src/media/mp4/aac.cc - cobalt - Git at Google

 // Copyright (c) 2012 The Chromium Authors. All rights reserved.
 // Use of this source code is governed by a BSD-style license that can be
 // found in the LICENSE file.

 #include "media/mp4/aac.h"

 #include <algorithm>

 #include "base/logging.h"
 #include "media/base/bit_reader.h"
 #include "media/mp4/rcheck.h"

 // The following conversion table is extracted from ISO 14496 Part 3 -
 // Table 1.16 - Sampling Frequency Index.
 static const int kFrequencyMap[] = {
   96000, 88200, 64000, 48000, 44100, 32000, 24000,
   22050, 16000, 12000, 11025, 8000, 7350
 };

 namespace media {

 static ChannelLayout GetChannelLayout(uint8 channel_config) {
   switch (channel_config) {
     case 1:
       return CHANNEL_LAYOUT_MONO;
     case 2:
       return CHANNEL_LAYOUT_STEREO;
     case 3:
       return CHANNEL_LAYOUT_SURROUND;
     case 4:
       return CHANNEL_LAYOUT_4_0;
     case 5:
       return CHANNEL_LAYOUT_5_0;
     case 6:
       return CHANNEL_LAYOUT_5_1;
     case 8:
       return CHANNEL_LAYOUT_7_1;
     default:
       break;
   }

   return CHANNEL_LAYOUT_UNSUPPORTED;
 }

 namespace mp4 {

 AAC::AAC()
     : profile_(0), frequency_index_(0), channel_config_(0), frequency_(0),
       extension_frequency_(0), channel_layout_(CHANNEL_LAYOUT_UNSUPPORTED) {
 }

 AAC::~AAC() {
 }

 bool AAC::Parse(const std::vector<uint8>& data) {
   if (data.empty())
     return false;
 #if defined(COBALT_WIN)
   raw_data_ = data;
 #endif  // COBALT_WIN
   BitReader reader(&data[0], data.size());
   uint8 extension_type = 0;
   bool ps_present = false;
   uint8 extension_frequency_index = 0xff;

   frequency_ = 0;
   extension_frequency_ = 0;

   // The following code is written according to ISO 14496 Part 3 Table 1.13 -
   // Syntax of AudioSpecificConfig.

   // Read base configuration
   RCHECK(reader.ReadBits(5, &profile_));
   RCHECK(reader.ReadBits(4, &frequency_index_));
   if (frequency_index_ == 0xf)
     RCHECK(reader.ReadBits(24, &frequency_));
   RCHECK(reader.ReadBits(4, &channel_config_));

   // Read extension configuration.
   if (profile_ == 5 || profile_ == 29) {
     ps_present = (profile_ == 29);
     extension_type = 5;
     RCHECK(reader.ReadBits(4, &extension_frequency_index));
     if (extension_frequency_index == 0xf)
       RCHECK(reader.ReadBits(24, &extension_frequency_));
     RCHECK(reader.ReadBits(5, &profile_));
   }

   RCHECK(SkipDecoderGASpecificConfig(&reader));
   RCHECK(SkipErrorSpecificConfig());

   // Read extension configuration again
   if (extension_type != 5) {
     uint16 sync_extension_type;
     uint8 sbr_present_flag;
     uint8 ps_present_flag;

     if (reader.ReadBits(11, &sync_extension_type) &&
         sync_extension_type == 0x2b7) {
       if (reader.ReadBits(5, &extension_type) && extension_type == 5) {
         RCHECK(reader.ReadBits(1, &sbr_present_flag));

         if (sbr_present_flag) {
           RCHECK(reader.ReadBits(4, &extension_frequency_index));

           if (extension_frequency_index == 0xf)
             RCHECK(reader.ReadBits(24, &extension_frequency_));

           RCHECK(reader.ReadBits(11, &sync_extension_type));

           if (sync_extension_type == 0x548) {
             RCHECK(reader.ReadBits(1, &ps_present_flag));
             ps_present = ps_present_flag != 0;
           }
         }
       }
     }
   }

   if (frequency_ == 0) {
     RCHECK(frequency_index_ < arraysize(kFrequencyMap));
     frequency_ = kFrequencyMap[frequency_index_];
   }

   if (extension_frequency_ == 0 && extension_frequency_index != 0xff) {
     RCHECK(extension_frequency_index < arraysize(kFrequencyMap));
     extension_frequency_ = kFrequencyMap[extension_frequency_index];
   }

