/** * @file * @author 2012-2013 Stefan Radomski (stefan.radomski@cs.tu-darmstadt.de) * @copyright Simplified BSD * * @cond * This program is free software: you can redistribute it and/or modify * it under the terms of the FreeBSD license as published by the FreeBSD * project. * * 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. * * You should have received a copy of the FreeBSD license along with this * program. If not, see . * @endcond */ #include "URL.h" #include "uscxml/messages/Event.h" #include #include #include #include "uscxml/config.h" #ifdef _WIN32 #define getcwd _getcwd #else #include // getcwd //#include #endif namespace uscxml { void URLImpl::prepareException(ErrorEvent& exception, int errorCode, const std::string& origUri, UriParserStateA* parser) { exception.data.compound["uri"].atom = origUri; if (parser != NULL && parser->errorPos != NULL) { const char* startPtr = origUri.c_str(); while(startPtr != parser->errorPos && *startPtr != '\0') { exception.data.compound["urk"].atom += " "; startPtr++; } exception.data.compound["urk"].atom += "^"; } switch (errorCode) { case URI_ERROR_SYNTAX: exception.data.compound["cause"].atom = "Parsed text violates expected format"; break; case URI_ERROR_NULL: exception.data.compound["cause"].atom = "One of the params passed was NULL although it mustn't be"; break; case URI_ERROR_MALLOC: exception.data.compound["cause"].atom = "Requested memory could not be allocated"; break; case URI_ERROR_OUTPUT_TOO_LARGE: exception.data.compound["cause"].atom = "Some output is to large for the receiving buffer"; break; case URI_ERROR_NOT_IMPLEMENTED: exception.data.compound["cause"].atom = "The called function is not implemented yet"; break; case URI_ERROR_RANGE_INVALID: exception.data.compound["cause"].atom = "The parameters passed contained invalid ranges"; break; case URI_ERROR_ADDBASE_REL_BASE: exception.data.compound["cause"].atom = "Given base is not absolute"; break; case URI_ERROR_REMOVEBASE_REL_SOURCE: exception.data.compound["cause"].atom = "Given base is not absolute"; break; default: break; } } URLImpl::URLImpl() : _handle(NULL), _requestType(GET), _isDownloaded(false), _hasFailed(false) { } URLImpl::URLImpl(const std::string& url) : _orig(url), _handle(NULL), _requestType(GET), _isDownloaded(false), _hasFailed(false) { UriParserStateA state; state.uri = &_uri; int err = uriParseUriA(&state, _orig.c_str()); if (err != URI_SUCCESS) { UriParserStateA state2; state2.uri = &_uri; char* tmp = (char*)malloc(8 + 3 * _orig.size() + 1); uriWindowsFilenameToUriStringA(_orig.c_str(), tmp); _orig = std::string(tmp); err = uriParseUriA(&state2, _orig.c_str()); free(tmp); } if (err != URI_SUCCESS) { UriParserStateA state2; state2.uri = &_uri; char* tmp = (char*)malloc(7 + 3 * _orig.size() + 1 ); uriUnixFilenameToUriStringA(_orig.c_str(), tmp); _orig = std::string(tmp); err = uriParseUriA(&state2, _orig.c_str()); free(tmp); } if (err != URI_SUCCESS) { ErrorEvent exc; prepareException(exc, err, _orig, &state); throw exc; } } URLImpl::~URLImpl() { uriFreeUriMembersA(&_uri); if (_handle != NULL) curl_easy_cleanup(_handle); } URL URLImpl::resolve(URLImpl* relative, URLImpl* absolute) { std::shared_ptr dest(new URLImpl()); int err = uriAddBaseUriExA(&(dest->_uri), &(relative->_uri), &(absolute->_uri), URI_RESOLVE_IDENTICAL_SCHEME_COMPAT); if (err != URI_SUCCESS) { ErrorEvent exc("Cannot resolve " + (std::string)(*relative) + " with " + (std::string)(*absolute)); prepareException(exc, err, "", NULL); throw exc; } // serialize as string and reparse to mantain string in _orig return URL((std::string)(*dest.get())); } URL URLImpl::resolveWithCWD(URLImpl* relative) { char currPath[FILENAME_MAX]; if (!getcwd(currPath, sizeof(currPath))) { ERROR_PLATFORM_THROW("Cannot get current working directory"); } currPath[sizeof(currPath) - 1] = '\0'; /* not really required? */ // without the trailing slash, last component is assumed a file #if WIN32 std::shared_ptr cwdURL(new URLImpl(std::string(currPath))); #else std::shared_ptr cwdURL(new URLImpl(std::string("file://") + currPath + PATH_SEPERATOR)); #endif return resolve(relative, cwdURL.get()); } URL URLImpl::refer(URLImpl* absoluteSource, URLImpl* absoluteBase) { std::shared_ptr dest(new URLImpl()); int err = uriRemoveBaseUriA(&(dest->_uri), &(absoluteSource->_uri), &(absoluteBase->_uri), URI_FALSE); if (err != URI_SUCCESS) { ErrorEvent exc("Cannot make a relative reference for " + (std::string)(*absoluteSource) + " with " + (std::string)(*absoluteBase)); prepareException(exc, err, "", NULL); throw exc; } // serialize as string and reparse to mantain string in _orig return URL((std::string)(*dest.get())); } void URLImpl::normalize() { int err = uriNormalizeSyntaxA(&_uri); if (err != URI_SUCCESS) { ErrorEvent exc("Cannot normalize URL " + (std::string)*this); prepareException(exc, err, _orig, NULL); throw exc; } } std::string URLImpl::path() const { UriPathSegmentA* firstSeg = _uri.pathHead; UriPathSegmentA* lastSeg = firstSeg; while(lastSeg->next) { lastSeg = lastSeg->next; } std::string path; // what a mess! if (_uri.absolutePath || (_uri.pathHead != NULL && (_uri.hostText.first != NULL || _uri.hostData.ip4 != NULL || _uri.hostData.ip6 != NULL || _uri.hostData.ipFuture.first != NULL))) { path += "/"; } path += std::string(firstSeg->text.first, lastSeg->text.afterLast - firstSeg->text.first); return path; } std::list URLImpl::pathComponents() const { std::list pathList; UriPathSegmentA* currSeg = _uri.pathHead; while(currSeg != NULL) { pathList.push_back(USCXML_URI_STRING((*currSeg), text)); currSeg = currSeg->next; } return pathList; } std::map URLImpl::query() const { UriQueryListA * queryList; UriQueryListA * currList; std::map queryMap; int itemCount; int err = uriDissectQueryMallocA(&queryList, &itemCount, _uri.query.first, _uri.query.afterLast); if (err != URI_SUCCESS) { ErrorEvent exc("Cannot get query from URL " + (std::string)*this); prepareException(exc, err, _orig, NULL); throw exc; } currList = queryList; while(currList != NULL) { queryMap[currList->key] = currList->value != NULL ? currList->value : ""; currList = currList->next; } uriFreeQueryListA(queryList); return queryMap; } CURL* URLImpl::getCurlHandle() { if (_handle == NULL) { _handle = curl_easy_init(); if (_handle == NULL) LOG(ERROR) << "curl_easy_init returned NULL, this is bad!"; } return _handle; } size_t URLImpl::writeHandler(void *ptr, size_t size, size_t nmemb, void *userdata) { URLImpl* url = (URLImpl*)userdata; url->_rawInContent.write((char*)ptr, size * nmemb); std::set::iterator monIter = url->_monitors.begin(); while(monIter != url->_monitors.end()) { (*monIter)->contentChunkReceived(URL(url->shared_from_this()), std::string((char*)ptr, size * nmemb)); monIter++; } return size * nmemb; } size_t URLImpl::headerHandler(void *ptr, size_t size, size_t nmemb, void *userdata) { URLImpl* url = (URLImpl*)userdata; url->_rawInHeader.write((char*)ptr, size * nmemb); std::set::iterator monIter = url->_monitors.begin(); while(monIter != url->_monitors.end()) { (*monIter)->headerChunkReceived(URL(url->shared_from_this()), std::string((char*)ptr, size * nmemb)); monIter++; } return size * nmemb; } void URLImpl::downloadStarted() { // LOG(INFO) << "Starting download of " << asString() << std::endl; _rawInContent.str(""); _rawInContent.clear(); _rawInHeader.str(""); _rawInHeader.clear(); _statusMsg = ""; _statusCode = ""; std::set::iterator monIter = _monitors.begin(); while(monIter != _monitors.end()) { (*monIter)->downloadStarted(URL(shared_from_this())); monIter++; } } void URLImpl::downloadCompleted() { std::lock_guard lock(_mutex); if (iequals(scheme(), "http")) { // process header fields std::string line; while (std::getline(_rawInHeader, line)) { size_t colon = line.find_first_of(":"); size_t newline = line.find_first_of("\r\n"); if (newline == std::string::npos) newline = line.size(); if (colon == std::string::npos) { _statusMsg = line.substr(0, newline); if (_statusMsg.length() >= 11) _statusCode = _statusMsg.substr(9, 3); } else { std::string key = line.substr(0, colon); size_t firstChar = line.find_first_not_of(": ", colon, 2); if (firstChar == std::string::npos) { // nothing but spaces? _inHeaders[line.substr(0, newline)] = ""; } else { std::string value = line.substr(firstChar, newline - firstChar); _inHeaders[key] = value; } } } } _hasFailed = false; _isDownloaded = true; _condVar.notify_all(); std::set::iterator monIter = _monitors.begin(); while(monIter != _monitors.end()) { (*monIter)->downloadCompleted(URL(shared_from_this())); monIter++; } } void URLImpl::downloadFailed(CURLcode errorCode) { std::lock_guard lock(_mutex); _error = curl_easy_strerror(errorCode); _hasFailed = true; _isDownloaded = false; _condVar.notify_all(); std::set::iterator monIter = _monitors.begin(); while(monIter != _monitors.end()) { (*monIter)->downloadFailed(URL(shared_from_this()), errorCode); monIter++; } } const void URLImpl::download(bool blocking) { std::lock_guard lock(_mutex); if (_isDownloaded) return; URL url(shared_from_this()); URLFetcher::fetchURL(url); if (blocking) { while(!_isDownloaded && !_hasFailed) { _condVar.wait(_mutex); // wait for notification } if (_hasFailed) { ERROR_COMMUNICATION(exc, _error); // exc.data = URL(shared_from_this()); throw exc; } if (iequals(scheme(), "http")) { if (_statusCode.size() > 0 && strTo(_statusCode) > 400) { ERROR_COMMUNICATION(exc, _error); // exc.data = URL(shared_from_this()); if (_error.length() > 0) exc.data.compound["cause"] = Data(_error, Data::VERBATIM); throw exc; } } } } URLImpl::operator Data() const { Data data; data.compound["url"] = Data(std::string(*this), Data::VERBATIM); data.compound["host"] = Data(host(), Data::VERBATIM); data.compound["scheme"] = Data(scheme(), Data::VERBATIM); data.compound["path"] = Data(path(), Data::VERBATIM); data.compound["port"] = Data(port(), Data::INTERPRETED); data.compound["isAbsolute"] = Data(isAbsolute()); if (_statusCode.length() > 0) data.compound["statusCode"] = Data(_statusCode, Data::VERBATIM); if (_statusMsg.length() > 0) data.compound["statusMsg"] = Data(_statusMsg, Data::VERBATIM); std::list pathComps = pathComponents(); std::list::const_iterator pathIter = pathComps.begin(); while(pathIter != pathComps.end()) { data.compound["pathComponent"].array.push_back(Data(*pathIter, Data::VERBATIM)); pathIter++; } return data; } URLImpl::operator std::string() const { int charsRequired = 0; if (uriToStringCharsRequiredA(&_uri, &charsRequired) != URI_SUCCESS) { throw ErrorEvent("Cannot recompose URL"); } charsRequired++; char * uriString; uriString = (char*)malloc(charsRequired * sizeof(char)); if (uriString == NULL) { throw ErrorEvent("Malloc failed"); } if (uriToStringA(uriString, &_uri, charsRequired, NULL) != URI_SUCCESS) { free(uriString); throw ErrorEvent("Cannot recompose URL"); } std::string recomposed(uriString); free(uriString); return recomposed; } URLFetcher::URLFetcher() { _isStarted = false; _envProxy = NULL; _multiHandle = curl_multi_init(); // read proxy information from environment // CURLOPT_PROXY; // CURLOPT_PROXY_TRANSFER_MODE; // CURLOPT_PROXYAUTH; // CURLOPT_PROXYHEADER; // CURLOPT_PROXYPASSWORD; // CURLOPT_PROXYPORT; // CURLOPT_PROXYTYPE; // CURLOPT_PROXYUSERNAME; // CURLOPT_PROXYUSERPWD; /* see http://curl.haxx.se/libcurl/c/CURLOPT_PROXY.html e.g. 'socks5://bob:marley@localhost:12345' */ _envProxy = getenv("USCXML_PROXY"); #if 0 bool unsupported = false; CURLcode curlError; // exposed just in case char* envProxyTransferMode = getenv("USCXML_PROXY_TRANSFER_MODE"); char* envProxyAuth = getenv("USCXML_PROXYAUTH"); // char* envProxyHeader = getenv("USCXML_PROXYHEADER"); // not available in older curl char* envProxyPassword = getenv("USCXML_PROXYPASSWORD"); char* envProxyPort = getenv("USCXML_PROXYPORT"); // char* envProxyType = getenv("USCXML_PROXYTYPE"); // takes an int, have another look if needed char* envProxyUsername = getenv("USCXML_PROXYUSERNAME"); char* envProxyUserPwd = getenv("USCXML_PROXYUSERPWD"); /* Name of proxy to use. */ if (envProxy) (curlError = curl_easy_setopt(_multiHandle, CURLOPT_PROXY, envProxy)) == CURLE_OK || LOG(ERROR) << "Cannot set curl proxy: " << curl_easy_strerror(curlError); /* set transfer mode (;type=) when doing FTP via an HTTP proxy */ if (envProxyTransferMode) (curlError = curl_easy_setopt(_multiHandle, CURLOPT_PROXY_TRANSFER_MODE, envProxyTransferMode)) == CURLE_OK || LOG(ERROR) << "Cannot set curl proxy transfer mode: " << curl_easy_strerror(curlError); /* Set this to a bitmask value to enable the particular authentications methods you like. Use this in combination with CURLOPT_PROXYUSERPWD. Note that setting multiple bits may cause extra network round-trips. */ if (envProxyAuth) (curlError = curl_easy_setopt(_multiHandle, CURLOPT_PROXYAUTH, envProxyAuth)) == CURLE_OK || LOG(ERROR) << "Cannot set curl proxy authentication: " << curl_easy_strerror(curlError); #if 0 /* This points to a linked list of headers used for proxy requests only, struct curl_slist kind */ if (envProxyHeader && unsupported) (curlError = curl_easy_setopt(_multiHandle, CURLOPT_PROXYHEADER, envProxyHeader)) == CURLE_OK || LOG(ERROR) << "Cannot set curl proxy