/* * This is the source code of tgnet library v. 1.1 * It is licensed under GNU GPL v. 2 or later. * You should have received a copy of the license in this archive (see LICENSE). * * Copyright Nikolai Kudashov, 2015-2018. */ #include #include #include #include #include #include #include #include #include "ByteStream.h" #include "ConnectionSocket.h" #include "FileLog.h" #include "Defines.h" #include "ConnectionsManager.h" #include "EventObject.h" #include "Timer.h" #include "NativeByteBuffer.h" #include "BuffersStorage.h" #ifndef EPOLLRDHUP #define EPOLLRDHUP 0x2000 #endif ConnectionSocket::ConnectionSocket(int32_t instance) { instanceNum = instance; outgoingByteStream = new ByteStream(); lastEventTime = ConnectionsManager::getInstance(instanceNum).getCurrentTimeMonotonicMillis(); eventObject = new EventObject(this, EventObjectTypeConnection); } ConnectionSocket::~ConnectionSocket() { if (outgoingByteStream != nullptr) { delete outgoingByteStream; outgoingByteStream = nullptr; } if (eventObject != nullptr) { delete eventObject; eventObject = nullptr; } } void ConnectionSocket::openConnection(std::string address, uint16_t port, bool ipv6, int32_t networkType) { currentNetworkType = networkType; isIpv6 = ipv6; currentAddress = address; currentPort = port; int epolFd = ConnectionsManager::getInstance(instanceNum).epolFd; ConnectionsManager::getInstance(instanceNum).attachConnection(this); memset(&socketAddress, 0, sizeof(sockaddr_in)); memset(&socketAddress6, 0, sizeof(sockaddr_in6)); std::string *proxyAddress = &overrideProxyAddress; std::string *proxySecret = &overrideProxySecret; uint16_t proxyPort = overrideProxyPort; if (proxyAddress->empty()) { proxyAddress = &ConnectionsManager::getInstance(instanceNum).proxyAddress; proxyPort = ConnectionsManager::getInstance(instanceNum).proxyPort; proxySecret = &ConnectionsManager::getInstance(instanceNum).proxySecret; } if (proxyAddress != nullptr && !proxyAddress->empty()) { if ((socketFd = socket(AF_INET, SOCK_STREAM, 0)) < 0) { if (LOGS_ENABLED) DEBUG_E("connection(%p) can't create proxy socket", this); closeSocket(1, -1); return; } if (proxySecret->empty()) { proxyAuthState = 1; } else { proxyAuthState = 0; } socketAddress.sin_family = AF_INET; socketAddress.sin_port = htons(proxyPort); bool continueCheckAddress; if (inet_pton(AF_INET, proxyAddress->c_str(), &socketAddress.sin_addr.s_addr) != 1) { continueCheckAddress = true; if (LOGS_ENABLED) DEBUG_D("connection(%p) not ipv4 address %s", this, proxyAddress->c_str()); } else { ipv6 = false; continueCheckAddress = false; } if (continueCheckAddress) { if (inet_pton(AF_INET6, proxyAddress->c_str(), &socketAddress6.sin6_addr.s6_addr) != 1) { continueCheckAddress = true; if (LOGS_ENABLED) DEBUG_D("connection(%p) not ipv6 address %s", this, proxyAddress->c_str()); } else { ipv6 = true; continueCheckAddress = false; } if (continueCheckAddress) { std::string host = ConnectionsManager::getInstance(instanceNum).delegate->getHostByName(*proxyAddress, instanceNum); if (host.empty() || inet_pton(AF_INET, host.c_str(), &socketAddress.sin_addr.s_addr) != 1) { continueCheckAddress = true; if (LOGS_ENABLED) DEBUG_E("connection(%p) can't resolve host %s address via delegate", this, proxyAddress->c_str()); } else { continueCheckAddress = false; if (LOGS_ENABLED) DEBUG_D("connection(%p) resolved host %s address %x via delegate", this, proxyAddress->c_str(), socketAddress.sin_addr.s_addr); } if (continueCheckAddress) { struct hostent *he; if ((he = gethostbyname(proxyAddress->c_str())) == nullptr) { if (LOGS_ENABLED) DEBUG_E("connection(%p) can't resolve host %s address", this, proxyAddress->c_str()); closeSocket(1, -1); return; } struct in_addr **addr_list = (struct in_addr **) he->h_addr_list; if (addr_list[0] != nullptr) { socketAddress.sin_addr.s_addr = addr_list[0]->s_addr; if (LOGS_ENABLED) DEBUG_D("connection(%p) resolved host %s address %x", this, proxyAddress->c_str(), addr_list[0]->s_addr); ipv6 = false; } else { if (LOGS_ENABLED) DEBUG_E("connection(%p) can't resolve host %s address", this, proxyAddress->c_str()); closeSocket(1, -1); return; } } } } } else { proxyAuthState = 0; if ((socketFd = socket(ipv6 ? AF_INET6 : AF_INET, SOCK_STREAM, 0)) < 0) { if (LOGS_ENABLED) DEBUG_E("connection(%p) can't create socket", this); closeSocket(1, -1); return; } if (ipv6) { socketAddress6.sin6_family = AF_INET6; socketAddress6.sin6_port = htons(port); if (inet_pton(AF_INET6, address.c_str(), &socketAddress6.sin6_addr.s6_addr) != 1) { if (LOGS_ENABLED) DEBUG_E("connection(%p) bad ipv6 %s", this, address.c_str()); closeSocket(1, -1); return; } } else { socketAddress.sin_family = AF_INET; socketAddress.sin_port = htons(port); if (inet_pton(AF_INET, address.c_str(), &socketAddress.sin_addr.s_addr) != 1) { if (LOGS_ENABLED) DEBUG_E("connection(%p) bad ipv4 %s", this, address.c_str()); closeSocket(1, -1); return; } } } int yes = 1; if (setsockopt(socketFd, IPPROTO_TCP, TCP_NODELAY, &yes, sizeof(int))) { if (LOGS_ENABLED) DEBUG_E("connection(%p) set TCP_NODELAY failed", this); } if (fcntl(socketFd, F_SETFL, O_NONBLOCK) == -1) { if (LOGS_ENABLED) DEBUG_E("connection(%p) set O_NONBLOCK failed", this); closeSocket(1, -1); return; } if (connect(socketFd, (ipv6 ? (sockaddr *) &socketAddress6 : (sockaddr *) &socketAddress), (socklen_t) (ipv6 ? sizeof(sockaddr_in6) : sizeof(sockaddr_in))) == -1 && errno != EINPROGRESS) { closeSocket(1, -1); } else { eventMask.events = EPOLLOUT | EPOLLIN | EPOLLRDHUP | EPOLLERR | EPOLLET; eventMask.data.ptr = eventObject; if (epoll_ctl(epolFd, EPOLL_CTL_ADD, socketFd, &eventMask) != 0) { if (LOGS_ENABLED) DEBUG_E("connection(%p) epoll_ctl, adding socket failed", this); closeSocket(1, -1); } } } int32_t ConnectionSocket::checkSocketError(int32_t *error) { if (socketFd < 0) { return true; } int ret; int code; socklen_t len = sizeof(int); ret = getsockopt(socketFd, SOL_SOCKET, SO_ERROR, &code, &len); if (ret != 0 || code != 0) { if (LOGS_ENABLED) DEBUG_E("socket error 0x%x code 0x%x", ret, code); } *error = code; return (ret || code) != 0; } void ConnectionSocket::closeSocket(int32_t reason, int32_t error) { lastEventTime = ConnectionsManager::getInstance(instanceNum).getCurrentTimeMonotonicMillis(); ConnectionsManager::getInstance(instanceNum).detachConnection(this); if (socketFd >= 0) { epoll_ctl(ConnectionsManager::getInstance(instanceNum).epolFd, EPOLL_CTL_DEL, socketFd, NULL); if (close(socketFd) != 0) { if (LOGS_ENABLED) DEBUG_E("connection(%p) unable to close socket", this); } socketFd = -1; } proxyAuthState = 0; onConnectedSent = false; outgoingByteStream->clean(); onDisconnected(reason, error); } void ConnectionSocket::onEvent(uint32_t events) { if (events & EPOLLIN) { int32_t error; if (checkSocketError(&error) != 0) { closeSocket(1, error); return; } else { ssize_t readCount; NativeByteBuffer *buffer = ConnectionsManager::getInstance(instanceNum).networkBuffer; while (true) { buffer->rewind(); readCount = recv(socketFd, buffer->bytes(), READ_BUFFER_SIZE, 0); if (readCount < 0) { closeSocket(1, -1); if (LOGS_ENABLED) DEBUG_E("connection(%p) recv failed", this); return; } if (readCount > 0) { buffer->limit((uint32_t) readCount); lastEventTime = ConnectionsManager::getInstance(instanceNum).getCurrentTimeMonotonicMillis(); if (proxyAuthState == 2) { if (readCount == 2) { uint8_t auth_method = buffer->bytes()[1]; if (auth_method == 0xff) { closeSocket(1, -1); if (LOGS_ENABLED) DEBUG_E("connection(%p) unsupported proxy auth method", this); } else if (auth_method == 0x02) { if (LOGS_ENABLED) DEBUG_D("connection(%p) proxy auth required", this); proxyAuthState = 3; } else if (auth_method == 0x00) { proxyAuthState = 5; } adjustWriteOp(); } else { closeSocket(1, -1); if (LOGS_ENABLED) DEBUG_E("connection(%p) invalid proxy response on state 2", this); } } else if (proxyAuthState == 4) { if (readCount == 2) { uint8_t auth_method = buffer->bytes()[1]; if (auth_method != 0x00) { closeSocket(1, -1); if (LOGS_ENABLED) DEBUG_E("connection(%p) auth invalid", this); } else { proxyAuthState = 5; } adjustWriteOp(); } else { closeSocket(1, -1); if (LOGS_ENABLED) DEBUG_E("connection(%p) invalid proxy response on state 4", this); } } else if (proxyAuthState == 6) { if (readCount > 2) { uint8_t status = buffer->bytes()[1]; if (status == 0x00) { if (LOGS_ENABLED) DEBUG_D("connection(%p) connected via proxy", this); proxyAuthState = 0; adjustWriteOp(); } else { closeSocket(1, -1); if (LOGS_ENABLED) DEBUG_E("connection(%p) invalid proxy status on state 6, 0x%x", this, status); } } else { closeSocket(1, -1); if (LOGS_ENABLED) DEBUG_E("connection(%p) invalid proxy response on state 6", this); } } else if (proxyAuthState == 0) { if (ConnectionsManager::getInstance(instanceNum).delegate != nullptr) { ConnectionsManager::getInstance(instanceNum).delegate->onBytesReceived((int32_t) readCount, currentNetworkType, instanceNum); } onReceivedData(buffer); } } if (readCount != READ_BUFFER_SIZE) { break; } } } } if (events & EPOLLOUT) { int32_t error; if (checkSocketError(&error) != 0) { closeSocket(1, error); return; } else { if (proxyAuthState != 0) { if (proxyAuthState == 1) { lastEventTime = ConnectionsManager::getInstance(instanceNum).getCurrentTimeMonotonicMillis(); proxyAuthState = 2; buffer[0] = 0x05; buffer[1] = 0x02; buffer[2] = 0x00; buffer[3] = 0x02; if (send(socketFd, buffer, 4, 0) < 0) { if (LOGS_ENABLED) DEBUG_E("connection(%p) send failed", this); closeSocket(1, -1); return; } adjustWriteOp(); } else if (proxyAuthState == 3) { buffer[0] = 0x01; std::string *proxyUser; std::string *proxyPassword; if (!overrideProxyAddress.empty()) { proxyUser = &overrideProxyUser; proxyPassword = &overrideProxyPassword; } else { proxyUser = &ConnectionsManager::getInstance(instanceNum).proxyUser; proxyPassword = &ConnectionsManager::getInstance(instanceNum).proxyPassword; } uint8_t len1 = (uint8_t) proxyUser->length(); uint8_t len2 = (uint8_t) proxyPassword->length(); buffer[1] = len1; memcpy(&buffer[2], proxyUser->c_str(), len1); buffer[2 + len1] = len2; memcpy(&buffer[3 + len1], proxyPassword->c_str(), len2); proxyAuthState = 4; if (send(socketFd, buffer, 3 + len1 + len2, 0) < 0) { if (LOGS_ENABLED) DEBUG_E("connection(%p) send failed", this); closeSocket(1, -1); return; } adjustWriteOp(); } else if (proxyAuthState == 5) { buffer[0] = 0x05; buffer[1] = 0x01; buffer[2] = 0x00; buffer[3] = (uint8_t) (isIpv6 ? 0x04 : 0x01); uint16_t networkPort = ntohs(currentPort); inet_pton(isIpv6 ? AF_INET6 : AF_INET, currentAddress.c_str(), &buffer[4]); memcpy(&buffer[4 + (isIpv6 ? 