/** * @file llurlrequest.cpp * @author Phoenix * @date 2005-04-28 * @brief Implementation of the URLRequest class and related classes. * * $LicenseInfo:firstyear=2005&license=viewerlgpl$ * Second Life Viewer Source Code * Copyright (C) 2010, Linden Research, Inc. * * This library is free software; you can redistribute it and/or * modify it under the terms of the GNU Lesser General Public * License as published by the Free Software Foundation; * version 2.1 of the License only. * * This library 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 * Lesser General Public License for more details. * * You should have received a copy of the GNU Lesser General Public * License along with this library; if not, write to the Free Software * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA * * Linden Research, Inc., 945 Battery Street, San Francisco, CA 94111 USA * $/LicenseInfo$ */ #include "linden_common.h" #include "llurlrequest.h" #include #include #include #include "llcurl.h" #include "llioutil.h" #include "llproxy.h" #include "llpumpio.h" #include "llsd.h" #include "llstring.h" #include "apr_env.h" #include "llapr.h" /** * String constants */ const std::string CONTEXT_DEST_URI_SD_LABEL("dest_uri"); const std::string CONTEXT_TRANSFERED_BYTES("transfered_bytes"); // These are defined in llhttpnode.h/llhttpnode.cpp extern const std::string CONTEXT_REQUEST; extern const std::string CONTEXT_RESPONSE; static size_t headerCallback(void* data, size_t size, size_t nmemb, void* user); /** * class LLURLRequestDetail */ class LLURLRequestDetail { public: LLURLRequestDetail(); ~LLURLRequestDetail(); std::string mURL; LLCurlEasyRequest* mCurlRequest; LLIOPipe::buffer_ptr_t mResponseBuffer; LLChannelDescriptors mChannels; U8* mLastRead; U32 mBodyLimit; S32 mByteAccumulator; bool mIsBodyLimitSet; LLURLRequest::SSLCertVerifyCallback mSSLVerifyCallback; }; LLURLRequestDetail::LLURLRequestDetail() : mCurlRequest(NULL), mLastRead(NULL), mBodyLimit(0), mByteAccumulator(0), mIsBodyLimitSet(false), mSSLVerifyCallback(NULL) { mCurlRequest = new LLCurlEasyRequest(); if(!mCurlRequest->isValid()) //failed. { delete mCurlRequest ; mCurlRequest = NULL ; } } LLURLRequestDetail::~LLURLRequestDetail() { delete mCurlRequest; mLastRead = NULL; } void LLURLRequest::setSSLVerifyCallback(SSLCertVerifyCallback callback, void *param) { mDetail->mSSLVerifyCallback = callback; mDetail->mCurlRequest->setSSLCtxCallback(LLURLRequest::_sslCtxCallback, (void *)this); mDetail->mCurlRequest->setopt(CURLOPT_SSL_VERIFYPEER, true); mDetail->mCurlRequest->setopt(CURLOPT_SSL_VERIFYHOST, 2); } // _sslCtxFunction // Callback function called when an SSL Context is created via CURL // used to configure the context for custom cert validation CURLcode LLURLRequest::_sslCtxCallback(CURL * curl, void *sslctx, void *param) { LLURLRequest *req = (LLURLRequest *)param; if(req == NULL || req->mDetail->mSSLVerifyCallback == NULL) { SSL_CTX_set_cert_verify_callback((SSL_CTX *)sslctx, NULL, NULL); return CURLE_OK; } SSL_CTX * ctx = (SSL_CTX *) sslctx; // disable any default verification for server certs SSL_CTX_set_verify(ctx, SSL_VERIFY_NONE, NULL); // set the verification callback. SSL_CTX_set_cert_verify_callback(ctx, req->mDetail->mSSLVerifyCallback, (void *)req); // the calls are void return CURLE_OK; } /** * class LLURLRequest */ LLURLRequest::LLURLRequest(EHTTPMethod action) : mAction(action) { initialize(); } LLURLRequest::LLURLRequest( EHTTPMethod action, const std::string& url) : mAction(action) { initialize(); setURL(url); } LLURLRequest::~LLURLRequest() { delete