/* * Copyright (c) 2016 The WebRTC project authors. All Rights Reserved. * * Use of this source code is governed by a BSD-style license * that can be found in the LICENSE file in the root of the source * tree. An additional intellectual property rights grant can be found * in the file PATENTS. All contributing project authors may * be found in the AUTHORS file in the root of the source tree. */ #include "common_video/h264/sps_vui_rewriter.h" #include #include #include "api/video/color_space.h" #include "common_video/h264/h264_common.h" #include "rtc_base/bit_buffer.h" #include "rtc_base/buffer.h" #include "rtc_base/logging.h" #include "test/gmock.h" #include "test/gtest.h" namespace webrtc { namespace { enum SpsMode { kNoRewriteRequired_VuiOptimal, kRewriteRequired_NoVui, kRewriteRequired_NoBitstreamRestriction, kRewriteRequired_VuiSuboptimal, }; static const size_t kSpsBufferMaxSize = 256; static const size_t kWidth = 640; static const size_t kHeight = 480; static const uint8_t kStartSequence[] = {0x00, 0x00, 0x00, 0x01}; static const uint8_t kAud[] = {H264::NaluType::kAud, 0x09, 0x10}; static const uint8_t kSpsNaluType[] = {H264::NaluType::kSps}; static const uint8_t kIdr1[] = {H264::NaluType::kIdr, 0xFF, 0x00, 0x00, 0x04}; static const uint8_t kIdr2[] = {H264::NaluType::kIdr, 0xFF, 0x00, 0x11}; struct VuiHeader { uint32_t vui_parameters_present_flag; uint32_t bitstream_restriction_flag; uint32_t max_num_reorder_frames; uint32_t max_dec_frame_buffering; uint32_t video_signal_type_present_flag; uint32_t video_full_range_flag; uint32_t colour_description_present_flag; uint8_t colour_primaries; uint8_t transfer_characteristics; uint8_t matrix_coefficients; }; static const VuiHeader kVuiNotPresent = { /* vui_parameters_present_flag= */ 0, /* bitstream_restriction_flag= */ 0, /* max_num_reorder_frames= */ 0, /* max_dec_frame_buffering= */ 0, /* video_signal_type_present_flag= */ 0, /* video_full_range_flag= */ 0, /* colour_description_present_flag= */ 0, /* colour_primaries= */ 0, /* transfer_characteristics= */ 0, /* matrix_coefficients= */ 0}; static const VuiHeader kVuiNoBitstreamRestriction = { /* vui_parameters_present_flag= */ 1, /* bitstream_restriction_flag= */ 0, /* max_num_reorder_frames= */ 0, /* max_dec_frame_buffering= */ 0, /* video_signal_type_present_flag= */ 0, /* video_full_range_flag= */ 0, /* colour_description_present_flag= */ 0, /* colour_primaries= */ 0, /* transfer_characteristics= */ 0, /* matrix_coefficients= */ 0}; static const VuiHeader kVuiNoFrameBuffering = { /* vui_parameters_present_flag= */ 1, /* bitstream_restriction_flag= */ 1, /* max_num_reorder_frames= */ 0, /* max_dec_frame_buffering= */ 1, /* video_signal_type_present_flag= */ 0, /* video_full_range_flag= */ 0, /* colour_description_present_flag= */ 0, /* colour_primaries= */ 0, /* transfer_characteristics= */ 0, /* matrix_coefficients= */ 0}; static const VuiHeader kVuiFrameBuffering = { /* vui_parameters_present_flag= */ 1, /* bitstream_restriction_flag= */ 1, /* max_num_reorder_frames= */ 3, /* max_dec_frame_buffering= */ 3, /* video_signal_type_present_flag= */ 