/**
* @return bool
*/
public function WriteMetaFLAC()
{
if (preg_match('#(1|ON)#i', ini_get('safe_mode'))) {
$this->errors[] = 'PHP running in Safe Mode (backtick operator not available) - cannot call metaflac, tags not written';
return false;
}
// Create file with new comments
$tempcommentsfilename = tempnam(GetId3Core::getTempDir(), 'getID3');
if (is_writable($tempcommentsfilename) && is_file($tempcommentsfilename) && ($fpcomments = fopen($tempcommentsfilename, 'wb'))) {
foreach ($this->tag_data as $key => $value) {
foreach ($value as $commentdata) {
fwrite($fpcomments, $this->CleanmetaflacName($key) . '=' . $commentdata . "\n");
}
}
fclose($fpcomments);
} else {
$this->errors[] = 'failed to open temporary tags file, tags not written - fopen("' . $tempcommentsfilename . '", "wb")';
return false;
}
$oldignoreuserabort = ignore_user_abort(true);
if (GetId3Core::environmentIsWindows()) {
if (file_exists(GetId3Core::getHelperAppsDir() . 'metaflac.exe')) {
//$commandline = '"'.GetId3Core::getHelperAppsDir().'metaflac.exe" --no-utf8-convert --remove-all-tags --import-tags-from="'.$tempcommentsfilename.'" "'.str_replace('/', '\\', $this->filename).'"';
// metaflac works fine if you copy-paste the above commandline into a command prompt,
// but refuses to work with `backtick` if there are "doublequotes" present around BOTH
// the metaflac pathname and the target filename. For whatever reason...??
// The solution is simply ensure that the metaflac pathname has no spaces,
// and therefore does not need to be quoted
// On top of that, if error messages are not always captured properly under Windows
// To at least see if there was a problem, compare file modification timestamps before and after writing
clearstatcache();
$timestampbeforewriting = filemtime($this->filename);
$commandline = GetId3Core::getHelperAppsDir() . 'metaflac.exe --no-utf8-convert --remove-all-tags --import-tags-from=' . escapeshellarg($tempcommentsfilename) . ' ' . escapeshellarg($this->filename) . ' 2>&1';
$metaflacError = `{$commandline}`;
if (empty($metaflacError)) {
clearstatcache();
if ($timestampbeforewriting == filemtime($this->filename)) {
$metaflacError = 'File modification timestamp has not changed - it looks like the tags were not written';
}
}
} else {
$metaflacError = 'metaflac.exe not found in ' . GetId3Core::getHelperAppsDir();
}
} else {
// It's simpler on *nix
$commandline = 'metaflac --no-utf8-convert --remove-all-tags --import-tags-from=' . escapeshellarg($tempcommentsfilename) . ' ' . escapeshellarg($this->filename) . ' 2>&1';
$metaflacError = `{$commandline}`;
}
// Remove temporary comments file
unlink($tempcommentsfilename);
ignore_user_abort($oldignoreuserabort);
if (!empty($metaflacError)) {
$this->errors[] = 'System call to metaflac failed with this message returned: ' . "\n\n" . $metaflacError;
return false;
}
return true;
}
/**
* @param type $RIFFdata
*
* @return bool
*/
public function ParseRIFFdata(&$RIFFdata)
{
$info =& $this->getid3->info;
if ($RIFFdata) {
$tempfile = tempnam(GetId3Core::getTempDir(), 'getID3');
$fp_temp = fopen($tempfile, 'wb');
$RIFFdataLength = strlen($RIFFdata);
$NewLengthString = Helper::LittleEndian2String($RIFFdataLength, 4);
for ($i = 0; $i < 4; ++$i) {
$RIFFdata[$i + 4] = $NewLengthString[$i];
}
fwrite($fp_temp, $RIFFdata);
fclose($fp_temp);
$getid3_temp = new GetId3Core();
$getid3_temp->openfile($tempfile);
$getid3_temp->info['filesize'] = $RIFFdataLength;
$getid3_temp->info['filenamepath'] = $info['filenamepath'];
$getid3_temp->info['tags'] = $info['tags'];
$getid3_temp->info['warning'] = $info['warning'];
$getid3_temp->info['error'] = $info['error'];
$getid3_temp->info['comments'] = $info['comments'];
$getid3_temp->info['audio'] = isset($info['audio']) ? $info['audio'] : array();
$getid3_temp->info['video'] = isset($info['video']) ? $info['video'] : array();
$getid3_riff = new self($getid3_temp);
$getid3_riff->analyze();
$info['riff'] = $getid3_temp->info['riff'];
$info['warning'] = $getid3_temp->info['warning'];
$info['error'] = $getid3_temp->info['error'];
$info['tags'] = $getid3_temp->info['tags'];
$info['comments'] = $getid3_temp->info['comments'];
unset($getid3_riff, $getid3_temp);
unlink($tempfile);
}
return false;
}
/**
* @return bool
*/
public function RemoveReal()
{
// File MUST be writeable - CHMOD(646) at least
if (is_writable($this->filename) && is_file($this->filename) && ($fp_source = fopen($this->filename, 'r+b'))) {
// Initialize GetId3 engine
$getID3 = new GetId3Core();
$OldThisFileInfo = $getID3->analyze($this->filename);
if (empty($OldThisFileInfo['real']['chunks']) && !empty($OldThisFileInfo['real']['old_ra_header'])) {
$this->errors[] = 'Cannot remove Real tags from old-style file format';
fclose($fp_source);
return false;
}
if (empty($OldThisFileInfo['real']['chunks'])) {
$this->errors[] = 'Cannot remove Real tags because cannot find DATA chunk in file';
fclose($fp_source);
return false;
}
foreach ($OldThisFileInfo['real']['chunks'] as $chunknumber => $chunkarray) {
$oldChunkInfo[$chunkarray['name']] = $chunkarray;
}
if (empty($oldChunkInfo['CONT'])) {
// no existing CONT chunk
fclose($fp_source);
return true;
}
$BeforeOffset = $oldChunkInfo['CONT']['offset'];
$AfterOffset = $oldChunkInfo['CONT']['offset'] + $oldChunkInfo['CONT']['length'];
if ($tempfilename = tempnam(GetId3Core::getTempDir(), 'getID3')) {
if (is_writable($tempfilename) && is_file($tempfilename) && ($fp_temp = fopen($tempfilename, 'wb'))) {
rewind($fp_source);
fwrite($fp_temp, fread($fp_source, $BeforeOffset));
fseek($fp_source, $AfterOffset, SEEK_SET);
while ($buffer = fread($fp_source, $this->fread_buffer_size)) {
fwrite($fp_temp, $buffer, strlen($buffer));
}
fclose($fp_temp);
if (copy($tempfilename, $this->filename)) {
unlink($tempfilename);
fclose($fp_source);
return true;
}
unlink($tempfilename);
$this->errors[] = 'FAILED: copy(' . $tempfilename . ', ' . $this->filename . ')';
} else {
$this->errors[] = 'Could not fopen("' . $tempfilename . '", "wb")';
}
}
fclose($fp_source);
return false;
}
$this->errors[] = 'Could not fopen("' . $this->filename . '", "r+b")';
return false;
}
/**
* @return bool
*/
public function analyze()
{
$info =& $this->getid3->info;
$info['fileformat'] = 'gzip';
$start_length = 10;
$unpack_header = 'a1id1/a1id2/a1cmethod/a1flags/a4mtime/a1xflags/a1os';
//+---+---+---+---+---+---+---+---+---+---+
//|ID1|ID2|CM |FLG| MTIME |XFL|OS |
//+---+---+---+---+---+---+---+---+---+---+
if ($info['filesize'] > $info['php_memory_limit']) {
$info['error'][] = 'File is too large (' . number_format($info['filesize']) . ' bytes) to read into memory (limit: ' . number_format($info['php_memory_limit'] / 1048576) . 'MB)';
return false;
}
fseek($this->getid3->fp, 0);
$buffer = fread($this->getid3->fp, $info['filesize']);
$arr_members = explode(" ‹", $buffer);
while (true) {
$is_wrong_members = false;
$num_members = intval(count($arr_members));
for ($i = 0; $i < $num_members; ++$i) {
if (strlen($arr_members[$i]) == 0) {
continue;
}
$buf = " ‹" . $arr_members[$i];
$attr = unpack($unpack_header, substr($buf, 0, $start_length));
if (!$this->get_os_type(ord($attr['os']))) {
// Merge member with previous if wrong OS type
$arr_members[$i - 1] .= $buf;
$arr_members[$i] = '';
$is_wrong_members = true;
continue;
}
}
if (!$is_wrong_members) {
break;
}
}
$info['gzip']['files'] = array();
$fpointer = 0;
$idx = 0;
for ($i = 0; $i < $num_members; ++$i) {
if (strlen($arr_members[$i]) == 0) {
continue;
}
$thisInfo =& $info['gzip']['member_header'][++$idx];
$buff = " ‹" . $arr_members[$i];
$attr = unpack($unpack_header, substr($buff, 0, $start_length));
$thisInfo['filemtime'] = Helper::LittleEndian2Int($attr['mtime']);
$thisInfo['raw']['id1'] = ord($attr['cmethod']);
$thisInfo['raw']['id2'] = ord($attr['cmethod']);
$thisInfo['raw']['cmethod'] = ord($attr['cmethod']);
$thisInfo['raw']['os'] = ord($attr['os']);
$thisInfo['raw']['xflags'] = ord($attr['xflags']);
$thisInfo['raw']['flags'] = ord($attr['flags']);
$thisInfo['flags']['crc16'] = (bool) ($thisInfo['raw']['flags'] & 0x2);
$thisInfo['flags']['extra'] = (bool) ($thisInfo['raw']['flags'] & 0x4);
$thisInfo['flags']['filename'] = (bool) ($thisInfo['raw']['flags'] & 0x8);
$thisInfo['flags']['comment'] = (bool) ($thisInfo['raw']['flags'] & 0x10);
$thisInfo['compression'] = $this->get_xflag_type($thisInfo['raw']['xflags']);
$thisInfo['os'] = $this->get_os_type($thisInfo['raw']['os']);
if (!$thisInfo['os']) {
$info['error'][] = 'Read error on gzip file';
return false;
}
$fpointer = 10;
$arr_xsubfield = array();
// bit 2 - FLG.FEXTRA
//+---+---+=================================+
//| XLEN |...XLEN bytes of "extra field"...|
//+---+---+=================================+
if ($thisInfo['flags']['extra']) {
$w_xlen = substr($buff, $fpointer, 2);
$xlen = Helper::LittleEndian2Int($w_xlen);
$fpointer += 2;
$thisInfo['raw']['xfield'] = substr($buff, $fpointer, $xlen);
// Extra SubFields
//+---+---+---+---+==================================+
//|SI1|SI2| LEN |... LEN bytes of subfield data ...|
//+---+---+---+---+==================================+
$idx = 0;
while (true) {
if ($idx >= $xlen) {
break;
}
$si1 = ord(substr($buff, $fpointer + $idx++, 1));
$si2 = ord(substr($buff, $fpointer + $idx++, 1));
if ($si1 == 0x41 && $si2 == 0x70) {
$w_xsublen = substr($buff, $fpointer + $idx, 2);
$xsublen = Helper::LittleEndian2Int($w_xsublen);
$idx += 2;
$arr_xsubfield[] = substr($buff, $fpointer + $idx, $xsublen);
$idx += $xsublen;
} else {
break;
}
}
$fpointer += $xlen;
}
// bit 3 - FLG.FNAME
//+=========================================+
//|...original file name, zero-terminated...|
//+=========================================+
// GZIP files may have only one file, with no filename, so assume original filename is current filename without .gz
$thisInfo['filename'] = preg_replace('#\\.gz$#i', '', $info['filename']);
if ($thisInfo['flags']['filename']) {
while (true) {
if (ord($buff[$fpointer]) == 0) {
++$fpointer;
break;
}
$thisInfo['filename'] .= $buff[$fpointer];
++$fpointer;
}
}
// bit 4 - FLG.FCOMMENT
//+===================================+
//|...file comment, zero-terminated...|
//+===================================+
if ($thisInfo['flags']['comment']) {
while (true) {
if (ord($buff[$fpointer]) == 0) {
++$fpointer;
break;
}
$thisInfo['comment'] .= $buff[$fpointer];
++$fpointer;
}
}
// bit 1 - FLG.FHCRC
//+---+---+
//| CRC16 |
//+---+---+
if ($thisInfo['flags']['crc16']) {
$w_crc = substr($buff, $fpointer, 2);
$thisInfo['crc16'] = Helper::LittleEndian2Int($w_crc);
$fpointer += 2;
}
// bit 0 - FLG.FTEXT
//if ($thisInfo['raw']['flags'] & 0x01) {
// Ignored...
