fdk-aac/fuzzer/aac_enc_fuzzer.cpp

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/******************************************************************************
*
* Copyright (C) 2020 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.
*
*****************************************************************************
* Originally developed and contributed by Ittiam Systems Pvt. Ltd, Bangalore
*/
#include <string>
#include "aacenc_lib.h"
#include "src/aacenc.h"
using namespace std;
// IN_AUDIO_DATA, IN_ANCILLRY_DATA and IN_METADATA_SETUP
constexpr size_t kMaxBuffers = 3;
constexpr size_t kMaxOutputBufferSize = 8192;
constexpr uint32_t kMinBitRate = 8000;
constexpr uint32_t kMaxBitRate = 960000;
constexpr int32_t kSampleRates[] = {8000, 11025, 12000, 16000, 22050, 24000,
32000, 44100, 48000, 64000, 88200, 96000};
constexpr size_t kSampleRatesSize = size(kSampleRates);
constexpr CHANNEL_MODE kChannelModes[] = {MODE_1,
MODE_2,
MODE_1_2,
MODE_1_2_1,
MODE_1_2_2,
MODE_1_2_2_1,
MODE_1_2_2_2_1,
MODE_6_1,
MODE_7_1_BACK,
MODE_7_1_TOP_FRONT,
MODE_7_1_REAR_SURROUND,
MODE_7_1_FRONT_CENTER,
MODE_212};
constexpr size_t kChannelModesSize = size(kChannelModes);
constexpr TRANSPORT_TYPE kIdentifiers[] = {
TT_MP4_RAW, TT_MP4_ADIF, TT_MP4_ADTS, TT_MP4_LATM_MCP1, TT_MP4_LATM_MCP0, TT_MP4_LOAS, TT_DRM};
constexpr size_t kIdentifiersSize = size(kIdentifiers);
constexpr AUDIO_OBJECT_TYPE kAudioObjectTypes[] = {AOT_NONE, AOT_NULL_OBJECT,
AOT_AAC_MAIN, AOT_AAC_LC,
AOT_AAC_SSR, AOT_AAC_LTP,
AOT_SBR, AOT_AAC_SCAL,
AOT_TWIN_VQ, AOT_CELP,
AOT_HVXC, AOT_RSVD_10,
AOT_RSVD_11, AOT_TTSI,
AOT_MAIN_SYNTH, AOT_WAV_TAB_SYNTH,
AOT_GEN_MIDI, AOT_ALG_SYNTH_AUD_FX,
AOT_ER_AAC_LC, AOT_RSVD_18,
AOT_ER_AAC_LTP, AOT_ER_AAC_SCAL,
AOT_ER_TWIN_VQ, AOT_ER_BSAC,
AOT_ER_AAC_LD, AOT_ER_CELP,
AOT_ER_HVXC, AOT_ER_HILN,
AOT_ER_PARA, AOT_RSVD_28,
AOT_PS, AOT_MPEGS,
AOT_ESCAPE, AOT_MP3ONMP4_L1,
AOT_MP3ONMP4_L2, AOT_MP3ONMP4_L3,
AOT_RSVD_35, AOT_RSVD_36,
AOT_AAC_SLS, AOT_SLS,
AOT_ER_AAC_ELD, AOT_USAC,
AOT_SAOC, AOT_LD_MPEGS,
AOT_MP2_AAC_LC, AOT_MP2_SBR,
AOT_DRM_AAC, AOT_DRM_SBR,
AOT_DRM_MPEG_PS, AOT_DRM_SURROUND,
AOT_DRM_USAC};
constexpr size_t kAudioObjectTypesSize = size(kAudioObjectTypes);
constexpr int32_t kSbrRatios[] = {-1, 0, 1, 2};
constexpr size_t kSbrRatiosSize = size(kSbrRatios);
constexpr int32_t kBitRateModes[] = {
AACENC_BR_MODE_INVALID, AACENC_BR_MODE_CBR, AACENC_BR_MODE_VBR_1,
AACENC_BR_MODE_VBR_2, AACENC_BR_MODE_VBR_3, AACENC_BR_MODE_VBR_4,
AACENC_BR_MODE_VBR_5, AACENC_BR_MODE_FF, AACENC_BR_MODE_SFR};
constexpr size_t kBitRateModesSize = size(kBitRateModes);