header: " << curl_easy_strerror(curlError); #endif /* "name" and "pwd" to use with Proxy when fetching. */ if (envProxyUsername) (curlError = curl_easy_setopt(_multiHandle, CURLOPT_PROXYUSERNAME, envProxyUsername)) == CURLE_OK || LOG(ERROR) << "Cannot set curl proxy username: " << curl_easy_strerror(curlError); if (envProxyPassword) (curlError = curl_easy_setopt(_multiHandle, CURLOPT_PROXYPASSWORD, envProxyPassword)) == CURLE_OK || LOG(ERROR) << "Cannot set curl proxy password: " << curl_easy_strerror(curlError); /* Port of the proxy, can be set in the proxy string as well with: "[host]:[port]" */ if (envProxyPort) (curlError = curl_easy_setopt(_multiHandle, CURLOPT_PROXYPORT, envProxyPort)) == CURLE_OK || LOG(ERROR) << "Cannot set curl proxy port: " << curl_easy_strerror(curlError); #if 0 /* indicates type of proxy. accepted values are CURLPROXY_HTTP (default), CURLPROXY_SOCKS4, CURLPROXY_SOCKS4A and CURLPROXY_SOCKS5. */ if (envProxyType && unsupported) (curlError = curl_easy_setopt(_multiHandle, CURLOPT_PROXYTYPE, envProxyType)) == CURLE_OK || LOG(ERROR) << "Cannot set curl proxy type: " << curl_easy_strerror(curlError); #endif /* "user:password" to use with proxy. */ if (envProxyUserPwd) (curlError = curl_easy_setopt(_multiHandle, CURLOPT_PROXYUSERPWD, envProxyUserPwd)) == CURLE_OK || LOG(ERROR) << "Cannot set curl proxy user password: " << curl_easy_strerror(curlError); #endif start(); } URLFetcher::~URLFetcher() { stop(); curl_multi_cleanup(_multiHandle); } void URLFetcher::fetchURL(URL& url) { URLFetcher* instance = getInstance(); std::lock_guard lock(instance->_mutex); CURL* handle = url._impl->getCurlHandle(); assert(handle != NULL); if (handle == NULL) return; if (instance->_handlesToURLs.find(handle) == instance->_handlesToURLs.end()) { CURLcode curlError; std::string fromURL(url); (curlError = curl_easy_setopt(handle, CURLOPT_URL, fromURL.c_str())) == CURLE_OK || LOG(ERROR) << "Cannot set url to " << std::string(url) << ": " << curl_easy_strerror(curlError); // (curlError = curl_easy_setopt(handle, CURLOPT_NOSIGNAL, 1)) == CURLE_OK || // LOG(ERROR) << "Cannot set curl to ignore signals: " << curl_easy_strerror(curlError); // (curlError = curl_easy_setopt(handle, CURLOPT_FORBID_REUSE, 1)) == CURLE_OK || // LOG(ERROR) << "Cannot force noreuse: " << curl_easy_strerror(curlError); // (curlError = curl_easy_setopt(handle, CURLOPT_VERBOSE, 1)) == CURLE_OK || // LOG(ERROR) << "Cannot set verbose: " << curl_easy_strerror(curlError); (curlError = curl_easy_setopt(handle, CURLOPT_WRITEDATA, url._impl.get())) == CURLE_OK || LOG(ERROR) << "Cannot register this as write userdata: " << curl_easy_strerror(curlError); (curlError = curl_easy_setopt(handle, CURLOPT_WRITEFUNCTION, URLImpl::writeHandler)) == CURLE_OK || LOG(ERROR) << "Cannot set write callback: " << curl_easy_strerror(curlError); (curlError = curl_easy_setopt(handle, CURLOPT_HEADERFUNCTION, URLImpl::headerHandler)) == CURLE_OK || LOG(ERROR) << "Cannot request header from curl: " << curl_easy_strerror(curlError); (curlError = curl_easy_setopt(handle, CURLOPT_HEADERDATA, url._impl.get())) == CURLE_OK || LOG(ERROR) << "Cannot register this as header userdata: " << curl_easy_strerror(curlError); (curlError = curl_easy_setopt(handle, CURLOPT_SSL_VERIFYPEER, false)) == CURLE_OK || LOG(ERROR) << "Cannot forfeit peer verification: " << curl_easy_strerror(curlError); (curlError = curl_easy_setopt(handle, CURLOPT_USERAGENT, "uscxml/" USCXML_VERSION)) == CURLE_OK || LOG(ERROR) << "Cannot set our user agent string: " << curl_easy_strerror(curlError); (curlError = curl_easy_setopt(handle, CURLOPT_FOLLOWLOCATION, true)) == CURLE_OK || LOG(ERROR) << "Cannot enable follow redirects: " << curl_easy_strerror(curlError); if (instance->_envProxy) (curlError = curl_easy_setopt(handle, CURLOPT_PROXY, instance->_envProxy)) == CURLE_OK || LOG(ERROR) << "Cannot set curl proxy: " << curl_easy_strerror(curlError); if (url._impl->_requestType == URLRequestType::POST) { (curlError = curl_easy_setopt(handle, CURLOPT_POST, 1)) == CURLE_OK || LOG(ERROR) << "Cannot set request type to post for " << std::string(url) << ": " << curl_easy_strerror(curlError); (curlError = curl_easy_setopt(handle, CURLOPT_COPYPOSTFIELDS, url._impl->_outContent.c_str())) == CURLE_OK || LOG(ERROR) << "Cannot set post data " << std::string(url) << ": " << curl_easy_strerror(curlError); // Disable "Expect: 100-continue" // curl_slist* disallowed_headers = 0; // disallowed_headers = curl_slist_append(disallowed_headers, "Expect:"); // (curlError = curl_easy_setopt(handle, CURLOPT_HTTPHEADER, disallowed_headers)) == CURLE_OK || // LOG(ERROR) << "Cannot disable Expect 100 header: " << curl_easy_strerror(curlError); struct curl_slist* headers = NULL; std::map::iterator paramIter = url._impl->_outHeader.begin(); while(paramIter != url._impl->_outHeader.end()) { // char* key = curl_easy_escape(handle, paramIter->first.c_str(), paramIter->first.length()); // char* value = curl_easy_escape(handle, paramIter->second.c_str(), paramIter->second.length()); const char* value = paramIter->second.c_str(); char* header = (char*)malloc(paramIter->first.size() + strlen(value) + 3); sprintf(header,"%s: %s", paramIter->first.c_str(), value); headers = curl_slist_append(headers, header); free(header); // curl_free(key); // curl_free(value); paramIter++; } // Disable "Expect: 100-continue" headers = curl_slist_append(headers, "Expect:"); instance->_handlesToHeaders[handle] = headers; (curlError = curl_easy_setopt(handle, CURLOPT_HTTPHEADER, headers)) == CURLE_OK || LOG(ERROR) << "Cannot headers for " << std::string(url) << ": " << curl_easy_strerror(curlError); // curl_slist_free_all(headers); } else if (url._impl->_requestType == URLRequestType::GET) { (curlError = curl_easy_setopt(handle, CURLOPT_HTTPGET, 1)) == CURLE_OK || LOG(ERROR) << "Cannot set request type to get for " << std::string(url) << ": " << curl_easy_strerror(curlError); } url._impl->downloadStarted(); instance->_handlesToURLs[handle] = url; assert(instance->_handlesToURLs.size() > 0); curl_multi_add_handle(instance->_multiHandle, handle); instance->_condVar.notify_all(); } } void URLFetcher::breakURL(URL& url) { URLFetcher* instance = getInstance(); CURL* handle = url._impl->getCurlHandle(); std::lock_guard lock(instance->_mutex); if (instance->_handlesToURLs.find(handle) != instance->_handlesToURLs.end()) { url._impl->downloadFailed(CURLE_OK); curl_multi_remove_handle(instance->_multiHandle, handle); instance->_handlesToURLs.erase(handle); } if (instance->_handlesToHeaders.find(handle) != instance->_handlesToHeaders.end()) { curl_slist_free_all(instance->_handlesToHeaders[handle]); instance->_handlesToHeaders.erase(handle); } } void URLFetcher::start() { std::lock_guard lock(_mutex); if (!