#include "LuaTCPSocket.h" #ifndef NOHTTP # include "common/String.h" # include # include # include # include #endif #include #include #ifdef WIN # include # include #else # include # include #endif void SetupCurlEasyCiphers(CURL *easy); namespace LuaTCPSocket { static double Now() { #ifdef WIN FILETIME rt; GetSystemTimeAsFileTime(&rt); return (rt.dwLowDateTime + (uint64_t(rt.dwHighDateTime) << 32) - uint64_t(116444736000000000ULL)) / 1e7; #else struct timeval rt; gettimeofday(&rt, (struct timezone *)NULL); return rt.tv_sec + rt.tv_usec / 1e6; #endif } static int GetTime(lua_State *l) { lua_pushnumber(l, Now()); return 1; } static void Timeout(double timeout) { #ifdef WIN if (timeout < 0.0) timeout = 0.0; if (timeout < DBL_MAX / 1000.0) timeout *= 1000.0; if (timeout > INT_MAX) timeout = INT_MAX; ::Sleep(int(timeout)); #else struct timespec req, rem; if (timeout < 0.0) timeout = 0.0; if (timeout > INT_MAX) timeout = INT_MAX; req.tv_sec = int(timeout); req.tv_nsec = int((timeout - req.tv_sec) * 1000000000); if (req.tv_nsec > 999999999) req.tv_nsec = 999999999; while (nanosleep(&req, &rem)) { req.tv_sec = rem.tv_sec; req.tv_nsec = rem.tv_nsec; } #endif } static int Sleep(lua_State *l) { Timeout(luaL_checknumber(l, 1)); return 0; } #ifndef NOHTTP enum Status { StatusReady, StatusConnecting, StatusConnected, StatusDead, }; struct TCPSocket { CURL *easy; CURLM *multi; char errorBuf[CURL_ERROR_SIZE]; Status status; bool timeoutIndefinite; bool blocking; double timeout; std::vector recvBuf; size_t stashedLen; bool readClosed; bool writeClosed; }; static void Reset(TCPSocket *tcps) { if (tcps->multi) { curl_multi_remove_handle(tcps->multi, tcps->easy); curl_multi_cleanup(tcps->multi); tcps->multi = nullptr; } if (tcps->easy) { curl_easy_cleanup(tcps->easy); tcps->easy = nullptr; } tcps->status = StatusDead; } static bool ConnectPerform(TCPSocket *tcps, CURLcode *res) { while (true) { int dontcare; auto mres = curl_multi_perform(tcps->multi, &dontcare); struct CURLMsg *msg; while ((msg = curl_multi_info_read(tcps->multi, &dontcare))) { if (msg->msg == CURLMSG_DONE) { *res = msg->data.result; return true; } }; if (mres != CURLM_CALL_MULTI_PERFORM) { break; } } return false; } static int New(lua_State *l) { auto *tcps = (TCPSocket *)lua_newuserdata(l, sizeof(TCPSocket)); new (tcps) TCPSocket; tcps->errorBuf[0] = 0; tcps->easy = curl_easy_init(); tcps->status = StatusReady; tcps->timeoutIndefinite = true; tcps->blocking = true; tcps->stashedLen = 0; tcps->readClosed = false; tcps->writeClosed = false; if (!tcps->easy) { Reset(tcps); return luaL_error(l, "curl_easy_init failed"); } tcps->multi = curl_multi_init(); if (!tcps->multi) { Reset(tcps); return luaL_error(l, "curl_multi_init failed"); } curl_multi_add_handle(tcps->multi, tcps->easy); luaL_newmetatable(l, "TCPSocket"); lua_setmetatable(l, -2); return 1; } static int GC(lua_State *l) { auto *tcps = (TCPSocket *)luaL_checkudata(l, 1, "TCPSocket"); Reset(tcps); tcps->~TCPSocket(); return 0; } static int Close(lua_State *l) { auto *tcps = (TCPSocket *)luaL_checkudata(l, 1, "TCPSocket"); Reset(tcps); return 0; } static int Send(lua_State *l) { auto *tcps = (TCPSocket *)luaL_checkudata(l, 1, "TCPSocket"); if (tcps->status != StatusConnected) { return luaL_error(l, "attempt to send on socket while not connected"); } size_t dlenu; auto *data = luaL_checklstring(l, 2, &dlenu); auto dlen = int(dlenu); auto first = luaL_optinteger(l, 3, 1); auto last = luaL_optinteger(l, 4, -1); if (first < 0) first += dlen + 1; if (last < 0) last += dlen + 1; if (first < 1) first = 1; if (first > dlen) first = dlen; if (last < 1) last = 1; if (last > dlen) last = dlen; auto begin = first - 1; auto end = last; data += begin; auto len = size_t((end > begin) ? (end - begin) : 0); auto startedAt = Now(); size_t writtenTotal = 0; while (true) { size_t writtenNow = 0; CURLcode res = CURLE_OK; if (!tcps->writeClosed) { res = curl_easy_send(tcps->easy, &data[writtenTotal], len - writtenTotal, &writtenNow); } writtenTotal += writtenNow; if (writtenTotal >= len) { break; } switch (res) { case CURLE_OK: case CURLE_AGAIN: break; default: tcps->writeClosed = true; break; } if (tcps->writeClosed) { Reset(tcps); lua_pushnil(l); lua_pushliteral(l, "closed"); lua_pushinteger(l, writtenTotal + begin); return 3; } if (res == CURLE_AGAIN) { if (tcps->blocking && (tcps->timeoutIndefinite || startedAt + tcps->timeout > Now())) { // * Using a platform-dependent primitive to "wait" on the socket is // not worth the trouble: sockets shouldn't be used with timeouts // anyway because they freeze the game. Timeout(0.01); continue; } lua_pushnil(l); lua_pushliteral(l, "timeout"); lua_pushinteger(l, writtenTotal + begin); return 3; } } lua_pushinteger(l, writtenTotal + begin); return 1; } static int ReceiveNoPrefix(lua_State *l) { auto *tcps = (TCPSocket *)luaL_checkudata(l, 1, "TCPSocket"); if (tcps->status != StatusConnected) { return luaL_error(l, "attempt to receive on socket while not connected"); } enum { readN, readAll, readLine, } pattern = readN; size_t len = 4096; if (lua_isstring(l, 2) && !strcmp(lua_tostring(l, 2), "*a")) { pattern = readAll; } else if (lua_isstring(l, 2) && !strcmp(lua_tostring(l, 2), "*l")) { pattern = readLine; } else { len = size_t(luaL_checkinteger(l, 2)); } if (pattern == readAll || pattern == readLine) { len += tcps->stashedLen; } if (tcps->recvBuf.size() < len) { tcps->recvBuf.resize(len); } auto startedAt = Now(); size_t readTotal = 0; size_t returning = 0; int retn = 1; while (true) { size_t readNow = 0; CURLcode res = CURLE_OK; if (tcps->stashedLen) { readNow = tcps->stashedLen; tcps->stashedLen = 0; } else { res = curl_easy_recv(tcps->easy, &tcps->recvBuf[readTotal], len - readTotal, &readNow); } readTotal += readNow; returning = readTotal; if (pattern == readN && readTotal >= len) { returning = len; break; } if (pattern == readLine) { bool foundLF = false; for (size_t i = 0; i < readTotal; ++i) { if (tcps->recvBuf[i] == '\n') { returning = i + 1; foundLF = true; break; } } if (foundLF) { break; } } switch (res) { case CURLE_OK: if (!readNow) { tcps->readClosed = true; } break; case CURLE_AGAIN: break; default: tcps->readClosed = true; break; } if (tcps->readClosed) { Reset(tcps); if (pattern == readAll) { // * Closed "*a" patterns don't return an error. break; } lua_pushnil(l); lua_pushliteral(l, "closed"); if (pattern == readLine) { // * Closed "*l" patterns don't return partial lines. returning = 0; } retn = 3; break; } if (readTotal == len && (pattern == readAll || pattern == readLine)) { len += len; if (tcps->recvBuf.size() < len) { tcps->recvBuf.resize(len); } } if (res == CURLE_AGAIN) { if (tcps->blocking && (tcps->timeoutIndefinite || startedAt + tcps->timeout > Now())) { // * Using a platform-dependent primitive to "wait" on the socket is // not worth the trouble: sockets shouldn't be used with timeouts // anyway because they freeze the game. Timeout(0.01); continue; } lua_pushnil(l); lua_pushliteral(l, "timeout"); if (pattern == readLine) { // * Timed-out "*l" patterns don't return