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/*
* Copyright (C) 2018 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_NDEBUG 0
#define LOG_TAG "C2SoftHevcDec"
#include <log/log.h>
#include <media/stagefright/foundation/MediaDefs.h>
#include <C2Debug.h>
#include <C2PlatformSupport.h>
#include <Codec2Mapper.h>
#include <SimpleC2Interface.h>
#include "C2SoftHevcDec.h"
namespace android {
namespace {
constexpr char COMPONENT_NAME[] = "c2.android.hevc.decoder";
constexpr uint32_t kDefaultOutputDelay = 8;
constexpr uint32_t kMaxOutputDelay = 16;
} // namespace
class C2SoftHevcDec::IntfImpl : public SimpleInterface<void>::BaseParams {
public:
explicit IntfImpl(const std::shared_ptr<C2ReflectorHelper> &helper)
: SimpleInterface<void>::BaseParams(
helper,
COMPONENT_NAME,
C2Component::KIND_DECODER,
C2Component::DOMAIN_VIDEO,
MEDIA_MIMETYPE_VIDEO_HEVC) {
noPrivateBuffers(); // TODO: account for our buffers here
noInputReferences();
noOutputReferences();
noInputLatency();
noTimeStretch();
// TODO: Proper support for reorder depth.
addParameter(
DefineParam(mActualOutputDelay, C2_PARAMKEY_OUTPUT_DELAY)
.withDefault(new C2PortActualDelayTuning::output(kDefaultOutputDelay))
.withFields({C2F(mActualOutputDelay, value).inRange(0, kMaxOutputDelay)})
.withSetter(Setter<decltype(*mActualOutputDelay)>::StrictValueWithNoDeps)
.build());
addParameter(
DefineParam(mAttrib, C2_PARAMKEY_COMPONENT_ATTRIBUTES)
.withConstValue(new C2ComponentAttributesSetting(C2Component::ATTRIB_IS_TEMPORAL))
.build());
addParameter(
DefineParam(mSize, C2_PARAMKEY_PICTURE_SIZE)
.withDefault(new C2StreamPictureSizeInfo::output(0u, 320, 240))
.withFields({
C2F(mSize, width).inRange(2, 4096, 2),
C2F(mSize, height).inRange(2, 4096, 2),
})
.withSetter(SizeSetter)
.build());
addParameter(
DefineParam(mProfileLevel, C2_PARAMKEY_PROFILE_LEVEL)
.withDefault(new C2StreamProfileLevelInfo::input(0u,
C2Config::PROFILE_HEVC_MAIN, C2Config::LEVEL_HEVC_MAIN_5_1))
.withFields({
C2F(mProfileLevel, profile).oneOf({
C2Config::PROFILE_HEVC_MAIN,
C2Config::PROFILE_HEVC_MAIN_STILL}),
C2F(mProfileLevel, level).oneOf({
C2Config::LEVEL_HEVC_MAIN_1,
C2Config::LEVEL_HEVC_MAIN_2, C2Config::LEVEL_HEVC_MAIN_2_1,
C2Config::LEVEL_HEVC_MAIN_3, C2Config::LEVEL_HEVC_MAIN_3_1,
C2Config::LEVEL_HEVC_MAIN_4, C2Config::LEVEL_HEVC_MAIN_4_1,
C2Config::LEVEL_HEVC_MAIN_5, C2Config::LEVEL_HEVC_MAIN_5_1,
C2Config::LEVEL_HEVC_MAIN_5_2, C2Config::LEVEL_HEVC_HIGH_4,
C2Config::LEVEL_HEVC_HIGH_4_1, C2Config::LEVEL_HEVC_HIGH_5,
C2Config::LEVEL_HEVC_HIGH_5_1, C2Config::LEVEL_HEVC_HIGH_5_2
})
})
.withSetter(ProfileLevelSetter, mSize)
.build());
addParameter(
DefineParam(mMaxSize, C2_PARAMKEY_MAX_PICTURE_SIZE)
.withDefault(new C2StreamMaxPictureSizeTuning::output(0u, 320, 240))
.withFields({
C2F(mSize, width).inRange(2, 4096, 2),
C2F(mSize, height).inRange(2, 4096, 2),
})
.withSetter(MaxPictureSizeSetter, mSize)
.build());
addParameter(
DefineParam(mMaxInputSize, C2_PARAMKEY_INPUT_MAX_BUFFER_SIZE)
.withDefault(new C2StreamMaxBufferSizeInfo::input(0u, 320 * 240 * 3 / 4))
.withFields({
C2F(mMaxInputSize, value).any(),
})
.calculatedAs(MaxInputSizeSetter, mMaxSize)
.build());
C2ChromaOffsetStruct locations[1] = { C2ChromaOffsetStruct::ITU_YUV_420_0() };
std::shared_ptr<C2StreamColorInfo::output> defaultColorInfo =
C2StreamColorInfo::output::AllocShared(
1u, 0u, 8u /* bitDepth */, C2Color::YUV_420);
memcpy(defaultColorInfo->m.locations, locations, sizeof(locations));
defaultColorInfo = C2StreamColorInfo::output::AllocShared(
{C2ChromaOffsetStruct::ITU_YUV_420_0()}, 0u, 8u /* bitDepth */,
C2Color::YUV_420);
helper->addStructDescriptors<C2ChromaOffsetStruct>();
addParameter(
DefineParam(mColorInfo, C2_PARAMKEY_CODED_COLOR_INFO)
.withConstValue(defaultColorInfo)
.build());
addParameter(
DefineParam(mDefaultColorAspects, C2_PARAMKEY_DEFAULT_COLOR_ASPECTS)
.withDefault(new C2StreamColorAspectsTuning::output(
0u, C2Color::RANGE_UNSPECIFIED, C2Color::PRIMARIES_UNSPECIFIED,
C2Color::TRANSFER_UNSPECIFIED, C2Color::MATRIX_UNSPECIFIED))
.withFields({
C2F(mDefaultColorAspects, range).inRange(
C2Color::RANGE_UNSPECIFIED, C2Color::RANGE_OTHER),
C2F(mDefaultColorAspects, primaries).inRange(
C2Color::PRIMARIES_UNSPECIFIED, C2Color::PRIMARIES_OTHER),
