/* * InspIRCd -- Internet Relay Chat Daemon * * Copyright (C) 2009 Daniel De Graaf * Copyright (C) 2007-2008 Robin Burchell * Copyright (C) 2008 Pippijn van Steenhoven * Copyright (C) 2006-2008 Craig Edwards * Copyright (C) 2007 John Brooks * Copyright (C) 2007 Dennis Friis * * This file is part of InspIRCd. InspIRCd 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, version 2. * * 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 . */ #include "inspircd.h" #include "iohook.h" #include "modules/httpd.h" class ModuleHttpServer; static ModuleHttpServer* HttpModule; static insp::intrusive_list sockets; static Events::ModuleEventProvider* aclevprov; static Events::ModuleEventProvider* reqevprov; /** HTTP socket states */ enum HttpState { HTTP_SERVE_WAIT_REQUEST = 0, /* Waiting for a full request */ HTTP_SERVE_RECV_POSTDATA = 1, /* Waiting to finish recieving POST data */ HTTP_SERVE_SEND_DATA = 2 /* Sending response */ }; /** A socket used for HTTP transport */ class HttpServerSocket : public BufferedSocket, public Timer, public insp::intrusive_list_node { HttpState InternalState; std::string ip; HTTPHeaders headers; std::string reqbuffer; std::string postdata; unsigned int postsize; std::string request_type; std::string uri; std::string http_version; /** True if this object is in the cull list */ bool waitingcull; bool Tick(time_t currtime) CXX11_OVERRIDE { AddToCull(); return false; } public: HttpServerSocket(int newfd, const std::string& IP, ListenSocket* via, irc::sockets::sockaddrs* client, irc::sockets::sockaddrs* server, unsigned int timeoutsec) : BufferedSocket(newfd) , Timer(timeoutsec) , InternalState(HTTP_SERVE_WAIT_REQUEST) , ip(IP) , postsize(0) , waitingcull(false) { if ((!via->iohookprovs.empty()) && (via->iohookprovs.back())) { via->iohookprovs.back()->OnAccept(this, client, server); // IOHook may have errored if (!getError().empty()) { AddToCull(); return; } } ServerInstance->Timers.AddTimer(this); } ~HttpServerSocket() { sockets.erase(this); } void OnError(BufferedSocketError) CXX11_OVERRIDE { AddToCull(); } std::string Response(int response) { switch (response) { case 100: return "CONTINUE"; case 101: return "SWITCHING PROTOCOLS"; case 200: return "OK"; case 201: return "CREATED"; case 202: return "ACCEPTED"; case 203: return "NON-AUTHORITATIVE INFORMATION"; case 204: return "NO CONTENT"; case 205: return "RESET CONTENT"; case 206: return "PARTIAL CONTENT"; case 300: return "MULTIPLE CHOICES"; case 301: return "MOVED PERMANENTLY"; case 302: return "FOUND"; case 303: return "SEE OTHER"; case 304: return "NOT MODIFIED"; case 305: return "USE PROXY"; case 307: return "TEMPORARY REDIRECT"; case 400: return "BAD REQUEST"; case 401: return "UNAUTHORIZED"; case 402: return "PAYMENT REQUIRED"; case 403: return "FORBIDDEN"; case 404: return "NOT FOUND"; case 405: return "METHOD NOT ALLOWED"; case 406: return "NOT ACCEPTABLE"; case 407: return "PROXY AUTHENTICATION REQUIRED"; case 408: return "REQUEST TIMEOUT"; case 409: return "CONFLICT"; case 410: return "GONE"; case 411: return "LENGTH REQUIRED"; case 412: return "PRECONDITION FAILED"; case 413: return "REQUEST ENTITY TOO LARGE"; case 414: return "REQUEST-URI TOO LONG"; case 415: return "UNSUPPORTED MEDIA TYPE"; case 416: return "REQUESTED RANGE NOT SATISFIABLE"; case 417: return "EXPECTATION FAILED"; case 500: return "INTERNAL SERVER ERROR"; case 501: return "NOT IMPLEMENTED"; case 502: return "BAD GATEWAY"; case 503: return "SERVICE UNAVAILABLE"; case 504: return "GATEWAY TIMEOUT"; case 505: return "HTTP VERSION NOT SUPPORTED"; default: return "WTF"; break; } } void SendHTTPError(int response) { HTTPHeaders empty; std::string data = "Server error "+ConvToStr(response)+": "+Response(response)+"
"+ "Powered by InspIRCd"; SendHeaders(data.length(), response, empty); WriteData(data); } void SendHeaders(unsigned long size, int response, HTTPHeaders &rheaders) { WriteData(http_version + " "+ConvToStr(response)+" "+Response(response)+"\r\n"); rheaders.CreateHeader("Date", InspIRCd::TimeString(ServerInstance->Time(), "%a, %d %b %Y %H:%M:%S GMT", true)); rheaders.CreateHeader("Server", INSPIRCD_BRANCH); rheaders.SetHeader("Content-Length", ConvToStr(size)); if (size) rheaders.CreateHeader("Content-Type", "text/html"); else rheaders.RemoveHeader("Content-Type"); /* Supporting Connection: keep-alive causes a whole world of hurt syncronizing timeouts, * so remove it, its not essential for what we need. */ rheaders.SetHeader("Connection", "Close"); WriteData(rheaders.GetFormattedHeaders()); WriteData("\r\n"); } void OnDataReady() CXX11_OVERRIDE { if (InternalState == HTTP_SERVE_RECV_POSTDATA) { postdata.append(recvq); if (postdata.length() >= postsize) ServeData(); } else { reqbuffer.append(recvq); if (reqbuffer.length() >= 8192) { ServerInstance->Logs->Log(MODNAME, LOG_DEBUG, "m_httpd dropped connection due to an oversized request buffer"); reqbuffer.clear(); SetError("Buffer"); } if (InternalState == HTTP_SERVE_WAIT_REQUEST) CheckRequestBuffer(); } } void CheckRequestBuffer() { std::string::size_type reqend = reqbuffer.find("\r\n\r\n"); if (reqend == std::string::npos) return; // We have the headers; parse them all std::string::size_type hbegin = 0, hend; while ((hend = reqbuffer.find("\r\n", hbegin)) != std::string::npos) { if (hbegin == hend) break; if (request_type.empty()) { std::istringstream cheader(std::string(reqbuffer, hbegin, hend - hbegin)); cheader >> request_type; cheader >> uri; cheader >> http_version; if (request_type.empty() || uri.empty() || http_version.empty()) { SendHTTPError(400); return; } hbegin = hend + 2; continue; } std::string cheader(reqbuffer, hbegin, hend - hbegin); std::string::size_type fieldsep = cheader.find(':'); if ((fieldsep == std::string::npos) || (fieldsep == 0) || (fieldsep == cheader.length() - 1)) { SendHTTPError(400); return; } headers.SetHeader(cheader.substr(0, fieldsep), cheader.substr(fieldsep + 2)); hbegin = hend + 2; } reqbuffer.erase(0, reqend + 4); std::transform(request_type.begin(), request_type.end(), request_type.begin(), ::toupper); std::transform(http_version.begin(), http_version.end(), http_version.begin(), ::toupper); if ((http_version != "HTTP/1.1") && (http_version != "HTTP/1.0")) { SendHTTPError(505); return; } if (headers.IsSet("Content-Length") && (postsize = ConvToInt(headers.GetHeader("Content-Length"))) > 0) { InternalState = HTTP_SERVE_RECV_POSTDATA; if (reqbuffer.length() >= postsize) { postdata.assign(reqbuffer, 0, postsize); reqbuffer.erase(0, postsize); } else if (!reqbuffer.empty()) { postdata = reqbuffer; reqbuffer.clear(); } if (postdata.length() >= postsize) ServeData(); return; } ServeData(); } void ServeData() { InternalState = HTTP_SERVE_SEND_DATA; ModResult MOD_RESULT; HTTPRequest acl(request_type, uri, &headers, this, ip, postdata); FIRST_MOD_RESULT_CUSTOM(*aclevprov, HTTPACLEventListener, OnHTTPACLCheck, MOD_RESULT, (acl)); if (MOD_RESULT != MOD_RES_DENY) { HTTPRequest url(request_type, uri, &headers, this, ip, postdata); FIRST_MOD_RESULT_CUSTOM(*reqevprov, HTTPRequestEventListener, OnHTTPRequest, MOD_RESULT, (url)); if (MOD_RESULT == MOD_RES_PASSTHRU) { SendHTTPError(404); } } } void Page(std::stringstream* n, int response, HTTPHeaders *hheaders) { SendHeaders(n->str().length(), response, *hheaders); WriteData(n->str()); } void AddToCull() { if (waitingcull) return; waitingcull = true; Close(); ServerInstance->GlobalCulls.AddItem(this); } }; class HTTPdAPIImpl : public HTTPdAPIBase { public: HTTPdAPIImpl(Module* parent) : HTTPdAPIBase(parent) { } void SendResponse(HTTPDocumentResponse& resp) CXX11_OVERRIDE { resp.src.sock->Page(resp.document, resp.responsecode, &resp.headers); } }; class ModuleHttpServer : public Module { HTTPdAPIImpl APIImpl; unsigned int timeoutsec; Events::ModuleEventProvider acleventprov; Events::ModuleEventProvider reqeventprov; public: ModuleHttpServer() : APIImpl(this) , acleventprov(this, "event/http-acl") , reqeventprov(this, "event/http-request") { aclevprov = &acleventprov; reqevprov = &reqeventprov; } void init() CXX11_OVERRIDE { HttpModule = this; } void ReadConfig(ConfigStatus& status) CXX11_OVERRIDE { ConfigTag* tag = ServerInstance->Config->ConfValue("httpd"); timeoutsec = tag->getInt("timeout", 10, 1); } ModResult OnAcceptConnection(int nfd, ListenSocket* from, irc::sockets::sockaddrs* client, irc::sockets::sockaddrs* server) CXX11_OVERRIDE { if (from->bind_tag->getString("type") != "httpd") return MOD_RES_PASSTHRU; int port; std::string incomingip; irc::sockets::satoap(*client, incomingip, port); sockets.push_front(new HttpServerSocket(nfd, incomingip, from, client, server, timeoutsec)); return MOD_RES_ALLOW; } void OnUnloadModule(Module* mod) CXX11_OVERRIDE { for (insp::intrusive_list::const_iterator i = sockets.begin(); i != sockets.end(); ) { HttpServerSocket* sock = *i; ++i; if (sock->GetModHook(mod)) { sock->cull(); delete sock; } } } CullResult cull() CXX11_OVERRIDE { for (insp::intrusive_list::const_iterator i = sockets.begin(); i != sockets.end(); ++i) { HttpServerSocket* sock = *i; sock->AddToCull(); } return Module::cull(); } Version GetVersion() CXX11_OVERRIDE { return Version("Provides HTTP serving facilities to modules", VF_VENDOR); } }; MODULE_INIT(ModuleHttpServer)