OSCL_EXPORT_REF OSCL_FILEMGMT_ERR_TYPE oscl_rename(const oscl_wchar *oldpath, const oscl_wchar *newpath)
{
char oldconvpathname[OSCL_IO_FILENAME_MAXLEN];
char newconvpathname[OSCL_IO_FILENAME_MAXLEN];
if (0 == oscl_UnicodeToUTF8(oldpath, oscl_strlen(oldpath), oldconvpathname, OSCL_IO_FILENAME_MAXLEN) ||
0 == oscl_UnicodeToUTF8(newpath, oscl_strlen(newpath), newconvpathname, OSCL_IO_FILENAME_MAXLEN))
{
return OSCL_FILEMGMT_E_PATH_TOO_LONG;
}
return oscl_rename(oldconvpathname, newconvpathname);
}
void PV2WayUtil::FindTestRange(cmd_line* command_line,
uint32 &aFirstTest,
uint32 &aLastTest,
int32 aTestLimit)
{
//default is to run all tests.
aFirstTest = 0;
if (aTestLimit == 0)
{
aLastTest = MAX_324_TEST;
}
else
{
aLastTest = aTestLimit;
}
int testArgument = 0;
char *iTestArgStr1 = NULL;
char *iTestArgStr2 = NULL;
bool cmdline_iswchar = command_line->is_wchar();
//-test
//if (iTestFound)
OSCL_HeapString<OsclMemAllocator> argument = "-test";
if (FindCmdArg(command_line, argument, testArgument))
{
// Convert to UTF8 if necessary
if (cmdline_iswchar)
{
iTestArgStr1 = OSCL_ARRAY_NEW(char, 256);
OSCL_TCHAR* cmd;
command_line->get_arg(testArgument, cmd);
if (cmd)
{
oscl_UnicodeToUTF8(cmd, oscl_strlen(cmd), iTestArgStr1, 256);
}
iTestArgStr2 = OSCL_ARRAY_NEW(char, 256);
command_line->get_arg(testArgument + 1, cmd);
if (cmd)
{
oscl_UnicodeToUTF8(cmd, oscl_strlen(cmd), iTestArgStr2, 256);
}
}
else
{
command_line->get_arg(testArgument, iTestArgStr1);
command_line->get_arg(testArgument + 1, iTestArgStr2);
}
//Pull out 2 integers...
PV_atoi(iTestArgStr1, 'd', aFirstTest);
PV_atoi(iTestArgStr2, 'd', aLastTest);
}
void pff_eos_test::test()
{
int error = 0;
char *filename = new char[iFilename.get_size() + 1];
if ((filename == NULL) || (oscl_UnicodeToUTF8(iFilename.get_cstr(), iFilename.get_size(), filename, iFilename.get_size() + 1) == 0))
{
OSCL_LEAVE(-1);
}
fprintf(fileoutput, "Start pff eos test, num runs %d, audio eos %d, vidoe eos %d, proxy %d, file %s\n", iMaxRuns, iWaitForAudioEOS, iWaitForVideoEOS, iUseProxy, filename);
delete filename;
scheduler = OsclExecScheduler::Current();
this->AddToScheduler();
if (start_async_test())
{
OSCL_TRY(error, scheduler->StartScheduler());
if (error != 0)
{
OSCL_LEAVE(error);
}
}
destroy_sink_source();
this->RemoveFromScheduler();
}
int32 OsclNativeFile::Open(const oscl_wchar *filename, uint32 mode
, const OsclNativeFileParams& params
, Oscl_FileServer& fileserv)
{
iMode = mode;
iOpenFileHandle = false;
OSCL_UNUSED_ARG(fileserv);
OSCL_UNUSED_ARG(params);
char openmode[4];
OpenModeToString(mode, openmode);
#ifdef _UNICODE
oscl_wchar convopenmode[4];
if (0 == oscl_UTF8ToUnicode(openmode, oscl_strlen(openmode), convopenmode, 4))
{
return -1;
}
if ((iFile = _wfopen(filename, convopenmode)) == NULL)
{
return -1;
}
#else
//Convert to UTF8
char convfilename[OSCL_IO_FILENAME_MAXLEN];
if (0 == oscl_UnicodeToUTF8(filename, oscl_strlen(filename), convfilename, OSCL_IO_FILENAME_MAXLEN))
{
return -1;
}
return OpenFileOrSharedFd(convfilename, openmode);
#endif
}
void pff_pause_disconnect_test::test()
{
int error = 0;
char *filename = new char[iFilename.get_size() + 1];