   // When Parametric Stereo is on, mono will be played as stereo.
   if (ps_present && channel_config_ == 1)
     channel_layout_ = GetChannelLayout(2);
   else
     channel_layout_ = GetChannelLayout(channel_config_);

   return frequency_ != 0 && channel_layout_ != CHANNEL_LAYOUT_UNSUPPORTED &&
       profile_ >= 1 && profile_ <= 4 && frequency_index_ != 0xf &&
       channel_config_ <= 7;
 }

 int AAC::GetOutputSamplesPerSecond(bool sbr_in_mimetype) const {
   if (extension_frequency_ > 0)
     return extension_frequency_;

   if (!sbr_in_mimetype)
     return frequency_;

   // The following code is written according to ISO 14496 Part 3 Table 1.11 and
   // Table 1.22. (Table 1.11 refers to the capping to 48000, Table 1.22 refers
   // to SBR doubling the AAC sample rate.)
   // TODO(acolwell) : Extend sample rate cap to 96kHz for Level 5 content.
   DCHECK_GT(frequency_, 0);
   return std::min(2 * frequency_, 48000);
 }

 ChannelLayout AAC::channel_layout() const {
   return channel_layout_;
 }

 bool AAC::ConvertEsdsToADTS(std::vector<uint8>* buffer) const {
   size_t size = buffer->size() + kADTSHeaderSize;

   DCHECK(profile_ >= 1 && profile_ <= 4 && frequency_index_ != 0xf &&
          channel_config_ <= 7);

   // ADTS header uses 13 bits for packet size.
   if (size >= (1 << 13))
     return false;

   std::vector<uint8>& adts = *buffer;

   adts.insert(buffer->begin(), kADTSHeaderSize, 0);
   adts[0] = 0xff;
   adts[1] = 0xf1;
   adts[2] = ((profile_ - 1) << 6) + (frequency_index_ << 2) +
       (channel_config_ >> 2);
   adts[3] = ((channel_config_ & 0x3) << 6) + (size >> 11);
   adts[4] = (size & 0x7ff) >> 3;
   adts[5] = ((size & 7) << 5) + 0x1f;
   adts[6] = 0xfc;

   return true;
 }

 // Currently this function only support GASpecificConfig defined in
 // ISO 14496 Part 3 Table 4.1 - Syntax of GASpecificConfig()
 bool AAC::SkipDecoderGASpecificConfig(BitReader* bit_reader) const {
   switch (profile_) {
     case 1:
     case 2:
     case 3:
     case 4:
     case 6:
     case 7:
     case 17:
     case 19:
     case 20:
     case 21:
     case 22:
     case 23:
       return SkipGASpecificConfig(bit_reader);
     default:
       break;
   }

   return false;
 }

 bool AAC::SkipErrorSpecificConfig() const {
   switch (profile_) {
     case 17:
     case 19:
     case 20:
     case 21:
     case 22:
     case 23:
     case 24:
     case 25:
     case 26:
     case 27:
       return false;
     default:
       break;
   }

   return true;
 }

 // The following code is written according to ISO 14496 part 3 Table 4.1 -
 // GASpecificConfig.
 bool AAC::SkipGASpecificConfig(BitReader* bit_reader) const {
   uint8 extension_flag = 0;
   uint8 depends_on_core_coder;
   uint16 dummy;

   RCHECK(bit_reader->ReadBits(1, &dummy));  // frameLengthFlag
   RCHECK(bit_reader->ReadBits(1, &depends_on_core_coder));
   if (depends_on_core_coder == 1)
     RCHECK(bit_reader->ReadBits(14, &dummy));  // coreCoderDelay

   RCHECK(bit_reader->ReadBits(1, &extension_flag));
   RCHECK(channel_config_ != 0);

   if (profile_ == 6 || profile_ == 20)
     RCHECK(bit_reader->ReadBits(3, &dummy));  // layerNr

   if (extension_flag) {
     if (profile_ == 22) {
       RCHECK(bit_reader->ReadBits(5, &dummy));  // numOfSubFrame
       RCHECK(bit_reader->ReadBits(11, &dummy));  // layer_length
     }

     if (profile_ == 17 || profile_ == 19 || profile_ == 20 || profile_ == 23) {
       RCHECK(bit_reader->ReadBits(3, &dummy));  // resilience flags
     }

     RCHECK(bit_reader->ReadBits(1, &dummy));  // extensionFlag3
   }

   return true;
 }

 }  // namespace mp4

 }  // namespace media
	// Copyright (c) 2012 The Chromium Authors. All rights reserved.
	// Use of this source code is governed by a BSD-style license that can be
	// found in the LICENSE file.

