TEST(TestHttpHeader, General) { CHttpHeader a; CStdString str = "Host: xbmc.org\r\n" "Accept: text/*, text/html, text/html;level=1, */*\r\n" "Accept-Language: en\r\n" "Accept-Encoding: gzip, deflate\r\n" "Content-Type: text/html; charset=ISO-8859-4\r\n" "User-Agent: XBMC/snapshot (compatible; MSIE 5.5; Windows NT" " 4.0)\r\n" "Connection: Keep-Alive\r\n"; CStdString refstr, varstr; a.Parse(str); refstr = "accept: text/*, text/html, text/html;level=1, */*\n" "accept-encoding: gzip, deflate\n" "accept-language: en\n" "connection: Keep-Alive\n" "content-type: text/html; charset=ISO-8859-4\n" "host: xbmc.org\n" "user-agent: XBMC/snapshot (compatible; MSIE 5.5; Windows NT 4.0)\n" "\n"; varstr.clear(); a.GetHeader(varstr); EXPECT_STREQ(refstr.c_str(), varstr.c_str()); refstr = "XBMC/snapshot (compatible; MSIE 5.5; Windows NT 4.0)"; varstr = a.GetValue("User-Agent"); EXPECT_STREQ(refstr.c_str(), varstr.c_str()); refstr = "text/html; charset=ISO-8859-4"; varstr = a.GetMimeType(); EXPECT_STREQ(refstr.c_str(), varstr.c_str()); refstr = ""; varstr = a.GetProtoLine(); EXPECT_STREQ(refstr.c_str(), varstr.c_str()); a.Clear(); refstr = ""; varstr = a.GetMimeType(); EXPECT_STREQ(refstr.c_str(), varstr.c_str()); }
bool CDVDDemuxShoutcast::Open(CDVDInputStream* pInput) { Dispose(); m_pInput = pInput; // the input stream should be a http stream if (!pInput->IsStreamType(DVDSTREAM_TYPE_HTTP)) return false; CDVDInputStreamHttp* pInputStreamHttp = (CDVDInputStreamHttp*)pInput; CHttpHeader* pHeader = pInputStreamHttp->GetHttpHeader(); std::string strMetaInt = pHeader->GetValue(ICY_METAINTERVAL); std::string strMimeType = pHeader->GetMimeType(); // create new demuxer stream m_pDemuxStream = new CDemuxStreamAudioShoutcast(); m_pDemuxStream->iId = 0; m_pDemuxStream->iPhysicalId = 0; m_pDemuxStream->iDuration = 0; m_pDemuxStream->iChannels = 2; m_pDemuxStream->iSampleRate = 0; // set meta interval m_iMetaStreamInterval = atoi(strMetaInt.c_str()); if (stricmp(strMimeType.c_str(), CONTENT_TYPE_AAC) == 0 || stricmp(strMimeType.c_str(), CONTENT_TYPE_AACPLUS) == 0) { // need an aac decoder first m_pDemuxStream->codec = AV_CODEC_ID_AAC; } else // (stricmp(strMimeType, CONTENT_TYPE_MP3) == 0) { // default to mp3 m_pDemuxStream->codec = AV_CODEC_ID_MP3; } return true; }
void CheckRangesTestFileResponse(const CCurlFile& curl, const std::string& result, const CHttpRanges& ranges) { // get the HTTP header details const CHttpHeader& httpHeader = curl.GetHttpHeader(); // check the protocol line for the expected HTTP status std::string httpStatusString = StringUtils::Format(" %d ", MHD_HTTP_PARTIAL_CONTENT); std::string protocolLine = httpHeader.GetProtoLine(); ASSERT_TRUE(protocolLine.find(httpStatusString) != std::string::npos); // Accept-Ranges must be "bytes" EXPECT_STREQ("bytes", httpHeader.GetValue(MHD_HTTP_HEADER_ACCEPT_RANGES).c_str()); // check Last-Modified CDateTime lastModified; ASSERT_TRUE(GetLastModifiedOfTestFile(TEST_FILES_RANGES, lastModified)); ASSERT_STREQ(lastModified.GetAsRFC1123DateTime().c_str(), httpHeader.GetValue(MHD_HTTP_HEADER_LAST_MODIFIED).c_str()); // Cache-Control must contain "mag-age=0" and "no-cache" std::string cacheControl = httpHeader.GetValue(MHD_HTTP_HEADER_CACHE_CONTROL); EXPECT_TRUE(cacheControl.find("max-age=31536000") != std::string::npos); EXPECT_TRUE(cacheControl.find("public") != std::string::npos); // If there's no range Content-Length must be "20" if (ranges.IsEmpty()) { EXPECT_STREQ("20", httpHeader.GetValue(MHD_HTTP_HEADER_CONTENT_LENGTH).c_str()); EXPECT_STREQ(TEST_FILES_DATA_RANGES, result.c_str()); return; } // check Content-Range uint64_t firstPosition, lastPosition; ASSERT_TRUE(ranges.GetFirstPosition(firstPosition)); ASSERT_TRUE(ranges.GetLastPosition(lastPosition)); EXPECT_STREQ(HttpRangeUtils::GenerateContentRangeHeaderValue(firstPosition, lastPosition, 20).c_str(), httpHeader.GetValue(MHD_HTTP_HEADER_CONTENT_RANGE).c_str()); std::string expectedContent = TEST_FILES_DATA_RANGES; const