constexpr int32_t kGranuleLengths[] = {120, 128, 240, 256, 480, 512, 1024};
constexpr size_t kGranuleLengthsSize = size(kGranuleLengths);
constexpr int32_t kChannelOrder[] = {CH_ORDER_MPEG, CH_ORDER_WAV};
constexpr size_t kChannelOrderSize = size(kChannelOrder);
constexpr int32_t kSignalingModes[] = {-1, 0, 1, 2, 3};
constexpr size_t kSignalingModesSize = size(kGranuleLengths);
constexpr int32_t kAudioMuxVer[] = {-1, 0, 1, 2};
constexpr size_t kAudioMuxVerSize = size(kAudioMuxVer);
constexpr int32_t kSbrModes[] = {-1, 0, 1, 2};
constexpr size_t kSbrModesSize = size(kSbrModes);
constexpr AACENC_METADATA_DRC_PROFILE kMetaDataDrcProfiles[] = {
AACENC_METADATA_DRC_NONE, AACENC_METADATA_DRC_FILMSTANDARD,
AACENC_METADATA_DRC_FILMLIGHT, AACENC_METADATA_DRC_MUSICSTANDARD,
AACENC_METADATA_DRC_MUSICLIGHT, AACENC_METADATA_DRC_SPEECH,
AACENC_METADATA_DRC_NOT_PRESENT};
constexpr size_t kMetaDataDrcProfilesSize = size(kMetaDataDrcProfiles);
enum {
IDX_SBR_MODE = 0,
IDX_AAC_AOT,
IDX_SAMPLE_RATE,
IDX_BIT_RATE_1,
IDX_BIT_RATE_2,
IDX_BIT_RATE_3,
IDX_CHANNEL,
IDX_IDENTIFIER,
IDX_SBR_RATIO,
IDX_METADATA_DRC_PROFILE,
IDX_METADATA_COMP_PROFILE,
IDX_METADATA_DRC_TARGET_REF_LEVEL,
IDX_METADATA_COMP_TARGET_REF_LEVEL,
IDX_METADATA_PROG_LEVEL_PRESENT,
IDX_METADATA_PROG_LEVEL,
IDX_METADATA_PCE_MIXDOWN_IDX_PRESENT,
IDX_METADATA_ETSI_DMXLVL_PRESENT,
IDX_METADATA_CENTER_MIX_LEVEL,
IDX_METADATA_SURROUND_MIX_LEVEL,
IDX_METADATA_DOLBY_SURROUND_MODE,
IDX_METADATA_DRC_PRESENTATION_MODE,
IDX_METADATA_EXT_ANC_DATA_ENABLE,
IDX_METADATA_EXT_DOWNMIX_LEVEL_ENABLE,
IDX_METADATA_EXT_DOWNMIX_LEVEL_A,
IDX_METADATA_EXT_DOWNMIX_LEVEL_B,
IDX_METADATA_DMX_GAIN_ENABLE,
IDX_METADATA_DMX_GAIN_5,
IDX_METADATA_DMX_GAIN_2,
IDX_METADATA_LFE_DMX_ENABLE,
IDX_METADATA_LFE_DMX_LEVEL,
IDX_IN_BUFFER_INDEX_1,
IDX_IN_BUFFER_INDEX_2,
IDX_IN_BUFFER_INDEX_3,
IDX_BIT_RATE_MODE,
IDX_GRANULE_LENGTH,
IDX_CHANNELORDER,
IDX_AFTERBURNER,
IDX_BANDWIDTH,
IDX_PEAK_BITRATE,
IDX_HEADER_PERIOD,
IDX_SIGNALING_MODE,
IDX_TPSUBFRAMES,
IDX_AUDIOMUXVER,
IDX_PROTECTION,
IDX_ANCILLARY_BITRATE,
IDX_METADATA_MODE,
IDX_LAST
};
template <typename type1, typename type2, typename type3>
auto generateNumberInRangeFromData(type1 data, type2 min, type3 max) -> decltype(max) {
return (data % (1 + max - min)) + min;
}
class Codec {
public:
~Codec() { deInitEncoder(); }
bool initEncoder(uint8_t **dataPtr, size_t *sizePtr);
void encodeFrames(const uint8_t *data, size_t size);
void deInitEncoder();
private:
template <typename type1, typename type2, typename type3>
void setAACParam(type1 data, const AACENC_PARAM aacParam, type2 min, type2 max,
const type3 *array = nullptr);