//}
// bits 5, 6, 7 - reserved
$thisInfo['crc32'] = Helper::LittleEndian2Int(substr($buff, strlen($buff) - 8, 4));
$thisInfo['filesize'] = Helper::LittleEndian2Int(substr($buff, strlen($buff) - 4));
$info['gzip']['files'] = Helper::array_merge_clobber($info['gzip']['files'], Helper::CreateDeepArray($thisInfo['filename'], '/', $thisInfo['filesize']));
if ($this->option_gzip_parse_contents) {
// Try to inflate GZip
$csize = 0;
$inflated = '';
$chkcrc32 = '';
if (function_exists('gzinflate')) {
$cdata = substr($buff, $fpointer);
$cdata = substr($cdata, 0, strlen($cdata) - 8);
$csize = strlen($cdata);
$inflated = gzinflate($cdata);
// Calculate CRC32 for inflated content
$thisInfo['crc32_valid'] = (bool) (sprintf('%u', crc32($inflated)) == $thisInfo['crc32']);
// determine format
$formattest = substr($inflated, 0, 32774);
$getid3_temp = new GetId3Core();
$determined_format = $getid3_temp->GetFileFormat($formattest);
unset($getid3_temp);
// file format is determined
$determined_format['module'] = isset($determined_format['module']) ? $determined_format['module'] : '';
switch ($determined_format['module']) {
case 'tar':
// view TAR-file info
if (class_exists($determined_format['class'])) {
if (($temp_tar_filename = tempnam(GetId3Core::getTempDir(), 'getID3')) === false) {
// can't find anywhere to create a temp file, abort
$info['error'][] = 'Unable to create temp file to parse TAR inside GZIP file';
break;
}
if ($fp_temp_tar = fopen($temp_tar_filename, 'w+b')) {
fwrite($fp_temp_tar, $inflated);
fclose($fp_temp_tar);
$getid3_temp = new GetId3Core();
$getid3_temp->openfile($temp_tar_filename);
$getid3_tar = new Tar($getid3_temp);
$getid3_tar->analyze();
$info['gzip']['member_header'][$idx]['tar'] = $getid3_temp->info['tar'];
unset($getid3_temp, $getid3_tar);
unlink($temp_tar_filename);
} else {
$info['error'][] = 'Unable to fopen() temp file to parse TAR inside GZIP file';
break;
}
}
break;
case '':
default:
// unknown or unhandled format
break;
}
}
}
}
return true;
}
/**
* @return bool
*/
public function analyze()
{
$info =& $this->getid3->info;
$offset = 0;
fseek($this->getid3->fp, $info['avdataoffset'], SEEK_SET);
$rawdata = fread($this->getid3->fp, $this->getid3->fread_buffer_size());
switch (substr($rawdata, $offset, 4)) {
case 'LA02':
case 'LA03':
case 'LA04':
$info['fileformat'] = 'la';
$info['audio']['dataformat'] = 'la';
$info['audio']['lossless'] = true;
$info['la']['version_major'] = (int) substr($rawdata, $offset + 2, 1);
$info['la']['version_minor'] = (int) substr($rawdata, $offset + 3, 1);
$info['la']['version'] = (double) $info['la']['version_major'] + $info['la']['version_minor'] / 10;
$offset += 4;
$info['la']['uncompressed_size'] = Helper::LittleEndian2Int(substr($rawdata, $offset, 4));
$offset += 4;
if ($info['la']['uncompressed_size'] == 0) {
$info['error'][] = 'Corrupt LA file: uncompressed_size == zero';
return false;
}
$WAVEchunk = substr($rawdata, $offset, 4);
if ($WAVEchunk !== 'WAVE') {
$info['error'][] = 'Expected "WAVE" (' . Helper::PrintHexBytes('WAVE') . ') at offset ' . $offset . ', found "' . $WAVEchunk . '" (' . Helper::PrintHexBytes($WAVEchunk) . ') instead.';
return false;
}
$offset += 4;
$info['la']['fmt_size'] = 24;
if ($info['la']['version'] >= 0.3) {
$info['la']['fmt_size'] = Helper::LittleEndian2Int(substr($rawdata, $offset, 4));
$info['la']['header_size'] = 49 + $info['la']['fmt_size'] - 24;
$offset += 4;
} else {
// version 0.2 didn't support additional data blocks
$info['la']['header_size'] = 41;
}
$fmt_chunk = substr($rawdata, $offset, 4);
if ($fmt_chunk !== 'fmt ') {
$info['error'][] = 'Expected "fmt " (' . Helper::PrintHexBytes('fmt ') . ') at offset ' . $offset . ', found "' . $fmt_chunk . '" (' . Helper::PrintHexBytes($fmt_chunk) . ') instead.';
return false;
}
$offset += 4;
$fmt_size = Helper::LittleEndian2Int(substr($rawdata, $offset, 4));
$offset += 4;
$info['la']['raw']['format'] = Helper::LittleEndian2Int(substr($rawdata, $offset, 2));
$offset += 2;
$info['la']['channels'] = Helper::LittleEndian2Int(substr($rawdata, $offset, 2));
$offset += 2;
if ($info['la']['channels'] == 0) {
$info['error'][] = 'Corrupt LA file: channels == zero';
return false;
}
$info['la']['sample_rate'] = Helper::LittleEndian2Int(substr($rawdata, $offset, 4));
$offset += 4;
if ($info['la']['sample_rate'] == 0) {
$info['error'][] = 'Corrupt LA file: sample_rate == zero';
return false;
}
$info['la']['bytes_per_second'] = Helper::LittleEndian2Int(substr($rawdata, $offset, 4));
$offset += 4;
$info['la']['bytes_per_sample'] = Helper::LittleEndian2Int(substr($rawdata, $offset, 2));
$offset += 2;
$info['la']['bits_per_sample'] = Helper::LittleEndian2Int(substr($rawdata, $offset, 2));
$offset += 2;
$info['la']['samples'] = Helper::LittleEndian2Int(substr($rawdata, $offset, 4));
$offset += 4;
$info['la']['raw']['flags'] = Helper::LittleEndian2Int(substr($rawdata, $offset, 1));
$offset += 1;
$info['la']['flags']['seekable'] = (bool) ($info['la']['raw']['flags'] & 0x1);
if ($info['la']['version'] >= 0.4) {
$info['la']['flags']['high_compression'] = (bool) ($info['la']['raw']['flags'] & 0x2);
}
$info['la']['original_crc'] = Helper::LittleEndian2Int(substr($rawdata, $offset, 4));
$offset += 4;
// mikeØbevin*de
// Basically, the blocksize/seekevery are 61440/19 in La0.4 and 73728/16
// in earlier versions. A seekpoint is added every blocksize * seekevery
// samples, so 4 * int(totalSamples / (blockSize * seekEvery)) should
// give the number of bytes used for the seekpoints. Of course, if seeking
// is disabled, there are no seekpoints stored.
if ($info['la']['version'] >= 0.4) {
$info['la']['blocksize'] = 61440;
$info['la']['seekevery'] = 19;
} else {
$info['la']['blocksize'] = 73728;
$info['la']['seekevery'] = 16;
}
$info['la']['seekpoint_count'] = 0;
if ($info['la']['flags']['seekable']) {
$info['la']['seekpoint_count'] = floor($info['la']['samples'] / ($info['la']['blocksize'] * $info['la']['seekevery']));
for ($i = 0; $i < $info['la']['seekpoint_count']; ++$i) {
$info['la']['seekpoints'][] = Helper::LittleEndian2Int(substr($rawdata, $offset, 4));
$offset += 4;
}
}
if ($info['la']['version'] >= 0.3) {
// Following the main header information, the program outputs all of the
// seekpoints. Following these is what I called the 'footer start',
// i.e. the position immediately after the La audio data is finished.
$info['la']['footerstart'] = Helper::LittleEndian2Int(substr($rawdata, $offset, 4));
$offset += 4;
if ($info['la']['footerstart'] > $info['filesize']) {
$info['warning'][] = 'FooterStart value points to offset ' . $info['la']['footerstart'] . ' which is beyond end-of-file (' . $info['filesize'] . ')';
$info['la']['footerstart'] = $info['filesize'];
}
} else {
// La v0.2 didn't have FooterStart value
$info['la']['footerstart'] = $info['avdataend'];
}
if ($info['la']['footerstart'] < $info['avdataend']) {
if ($RIFFtempfilename = tempnam(GetId3Core::getTempDir(), 'id3')) {
if ($RIFF_fp = fopen($RIFFtempfilename, 'w+b')) {
$RIFFdata = 'WAVE';
if ($info['la']['version'] == 0.2) {
$RIFFdata .= substr($rawdata, 12, 24);
} else {
$RIFFdata .= substr($rawdata, 16, 24);
}
if ($info['la']['footerstart'] < $info['avdataend']) {
fseek($this->getid3->fp, $info['la']['footerstart'], SEEK_SET);
$RIFFdata .= fread($this->getid3->fp, $info['avdataend'] - $info['la']['footerstart']);
}
$RIFFdata = 'RIFF' . Helper::LittleEndian2String(strlen($RIFFdata), 4, false) . $RIFFdata;
fwrite($RIFF_fp, $RIFFdata, strlen($RIFFdata));
fclose($RIFF_fp);
$getid3_temp = new GetId3Core();
$getid3_temp->openfile($RIFFtempfilename);
$getid3_riff = new Riff($getid3_temp);
$getid3_riff->analyze();
if (empty($getid3_temp->info['error'])) {
$info['riff'] = $getid3_temp->info['riff'];
} else {
$info['warning'][] = 'Error parsing RIFF portion of La file: ' . implode($getid3_temp->info['error']);
}
unset($getid3_temp, $getid3_riff);
}
unlink($RIFFtempfilename);
}
}
// $info['avdataoffset'] should be zero to begin with, but just in case it's not, include the addition anyway
$info['avdataend'] = $info['avdataoffset'] + $info['la']['footerstart'];
$info['avdataoffset'] = $info['avdataoffset'] + $offset;
//$info['la']['codec'] = RIFFwFormatTagLookup($info['la']['raw']['format']);
$info['la']['compression_ratio'] = (double) (($info['avdataend'] - $info['avdataoffset']) / $info['la']['uncompressed_size']);
$info['playtime_seconds'] = (double) ($info['la']['samples'] / $info['la']['sample_rate']) / $info['la']['channels'];
if ($info['playtime_seconds'] == 0) {
$info['error'][] = 'Corrupt LA file: playtime_seconds == zero';
return false;
}
$info['audio']['bitrate'] = ($info['avdataend'] - $info['avdataoffset']) * 8 / $info['playtime_seconds'];
//$info['audio']['codec'] = $info['la']['codec'];
$info['audio']['bits_per_sample'] = $info['la']['bits_per_sample'];
break;
default:
if (substr($rawdata, $offset, 2) == 'LA') {
$info['error'][] = 'This version of GetId3Core() [' . $this->getid3->version() . '] does not support LA version ' . substr($rawdata, $offset + 2, 1) . '.' . substr($rawdata, $offset + 3, 1) . ' which this appears to be - check http://getid3.sourceforge.net for updates.';
} else {
$info['error'][] = 'Not a LA (Lossless-Audio) file';
}
return false;
break;
}
$info['audio']['channels'] = $info['la']['channels'];
$info['audio']['sample_rate'] = (int) $info['la']['sample_rate'];
$info['audio']['encoder'] = 'LA v' . $info['la']['version'];
return true;
}
/**
* @return bool
*/
public function analyze()
{
$info =& $this->getid3->info;
// Shortcuts
$thisfile_audio =& $info['audio'];
$thisfile_video =& $info['video'];
$info['asf'] = array();
$thisfile_asf =& $info['asf'];
$thisfile_asf['comments'] = array();
$thisfile_asf_comments =& $thisfile_asf['comments'];
$thisfile_asf['header_object'] = array();
$thisfile_asf_headerobject =& $thisfile_asf['header_object'];
// ASF structure:
// * Header Object [required]
// * File Properties Object [required] (global file attributes)
// * Stream Properties Object [required] (defines media stream & characteristics)
// * Header Extension Object [required] (additional functionality)
// * Content Description Object (bibliographic information)
// * Script Command Object (commands for during playback)
// * Marker Object (named jumped points within the file)
// * Data Object [required]
// * Data Packets
// * Index Object
// Header Object: (mandatory, one only)
// Field Name Field Type Size (bits)
// Object ID GUID 128 // GUID for header object - GETID3_ASF_Header_Object
// Object Size QWORD 64 // size of header object, including 30 bytes of Header Object header
// Number of Header Objects DWORD 32 // number of objects in header object
// Reserved1 BYTE 8 // hardcoded: 0x01
// Reserved2 BYTE 8 // hardcoded: 0x02
$info['fileformat'] = 'asf';
fseek($this->getid3->fp, $info['avdataoffset'], SEEK_SET);
$HeaderObjectData = fread($this->getid3->fp, 30);
$thisfile_asf_headerobject['objectid'] = substr($HeaderObjectData, 0, 16);
$thisfile_asf_headerobject['objectid_guid'] = self::BytestringToGUID($thisfile_asf_headerobject['objectid']);
if ($thisfile_asf_headerobject['objectid'] != self::$GETID3_ASF_Header_Object) {
$info['warning'][] = 'ASF header GUID {' . self::BytestringToGUID($thisfile_asf_headerobject['objectid']) . '} does not match expected "GETID3_ASF_Header_Object" GUID {' . self::BytestringToGUID(self::$GETID3_ASF_Header_Object) . '}';
unset($info['fileformat']);
unset($info['asf']);
return false;
}
$thisfile_asf_headerobject['objectsize'] = Helper::LittleEndian2Int(substr($HeaderObjectData, 16, 8));
$thisfile_asf_headerobject['headerobjects'] = Helper::LittleEndian2Int(substr($HeaderObjectData, 24, 4));
$thisfile_asf_headerobject['reserved1'] = Helper::LittleEndian2Int(substr($HeaderObjectData, 28, 1));
$thisfile_asf_headerobject['reserved2'] = Helper::LittleEndian2Int(substr($HeaderObjectData, 29, 1));
$NextObjectOffset = ftell($this->getid3->fp);
$ASFHeaderData = fread($this->getid3->fp, $thisfile_asf_headerobject['objectsize'] - 30);
$offset = 0;
for ($HeaderObjectsCounter = 0; $HeaderObjectsCounter < $thisfile_asf_headerobject['headerobjects']; ++$HeaderObjectsCounter) {
$NextObjectGUID = substr($ASFHeaderData, $offset, 16);
$offset += 16;
$NextObjectGUIDtext = self::BytestringToGUID($NextObjectGUID);
$NextObjectSize = Helper::LittleEndian2Int(substr($ASFHeaderData, $offset, 8));
$offset += 8;
switch ($NextObjectGUID) {
case self::$GETID3_ASF_File_Properties_Object:
// File Properties Object: (mandatory, one only)
// Field Name Field Type Size (bits)
// Object ID GUID 128 // GUID for file properties object - GETID3_ASF_File_Properties_Object
// Object Size QWORD 64 // size of file properties object, including 104 bytes of File Properties Object header
// File ID GUID 128 // unique ID - identical to File ID in Data Object
// File Size QWORD 64 // entire file in bytes. Invalid if Broadcast Flag == 1
// Creation Date QWORD 64 // date & time of file creation. Maybe invalid if Broadcast Flag == 1
// Data Packets Count QWORD 64 // number of data packets in Data Object. Invalid if Broadcast Flag == 1
// Play Duration QWORD 64 // playtime, in 100-nanosecond units. Invalid if Broadcast Flag == 1
// Send Duration QWORD 64 // time needed to send file, in 100-nanosecond units. Players can ignore this value. Invalid if Broadcast Flag == 1
// Preroll QWORD 64 // time to buffer data before starting to play file, in 1-millisecond units. If <> 0, PlayDuration and PresentationTime have been offset by this amount
// Flags DWORD 32 //
// * Broadcast Flag bits 1 (0x01) // file is currently being written, some header values are invalid
// * Seekable Flag bits 1 (0x02) // is file seekable
// * Reserved bits 30 (0xFFFFFFFC) // reserved - set to zero
// Minimum Data Packet Size DWORD 32 // in bytes. should be same as Maximum Data Packet Size. Invalid if Broadcast Flag == 1
// Maximum Data Packet Size DWORD 32 // in bytes. should be same as Minimum Data Packet Size. Invalid if Broadcast Flag == 1
// Maximum Bitrate DWORD 32 // maximum instantaneous bitrate in bits per second for entire file, including all data streams and ASF overhead
// shortcut
$thisfile_asf['file_properties_object'] = array();
$thisfile_asf_filepropertiesobject =& $thisfile_asf['file_properties_object'];
$thisfile_asf_filepropertiesobject['offset'] = $NextObjectOffset + $offset;
$thisfile_asf_filepropertiesobject['objectid'] = $NextObjectGUID;
$thisfile_asf_filepropertiesobject['objectid_guid'] = $NextObjectGUIDtext;
$thisfile_asf_filepropertiesobject['objectsize'] = $NextObjectSize;