0, /* video_full_range_flag= */ 0, /* colour_description_present_flag= */ 0, /* colour_primaries= */ 0, /* transfer_characteristics= */ 0, /* matrix_coefficients= */ 0}; static const VuiHeader kVuiNoVideoSignalType = { /* vui_parameters_present_flag= */ 1, /* bitstream_restriction_flag= */ 1, /* max_num_reorder_frames= */ 0, /* max_dec_frame_buffering= */ 1, /* video_signal_type_present_flag= */ 0, /* video_full_range_flag= */ 0, /* colour_description_present_flag= */ 0, /* colour_primaries= */ 0, /* transfer_characteristics= */ 0, /* matrix_coefficients= */ 0}; static const VuiHeader kVuiLimitedRangeNoColourDescription = { /* vui_parameters_present_flag= */ 1, /* bitstream_restriction_flag= */ 1, /* max_num_reorder_frames= */ 0, /* max_dec_frame_buffering= */ 1, /* video_signal_type_present_flag= */ 1, /* video_full_range_flag= */ 0, /* colour_description_present_flag= */ 0, /* colour_primaries= */ 0, /* transfer_characteristics= */ 0, /* matrix_coefficients= */ 0}; static const VuiHeader kVuiFullRangeNoColourDescription = { /* vui_parameters_present_flag= */ 1, /* bitstream_restriction_flag= */ 1, /* max_num_reorder_frames= */ 0, /* max_dec_frame_buffering= */ 1, /* video_signal_type_present_flag= */ 1, /* video_full_range_flag= */ 1, /* colour_description_present_flag= */ 0, /* colour_primaries= */ 0, /* transfer_characteristics= */ 0, /* matrix_coefficients= */ 0}; static const VuiHeader kVuiLimitedRangeBt709Color = { /* vui_parameters_present_flag= */ 1, /* bitstream_restriction_flag= */ 1, /* max_num_reorder_frames= */ 0, /* max_dec_frame_buffering= */ 1, /* video_signal_type_present_flag= */ 1, /* video_full_range_flag= */ 0, /* colour_description_present_flag= */ 1, /* colour_primaries= */ 1, /* transfer_characteristics= */ 1, /* matrix_coefficients= */ 1}; static const webrtc::ColorSpace kColorSpaceH264Default( ColorSpace::PrimaryID::kUnspecified, ColorSpace::TransferID::kUnspecified, ColorSpace::MatrixID::kUnspecified, ColorSpace::RangeID::kLimited); static const webrtc::ColorSpace kColorSpacePrimariesBt709( ColorSpace::PrimaryID::kBT709, ColorSpace::TransferID::kUnspecified, ColorSpace::MatrixID::kUnspecified, ColorSpace::RangeID::kLimited); static const webrtc::ColorSpace kColorSpaceTransferBt709( ColorSpace::PrimaryID::kUnspecified, ColorSpace::TransferID::kBT709, ColorSpace::MatrixID::kUnspecified, ColorSpace::RangeID::kLimited); static const webrtc::ColorSpace kColorSpaceMatrixBt709( ColorSpace::PrimaryID::kUnspecified, ColorSpace::TransferID::kUnspecified, ColorSpace::MatrixID::kBT709, ColorSpace::RangeID::kLimited); static const webrtc::ColorSpace kColorSpaceFullRange( ColorSpace::PrimaryID::kBT709, ColorSpace::TransferID::kUnspecified, ColorSpace::MatrixID::kUnspecified, ColorSpace::RangeID::kFull); static const webrtc::ColorSpace kColorSpaceBt709LimitedRange( ColorSpace::PrimaryID::kBT709, ColorSpace::TransferID::kBT709, ColorSpace::MatrixID::kBT709, ColorSpace::RangeID::kLimited); } // namespace // Generates a fake SPS with basically everything empty and with characteristics // based off SpsMode. // Pass in a buffer of at least kSpsBufferMaxSize. // The