mDetail; mDetail = NULL ; } void LLURLRequest::setURL(const std::string& url) { mDetail->mURL = url; if (url.empty()) { llwarns << "empty URL specified" << llendl; } } const std::string& LLURLRequest::getURL() const { return mDetail->mURL; } void LLURLRequest::addHeader(const std::string& header, const std::string& value /* = "" */) { mDetail->mCurlRequest->slist_append(header, value); } void LLURLRequest::addHeaderRaw(const char* header) { mDetail->mCurlRequest->slist_append(header); } void LLURLRequest::setBodyLimit(U32 size) { mDetail->mBodyLimit = size; mDetail->mIsBodyLimitSet = true; } void LLURLRequest::setCallback(LLURLRequestComplete* callback) { mCompletionCallback = callback; mDetail->mCurlRequest->setHeaderCallback(&headerCallback, (void*)callback); } // Added to mitigate the effect of libcurl looking // for the ALL_PROXY and http_proxy env variables // and deciding to insert a Pragma: no-cache // header! The only usage of this method at the // time of this writing is in llhttpclient.cpp // in the request() method, where this method // is called with use_proxy = FALSE void LLURLRequest::useProxy(bool use_proxy) { static char *env_proxy; if (use_proxy && (env_proxy == NULL)) { apr_status_t status; LLAPRPool pool; status = apr_env_get(&env_proxy, "ALL_PROXY", pool.getAPRPool()); if (status != APR_SUCCESS) { status = apr_env_get(&env_proxy, "http_proxy", pool.getAPRPool()); } if (status != APR_SUCCESS) { use_proxy = FALSE; } } lldebugs << "use_proxy = " << (use_proxy?'Y':'N') << ", env_proxy = " << (env_proxy ? env_proxy : "(null)") << llendl; if (env_proxy && use_proxy) { mDetail->mCurlRequest->setoptString(CURLOPT_PROXY, env_proxy); } else { mDetail->mCurlRequest->setoptString(CURLOPT_PROXY, ""); } } void LLURLRequest::useProxy(const std::string &proxy) { mDetail->mCurlRequest->setoptString(CURLOPT_PROXY, proxy); } void LLURLRequest::allowCookies() { mDetail->mCurlRequest->setoptString(CURLOPT_COOKIEFILE, ""); } //virtual bool LLURLRequest::isValid() { return mDetail->mCurlRequest && mDetail->mCurlRequest->isValid(); } // virtual LLIOPipe::EStatus LLURLRequest::handleError( LLIOPipe::EStatus status, LLPumpIO* pump) { if(!isValid()) { return STATUS_EXPIRED ; } if(mCompletionCallback && pump) { LLURLRequestComplete* complete = NULL; complete = (LLURLRequestComplete*)mCompletionCallback.get(); complete->httpStatus( HTTP_INTERNAL_ERROR, LLIOPipe::lookupStatusString(status)); complete->responseStatus(status); pump->respond(complete); mCompletionCallback = NULL; } return status; } static LLFastTimer::DeclareTimer FTM_PROCESS_URL_REQUEST("URL Request"); static LLFastTimer::DeclareTimer FTM_PROCESS_URL_REQUEST_GET_RESULT("Get Result"); static LLFastTimer::DeclareTimer FTM_URL_PERFORM("Perform"); // virtual LLIOPipe::EStatus LLURLRequest::process_impl( const LLChannelDescriptors& channels, buffer_ptr_t& buffer, bool& eos, LLSD& context, LLPumpIO* pump) { LLFastTimer t(FTM_PROCESS_URL_REQUEST); PUMP_DEBUG; //llinfos << "LLURLRequest::process_impl()" << llendl; if (!buffer) return STATUS_ERROR; // we're still waiting or prcessing, check how many // bytes we have accumulated. const S32 MIN_ACCUMULATION = 100000; if(pump && (mDetail->mByteAccumulator > MIN_ACCUMULATION)) { static LLFastTimer::DeclareTimer FTM_URL_ADJUST_TIMEOUT("Adjust Timeout"); LLFastTimer t(FTM_URL_ADJUST_TIMEOUT); // This is a pretty sloppy calculation, but this // tries to make the gross assumption that if data // is coming in at 56kb/s, then this transfer will // probably succeed. So, if we're accumlated // 100,000 bytes (MIN_ACCUMULATION) then let's // give this client another 2s to complete. const F32 TIMEOUT_ADJUSTMENT = 2.0f; mDetail->mByteAccumulator = 0; pump->adjustTimeoutSeconds(TIMEOUT_ADJUSTMENT); lldebugs << "LLURLRequest adjustTimeoutSeconds for request: " << mDetail->mURL << llendl; if (mState == STATE_INITIALIZED) { llinfos << "LLURLRequest adjustTimeoutSeconds called during upload" << llendl; } } switch(mState) { case STATE_INITIALIZED: { PUMP_DEBUG; // We only need to wait for input if we are uploading // something. if(((HTTP_PUT == mAction) || (HTTP_POST == mAction)) && !eos) { // we're waiting to get all of the information return STATUS_BREAK; } // *FIX: bit of a hack, but it should work. The configure and // callback method expect this information to be ready. mDetail->mResponseBuffer = buffer; mDetail->mChannels = channels; if(!configure()) { return STATUS_ERROR; } mState = STATE_WAITING_FOR_RESPONSE; // *FIX: Maybe we should just go to the next state now... return STATUS_BREAK; } case STATE_WAITING_FOR_RESPONSE: case STATE_PROCESSING_RESPONSE: { PUMP_DEBUG; LLIOPipe::EStatus status = STATUS_BREAK; { LLFastTimer t(FTM_URL_PERFORM); if(!mDetail->mCurlRequest->wait()) { return status ; } } bool keep_looping = true; while(keep_looping) { CURLcode result; bool newmsg = false; { LLFastTimer t(FTM_PROCESS_URL_REQUEST_GET_RESULT); newmsg = mDetail->mCurlRequest->getResult(&result); } if(!newmsg) { // keep processing break; } mState = STATE_HAVE_RESPONSE; context[CONTEXT_REQUEST][CONTEXT_TRANSFERED_BYTES] = mRequestTransferedBytes; context[CONTEXT_RESPONSE][CONTEXT_TRANSFERED_BYTES] = mResponseTransferedBytes; lldebugs << this << "Setting context to " << context << llendl; switch(result) { case CURLE_OK: case CURLE_WRITE_ERROR: // NB: The error indication means that we stopped the // writing due the body limit being reached if(mCompletionCallback && pump) { LLURLRequestComplete* complete = NULL; complete = (LLURLRequestComplete*) mCompletionCallback.get(); complete->responseStatus( result == CURLE_OK ? STATUS_OK : STATUS_STOP); LLPumpIO::links_t chain; LLPumpIO::LLLinkInfo link; link.mPipe = mCompletionCallback; link.mChannels = LLBufferArray::makeChannelConsumer( channels); chain.push_back(link); static LLFastTimer::DeclareTimer FTM_PROCESS_URL_PUMP_RESPOND("Pump Respond"); { LLFastTimer t(FTM_PROCESS_URL_PUMP_RESPOND); pump->respond(chain, buffer, context); } mCompletionCallback = NULL; } break; case CURLE_FAILED_INIT: case CURLE_COULDNT_CONNECT: status = STATUS_NO_CONNECTION; keep_looping = false; break; default: // CURLE_URL_MALFORMAT llwarns << "URLRequest Error: " << result << ", " << LLCurl::strerror(result) << ", " << (mDetail->mURL.empty() ? "" : mDetail->mURL) << llendl; status = STATUS_ERROR; keep_looping = false; break; } } return status; } case STATE_HAVE_RESPONSE: PUMP_DEBUG; // we already stuffed everything into channel in in the curl // callback, so we are done. eos = true; context[CONTEXT_REQUEST][CONTEXT_TRANSFERED_BYTES] = mRequestTransferedBytes; context[CONTEXT_RESPONSE][CONTEXT_TRANSFERED_BYTES] = mResponseTransferedBytes; lldebugs << this << "Setting context to " << context << llendl; return STATUS_DONE; default: PUMP_DEBUG; context[CONTEXT_REQUEST][CONTEXT_TRANSFERED_BYTES] = mRequestTransferedBytes; context[CONTEXT_RESPONSE][CONTEXT_TRANSFERED_BYTES] = mResponseTransferedBytes; lldebugs << this << "Setting context to " << context << llendl; return STATUS_ERROR; } } void LLURLRequest::initialize() { mState = STATE_INITIALIZED; mDetail = new LLURLRequestDetail; if(!isValid()) { return ; } mDetail->mCurlRequest->setopt(CURLOPT_NOSIGNAL, 1); mDetail->mCurlRequest->setWriteCallback(&downCallback, (void*)this); mDetail->mCurlRequest->setReadCallback(&upCallback, (void*)this); mRequestTransferedBytes = 0; mResponseTransferedBytes = 0; } static LLFastTimer::DeclareTimer FTM_URL_REQUEST_CONFIGURE("URL Configure"); bool LLURLRequest::configure() { LLFastTimer t(FTM_URL_REQUEST_CONFIGURE); bool rv = false; S32 bytes = mDetail->mResponseBuffer->countAfter( mDetail->mChannels.in(), NULL); switch(mAction) { case HTTP_HEAD: mDetail->mCurlRequest->setopt(CURLOPT_HEADER, 1); mDetail->mCurlRequest->setopt(CURLOPT_NOBODY, 1); mDetail->mCurlRequest->setopt(CURLOPT_FOLLOWLOCATION, 1); rv = true; break; case HTTP_GET: mDetail->mCurlRequest->setopt(CURLOPT_HTTPGET, 1); mDetail->mCurlRequest->setopt(CURLOPT_FOLLOWLOCATION, 1); // Set Accept-Encoding to allow response compression mDetail->mCurlRequest->setoptString(CURLOPT_ENCODING, ""); rv = true; break; case HTTP_PUT: // Disable the expect http 1.1 extension. POST and PUT default // to turning this on, and I am not too sure what it means. addHeader(HTTP_OUT_HEADER_EXPECT); mDetail->mCurlRequest->setopt(CURLOPT_UPLOAD, 1); mDetail->mCurlRequest->setopt(CURLOPT_INFILESIZE, bytes); rv = true; break; case HTTP_POST: // Disable the expect http 1.1 extension. POST and PUT default // to turning this on, and I am not too sure what it means. addHeader(HTTP_OUT_HEADER_EXPECT); // Disable the content type http header. // *FIX: what should it be? addHeader(HTTP_OUT_HEADER_CONTENT_TYPE); // Set the handle for an http post mDetail->mCurlRequest->setPost(NULL, bytes); // Set Accept-Encoding to allow response compression mDetail->mCurlRequest->setoptString(CURLOPT_ENCODING, ""); rv = true; break; case HTTP_DELETE: // Set the handle for an http post mDetail->mCurlRequest->setoptString(CURLOPT_CUSTOMREQUEST, "DELETE"); rv = true; break; case HTTP_MOVE: // Set the handle for an http post mDetail->mCurlRequest->setoptString(CURLOPT_CUSTOMREQUEST, "MOVE"); // *NOTE: should we check for the Destination header? rv = true; break; default: llwarns << "Unhandled URLRequest action: " << mAction << llendl; break; } if(rv) { mDetail->mCurlRequest->sendRequest(mDetail->mURL); } return rv; } // static size_t LLURLRequest::downCallback( char* data, size_t size, size_t nmemb, void* user) { LLURLRequest* req = (LLURLRequest*)user; if(STATE_WAITING_FOR_RESPONSE == req->mState) { req->mState = STATE_PROCESSING_RESPONSE; } U32 bytes = size * nmemb; if (req->mDetail->mIsBodyLimitSet) { if (bytes > req->mDetail->mBodyLimit) { bytes = req->mDetail->mBodyLimit; req->mDetail->mBodyLimit = 0; } else { req->mDetail->mBodyLimit -= bytes; } } req->mDetail->mResponseBuffer->append( req->mDetail->mChannels.out(), (U8*)data, bytes); req->mResponseTransferedBytes += bytes; req->mDetail->mByteAccumulator += bytes; return bytes; } // static size_t LLURLRequest::upCallback( char* data, size_t size, size_t nmemb, void* user) { LLURLRequest* req = (LLURLRequest*)user; S32 bytes = llmin( (S32)(size * nmemb), req->mDetail->mResponseBuffer->countAfter( req->mDetail->mChannels.in(), req->mDetail->mLastRead)); req->mDetail->mLastRead = req->mDetail->mResponseBuffer->readAfter( req->mDetail->mChannels.in(), req->mDetail->mLastRead, (U8*)data, bytes); req->mRequestTransferedBytes += bytes; return bytes; } static size_t headerCallback(void* data, size_t size, size_t nmemb, void* user) { const