/*
**
** Copyright 2014, The Android Open Source Project
**
** Licensed under the Apache License, Version 2.0 (the "License");
** you may not use this file except in compliance with the License.
** You may obtain a copy of the License at
**
** http://www.apache.org/licenses/LICENSE-2.0
**
** Unless required by applicable law or agreed to in writing, software
** distributed under the License is distributed on an "AS IS" BASIS,
** WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
** See the License for the specific language governing permissions and
** limitations under the License.
*/
#define LOG_TAG "AudioHardwareTungsten"
#include <utils/Log.h>
#include <audio_utils/spdif/FrameScanner.h>
namespace android {
#define SPDIF_DATA_TYPE_AC3 1
#define SPDIF_DATA_TYPE_E_AC3 21
#define AC3_SYNCWORD_SIZE 2
FrameScanner::FrameScanner(int dataType)
: mSampleRate(0)
, mRateMultiplier(1)
, mFrameSizeBytes(0)
, mDataType(dataType)
, mDataTypeInfo(0)
{
}
FrameScanner::~FrameScanner()
{
}
// ------------------- AC3 -----------------------------------------------------
// These values are from the AC3 spec. Do not change them.
const uint8_t AC3FrameScanner::kAC3SyncByte1 = 0x0B;
const uint8_t AC3FrameScanner::kAC3SyncByte2 = 0x77;
const uint16_t AC3FrameScanner::kAC3SampleRateTable[AC3_NUM_SAMPLE_RATE_TABLE_ENTRIES]
= { 48000, 44100, 32000 };
// Table contains number of 16-bit words in an AC3 frame.
const uint16_t AC3FrameScanner::kAC3FrameSizeTable[AC3_NUM_FRAME_SIZE_TABLE_ENTRIES]
[AC3_NUM_SAMPLE_RATE_TABLE_ENTRIES] = {
{ 64, 69, 96 },
{ 64, 70, 96 },
{ 80, 87, 120 },
{ 80, 88, 120 },
{ 96, 104, 144 },
{ 96, 105, 144 },
{ 112, 121, 168 },
{ 112, 122, 168 },
{ 128, 139, 192 },
{ 128, 140, 192 },
{ 160, 174, 240 },
{ 160, 175, 240 },
{ 192, 208, 288 },
{ 192, 209, 288 },
{ 224, 243, 336 },
{ 224, 244, 336 },
{ 256, 278, 384 },
{ 256, 279, 384 },
{ 320, 348, 480 },
{ 320, 349, 480 },
{ 384, 417, 576 },
{ 384, 418, 576 },
{ 448, 487, 672 },
{ 448, 488, 672 },
{ 512, 557, 768 },
{ 512, 558, 768 },
{ 640, 696, 960 },
{ 640, 697, 960 },
{ 768, 835, 1152 },
{ 768, 836, 1152 },
{ 896, 975, 1344 },
{ 896, 976, 1344 },
{ 1024, 1114, 1536 },
{ 1024, 1115, 1536 },
{ 1152, 1253, 1728 },
{ 1152, 1254, 1728 },
{ 1280, 1393, 1920 },
{ 1280, 1394, 1920 }
};
const uint16_t AC3FrameScanner::kEAC3ReducedSampleRateTable[AC3_NUM_SAMPLE_RATE_TABLE_ENTRIES]
= { 24000, 22050, 16000 };
const uint16_t
AC3FrameScanner::kEAC3BlocksPerFrameTable[EAC3_NUM_BLOCKS_PER_FRAME_TABLE_ENTRIES]
= { 1, 2, 3, 6 };
// -----------------------------------------------------------------------------
// Scanner for AC3 byte streams.
AC3FrameScanner::AC3FrameScanner()
: FrameScanner(SPDIF_DATA_TYPE_AC3)
, mState(STATE_EXPECTING_SYNC_1)
, mBytesSkipped(0)
, mLengthCode(0)
, mAudioBlocksPerSyncFrame(6)
, mCursor(AC3_SYNCWORD_SIZE) // past sync word
, mStreamType(0)
, mSubstreamID(0)
, mFormatDumpCount(0)
{
// Define beginning of syncinfo for getSyncAddress()
mHeaderBuffer[0] = kAC3SyncByte1;
mHeaderBuffer[1] = kAC3SyncByte2;
}
AC3FrameScanner::~AC3FrameScanner()
{
}
int AC3FrameScanner::getSampleFramesPerSyncFrame() const
{
return mRateMultiplier * AC3_MAX_BLOCKS_PER_SYNC_FRAME_BLOCK * AC3_PCM_FRAMES_PER_BLOCK;
}
// per IEC 61973-3 Paragraph 5.3.3
bool AC3FrameScanner::isFirstInBurst()
{
if (mDataType == SPDIF_DATA_TYPE_E_AC3) {
return (((mStreamType == 0) || (mStreamType == 2)) && (mSubstreamID == 0));
} else {
return false; // For AC3 just flush at end.
}
}
bool AC3FrameScanner::isLastInBurst()
{
// For EAC3 we don't know if we are the end until we see a
// frame that must be at the beginning. See isFirstInBurst().
return (mDataType != SPDIF_DATA_TYPE_E_AC3); // Just one AC3 frame per burst.
}
// Parse AC3 header.
// Detect whether the stream is AC3 or EAC3. Extract data depending on type.
// Sets mDataType, mFrameSizeBytes, mAudioBlocksPerSyncFrame,
// mSampleRate, mRateMultiplier, mLengthCode.