C2F(mDefaultColorAspects, transfer).inRange(
C2Color::TRANSFER_UNSPECIFIED, C2Color::TRANSFER_OTHER),
C2F(mDefaultColorAspects, matrix).inRange(
C2Color::MATRIX_UNSPECIFIED, C2Color::MATRIX_OTHER)
})
.withSetter(DefaultColorAspectsSetter)
.build());
addParameter(
DefineParam(mCodedColorAspects, C2_PARAMKEY_VUI_COLOR_ASPECTS)
.withDefault(new C2StreamColorAspectsInfo::input(
0u, C2Color::RANGE_LIMITED, C2Color::PRIMARIES_UNSPECIFIED,
C2Color::TRANSFER_UNSPECIFIED, C2Color::MATRIX_UNSPECIFIED))
.withFields({
C2F(mCodedColorAspects, range).inRange(
C2Color::RANGE_UNSPECIFIED, C2Color::RANGE_OTHER),
C2F(mCodedColorAspects, primaries).inRange(
C2Color::PRIMARIES_UNSPECIFIED, C2Color::PRIMARIES_OTHER),
C2F(mCodedColorAspects, transfer).inRange(
C2Color::TRANSFER_UNSPECIFIED, C2Color::TRANSFER_OTHER),
C2F(mCodedColorAspects, matrix).inRange(
C2Color::MATRIX_UNSPECIFIED, C2Color::MATRIX_OTHER)
})
.withSetter(CodedColorAspectsSetter)
.build());
addParameter(
DefineParam(mColorAspects, C2_PARAMKEY_COLOR_ASPECTS)
.withDefault(new C2StreamColorAspectsInfo::output(
0u, C2Color::RANGE_UNSPECIFIED, C2Color::PRIMARIES_UNSPECIFIED,
C2Color::TRANSFER_UNSPECIFIED, C2Color::MATRIX_UNSPECIFIED))
.withFields({
C2F(mColorAspects, range).inRange(
C2Color::RANGE_UNSPECIFIED, C2Color::RANGE_OTHER),
C2F(mColorAspects, primaries).inRange(
C2Color::PRIMARIES_UNSPECIFIED, C2Color::PRIMARIES_OTHER),
C2F(mColorAspects, transfer).inRange(
C2Color::TRANSFER_UNSPECIFIED, C2Color::TRANSFER_OTHER),
C2F(mColorAspects, matrix).inRange(
C2Color::MATRIX_UNSPECIFIED, C2Color::MATRIX_OTHER)
})
.withSetter(ColorAspectsSetter, mDefaultColorAspects, mCodedColorAspects)
.build());
// TODO: support more formats?
addParameter(
DefineParam(mPixelFormat, C2_PARAMKEY_PIXEL_FORMAT)
.withConstValue(new C2StreamPixelFormatInfo::output(
0u, HAL_PIXEL_FORMAT_YCBCR_420_888))
.build());
}
static C2R SizeSetter(bool mayBlock, const C2P<C2StreamPictureSizeInfo::output> &oldMe,
C2P<C2StreamPictureSizeInfo::output> &me) {
(void)mayBlock;
C2R res = C2R::Ok();
if (!me.F(me.v.width).supportsAtAll(me.v.width)) {
res = res.plus(C2SettingResultBuilder::BadValue(me.F(me.v.width)));
me.set().width = oldMe.v.width;
}
if (!me.F(me.v.height).supportsAtAll(me.v.height)) {
res = res.plus(C2SettingResultBuilder::BadValue(me.F(me.v.height)));
me.set().height = oldMe.v.height;
}
return res;
}
static C2R MaxPictureSizeSetter(bool mayBlock, C2P<C2StreamMaxPictureSizeTuning::output> &me,
const C2P<C2StreamPictureSizeInfo::output> &size) {
(void)mayBlock;
// TODO: get max width/height from the size's field helpers vs. hardcoding
me.set().width = c2_min(c2_max(me.v.width, size.v.width), 4096u);
me.set().height = c2_min(c2_max(me.v.height, size.v.height), 4096u);
return C2R::Ok();
}
static C2R MaxInputSizeSetter(bool mayBlock, C2P<C2StreamMaxBufferSizeInfo::input> &me,
const C2P<C2StreamMaxPictureSizeTuning::output> &maxSize) {
(void)mayBlock;
// assume compression ratio of 2
me.set().value = (((maxSize.v.width + 63) / 64) * ((maxSize.v.height + 63) / 64) * 3072);
return C2R::Ok();
}
static C2R ProfileLevelSetter(bool mayBlock, C2P<C2StreamProfileLevelInfo::input> &me,
const C2P<C2StreamPictureSizeInfo::output> &size) {
(void)mayBlock;
(void)size;
(void)me; // TODO: validate
return C2R::Ok();
}
static C2R DefaultColorAspectsSetter(bool mayBlock, C2P<C2StreamColorAspectsTuning::output> &me) {
(void)mayBlock;
if (me.v.range > C2Color::RANGE_OTHER) {
me.set().range = C2Color::RANGE_OTHER;
}
if (me.v.primaries > C2Color::PRIMARIES_OTHER) {
me.set().primaries = C2Color::PRIMARIES_OTHER;
}
if (me.v.transfer > C2Color::TRANSFER_OTHER) {
me.set().transfer = C2Color::TRANSFER_OTHER;
}
if (me.v.matrix > C2Color::MATRIX_OTHER) {
me.set().matrix = C2Color::MATRIX_OTHER;
}
return C2R::Ok();
}
static C2R CodedColorAspectsSetter(bool mayBlock, C2P<C2StreamColorAspectsInfo::input> &me) {
(void)mayBlock;
if (me.v.range > C2Color::RANGE_OTHER) {
me.set().range = C2Color::RANGE_OTHER;
}
if (me.v.primaries > C2Color::PRIMARIES_OTHER) {
me.set().primaries = C2Color::PRIMARIES_OTHER;
}
if (me.v.transfer > C2Color::TRANSFER_OTHER) {
me.set().transfer = C2Color::TRANSFER_OTHER;
}
if (me.v.matrix > C2Color::MATRIX_OTHER) {
me.set().matrix = C2Color::MATRIX_OTHER;
