/**************************************************************************** Copyright (c) 2012 greathqy Copyright (c) 2012 cocos2d-x.org Copyright (c) 2013-2016 Chukong Technologies Inc. Copyright (c) 2017-2018 Xiamen Yaji Software Co., Ltd. http://www.cocos2d-x.org Permission is hereby granted, free of charge, to any person obtaining a copy of this software and associated documentation files (the "Software"), to deal in the Software without restriction, including without limitation the rights to use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of the Software, and to permit persons to whom the Software is furnished to do so, subject to the following conditions: The above copyright notice and this permission notice shall be included in all copies or substantial portions of the Software. THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. ****************************************************************************/ #include "network/HttpClient.h" #include #include #include #include "base/CCDirector.h" #include "platform/CCFileUtils.h" NS_CC_BEGIN namespace network { #if (CC_TARGET_PLATFORM == CC_PLATFORM_WIN32) typedef int int32_t; #endif static HttpClient* _httpClient = nullptr; // pointer to singleton typedef size_t (*write_callback)(void *ptr, size_t size, size_t nmemb, void *stream); // Callback function used by libcurl for collect response data static size_t writeData(void *ptr, size_t size, size_t nmemb, void *stream) { std::vector *recvBuffer = (std::vector*)stream; size_t sizes = size * nmemb; // add data to the end of recvBuffer // write data maybe called more than once in a single request recvBuffer->insert(recvBuffer->end(), (char*)ptr, (char*)ptr+sizes); return sizes; } // Callback function used by libcurl for collect header data static size_t writeHeaderData(void *ptr, size_t size, size_t nmemb, void *stream) { std::vector *recvBuffer = (std::vector*)stream; size_t sizes = size * nmemb; // add data to the end of recvBuffer // write data maybe called more than once in a single request recvBuffer->insert(recvBuffer->end(), (char*)ptr, (char*)ptr+sizes); return sizes; } static int processGetTask(HttpClient* client, HttpRequest* request, write_callback callback, void *stream, long *errorCode, write_callback headerCallback, void *headerStream, char* errorBuffer); static int processPostTask(HttpClient* client, HttpRequest* request, write_callback callback, void *stream, long *errorCode, write_callback headerCallback, void *headerStream, char* errorBuffer); static int processPutTask(HttpClient* client, HttpRequest* request, write_callback callback, void *stream, long *errorCode, write_callback headerCallback, void *headerStream, char* errorBuffer); static int processDeleteTask(HttpClient* client, HttpRequest* request, write_callback callback, void *stream, long *errorCode, write_callback headerCallback, void *headerStream, char* errorBuffer); // int processDownloadTask(HttpRequest *task, write_callback callback, void *stream, int32_t *errorCode); // Worker thread void HttpClient::networkThread() { increaseThreadCount(); while (true) { HttpRequest *request; // step 1: send http request if the requestQueue isn't empty { std::lock_guard lock(_requestQueueMutex); while (_requestQueue.empty()) { _sleepCondition.wait(_requestQueueMutex); } request = _requestQueue.at(0); _requestQueue.erase(0); } if (request == _requestSentinel) { break; } // step 2: libcurl sync access // Create a HttpResponse object, the default setting is http access failed HttpResponse *response = new (std::nothrow) HttpResponse(request); processResponse(response, _responseMessage); // add response packet into queue _responseQueueMutex.lock(); _responseQueue.pushBack(response); _responseQueueMutex.unlock(); _schedulerMutex.lock(); if (nullptr != _scheduler) { _scheduler->performFunctionInCocosThread(CC_CALLBACK_0(HttpClient::dispatchResponseCallbacks, this)); } _schedulerMutex.unlock(); } // cleanup: if worker thread received quit signal, clean up un-completed request queue _requestQueueMutex.lock(); _requestQueue.clear(); _requestQueueMutex.unlock(); _responseQueueMutex.lock(); _responseQueue.clear(); _responseQueueMutex.unlock(); decreaseThreadCountAndMayDeleteThis(); } // Worker