std::string ZLCurlNetworkManager::perform(const ZLExecutionData::Vector &dataList) const {
const ZLResource &errorResource = ZLResource::resource("dialog")["networkError"];
if (dataList.empty()) {
return errorResource["emptyLibrariesList"].value();
}
std::set<std::string> errors;
const std::string proxy = proxyHost() + ':' + proxyPort();
CURLM *handle = curl_multi_init();
std::map<CURL*,shared_ptr<ZLExecutionData> > handleToRequest;
for (ZLExecutionData::Vector::const_iterator it = dataList.begin(); it != dataList.end(); ++it) {
if (it->isNull() || !(*it)->isInstanceOf(ZLNetworkRequest::TYPE_ID)) {
continue;
}
ZLNetworkRequest &request = (ZLNetworkRequest&)**it;
const std::string err = doBeforeRequest(request);
if (!err.empty()) {
errors.insert(err);
continue;
}
CURL *easyHandle = curl_easy_init();
if (easyHandle != 0) {
handleToRequest[easyHandle] = *it;
setStandardOptions(easyHandle, proxy);
setRequestOptions(easyHandle, request);
curl_multi_add_handle(handle, easyHandle);
}
}
int counter;
CURLMcode res;
do {
res = curl_multi_perform(handle, &counter);
} while ((res == CURLM_CALL_MULTI_PERFORM) || (counter > 0));
CURLMsg *message;
do {
int queueSize;
message = curl_multi_info_read(handle, &queueSize);
if ((message != 0) && (message->msg == CURLMSG_DONE)) {
ZLNetworkRequest &request = (ZLNetworkRequest&)*handleToRequest[message->easy_handle];
const std::string &url = request.url();
CURLcode result = message->data.result;
bool doAfterResult = request.doAfter(result == CURLE_OK);
if (result == CURLE_OK && !doAfterResult) {
result = CURLE_WRITE_ERROR;
}
switch (result) {
case CURLE_OK:
break;
case CURLE_WRITE_ERROR:
if (!request.errorMessage().empty()) {
errors.insert(request.errorMessage());
} else {
errors.insert(ZLStringUtil::printf(errorResource["somethingWrongMessage"].value(), ZLNetworkUtil::hostFromUrl(url)));
}
break;
default:
errors.insert(ZLStringUtil::printf(errorResource["somethingWrongMessage"].value(), ZLNetworkUtil::hostFromUrl(url)));
break;
case CURLE_COULDNT_RESOLVE_PROXY:
errors.insert(ZLStringUtil::printf(errorResource["couldntResolveProxyMessage"].value(), proxyHost()));
break;
case CURLE_COULDNT_RESOLVE_HOST:
errors.insert(ZLStringUtil::printf(errorResource["couldntResolveHostMessage"].value(), ZLNetworkUtil::hostFromUrl(url)));
break;
case CURLE_COULDNT_CONNECT:
errors.insert(ZLStringUtil::printf(errorResource["couldntConnectMessage"].value(), ZLNetworkUtil::hostFromUrl(url)));
break;
case CURLE_OPERATION_TIMEDOUT:
errors.insert(errorResource["operationTimedOutMessage"].value());
break;
case CURLE_SSL_CONNECT_ERROR:
errors.insert(ZLStringUtil::printf(errorResource["sslConnectErrorMessage"].value(), curl_easy_strerror(CURLE_SSL_CONNECT_ERROR)));
break;
#if LIBCURL_VERSION_NUM > 0x071100
case CURLE_PEER_FAILED_VERIFICATION:
#else
case CURLE_SSL_PEER_CERTIFICATE:
#endif
errors.insert(ZLStringUtil::printf(errorResource["peerFailedVerificationMessage"].value(), ZLNetworkUtil::hostFromUrl(url)));
break;
case CURLE_SSL_CACERT:
errors.insert(ZLStringUtil::printf(errorResource["sslCertificateAuthorityMessage"].value(), ZLNetworkUtil::hostFromUrl(url)));
break;
case CURLE_SSL_CACERT_BADFILE:
errors.insert(ZLStringUtil::printf(errorResource["sslBadCertificateFileMessage"].value(), request.sslCertificate().Path));
break;
case CURLE_SSL_SHUTDOWN_FAILED:
errors.insert(ZLStringUtil::printf(errorResource["sslShutdownFailedMessage"].value(), ZLNetworkUtil::hostFromUrl(url)));
break;
}
}
} while ((message != 0) && (errors.size() < 3));
for (std::map<CURL*,shared_ptr<ZLExecutionData> >::const_iterator jt = handleToRequest.begin(); jt != handleToRequest.end(); ++jt) {
CURL *easyHandle = jt->first;
curl_multi_remove_handle(handle, easyHandle);
curl_easy_cleanup(easyHandle);
ZLNetworkRequest &request = (ZLNetworkRequest&)*jt->second;
clearRequestOptions(request);