}
return C2R::Ok();
}
static C2R ColorAspectsSetter(bool mayBlock, C2P<C2StreamColorAspectsInfo::output> &me,
const C2P<C2StreamColorAspectsTuning::output> &def,
const C2P<C2StreamColorAspectsInfo::input> &coded) {
(void)mayBlock;
// take default values for all unspecified fields, and coded values for specified ones
me.set().range = coded.v.range == RANGE_UNSPECIFIED ? def.v.range : coded.v.range;
me.set().primaries = coded.v.primaries == PRIMARIES_UNSPECIFIED
? def.v.primaries : coded.v.primaries;
me.set().transfer = coded.v.transfer == TRANSFER_UNSPECIFIED
? def.v.transfer : coded.v.transfer;
me.set().matrix = coded.v.matrix == MATRIX_UNSPECIFIED ? def.v.matrix : coded.v.matrix;
return C2R::Ok();
}
std::shared_ptr<C2StreamColorAspectsInfo::output> getColorAspects_l() {
return mColorAspects;
}
private:
std::shared_ptr<C2StreamProfileLevelInfo::input> mProfileLevel;
std::shared_ptr<C2StreamPictureSizeInfo::output> mSize;
std::shared_ptr<C2StreamMaxPictureSizeTuning::output> mMaxSize;
std::shared_ptr<C2StreamMaxBufferSizeInfo::input> mMaxInputSize;
std::shared_ptr<C2StreamColorInfo::output> mColorInfo;
std::shared_ptr<C2StreamColorAspectsInfo::input> mCodedColorAspects;
std::shared_ptr<C2StreamColorAspectsTuning::output> mDefaultColorAspects;
std::shared_ptr<C2StreamColorAspectsInfo::output> mColorAspects;
std::shared_ptr<C2StreamPixelFormatInfo::output> mPixelFormat;
};
static size_t getCpuCoreCount() {
long cpuCoreCount = 1;
#if defined(_SC_NPROCESSORS_ONLN)
cpuCoreCount = sysconf(_SC_NPROCESSORS_ONLN);
#else
// _SC_NPROC_ONLN must be defined...
cpuCoreCount = sysconf(_SC_NPROC_ONLN);
#endif
CHECK(cpuCoreCount >= 1);
ALOGV("Number of CPU cores: %ld", cpuCoreCount);
return (size_t)cpuCoreCount;
}
static void *ivd_aligned_malloc(void *ctxt, WORD32 alignment, WORD32 size) {
(void) ctxt;
return memalign(alignment, size);
}
static void ivd_aligned_free(void *ctxt, void *mem) {
(void) ctxt;
free(mem);
}
C2SoftHevcDec::C2SoftHevcDec(
const char *name,
c2_node_id_t id,
const std::shared_ptr<IntfImpl> &intfImpl)
: SimpleC2Component(std::make_shared<SimpleInterface<IntfImpl>>(name, id, intfImpl)),
mIntf(intfImpl),
mDecHandle(nullptr),
mOutBufferFlush(nullptr),
mIvColorformat(IV_YUV_420P),
mOutputDelay(kDefaultOutputDelay),
mWidth(320),
mHeight(240),
mHeaderDecoded(false),
mOutIndex(0u) {
}
C2SoftHevcDec::~C2SoftHevcDec() {
onRelease();
}
c2_status_t C2SoftHevcDec::onInit() {
status_t err = initDecoder();
return err == OK ? C2_OK : C2_CORRUPTED;
}
c2_status_t C2SoftHevcDec::onStop() {
if (OK != resetDecoder()) return C2_CORRUPTED;
resetPlugin();
return C2_OK;
}
void C2SoftHevcDec::onReset() {
(void) onStop();
}
void C2SoftHevcDec::onRelease() {
(void) deleteDecoder();
if (mOutBufferFlush) {
ivd_aligned_free(nullptr, mOutBufferFlush);
mOutBufferFlush = nullptr;
}
if (mOutBlock) {
mOutBlock.reset();
}
}
c2_status_t C2SoftHevcDec::onFlush_sm() {
if (OK != setFlushMode()) return C2_CORRUPTED;
uint32_t displayStride = mStride;
uint32_t displayHeight = mHeight;
uint32_t bufferSize = displayStride * displayHeight * 3 / 2;
mOutBufferFlush = (uint8_t *)ivd_aligned_malloc(nullptr, 128, bufferSize);
if (!mOutBufferFlush) {
ALOGE("could not allocate tmp output buffer (for flush) of size %u ", bufferSize);
return C2_NO_MEMORY;
}
while (true) {
ihevcd_cxa_video_decode_ip_t s_hevcd_decode_ip = {};
ihevcd_cxa_video_decode_op_t s_hevcd_decode_op = {};
ivd_video_decode_ip_t *ps_decode_ip = &s_hevcd_decode_ip.s_ivd_video_decode_ip_t;
ivd_video_decode_op_t *ps_decode_op = &s_hevcd_decode_op.s_ivd_video_decode_op_t;
setDecodeArgs(ps_decode_ip, ps_decode_op, nullptr, nullptr, 0, 0, 0);
(void) ivdec_api_function(mDecHandle, ps_decode_ip, ps_decode_op);
if (0 == ps_decode_op->u4_output_present) {
resetPlugin();
break;
}
}
if (mOutBufferFlush) {
ivd_aligned_free(nullptr, mOutBufferFlush);
mOutBufferFlush = nullptr;
}
return C2_OK;
}
status_t C2SoftHevcDec::createDecoder() {
ivdext_create_ip_t s_create_ip = {};
ivdext_create_op_t s_create_op = {};
s_create_ip.s_ivd_create_ip_t.u4_size = sizeof(ivdext_create_ip_t);
s_create_ip.s_ivd_create_ip_t.e_cmd = IVD_CMD_CREATE;
s_create_ip.s_ivd_create_ip_t.u4_share_disp_buf = 0;
s_create_ip.s_ivd_create_ip_t.e_output_format = mIvColorformat;