if ((filename == NULL) || (oscl_UnicodeToUTF8(iFilename.get_cstr(), iFilename.get_size(), filename, iFilename.get_size() + 1) == 0))
{
OSCL_LEAVE(-1);
}
fprintf(fileoutput, "Start play from file pause disconnect test, before add source %d, file %s\n", iUsePlayFileBeforeAddSource, filename);
delete filename;
scheduler = OsclExecScheduler::Current();
this->AddToScheduler();
if (start_async_test())
{
OSCL_TRY(error, scheduler->StartScheduler());
if (error != 0)
{
OSCL_LEAVE(error);
}
}
destroy_sink_source();
this->RemoveFromScheduler();
}
void FindLogLevel(cmd_line* command_line, int32& loglevel, FILE* aFile)
{
//default is verbose
loglevel = PVLOGMSG_DEBUG;
bool cmdline_iswchar = command_line->is_wchar();
int count = command_line->get_count();
// Search for the "-logerr"/"-logwarn" argument
char *iSourceFind = NULL;
if (cmdline_iswchar)
{
iSourceFind = new char[256];
}
// Go through each argument
for (int iTestSearch = 0; iTestSearch < count; iTestSearch++)
{
// Convert to UTF8 if necessary
if (cmdline_iswchar)
{
OSCL_TCHAR* cmd = NULL;
command_line->get_arg(iTestSearch, cmd);
oscl_UnicodeToUTF8(cmd, oscl_strlen(cmd), iSourceFind, 256);
}
else
{
iSourceFind = NULL;
command_line->get_arg(iTestSearch, iSourceFind);
}
// Do the string compare
if (oscl_strcmp(iSourceFind, "-help") == NULL)
{
fprintf(aFile, "Log level options. Default is debug level:\n");
fprintf(aFile, " -logerr\n");
fprintf(aFile, " Log at error level\n");
fprintf(aFile, " -logwarn\n");
fprintf(aFile, " Log at warning level\n\n");
}
else if (oscl_strcmp(iSourceFind, "-logerr") == NULL)
{
loglevel = PVLOGMSG_ERR;
}
else if (oscl_strcmp(iSourceFind, "-logwarn") == NULL)
{
loglevel = PVLOGMSG_WARNING;
}
}
if (cmdline_iswchar)
{
delete[] iSourceFind;
iSourceFind = NULL;
}
}
OSCL_EXPORT_REF OSCL_FILEMGMT_ERR_TYPE oscl_chdir(const oscl_wchar *path)
{
char convpathname[OSCL_IO_FILENAME_MAXLEN];
if (0 == oscl_UnicodeToUTF8(path, oscl_strlen(path), convpathname, OSCL_IO_FILENAME_MAXLEN) &&
oscl_strlen(path) != 0)
{
return OSCL_FILEMGMT_E_PATH_TOO_LONG;
}
return oscl_chdir(convpathname);
}
OSCL_EXPORT_REF int32 Oscl_FileServer::Oscl_DeleteFile(const oscl_wchar* filename)
{
{
//Convert to UTF8
char convfilename[OSCL_IO_FILENAME_MAXLEN];
if (0 == oscl_UnicodeToUTF8(filename, oscl_strlen(filename), convfilename, OSCL_IO_FILENAME_MAXLEN))
return (-1);
return unlink(convfilename);
}
}
void FindMemMgmtRelatedCmdLineParams(cmd_line* command_line, bool& aPrintDetailedMemLeakInfo, FILE* aFile)
{
aPrintDetailedMemLeakInfo = false;
bool cmdline_iswchar = command_line->is_wchar();
int count = command_line->get_count();
// Search for the "-logerr"/"-logwarn" argument
char *iSourceFind = NULL;
if (cmdline_iswchar)
{
iSourceFind = new char[256];
}
// Go through each argument
for (int iTestSearch = 0; iTestSearch < count; iTestSearch++)
{
// Convert to UTF8 if necessary
if (cmdline_iswchar)
{
OSCL_TCHAR* cmd = NULL;
command_line->get_arg(iTestSearch, cmd);
oscl_UnicodeToUTF8(cmd, oscl_strlen(cmd), iSourceFind, 256);
}
else
{
iSourceFind = NULL;
command_line->get_arg(iTestSearch, iSourceFind);
}
// Do the string compare
if (oscl_strcmp(iSourceFind, "-help") == NULL)
{