	#include "media/mp4/aac.h"

	#include <algorithm>

	#include "base/logging.h"
	#include "media/base/bit_reader.h"
	#include "media/mp4/rcheck.h"

	// The following conversion table is extracted from ISO 14496 Part 3 -
	// Table 1.16 - Sampling Frequency Index.
	static const int kFrequencyMap[] = {
	96000, 88200, 64000, 48000, 44100, 32000, 24000,
	22050, 16000, 12000, 11025, 8000, 7350
	};

	namespace media {

	static ChannelLayout GetChannelLayout(uint8 channel_config) {
	switch (channel_config) {
	case 1:
	return CHANNEL_LAYOUT_MONO;
	case 2:
	return CHANNEL_LAYOUT_STEREO;
	case 3:
	return CHANNEL_LAYOUT_SURROUND;
	case 4:
	return CHANNEL_LAYOUT_4_0;
	case 5:
	return CHANNEL_LAYOUT_5_0;
	case 6:
	return CHANNEL_LAYOUT_5_1;
	case 8:
	return CHANNEL_LAYOUT_7_1;
	default:
	break;
	}

	return CHANNEL_LAYOUT_UNSUPPORTED;
	}

	namespace mp4 {

	AAC::AAC()
	: profile_(0), frequency_index_(0), channel_config_(0), frequency_(0),
	extension_frequency_(0), channel_layout_(CHANNEL_LAYOUT_UNSUPPORTED) {
	}

	AAC::~AAC() {
	}

	bool AAC::Parse(const std::vector<uint8>& data) {
	if (data.empty())
	return false;
	#if defined(COBALT_WIN)
	raw_data_ = data;
	#endif // COBALT_WIN
	BitReader reader(&data[0], data.size());
	uint8 extension_type = 0;
	bool ps_present = false;
	uint8 extension_frequency_index = 0xff;

	frequency_ = 0;
	extension_frequency_ = 0;

	// The following code is written according to ISO 14496 Part 3 Table 1.13 -
	// Syntax of AudioSpecificConfig.

	// Read base configuration
	RCHECK(reader.ReadBits(5, &profile_));
	RCHECK(reader.ReadBits(4, &frequency_index_));
	if (frequency_index_ == 0xf)
	RCHECK(reader.ReadBits(24, &frequency_));
	RCHECK(reader.ReadBits(4, &channel_config_));

	// Read extension configuration.
	if (profile_ == 5 \|\| profile_ == 29) {
	ps_present = (profile_ == 29);
	extension_type = 5;
	RCHECK(reader.ReadBits(4, &extension_frequency_index));
	if (extension_frequency_index == 0xf)
	RCHECK(reader.ReadBits(24, &extension_frequency_));
	RCHECK(reader.ReadBits(5, &profile_));
	}

	RCHECK(SkipDecoderGASpecificConfig(&reader));
	RCHECK(SkipErrorSpecificConfig());

	// Read extension configuration again
	if (extension_type != 5) {
	uint16 sync_extension_type;
	uint8 sbr_present_flag;
	uint8 ps_present_flag;

	if (reader.ReadBits(11, &sync_extension_type) &&
	sync_extension_type == 0x2b7) {
	if (reader.ReadBits(5, &extension_type) && extension_type == 5) {
	RCHECK(reader.ReadBits(1, &sbr_present_flag));

	if (sbr_present_flag) {
	RCHECK(reader.ReadBits(4, &extension_frequency_index));

	if (extension_frequency_index == 0xf)
	RCHECK(reader.ReadBits(24, &extension_frequency_));

	RCHECK(reader.ReadBits(11, &sync_extension_type));

	if (sync_extension_type == 0x548) {
	RCHECK(reader.ReadBits(1, &ps_present_flag));
	ps_present = ps_present_flag != 0;
	}
	}
	}
	}
	}

	if (frequency_ == 0) {
	RCHECK(frequency_index_ < arraysize(kFrequencyMap));
	frequency_ = kFrequencyMap[frequency_index_];
	}

	if (extension_frequency_ == 0 && extension_frequency_index != 0xff) {
	RCHECK(extension_frequency_index < arraysize(kFrequencyMap));
	extension_frequency_ = kFrequencyMap[extension_frequency_index];
	}