void setupMetaData(uint8_t *data);
HANDLE_AACENCODER mEncoder = nullptr;
AACENC_MetaData mMetaData = {};
uint32_t mInBufferIdx_1 = 0;
uint32_t mInBufferIdx_2 = 0;
uint32_t mInBufferIdx_3 = 0;
};
void Codec::setupMetaData(uint8_t *data) {
uint32_t drcProfileIndex = generateNumberInRangeFromData(data[IDX_METADATA_DRC_PROFILE], 0,
kMetaDataDrcProfilesSize - 1);
AACENC_METADATA_DRC_PROFILE drcProfile = kMetaDataDrcProfiles[drcProfileIndex];
mMetaData.drc_profile = drcProfile;
uint32_t compProfileIndex = generateNumberInRangeFromData(data[IDX_METADATA_COMP_PROFILE], 0,
kMetaDataDrcProfilesSize - 1);
AACENC_METADATA_DRC_PROFILE compProfile = kMetaDataDrcProfiles[compProfileIndex];
mMetaData.comp_profile = compProfile;
INT drcTargetRefLevel =
generateNumberInRangeFromData(data[IDX_METADATA_DRC_TARGET_REF_LEVEL], 0, UINT8_MAX);
mMetaData.drc_TargetRefLevel = drcTargetRefLevel;
INT compTargetRefLevel =
generateNumberInRangeFromData(data[IDX_METADATA_COMP_TARGET_REF_LEVEL], 0, UINT8_MAX);
mMetaData.comp_TargetRefLevel = compTargetRefLevel;
INT isProgRefLevelPresent =
generateNumberInRangeFromData(data[IDX_METADATA_PROG_LEVEL_PRESENT], 0, 1);
mMetaData.prog_ref_level_present = isProgRefLevelPresent;
INT progRefLevel = generateNumberInRangeFromData(data[IDX_METADATA_PROG_LEVEL], 0, UINT8_MAX);
mMetaData.prog_ref_level = progRefLevel;
UCHAR isPCEMixdownIdxPresent =
generateNumberInRangeFromData(data[IDX_METADATA_PCE_MIXDOWN_IDX_PRESENT], 0, 1);
mMetaData.PCE_mixdown_idx_present = isPCEMixdownIdxPresent;
UCHAR isETSIDmxLvlPresent =
generateNumberInRangeFromData(data[IDX_METADATA_ETSI_DMXLVL_PRESENT], 0, 1);
mMetaData.ETSI_DmxLvl_present = isETSIDmxLvlPresent;
SCHAR centerMixLevel = generateNumberInRangeFromData(data[IDX_METADATA_CENTER_MIX_LEVEL], 0, 7);
mMetaData.centerMixLevel = centerMixLevel;
SCHAR surroundMixLevel =
generateNumberInRangeFromData(data[IDX_METADATA_SURROUND_MIX_LEVEL], 0, 7);
mMetaData.surroundMixLevel = surroundMixLevel;
UCHAR dolbySurroundMode =
generateNumberInRangeFromData(data[IDX_METADATA_DOLBY_SURROUND_MODE], 0, 2);
mMetaData.dolbySurroundMode = dolbySurroundMode;
UCHAR drcPresentationMode =
generateNumberInRangeFromData(data[IDX_METADATA_DRC_PRESENTATION_MODE], 0, 2);
mMetaData.drcPresentationMode = drcPresentationMode;
UCHAR extAncDataEnable =
generateNumberInRangeFromData(data[IDX_METADATA_EXT_ANC_DATA_ENABLE], 0, 1);
mMetaData.ExtMetaData.extAncDataEnable = extAncDataEnable;
UCHAR extDownmixLevelEnable =
generateNumberInRangeFromData(data[IDX_METADATA_EXT_DOWNMIX_LEVEL_ENABLE], 0, 1);
mMetaData.ExtMetaData.extDownmixLevelEnable = extDownmixLevelEnable;