s_create_ip.s_ivd_create_ip_t.pf_aligned_alloc = ivd_aligned_malloc;
s_create_ip.s_ivd_create_ip_t.pf_aligned_free = ivd_aligned_free;
s_create_ip.s_ivd_create_ip_t.pv_mem_ctxt = nullptr;
s_create_op.s_ivd_create_op_t.u4_size = sizeof(ivdext_create_op_t);
IV_API_CALL_STATUS_T status = ivdec_api_function(mDecHandle,
&s_create_ip,
&s_create_op);
if (status != IV_SUCCESS) {
ALOGE("error in %s: 0x%x", __func__,
s_create_op.s_ivd_create_op_t.u4_error_code);
return UNKNOWN_ERROR;
}
mDecHandle = (iv_obj_t*)s_create_op.s_ivd_create_op_t.pv_handle;
mDecHandle->pv_fxns = (void *)ivdec_api_function;
mDecHandle->u4_size = sizeof(iv_obj_t);
return OK;
}
status_t C2SoftHevcDec::setNumCores() {
ivdext_ctl_set_num_cores_ip_t s_set_num_cores_ip = {};
ivdext_ctl_set_num_cores_op_t s_set_num_cores_op = {};
s_set_num_cores_ip.u4_size = sizeof(ivdext_ctl_set_num_cores_ip_t);
s_set_num_cores_ip.e_cmd = IVD_CMD_VIDEO_CTL;
s_set_num_cores_ip.e_sub_cmd = IVDEXT_CMD_CTL_SET_NUM_CORES;
s_set_num_cores_ip.u4_num_cores = mNumCores;
s_set_num_cores_op.u4_size = sizeof(ivdext_ctl_set_num_cores_op_t);
IV_API_CALL_STATUS_T status = ivdec_api_function(mDecHandle,
&s_set_num_cores_ip,
&s_set_num_cores_op);
if (IV_SUCCESS != status) {
ALOGD("error in %s: 0x%x", __func__, s_set_num_cores_op.u4_error_code);
return UNKNOWN_ERROR;
}
return OK;
}
status_t C2SoftHevcDec::setParams(size_t stride, IVD_VIDEO_DECODE_MODE_T dec_mode) {
ihevcd_cxa_ctl_set_config_ip_t s_hevcd_set_dyn_params_ip = {};
ihevcd_cxa_ctl_set_config_op_t s_hevcd_set_dyn_params_op = {};
ivd_ctl_set_config_ip_t *ps_set_dyn_params_ip =
&s_hevcd_set_dyn_params_ip.s_ivd_ctl_set_config_ip_t;
ivd_ctl_set_config_op_t *ps_set_dyn_params_op =
&s_hevcd_set_dyn_params_op.s_ivd_ctl_set_config_op_t;
ps_set_dyn_params_ip->u4_size = sizeof(ihevcd_cxa_ctl_set_config_ip_t);
ps_set_dyn_params_ip->e_cmd = IVD_CMD_VIDEO_CTL;
ps_set_dyn_params_ip->e_sub_cmd = IVD_CMD_CTL_SETPARAMS;
ps_set_dyn_params_ip->u4_disp_wd = (UWORD32) stride;
ps_set_dyn_params_ip->e_frm_skip_mode = IVD_SKIP_NONE;
ps_set_dyn_params_ip->e_frm_out_mode = IVD_DISPLAY_FRAME_OUT;
ps_set_dyn_params_ip->e_vid_dec_mode = dec_mode;
ps_set_dyn_params_op->u4_size = sizeof(ihevcd_cxa_ctl_set_config_op_t);
IV_API_CALL_STATUS_T status = ivdec_api_function(mDecHandle,
ps_set_dyn_params_ip,
ps_set_dyn_params_op);
if (status != IV_SUCCESS) {
ALOGE("error in %s: 0x%x", __func__, ps_set_dyn_params_op->u4_error_code);
return UNKNOWN_ERROR;
}
return OK;
}
status_t C2SoftHevcDec::getVersion() {
ivd_ctl_getversioninfo_ip_t s_get_versioninfo_ip = {};
ivd_ctl_getversioninfo_op_t s_get_versioninfo_op = {};
UWORD8 au1_buf[512];
s_get_versioninfo_ip.u4_size = sizeof(ivd_ctl_getversioninfo_ip_t);
s_get_versioninfo_ip.e_cmd = IVD_CMD_VIDEO_CTL;
s_get_versioninfo_ip.e_sub_cmd = IVD_CMD_CTL_GETVERSION;
s_get_versioninfo_ip.pv_version_buffer = au1_buf;
s_get_versioninfo_ip.u4_version_buffer_size = sizeof(au1_buf);
s_get_versioninfo_op.u4_size = sizeof(ivd_ctl_getversioninfo_op_t);
IV_API_CALL_STATUS_T status = ivdec_api_function(mDecHandle,
&s_get_versioninfo_ip,
&s_get_versioninfo_op);
if (status != IV_SUCCESS) {
ALOGD("error in %s: 0x%x", __func__,
s_get_versioninfo_op.u4_error_code);
} else {
ALOGV("ittiam decoder version number: %s",
(char *) s_get_versioninfo_ip.pv_version_buffer);
}
return OK;
}
status_t C2SoftHevcDec::initDecoder() {
if (OK != createDecoder()) return UNKNOWN_ERROR;
mNumCores = MIN(getCpuCoreCount(), MAX_NUM_CORES);
mStride = ALIGN32(mWidth);
mSignalledError = false;
resetPlugin();
(void) setNumCores();
if (OK != setParams(mStride, IVD_DECODE_FRAME)) return UNKNOWN_ERROR;
(void) getVersion();
return OK;
}
bool C2SoftHevcDec::setDecodeArgs(ivd_video_decode_ip_t *ps_decode_ip,
ivd_video_decode_op_t *ps_decode_op,
C2ReadView *inBuffer,
C2GraphicView *outBuffer,
size_t inOffset,
size_t inSize,
uint32_t tsMarker) {
uint32_t displayStride = mStride;
if (outBuffer) {
C2PlanarLayout layout;
layout = outBuffer->layout();
displayStride = layout.planes[C2PlanarLayout::PLANE_Y].rowInc;
}
uint32_t displayHeight = mHeight;
size_t lumaSize = displayStride * displayHeight;
size_t chromaSize = lumaSize >> 2;
if (mStride != displayStride) {
mStride = displayStride;
if (OK != setParams(mStride, IVD_DECODE_FRAME)) return false;