std::string expectedContentType = "text/plain"; if (ranges.Size() == 1) { // Content-Type must be "text/html" EXPECT_STREQ(expectedContentType.c_str(), httpHeader.GetMimeType().c_str()); // check the content CHttpRange firstRange; ASSERT_TRUE(ranges.GetFirst(firstRange)); expectedContent = expectedContent.substr(firstRange.GetFirstPosition(), firstRange.GetLength()); EXPECT_STREQ(expectedContent.c_str(), result.c_str()); // and Content-Length EXPECT_STREQ(StringUtils::Format("%u", static_cast<unsigned int>(expectedContent.size())).c_str(), httpHeader.GetValue(MHD_HTTP_HEADER_CONTENT_LENGTH).c_str()); return; } // Content-Type contains the multipart boundary const std::string expectedMimeType = "multipart/byteranges"; std::string mimeType = httpHeader.GetMimeType(); ASSERT_STREQ(expectedMimeType.c_str(), mimeType.c_str()); std::string contentType = httpHeader.GetValue(MHD_HTTP_HEADER_CONTENT_TYPE); std::string contentTypeStart = expectedMimeType + "; boundary="; // it must start with "multipart/byteranges; boundary=" followed by the boundary ASSERT_EQ(0, contentType.find(contentTypeStart)); ASSERT_GT(contentType.size(), contentTypeStart.size()); // extract the boundary std::string multipartBoundary = contentType.substr(contentTypeStart.size()); ASSERT_FALSE(multipartBoundary.empty()); multipartBoundary = "--" + multipartBoundary; ASSERT_EQ(0, result.find(multipartBoundary)); std::vector<std::string> rangeParts = StringUtils::Split(result, multipartBoundary); // the first part is not really a part and is therefore empty (the place before the first boundary) ASSERT_TRUE(rangeParts.front().empty()); rangeParts.erase(rangeParts.begin()); // the last part is the end of the end multipart boundary ASSERT_STREQ("--", rangeParts.back().c_str()); rangeParts.erase(rangeParts.begin() + rangeParts.size() - 1); ASSERT_EQ(ranges.Size(), rangeParts.size()); for (size_t i = 0; i < rangeParts.size(); ++i) { std::string data = rangeParts.at(i); StringUtils::Trim(data, " \r\n"); // find the separator between header and data size_t pos = data.find("\r\n\r\n"); ASSERT_NE(std::string::npos, pos); std::string header = data.substr(0, pos + 4); data = data.substr(pos + 4); // get the expected range CHttpRange range; ASSERT_TRUE(ranges.Get(i, range)); // parse the header of the range part CHttpHeader rangeHeader; rangeHeader.Parse(header); // check Content-Type EXPECT_STREQ(expectedContentType.c_str(), rangeHeader.GetMimeType().c_str()); // parse and check Content-Range std::string contentRangeHeader = rangeHeader.GetValue(MHD_HTTP_HEADER_CONTENT_RANGE); std::vector<std::string> contentRangeHeaderParts = StringUtils::Split(contentRangeHeader, "/"); ASSERT_EQ(2, contentRangeHeaderParts.size()); // check the length of the range EXPECT_TRUE(StringUtils::IsNaturalNumber(contentRangeHeaderParts.back())); uint64_t contentRangeLength = str2uint64(contentRangeHeaderParts.back()); EXPECT_EQ(range.GetLength(), contentRangeLength); // remove the leading "bytes " string from the range definition std::string contentRangeDefinition = contentRangeHeaderParts.front(); ASSERT_EQ(0, contentRangeDefinition.find("bytes ")); contentRangeDefinition = contentRangeDefinition.substr(6); // check the start and end positions of the range std::vector<std::string> contentRangeParts = StringUtils::Split(contentRangeDefinition, "-"); ASSERT_EQ(2, contentRangeParts.size()); EXPECT_TRUE(StringUtils::IsNaturalNumber(contentRangeParts.front())); uint64_t contentRangeStart = str2uint64(contentRangeParts.front()); EXPECT_EQ(range.GetFirstPosition(), contentRangeStart); EXPECT_TRUE(StringUtils::IsNaturalNumber(contentRangeParts.back())); uint64_t contentRangeEnd = str2uint64(contentRangeParts.back()); EXPECT_EQ(range.GetLastPosition(), contentRangeEnd); // make sure the length of the content matches the one of the expected range EXPECT_EQ(range.GetLength(), data.size()); EXPECT_STREQ(expectedContent.substr(range.GetFirstPosition(), range.GetLength()).c_str(), data.c_str()); } }