char* header_line = (const char*)data; size_t header_len = size * nmemb; LLURLRequestComplete* complete = (LLURLRequestComplete*)user; if (!complete || !header_line) { return header_len; } // *TODO: This should be a utility in llstring.h: isascii() for (size_t i = 0; i < header_len; ++i) { if (header_line[i] < 0) { return header_len; } } std::string header(header_line, header_len); // Per HTTP spec the first header line must be the status line. if (header.substr(0,5) == "HTTP/") { std::string::iterator end = header.end(); std::string::iterator pos1 = std::find(header.begin(), end, ' '); if (pos1 != end) ++pos1; std::string::iterator pos2 = std::find(pos1, end, ' '); if (pos2 != end) ++pos2; std::string::iterator pos3 = std::find(pos2, end, '\r'); std::string version(header.begin(), pos1); std::string status(pos1, pos2); std::string reason(pos2, pos3); S32 status_code = atoi(status.c_str()); if (status_code > 0) { complete->httpStatus(status_code, reason); return header_len; } } std::string::iterator sep = std::find(header.begin(),header.end(),':'); if (sep != header.end()) { std::string key(header.begin(), sep); std::string value(sep + 1, header.end()); key = utf8str_tolower(utf8str_trim(key)); value = utf8str_trim(value); complete->header(key, value); } else { LLStringUtil::trim(header); if (!header.empty()) { llwarns << "Unable to parse header: " << header << llendl; } } return header_len; } static LLFastTimer::DeclareTimer FTM_PROCESS_URL_EXTRACTOR("URL Extractor"); /** * LLContextURLExtractor */ // virtual LLIOPipe::EStatus LLContextURLExtractor::process_impl( const LLChannelDescriptors& channels, buffer_ptr_t& buffer, bool& eos, LLSD& context, LLPumpIO* pump) { LLFastTimer t(FTM_PROCESS_URL_EXTRACTOR); PUMP_DEBUG; // The destination host is in the context. if(context.isUndefined() || !mRequest) { return STATUS_PRECONDITION_NOT_MET; } // copy in to out, since this just extract the URL and does not // actually change the data. LLChangeChannel change(channels.in(), channels.out()); std::for_each(buffer->beginSegment(), buffer->endSegment(), change); // find the context url if(context.has(CONTEXT_DEST_URI_SD_LABEL)) { mRequest->setURL(context[CONTEXT_DEST_URI_SD_LABEL].asString()); return STATUS_DONE; } return STATUS_ERROR; } /** * LLURLRequestComplete */ LLURLRequestComplete::LLURLRequestComplete() : mRequestStatus(LLIOPipe::STATUS_ERROR) { } // virtual LLURLRequestComplete::~LLURLRequestComplete() { } //virtual void LLURLRequestComplete::header(const std::string& header, const std::string& value) { } //virtual void LLURLRequestComplete::complete(const LLChannelDescriptors& channels, const buffer_ptr_t& buffer) { if(STATUS_OK == mRequestStatus) { response(channels, buffer); } else { noResponse(); } } //virtual void LLURLRequestComplete::response(const LLChannelDescriptors& channels, const buffer_ptr_t& buffer) { llwarns << "LLURLRequestComplete::response default implementation called" << llendl; } //virtual void LLURLRequestComplete::noResponse() { llwarns << "LLURLRequestComplete::noResponse default implementation called" << llendl; } void LLURLRequestComplete::responseStatus(LLIOPipe::EStatus status) { mRequestStatus = status; } static LLFastTimer::DeclareTimer FTM_PROCESS_URL_COMPLETE("URL Complete"); // virtual LLIOPipe::EStatus LLURLRequestComplete::process_impl( const LLChannelDescriptors& channels, buffer_ptr_t& buffer, bool& eos, LLSD& context, LLPumpIO* pump) { LLFastTimer t(FTM_PROCESS_URL_COMPLETE); PUMP_DEBUG; complete(channels, buffer); return STATUS_OK; }