fprintf(aFile, "Printing leak info option. Default is OFF:\n");
fprintf(aFile, " -leakinfo\n");
fprintf(aFile, " If there is a memory leak, prints out the memory leak information\n");
fprintf(aFile, " after all specified test cases have finished running.\n\n");
}
else if (oscl_strcmp(iSourceFind, "-leakinfo") == NULL)
{
aPrintDetailedMemLeakInfo = true;
}
}
if (cmdline_iswchar)
{
delete[] iSourceFind;
iSourceFind = NULL;
}
}
////// INetURI implementation
////////////////////////////////////////////////////////////////////////////////////
bool INetURI::setURI(OSCL_wString &aUri, const bool aRedirectURI)
{
if (aUri.get_size() == 0) return false;
OsclMemAllocator alloc;
char *buf = (char*)alloc.allocate(aUri.get_size() + 1);
if (!buf) return false;
uint32 size = oscl_UnicodeToUTF8(aUri.get_cstr(), aUri.get_size(), buf, aUri.get_size() + 1);
if (size == 0)
{
alloc.deallocate(buf);
return false;
}
iURI = OSCL_HeapString<OsclMemAllocator> (buf, size);
alloc.deallocate(buf);
// clear iHost
iHostName.set(NULL, 0);
iRedirectURI = aRedirectURI;
return true;
}
void pv_metadata_engine_test::PrintSupportedMetaDataKeys()
{
uint32 i = 0;
fprintf(file, "\n\nOutput for file: %s\n", iFileName);
fprintf(file, "\nMetadata key list (count=%d):\n", iMetadataKeyList.size());
for (i = 0; i < iMetadataKeyList.size(); ++i)
{
fprintf(file, "Key %d: %s\n", (i + 1), iMetadataKeyList[i].get_cstr());
}
fprintf(file, "\nMetadata value list (count=%d):\n", iMetadataValueList.size());
for (i = 0; i < iMetadataValueList.size(); ++i)
{
fprintf(file, "Value %d:\n Key string: %s\n", (i + 1), iMetadataValueList[i].key);
switch (GetValTypeFromKeyString(iMetadataValueList[i].key))
{
case PVMI_KVPVALTYPE_CHARPTR:
fprintf(file, " Value:%s\n", iMetadataValueList[i].value.pChar_value);
break;
case PVMI_KVPVALTYPE_WCHARPTR:
{
// Assume string is in UCS-2 encoding so convert to UTF-8
char tmpstr[65];
oscl_UnicodeToUTF8(iMetadataValueList[i].value.pWChar_value,
oscl_strlen(iMetadataValueList[i].value.pWChar_value), tmpstr, 65);
tmpstr[64] = '\0';
fprintf(file, " Value(in UTF-8, first 64 chars):%s\n", tmpstr);
}
break;
case PVMI_KVPVALTYPE_UINT32:
fprintf(file, " Value:%d\n", iMetadataValueList[i].value.uint32_value);
break;
case PVMI_KVPVALTYPE_INT32:
fprintf(file, " Value:%d\n", iMetadataValueList[i].value.int32_value);
break;
case PVMI_KVPVALTYPE_UINT8:
fprintf(file, " Value:%d\n", iMetadataValueList[i].value.uint8_value);
break;
case PVMI_KVPVALTYPE_FLOAT:
fprintf(file, " Value:%f\n", iMetadataValueList[i].value.float_value);
break;
case PVMI_KVPVALTYPE_DOUBLE:
fprintf(file, " Value:%f\n", iMetadataValueList[i].value.double_value);
break;
case PVMI_KVPVALTYPE_BOOL:
if (iMetadataValueList[i].value.bool_value)
{
fprintf(file, " Value:true(1)\n");
}
else
{
fprintf(file, " Value:false(0)\n");
}
break;
default:
fprintf(file, " Value: UNKNOWN VALUE TYPE\n");
break;
}
fprintf(file, " Length:%d Capacity:%d\n", iMetadataValueList[i].length, iMetadataValueList[i].capacity);
}
}
//Find test range args:
//To run a range of tests by enum ID:
// -test 17 29
void FindTestRange(cmd_line* command_line, int32& iFirstTest, int32 &iLastTest, FILE* aFile)
{
//default is to run all tests.