	// When Parametric Stereo is on, mono will be played as stereo.
	if (ps_present && channel_config_ == 1)
	channel_layout_ = GetChannelLayout(2);
	else
	channel_layout_ = GetChannelLayout(channel_config_);

	return frequency_ != 0 && channel_layout_ != CHANNEL_LAYOUT_UNSUPPORTED &&
	profile_ >= 1 && profile_ <= 4 && frequency_index_ != 0xf &&
	channel_config_ <= 7;
	}

	int AAC::GetOutputSamplesPerSecond(bool sbr_in_mimetype) const {
	if (extension_frequency_ > 0)
	return extension_frequency_;

	if (!sbr_in_mimetype)
	return frequency_;

	// The following code is written according to ISO 14496 Part 3 Table 1.11 and
	// Table 1.22. (Table 1.11 refers to the capping to 48000, Table 1.22 refers
	// to SBR doubling the AAC sample rate.)
	// TODO(acolwell) : Extend sample rate cap to 96kHz for Level 5 content.
	DCHECK_GT(frequency_, 0);
	return std::min(2 * frequency_, 48000);
	}

	ChannelLayout AAC::channel_layout() const {
	return channel_layout_;
	}

	bool AAC::ConvertEsdsToADTS(std::vector<uint8>* buffer) const {
	size_t size = buffer->size() + kADTSHeaderSize;

	DCHECK(profile_ >= 1 && profile_ <= 4 && frequency_index_ != 0xf &&
	channel_config_ <= 7);

	// ADTS header uses 13 bits for packet size.
	if (size >= (1 << 13))
	return false;

	std::vector<uint8>& adts = *buffer;

	adts.insert(buffer->begin(), kADTSHeaderSize, 0);
	adts[0] = 0xff;
	adts[1] = 0xf1;
	adts[2] = ((profile_ - 1) << 6) + (frequency_index_ << 2) +
	(channel_config_ >> 2);
	adts[3] = ((channel_config_ & 0x3) << 6) + (size >> 11);
	adts[4] = (size & 0x7ff) >> 3;
	adts[5] = ((size & 7) << 5) + 0x1f;
	adts[6] = 0xfc;

	return true;
	}

	// Currently this function only support GASpecificConfig defined in
	// ISO 14496 Part 3 Table 4.1 - Syntax of GASpecificConfig()
	bool AAC::SkipDecoderGASpecificConfig(BitReader* bit_reader) const {
	switch (profile_) {
	case 1:
	case 2:
	case 3:
	case 4:
	case 6:
	case 7:
	case 17:
	case 19:
	case 20:
	case 21:
	case 22:
	case 23:
	return SkipGASpecificConfig(bit_reader);
	default:
	break;
	}

	return false;
	}

	bool AAC::SkipErrorSpecificConfig() const {
	switch (profile_) {
	case 17:
	case 19:
	case 20:
	case 21:
	case 22:
	case 23:
	case 24:
	case 25:
	case 26:
	case 27:
	return false;
	default:
	break;
	}

	return true;
	}

	// The following code is written according to ISO 14496 part 3 Table 4.1 -
	// GASpecificConfig.
	bool AAC::SkipGASpecificConfig(BitReader* bit_reader) const {
	uint8 extension_flag = 0;
	uint8 depends_on_core_coder;
	uint16 dummy;

	RCHECK(bit_reader->ReadBits(1, &dummy)); // frameLengthFlag
	RCHECK(bit_reader->ReadBits(1, &depends_on_core_coder));
	if (depends_on_core_coder == 1)
	RCHECK(bit_reader->ReadBits(14, &dummy)); // coreCoderDelay

	RCHECK(bit_reader->ReadBits(1, &extension_flag));
	RCHECK(channel_config_ != 0);

	if (profile_ == 6 \|\| profile_ == 20)
	RCHECK(bit_reader->ReadBits(3, &dummy)); // layerNr

	if (extension_flag) {
	if (profile_ == 22) {
	RCHECK(bit_reader->ReadBits(5, &dummy)); // numOfSubFrame
	RCHECK(bit_reader->ReadBits(11, &dummy)); // layer_length
	}

	if (profile_ == 17 \|\| profile_ == 19 \|\| profile_ == 20 \|\| profile_ == 23) {
	RCHECK(bit_reader->ReadBits(3, &dummy)); // resilience flags
	}

	RCHECK(bit_reader->ReadBits(1, &dummy)); // extensionFlag3
	}

	return true;
	}

	} // namespace mp4

	} // namespace media