thread void HttpClient::networkThreadAlone(HttpRequest* request, HttpResponse* response) { increaseThreadCount(); char responseMessage[RESPONSE_BUFFER_SIZE] = { 0 }; processResponse(response, responseMessage); _schedulerMutex.lock(); if (nullptr != _scheduler) { _scheduler->performFunctionInCocosThread([this, response, request]{ const ccHttpRequestCallback& callback = request->getCallback(); Ref* pTarget = request->getTarget(); SEL_HttpResponse pSelector = request->getSelector(); if (callback != nullptr) { callback(this, response); } else if (pTarget && pSelector) { (pTarget->*pSelector)(this, response); } response->release(); // do not release in other thread request->release(); }); } _schedulerMutex.unlock(); decreaseThreadCountAndMayDeleteThis(); } //Configure curl's timeout property static bool configureCURL(HttpClient* client, CURL* handle, char* errorBuffer) { if (!handle) { return false; } int32_t code; code = curl_easy_setopt(handle, CURLOPT_ERRORBUFFER, errorBuffer); if (code != CURLE_OK) { return false; } code = curl_easy_setopt(handle, CURLOPT_TIMEOUT, HttpClient::getInstance()->getTimeoutForRead()); if (code != CURLE_OK) { return false; } code = curl_easy_setopt(handle, CURLOPT_CONNECTTIMEOUT, HttpClient::getInstance()->getTimeoutForConnect()); if (code != CURLE_OK) { return false; } std::string sslCaFilename = client->getSSLVerification(); if (sslCaFilename.empty()) { curl_easy_setopt(handle, CURLOPT_SSL_VERIFYPEER, 0L); curl_easy_setopt(handle, CURLOPT_SSL_VERIFYHOST, 0L); } else { curl_easy_setopt(handle, CURLOPT_SSL_VERIFYPEER, 1L); curl_easy_setopt(handle, CURLOPT_SSL_VERIFYHOST, 2L); curl_easy_setopt(handle, CURLOPT_CAINFO, sslCaFilename.c_str()); } // FIXED #3224: The subthread of CCHttpClient interrupts main thread if timeout comes. // Document is here: http://curl.haxx.se/libcurl/c/curl_easy_setopt.html#CURLOPTNOSIGNAL curl_easy_setopt(handle, CURLOPT_NOSIGNAL, 1L); curl_easy_setopt(handle, CURLOPT_ACCEPT_ENCODING, ""); return true; } class CURLRaii { /// Instance of CURL CURL *_curl; /// Keeps custom header data curl_slist *_headers; public: CURLRaii() : _curl(curl_easy_init()) , _headers(nullptr) { } ~CURLRaii() { if (_curl) curl_easy_cleanup(_curl); /* free the linked list for header data */ if (_headers) curl_slist_free_all(_headers); } template bool setOption(CURLoption option, T data) { return CURLE_OK == curl_easy_setopt(_curl, option, data); } /** * @brief Inits CURL instance for common usage * @param request Null not allowed * @param callback Response write callback * @param stream Response write stream */ bool init(HttpClient* client, HttpRequest* request, write_callback callback, void* stream, write_callback headerCallback, void* headerStream, char* errorBuffer) { if (!_curl) return false; if (!configureCURL(client, _curl, errorBuffer)) return false; /* get custom header data (if set) */ std::vector headers=request->getHeaders(); if(!headers.empty()) { /* append custom headers one by one */ for (auto& header : headers) _headers = curl_slist_append(_headers,header.c_str()); /* set custom headers for curl */ if (!setOption(CURLOPT_HTTPHEADER, _headers)) return false; } std::string cookieFilename = client->getCookieFilename(); if (!cookieFilename.empty()) { if (!setOption(CURLOPT_COOKIEFILE, cookieFilename.c_str())) { return false; } if (!setOption(CURLOPT_COOKIEJAR, cookieFilename.c_str())) { return false; } } return setOption(CURLOPT_URL, request->getUrl()) && setOption(CURLOPT_WRITEFUNCTION, callback) && setOption(CURLOPT_WRITEDATA, stream) && setOption(CURLOPT_HEADERFUNCTION, headerCallback) && setOption(CURLOPT_HEADERDATA, headerStream); } /// @param responseCode Null not allowed bool perform(long *responseCode) { if (CURLE_OK != curl_easy_perform(_curl)) return false; CURLcode code = curl_easy_getinfo(_curl, CURLINFO_RESPONSE_CODE, responseCode); if (code != CURLE_OK || !(*responseCode >= 200 && *responseCode < 300)) { CCLOGERROR("Curl curl_easy_getinfo failed: %s", curl_easy_strerror(code)); return false; } // Get some mor data. return true; } }; //Process Get Request static int processGetTask(HttpClient* client, HttpRequest* request, write_callback callback, void* stream, long* responseCode, write_callback headerCallback, void* headerStream, char* errorBuffer) { CURLRaii curl; bool ok = curl.init(client, request, callback, stream, headerCallback, headerStream, errorBuffer) && curl.setOption(CURLOPT_FOLLOWLOCATION, true) && curl.perform(responseCode); return ok ? 