$thisfile_asf_filepropertiesobject['fileid'] = substr($ASFHeaderData, $offset, 16);
$offset += 16;
$thisfile_asf_filepropertiesobject['fileid_guid'] = self::BytestringToGUID($thisfile_asf_filepropertiesobject['fileid']);
$thisfile_asf_filepropertiesobject['filesize'] = Helper::LittleEndian2Int(substr($ASFHeaderData, $offset, 8));
$offset += 8;
$thisfile_asf_filepropertiesobject['creation_date'] = Helper::LittleEndian2Int(substr($ASFHeaderData, $offset, 8));
$thisfile_asf_filepropertiesobject['creation_date_unix'] = self::FILETIMEtoUNIXtime($thisfile_asf_filepropertiesobject['creation_date']);
$offset += 8;
$thisfile_asf_filepropertiesobject['data_packets'] = Helper::LittleEndian2Int(substr($ASFHeaderData, $offset, 8));
$offset += 8;
$thisfile_asf_filepropertiesobject['play_duration'] = Helper::LittleEndian2Int(substr($ASFHeaderData, $offset, 8));
$offset += 8;
$thisfile_asf_filepropertiesobject['send_duration'] = Helper::LittleEndian2Int(substr($ASFHeaderData, $offset, 8));
$offset += 8;
$thisfile_asf_filepropertiesobject['preroll'] = Helper::LittleEndian2Int(substr($ASFHeaderData, $offset, 8));
$offset += 8;
$thisfile_asf_filepropertiesobject['flags_raw'] = Helper::LittleEndian2Int(substr($ASFHeaderData, $offset, 4));
$offset += 4;
$thisfile_asf_filepropertiesobject['flags']['broadcast'] = (bool) ($thisfile_asf_filepropertiesobject['flags_raw'] & 0x1);
$thisfile_asf_filepropertiesobject['flags']['seekable'] = (bool) ($thisfile_asf_filepropertiesobject['flags_raw'] & 0x2);
$thisfile_asf_filepropertiesobject['min_packet_size'] = Helper::LittleEndian2Int(substr($ASFHeaderData, $offset, 4));
$offset += 4;
$thisfile_asf_filepropertiesobject['max_packet_size'] = Helper::LittleEndian2Int(substr($ASFHeaderData, $offset, 4));
$offset += 4;
$thisfile_asf_filepropertiesobject['max_bitrate'] = Helper::LittleEndian2Int(substr($ASFHeaderData, $offset, 4));
$offset += 4;
if ($thisfile_asf_filepropertiesobject['flags']['broadcast']) {
// broadcast flag is set, some values invalid
unset($thisfile_asf_filepropertiesobject['filesize']);
unset($thisfile_asf_filepropertiesobject['data_packets']);
unset($thisfile_asf_filepropertiesobject['play_duration']);
unset($thisfile_asf_filepropertiesobject['send_duration']);
unset($thisfile_asf_filepropertiesobject['min_packet_size']);
unset($thisfile_asf_filepropertiesobject['max_packet_size']);
} else {
// broadcast flag NOT set, perform calculations
$info['playtime_seconds'] = $thisfile_asf_filepropertiesobject['play_duration'] / 10000000 - $thisfile_asf_filepropertiesobject['preroll'] / 1000;
//$info['bitrate'] = $thisfile_asf_filepropertiesobject['max_bitrate'];
$info['bitrate'] = (isset($thisfile_asf_filepropertiesobject['filesize']) ? $thisfile_asf_filepropertiesobject['filesize'] : $info['filesize']) * 8 / $info['playtime_seconds'];
}
break;
case self::$GETID3_ASF_Stream_Properties_Object:
// Stream Properties Object: (mandatory, one per media stream)
// Field Name Field Type Size (bits)
// Object ID GUID 128 // GUID for stream properties object - GETID3_ASF_Stream_Properties_Object
// Object Size QWORD 64 // size of stream properties object, including 78 bytes of Stream Properties Object header
// Stream Type GUID 128 // GETID3_ASF_Audio_Media, GETID3_ASF_Video_Media or GETID3_ASF_Command_Media
// Error Correction Type GUID 128 // GETID3_ASF_Audio_Spread for audio-only streams, GETID3_ASF_No_Error_Correction for other stream types
// Time Offset QWORD 64 // 100-nanosecond units. typically zero. added to all timestamps of samples in the stream
// Type-Specific Data Length DWORD 32 // number of bytes for Type-Specific Data field
// Error Correction Data Length DWORD 32 // number of bytes for Error Correction Data field
// Flags WORD 16 //
// * Stream Number bits 7 (0x007F) // number of this stream. 1 <= valid <= 127
// * Reserved bits 8 (0x7F80) // reserved - set to zero
// * Encrypted Content Flag bits 1 (0x8000) // stream contents encrypted if set
// Reserved DWORD 32 // reserved - set to zero
// Type-Specific Data BYTESTREAM variable // type-specific format data, depending on value of Stream Type
// Error Correction Data BYTESTREAM variable // error-correction-specific format data, depending on value of Error Correct Type
// There is one self::$GETID3_ASF_Stream_Properties_Object for each stream (audio, video) but the
// stream number isn't known until halfway through decoding the structure, hence it
// it is decoded to a temporary variable and then stuck in the appropriate index later
$StreamPropertiesObjectData = array();
$StreamPropertiesObjectData['offset'] = $NextObjectOffset + $offset;
$StreamPropertiesObjectData['objectid'] = $NextObjectGUID;
$StreamPropertiesObjectData['objectid_guid'] = $NextObjectGUIDtext;
$StreamPropertiesObjectData['objectsize'] = $NextObjectSize;
$StreamPropertiesObjectData['stream_type'] = substr($ASFHeaderData, $offset, 16);
$offset += 16;
$StreamPropertiesObjectData['stream_type_guid'] = self::BytestringToGUID($StreamPropertiesObjectData['stream_type']);
$StreamPropertiesObjectData['error_correct_type'] = substr($ASFHeaderData, $offset, 16);
$offset += 16;
$StreamPropertiesObjectData['error_correct_guid'] = self::BytestringToGUID($StreamPropertiesObjectData['error_correct_type']);
$StreamPropertiesObjectData['time_offset'] = Helper::LittleEndian2Int(substr($ASFHeaderData, $offset, 8));
$offset += 8;
$StreamPropertiesObjectData['type_data_length'] = Helper::LittleEndian2Int(substr($ASFHeaderData, $offset, 4));
$offset += 4;
$StreamPropertiesObjectData['error_data_length'] = Helper::LittleEndian2Int(substr($ASFHeaderData, $offset, 4));
$offset += 4;
$StreamPropertiesObjectData['flags_raw'] = Helper::LittleEndian2Int(substr($ASFHeaderData, $offset, 2));
$offset += 2;
$StreamPropertiesObjectStreamNumber = $StreamPropertiesObjectData['flags_raw'] & 0x7f;
$StreamPropertiesObjectData['flags']['encrypted'] = (bool) ($StreamPropertiesObjectData['flags_raw'] & 0x8000);
$offset += 4;
// reserved - DWORD
$StreamPropertiesObjectData['type_specific_data'] = substr($ASFHeaderData, $offset, $StreamPropertiesObjectData['type_data_length']);
$offset += $StreamPropertiesObjectData['type_data_length'];
$StreamPropertiesObjectData['error_correct_data'] = substr($ASFHeaderData, $offset, $StreamPropertiesObjectData['error_data_length']);
$offset += $StreamPropertiesObjectData['error_data_length'];
switch ($StreamPropertiesObjectData['stream_type']) {
case self::$GETID3_ASF_Audio_Media:
$thisfile_audio['dataformat'] = !empty($thisfile_audio['dataformat']) ? $thisfile_audio['dataformat'] : 'asf';
$thisfile_audio['bitrate_mode'] = !empty($thisfile_audio['bitrate_mode']) ? $thisfile_audio['bitrate_mode'] : 'cbr';
$audiodata = Riff::RIFFparseWAVEFORMATex(substr($StreamPropertiesObjectData['type_specific_data'], 0, 16));
unset($audiodata['raw']);
$thisfile_audio = Helper::array_merge_noclobber($audiodata, $thisfile_audio);
break;
case self::$GETID3_ASF_Video_Media:
$thisfile_video['dataformat'] = !empty($thisfile_video['dataformat']) ? $thisfile_video['dataformat'] : 'asf';
$thisfile_video['bitrate_mode'] = !empty($thisfile_video['bitrate_mode']) ? $thisfile_video['bitrate_mode'] : 'cbr';
break;
case self::$GETID3_ASF_Command_Media:
default:
// do nothing
break;
}
$thisfile_asf['stream_properties_object'][$StreamPropertiesObjectStreamNumber] = $StreamPropertiesObjectData;
unset($StreamPropertiesObjectData);
// clear for next stream, if any
break;
case self::$GETID3_ASF_Header_Extension_Object:
// Header Extension Object: (mandatory, one only)
// Field Name Field Type Size (bits)
// Object ID GUID 128 // GUID for Header Extension object - GETID3_ASF_Header_Extension_Object
// Object Size QWORD 64 // size of Header Extension object, including 46 bytes of Header Extension Object header
// Reserved Field 1 GUID 128 // hardcoded: GETID3_ASF_Reserved_1
// Reserved Field 2 WORD 16 // hardcoded: 0x00000006
// Header Extension Data Size DWORD 32 // in bytes. valid: 0, or > 24. equals object size minus 46
// Header Extension Data BYTESTREAM variable // array of zero or more extended header objects
// shortcut
$thisfile_asf['header_extension_object'] = array();
$thisfile_asf_headerextensionobject =& $thisfile_asf['header_extension_object'];
$thisfile_asf_headerextensionobject['offset'] = $NextObjectOffset + $offset;
$thisfile_asf_headerextensionobject['objectid'] = $NextObjectGUID;
$thisfile_asf_headerextensionobject['objectid_guid'] = $NextObjectGUIDtext;
$thisfile_asf_headerextensionobject['objectsize'] = $NextObjectSize;
$thisfile_asf_headerextensionobject['reserved_1'] = substr($ASFHeaderData, $offset, 16);
$offset += 16;
$thisfile_asf_headerextensionobject['reserved_1_guid'] = self::BytestringToGUID($thisfile_asf_headerextensionobject['reserved_1']);
if ($thisfile_asf_headerextensionobject['reserved_1'] != self::$GETID3_ASF_Reserved_1) {
$info['warning'][] = 'header_extension_object.reserved_1 GUID (' . self::BytestringToGUID($thisfile_asf_headerextensionobject['reserved_1']) . ') does not match expected "GETID3_ASF_Reserved_1" GUID (' . self::BytestringToGUID(self::$GETID3_ASF_Reserved_1) . ')';
//return false;
break;
}
$thisfile_asf_headerextensionobject['reserved_2'] = Helper::LittleEndian2Int(substr($ASFHeaderData, $offset, 2));
$offset += 2;
if ($thisfile_asf_headerextensionobject['reserved_2'] != 6) {
$info['warning'][] = 'header_extension_object.reserved_2 (' . Helper::PrintHexBytes($thisfile_asf_headerextensionobject['reserved_2']) . ') does not match expected value of "6"';
//return false;
break;
}
$thisfile_asf_headerextensionobject['extension_data_size'] = Helper::LittleEndian2Int(substr($ASFHeaderData, $offset, 4));
$offset += 4;
$thisfile_asf_headerextensionobject['extension_data'] = substr($ASFHeaderData, $offset, $thisfile_asf_headerextensionobject['extension_data_size']);
$unhandled_sections = 0;
$thisfile_asf_headerextensionobject['extension_data_parsed'] = $this->ASF_HeaderExtensionObjectDataParse($thisfile_asf_headerextensionobject['extension_data'], $unhandled_sections);
if ($unhandled_sections === 0) {
unset($thisfile_asf_headerextensionobject['extension_data']);
}
$offset += $thisfile_asf_headerextensionobject['extension_data_size'];
break;
case self::$GETID3_ASF_Codec_List_Object:
// Codec List Object: (optional, one only)
// Field Name Field Type Size (bits)
// Object ID GUID 128 // GUID for Codec List object - GETID3_ASF_Codec_List_Object
// Object Size QWORD 64 // size of Codec List object, including 44 bytes of Codec List Object header
// Reserved GUID 128 // hardcoded: 86D15241-311D-11D0-A3A4-00A0C90348F6
// Codec Entries Count DWORD 32 // number of entries in Codec Entries array
// Codec Entries array of: variable //
// * Type WORD 16 // 0x0001 = Video Codec, 0x0002 = Audio Codec, 0xFFFF = Unknown Codec
// * Codec Name Length WORD 16 // number of Unicode characters stored in the Codec Name field
// * Codec Name WCHAR variable // array of Unicode characters - name of codec used to create the content
// * Codec Description Length WORD 16 // number of Unicode characters stored in the Codec Description field
// * Codec Description WCHAR variable // array of Unicode characters - description of format used to create the content
// * Codec Information Length WORD 16 // number of Unicode characters stored in the Codec Information field
// * Codec Information BYTESTREAM variable // opaque array of information bytes about the codec used to create the content
// shortcut
$thisfile_asf['codec_list_object'] = array();
$thisfile_asf_codeclistobject =& $thisfile_asf['codec_list_object'];
$thisfile_asf_codeclistobject['offset'] = $NextObjectOffset + $offset;
$thisfile_asf_codeclistobject['objectid'] = $NextObjectGUID;
$thisfile_asf_codeclistobject['objectid_guid'] = $NextObjectGUIDtext;
$thisfile_asf_codeclistobject['objectsize'] = $NextObjectSize;
$thisfile_asf_codeclistobject['reserved'] = substr($ASFHeaderData, $offset, 16);
$offset += 16;
$thisfile_asf_codeclistobject['reserved_guid'] = self::BytestringToGUID($thisfile_asf_codeclistobject['reserved']);
if ($thisfile_asf_codeclistobject['reserved'] != self::GUIDtoBytestring('86D15241-311D-11D0-A3A4-00A0C90348F6')) {
$info['warning'][] = 'codec_list_object.reserved GUID {' . self::BytestringToGUID($thisfile_asf_codeclistobject['reserved']) . '} does not match expected "GETID3_ASF_Reserved_1" GUID {86D15241-311D-11D0-A3A4-00A0C90348F6}';
//return false;
break;
}
$thisfile_asf_codeclistobject['codec_entries_count'] = Helper::LittleEndian2Int(substr($ASFHeaderData, $offset, 4));
$offset += 4;
for ($CodecEntryCounter = 0; $CodecEntryCounter < $thisfile_asf_codeclistobject['codec_entries_count']; ++$CodecEntryCounter) {
// shortcut
$thisfile_asf_codeclistobject['codec_entries'][$CodecEntryCounter] = array();
$thisfile_asf_codeclistobject_codecentries_current =& $thisfile_asf_codeclistobject['codec_entries'][$CodecEntryCounter];
$thisfile_asf_codeclistobject_codecentries_current['type_raw'] = Helper::LittleEndian2Int(substr($ASFHeaderData, $offset, 2));
$offset += 2;
$thisfile_asf_codeclistobject_codecentries_current['type'] = $this->ASFCodecListObjectTypeLookup($thisfile_asf_codeclistobject_codecentries_current['type_raw']);
$CodecNameLength = Helper::LittleEndian2Int(substr($ASFHeaderData, $offset, 2)) * 2;
// 2 bytes per character
$offset += 2;
$thisfile_asf_codeclistobject_codecentries_current['name'] = substr($ASFHeaderData, $offset, $CodecNameLength);
$offset += $CodecNameLength;
$CodecDescriptionLength = Helper::LittleEndian2Int(substr($ASFHeaderData, $offset, 2)) * 2;
// 2 bytes per character
$offset += 2;
$thisfile_asf_codeclistobject_codecentries_current['description'] = substr($ASFHeaderData, $offset, $CodecDescriptionLength);
$offset += $CodecDescriptionLength;
$CodecInformationLength = Helper::LittleEndian2Int(substr($ASFHeaderData, $offset, 2));
$offset += 2;
$thisfile_asf_codeclistobject_codecentries_current['information'] = substr($ASFHeaderData, $offset, $CodecInformationLength);
$offset += $CodecInformationLength;
if ($thisfile_asf_codeclistobject_codecentries_current['type_raw'] == 2) {
// audio codec
if (strpos($thisfile_asf_codeclistobject_codecentries_current['description'], ',') === false) {
$info['warning'][] = '[asf][codec_list_object][codec_entries][' . $CodecEntryCounter . '][description] expected to contain comma-seperated list of parameters: "' . $thisfile_asf_codeclistobject_codecentries_current['description'] . '"';
} else {
list($AudioCodecBitrate, $AudioCodecFrequency, $AudioCodecChannels) = explode(',', self::TrimConvert($thisfile_asf_codeclistobject_codecentries_current['description']));