iFirstTest = 0;
iLastTest = 999;
int iTestArgument = 0;
char *iTestArgStr1 = NULL;
char *iTestArgStr2 = NULL;
bool iTestFound = false;
bool cmdline_iswchar = command_line->is_wchar();
int count = command_line->get_count();
// Search for the "-test" argument
char *iSourceFind = NULL;
if (cmdline_iswchar)
{
iSourceFind = new char[256];
}
// Go through each argument
for (int iTestSearch = 0; iTestSearch < count; iTestSearch++)
{
// Convert to UTF8 if necessary
if (cmdline_iswchar)
{
OSCL_TCHAR* cmd = NULL;
command_line->get_arg(iTestSearch, cmd);
oscl_UnicodeToUTF8(cmd, oscl_strlen(cmd), iSourceFind, 256);
}
else
{
iSourceFind = NULL;
command_line->get_arg(iTestSearch, iSourceFind);
}
// Do the string compare
if (oscl_strcmp(iSourceFind, "-help") == NULL)
{
fprintf(aFile, "Test cases to run option. Default is ALL:\n");
fprintf(aFile, " -test x y\n");
fprintf(aFile, " Specify a range of test cases to run. To run one test case, use the\n");
fprintf(aFile, " same index for x and y.\n\n");
}
else if (oscl_strcmp(iSourceFind, "-test") == NULL)
{
iTestFound = true;
iTestArgument = ++iTestSearch;
break;
}
}
if (cmdline_iswchar)
{
delete[] iSourceFind;
iSourceFind = NULL;
}
if (iTestFound)
{
// Convert to UTF8 if necessary
if (cmdline_iswchar)
{
iTestArgStr1 = new char[256];
OSCL_TCHAR* cmd;
command_line->get_arg(iTestArgument, cmd);
if (cmd)
{
oscl_UnicodeToUTF8(cmd, oscl_strlen(cmd), iTestArgStr1, 256);
}
iTestArgStr2 = new char[256];
command_line->get_arg(iTestArgument + 1, cmd);
if (cmd)
{
oscl_UnicodeToUTF8(cmd, oscl_strlen(cmd), iTestArgStr2, 256);
}
}
else
{
command_line->get_arg(iTestArgument, iTestArgStr1);
command_line->get_arg(iTestArgument + 1, iTestArgStr2);
}
//Pull out 2 integers...