//
// @return next state for scanner
AC3FrameScanner::State AC3FrameScanner::parseHeader()
{
// Interpret bsid based on paragraph E2.3.1.6 of EAC3 spec.
int bsid = mHeaderBuffer[5] >> 3; // bitstream ID
// Check BSID to see if this is EAC3 or regular AC3
if ((bsid >= 10) && (bsid <= 16)) {
mDataType = SPDIF_DATA_TYPE_E_AC3;
} else if ((bsid >= 0) && (bsid <= 8)) {
mDataType = SPDIF_DATA_TYPE_AC3;
} else {
ALOGW("AC3 bsid = %d not supported", bsid);
return STATE_EXPECTING_SYNC_1;
}
// The names fscod, frmsiz are from the AC3 spec.
int fscod = mHeaderBuffer[4] >> 6;
if (mDataType == SPDIF_DATA_TYPE_E_AC3) {
mStreamType = mHeaderBuffer[2] >> 6;
mSubstreamID = (mHeaderBuffer[2] >> 3) & 0x07;
// Print enough so we can see all the substreams.
ALOGD_IF((mFormatDumpCount < 3*8 ),
"EAC3 strmtyp = %d, substreamid = %d",
mStreamType, mSubstreamID);
// Frame size is explicit in EAC3. Paragraph E2.3.1.3
int frmsiz = ((mHeaderBuffer[2] & 0x07) << 8) + mHeaderBuffer[3];
mFrameSizeBytes = (frmsiz + 1) * sizeof(int16_t);
int numblkscod = 3; // 6 blocks default
if (fscod == 3) {
int fscod2 = (mHeaderBuffer[4] >> 4) & 0x03;
if (fscod2 >= AC3_NUM_SAMPLE_RATE_TABLE_ENTRIES) {
ALOGW("Invalid EAC3 fscod2 = %d\n", fscod2);
return STATE_EXPECTING_SYNC_1;
} else {
mSampleRate = kEAC3ReducedSampleRateTable[fscod2];
}
} else {
mSampleRate = kAC3SampleRateTable[fscod];
numblkscod = (mHeaderBuffer[4] >> 4) & 0x03;
}
mRateMultiplier = EAC3_RATE_MULTIPLIER; // per IEC 61973-3 Paragraph 5.3.3
// TODO Don't send data burst until we have 6 blocks per substream.
mAudioBlocksPerSyncFrame = kEAC3BlocksPerFrameTable[numblkscod];
} else { // regular AC3
// Extract sample rate and frame size from codes.
unsigned int frmsizcod = mHeaderBuffer[4] & 0x3F; // frame size code
if (fscod >= AC3_NUM_SAMPLE_RATE_TABLE_ENTRIES) {
ALOGW("Invalid AC3 sampleRateCode = %d\n", fscod);
return STATE_EXPECTING_SYNC_1;
} else if (frmsizcod >= AC3_NUM_FRAME_SIZE_TABLE_ENTRIES) {
ALOGW("Invalid AC3 frameSizeCode = %d\n", frmsizcod);
return STATE_EXPECTING_SYNC_1;
} else {
mSampleRate = kAC3SampleRateTable[fscod];
mRateMultiplier = 1;
mFrameSizeBytes = sizeof(uint16_t)
* kAC3FrameSizeTable[frmsizcod][fscod];
}
mAudioBlocksPerSyncFrame = 6;
}
mLengthCode = 8 * mFrameSizeBytes; // size in bits
ALOGI_IF((mFormatDumpCount == 0),
"AC3 frame rate = %d * %d, size = %d, audioBlocksPerSyncFrame = %d\n",
mSampleRate, mRateMultiplier, mFrameSizeBytes, mAudioBlocksPerSyncFrame);
mFormatDumpCount++;
return STATE_GOT_HEADER;
}
// State machine that scans for AC3 headers in a byte stream.
// @return true if we have detected a complete and valid header.
bool AC3FrameScanner::scan(uint8_t byte)
{
State nextState = mState;
switch (mState) {
case STATE_GOT_HEADER:
nextState = STATE_EXPECTING_SYNC_1;
// deliberately fall through
case STATE_EXPECTING_SYNC_1:
if (byte == kAC3SyncByte1) {
nextState = STATE_EXPECTING_SYNC_2; // advance
} else {
mBytesSkipped += 1; // skip unsynchronized data
}
break;
case STATE_EXPECTING_SYNC_2:
if (byte == kAC3SyncByte2) {
if (mBytesSkipped > 0) {
ALOGI("WARNING AC3 skipped %u bytes looking for a valid header.\n", mBytesSkipped);
mBytesSkipped = 0;
}
mCursor = AC3_SYNCWORD_SIZE;
nextState = STATE_GATHERING; // advance
} else if (byte == kAC3SyncByte1) {
nextState = STATE_EXPECTING_SYNC_2; // resync
} else {
nextState = STATE_EXPECTING_SYNC_1; // restart
}
break;
case STATE_GATHERING:
mHeaderBuffer[mCursor++] = byte; // save for getSyncAddress()
if (mCursor >= sizeof(mHeaderBuffer)) {
nextState = parseHeader();
}
break;
default:
ALOGE("AC3FrameScanner: invalid state = %d\n", mState);
nextState = STATE_EXPECTING_SYNC_1; // restart
break;
}
mState = nextState;
return mState == STATE_GOT_HEADER;
}
} // namespace android