0 : 1; } //Process POST Request static int processPostTask(HttpClient* client, HttpRequest* request, write_callback callback, void* stream, long* responseCode, write_callback headerCallback, void* headerStream, char* errorBuffer) { CURLRaii curl; bool ok = curl.init(client, request, callback, stream, headerCallback, headerStream, errorBuffer) && curl.setOption(CURLOPT_POST, 1) && curl.setOption(CURLOPT_POSTFIELDS, request->getRequestData()) && curl.setOption(CURLOPT_POSTFIELDSIZE, request->getRequestDataSize()) && curl.perform(responseCode); return ok ? 0 : 1; } //Process PUT Request static int processPutTask(HttpClient* client, HttpRequest* request, write_callback callback, void* stream, long* responseCode, write_callback headerCallback, void* headerStream, char* errorBuffer) { CURLRaii curl; bool ok = curl.init(client, request, callback, stream, headerCallback, headerStream, errorBuffer) && curl.setOption(CURLOPT_CUSTOMREQUEST, "PUT") && curl.setOption(CURLOPT_POSTFIELDS, request->getRequestData()) && curl.setOption(CURLOPT_POSTFIELDSIZE, request->getRequestDataSize()) && curl.perform(responseCode); return ok ? 0 : 1; } //Process DELETE Request static int processDeleteTask(HttpClient* client, HttpRequest* request, write_callback callback, void* stream, long* responseCode, write_callback headerCallback, void* headerStream, char* errorBuffer) { CURLRaii curl; bool ok = curl.init(client, request, callback, stream, headerCallback, headerStream, errorBuffer) && curl.setOption(CURLOPT_CUSTOMREQUEST, "DELETE") && curl.setOption(CURLOPT_FOLLOWLOCATION, true) && curl.perform(responseCode); return ok ? 0 : 1; } // HttpClient implementation HttpClient* HttpClient::getInstance() { if (_httpClient == nullptr) { _httpClient = new (std::nothrow) HttpClient(); } return _httpClient; } void HttpClient::destroyInstance() { if (nullptr == _httpClient) { CCLOG("HttpClient singleton is nullptr"); return; } CCLOG("HttpClient::destroyInstance begin"); auto thiz = _httpClient; _httpClient = nullptr; thiz->_scheduler->unscheduleAllForTarget(thiz); thiz->_schedulerMutex.lock(); thiz->_scheduler = nullptr; thiz->_schedulerMutex.unlock(); thiz->_requestQueueMutex.lock(); thiz->_requestQueue.pushBack(thiz->_requestSentinel); thiz->_requestQueueMutex.unlock(); thiz->_sleepCondition.notify_one(); thiz->decreaseThreadCountAndMayDeleteThis(); CCLOG("HttpClient::destroyInstance() finished!"); } void HttpClient::enableCookies(const char* cookieFile) { std::lock_guard lock(_cookieFileMutex); if (cookieFile) { _cookieFilename = std::string(cookieFile); } else { _cookieFilename = (FileUtils::getInstance()->getWritablePath() + "cookieFile.txt"); } } void HttpClient::setSSLVerification(const std::string& caFile) { std::lock_guard lock(_sslCaFileMutex); _sslCaFilename = caFile; } HttpClient::HttpClient() : _isInited(false) , _timeoutForConnect(30) , _timeoutForRead(60) , _threadCount(0) , _cookie(nullptr) , _requestSentinel(new HttpRequest()) , _clearRequestPredicate(nullptr) , _clearResponsePredicate(nullptr) { CCLOG("In the constructor of HttpClient!"); memset(_responseMessage, 0, RESPONSE_BUFFER_SIZE * sizeof(char)); _scheduler = Director::getInstance()->getScheduler(); increaseThreadCount(); } HttpClient::~HttpClient() { CC_SAFE_RELEASE(_requestSentinel); CCLOG("HttpClient destructor"); } //Lazy create semaphore & mutex & thread bool HttpClient::lazyInitThreadSemaphore() { if (_isInited) { return true; } else { auto t = std::thread(CC_CALLBACK_0(HttpClient::networkThread, this)); t.detach(); _isInited = true; } return true; } //Add a get task to queue void HttpClient::send(HttpRequest* request) { if (false == lazyInitThreadSemaphore()) { return; } if (!request) { return; } request->retain(); _requestQueueMutex.lock(); _requestQueue.pushBack(request); _requestQueueMutex.unlock(); // Notify thread start to work _sleepCondition.notify_one(); } void HttpClient::sendImmediate(HttpRequest* request) { if(!request) { return; } request->retain(); // Create a HttpResponse object, the default setting is http access failed HttpResponse *response = new (std::nothrow) HttpResponse(request); auto t = std::thread(&HttpClient::networkThreadAlone, this, request, response); t.detach(); } // Poll and notify main thread if responses exists in queue void HttpClient::dispatchResponseCallbacks() { // log("CCHttpClient::dispatchResponseCallbacks is running"); //occurs when cocos thread fires but the network thread has already quited HttpResponse* response = nullptr; _responseQueueMutex.lock(); if (!