if (iTestArgStr1
&& '0' <= iTestArgStr1[0] && iTestArgStr1[0] <= '9'
&& iTestArgStr2
&& '0' <= iTestArgStr2[0] && iTestArgStr2[0] <= '9')
{
int len = oscl_strlen(iTestArgStr1);
switch (len)
{
case 3:
iFirstTest = 0;
if ('0' <= iTestArgStr1[0] && iTestArgStr1[0] <= '9')
{
iFirstTest = iFirstTest + 100 * (iTestArgStr1[0] - '0');
}
if ('0' <= iTestArgStr1[1] && iTestArgStr1[1] <= '9')
{
iFirstTest = iFirstTest + 10 * (iTestArgStr1[1] - '0');
}
if ('0' <= iTestArgStr1[2] && iTestArgStr1[2] <= '9')
{
iFirstTest = iFirstTest + 1 * (iTestArgStr1[2] - '0');
}
break;
case 2:
iFirstTest = 0;
if ('0' <= iTestArgStr1[0] && iTestArgStr1[0] <= '9')
{
iFirstTest = iFirstTest + 10 * (iTestArgStr1[0] - '0');
}
if ('0' <= iTestArgStr1[1] && iTestArgStr1[1] <= '9')
{
iFirstTest = iFirstTest + 1 * (iTestArgStr1[1] - '0');
}
break;
case 1:
iFirstTest = 0;
if ('0' <= iTestArgStr1[0] && iTestArgStr1[0] <= '9')
{
iFirstTest = iFirstTest + 1 * (iTestArgStr1[0] - '0');
}
break;
default:
break;
}
len = oscl_strlen(iTestArgStr2);
switch (len)
{
case 3:
iLastTest = 0;
if ('0' <= iTestArgStr2[0] && iTestArgStr2[0] <= '9')
{
iLastTest = iLastTest + 100 * (iTestArgStr2[0] - '0');
}
if ('0' <= iTestArgStr2[1] && iTestArgStr2[1] <= '9')
{
iLastTest = iLastTest + 10 * (iTestArgStr2[1] - '0');
}
if ('0' <= iTestArgStr2[2] && iTestArgStr2[2] <= '9')
{
iLastTest = iLastTest + 1 * (iTestArgStr2[2] - '0');
}
break;
case 2:
iLastTest = 0;
if ('0' <= iTestArgStr2[0] && iTestArgStr2[0] <= '9')
{
iLastTest = iLastTest + 10 * (iTestArgStr2[0] - '0');
}
if ('0' <= iTestArgStr2[1] && iTestArgStr2[1] <= '9')
{
iLastTest = iLastTest + 1 * (iTestArgStr2[1] - '0');
}
break;
case 1:
iLastTest = 0;
if ('0' <= iTestArgStr2[0] && iTestArgStr2[0] <= '9')
{
iLastTest = iLastTest + 1 * (iTestArgStr2[0] - '0');
}
break;
default:
break;
}
}
}
if (cmdline_iswchar)
{
if (iTestArgStr1)
{
delete[] iTestArgStr1;
iTestArgStr1 = NULL;
}
if (iTestArgStr2)
{
delete[] iTestArgStr2;
iTestArgStr2 = NULL;
}
if (iSourceFind)
{
delete[] iSourceFind;
iSourceFind = NULL;
}
}
}
// Pull out source file name from arguments
// -source sometestfile.mp4
//
//
void FindSourceFile(cmd_line* command_line, OSCL_HeapString<OsclMemAllocator>& aFileNameInfo, PVMFFormatType& aInputFileFormatType, FILE* aFile)
{
aFileNameInfo = SOURCENAME_PREPEND_STRING;
aFileNameInfo += DEFAULTSOURCEFILENAME;
aInputFileFormatType = DEFAULTSOURCEFORMATTYPE;
int iFileArgument = 0;
bool iFileFound = false;
bool cmdline_iswchar = command_line->is_wchar();
int count = command_line->get_count();
// Search for the "-source" argument
// Go through each argument
for (int iFileSearch = 0; iFileSearch < count; iFileSearch++)
{
char argstr[128];
// Convert to UTF8 if necessary
if (cmdline_iswchar)
{
oscl_wchar* argwstr = NULL;
