only_packet(const ProtoCli2Srv packetType) {
T18_ASSERT(packetHaveOnlyHeader(packetType));//leave here to ensure coherent handling
switch (packetType) {
case ProtoCli2Srv::heartbeat:
_enqueue_heartbeat();
break;
case ProtoCli2Srv::getClassesList:
m_handler.hndGetClassesList(*this);
break;
case ProtoCli2Srv::listAllTickers:
m_handler.hndListAllTickers(*this);
break;
//////////////////////////////////////////////////////////////////////////
//enumerate all non-header only packets here to make compiler happy
case ProtoCli2Srv::subscribeAllTrades:
case ProtoCli2Srv::queryTickerInfo:
T18_ASSERT(!"Mustn't be here!");
break;
}
if (!m_writeQueue.empty()) write_responce();
}
//////////////////////////////////////////////////////////////////////////
//packet processing MUST NOT issue any read commands. Write commands is OK
void _process_packet(const ProtoCli2Srv packetType, const size_t payloadLen) {
T18_ASSERT(!packetHaveOnlyHeader(packetType));//leave here to ensure coherent handling
switch (packetType) {
case ProtoCli2Srv::subscribeAllTrades:
_do_subscribeAllTrades(payloadLen);
break;
case ProtoCli2Srv::queryTickerInfo:
_do_queryTickerInfo(payloadLen);
break;
/*case ProtoCli2Srv::cancelAllTrades:
_do_cancelAllTrades();
break;*/
//enumerate all header only packets here to make compiler happy
case ProtoCli2Srv::heartbeat:
case ProtoCli2Srv::getClassesList:
case ProtoCli2Srv::listAllTickers:
T18_ASSERT(!"Mustn't be here!");
break;
}
if (!m_writeQueue.empty()) write_responce();
}
void _do_queryTickerInfo(const size_t payloadLen) {
//the packet contents is a string, so putting terminating null char at the end
m_readBuf.emplace_back(0);
char* pReq = static_cast<char*>(m_readBuf.data());
if (UNLIKELY(::strnlen_s(pReq, maxPossible_Cli2Srv_Packet_Payload_Len) != payloadLen
|| m_readBuf.size() != payloadLen + 1))
{
//#log
DBGQMESSAGE("_do_queryTickerInfo: unexpected length");
} else {
// For example: "TQBR(SBER,GAZP)" requests GAZP and SBER tickers info
do {
const char*const pClassCode = pReq;
auto pTicker = ::std::strchr(pReq, '(');
if (UNLIKELY(!pTicker)) {
DBGQMESSAGE("_do_queryTickerInfo: failed to find end of class code (");
return;
}
*pTicker++ = 0;
bool bNextIsATicker;
do {
pReq = ::std::strpbrk(pTicker, ",)");
if (UNLIKELY(!pReq)) {
DBGQMESSAGE("_do_queryTickerInfo: failed to find end of time field");
return;
}
bNextIsATicker = *pReq == ',';
*pReq++ = 0;
m_handler.hndQueryTickerInfo(*this, pClassCode, pTicker);
pTicker = pReq;
} while (bNextIsATicker);
} while (*pReq != 0);
}
}
void _do_subscribeAllTrades(const size_t payloadLen) {
//the packet contents is a string, so putting terminating null char at the end
m_readBuf.emplace_back(0);
//therefore now strlen(m_readBuf.data()) can't be longer, than payloadLen
char* pReq = static_cast<char*>(m_readBuf.data());
const auto realPayloadLen = ::strnlen_s(pReq, maxPossible_Cli2Srv_Packet_Payload_Len);
if (UNLIKELY(realPayloadLen != payloadLen || m_readBuf.size() != payloadLen + 1)) {
//#log
DBGQMESSAGE("_do_subscribeAllTrades: unexpected length of request='"s + pReq + "'("
+ ::std::to_string(realPayloadLen) + ") while packet len=" + ::std::to_string(payloadLen)
+ " and buf size=" + ::std::to_string(m_readBuf.size()));
} else {
auto curDay = m_handler.hndGetTradeDate();
// For example: "TQBR(SBER|,GAZP|100511.324123)" requests GAZP ticker since 10:05:11.324123 and all deals
// for SBER since session start.
// #BUGBUG eerrm... looks like the code is slightly more restrictive and always requires a timestamp to be specified.