fake SPS that this generates also always has at least one emulation byte // at offset 2, since the first two bytes are always 0, and has a 0x3 as the // level_idc, to make sure the parser doesn't eat all 0x3 bytes. void GenerateFakeSps(const VuiHeader& vui, rtc::Buffer* out_buffer) { uint8_t rbsp[kSpsBufferMaxSize] = {0}; rtc::BitBufferWriter writer(rbsp, kSpsBufferMaxSize); // Profile byte. writer.WriteUInt8(0); // Constraint sets and reserved zero bits. writer.WriteUInt8(0); // level_idc. writer.WriteUInt8(3); // seq_paramter_set_id. writer.WriteExponentialGolomb(0); // Profile is not special, so we skip all the chroma format settings. // Now some bit magic. // log2_max_frame_num_minus4: ue(v). 0 is fine. writer.WriteExponentialGolomb(0); // pic_order_cnt_type: ue(v). writer.WriteExponentialGolomb(0); // log2_max_pic_order_cnt_lsb_minus4: ue(v). 0 is fine. writer.WriteExponentialGolomb(0); // max_num_ref_frames: ue(v). Use 1, to make optimal/suboptimal more obvious. writer.WriteExponentialGolomb(1); // gaps_in_frame_num_value_allowed_flag: u(1). writer.WriteBits(0, 1); // Next are width/height. First, calculate the mbs/map_units versions. uint16_t width_in_mbs_minus1 = (kWidth + 15) / 16 - 1; // For the height, we're going to define frame_mbs_only_flag, so we need to // divide by 2. See the parser for the full calculation. uint16_t height_in_map_units_minus1 = ((kHeight + 15) / 16 - 1) / 2; // Write each as ue(v). writer.WriteExponentialGolomb(width_in_mbs_minus1); writer.WriteExponentialGolomb(height_in_map_units_minus1); // frame_mbs_only_flag: u(1). Needs to be false. writer.WriteBits(0, 1); // mb_adaptive_frame_field_flag: u(1). writer.WriteBits(0, 1); // direct_8x8_inferene_flag: u(1). writer.WriteBits(0, 1); // frame_cropping_flag: u(1). 1, so we can supply crop. writer.WriteBits(1, 1); // Now we write the left/right/top/bottom crop. For simplicity, we'll put all // the crop at the left/top. // We picked a 4:2:0 format, so the crops are 1/2 the pixel crop values. // Left/right. writer.WriteExponentialGolomb(((16 - (kWidth % 16)) % 16) / 2); writer.WriteExponentialGolomb(0); // Top/bottom. writer.WriteExponentialGolomb(((16 - (kHeight % 16)) % 16) / 2); writer.WriteExponentialGolomb(0); // Finally! The VUI. // vui_parameters_present_flag: u(1) writer.WriteBits(vui.vui_parameters_present_flag, 1); if (vui.vui_parameters_present_flag) { // aspect_ratio_info_present_flag, overscan_info_present_flag. Both u(1). writer.WriteBits(0, 2); writer.WriteBits(vui.video_signal_type_present_flag, 1); if (vui.video_signal_type_present_flag) { // video_format: u(3). 5 = Unspecified writer.WriteBits(5, 3); writer.WriteBits(vui.video_full_range_flag, 1); writer.WriteBits(vui.colour_description_present_flag, 1); if (vui.colour_description_present_flag) { writer.WriteUInt8(vui.colour_primaries); writer.WriteUInt8(vui.transfer_characteristics); writer.WriteUInt8(vui.matrix_coefficients); } } // chroma_loc_info_present_flag, timing_info_present_flag, // nal_hrd_parameters_present_flag, vcl_hrd_parameters_present_flag, // pic_struct_present_flag, All u(1) writer.WriteBits(0, 