command_line->get_arg(iFileSearch, argwstr);
oscl_UnicodeToUTF8(argwstr, oscl_strlen(argwstr), argstr, 128);
argstr[127] = NULL;
}
else
{
char* tmpstr = NULL;
command_line->get_arg(iFileSearch, tmpstr);
int32 tmpstrlen = oscl_strlen(tmpstr) + 1;
if (tmpstrlen > 128)
{
tmpstrlen = 128;
}
oscl_strncpy(argstr, tmpstr, tmpstrlen);
argstr[tmpstrlen-1] = NULL;
}
// Do the string compare
if (oscl_strcmp(argstr, "-help") == NULL)
{
fprintf(aFile, "Source specification option. Default is 'test.mp4':\n");
fprintf(aFile, " -source sourcename\n");
fprintf(aFile, " Specify the source filename or URL to use for test cases which\n");
fprintf(aFile, " allow user-specified source name. The unit test determines the\n");
fprintf(aFile, " source format type using extension or URL header.\n\n");
}
else if (oscl_strcmp(argstr, "-source") == NULL)
{
iFileFound = true;
iFileArgument = ++iFileSearch;
break;
}
}
if (iFileFound)
{
// Convert to UTF8 if necessary
if (cmdline_iswchar)
{
oscl_wchar* cmd;
command_line->get_arg(iFileArgument, cmd);
char tmpstr[256];
oscl_UnicodeToUTF8(cmd, oscl_strlen(cmd), tmpstr, 256);
tmpstr[255] = NULL;
aFileNameInfo = tmpstr;
}
else
{
char* cmdlinefilename = NULL;
command_line->get_arg(iFileArgument, cmdlinefilename);
aFileNameInfo = cmdlinefilename;
}
// Check the file extension to determine format type
// AAC file
if (oscl_strstr(aFileNameInfo.get_cstr(), ".aac") != NULL || oscl_strstr(aFileNameInfo.get_cstr(), ".AAC") != NULL)
{
aInputFileFormatType = PVMF_MIME_AACFF;
}
// MP3 file
else if (oscl_strstr(aFileNameInfo.get_cstr(), ".mp3") != NULL || oscl_strstr(aFileNameInfo.get_cstr(), ".MP3") != NULL)
{
aInputFileFormatType = PVMF_MIME_MP3FF;
}
// AMR file (IETF and IF2)
else if (oscl_strstr(aFileNameInfo.get_cstr(), ".amr") != NULL || oscl_strstr(aFileNameInfo.get_cstr(), ".AMR") != NULL ||
oscl_strstr(aFileNameInfo.get_cstr(), ".cod") != NULL || oscl_strstr(aFileNameInfo.get_cstr(), ".COD") != NULL)
{
aInputFileFormatType = PVMF_MIME_AMRFF;
}
// RTSP URL
else if ((!oscl_strncmp("rtsp", aFileNameInfo.get_cstr(), 4)) ||
(!oscl_strncmp("RTSP", aFileNameInfo.get_cstr(), 4)))
{
aInputFileFormatType = PVMF_MIME_DATA_SOURCE_RTSP_URL;
}
// HTTP URL
else if (oscl_strstr(aFileNameInfo.get_cstr(), "http:") != NULL || oscl_strstr(aFileNameInfo.get_cstr(), "HTTP:") != NULL)
{
aInputFileFormatType = PVMF_MIME_DATA_SOURCE_HTTP_URL;
}
// MP4/3GP file
else if (oscl_strstr(aFileNameInfo.get_cstr(), ".mp4") != NULL || oscl_strstr(aFileNameInfo.get_cstr(), ".MP4") != NULL ||
oscl_strstr(aFileNameInfo.get_cstr(), ".3gp") != NULL || oscl_strstr(aFileNameInfo.get_cstr(), ".3GP") != NULL)
{
aInputFileFormatType = PVMF_MIME_MPEG4FF;
}
// ASF file