// not a big deal now, just to draw attention
//searching for (
do {
const char*const pClassCode = pReq;
auto pTicker = ::std::strchr(pReq, '(');
if (UNLIKELY(!pTicker)) {
DBGQMESSAGE("_do_subscribeAllTrades: failed to find end of class code (");
return;
}
*pTicker++ = 0;
bool bNextIsATicker;
do {
auto pTime = ::std::strchr(pTicker, '|');
if (UNLIKELY(!pTime)) {
DBGQMESSAGE("_do_subscribeAllTrades: failed to find end of ticker name");
return;
}
*pTime++ = 0;
pReq = ::std::strpbrk(pTime, ",)");
if (UNLIKELY(!pReq)) {
DBGQMESSAGE("_do_subscribeAllTrades: failed to find end of time field");
return;
}
bNextIsATicker = *pReq == ',';
*pReq++ = 0;
auto thisTime = curDay;
//if (UNLIKELY(!thisTime.sscanf_time(pTime))) {
if (UNLIKELY(!thisTime.sscanf_full(pTime))) {
DBGQMESSAGE("_do_subscribeAllTrades: failed to parse time");
return;
}
m_handler.hndSubscribeAllTrades(*this, pClassCode, pTicker, thisTime);
pTicker = pReq;
} while (bNextIsATicker);
} while (*pReq != 0);
}
}
void _do_cancelAllTrades() {
//#todo
T18_ASSERT(!"_do_cancelAllTrades not implemented yet");
}
};
//----------------------------------------------------------------------
template<typename HandlerT>
class qsrv_tcp_server : public ::std::enable_shared_from_this<qsrv_tcp_server<HandlerT>> {
typedef ::std::enable_shared_from_this<qsrv_tcp_server<HandlerT>> base_class_t;
using base_class_t::shared_from_this;
public:
typedef qsrv_tcp_session<HandlerT> session_t;
static constexpr long timeoutPruneSessionsMs = HandlerT::timeoutPruneSessionsMs;
typedef typename session_t::AllTrades_Sender_t AllTrades_Sender_t;
protected:
typedef ::std::weak_ptr<session_t> session_ptr_t;
protected:
asio::io_context& m_io_context;
tcp::acceptor m_acceptor;
//::std::forward_list<session_ptr_t> m_sessions;
::std::list<session_ptr_t> m_sessions;
asio::steady_timer m_pruner{ m_io_context };
HandlerT& m_Handler;
public:
qsrv_tcp_server(HandlerT& h, asio::io_context& io_context, const tcp::endpoint& listen_endpoint/*,
const udp::endpoint& broadcast_endpoint*/)
: m_io_context(io_context), m_acceptor(io_context, listen_endpoint), m_Handler(h)
{
/*channel_.join(std::make_shared<udp_broadcaster>(m_io_context, broadcast_endpoint));*/
m_pruner.expires_at(asio::steady_timer::time_point::max());
}
//MUST be called after object creation
void start() {
_accept();
m_pruner.expires_after(::std::chrono::milliseconds(timeoutPruneSessionsMs));
_check_prune();
}
void pruneObsolette() {
m_sessions.remove_if([](const auto& weakPtr) {
return weakPtr.expired();
});
}
void stop() {
if (!stopped()) {
::boost::system::error_code ec;
m_acceptor.close(ec);
if (ec) {
//#log An error occurred.
}
}
m_pruner.cancel();
m_sessions.remove_if([](auto& weakPtr) {
if (auto ptr = weakPtr.lock()) {
ptr->stop();
}
return true;
});
}
bool stopped()const { return !m_acceptor.is_open(); }
template<typename F>
void for_each_session(F&& f) {
for (auto& weakPtr : m_sessions) {
if (auto ptr = weakPtr.lock()) {
::std::forward<F>(f)(*ptr.get());
}
}
}
size_t sessionCount()const noexcept { return m_sessions.size(); }
protected:
void _accept() {
auto self(shared_from_this());
m_acceptor.async_accept([this, self](const ::boost::system::error_code& error, tcp::socket&& socket){
if (UNLIKELY(stopped())) return;
pruneObsolette();
if (UNLIKELY(error)) {
//#log
}else{
auto pShrd = ::std::make_shared<session_t>(m_Handler, ::std::move(socket));
pShrd->start();
session_ptr_t weakPtr = pShrd;
m_sessions.push_front(::std::move(weakPtr));
}
_accept();
});
}
void _check_prune() {
auto self(shared_from_this());
m_pruner.async_wait([this, self](const ::boost::system::error_code& /*error*/) {
// Check if the acceptor was stopped while the operation was pending.
if (UNLIKELY(stopped())) return;
// Check whether the deadline has passed. We compare the deadline
// against the current time since a new asynchronous operation may
// have moved the deadline before this actor had a chance to run.
if (m_pruner.expiry() <= asio::steady_timer::clock_type::now()) {
//pruning obsolette sessions
pruneObsolette();
m_pruner.expires_after(::std::chrono::milliseconds(timeoutPruneSessionsMs));
}
// Put the actor back to sleep.