$thisfile_audio['codec'] = self::TrimConvert($thisfile_asf_codeclistobject_codecentries_current['name']);
if (!isset($thisfile_audio['bitrate']) && strstr($AudioCodecBitrate, 'kbps')) {
$thisfile_audio['bitrate'] = (int) (trim(str_replace('kbps', '', $AudioCodecBitrate)) * 1000);
}
//if (!isset($thisfile_video['bitrate']) && isset($thisfile_audio['bitrate']) && isset($thisfile_asf['file_properties_object']['max_bitrate']) && ($thisfile_asf_codeclistobject['codec_entries_count'] > 1)) {
if (empty($thisfile_video['bitrate']) && !empty($thisfile_audio['bitrate']) && !empty($info['bitrate'])) {
//$thisfile_video['bitrate'] = $thisfile_asf['file_properties_object']['max_bitrate'] - $thisfile_audio['bitrate'];
$thisfile_video['bitrate'] = $info['bitrate'] - $thisfile_audio['bitrate'];
}
$AudioCodecFrequency = (int) trim(str_replace('kHz', '', $AudioCodecFrequency));
switch ($AudioCodecFrequency) {
case 8:
case 8000:
$thisfile_audio['sample_rate'] = 8000;
break;
case 11:
case 11025:
$thisfile_audio['sample_rate'] = 11025;
break;
case 12:
case 12000:
$thisfile_audio['sample_rate'] = 12000;
break;
case 16:
case 16000:
$thisfile_audio['sample_rate'] = 16000;
break;
case 22:
case 22050:
$thisfile_audio['sample_rate'] = 22050;
break;
case 24:
case 24000:
$thisfile_audio['sample_rate'] = 24000;
break;
case 32:
case 32000:
$thisfile_audio['sample_rate'] = 32000;
break;
case 44:
case 441000:
$thisfile_audio['sample_rate'] = 44100;
break;
case 48:
case 48000:
$thisfile_audio['sample_rate'] = 48000;
break;
default:
$info['warning'][] = 'unknown frequency: "' . $AudioCodecFrequency . '" (' . self::TrimConvert($thisfile_asf_codeclistobject_codecentries_current['description']) . ')';
break;
}
if (!isset($thisfile_audio['channels'])) {
if (strstr($AudioCodecChannels, 'stereo')) {
$thisfile_audio['channels'] = 2;
} elseif (strstr($AudioCodecChannels, 'mono')) {
$thisfile_audio['channels'] = 1;
}
}
}
}
}
break;
case self::$GETID3_ASF_Script_Command_Object:
// Script Command Object: (optional, one only)
// Field Name Field Type Size (bits)
// Object ID GUID 128 // GUID for Script Command object - GETID3_ASF_Script_Command_Object
// Object Size QWORD 64 // size of Script Command object, including 44 bytes of Script Command Object header
// Reserved GUID 128 // hardcoded: 4B1ACBE3-100B-11D0-A39B-00A0C90348F6
// Commands Count WORD 16 // number of Commands structures in the Script Commands Objects
// Command Types Count WORD 16 // number of Command Types structures in the Script Commands Objects
// Command Types array of: variable //
// * Command Type Name Length WORD 16 // number of Unicode characters for Command Type Name
// * Command Type Name WCHAR variable // array of Unicode characters - name of a type of command
// Commands array of: variable //
// * Presentation Time DWORD 32 // presentation time of that command, in milliseconds
// * Type Index WORD 16 // type of this command, as a zero-based index into the array of Command Types of this object
// * Command Name Length WORD 16 // number of Unicode characters for Command Name
// * Command Name WCHAR variable // array of Unicode characters - name of this command
// shortcut
$thisfile_asf['script_command_object'] = array();
$thisfile_asf_scriptcommandobject =& $thisfile_asf['script_command_object'];
$thisfile_asf_scriptcommandobject['offset'] = $NextObjectOffset + $offset;
$thisfile_asf_scriptcommandobject['objectid'] = $NextObjectGUID;
$thisfile_asf_scriptcommandobject['objectid_guid'] = $NextObjectGUIDtext;
$thisfile_asf_scriptcommandobject['objectsize'] = $NextObjectSize;
$thisfile_asf_scriptcommandobject['reserved'] = substr($ASFHeaderData, $offset, 16);
$offset += 16;
$thisfile_asf_scriptcommandobject['reserved_guid'] = self::BytestringToGUID($thisfile_asf_scriptcommandobject['reserved']);
if ($thisfile_asf_scriptcommandobject['reserved'] != self::GUIDtoBytestring('4B1ACBE3-100B-11D0-A39B-00A0C90348F6')) {
$info['warning'][] = 'script_command_object.reserved GUID {' . self::BytestringToGUID($thisfile_asf_scriptcommandobject['reserved']) . '} does not match expected "GETID3_ASF_Reserved_1" GUID {4B1ACBE3-100B-11D0-A39B-00A0C90348F6}';
//return false;
break;
}
$thisfile_asf_scriptcommandobject['commands_count'] = Helper::LittleEndian2Int(substr($ASFHeaderData, $offset, 2));
$offset += 2;
$thisfile_asf_scriptcommandobject['command_types_count'] = Helper::LittleEndian2Int(substr($ASFHeaderData, $offset, 2));
$offset += 2;
for ($CommandTypesCounter = 0; $CommandTypesCounter < $thisfile_asf_scriptcommandobject['command_types_count']; ++$CommandTypesCounter) {
$CommandTypeNameLength = Helper::LittleEndian2Int(substr($ASFHeaderData, $offset, 2)) * 2;
// 2 bytes per character
$offset += 2;
$thisfile_asf_scriptcommandobject['command_types'][$CommandTypesCounter]['name'] = substr($ASFHeaderData, $offset, $CommandTypeNameLength);
$offset += $CommandTypeNameLength;
}
for ($CommandsCounter = 0; $CommandsCounter < $thisfile_asf_scriptcommandobject['commands_count']; ++$CommandsCounter) {
$thisfile_asf_scriptcommandobject['commands'][$CommandsCounter]['presentation_time'] = Helper::LittleEndian2Int(substr($ASFHeaderData, $offset, 4));
$offset += 4;
$thisfile_asf_scriptcommandobject['commands'][$CommandsCounter]['type_index'] = Helper::LittleEndian2Int(substr($ASFHeaderData, $offset, 2));
$offset += 2;
$CommandTypeNameLength = Helper::LittleEndian2Int(substr($ASFHeaderData, $offset, 2)) * 2;
// 2 bytes per character
$offset += 2;
$thisfile_asf_scriptcommandobject['commands'][$CommandsCounter]['name'] = substr($ASFHeaderData, $offset, $CommandTypeNameLength);
$offset += $CommandTypeNameLength;
}
break;
case self::$GETID3_ASF_Marker_Object:
// Marker Object: (optional, one only)
// Field Name Field Type Size (bits)
// Object ID GUID 128 // GUID for Marker object - GETID3_ASF_Marker_Object
// Object Size QWORD 64 // size of Marker object, including 48 bytes of Marker Object header
// Reserved GUID 128 // hardcoded: 4CFEDB20-75F6-11CF-9C0F-00A0C90349CB
// Markers Count DWORD 32 // number of Marker structures in Marker Object
// Reserved WORD 16 // hardcoded: 0x0000
// Name Length WORD 16 // number of bytes in the Name field
// Name WCHAR variable // name of the Marker Object
// Markers array of: variable //
// * Offset QWORD 64 // byte offset into Data Object
// * Presentation Time QWORD 64 // in 100-nanosecond units
// * Entry Length WORD 16 // length in bytes of (Send Time + Flags + Marker Description Length + Marker Description + Padding)
// * Send Time DWORD 32 // in milliseconds
// * Flags DWORD 32 // hardcoded: 0x00000000
// * Marker Description Length DWORD 32 // number of bytes in Marker Description field
// * Marker Description WCHAR variable // array of Unicode characters - description of marker entry
// * Padding BYTESTREAM variable // optional padding bytes
// shortcut
$thisfile_asf['marker_object'] = array();
$thisfile_asf_markerobject =& $thisfile_asf['marker_object'];
$thisfile_asf_markerobject['offset'] = $NextObjectOffset + $offset;
$thisfile_asf_markerobject['objectid'] = $NextObjectGUID;
$thisfile_asf_markerobject['objectid_guid'] = $NextObjectGUIDtext;
$thisfile_asf_markerobject['objectsize'] = $NextObjectSize;
$thisfile_asf_markerobject['reserved'] = substr($ASFHeaderData, $offset, 16);
$offset += 16;
$thisfile_asf_markerobject['reserved_guid'] = self::BytestringToGUID($thisfile_asf_markerobject['reserved']);
if ($thisfile_asf_markerobject['reserved'] != self::GUIDtoBytestring('4CFEDB20-75F6-11CF-9C0F-00A0C90349CB')) {
$info['warning'][] = 'marker_object.reserved GUID {' . self::BytestringToGUID($thisfile_asf_markerobject['reserved_1']) . '} does not match expected "GETID3_ASF_Reserved_1" GUID {4CFEDB20-75F6-11CF-9C0F-00A0C90349CB}';
break;
}
$thisfile_asf_markerobject['markers_count'] = Helper::LittleEndian2Int(substr($ASFHeaderData, $offset, 4));
$offset += 4;
$thisfile_asf_markerobject['reserved_2'] = Helper::LittleEndian2Int(substr($ASFHeaderData, $offset, 2));
$offset += 2;
if ($thisfile_asf_markerobject['reserved_2'] != 0) {
$info['warning'][] = 'marker_object.reserved_2 (' . Helper::PrintHexBytes($thisfile_asf_markerobject['reserved_2']) . ') does not match expected value of "0"';
break;
}
$thisfile_asf_markerobject['name_length'] = Helper::LittleEndian2Int(substr($ASFHeaderData, $offset, 2));
$offset += 2;
$thisfile_asf_markerobject['name'] = substr($ASFHeaderData, $offset, $thisfile_asf_markerobject['name_length']);
$offset += $thisfile_asf_markerobject['name_length'];
for ($MarkersCounter = 0; $MarkersCounter < $thisfile_asf_markerobject['markers_count']; ++$MarkersCounter) {
$thisfile_asf_markerobject['markers'][$MarkersCounter]['offset'] = Helper::LittleEndian2Int(substr($ASFHeaderData, $offset, 8));
$offset += 8;
$thisfile_asf_markerobject['markers'][$MarkersCounter]['presentation_time'] = Helper::LittleEndian2Int(substr($ASFHeaderData, $offset, 8));
$offset += 8;
$thisfile_asf_markerobject['markers'][$MarkersCounter]['entry_length'] = Helper::LittleEndian2Int(substr($ASFHeaderData, $offset, 2));
$offset += 2;
$thisfile_asf_markerobject['markers'][$MarkersCounter]['send_time'] = Helper::LittleEndian2Int(substr($ASFHeaderData, $offset, 4));
$offset += 4;
$thisfile_asf_markerobject['markers'][$MarkersCounter]['flags'] = Helper::LittleEndian2Int(substr($ASFHeaderData, $offset, 4));
$offset += 4;
$thisfile_asf_markerobject['markers'][$MarkersCounter]['marker_description_length'] = Helper::LittleEndian2Int(substr($ASFHeaderData, $offset, 4));
$offset += 4;
$thisfile_asf_markerobject['markers'][$MarkersCounter]['marker_description'] = substr($ASFHeaderData, $offset, $thisfile_asf_markerobject['markers'][$MarkersCounter]['marker_description_length']);
$offset += $thisfile_asf_markerobject['markers'][$MarkersCounter]['marker_description_length'];
$PaddingLength = $thisfile_asf_markerobject['markers'][$MarkersCounter]['entry_length'] - 4 - 4 - 4 - $thisfile_asf_markerobject['markers'][$MarkersCounter]['marker_description_length'];
if ($PaddingLength > 0) {
$thisfile_asf_markerobject['markers'][$MarkersCounter]['padding'] = substr($ASFHeaderData, $offset, $PaddingLength);
$offset += $PaddingLength;
}
}
break;
case self::$GETID3_ASF_Bitrate_Mutual_Exclusion_Object:
// Bitrate Mutual Exclusion Object: (optional)
// Field Name Field Type Size (bits)
// Object ID GUID 128 // GUID for Bitrate Mutual Exclusion object - GETID3_ASF_Bitrate_Mutual_Exclusion_Object
// Object Size QWORD 64 // size of Bitrate Mutual Exclusion object, including 42 bytes of Bitrate Mutual Exclusion Object header
// Exlusion Type GUID 128 // nature of mutual exclusion relationship. one of: (GETID3_ASF_Mutex_Bitrate, GETID3_ASF_Mutex_Unknown)
// Stream Numbers Count WORD 16 // number of video streams
// Stream Numbers WORD variable // array of mutually exclusive video stream numbers. 1 <= valid <= 127
// shortcut
$thisfile_asf['bitrate_mutual_exclusion_object'] = array();
$thisfile_asf_bitratemutualexclusionobject =& $thisfile_asf['bitrate_mutual_exclusion_object'];
$thisfile_asf_bitratemutualexclusionobject['offset'] = $NextObjectOffset + $offset;
$thisfile_asf_bitratemutualexclusionobject['objectid'] = $NextObjectGUID;
$thisfile_asf_bitratemutualexclusionobject['objectid_guid'] = $NextObjectGUIDtext;
$thisfile_asf_bitratemutualexclusionobject['objectsize'] = $NextObjectSize;
$thisfile_asf_bitratemutualexclusionobject['reserved'] = substr($ASFHeaderData, $offset, 16);
$thisfile_asf_bitratemutualexclusionobject['reserved_guid'] = self::BytestringToGUID($thisfile_asf_bitratemutualexclusionobject['reserved']);
$offset += 16;
if ($thisfile_asf_bitratemutualexclusionobject['reserved'] != self::$GETID3_ASF_Mutex_Bitrate && $thisfile_asf_bitratemutualexclusionobject['reserved'] != self::$GETID3_ASF_Mutex_Unknown) {
$info['warning'][] = 'bitrate_mutual_exclusion_object.reserved GUID {' . self::BytestringToGUID($thisfile_asf_bitratemutualexclusionobject['reserved']) . '} does not match expected "GETID3_ASF_Mutex_Bitrate" GUID {' . self::BytestringToGUID(self::$GETID3_ASF_Mutex_Bitrate) . '} or "GETID3_ASF_Mutex_Unknown" GUID {' . self::BytestringToGUID(self::$GETID3_ASF_Mutex_Unknown) . '}';
//return false;
break;
}
$thisfile_asf_bitratemutualexclusionobject['stream_numbers_count'] = Helper::LittleEndian2Int(substr($ASFHeaderData, $offset, 2));
$offset += 2;
for ($StreamNumberCounter = 0; $StreamNumberCounter < $thisfile_asf_bitratemutualexclusionobject['stream_numbers_count']; ++$StreamNumberCounter) {
$thisfile_asf_bitratemutualexclusionobject['stream_numbers'][$StreamNumberCounter] = Helper::LittleEndian2Int(substr($ASFHeaderData, $offset, 2));
$offset += 2;
}
break;
case self::$GETID3_ASF_Error_Correction_Object:
// Error Correction Object: (optional, one only)
// Field Name Field Type Size (bits)
// Object ID GUID 128 // GUID for Error Correction object - GETID3_ASF_Error_Correction_Object
// Object Size QWORD 64 // size of Error Correction object, including 44 bytes of Error Correction Object header
// Error Correction Type GUID 128 // type of error correction. one of: (GETID3_ASF_No_Error_Correction, GETID3_ASF_Audio_Spread)
// Error Correction Data Length DWORD 32 // number of bytes in Error Correction Data field
// Error Correction Data BYTESTREAM variable // structure depends on value of Error Correction Type field
// shortcut
$thisfile_asf['error_correction_object'] = array();
$thisfile_asf_errorcorrectionobject =& $thisfile_asf['error_correction_object'];
$thisfile_asf_errorcorrectionobject['offset'] = $NextObjectOffset + $offset;
$thisfile_asf_errorcorrectionobject['objectid'] = $NextObjectGUID;
$thisfile_asf_errorcorrectionobject['objectid_guid'] = $NextObjectGUIDtext;
$thisfile_asf_errorcorrectionobject['objectsize'] = $NextObjectSize;
$thisfile_asf_errorcorrectionobject['error_correction_type'] = substr($ASFHeaderData, $offset, 16);
$offset += 16;
$thisfile_asf_errorcorrectionobject['error_correction_guid'] = self::BytestringToGUID($thisfile_asf_errorcorrectionobject['error_correction_type']);
$thisfile_asf_errorcorrectionobject['error_correction_data_length'] = Helper::LittleEndian2Int(substr($ASFHeaderData, $offset, 4));
$offset += 4;
switch ($thisfile_asf_errorcorrectionobject['error_correction_type']) {
case self::$GETID3_ASF_No_Error_Correction:
// should be no data, but just in case there is, skip to the end of the field
$offset += $thisfile_asf_errorcorrectionobject['error_correction_data_length'];
break;
case self::$GETID3_ASF_Audio_Spread:
// Field Name Field Type Size (bits)
// Span BYTE 8 // number of packets over which audio will be spread.