else if (oscl_strstr(aFileNameInfo.get_cstr(), ".asf") != NULL || oscl_strstr(aFileNameInfo.get_cstr(), ".ASF") != NULL ||
oscl_strstr(aFileNameInfo.get_cstr(), ".wma") != NULL || oscl_strstr(aFileNameInfo.get_cstr(), ".WMA") != NULL ||
oscl_strstr(aFileNameInfo.get_cstr(), ".wmv") != NULL || oscl_strstr(aFileNameInfo.get_cstr(), ".WMV") != NULL)
{
aInputFileFormatType = PVMF_MIME_ASFFF;
}
// SDP file
else if (oscl_strstr(aFileNameInfo.get_cstr(), ".sdp") != NULL || oscl_strstr(aFileNameInfo.get_cstr(), ".SDP") != NULL)
{
aInputFileFormatType = PVMF_MIME_DATA_SOURCE_SDP_FILE;
}
// PVX file
else if (oscl_strstr(aFileNameInfo.get_cstr(), ".pvx") != NULL || oscl_strstr(aFileNameInfo.get_cstr(), ".PVX") != NULL)
{
aInputFileFormatType = PVMF_MIME_DATA_SOURCE_PVX_FILE;
}
// WAV file
else if (oscl_strstr(aFileNameInfo.get_cstr(), ".wav") != NULL || oscl_strstr(aFileNameInfo.get_cstr(), ".WAV") != NULL)
{
aInputFileFormatType = PVMF_MIME_WAVFF;
}
// Unknown so set to unknown and let the player engine determine the format type
else
{
fprintf(file, "Source type unknown so setting to unknown and have the utility recognize it\n");
aInputFileFormatType = PVMF_MIME_FORMAT_UNKNOWN;
}
}
}
static PVMFStatus parseMP3(const char *filename,MediaScannerClient& client) {
PVID3ParCom pvId3Param;
PVFile fileHandle;
Oscl_FileServer iFs;
uint32 duration;
//LOGD("c---> filename 好的 = %s", filename);
if (iFs.Connect() != 0) {
LOGD("=======iFs.Connect failed========>\n");
return PVMFFailure;
}
oscl_wchar output[MAX_BUFF_SIZE];
oscl_UTF8ToUnicode((const char *) filename, oscl_strlen((const char *) filename),
(oscl_wchar *) output, MAX_BUFF_SIZE);
if (0 !=
fileHandle.Open((oscl_wchar *) output, Oscl_File::MODE_READ | Oscl_File::MODE_BINARY,
iFs)) {
//LOGE("Could not open the input file for reading(Test: parse id3).\n");
return PVMFFailure;
}
fileHandle.Seek(0, Oscl_File::SEEKSET);
pvId3Param.ParseID3Tag(&fileHandle);
fileHandle.Close();
iFs.Close();
//Get the frames information from ID3 library
PvmiKvpSharedPtrVector framevector;
pvId3Param.GetID3Frames(framevector);
uint32 num_frames = framevector.size();
for (uint32 i = 0; i < num_frames; i++) {
const char *key = framevector[i]->key;
bool isUtf8 = false;
bool isIso88591 = false;
// type should follow first semicolon
const char *type = strchr(key, ';');
if (type == NULL) continue;
type++;
char tracknumkeybuf[100];
if (strncmp(key, "track-info/track-number;", 24) == 0) {
// Java expects the track number key to be called "tracknumber", so
// construct a temporary one here.
snprintf(tracknumkeybuf, sizeof(tracknumkeybuf), "tracknumber;%s", type);
key = tracknumkeybuf;
}
const char *value = framevector[i]->value.pChar_value;
// KVP_VALTYPE_UTF8_CHAR check must be first, since KVP_VALTYPE_ISO88591_CHAR
// is a substring of KVP_VALTYPE_UTF8_CHAR.