UCHAR extDownmixLevel_A =
generateNumberInRangeFromData(data[IDX_METADATA_EXT_DOWNMIX_LEVEL_A], 0, 7);
mMetaData.ExtMetaData.extDownmixLevel_A = extDownmixLevel_A;
UCHAR extDownmixLevel_B =
generateNumberInRangeFromData(data[IDX_METADATA_EXT_DOWNMIX_LEVEL_B], 0, 7);
mMetaData.ExtMetaData.extDownmixLevel_B = extDownmixLevel_B;
UCHAR dmxGainEnable = generateNumberInRangeFromData(data[IDX_METADATA_DMX_GAIN_ENABLE], 0, 1);
mMetaData.ExtMetaData.dmxGainEnable = dmxGainEnable;
INT dmxGain5 = generateNumberInRangeFromData(data[IDX_METADATA_DMX_GAIN_5], 0, UINT8_MAX);
mMetaData.ExtMetaData.dmxGain5 = dmxGain5;
INT dmxGain2 = generateNumberInRangeFromData(data[IDX_METADATA_DMX_GAIN_2], 0, UINT8_MAX);
mMetaData.ExtMetaData.dmxGain2 = dmxGain2;
UCHAR lfeDmxEnable = generateNumberInRangeFromData(data[IDX_METADATA_LFE_DMX_ENABLE], 0, 1);
mMetaData.ExtMetaData.lfeDmxEnable = lfeDmxEnable;
UCHAR lfeDmxLevel = generateNumberInRangeFromData(data[IDX_METADATA_LFE_DMX_LEVEL], 0, 15);
mMetaData.ExtMetaData.lfeDmxLevel = lfeDmxLevel;
}
template <typename type1, typename type2, typename type3>
void Codec::setAACParam(type1 data, const AACENC_PARAM aacParam, type2 min, type2 max,
const type3 *array) {
auto value = 0;
if (array) {
uint32_t index = generateNumberInRangeFromData(data, min, max);
value = array[index];
} else {
value = generateNumberInRangeFromData(data, min, max);
}
aacEncoder_SetParam(mEncoder, aacParam, value);
(void)aacEncoder_GetParam(mEncoder, aacParam);
}
bool Codec::initEncoder(uint8_t **dataPtr, size_t *sizePtr) {
uint8_t *data = *dataPtr;
if (AACENC_OK != aacEncOpen(&mEncoder, 0, 0)) {
return false;
}
setAACParam<uint8_t, size_t, int32_t>(data[IDX_SBR_MODE], AACENC_SBR_MODE, 0, kSbrModesSize - 1,
kSbrModes);
setAACParam<uint8_t, size_t, int32_t>(data[IDX_SBR_RATIO], AACENC_SBR_RATIO, 0,
kSbrRatiosSize - 1, kSbrRatios);
setAACParam<uint8_t, size_t, AUDIO_OBJECT_TYPE>(data[IDX_AAC_AOT], AACENC_AOT, 0,
kAudioObjectTypesSize - 1, kAudioObjectTypes);
setAACParam<uint8_t, size_t, int32_t>(data[IDX_SAMPLE_RATE], AACENC_SAMPLERATE, 0,
kSampleRatesSize - 1, kSampleRates);
uint32_t tempValue =
(data[IDX_BIT_RATE_1] << 16) | (data[IDX_BIT_RATE_2] << 8) | data[IDX_BIT_RATE_3];
setAACParam<uint8_t, uint32_t, uint32_t>(tempValue, AACENC_BITRATE, kMinBitRate, kMaxBitRate);
setAACParam<uint8_t, size_t, CHANNEL_MODE>(data[IDX_CHANNEL], AACENC_CHANNELMODE, 0,
kChannelModesSize - 1, kChannelModes);
setAACParam<uint8_t, size_t, TRANSPORT_TYPE>(data[IDX_IDENTIFIER], AACENC_TRANSMUX, 0,
kIdentifiersSize - 1, kIdentifiers);