}
ps_decode_ip->u4_size = sizeof(ihevcd_cxa_video_decode_ip_t);
ps_decode_ip->e_cmd = IVD_CMD_VIDEO_DECODE;
if (inBuffer) {
ps_decode_ip->u4_ts = tsMarker;
ps_decode_ip->pv_stream_buffer = const_cast<uint8_t *>(inBuffer->data() + inOffset);
ps_decode_ip->u4_num_Bytes = inSize;
} else {
ps_decode_ip->u4_ts = 0;
ps_decode_ip->pv_stream_buffer = nullptr;
ps_decode_ip->u4_num_Bytes = 0;
}
ps_decode_ip->s_out_buffer.u4_min_out_buf_size[0] = lumaSize;
ps_decode_ip->s_out_buffer.u4_min_out_buf_size[1] = chromaSize;
ps_decode_ip->s_out_buffer.u4_min_out_buf_size[2] = chromaSize;
if (outBuffer) {
if (outBuffer->height() < displayHeight) {
ALOGE("Output buffer too small: provided (%dx%d) required (%ux%u)",
outBuffer->width(), outBuffer->height(), displayStride, displayHeight);
return false;
}
ps_decode_ip->s_out_buffer.pu1_bufs[0] = outBuffer->data()[C2PlanarLayout::PLANE_Y];
ps_decode_ip->s_out_buffer.pu1_bufs[1] = outBuffer->data()[C2PlanarLayout::PLANE_U];
ps_decode_ip->s_out_buffer.pu1_bufs[2] = outBuffer->data()[C2PlanarLayout::PLANE_V];
} else {
ps_decode_ip->s_out_buffer.pu1_bufs[0] = mOutBufferFlush;
ps_decode_ip->s_out_buffer.pu1_bufs[1] = mOutBufferFlush + lumaSize;
ps_decode_ip->s_out_buffer.pu1_bufs[2] = mOutBufferFlush + lumaSize + chromaSize;
}
ps_decode_ip->s_out_buffer.u4_num_bufs = 3;
ps_decode_op->u4_size = sizeof(ihevcd_cxa_video_decode_op_t);
ps_decode_op->u4_output_present = 0;
return true;
}
bool C2SoftHevcDec::getVuiParams() {
ivdext_ctl_get_vui_params_ip_t s_get_vui_params_ip = {};
ivdext_ctl_get_vui_params_op_t s_get_vui_params_op = {};
s_get_vui_params_ip.u4_size = sizeof(ivdext_ctl_get_vui_params_ip_t);
s_get_vui_params_ip.e_cmd = IVD_CMD_VIDEO_CTL;
s_get_vui_params_ip.e_sub_cmd =
(IVD_CONTROL_API_COMMAND_TYPE_T) IHEVCD_CXA_CMD_CTL_GET_VUI_PARAMS;
s_get_vui_params_op.u4_size = sizeof(ivdext_ctl_get_vui_params_op_t);
IV_API_CALL_STATUS_T status = ivdec_api_function(mDecHandle,
&s_get_vui_params_ip,
&s_get_vui_params_op);
if (status != IV_SUCCESS) {
ALOGD("error in %s: 0x%x", __func__, s_get_vui_params_op.u4_error_code);
return false;
}
VuiColorAspects vuiColorAspects;
vuiColorAspects.primaries = s_get_vui_params_op.u1_colour_primaries;
vuiColorAspects.transfer = s_get_vui_params_op.u1_transfer_characteristics;
vuiColorAspects.coeffs = s_get_vui_params_op.u1_matrix_coefficients;
vuiColorAspects.fullRange = s_get_vui_params_op.u1_video_full_range_flag;
// convert vui aspects to C2 values if changed
if (!(vuiColorAspects == mBitstreamColorAspects)) {
mBitstreamColorAspects = vuiColorAspects;
ColorAspects sfAspects;
C2StreamColorAspectsInfo::input codedAspects = { 0u };
ColorUtils::convertIsoColorAspectsToCodecAspects(
vuiColorAspects.primaries, vuiColorAspects.transfer, vuiColorAspects.coeffs,
vuiColorAspects.fullRange, sfAspects);
if (!C2Mapper::map(sfAspects.mPrimaries, &codedAspects.primaries)) {
codedAspects.primaries = C2Color::PRIMARIES_UNSPECIFIED;
}
if (!C2Mapper::map(sfAspects.mRange, &codedAspects.range)) {
codedAspects.range = C2Color::RANGE_UNSPECIFIED;
}
if (!C2Mapper::map(sfAspects.mMatrixCoeffs, &codedAspects.matrix)) {
codedAspects.matrix = C2Color::MATRIX_UNSPECIFIED;
}
if (!C2Mapper::map(sfAspects.mTransfer, &codedAspects.transfer)) {
codedAspects.transfer = C2Color::TRANSFER_UNSPECIFIED;
}
std::vector<std::unique_ptr<C2SettingResult>> failures;
(void)mIntf->config({&codedAspects}, C2_MAY_BLOCK, &failures);
}
return true;
}
status_t C2SoftHevcDec::setFlushMode() {
ivd_ctl_flush_ip_t s_set_flush_ip = {};
ivd_ctl_flush_op_t s_set_flush_op = {};
s_set_flush_ip.u4_size = sizeof(ivd_ctl_flush_ip_t);
s_set_flush_ip.e_cmd = IVD_CMD_VIDEO_CTL;
s_set_flush_ip.e_sub_cmd = IVD_CMD_CTL_FLUSH;
s_set_flush_op.u4_size = sizeof(ivd_ctl_flush_op_t);
IV_API_CALL_STATUS_T status = ivdec_api_function(mDecHandle,
&s_set_flush_ip,
&s_set_flush_op);
if (status != IV_SUCCESS) {
ALOGE("error in %s: 0x%x", __func__, s_set_flush_op.u4_error_code);
return UNKNOWN_ERROR;
}
return OK;
}
status_t C2SoftHevcDec::resetDecoder() {
ivd_ctl_reset_ip_t s_reset_ip = {};
ivd_ctl_reset_op_t s_reset_op = {};
s_reset_ip.u4_size = sizeof(ivd_ctl_reset_ip_t);
s_reset_ip.e_cmd = IVD_CMD_VIDEO_CTL;
s_reset_ip.e_sub_cmd = IVD_CMD_CTL_RESET;