partial lines. returning = 0; } retn = 3; break; } } tcps->stashedLen = readTotal - returning; if (pattern == readLine) { auto curOut = 0U; for (auto curIn = 0U; curIn < returning; ++curIn) { if (tcps->recvBuf[curIn] != '\r' && tcps->recvBuf[curIn] != '\n') { tcps->recvBuf[curOut] = tcps->recvBuf[curIn]; curOut += 1; } } returning = curOut; } lua_pushlstring(l, &tcps->recvBuf[0], returning); // * This copy makes ReceiveNoPrefix quadratic if there's a lot of stuff in // the stash (as a result of a *very* long line being returned by an "*l" // pattern and then whatever was left being stashed) and it's all *very* // short lines (compared to the previous *very* long one, from the point // of view of an "*l" pattern). Handling this edge case in a special, // sub-quadratic way isn't worth the effort. std::copy( &tcps->recvBuf[readTotal - tcps->stashedLen], &tcps->recvBuf[readTotal], &tcps->recvBuf[0] ); return retn; } static int Receive(lua_State *l) { bool prefix = false; if (lua_gettop(l) >= 3) { prefix = true; lua_tostring(l, 3); } int ret = ReceiveNoPrefix(l); if (prefix) { lua_pushvalue(l, 3); lua_insert(l, -2); lua_concat(l, 2); } return ret; } static int Connect(lua_State *l) { auto *tcps = (TCPSocket *)luaL_checkudata(l, 1, "TCPSocket"); if (tcps->status == StatusDead) { return luaL_error(l, "attempt to connect dead socket"); } if (tcps->status == StatusConnected) { return luaL_error(l, "attempt to connect connected socket"); } auto startedAt = Now(); while (true) { if (tcps->status != StatusConnecting) { tcps->status = StatusConnecting; // * Using CURLPROTO_HTTPS and CURLPROTO_HTTP with CURL_HTTP_VERSION_1_0 // because these really don't send anything while connecting if // CURLOPT_CONNECT_ONLY is 1 and there are no proxies involved. The // only ugly bit is that we have to prepend http:// or https:// to // the hostnames. curl_easy_setopt(tcps->easy, CURLOPT_ERRORBUFFER, tcps->errorBuf); curl_easy_setopt(tcps->easy, CURLOPT_CONNECT_ONLY, 1L); ByteString address = luaL_checkstring(l, 2); curl_easy_setopt(tcps->easy, CURLOPT_PORT, long(luaL_checkinteger(l, 3))); curl_easy_setopt(tcps->easy, CURLOPT_NOSIGNAL, 1L); curl_easy_setopt(tcps->easy, CURLOPT_HTTP_VERSION, CURL_HTTP_VERSION_1_0); if (lua_toboolean(l, 4)) { curl_easy_setopt(tcps->easy, CURLOPT_PROTOCOLS, CURLPROTO_HTTPS); curl_easy_setopt(tcps->easy, CURLOPT_REDIR_PROTOCOLS, CURLPROTO_HTTPS); SetupCurlEasyCiphers(tcps->easy); address = "https://" + address; } else { curl_easy_setopt(tcps->easy, CURLOPT_PROTOCOLS, CURLPROTO_HTTP); curl_easy_setopt(tcps->easy, CURLOPT_REDIR_PROTOCOLS, CURLPROTO_HTTP); address = "http://" + address; } curl_easy_setopt(tcps->easy, CURLOPT_URL, address.c_str()); } CURLcode res; if (!ConnectPerform(tcps, &res)) { if (tcps->blocking && (tcps->timeoutIndefinite || startedAt + tcps->timeout > Now())) { // * Using a platform-dependent primitive to "wait" on the socket is // not worth the trouble: sockets shouldn't be used with timeouts // anyway because they freeze the game. Timeout(0.01); continue; } lua_pushnil(l); lua_pushliteral(l, "timeout"); return 2; } if (res != CURLE_OK) { Reset(tcps); lua_pushnil(l); lua_pushstring(l, tcps->errorBuf); return 2; } break; } tcps->status = StatusConnected; lua_pushinteger(l, 1); return 1; } static int LastError(lua_State *l) { auto *tcps = (TCPSocket *)luaL_checkudata(l, 1, "TCPSocket"); lua_pushstring(l, tcps->errorBuf); return 1; } static int GetStatus(lua_State *l) { auto *tcps = (TCPSocket *)luaL_checkudata(l, 1, "TCPSocket"); switch (tcps->status) { case StatusReady: lua_pushliteral(l, "ready"); break; case StatusConnecting: lua_pushliteral(l, "connecting"); break; case StatusConnected: lua_pushliteral(l, "connected"); break; case StatusDead: lua_pushliteral(l, "dead"); break; } return 1; } static int GetPeerName(lua_State *l) { auto *tcps = (TCPSocket *)luaL_checkudata(l, 1, "TCPSocket"); if (tcps->status != StatusConnected) { return luaL_error(l, "attempt to get remote socket info while not connected"); } char *address; curl_easy_getinfo(tcps->easy, CURLINFO_PRIMARY_IP, &address); lua_pushstring(l, address); long port; curl_easy_getinfo(tcps->easy, CURLINFO_PRIMARY_PORT, &port); lua_pushinteger(l, port); return 2; } static int SetTimeout(lua_State *l) { auto *tcps = (TCPSocket *)luaL_checkudata(l, 1, "TCPSocket"); tcps->blocking = true; if (lua_isnoneornil(l, 2)) { tcps->timeoutIndefinite = true; } else { tcps->timeoutIndefinite = false; tcps->timeout = luaL_checknumber(l, 2); if (int(tcps->timeout) == 0) { tcps->blocking = false; } } return 0; } static int GetSockName(lua_State *l) { auto *tcps = (TCPSocket *)luaL_checkudata(l, 1, "TCPSocket"); if (tcps->status != StatusConnected) { return luaL_error(l, "attempt to get local socket info while not connected"); } char *address; curl_easy_getinfo(tcps->easy, CURLINFO_LOCAL_IP, &address); lua_pushstring(l, address); long port; curl_easy_getinfo(tcps->easy, CURLINFO_LOCAL_PORT, &port); lua_pushinteger(l, port); return 2; } static int SetOption(lua_State *l) { auto *tcps = (TCPSocket *)luaL_checkudata(l, 1, "TCPSocket"); auto *option = luaL_checkstring(l, 2); if (!strcmp(option, "keepalive")) { curl_easy_setopt(tcps->easy, CURLOPT_TCP_KEEPALIVE, long(lua_toboolean(l, 3))); return 0; } else if (!strcmp(option, "tcp-nodelay")) { curl_easy_setopt(tcps->easy, CURLOPT_TCP_NODELAY, long(lua_toboolean(l, 3))); return 0; } else if (!strcmp(option, "verify-peer")) { curl_easy_setopt(tcps->easy, CURLOPT_SSL_VERIFYPEER, long(lua_toboolean(l, 3))); return 0; } return luaL_error(l, "unknown option"); } static int Shutdown(lua_State *l) { auto *tcps = (TCPSocket *)luaL_checkudata(l, 1, "TCPSocket"); auto *direction = luaL_optstring(l, 2, "both"); if (!strcmp(direction, "receive")) { tcps->readClosed = true; return 0; } else if (!strcmp(direction, "send")) { tcps->writeClosed = true; return 0; } else if (!strcmp(direction, "both")) { tcps->readClosed = true; tcps->writeClosed = true; return 0; } return luaL_error(l, "unknown direction"); } #endif void Open(lua_State *l) { #ifndef NOHTTP luaL_newmetatable(l, "TCPSocket"); lua_pushcfunction(l, LuaTCPSocket::GC); lua_setfield(l, -2, "__gc"); lua_newtable(l); struct luaL_Reg tcpSocketIndexMethods[] = { { "connect", LuaTCPSocket::Connect }, { "close", LuaTCPSocket::Close }, { "send", LuaTCPSocket::Send }, { "receive", LuaTCPSocket::Receive }, { "lasterror", LuaTCPSocket::LastError }, { "status", LuaTCPSocket::GetStatus }, { "getpeername", LuaTCPSocket::GetPeerName }, { "getsockname", LuaTCPSocket::GetSockName }, { "settimeout", LuaTCPSocket::SetTimeout }, { "setoption", LuaTCPSocket::SetOption }, { "shutdown", LuaTCPSocket::Shutdown }, { NULL, NULL }, }; luaL_register(l, NULL, tcpSocketIndexMethods); lua_setfield(l, -2, "__index"); lua_pop(l, 1); #endif lua_newtable(l); struct luaL_Reg socketMethods[] = { #ifndef NOHTTP { "tcp", LuaTCPSocket::New }, #endif { "sleep", LuaTCPSocket::Sleep }, { "gettime", LuaTCPSocket::GetTime }, { NULL, NULL }, }; luaL_register(l, NULL, socketMethods); lua_setglobal(l, "socket"); } }