setAACParam<uint8_t, size_t, int32_t>(data[IDX_BIT_RATE_MODE], AACENC_BITRATEMODE, 0,
kBitRateModesSize - 1, kBitRateModes);
setAACParam<uint8_t, size_t, int32_t>(data[IDX_GRANULE_LENGTH], AACENC_GRANULE_LENGTH, 0,
kGranuleLengthsSize - 1, kGranuleLengths);
setAACParam<uint8_t, size_t, int32_t>(data[IDX_CHANNELORDER], AACENC_CHANNELORDER, 0,
kChannelOrderSize - 1, kChannelOrder);
setAACParam<uint8_t, int32_t, int32_t>(data[IDX_AFTERBURNER], AACENC_AFTERBURNER, 0, 1);
setAACParam<uint8_t, int32_t, int32_t>(data[IDX_BANDWIDTH], AACENC_BANDWIDTH, 0, 1);
setAACParam<uint8_t, uint32_t, uint32_t>(data[IDX_PEAK_BITRATE], AACENC_PEAK_BITRATE,
kMinBitRate, kMinBitRate);
setAACParam<uint8_t, uint32_t, uint32_t>(data[IDX_HEADER_PERIOD], AACENC_HEADER_PERIOD, 0,
UINT8_MAX);
setAACParam<uint8_t, size_t, int32_t>(data[IDX_SIGNALING_MODE], AACENC_SIGNALING_MODE, 0,
kSignalingModesSize - 1, kSignalingModes);
setAACParam<uint8_t, uint32_t, uint32_t>(data[IDX_TPSUBFRAMES], AACENC_TPSUBFRAMES, 0,
UINT8_MAX);
setAACParam<uint8_t, size_t, int32_t>(data[IDX_AUDIOMUXVER], AACENC_AUDIOMUXVER, 0,
kAudioMuxVerSize - 1, kAudioMuxVer);
setAACParam<uint8_t, uint32_t, uint32_t>(data[IDX_PROTECTION], AACENC_PROTECTION, 0, 1);
setAACParam<uint8_t, uint32_t, uint32_t>(data[IDX_ANCILLARY_BITRATE], AACENC_ANCILLARY_BITRATE,
0, kMaxBitRate);
setAACParam<uint8_t, uint32_t, uint32_t>(data[IDX_METADATA_MODE], AACENC_METADATA_MODE, 0, 3);
AACENC_InfoStruct encInfo;
aacEncInfo(mEncoder, &encInfo);
mInBufferIdx_1 = generateNumberInRangeFromData(data[IDX_IN_BUFFER_INDEX_1], 0, kMaxBuffers - 1);
mInBufferIdx_2 = generateNumberInRangeFromData(data[IDX_IN_BUFFER_INDEX_2], 0, kMaxBuffers - 1);
mInBufferIdx_3 = generateNumberInRangeFromData(data[IDX_IN_BUFFER_INDEX_3], 0, kMaxBuffers - 1);
setupMetaData(data);
// Not re-using the data which was used for configuration for encoding
*dataPtr += IDX_LAST;
*sizePtr -= IDX_LAST;
return true;
}
static void deleteBuffers(uint8_t **buffers, size_t size) {
for (size_t n = 0; n < size; ++n) {
delete[] buffers[n];
}
delete[] buffers;
}
void Codec::encodeFrames(const uint8_t *data, size_t size) {
uint8_t *audioData = (uint8_t *)data;
uint8_t *ancData = (uint8_t *)data;
size_t audioSize = size;
size_t ancSize = size;
while ((audioSize > 0) && (ancSize > 0)) {
AACENC_InArgs inargs;
memset(&inargs, 0, sizeof(inargs));
inargs.numInSamples = audioSize / sizeof(int16_t);
inargs.numAncBytes = ancSize;
void *buffers[] = {(void *)audioData, (void *)ancData, &mMetaData};
INT bufferIds[] = {IN_AUDIO_DATA, IN_ANCILLRY_DATA, IN_METADATA_SETUP};
INT bufferSizes[] = {static_cast<INT>(audioSize), static_cast<INT>(ancSize),