// Virtual Packet Length WORD 16 // size of largest audio payload found in audio stream
// Virtual Chunk Length WORD 16 // size of largest audio payload found in audio stream
// Silence Data Length WORD 16 // number of bytes in Silence Data field
// Silence Data BYTESTREAM variable // hardcoded: 0x00 * (Silence Data Length) bytes
$thisfile_asf_errorcorrectionobject['span'] = Helper::LittleEndian2Int(substr($ASFHeaderData, $offset, 1));
$offset += 1;
$thisfile_asf_errorcorrectionobject['virtual_packet_length'] = Helper::LittleEndian2Int(substr($ASFHeaderData, $offset, 2));
$offset += 2;
$thisfile_asf_errorcorrectionobject['virtual_chunk_length'] = Helper::LittleEndian2Int(substr($ASFHeaderData, $offset, 2));
$offset += 2;
$thisfile_asf_errorcorrectionobject['silence_data_length'] = Helper::LittleEndian2Int(substr($ASFHeaderData, $offset, 2));
$offset += 2;
$thisfile_asf_errorcorrectionobject['silence_data'] = substr($ASFHeaderData, $offset, $thisfile_asf_errorcorrectionobject['silence_data_length']);
$offset += $thisfile_asf_errorcorrectionobject['silence_data_length'];
break;
default:
$info['warning'][] = 'error_correction_object.error_correction_type GUID {' . self::BytestringToGUID($thisfile_asf_errorcorrectionobject['reserved']) . '} does not match expected "GETID3_ASF_No_Error_Correction" GUID {' . self::BytestringToGUID(self::$GETID3_ASF_No_Error_Correction) . '} or "GETID3_ASF_Audio_Spread" GUID {' . self::BytestringToGUID(self::$GETID3_ASF_Audio_Spread) . '}';
//return false;
break;
}
break;
case self::$GETID3_ASF_Content_Description_Object:
// Content Description Object: (optional, one only)
// Field Name Field Type Size (bits)
// Object ID GUID 128 // GUID for Content Description object - GETID3_ASF_Content_Description_Object
// Object Size QWORD 64 // size of Content Description object, including 34 bytes of Content Description Object header
// Title Length WORD 16 // number of bytes in Title field
// Author Length WORD 16 // number of bytes in Author field
// Copyright Length WORD 16 // number of bytes in Copyright field
// Description Length WORD 16 // number of bytes in Description field
// Rating Length WORD 16 // number of bytes in Rating field
// Title WCHAR 16 // array of Unicode characters - Title
// Author WCHAR 16 // array of Unicode characters - Author
// Copyright WCHAR 16 // array of Unicode characters - Copyright
// Description WCHAR 16 // array of Unicode characters - Description
// Rating WCHAR 16 // array of Unicode characters - Rating
// shortcut
$thisfile_asf['content_description_object'] = array();
$thisfile_asf_contentdescriptionobject =& $thisfile_asf['content_description_object'];
$thisfile_asf_contentdescriptionobject['offset'] = $NextObjectOffset + $offset;
$thisfile_asf_contentdescriptionobject['objectid'] = $NextObjectGUID;
$thisfile_asf_contentdescriptionobject['objectid_guid'] = $NextObjectGUIDtext;
$thisfile_asf_contentdescriptionobject['objectsize'] = $NextObjectSize;
$thisfile_asf_contentdescriptionobject['title_length'] = Helper::LittleEndian2Int(substr($ASFHeaderData, $offset, 2));
$offset += 2;
$thisfile_asf_contentdescriptionobject['author_length'] = Helper::LittleEndian2Int(substr($ASFHeaderData, $offset, 2));
$offset += 2;
$thisfile_asf_contentdescriptionobject['copyright_length'] = Helper::LittleEndian2Int(substr($ASFHeaderData, $offset, 2));
$offset += 2;
$thisfile_asf_contentdescriptionobject['description_length'] = Helper::LittleEndian2Int(substr($ASFHeaderData, $offset, 2));
$offset += 2;
$thisfile_asf_contentdescriptionobject['rating_length'] = Helper::LittleEndian2Int(substr($ASFHeaderData, $offset, 2));
$offset += 2;
$thisfile_asf_contentdescriptionobject['title'] = substr($ASFHeaderData, $offset, $thisfile_asf_contentdescriptionobject['title_length']);
$offset += $thisfile_asf_contentdescriptionobject['title_length'];
$thisfile_asf_contentdescriptionobject['author'] = substr($ASFHeaderData, $offset, $thisfile_asf_contentdescriptionobject['author_length']);
$offset += $thisfile_asf_contentdescriptionobject['author_length'];
$thisfile_asf_contentdescriptionobject['copyright'] = substr($ASFHeaderData, $offset, $thisfile_asf_contentdescriptionobject['copyright_length']);
$offset += $thisfile_asf_contentdescriptionobject['copyright_length'];
$thisfile_asf_contentdescriptionobject['description'] = substr($ASFHeaderData, $offset, $thisfile_asf_contentdescriptionobject['description_length']);
$offset += $thisfile_asf_contentdescriptionobject['description_length'];
$thisfile_asf_contentdescriptionobject['rating'] = substr($ASFHeaderData, $offset, $thisfile_asf_contentdescriptionobject['rating_length']);
$offset += $thisfile_asf_contentdescriptionobject['rating_length'];
$ASFcommentKeysToCopy = array('title' => 'title', 'author' => 'artist', 'copyright' => 'copyright', 'description' => 'comment', 'rating' => 'rating');
foreach ($ASFcommentKeysToCopy as $keytocopyfrom => $keytocopyto) {
if (!empty($thisfile_asf_contentdescriptionobject[$keytocopyfrom])) {
$thisfile_asf_comments[$keytocopyto][] = self::TrimTerm($thisfile_asf_contentdescriptionobject[$keytocopyfrom]);
}
}
break;
case self::$GETID3_ASF_Extended_Content_Description_Object:
// Extended Content Description Object: (optional, one only)
// Field Name Field Type Size (bits)
// Object ID GUID 128 // GUID for Extended Content Description object - GETID3_ASF_Extended_Content_Description_Object
// Object Size QWORD 64 // size of ExtendedContent Description object, including 26 bytes of Extended Content Description Object header
// Content Descriptors Count WORD 16 // number of entries in Content Descriptors list
// Content Descriptors array of: variable //
// * Descriptor Name Length WORD 16 // size in bytes of Descriptor Name field
// * Descriptor Name WCHAR variable // array of Unicode characters - Descriptor Name
// * Descriptor Value Data Type WORD 16 // Lookup array:
// 0x0000 = Unicode String (variable length)
// 0x0001 = BYTE array (variable length)
// 0x0002 = BOOL (DWORD, 32 bits)
// 0x0003 = DWORD (DWORD, 32 bits)
// 0x0004 = QWORD (QWORD, 64 bits)
// 0x0005 = WORD (WORD, 16 bits)
// * Descriptor Value Length WORD 16 // number of bytes stored in Descriptor Value field
// * Descriptor Value variable variable // value for Content Descriptor
// shortcut
$thisfile_asf['extended_content_description_object'] = array();
$thisfile_asf_extendedcontentdescriptionobject =& $thisfile_asf['extended_content_description_object'];
$thisfile_asf_extendedcontentdescriptionobject['offset'] = $NextObjectOffset + $offset;
$thisfile_asf_extendedcontentdescriptionobject['objectid'] = $NextObjectGUID;
$thisfile_asf_extendedcontentdescriptionobject['objectid_guid'] = $NextObjectGUIDtext;
$thisfile_asf_extendedcontentdescriptionobject['objectsize'] = $NextObjectSize;
$thisfile_asf_extendedcontentdescriptionobject['content_descriptors_count'] = Helper::LittleEndian2Int(substr($ASFHeaderData, $offset, 2));
$offset += 2;
for ($ExtendedContentDescriptorsCounter = 0; $ExtendedContentDescriptorsCounter < $thisfile_asf_extendedcontentdescriptionobject['content_descriptors_count']; ++$ExtendedContentDescriptorsCounter) {
// shortcut
$thisfile_asf_extendedcontentdescriptionobject['content_descriptors'][$ExtendedContentDescriptorsCounter] = array();
$thisfile_asf_extendedcontentdescriptionobject_contentdescriptor_current =& $thisfile_asf_extendedcontentdescriptionobject['content_descriptors'][$ExtendedContentDescriptorsCounter];
$thisfile_asf_extendedcontentdescriptionobject_contentdescriptor_current['base_offset'] = $offset + 30;
$thisfile_asf_extendedcontentdescriptionobject_contentdescriptor_current['name_length'] = Helper::LittleEndian2Int(substr($ASFHeaderData, $offset, 2));
$offset += 2;
$thisfile_asf_extendedcontentdescriptionobject_contentdescriptor_current['name'] = substr($ASFHeaderData, $offset, $thisfile_asf_extendedcontentdescriptionobject_contentdescriptor_current['name_length']);
$offset += $thisfile_asf_extendedcontentdescriptionobject_contentdescriptor_current['name_length'];
$thisfile_asf_extendedcontentdescriptionobject_contentdescriptor_current['value_type'] = Helper::LittleEndian2Int(substr($ASFHeaderData, $offset, 2));
$offset += 2;
$thisfile_asf_extendedcontentdescriptionobject_contentdescriptor_current['value_length'] = Helper::LittleEndian2Int(substr($ASFHeaderData, $offset, 2));
$offset += 2;
$thisfile_asf_extendedcontentdescriptionobject_contentdescriptor_current['value'] = substr($ASFHeaderData, $offset, $thisfile_asf_extendedcontentdescriptionobject_contentdescriptor_current['value_length']);
$offset += $thisfile_asf_extendedcontentdescriptionobject_contentdescriptor_current['value_length'];
switch ($thisfile_asf_extendedcontentdescriptionobject_contentdescriptor_current['value_type']) {
case 0x0:
// Unicode string
break;
case 0x1:
// BYTE array
// do nothing
break;
case 0x2:
// BOOL
$thisfile_asf_extendedcontentdescriptionobject_contentdescriptor_current['value'] = (bool) Helper::LittleEndian2Int($thisfile_asf_extendedcontentdescriptionobject_contentdescriptor_current['value']);
break;
case 0x3:
// DWORD
// DWORD
case 0x4:
// QWORD
// QWORD
case 0x5:
// WORD
$thisfile_asf_extendedcontentdescriptionobject_contentdescriptor_current['value'] = Helper::LittleEndian2Int($thisfile_asf_extendedcontentdescriptionobject_contentdescriptor_current['value']);
break;
default:
$info['warning'][] = 'extended_content_description.content_descriptors.' . $ExtendedContentDescriptorsCounter . '.value_type is invalid (' . $thisfile_asf_extendedcontentdescriptionobject_contentdescriptor_current['value_type'] . ')';
//return false;
break;
}
switch (self::TrimConvert(strtolower($thisfile_asf_extendedcontentdescriptionobject_contentdescriptor_current['name']))) {
case 'wm/albumartist':
case 'artist':
// Note: not 'artist', that comes from 'author' tag