s_reset_op.u4_size = sizeof(ivd_ctl_reset_op_t);
IV_API_CALL_STATUS_T status = ivdec_api_function(mDecHandle,
&s_reset_ip,
&s_reset_op);
if (IV_SUCCESS != status) {
ALOGE("error in %s: 0x%x", __func__, s_reset_op.u4_error_code);
return UNKNOWN_ERROR;
}
mStride = 0;
(void) setNumCores();
mSignalledError = false;
mHeaderDecoded = false;
return OK;
}
void C2SoftHevcDec::resetPlugin() {
mSignalledOutputEos = false;
gettimeofday(&mTimeStart, nullptr);
gettimeofday(&mTimeEnd, nullptr);
}
status_t C2SoftHevcDec::deleteDecoder() {
if (mDecHandle) {
ivdext_delete_ip_t s_delete_ip = {};
ivdext_delete_op_t s_delete_op = {};
s_delete_ip.s_ivd_delete_ip_t.u4_size = sizeof(ivdext_delete_ip_t);
s_delete_ip.s_ivd_delete_ip_t.e_cmd = IVD_CMD_DELETE;
s_delete_op.s_ivd_delete_op_t.u4_size = sizeof(ivdext_delete_op_t);
IV_API_CALL_STATUS_T status = ivdec_api_function(mDecHandle,
&s_delete_ip,
&s_delete_op);
if (status != IV_SUCCESS) {
ALOGE("error in %s: 0x%x", __func__,
s_delete_op.s_ivd_delete_op_t.u4_error_code);
return UNKNOWN_ERROR;
}
mDecHandle = nullptr;
}
return OK;
}
void fillEmptyWork(const std::unique_ptr<C2Work> &work) {
uint32_t flags = 0;
if (work->input.flags & C2FrameData::FLAG_END_OF_STREAM) {
flags |= C2FrameData::FLAG_END_OF_STREAM;
ALOGV("signalling eos");
}
work->worklets.front()->output.flags = (C2FrameData::flags_t)flags;
work->worklets.front()->output.buffers.clear();
work->worklets.front()->output.ordinal = work->input.ordinal;
work->workletsProcessed = 1u;
}
void C2SoftHevcDec::finishWork(uint64_t index, const std::unique_ptr<C2Work> &work) {
std::shared_ptr<C2Buffer> buffer = createGraphicBuffer(std::move(mOutBlock),
C2Rect(mWidth, mHeight));
mOutBlock = nullptr;
{
IntfImpl::Lock lock = mIntf->lock();
buffer->setInfo(mIntf->getColorAspects_l());
}
class FillWork {
public:
FillWork(uint32_t flags, C2WorkOrdinalStruct ordinal,
const std::shared_ptr<C2Buffer>& buffer)
: mFlags(flags), mOrdinal(ordinal), mBuffer(buffer) {}
~FillWork() = default;
void operator()(const std::unique_ptr<C2Work>& work) {
work->worklets.front()->output.flags = (C2FrameData::flags_t)mFlags;
work->worklets.front()->output.buffers.clear();
work->worklets.front()->output.ordinal = mOrdinal;
work->workletsProcessed = 1u;
work->result = C2_OK;
if (mBuffer) {
work->worklets.front()->output.buffers.push_back(mBuffer);
}
ALOGV("timestamp = %lld, index = %lld, w/%s buffer",
mOrdinal.timestamp.peekll(), mOrdinal.frameIndex.peekll(),
mBuffer ? "" : "o");
}
private:
const uint32_t mFlags;
const C2WorkOrdinalStruct mOrdinal;
const std::shared_ptr<C2Buffer> mBuffer;
};
auto fillWork = [buffer](const std::unique_ptr<C2Work> &work) {
work->worklets.front()->output.flags = (C2FrameData::flags_t)0;
work->worklets.front()->output.buffers.clear();
work->worklets.front()->output.buffers.push_back(buffer);
work->worklets.front()->output.ordinal = work->input.ordinal;
work->workletsProcessed = 1u;
};
if (work && c2_cntr64_t(index) == work->input.ordinal.frameIndex) {
bool eos = ((work->input.flags & C2FrameData::FLAG_END_OF_STREAM) != 0);
// TODO: Check if cloneAndSend can be avoided by tracking number of frames remaining
if (eos) {
if (buffer) {
mOutIndex = index;
C2WorkOrdinalStruct outOrdinal = work->input.ordinal;
cloneAndSend(
mOutIndex, work,
FillWork(C2FrameData::FLAG_INCOMPLETE, outOrdinal, buffer));
buffer.reset();
}
} else {
fillWork(work);
}
} else {
finish(index, fillWork);
}
}
c2_status_t C2SoftHevcDec::ensureDecoderState(const std::shared_ptr<C2BlockPool> &pool) {
if (!mDecHandle) {
ALOGE("not supposed to be here, invalid decoder context");
return C2_CORRUPTED;
}
if (mOutBlock &&
(mOutBlock->width() != ALIGN32(mWidth) || mOutBlock->height() != mHeight)) {
mOutBlock.reset();
}
if (!mOutBlock) {
uint32_t format = HAL_PIXEL_FORMAT_YV12;
C2MemoryUsage usage = { C2MemoryUsage::CPU_READ, C2MemoryUsage::CPU_WRITE };
c2_status_t err =
pool->fetchGraphicBlock(ALIGN32(mWidth), mHeight, format, usage, &mOutBlock);
if (err != C2_OK) {
ALOGE("fetchGraphicBlock for Output failed with status %d", err);
return err;
}
ALOGV("provided (%dx%d) required (%dx%d)",
mOutBlock->width(), mOutBlock->height(), ALIGN32(mWidth), mHeight);
}
return C2_OK;
}
// TODO: can overall error checking be improved?