static_cast<INT>(sizeof(mMetaData))};
INT bufferElSizes[] = {sizeof(int16_t), sizeof(UCHAR), sizeof(AACENC_MetaData)};
void *inBuffer[kMaxBuffers] = {};
INT inBufferIds[kMaxBuffers] = {};
INT inBufferSize[kMaxBuffers] = {};
INT inBufferElSize[kMaxBuffers] = {};
for (int32_t buffer = 0; buffer < kMaxBuffers; ++buffer) {
uint32_t Idxs[] = {mInBufferIdx_1, mInBufferIdx_2, mInBufferIdx_3};
inBuffer[buffer] = buffers[Idxs[buffer]];
inBufferIds[buffer] = bufferIds[Idxs[buffer]];
inBufferSize[buffer] = bufferSizes[Idxs[buffer]];
inBufferElSize[buffer] = bufferElSizes[Idxs[buffer]];
}
AACENC_BufDesc inBufDesc;
inBufDesc.numBufs = kMaxBuffers;
inBufDesc.bufs = (void **)&inBuffer;
inBufDesc.bufferIdentifiers = inBufferIds;
inBufDesc.bufSizes = inBufferSize;
inBufDesc.bufElSizes = inBufferElSize;
uint8_t **outPtrRef = new uint8_t *[kMaxBuffers];
for (int32_t buffer = 0; buffer < kMaxBuffers; ++buffer) {
outPtrRef[buffer] = new uint8_t[kMaxOutputBufferSize];
}
void *outBuffer[kMaxBuffers];
INT outBufferIds[kMaxBuffers];
INT outBufferSize[kMaxBuffers];
INT outBufferElSize[kMaxBuffers];
for (int32_t buffer = 0; buffer < kMaxBuffers; ++buffer) {
outBuffer[buffer] = outPtrRef[buffer];
outBufferIds[buffer] = OUT_BITSTREAM_DATA;
outBufferSize[buffer] = (INT)kMaxOutputBufferSize;
outBufferElSize[buffer] = sizeof(UCHAR);
}
AACENC_BufDesc outBufDesc;
outBufDesc.numBufs = kMaxBuffers;
outBufDesc.bufs = (void **)&outBuffer;
outBufDesc.bufferIdentifiers = outBufferIds;
outBufDesc.bufSizes = outBufferSize;
outBufDesc.bufElSizes = outBufferElSize;
AACENC_OutArgs outargs = {};
aacEncEncode(mEncoder, &inBufDesc, &outBufDesc, &inargs, &outargs);
if (outargs.numOutBytes == 0) {
if (audioSize > 0) {
++audioData;
--audioSize;
}
if (ancSize > 0) {
++ancData;
--ancSize;
}
} else {
size_t audioConsumed = outargs.numInSamples * sizeof(int16_t);
audioData += audioConsumed;
audioSize -= audioConsumed;
size_t ancConsumed = outargs.numAncBytes;
ancData += ancConsumed;
ancSize -= ancConsumed;
}
deleteBuffers(outPtrRef, kMaxBuffers);
// break out of loop if only metadata was sent in all the input buffers
// as sending it multiple times in a loop is redundant.
if ((mInBufferIdx_1 == kMaxBuffers - 1) && (mInBufferIdx_2 == kMaxBuffers - 1) &&
(mInBufferIdx_3 == kMaxBuffers - 1)) {
break;
}
}
}
void Codec::deInitEncoder() { aacEncClose(&mEncoder); }
extern "C" int LLVMFuzzerTestOneInput(const uint8_t *data, size_t size) {
if (size < IDX_LAST) {
return 0;
}
Codec encoder;
if (encoder.initEncoder(const_cast<uint8_t **>(&data), &size)) {
encoder.encodeFrames(data, size);
}
return 0;
}