_isStarted) { _isStarted = true; _thread = new std::thread(URLFetcher::run, this); } } void URLFetcher::stop() { std::lock_guard lock(_mutex); if (_isStarted) { _isStarted = false; _thread->join(); delete _thread; } } void URLFetcher::run(void* instance) { URLFetcher* fetcher = (URLFetcher*)instance; while(fetcher->_isStarted) { fetcher->perform(); } LOG(ERROR) << "URLFetcher thread stopped!"; } void URLFetcher::perform() { CURLMsg *msg; /* for picking up messages with the transfer status */ int msgsLeft; /* how many messages are left */ int stillRunning; CURLMcode err; { std::lock_guard lock(_mutex); if (_handlesToURLs.empty()) { _condVar.wait(_mutex); } err = curl_multi_perform(_multiHandle, &stillRunning); if (err != CURLM_OK) { LOG(WARNING) << "curl_multi_perform: " << curl_multi_strerror(err); } } do { struct timeval timeout; int rc; /* select() return code */ fd_set fdread, fdwrite, fdexcep; FD_ZERO(&fdread); FD_ZERO(&fdwrite); FD_ZERO(&fdexcep); int maxfd = -1; long curlTimeOut = -1; /* set a suitable timeout to play around with */ timeout.tv_sec = 1; timeout.tv_usec = 0; { std::lock_guard lock(_mutex); err = curl_multi_timeout(_multiHandle, &curlTimeOut); if (err != CURLM_OK) { LOG(WARNING) << "curl_multi_timeout: " << curl_multi_strerror(err); } } if(curlTimeOut >= 0) { timeout.tv_sec = curlTimeOut / 1000; if(timeout.tv_sec > 1) { timeout.tv_sec = 1; } else { timeout.tv_usec = (curlTimeOut % 1000) * 1000; } } /* get file descriptors from the transfers */ { std::lock_guard lock(_mutex); err = curl_multi_fdset(_multiHandle, &fdread, &fdwrite, &fdexcep, &maxfd); if (err != CURLM_OK) { LOG(WARNING) << "curl_multi_fdset: " << curl_multi_strerror(err); } } rc = select(maxfd+1, &fdread, &fdwrite, &fdexcep, &timeout); switch(rc) { case -1: /* select error */ break; case 0: /* timeout */ default: { /* action */ std::lock_guard lock(_mutex); err = curl_multi_perform(_multiHandle, &stillRunning); if (err != CURLM_OK) { LOG(WARNING) << "curl_multi_perform: " << curl_multi_strerror(err); } break; } } { std::lock_guard lock(_mutex); while ((msg = curl_multi_info_read(_multiHandle, &msgsLeft))) { if (msg->msg == CURLMSG_DONE) { switch (msg->data.result) { case CURLE_OK: _handlesToURLs[msg->easy_handle]._impl->downloadCompleted(); err = curl_multi_remove_handle(_multiHandle, msg->easy_handle); if (err != CURLM_OK) { LOG(WARNING) << "curl_multi_remove_handle: " << curl_multi_strerror(err); } break; default: _handlesToURLs[msg->easy_handle]._impl->downloadFailed(msg->data.result); err = curl_multi_remove_handle(_multiHandle, msg->easy_handle); if (err != CURLM_OK) { LOG(WARNING) << "curl_multi_remove_handle: " << curl_multi_strerror(err); } break; } _handlesToURLs.erase(msg->easy_handle); curl_slist_free_all(_handlesToHeaders[msg->easy_handle]); _handlesToHeaders.erase(msg->easy_handle); } else { LOG(ERROR) << "Curl reports info on unfinished download?!"; } } } } while(stillRunning && _isStarted); } URLFetcher* URLFetcher::_instance = NULL; URLFetcher* URLFetcher::getInstance() { if (_instance == NULL) { _instance = new URLFetcher(); } return _instance; } }