$thisfile_asf_comments['albumartist'] = array(self::TrimTerm($thisfile_asf_extendedcontentdescriptionobject_contentdescriptor_current['value']));
break;
case 'wm/albumtitle':
case 'album':
$thisfile_asf_comments['album'] = array(self::TrimTerm($thisfile_asf_extendedcontentdescriptionobject_contentdescriptor_current['value']));
break;
case 'wm/genre':
case 'genre':
$thisfile_asf_comments['genre'] = array(self::TrimTerm($thisfile_asf_extendedcontentdescriptionobject_contentdescriptor_current['value']));
break;
case 'wm/partofset':
$thisfile_asf_comments['partofset'] = array(self::TrimTerm($thisfile_asf_extendedcontentdescriptionobject_contentdescriptor_current['value']));
break;
case 'wm/tracknumber':
case 'tracknumber':
// be careful casting to int: casting unicode strings to int gives unexpected results (stops parsing at first non-numeric character)
$thisfile_asf_comments['track'] = array(self::TrimTerm($thisfile_asf_extendedcontentdescriptionobject_contentdescriptor_current['value']));
foreach ($thisfile_asf_comments['track'] as $key => $value) {
if (preg_match('/^[0-9\\x00]+$/', $value)) {
$thisfile_asf_comments['track'][$key] = intval(str_replace("", '', $value));
}
}
break;
case 'wm/track':
if (empty($thisfile_asf_comments['track'])) {
$thisfile_asf_comments['track'] = array(1 + self::TrimConvert($thisfile_asf_extendedcontentdescriptionobject_contentdescriptor_current['value']));
}
break;
case 'wm/year':
case 'year':
case 'date':
$thisfile_asf_comments['year'] = array(self::TrimTerm($thisfile_asf_extendedcontentdescriptionobject_contentdescriptor_current['value']));
break;
case 'wm/lyrics':
case 'lyrics':
$thisfile_asf_comments['lyrics'] = array(self::TrimTerm($thisfile_asf_extendedcontentdescriptionobject_contentdescriptor_current['value']));
break;
case 'isvbr':
if ($thisfile_asf_extendedcontentdescriptionobject_contentdescriptor_current['value']) {
$thisfile_audio['bitrate_mode'] = 'vbr';
$thisfile_video['bitrate_mode'] = 'vbr';
}
break;
case 'id3':
// id3v2 module might not be loaded
if (class_exists('getid3_id3v2')) {
$tempfile = tempnam(GetId3Core::getTempDir(), 'getID3');
$tempfilehandle = fopen($tempfile, 'wb');
$tempThisfileInfo = array('encoding' => $info['encoding']);
fwrite($tempfilehandle, $thisfile_asf_extendedcontentdescriptionobject_contentdescriptor_current['value']);
fclose($tempfilehandle);
$getid3_temp = new GetId3Core();
$getid3_temp->openfile($tempfile);
$getid3_id3v2 = new Id3v2($getid3_temp);
$getid3_id3v2->analyze();
$info['id3v2'] = $getid3_temp->info['id3v2'];
unset($getid3_temp, $getid3_id3v2);
unlink($tempfile);
}
break;
case 'wm/encodingtime':
$thisfile_asf_extendedcontentdescriptionobject_contentdescriptor_current['encoding_time_unix'] = self::FILETIMEtoUNIXtime($thisfile_asf_extendedcontentdescriptionobject_contentdescriptor_current['value']);
$thisfile_asf_comments['encoding_time_unix'] = array($thisfile_asf_extendedcontentdescriptionobject_contentdescriptor_current['encoding_time_unix']);
break;
case 'wm/picture':
$WMpicture = $this->ASF_WMpicture($thisfile_asf_extendedcontentdescriptionobject_contentdescriptor_current['value']);
foreach ($WMpicture as $key => $value) {
$thisfile_asf_extendedcontentdescriptionobject_contentdescriptor_current[$key] = $value;
}
unset($WMpicture);
/*
$wm_picture_offset = 0;
$thisfile_asf_extendedcontentdescriptionobject_contentdescriptor_current['image_type_id'] = GetId3_lib::LittleEndian2Int(substr($thisfile_asf_extendedcontentdescriptionobject_contentdescriptor_current['value'], $wm_picture_offset, 1));
$wm_picture_offset += 1;
$thisfile_asf_extendedcontentdescriptionobject_contentdescriptor_current['image_type'] = $this->WMpictureTypeLookup($thisfile_asf_extendedcontentdescriptionobject_contentdescriptor_current['image_type_id']);
$thisfile_asf_extendedcontentdescriptionobject_contentdescriptor_current['image_size'] = GetId3_lib::LittleEndian2Int(substr($thisfile_asf_extendedcontentdescriptionobject_contentdescriptor_current['value'], $wm_picture_offset, 4));
$wm_picture_offset += 4;
$thisfile_asf_extendedcontentdescriptionobject_contentdescriptor_current['image_mime'] = '';
do {
$next_byte_pair = substr($thisfile_asf_extendedcontentdescriptionobject_contentdescriptor_current['value'], $wm_picture_offset, 2);
$wm_picture_offset += 2;
$thisfile_asf_extendedcontentdescriptionobject_contentdescriptor_current['image_mime'] .= $next_byte_pair;
} while ($next_byte_pair !== "\x00\x00");
$thisfile_asf_extendedcontentdescriptionobject_contentdescriptor_current['image_description'] = '';
do {
$next_byte_pair = substr($thisfile_asf_extendedcontentdescriptionobject_contentdescriptor_current['value'], $wm_picture_offset, 2);
$wm_picture_offset += 2;
$thisfile_asf_extendedcontentdescriptionobject_contentdescriptor_current['image_description'] .= $next_byte_pair;
} while ($next_byte_pair !== "\x00\x00");
$thisfile_asf_extendedcontentdescriptionobject_contentdescriptor_current['dataoffset'] = $wm_picture_offset;
$thisfile_asf_extendedcontentdescriptionobject_contentdescriptor_current['data'] = substr($thisfile_asf_extendedcontentdescriptionobject_contentdescriptor_current['value'], $wm_picture_offset);
unset($thisfile_asf_extendedcontentdescriptionobject_contentdescriptor_current['value']);
$imageinfo = array();
$thisfile_asf_extendedcontentdescriptionobject_contentdescriptor_current['image_mime'] = '';
$imagechunkcheck = GetId3_lib::GetDataImageSize($thisfile_asf_extendedcontentdescriptionobject_contentdescriptor_current['data'], $imageinfo);
unset($imageinfo);
if (!empty($imagechunkcheck)) {
$thisfile_asf_extendedcontentdescriptionobject_contentdescriptor_current['image_mime'] = image_type_to_mime_type($imagechunkcheck[2]);
}
if (!isset($thisfile_asf_comments['picture'])) {
$thisfile_asf_comments['picture'] = array();
}
$thisfile_asf_comments['picture'][] = array('data'=>$thisfile_asf_extendedcontentdescriptionobject_contentdescriptor_current['data'], 'image_mime'=>$thisfile_asf_extendedcontentdescriptionobject_contentdescriptor_current['image_mime']);
*/
break;
default:
switch ($thisfile_asf_extendedcontentdescriptionobject_contentdescriptor_current['value_type']) {
case 0:
// Unicode string
if (substr(self::TrimConvert($thisfile_asf_extendedcontentdescriptionobject_contentdescriptor_current['name']), 0, 3) == 'WM/') {
$thisfile_asf_comments[str_replace('wm/', '', strtolower(self::TrimConvert($thisfile_asf_extendedcontentdescriptionobject_contentdescriptor_current['name'])))] = array(self::TrimTerm($thisfile_asf_extendedcontentdescriptionobject_contentdescriptor_current['value']));
}
break;
case 1:
break;
}
break;
}
}
break;
case self::$GETID3_ASF_Stream_Bitrate_Properties_Object:
// Stream Bitrate Properties Object: (optional, one only)
// Field Name Field Type Size (bits)
// Object ID GUID 128 // GUID for Stream Bitrate Properties object - GETID3_ASF_Stream_Bitrate_Properties_Object
// Object Size QWORD 64 // size of Extended Content Description object, including 26 bytes of Stream Bitrate Properties Object header
// Bitrate Records Count WORD 16 // number of records in Bitrate Records
// Bitrate Records array of: variable //
// * Flags WORD 16 //
// * * Stream Number bits 7 (0x007F) // number of this stream
// * * Reserved bits 9 (0xFF80) // hardcoded: 0
// * Average Bitrate DWORD 32 // in bits per second
// shortcut
$thisfile_asf['stream_bitrate_properties_object'] = array();
$thisfile_asf_streambitratepropertiesobject =& $thisfile_asf['stream_bitrate_properties_object'];
$thisfile_asf_streambitratepropertiesobject['offset'] = $NextObjectOffset + $offset;
$thisfile_asf_streambitratepropertiesobject['objectid'] = $NextObjectGUID;
$thisfile_asf_streambitratepropertiesobject['objectid_guid'] = $NextObjectGUIDtext;
$thisfile_asf_streambitratepropertiesobject['objectsize'] = $NextObjectSize;
$thisfile_asf_streambitratepropertiesobject['bitrate_records_count'] = Helper::LittleEndian2Int(substr($ASFHeaderData, $offset, 2));
$offset += 2;
for ($BitrateRecordsCounter = 0; $BitrateRecordsCounter < $thisfile_asf_streambitratepropertiesobject['bitrate_records_count']; ++$BitrateRecordsCounter) {
$thisfile_asf_streambitratepropertiesobject['bitrate_records'][$BitrateRecordsCounter]['flags_raw'] = Helper::LittleEndian2Int(substr($ASFHeaderData, $offset, 2));
$offset += 2;
$thisfile_asf_streambitratepropertiesobject['bitrate_records'][$BitrateRecordsCounter]['flags']['stream_number'] = $thisfile_asf_streambitratepropertiesobject['bitrate_records'][$BitrateRecordsCounter]['flags_raw'] & 0x7f;
$thisfile_asf_streambitratepropertiesobject['bitrate_records'][$BitrateRecordsCounter]['bitrate'] = Helper::LittleEndian2Int(substr($ASFHeaderData, $offset, 4));
$offset += 4;
}
break;
case self::$GETID3_ASF_Padding_Object:
// Padding Object: (optional)
// Field Name Field Type Size (bits)
// Object ID GUID 128 // GUID for Padding object - GETID3_ASF_Padding_Object
// Object Size QWORD 64 // size of Padding object, including 24 bytes of ASF Padding Object header
// Padding Data BYTESTREAM variable // ignore
// shortcut
$thisfile_asf['padding_object'] = array();
$thisfile_asf_paddingobject =& $thisfile_asf['padding_object'];
$thisfile_asf_paddingobject['offset'] = $NextObjectOffset + $offset;
$thisfile_asf_paddingobject['objectid'] = $NextObjectGUID;
$thisfile_asf_paddingobject['objectid_guid'] = $NextObjectGUIDtext;
$thisfile_asf_paddingobject['objectsize'] = $NextObjectSize;
$thisfile_asf_paddingobject['padding_length'] = $thisfile_asf_paddingobject['objectsize'] - 16 - 8;
$thisfile_asf_paddingobject['padding'] = substr($ASFHeaderData, $offset, $thisfile_asf_paddingobject['padding_length']);
$offset += $NextObjectSize - 16 - 8;
break;
case self::$GETID3_ASF_Extended_Content_Encryption_Object:
case self::$GETID3_ASF_Content_Encryption_Object:
// WMA DRM - just ignore
$offset += $NextObjectSize - 16 - 8;
break;
default:
// Implementations shall ignore any standard or non-standard object that they do not know how to handle.