// Similarly, KVP_VALTYPE_UTF16BE_WCHAR must be checked before KVP_VALTYPE_UTF16_WCHAR
if (oscl_strncmp(type, KVP_VALTYPE_UTF8_CHAR, KVP_VALTYPE_UTF8_CHAR_LEN) == 0) {
isUtf8 = true;
} else if (
oscl_strncmp(type, KVP_VALTYPE_ISO88591_CHAR, KVP_VALTYPE_ISO88591_CHAR_LEN) ==
0) {
isIso88591 = true;
}
if (isUtf8) {
// validate to make sure it is legal utf8
uint32 valid_chars;
if (oscl_str_is_valid_utf8((const uint8 *) value, valid_chars)) {
// utf8 can be passed through directly
//LOGD("c---> key(utf8) = %s ; value = %s", key, value);
if (!client.handleStringTag(key, value)) goto failure;
} else {
// treat as ISO-8859-1 if UTF-8 fails
isIso88591 = true;
}
}
if (isIso88591) {
size_t iInLen = strlen(value);
char sOutBuf[100];
size_t iOutLen = 100;
memset(sOutBuf, 0x00, 100);
ChangeCode("GBK", "UTF-8", value, &iInLen, sOutBuf, &iOutLen);
//LOGD("c---> key(gbk) = %s ; value = %s", key, sOutBuf);
if (!client.handleStringTag(key, sOutBuf)) goto failure;
}
// treat it as iso-8859-1 and our native encoding detection will try to
// figure out what it is
/* if (isIso88591) {
// convert ISO-8859-1 to utf8, worse case is 2x inflation
const unsigned char *src = (const unsigned char *) value;
char *temp = (char *) alloca(strlen(value) * 2 + 1);
if (temp) {
char *dest = temp;
unsigned int uch;
while ((uch = *src++) != 0) {
if (uch & 0x80) {
*dest++ = (uch >> 6) | 0xc0;
*dest++ = (uch & 0x3f) | 0x80;
} else *dest++ = uch;
}
*dest = 0;
LOGD("c---> key(iso) = %s ; value = %s", key, temp);
//if (!client.addStringTag(key, temp)) goto failure;
}
}*/
// not UTF-8 or ISO-8859-1, try wide char formats
if (!isUtf8 && !isIso88591 &&
(oscl_strncmp(type, KVP_VALTYPE_UTF16BE_WCHAR, KVP_VALTYPE_UTF16BE_WCHAR_LEN) ==
0 ||
oscl_strncmp(type, KVP_VALTYPE_UTF16_WCHAR, KVP_VALTYPE_UTF16_WCHAR_LEN) == 0)) {
// convert wchar to utf8
// the id3parcom library has already taken care of byteswapping
const oscl_wchar *src = framevector[i]->value.pWChar_value;
int srcLen = oscl_strlen(src);
// worse case is 3 bytes per character, plus zero termination
int destLen = srcLen * 3 + 1;
char *dest = (char *) alloca(destLen);
if (oscl_UnicodeToUTF8(src, oscl_strlen(src), dest, destLen) > 0) {
//LOGD("c---> key(!utf8 && !iso) = %s ; value = %s", key, dest);
if (!client.handleStringTag(key, dest)) goto failure;
}
} else if (oscl_strncmp(type, KVP_VALTYPE_UINT32, KVP_VALTYPE_UINT32_LEN) == 0) {
char temp[20];
snprintf(temp, sizeof(temp), "%d", (int) framevector[i]->value.uint32_value);
//LOGD("c---> key() = %s ; value = %s", key, temp);
if (!client.handleStringTag(key, temp)) goto failure;
} else {
//LOGE("unknown tag type %s for key %s\n", type, key);
}
}
// extract non-ID3 properties below
{
OSCL_wHeapString<OsclMemAllocator> mp3filename(output);
MP3ErrorType err;
IMpeg3File mp3File(mp3filename, err);
if (err != MP3_SUCCESS) {
//LOGE("IMpeg3File constructor returned %d for %s\n", err, filename);
return err;
}
err = mp3File.ParseMp3File();
if (err != MP3_SUCCESS) {
//LOGE("IMpeg3File::ParseMp3File returned %d for %s\n", err, filename);
return err;
}
char buffer[20];
duration = mp3File.GetDuration();
sprintf(buffer, "%d", duration);
LOGD("c---> duration = %s", "duration");
//if (!client.addStringTag("duration", buffer)) goto failure;
}
return PVMFSuccess;
failure:
return PVMFFailure;
}