// TODO: allow configuration of color format and usage for graphic buffers instead
// of hard coding them to HAL_PIXEL_FORMAT_YV12
// TODO: pass coloraspects information to surface
// TODO: test support for dynamic change in resolution
// TODO: verify if the decoder sent back all frames
void C2SoftHevcDec::process(
const std::unique_ptr<C2Work> &work,
const std::shared_ptr<C2BlockPool> &pool) {
// Initialize output work
work->result = C2_OK;
work->workletsProcessed = 0u;
work->worklets.front()->output.configUpdate.clear();
work->worklets.front()->output.flags = work->input.flags;
if (mSignalledError || mSignalledOutputEos) {
work->result = C2_BAD_VALUE;
return;
}
size_t inOffset = 0u;
size_t inSize = 0u;
uint32_t workIndex = work->input.ordinal.frameIndex.peeku() & 0xFFFFFFFF;
C2ReadView rView = mDummyReadView;
if (!work->input.buffers.empty()) {
rView = work->input.buffers[0]->data().linearBlocks().front().map().get();
inSize = rView.capacity();
if (inSize && rView.error()) {
ALOGE("read view map failed %d", rView.error());
work->result = rView.error();
return;
}
}
bool eos = ((work->input.flags & C2FrameData::FLAG_END_OF_STREAM) != 0);
bool hasPicture = false;
ALOGV("in buffer attr. size %zu timestamp %d frameindex %d, flags %x",
inSize, (int)work->input.ordinal.timestamp.peeku(),
(int)work->input.ordinal.frameIndex.peeku(), work->input.flags);
size_t inPos = 0;
while (inPos < inSize) {
if (C2_OK != ensureDecoderState(pool)) {
mSignalledError = true;
work->workletsProcessed = 1u;
work->result = C2_CORRUPTED;
return;
}
C2GraphicView wView = mOutBlock->map().get();
if (wView.error()) {
ALOGE("graphic view map failed %d", wView.error());
work->result = wView.error();
return;
}
ihevcd_cxa_video_decode_ip_t s_hevcd_decode_ip = {};
ihevcd_cxa_video_decode_op_t s_hevcd_decode_op = {};
ivd_video_decode_ip_t *ps_decode_ip = &s_hevcd_decode_ip.s_ivd_video_decode_ip_t;
ivd_video_decode_op_t *ps_decode_op = &s_hevcd_decode_op.s_ivd_video_decode_op_t;
if (!setDecodeArgs(ps_decode_ip, ps_decode_op, &rView, &wView,
inOffset + inPos, inSize - inPos, workIndex)) {
mSignalledError = true;
work->workletsProcessed = 1u;
work->result = C2_CORRUPTED;
return;
}
if (false == mHeaderDecoded) {
/* Decode header and get dimensions */
setParams(mStride, IVD_DECODE_HEADER);
}
WORD32 delay;
GETTIME(&mTimeStart, nullptr);
TIME_DIFF(mTimeEnd, mTimeStart, delay);
(void) ivdec_api_function(mDecHandle, ps_decode_ip, ps_decode_op);
WORD32 decodeTime;
GETTIME(&mTimeEnd, nullptr);
TIME_DIFF(mTimeStart, mTimeEnd, decodeTime);
ALOGV("decodeTime=%6d delay=%6d numBytes=%6d", decodeTime, delay,
ps_decode_op->u4_num_bytes_consumed);
if (IVD_MEM_ALLOC_FAILED == (ps_decode_op->u4_error_code & IVD_ERROR_MASK)) {
ALOGE("allocation failure in decoder");
mSignalledError = true;
work->workletsProcessed = 1u;
work->result = C2_CORRUPTED;
return;
} else if (IVD_STREAM_WIDTH_HEIGHT_NOT_SUPPORTED ==
(ps_decode_op->u4_error_code & IVD_ERROR_MASK)) {
ALOGE("unsupported resolution : %dx%d", mWidth, mHeight);
mSignalledError = true;
work->workletsProcessed = 1u;
work->result = C2_CORRUPTED;
return;
} else if (IVD_RES_CHANGED == (ps_decode_op->u4_error_code & IVD_ERROR_MASK)) {
ALOGV("resolution changed");
drainInternal(DRAIN_COMPONENT_NO_EOS, pool, work);
resetDecoder();
resetPlugin();
work->workletsProcessed = 0u;
/* Decode header and get new dimensions */
setParams(mStride, IVD_DECODE_HEADER);
(void) ivdec_api_function(mDecHandle, ps_decode_ip, ps_decode_op);
} else if (IS_IVD_FATAL_ERROR(ps_decode_op->u4_error_code)) {
ALOGE("Fatal error in decoder 0x%x", ps_decode_op->u4_error_code);
mSignalledError = true;
work->workletsProcessed = 1u;
work->result = C2_CORRUPTED;
return;
}
if (ps_decode_op->i4_reorder_depth >= 0 && mOutputDelay != ps_decode_op->i4_reorder_depth) {
mOutputDelay = ps_decode_op->i4_reorder_depth;
ALOGV("New Output delay %d ", mOutputDelay);
C2PortActualDelayTuning::output outputDelay(mOutputDelay);
std::vector<std::unique_ptr<C2SettingResult>> failures;
c2_status_t err =
mIntf->config({&outputDelay}, C2_MAY_BLOCK, &failures);
if (err == OK) {
work->worklets.front()->output.configUpdate.push_back(
C2Param::Copy(outputDelay));
} else {
ALOGE("Cannot set output delay");
mSignalledError = true;
work->workletsProcessed = 1u;