_responseQueue.empty()) { response = _responseQueue.at(0); _responseQueue.erase(0); } _responseQueueMutex.unlock(); if (response) { HttpRequest *request = response->getHttpRequest(); const ccHttpRequestCallback& callback = request->getCallback(); Ref* pTarget = request->getTarget(); SEL_HttpResponse pSelector = request->getSelector(); if (callback != nullptr) { callback(this, response); } else if (pTarget && pSelector) { (pTarget->*pSelector)(this, response); } response->release(); // do not release in other thread request->release(); } } // Process Response void HttpClient::processResponse(HttpResponse* response, char* responseMessage) { auto request = response->getHttpRequest(); long responseCode = -1; int retValue = 0; // Process the request -> get response packet switch (request->getRequestType()) { case HttpRequest::Type::GET: // HTTP GET retValue = processGetTask(this, request, writeData, response->getResponseData(), &responseCode, writeHeaderData, response->getResponseHeader(), responseMessage); break; case HttpRequest::Type::POST: // HTTP POST retValue = processPostTask(this, request, writeData, response->getResponseData(), &responseCode, writeHeaderData, response->getResponseHeader(), responseMessage); break; case HttpRequest::Type::PUT: retValue = processPutTask(this, request, writeData, response->getResponseData(), &responseCode, writeHeaderData, response->getResponseHeader(), responseMessage); break; case HttpRequest::Type::DELETE: retValue = processDeleteTask(this, request, writeData, response->getResponseData(), &responseCode, writeHeaderData, response->getResponseHeader(), responseMessage); break; default: CCASSERT(false, "CCHttpClient: unknown request type, only GET, POST, PUT or DELETE is supported"); break; } // write data to HttpResponse response->setResponseCode(responseCode); if (retValue != 0) { response->setSucceed(false); response->setErrorBuffer(responseMessage); } else { response->setSucceed(true); } } void HttpClient::clearResponseAndRequestQueue() { _requestQueueMutex.lock(); if (_requestQueue.size()) { for (auto it = _requestQueue.begin(); it != _requestQueue.end();) { if(!_clearRequestPredicate || _clearRequestPredicate((*it))) { (*it)->release(); it =_requestQueue.erase(it); } else { it++; } } } _requestQueueMutex.unlock(); _responseQueueMutex.lock(); if (_clearResponsePredicate) { _responseQueue.erase(std::remove_if(_responseQueue.begin(), _responseQueue.end(), _clearResponsePredicate), _responseQueue.end()); } else { _responseQueue.clear(); } _responseQueueMutex.unlock(); } void HttpClient::increaseThreadCount() { _threadCountMutex.lock(); ++_threadCount; _threadCountMutex.unlock(); } void HttpClient::decreaseThreadCountAndMayDeleteThis() { bool needDeleteThis = false; _threadCountMutex.lock(); --_threadCount; if (0 == _threadCount) { needDeleteThis = true; } _threadCountMutex.unlock(); if (needDeleteThis) { delete this; } } void HttpClient::setTimeoutForConnect(int value) { std::lock_guard lock(_timeoutForConnectMutex); _timeoutForConnect = value; } int HttpClient::getTimeoutForConnect() { std::lock_guard lock(_timeoutForConnectMutex); return _timeoutForConnect; } void HttpClient::setTimeoutForRead(int value) { std::lock_guard lock(_timeoutForReadMutex); _timeoutForRead = value; } int HttpClient::getTimeoutForRead() { std::lock_guard lock(_timeoutForReadMutex); return _timeoutForRead; } const std::string& HttpClient::getCookieFilename() { std::lock_guard lock(_cookieFileMutex); return _cookieFilename; } const std::string& HttpClient::getSSLVerification() { std::lock_guard lock(_sslCaFileMutex); return _sslCaFilename; } } NS_CC_END