_check_prune();
});
}
};
//----------------------------------------------------------------------
// QSrv class defines a network server that accepts clients connections/orders and responds to them.
template<typename HandlerT>
class QSrv {
public:
typedef qsrv_tcp_server<HandlerT> server_t;
struct tcpV4_tag {};
struct tcpV6_tag {};
typedef typename server_t::AllTrades_Sender_t AllTrades_Sender_t;
protected:
asio::io_context m_io_context;
tcp::endpoint m_listen_endpoint;
::std::shared_ptr<server_t> m_srv;//MUST be created as shared_ptr, else it won't work
//this will make it possible to destory QSrv object during server_t object stopping process
protected:
template<typename EpT>
QSrv(HandlerT& hndlr, ::std::uint16_t tcpPort, EpT&& ep) : m_listen_endpoint(::std::move(ep), tcpPort)
, m_srv{ ::std::make_shared<server_t>(hndlr, m_io_context, m_listen_endpoint) }
{
/*udp::endpoint broadcast_endpoint(
boost::asio::ip::make_address(argv[2]), atoi(argv[3]));*/
m_srv->start();
}
public:
~QSrv() { stop(); }
QSrv(HandlerT& hndlr, ::std::uint16_t tcpV4Port) : QSrv(hndlr, tcpV4Port, tcp::v4()) {}
QSrv(HandlerT& hndlr, ::std::uint16_t tcpV4Port, const tcpV4_tag&) : QSrv(hndlr, tcpV4Port, tcp::v4()){}
QSrv(HandlerT& hndlr, ::std::uint16_t tcpV6Port, const tcpV6_tag&) : QSrv(hndlr, tcpV4Port, tcp::v6()){}
template<typename Rep, typename Period>
::std::size_t run_for(const ::std::chrono::duration< Rep, Period > & rel_time){
return m_io_context.run_for(rel_time);
}
bool stopped()const { return m_io_context.stopped(); }
void stop() {
if (!stopped()) {
m_io_context.stop();
}
m_srv->stop();
}
template<typename F>
void for_each_session(F&& f) {
m_srv->for_each_session(::std::forward<F>(f));
}
size_t sessionCount()const noexcept { return m_srv->sessionCount(); }
};
//----------------------------------------------------------------------
/*class udp_broadcaster
: public subscriber
{
public:
udp_broadcaster(boost::asio::io_context& io_context,
const udp::endpoint& broadcast_endpoint)
: socket_(io_context)
{
socket_.connect(broadcast_endpoint);
socket_.set_option(udp::socket::broadcast(true));
}
private:
void deliver(const std::string& msg)
{
boost::system::error_code ignored_error;
socket_.send(boost::asio::buffer(msg), 0, ignored_error);
}
udp::socket socket_;
};*/
/*
*https://stackoverflow.com/questions/20188718/configuring-tcp-keep-alive-with-boostasio
* it is possible to set timeout value for the socket itself
unsigned int timeout_milli = 10000;
// platform-specific switch
#if defined _WIN32 || defined WIN32 || defined OS_WIN64 || defined _WIN64 || defined WIN64 || defined WINNT
// use windows-specific time
int32_t timeout = timeout_milli;
setsockopt(tcpsocket->native_handle(), SOL_SOCKET, SO_RCVTIMEO, (const char*)&timeout, sizeof(timeout));
setsockopt(tcpsocket->native_handle(), SOL_SOCKET, SO_SNDTIMEO, (const char*)&timeout, sizeof(timeout));
#else
// assume everything else is posix
struct timeval tv;
tv.tv_sec = timeout_milli / 1000;
tv.tv_usec = (timeout_milli % 1000) * 1000;
setsockopt(tcpsocket->native_handle(), SOL_SOCKET, SO_RCVTIMEO, &tv, sizeof(tv));
setsockopt(tcpsocket->native_handle(), SOL_SOCKET, SO_SNDTIMEO, &tv, sizeof(tv));
#endif
*
*see also https://docs.microsoft.com/en-us/windows/desktop/winsock/so-keepalive
*https://docs.microsoft.com/en-us/previous-versions/windows/desktop/legacy/dd877220(v=vs.85)
*http://read.pudn.com/downloads79/ebook/301417/Chapter09/SIO_KEEPALIVE_VALS/alive.c__.htm
*
struct tcp_keepalive alive;
// Set the keepalive values
//
alive.onoff = TRUE;
alive.keepalivetime = 7200000;
alive.keepaliveinterval = 6000;
if (WSAIoctl(s, SIO_KEEPALIVE_VALS, &alive, sizeof(alive),
NULL, 0, &dwBytesRet, NULL, NULL) == SOCKET_ERROR)
{
printf("WSAIotcl(SIO_KEEPALIVE_VALS) failed; %d\n",
WSAGetLastError());
return -1;
}
*
*
**/
}
}