}
handleToRequest.clear();
curl_multi_cleanup(handle);
std::string result;
for (std::set<std::string>::const_iterator et = errors.begin(); et != errors.end(); ++et) {
if (!result.empty()) {
result += '\n';
}
result += *et;
}
return result;
}
/*
QNetworkCookieJar *ZLQtNetworkManager::cookieJar() const {
return myCookieJar;
}
QNetworkProxy ZLQtNetworkManager::proxy() const {
if (useProxy()) {
const QString proxyHost = QString::fromStdString(ZLNetworkManager::proxyHost());
const int proxyPort = atoi(ZLNetworkManager::proxyPort().c_str());
return QNetworkProxy(QNetworkProxy::HttpProxy, proxyHost, proxyPort);
}
return QNetworkProxy(QNetworkProxy::DefaultProxy);
}
*/
std::string ZLbadaNetworkManager::perform(const ZLExecutionData::Vector &dataList) const {
AppLog("ZLbadaNetworkManager::perform");
result r = E_SUCCESS;
std::set<std::string> errors;
std::set<HttpThread*> httpTreads;
HttpMonitor* myMonitor = new HttpMonitor;
myMonitor->Construct();
int ThreadCounter = 0;
for (ZLExecutionData::Vector::const_iterator it = dataList.begin(); it != dataList.end(); ++it) {
if (it->isNull() || !(*it)->isInstanceOf(ZLNetworkRequest::TYPE_ID)) {continue;}
ZLNetworkRequest &request = (ZLNetworkRequest&)**it;
AppLog("###### request.url() = %s", request.url().c_str());
HttpThread* httpTread = new HttpThread(myMonitor, request);
httpTreads.insert(httpTread);
if (!request.doBefore()) {
//if (!request.hasListener())
{
std::string error = request.errorMessage();
if (error.empty()) {
const ZLResource &errorResource = ZLResource::resource("dialog")["networkError"];
error = ZLStringUtil::printf(errorResource["somethingWrongMessage"].value(),
request.url().c_str());
//networkRequest.url().host().toStdString());
}
errors.insert(error);
}
continue;
}
std::string error;
AppLog("new HttpThread");
r = httpTread->Construct();
if (r == E_SUCCESS) AppLog("Construct E_SUCCESS");
AppLog("Construct");
myMonitor->Enter();
AppLog("myMonitor Enter");
if (myMonitor->count > 5) {
AppLog("myMonitor count>5");
myMonitor->Wait();
AppLog("Wait %d",myMonitor->count);
}
myMonitor->Exit();
AppLog("myMonitor Exit");
if (httpTread->Start() == E_SUCCESS) AppLog("Start E_SUCCESS");
//httpTread->initRequest();
//if (__pHttpThread->OnStart()) AppLog("Start true");
AppLog("Start");
/*
qDebug("Do request to %s", qPrintable(networkRequest.url().toString()));
networkRequest.setRawHeader("User-Agent", userAgent().c_str());
QSslConfiguration configuration;
if (!request.sslCertificate().DoVerify)
configuration.setPeerVerifyMode(QSslSocket::VerifyNone);
networkRequest.setSslConfiguration(configuration);
ZLQtNetworkReplyScope scope = { &request, &replies, &errors, &eventLoop };
if (request.hasListener()) {
scope.replies = 0;
scope.errors = 0;
scope.eventLoop = 0;
}
prepareReply(scope, qVariantFromValue(data), networkRequest);
*/ }
int counter;
result res = E_SUCCESS;
myMonitor->Enter();
AppLog("Enter");
do {
myMonitor->Wait();
AppLog("Wait %d",myMonitor->count);
//AppLog("TransactionCount = %d", counter );
//res = curl_multi_perform(handle, &counter);
} while (myMonitor->count > 0);
AppLog("doAfter");
myMonitor->Exit();
AppLog("Exit");
// std::set<HttpThread*> httpTreads;
for (std::set<HttpThread*>::const_iterator it = httpTreads.begin(); it != httpTreads.end(); ++it) {
AppLog("Interator doAfter");
HttpThread* httpTread = (HttpThread*)*it;
std::string error = httpTread->myRequest->errorMessage();
//CURLcode result = message->data.result;
//bool doAfterResult = request.doAfter(result == CURLE_OK);
bool doAfterResult = httpTread->myRequest->doAfter(true);
httpTread->Join();
delete httpTread;
}
AppLog("Exit 2");
std::string result;
for (std::set<std::string>::const_iterator et = errors.begin(); et != errors.end(); ++et) {
if (!result.empty()) {
result += '\n';
}
result += *et;
}
httpTreads.clear();
delete myMonitor;
return result;
}