if (self::GUIDname($NextObjectGUIDtext)) {
$info['warning'][] = 'unhandled GUID "' . self::GUIDname($NextObjectGUIDtext) . '" {' . $NextObjectGUIDtext . '} in ASF header at offset ' . ($offset - 16 - 8);
} else {
$info['warning'][] = 'unknown GUID {' . $NextObjectGUIDtext . '} in ASF header at offset ' . ($offset - 16 - 8);
}
$offset += $NextObjectSize - 16 - 8;
break;
}
}
if (isset($thisfile_asf_streambitrateproperties['bitrate_records_count'])) {
$ASFbitrateAudio = 0;
$ASFbitrateVideo = 0;
for ($BitrateRecordsCounter = 0; $BitrateRecordsCounter < $thisfile_asf_streambitrateproperties['bitrate_records_count']; ++$BitrateRecordsCounter) {
if (isset($thisfile_asf_codeclistobject['codec_entries'][$BitrateRecordsCounter])) {
switch ($thisfile_asf_codeclistobject['codec_entries'][$BitrateRecordsCounter]['type_raw']) {
case 1:
$ASFbitrateVideo += $thisfile_asf_streambitrateproperties['bitrate_records'][$BitrateRecordsCounter]['bitrate'];
break;
case 2:
$ASFbitrateAudio += $thisfile_asf_streambitrateproperties['bitrate_records'][$BitrateRecordsCounter]['bitrate'];
break;
default:
// do nothing
break;
}
}
}
if ($ASFbitrateAudio > 0) {
$thisfile_audio['bitrate'] = $ASFbitrateAudio;
}
if ($ASFbitrateVideo > 0) {
$thisfile_video['bitrate'] = $ASFbitrateVideo;
}
}
if (isset($thisfile_asf['stream_properties_object']) && is_array($thisfile_asf['stream_properties_object'])) {
$thisfile_audio['bitrate'] = 0;
$thisfile_video['bitrate'] = 0;
foreach ($thisfile_asf['stream_properties_object'] as $streamnumber => $streamdata) {
switch ($streamdata['stream_type']) {
case self::$GETID3_ASF_Audio_Media:
// Field Name Field Type Size (bits)
// Codec ID / Format Tag WORD 16 // unique ID of audio codec - defined as wFormatTag field of WAVEFORMATEX structure
// Number of Channels WORD 16 // number of channels of audio - defined as nChannels field of WAVEFORMATEX structure
// Samples Per Second DWORD 32 // in Hertz - defined as nSamplesPerSec field of WAVEFORMATEX structure
// Average number of Bytes/sec DWORD 32 // bytes/sec of audio stream - defined as nAvgBytesPerSec field of WAVEFORMATEX structure
// Block Alignment WORD 16 // block size in bytes of audio codec - defined as nBlockAlign field of WAVEFORMATEX structure
// Bits per sample WORD 16 // bits per sample of mono data. set to zero for variable bitrate codecs. defined as wBitsPerSample field of WAVEFORMATEX structure
// Codec Specific Data Size WORD 16 // size in bytes of Codec Specific Data buffer - defined as cbSize field of WAVEFORMATEX structure
// Codec Specific Data BYTESTREAM variable // array of codec-specific data bytes
// shortcut
$thisfile_asf['audio_media'][$streamnumber] = array();
$thisfile_asf_audiomedia_currentstream =& $thisfile_asf['audio_media'][$streamnumber];
$audiomediaoffset = 0;
$thisfile_asf_audiomedia_currentstream = Riff::RIFFparseWAVEFORMATex(substr($streamdata['type_specific_data'], $audiomediaoffset, 16));
$audiomediaoffset += 16;
$thisfile_audio['lossless'] = false;
switch ($thisfile_asf_audiomedia_currentstream['raw']['wFormatTag']) {
case 0x1:
// PCM
// PCM
case 0x163:
// WMA9 Lossless
$thisfile_audio['lossless'] = true;
break;
}
if (!empty($thisfile_asf['stream_bitrate_properties_object']['bitrate_records'])) {
foreach ($thisfile_asf['stream_bitrate_properties_object']['bitrate_records'] as $dummy => $dataarray) {
if (isset($dataarray['flags']['stream_number']) && $dataarray['flags']['stream_number'] == $streamnumber) {
$thisfile_asf_audiomedia_currentstream['bitrate'] = $dataarray['bitrate'];
$thisfile_audio['bitrate'] += $dataarray['bitrate'];
break;
}
}
} else {
if (!empty($thisfile_asf_audiomedia_currentstream['bytes_sec'])) {
$thisfile_audio['bitrate'] += $thisfile_asf_audiomedia_currentstream['bytes_sec'] * 8;
} elseif (!empty($thisfile_asf_audiomedia_currentstream['bitrate'])) {
$thisfile_audio['bitrate'] += $thisfile_asf_audiomedia_currentstream['bitrate'];
}
}
$thisfile_audio['streams'][$streamnumber] = $thisfile_asf_audiomedia_currentstream;
$thisfile_audio['streams'][$streamnumber]['wformattag'] = $thisfile_asf_audiomedia_currentstream['raw']['wFormatTag'];
$thisfile_audio['streams'][$streamnumber]['lossless'] = $thisfile_audio['lossless'];
$thisfile_audio['streams'][$streamnumber]['bitrate'] = $thisfile_audio['bitrate'];
$thisfile_audio['streams'][$streamnumber]['dataformat'] = 'wma';
unset($thisfile_audio['streams'][$streamnumber]['raw']);
$thisfile_asf_audiomedia_currentstream['codec_data_size'] = Helper::LittleEndian2Int(substr($streamdata['type_specific_data'], $audiomediaoffset, 2));
$audiomediaoffset += 2;
$thisfile_asf_audiomedia_currentstream['codec_data'] = substr($streamdata['type_specific_data'], $audiomediaoffset, $thisfile_asf_audiomedia_currentstream['codec_data_size']);
$audiomediaoffset += $thisfile_asf_audiomedia_currentstream['codec_data_size'];
break;
case self::$GETID3_ASF_Video_Media:
// Field Name Field Type Size (bits)
// Encoded Image Width DWORD 32 // width of image in pixels
// Encoded Image Height DWORD 32 // height of image in pixels
// Reserved Flags BYTE 8 // hardcoded: 0x02
// Format Data Size WORD 16 // size of Format Data field in bytes
// Format Data array of: variable //
// * Format Data Size DWORD 32 // number of bytes in Format Data field, in bytes - defined as biSize field of BITMAPINFOHEADER structure
// * Image Width LONG 32 // width of encoded image in pixels - defined as biWidth field of BITMAPINFOHEADER structure
// * Image Height LONG 32 // height of encoded image in pixels - defined as biHeight field of BITMAPINFOHEADER structure
// * Reserved WORD 16 // hardcoded: 0x0001 - defined as biPlanes field of BITMAPINFOHEADER structure
// * Bits Per Pixel Count WORD 16 // bits per pixel - defined as biBitCount field of BITMAPINFOHEADER structure
// * Compression ID FOURCC 32 // fourcc of video codec - defined as biCompression field of BITMAPINFOHEADER structure
// * Image Size DWORD 32 // image size in bytes - defined as biSizeImage field of BITMAPINFOHEADER structure
// * Horizontal Pixels / Meter DWORD 32 // horizontal resolution of target device in pixels per meter - defined as biXPelsPerMeter field of BITMAPINFOHEADER structure
// * Vertical Pixels / Meter DWORD 32 // vertical resolution of target device in pixels per meter - defined as biYPelsPerMeter field of BITMAPINFOHEADER structure
// * Colors Used Count DWORD 32 // number of color indexes in the color table that are actually used - defined as biClrUsed field of BITMAPINFOHEADER structure
// * Important Colors Count DWORD 32 // number of color index required for displaying bitmap. if zero, all colors are required. defined as biClrImportant field of BITMAPINFOHEADER structure
// * Codec Specific Data BYTESTREAM variable // array of codec-specific data bytes
// shortcut
$thisfile_asf['video_media'][$streamnumber] = array();
$thisfile_asf_videomedia_currentstream =& $thisfile_asf['video_media'][$streamnumber];
$videomediaoffset = 0;
$thisfile_asf_videomedia_currentstream['image_width'] = Helper::LittleEndian2Int(substr($streamdata['type_specific_data'], $videomediaoffset, 4));
$videomediaoffset += 4;
$thisfile_asf_videomedia_currentstream['image_height'] = Helper::LittleEndian2Int(substr($streamdata['type_specific_data'], $videomediaoffset, 4));
$videomediaoffset += 4;
$thisfile_asf_videomedia_currentstream['flags'] = Helper::LittleEndian2Int(substr($streamdata['type_specific_data'], $videomediaoffset, 1));
$videomediaoffset += 1;
$thisfile_asf_videomedia_currentstream['format_data_size'] = Helper::LittleEndian2Int(substr($streamdata['type_specific_data'], $videomediaoffset, 2));
$videomediaoffset += 2;
$thisfile_asf_videomedia_currentstream['format_data']['format_data_size'] = Helper::LittleEndian2Int(substr($streamdata['type_specific_data'], $videomediaoffset, 4));
$videomediaoffset += 4;
$thisfile_asf_videomedia_currentstream['format_data']['image_width'] = Helper::LittleEndian2Int(substr($streamdata['type_specific_data'], $videomediaoffset, 4));
$videomediaoffset += 4;
$thisfile_asf_videomedia_currentstream['format_data']['image_height'] = Helper::LittleEndian2Int(substr($streamdata['type_specific_data'], $videomediaoffset, 4));
$videomediaoffset += 4;
$thisfile_asf_videomedia_currentstream['format_data']['reserved'] = Helper::LittleEndian2Int(substr($streamdata['type_specific_data'], $videomediaoffset, 2));
$videomediaoffset += 2;
$thisfile_asf_videomedia_currentstream['format_data']['bits_per_pixel'] = Helper::LittleEndian2Int(substr($streamdata['type_specific_data'], $videomediaoffset, 2));
$videomediaoffset += 2;
$thisfile_asf_videomedia_currentstream['format_data']['codec_fourcc'] = substr($streamdata['type_specific_data'], $videomediaoffset, 4);
$videomediaoffset += 4;
$thisfile_asf_videomedia_currentstream['format_data']['image_size'] = Helper::LittleEndian2Int(substr($streamdata['type_specific_data'], $videomediaoffset, 4));
$videomediaoffset += 4;
$thisfile_asf_videomedia_currentstream['format_data']['horizontal_pels'] = Helper::LittleEndian2Int(substr($streamdata['type_specific_data'], $videomediaoffset, 4));
$videomediaoffset += 4;
$thisfile_asf_videomedia_currentstream['format_data']['vertical_pels'] = Helper::LittleEndian2Int(substr($streamdata['type_specific_data'], $videomediaoffset, 4));
$videomediaoffset += 4;
$thisfile_asf_videomedia_currentstream['format_data']['colors_used'] = Helper::LittleEndian2Int(substr($streamdata['type_specific_data'], $videomediaoffset, 4));
$videomediaoffset += 4;
$thisfile_asf_videomedia_currentstream['format_data']['colors_important'] = Helper::LittleEndian2Int(substr($streamdata['type_specific_data'], $videomediaoffset, 4));
$videomediaoffset += 4;
$thisfile_asf_videomedia_currentstream['format_data']['codec_data'] = substr($streamdata['type_specific_data'], $videomediaoffset);
if (!empty($thisfile_asf['stream_bitrate_properties_object']['bitrate_records'])) {
foreach ($thisfile_asf['stream_bitrate_properties_object']['bitrate_records'] as $dummy => $dataarray) {
if (isset($dataarray['flags']['stream_number']) && $dataarray['flags']['stream_number'] == $streamnumber) {
$thisfile_asf_videomedia_currentstream['bitrate'] = $dataarray['bitrate'];
$thisfile_video['streams'][$streamnumber]['bitrate'] = $dataarray['bitrate'];
$thisfile_video['bitrate'] += $dataarray['bitrate'];
break;
}
}
}
$thisfile_asf_videomedia_currentstream['format_data']['codec'] = Riff::RIFFfourccLookup($thisfile_asf_videomedia_currentstream['format_data']['codec_fourcc']);
$thisfile_video['streams'][$streamnumber]['fourcc'] = $thisfile_asf_videomedia_currentstream['format_data']['codec_fourcc'];
$thisfile_video['streams'][$streamnumber]['codec'] = $thisfile_asf_videomedia_currentstream['format_data']['codec'];
$thisfile_video['streams'][$streamnumber]['resolution_x'] = $thisfile_asf_videomedia_currentstream['image_width'];
$thisfile_video['streams'][$streamnumber]['resolution_y'] = $thisfile_asf_videomedia_currentstream['image_height'];
$thisfile_video['streams'][$streamnumber]['bits_per_sample'] = $thisfile_asf_videomedia_currentstream['format_data']['bits_per_pixel'];
break;
default:
break;
}
}
}
while (ftell($this->getid3->fp) < $info['avdataend']) {
$NextObjectDataHeader = fread($this->getid3->fp, 24);
$offset = 0;
$NextObjectGUID = substr($NextObjectDataHeader, 0, 16);
$offset += 16;
$NextObjectGUIDtext = self::BytestringToGUID($NextObjectGUID);
$NextObjectSize = Helper::LittleEndian2Int(substr($NextObjectDataHeader, $offset, 8));
$offset += 8;
switch ($NextObjectGUID) {
case self::$GETID3_ASF_Data_Object:
// Data Object: (mandatory, one only)
// Field Name Field Type Size (bits)
// Object ID GUID 128 // GUID for Data object - GETID3_ASF_Data_Object
// Object Size QWORD 64 // size of Data object, including 50 bytes of Data Object header. may be 0 if FilePropertiesObject.BroadcastFlag == 1
// File ID GUID 128 // unique identifier. identical to File ID field in Header Object
// Total Data Packets QWORD 64 // number of Data Packet entries in Data Object. invalid if FilePropertiesObject.BroadcastFlag == 1
// Reserved WORD 16 // hardcoded: 0x0101
// shortcut
$thisfile_asf['data_object'] = array();
$thisfile_asf_dataobject =& $thisfile_asf['data_object'];
$DataObjectData = $NextObjectDataHeader . fread($this->getid3->fp, 50 - 24);
$offset = 24;
$thisfile_asf_dataobject['objectid'] = $NextObjectGUID;
$thisfile_asf_dataobject['objectid_guid'] = $NextObjectGUIDtext;
$thisfile_asf_dataobject['objectsize'] = $NextObjectSize;
$thisfile_asf_dataobject['fileid'] = substr($DataObjectData, $offset, 16);
$offset += 16;
$thisfile_asf_dataobject['fileid_guid'] = self::BytestringToGUID($thisfile_asf_dataobject['fileid']);
$thisfile_asf_dataobject['total_data_packets'] = Helper::LittleEndian2Int(substr($DataObjectData, $offset, 8));
$offset += 8;
$thisfile_asf_dataobject['reserved'] = Helper::LittleEndian2Int(substr($DataObjectData, $offset, 2));
$offset += 2;
if ($thisfile_asf_dataobject['reserved'] != 0x101) {
$info['warning'][] = 'data_object.reserved (' . Helper::PrintHexBytes($thisfile_asf_dataobject['reserved']) . ') does not match expected value of "0x0101"';
//return false;
break;
}
// Data Packets array of: variable //
// * Error Correction Flags BYTE 8 //
// * * Error Correction Data Length bits 4 // if Error Correction Length Type == 00, size of Error Correction Data in bytes, else hardcoded: 0000
// * * Opaque Data Present bits 1 //
// * * Error Correction Length Type bits 2 // number of bits for size of the error correction data. hardcoded: 00
// * * Error Correction Present bits 1 // If set, use Opaque Data Packet structure, else use Payload structure
// * Error Correction Data
$info['avdataoffset'] = ftell($this->getid3->fp);
fseek($this->getid3->fp, $thisfile_asf_dataobject['objectsize'] - 50, SEEK_CUR);
// skip actual audio/video data
$info['avdataend'] = ftell($this->getid3->fp);
break;
case self::$GETID3_ASF_Simple_Index_Object:
// Simple Index Object: (optional, recommended, one per video stream)
// Field Name Field Type Size (bits)
// Object ID GUID 128 // GUID for Simple Index object - GETID3_ASF_Data_Object
// Object Size QWORD 64 // size of Simple Index object, including 56 bytes of Simple Index Object header
// File ID GUID 128 // unique identifier. may be zero or identical to File ID field in Data Object and Header Object
// Index Entry Time Interval QWORD 64 // interval between index entries in 100-nanosecond units
// Maximum Packet Count DWORD 32 // maximum packet count for all index entries
// Index Entries Count DWORD 32 // number of Index Entries structures
// Index Entries array of: variable //
// * Packet Number DWORD 32 // number of the Data Packet associated with this index entry
// * Packet Count WORD 16 // number of Data Packets to sent at this index entry
// shortcut
$thisfile_asf['simple_index_object'] = array();
$thisfile_asf_simpleindexobject =& $thisfile_asf['simple_index_object'];
$SimpleIndexObjectData = $NextObjectDataHeader . fread($this->getid3->fp, 56 - 24);
$offset = 24;
$thisfile_asf_simpleindexobject['objectid'] = $NextObjectGUID;
$thisfile_asf_simpleindexobject['objectid_guid'] = $NextObjectGUIDtext;
$thisfile_asf_simpleindexobject['objectsize'] = $NextObjectSize;
$thisfile_asf_simpleindexobject['fileid'] = substr($SimpleIndexObjectData, $offset, 16);
$offset += 16;
$thisfile_asf_simpleindexobject['fileid_guid'] = self::BytestringToGUID($thisfile_asf_simpleindexobject['fileid']);
$thisfile_asf_simpleindexobject['index_entry_time_interval'] = Helper::LittleEndian2Int(substr($SimpleIndexObjectData, $offset, 8));
$offset += 8;
$thisfile_asf_simpleindexobject['maximum_packet_count'] = Helper::LittleEndian2Int(substr($SimpleIndexObjectData, $offset, 4));
$offset += 4;
$thisfile_asf_simpleindexobject['index_entries_count'] = Helper::LittleEndian2Int(substr($SimpleIndexObjectData, $offset, 4));
$offset += 4;
$IndexEntriesData = $SimpleIndexObjectData . fread($this->getid3->fp, 6 * $thisfile_asf_simpleindexobject['index_entries_count']);
for ($IndexEntriesCounter = 0; $IndexEntriesCounter < $thisfile_asf_simpleindexobject['index_entries_count']; ++$IndexEntriesCounter) {
$thisfile_asf_simpleindexobject['index_entries'][$IndexEntriesCounter]['packet_number'] = Helper::LittleEndian2Int(substr($IndexEntriesData, $offset, 4));
$offset += 4;
$thisfile_asf_simpleindexobject['index_entries'][$IndexEntriesCounter]['packet_count'] = Helper::LittleEndian2Int(substr($IndexEntriesData, $offset, 4));
$offset += 2;
}
break;
case self::$GETID3_ASF_Index_Object:
// 6.2 ASF top-level Index Object (optional but recommended when appropriate, 0 or 1)
// Field Name Field Type Size (bits)
// Object ID GUID 128 // GUID for the Index Object - GETID3_ASF_Index_Object
// Object Size QWORD 64 // Specifies the size, in bytes, of the Index Object, including at least 34 bytes of Index Object header
// Index Entry Time Interval DWORD 32 // Specifies the time interval between each index entry in ms.