16 : 4)], &networkPort, sizeof(uint16_t)); proxyAuthState = 6; if (send(socketFd, buffer, 4 + (isIpv6 ? 16 : 4) + 2, 0) < 0) { if (LOGS_ENABLED) DEBUG_E("connection(%p) send failed", this); closeSocket(1, -1); return; } adjustWriteOp(); } } else { if (!onConnectedSent) { lastEventTime = ConnectionsManager::getInstance(instanceNum).getCurrentTimeMonotonicMillis(); if (LOGS_ENABLED) DEBUG_D("connection(%p) reset last event time, on connect", this); onConnected(); onConnectedSent = true; } NativeByteBuffer *buffer = ConnectionsManager::getInstance(instanceNum).networkBuffer; buffer->clear(); outgoingByteStream->get(buffer); buffer->flip(); uint32_t remaining = buffer->remaining(); if (remaining) { ssize_t sentLength; if ((sentLength = send(socketFd, buffer->bytes(), remaining, 0)) < 0) { if (LOGS_ENABLED) DEBUG_E("connection(%p) send failed", this); closeSocket(1, -1); return; } else { if (ConnectionsManager::getInstance(instanceNum).delegate != nullptr) { ConnectionsManager::getInstance(instanceNum).delegate->onBytesSent((int32_t) sentLength, currentNetworkType, instanceNum); } outgoingByteStream->discard((uint32_t) sentLength); adjustWriteOp(); } } } } } if (events & EPOLLHUP) { if (LOGS_ENABLED) DEBUG_E("socket event has EPOLLHUP"); closeSocket(1, -1); return; } else if (events & EPOLLRDHUP) { if (LOGS_ENABLED) DEBUG_E("socket event has EPOLLRDHUP"); closeSocket(1, -1); return; } if (events & EPOLLERR) { if (LOGS_ENABLED) DEBUG_E("connection(%p) epoll error", this); return; } } void ConnectionSocket::writeBuffer(uint8_t *data, uint32_t size) { NativeByteBuffer *buffer = BuffersStorage::getInstance().getFreeBuffer(size); buffer->writeBytes(data, size); outgoingByteStream->append(buffer); adjustWriteOp(); } void ConnectionSocket::writeBuffer(NativeByteBuffer *buffer) { outgoingByteStream->append(buffer); adjustWriteOp(); } void ConnectionSocket::adjustWriteOp() { eventMask.events = EPOLLIN | EPOLLRDHUP | EPOLLERR | EPOLLET; if (proxyAuthState == 0 && (outgoingByteStream->hasData() || !onConnectedSent) || proxyAuthState == 1 || proxyAuthState == 3 || proxyAuthState == 5) { eventMask.events |= EPOLLOUT; } eventMask.data.ptr = eventObject; if (epoll_ctl(ConnectionsManager::getInstance(instanceNum).epolFd, EPOLL_CTL_MOD, socketFd, &eventMask) != 0) { if (LOGS_ENABLED) DEBUG_E("connection(%p) epoll_ctl, modify socket failed", this); closeSocket(1, -1); } } void ConnectionSocket::setTimeout(time_t time) { timeout = time; lastEventTime = ConnectionsManager::getInstance(instanceNum).getCurrentTimeMonotonicMillis(); if (LOGS_ENABLED) DEBUG_D("connection(%p) set current timeout = %lld", this, (long long) timeout); } time_t ConnectionSocket::getTimeout() { return timeout; } void ConnectionSocket::checkTimeout(int64_t now) { if (timeout != 0 && (now - lastEventTime) > (int64_t) timeout * 1000) { if (!onConnectedSent || hasPendingRequests()) { closeSocket(2, 0); } else { lastEventTime = ConnectionsManager::getInstance(instanceNum).getCurrentTimeMonotonicMillis(); if (LOGS_ENABLED) DEBUG_D("connection(%p) reset last event time, no requests", this); } } } bool ConnectionSocket::isDisconnected() { return socketFd < 0; } void ConnectionSocket::dropConnection() { closeSocket(0, 0); } void ConnectionSocket::setOverrideProxy(std::string address, uint16_t port, std::string username, std::string password, std::string secret) { overrideProxyAddress = address; overrideProxyPort = port; overrideProxyUser = username; overrideProxyPassword = password; overrideProxySecret = secret; }