work->result = C2_CORRUPTED;
return;
}
}
if (0 < ps_decode_op->u4_pic_wd && 0 < ps_decode_op->u4_pic_ht) {
if (mHeaderDecoded == false) {
mHeaderDecoded = true;
setParams(ALIGN32(ps_decode_op->u4_pic_wd), IVD_DECODE_FRAME);
}
if (ps_decode_op->u4_pic_wd != mWidth || ps_decode_op->u4_pic_ht != mHeight) {
mWidth = ps_decode_op->u4_pic_wd;
mHeight = ps_decode_op->u4_pic_ht;
CHECK_EQ(0u, ps_decode_op->u4_output_present);
C2StreamPictureSizeInfo::output size(0u, mWidth, mHeight);
std::vector<std::unique_ptr<C2SettingResult>> failures;
c2_status_t err =
mIntf->config({&size}, C2_MAY_BLOCK, &failures);
if (err == OK) {
work->worklets.front()->output.configUpdate.push_back(
C2Param::Copy(size));
} else {
ALOGE("Cannot set width and height");
mSignalledError = true;
work->workletsProcessed = 1u;
work->result = C2_CORRUPTED;
return;
}
continue;
}
}
(void) getVuiParams();
hasPicture |= (1 == ps_decode_op->u4_frame_decoded_flag);
if (ps_decode_op->u4_output_present) {
finishWork(ps_decode_op->u4_ts, work);
}
if (0 == ps_decode_op->u4_num_bytes_consumed) {
ALOGD("Bytes consumed is zero. Ignoring remaining bytes");
break;
}
inPos += ps_decode_op->u4_num_bytes_consumed;
if (hasPicture && (inSize - inPos)) {
ALOGD("decoded frame in current access nal, ignoring further trailing bytes %d",
(int)inSize - (int)inPos);
break;
}
}
if (eos) {
drainInternal(DRAIN_COMPONENT_WITH_EOS, pool, work);
mSignalledOutputEos = true;
} else if (!hasPicture) {
fillEmptyWork(work);
}
}
c2_status_t C2SoftHevcDec::drainInternal(
uint32_t drainMode,
const std::shared_ptr<C2BlockPool> &pool,
const std::unique_ptr<C2Work> &work) {
if (drainMode == NO_DRAIN) {
ALOGW("drain with NO_DRAIN: no-op");
return C2_OK;
}
if (drainMode == DRAIN_CHAIN) {
ALOGW("DRAIN_CHAIN not supported");
return C2_OMITTED;
}
if (OK != setFlushMode()) return C2_CORRUPTED;
while (true) {
if (C2_OK != ensureDecoderState(pool)) {
mSignalledError = true;
work->workletsProcessed = 1u;
work->result = C2_CORRUPTED;
return C2_CORRUPTED;
}
C2GraphicView wView = mOutBlock->map().get();
if (wView.error()) {
ALOGE("graphic view map failed %d", wView.error());
return C2_CORRUPTED;
}
ihevcd_cxa_video_decode_ip_t s_hevcd_decode_ip = {};
ihevcd_cxa_video_decode_op_t s_hevcd_decode_op = {};
ivd_video_decode_ip_t *ps_decode_ip = &s_hevcd_decode_ip.s_ivd_video_decode_ip_t;
ivd_video_decode_op_t *ps_decode_op = &s_hevcd_decode_op.s_ivd_video_decode_op_t;
if (!setDecodeArgs(ps_decode_ip, ps_decode_op, nullptr, &wView, 0, 0, 0)) {
mSignalledError = true;
work->workletsProcessed = 1u;
return C2_CORRUPTED;
}
(void) ivdec_api_function(mDecHandle, ps_decode_ip, ps_decode_op);
if (ps_decode_op->u4_output_present) {
finishWork(ps_decode_op->u4_ts, work);
} else {
fillEmptyWork(work);
break;
}
}
return C2_OK;
}
c2_status_t C2SoftHevcDec::drain(
uint32_t drainMode,
const std::shared_ptr<C2BlockPool> &pool) {
return drainInternal(drainMode, pool, nullptr);
}
class C2SoftHevcDecFactory : public C2ComponentFactory {
public:
C2SoftHevcDecFactory() : mHelper(std::static_pointer_cast<C2ReflectorHelper>(
GetCodec2PlatformComponentStore()->getParamReflector())) {
}
virtual c2_status_t createComponent(
c2_node_id_t id,
std::shared_ptr<C2Component>* const component,
std::function<void(C2Component*)> deleter) override {
*component = std::shared_ptr<C2Component>(
new C2SoftHevcDec(COMPONENT_NAME,
id,
std::make_shared<C2SoftHevcDec::IntfImpl>(mHelper)),
deleter);
return C2_OK;
}
virtual c2_status_t createInterface(
c2_node_id_t id,
std::shared_ptr<C2ComponentInterface>* const interface,
std::function<void(C2ComponentInterface*)> deleter) override {
*interface = std::shared_ptr<C2ComponentInterface>(
new SimpleInterface<C2SoftHevcDec::IntfImpl>(
COMPONENT_NAME, id, std::make_shared<C2SoftHevcDec::IntfImpl>(mHelper)),
deleter);
return C2_OK;
}
virtual ~C2SoftHevcDecFactory() override = default;
private:
std::shared_ptr<C2ReflectorHelper> mHelper;
};
} // namespace android
__attribute__((cfi_canonical_jump_table))
extern "C" ::C2ComponentFactory* CreateCodec2Factory() {
ALOGV("in %s", __func__);
return new ::android::C2SoftHevcDecFactory();
}
__attribute__((cfi_canonical_jump_table))
extern "C" void DestroyCodec2Factory(::C2ComponentFactory* factory) {
ALOGV("in %s", __func__);
delete factory;
}