// Index Specifiers Count WORD 16 // Specifies the number of Index Specifiers structures in this Index Object.
// Index Blocks Count DWORD 32 // Specifies the number of Index Blocks structures in this Index Object.
// Index Entry Time Interval DWORD 32 // Specifies the time interval between index entries in milliseconds. This value cannot be 0.
// Index Specifiers Count WORD 16 // Specifies the number of entries in the Index Specifiers list. Valid values are 1 and greater.
// Index Specifiers array of: varies //
// * Stream Number WORD 16 // Specifies the stream number that the Index Specifiers refer to. Valid values are between 1 and 127.
// * Index Type WORD 16 // Specifies Index Type values as follows:
// 1 = Nearest Past Data Packet - indexes point to the data packet whose presentation time is closest to the index entry time.
// 2 = Nearest Past Media Object - indexes point to the closest data packet containing an entire object or first fragment of an object.
// 3 = Nearest Past Cleanpoint. - indexes point to the closest data packet containing an entire object (or first fragment of an object) that has the Cleanpoint Flag set.
// Nearest Past Cleanpoint is the most common type of index.
// Index Entry Count DWORD 32 // Specifies the number of Index Entries in the block.
// * Block Positions QWORD varies // Specifies a list of byte offsets of the beginnings of the blocks relative to the beginning of the first Data Packet (i.e., the beginning of the Data Object + 50 bytes). The number of entries in this list is specified by the value of the Index Specifiers Count field. The order of those byte offsets is tied to the order in which Index Specifiers are listed.
// * Index Entries array of: varies //
// * * Offsets DWORD varies // An offset value of 0xffffffff indicates an invalid offset value
// shortcut
$thisfile_asf['asf_index_object'] = array();
$thisfile_asf_asfindexobject =& $thisfile_asf['asf_index_object'];
$ASFIndexObjectData = $NextObjectDataHeader . fread($this->getid3->fp, 34 - 24);
$offset = 24;
$thisfile_asf_asfindexobject['objectid'] = $NextObjectGUID;
$thisfile_asf_asfindexobject['objectid_guid'] = $NextObjectGUIDtext;
$thisfile_asf_asfindexobject['objectsize'] = $NextObjectSize;
$thisfile_asf_asfindexobject['entry_time_interval'] = Helper::LittleEndian2Int(substr($ASFIndexObjectData, $offset, 4));
$offset += 4;
$thisfile_asf_asfindexobject['index_specifiers_count'] = Helper::LittleEndian2Int(substr($ASFIndexObjectData, $offset, 2));
$offset += 2;
$thisfile_asf_asfindexobject['index_blocks_count'] = Helper::LittleEndian2Int(substr($ASFIndexObjectData, $offset, 4));
$offset += 4;
$ASFIndexObjectData .= fread($this->getid3->fp, 4 * $thisfile_asf_asfindexobject['index_specifiers_count']);
for ($IndexSpecifiersCounter = 0; $IndexSpecifiersCounter < $thisfile_asf_asfindexobject['index_specifiers_count']; ++$IndexSpecifiersCounter) {
$IndexSpecifierStreamNumber = Helper::LittleEndian2Int(substr($ASFIndexObjectData, $offset, 2));
$offset += 2;
$thisfile_asf_asfindexobject['index_specifiers'][$IndexSpecifiersCounter]['stream_number'] = $IndexSpecifierStreamNumber;
$thisfile_asf_asfindexobject['index_specifiers'][$IndexSpecifiersCounter]['index_type'] = Helper::LittleEndian2Int(substr($ASFIndexObjectData, $offset, 2));
$offset += 2;
$thisfile_asf_asfindexobject['index_specifiers'][$IndexSpecifiersCounter]['index_type_text'] = $this->ASFIndexObjectIndexTypeLookup($thisfile_asf_asfindexobject['index_specifiers'][$IndexSpecifiersCounter]['index_type']);
}
$ASFIndexObjectData .= fread($this->getid3->fp, 4);
$thisfile_asf_asfindexobject['index_entry_count'] = Helper::LittleEndian2Int(substr($ASFIndexObjectData, $offset, 4));
$offset += 4;
$ASFIndexObjectData .= fread($this->getid3->fp, 8 * $thisfile_asf_asfindexobject['index_specifiers_count']);
for ($IndexSpecifiersCounter = 0; $IndexSpecifiersCounter < $thisfile_asf_asfindexobject['index_specifiers_count']; ++$IndexSpecifiersCounter) {
$thisfile_asf_asfindexobject['block_positions'][$IndexSpecifiersCounter] = Helper::LittleEndian2Int(substr($ASFIndexObjectData, $offset, 8));
$offset += 8;
}
$ASFIndexObjectData .= fread($this->getid3->fp, 4 * $thisfile_asf_asfindexobject['index_specifiers_count'] * $thisfile_asf_asfindexobject['index_entry_count']);
for ($IndexEntryCounter = 0; $IndexEntryCounter < $thisfile_asf_asfindexobject['index_entry_count']; ++$IndexEntryCounter) {
for ($IndexSpecifiersCounter = 0; $IndexSpecifiersCounter < $thisfile_asf_asfindexobject['index_specifiers_count']; ++$IndexSpecifiersCounter) {
$thisfile_asf_asfindexobject['offsets'][$IndexSpecifiersCounter][$IndexEntryCounter] = Helper::LittleEndian2Int(substr($ASFIndexObjectData, $offset, 4));
$offset += 4;
}
}
break;
default:
// Implementations shall ignore any standard or non-standard object that they do not know how to handle.
if (self::GUIDname($NextObjectGUIDtext)) {
$info['warning'][] = 'unhandled GUID "' . self::GUIDname($NextObjectGUIDtext) . '" {' . $NextObjectGUIDtext . '} in ASF body at offset ' . ($offset - 16 - 8);
} else {
$info['warning'][] = 'unknown GUID {' . $NextObjectGUIDtext . '} in ASF body at offset ' . (ftell($this->getid3->fp) - 16 - 8);
}
fseek($this->getid3->fp, $NextObjectSize - 16 - 8, SEEK_CUR);
break;
}
}
if (isset($thisfile_asf_codeclistobject['codec_entries']) && is_array($thisfile_asf_codeclistobject['codec_entries'])) {
foreach ($thisfile_asf_codeclistobject['codec_entries'] as $streamnumber => $streamdata) {
switch ($streamdata['information']) {
case 'WMV1':
case 'WMV2':
case 'WMV3':
case 'MSS1':
case 'MSS2':
case 'WMVA':
case 'WVC1':
case 'WMVP':
case 'WVP2':
$thisfile_video['dataformat'] = 'wmv';
$info['mime_type'] = 'video/x-ms-wmv';
break;
case 'MP42':
case 'MP43':
case 'MP4S':
case 'mp4s':
$thisfile_video['dataformat'] = 'asf';
$info['mime_type'] = 'video/x-ms-asf';
break;
default:
switch ($streamdata['type_raw']) {
case 1:
if (strstr(self::TrimConvert($streamdata['name']), 'Windows Media')) {
$thisfile_video['dataformat'] = 'wmv';
if ($info['mime_type'] == 'video/x-ms-asf') {
$info['mime_type'] = 'video/x-ms-wmv';
}
}
break;
case 2:
if (strstr(self::TrimConvert($streamdata['name']), 'Windows Media')) {
$thisfile_audio['dataformat'] = 'wma';
if ($info['mime_type'] == 'video/x-ms-asf') {
$info['mime_type'] = 'audio/x-ms-wma';
}
}
break;
}
break;
}
}
}
switch (isset($thisfile_audio['codec']) ? $thisfile_audio['codec'] : '') {
case 'MPEG Layer-3':
$thisfile_audio['dataformat'] = 'mp3';
break;
default:
break;
}
if (isset($thisfile_asf_codeclistobject['codec_entries'])) {
foreach ($thisfile_asf_codeclistobject['codec_entries'] as $streamnumber => $streamdata) {
switch ($streamdata['type_raw']) {
case 1:
// video
$thisfile_video['encoder'] = self::TrimConvert($thisfile_asf_codeclistobject['codec_entries'][$streamnumber]['name']);
break;
case 2:
// audio
$thisfile_audio['encoder'] = self::TrimConvert($thisfile_asf_codeclistobject['codec_entries'][$streamnumber]['name']);
// AH 2003-10-01
$thisfile_audio['encoder_options'] = self::TrimConvert($thisfile_asf_codeclistobject['codec_entries'][0]['description']);
$thisfile_audio['codec'] = $thisfile_audio['encoder'];
break;
default:
$info['warning'][] = 'Unknown streamtype: [codec_list_object][codec_entries][' . $streamnumber . '][type_raw] == ' . $streamdata['type_raw'];
break;
}
}
}
if (isset($info['audio'])) {
$thisfile_audio['lossless'] = isset($thisfile_audio['lossless']) ? $thisfile_audio['lossless'] : false;
$thisfile_audio['dataformat'] = !empty($thisfile_audio['dataformat']) ? $thisfile_audio['dataformat'] : 'asf';
}
if (!empty($thisfile_video['dataformat'])) {
$thisfile_video['lossless'] = isset($thisfile_audio['lossless']) ? $thisfile_audio['lossless'] : false;
$thisfile_video['pixel_aspect_ratio'] = isset($thisfile_audio['pixel_aspect_ratio']) ? $thisfile_audio['pixel_aspect_ratio'] : (double) 1;
$thisfile_video['dataformat'] = !empty($thisfile_video['dataformat']) ? $thisfile_video['dataformat'] : 'asf';
}
if (!empty($thisfile_video['streams'])) {
$thisfile_video['streams']['resolution_x'] = 0;
$thisfile_video['streams']['resolution_y'] = 0;
foreach ($thisfile_video['streams'] as $key => $valuearray) {
if ($valuearray['resolution_x'] > $thisfile_video['streams']['resolution_x'] || $valuearray['resolution_y'] > $thisfile_video['streams']['resolution_y']) {
$thisfile_video['resolution_x'] = $valuearray['resolution_x'];
$thisfile_video['resolution_y'] = $valuearray['resolution_y'];
}
}
}
$info['bitrate'] = (isset($thisfile_audio['bitrate']) ? $thisfile_audio['bitrate'] : 0) + (isset($thisfile_video['bitrate']) ? $thisfile_video['bitrate'] : 0);
if ((!isset($info['playtime_seconds']) || $info['playtime_seconds'] <= 0) && $info['bitrate'] > 0) {
$info['playtime_seconds'] = ($info['filesize'] - $info['avdataoffset']) / ($info['bitrate'] / 8);
}
return true;
}
/**
* @return bool
*/
public function WriteID3v2()
{
// File MUST be writeable - CHMOD(646) at least. It's best if the
// directory is also writeable, because that method is both faster and less susceptible to errors.
if (!empty($this->filename) && (is_writable($this->filename) || !file_exists($this->filename) && is_writable(dirname($this->filename)))) {
// Initialize GetId3 engine
$getID3 = new GetId3Core();
$OldThisFileInfo = $getID3->analyze($this->filename);
if (!Helper::intValueSupported($OldThisFileInfo['filesize'])) {
$this->errors[] = 'Unable to write ID3v2 because file is larger than ' . round(PHP_INT_MAX / 1073741824) . 'GB';
fclose($fp_source);
return false;
}
if ($this->merge_existing_data) {
// merge with existing data
if (!empty($OldThisFileInfo['id3v2'])) {
$this->tag_data = $this->array_join_merge($OldThisFileInfo['id3v2'], $this->tag_data);
}
}
$this->paddedlength = isset($OldThisFileInfo['id3v2']['headerlength']) ? max($OldThisFileInfo['id3v2']['headerlength'], $this->paddedlength) : $this->paddedlength;
if ($NewID3v2Tag = $this->GenerateID3v2Tag()) {
if (file_exists($this->filename) && is_writable($this->filename) && isset($OldThisFileInfo['id3v2']['headerlength']) && $OldThisFileInfo['id3v2']['headerlength'] == strlen($NewID3v2Tag)) {
// best and fastest method - insert-overwrite existing tag (padded to length of old tag if neccesary)
if (file_exists($this->filename)) {
if (is_readable($this->filename) && is_writable($this->filename) && is_file($this->filename) && ($fp = fopen($this->filename, 'r+b'))) {
rewind($fp);
fwrite($fp, $NewID3v2Tag, strlen($NewID3v2Tag));
fclose($fp);
} else {
$this->errors[] = 'Could not fopen("' . $this->filename . '", "r+b")';
}
} else {
if (is_writable($this->filename) && is_file($this->filename) && ($fp = fopen($this->filename, 'wb'))) {
rewind($fp);
fwrite($fp, $NewID3v2Tag, strlen($NewID3v2Tag));
fclose($fp);
} else {
$this->errors[] = 'Could not fopen("' . $this->filename . '", "wb")';
}
}
} else {
if ($tempfilename = tempnam(GetId3Core::getTempDir(), 'getID3')) {
if (is_readable($this->filename) && is_file($this->filename) && ($fp_source = fopen($this->filename, 'rb'))) {
if (is_writable($tempfilename) && is_file($tempfilename) && ($fp_temp = fopen($tempfilename, 'wb'))) {
fwrite($fp_temp, $NewID3v2Tag, strlen($NewID3v2Tag));
rewind($fp_source);
if (!empty($OldThisFileInfo['avdataoffset'])) {
fseek($fp_source, $OldThisFileInfo['avdataoffset'], SEEK_SET);
}
while ($buffer = fread($fp_source, $this->fread_buffer_size)) {
fwrite($fp_temp, $buffer, strlen($buffer));
}
fclose($fp_temp);
fclose($fp_source);
copy($tempfilename, $this->filename);
unlink($tempfilename);
return true;
} else {
$this->errors[] = 'Could not fopen("' . $tempfilename . '", "wb")';
}
fclose($fp_source);
} else {
$this->errors[] = 'Could not fopen("' . $this->filename . '", "rb")';
}
}
return false;
}
} else {
$this->errors[] = '$this->GenerateID3v2Tag() failed';
}
if (!empty($this->errors)) {
return false;
}
return true;
} else {
$this->errors[] = 'WriteID3v2() failed: !is_writeable(' . $this->filename . ')';
}
return false;
}