5); writer.WriteBits(vui.bitstream_restriction_flag, 1); if (vui.bitstream_restriction_flag) { // Write some defaults. Shouldn't matter for parsing, though. // motion_vectors_over_pic_boundaries_flag: u(1) writer.WriteBits(1, 1); // max_bytes_per_pic_denom: ue(v) writer.WriteExponentialGolomb(2); // max_bits_per_mb_denom: ue(v) writer.WriteExponentialGolomb(1); // log2_max_mv_length_horizontal: ue(v) // log2_max_mv_length_vertical: ue(v) writer.WriteExponentialGolomb(16); writer.WriteExponentialGolomb(16); // Next are the limits we care about. writer.WriteExponentialGolomb(vui.max_num_reorder_frames); writer.WriteExponentialGolomb(vui.max_dec_frame_buffering); } } // Get the number of bytes written (including the last partial byte). size_t byte_count, bit_offset; writer.GetCurrentOffset(&byte_count, &bit_offset); if (bit_offset > 0) { byte_count++; } H264::WriteRbsp(rbsp, byte_count, out_buffer); } void TestSps(const VuiHeader& vui, const ColorSpace* color_space, SpsVuiRewriter::ParseResult expected_parse_result) { rtc::LogMessage::LogToDebug(rtc::LS_VERBOSE); rtc::Buffer original_sps; GenerateFakeSps(vui, &original_sps); absl::optional sps; rtc::Buffer rewritten_sps; SpsVuiRewriter::ParseResult result = SpsVuiRewriter::ParseAndRewriteSps( original_sps.data(), original_sps.size(), &sps, color_space, &rewritten_sps, SpsVuiRewriter::Direction::kIncoming); EXPECT_EQ(expected_parse_result, result); ASSERT_TRUE(sps); EXPECT_EQ(sps->width, kWidth); EXPECT_EQ(sps->height, kHeight); if (vui.vui_parameters_present_flag) { EXPECT_EQ(sps->vui_params_present, 1u); } if (result == SpsVuiRewriter::ParseResult::kVuiRewritten) { // Ensure that added/rewritten SPS is parsable. rtc::Buffer tmp; result = SpsVuiRewriter::ParseAndRewriteSps( rewritten_sps.data(), rewritten_sps.size(), &sps, nullptr, &tmp, SpsVuiRewriter::Direction::kIncoming); EXPECT_EQ(SpsVuiRewriter::ParseResult::kVuiOk, result); ASSERT_TRUE(sps); EXPECT_EQ(sps->width, kWidth); EXPECT_EQ(sps->height, kHeight); EXPECT_EQ(sps->vui_params_present, 1u); } } class SpsVuiRewriterTest : public ::testing::Test, public ::testing::WithParamInterface< ::testing::tuple> { }; TEST_P(SpsVuiRewriterTest, RewriteVui) { VuiHeader vui = ::testing::get<0>(GetParam()); const ColorSpace* color_space = ::testing::get<1>(GetParam()); SpsVuiRewriter::ParseResult expected_parse_result = ::testing::get<2>(GetParam()); TestSps(vui, color_space, expected_parse_result); } INSTANTIATE_TEST_SUITE_P( All, SpsVuiRewriterTest, ::testing::Values( std::make_tuple(kVuiNoFrameBuffering, nullptr, SpsVuiRewriter::ParseResult::kVuiOk), std::make_tuple(kVuiNoVideoSignalType, &kColorSpaceH264Default, SpsVuiRewriter::ParseResult::kVuiOk), std::make_tuple(kVuiLimitedRangeBt709Color, &kColorSpaceBt709LimitedRange, SpsVuiRewriter::ParseResult::kVuiOk), std::make_tuple(kVuiNotPresent, nullptr, SpsVuiRewriter::ParseResult::kVuiRewritten), std::make_tuple(kVuiNoBitstreamRestriction, nullptr, SpsVuiRewriter::ParseResult::kVuiRewritten), std::make_tuple(kVuiFrameBuffering, nullptr, SpsVuiRewriter::ParseResult::kVuiRewritten), std::make_tuple(kVuiLimitedRangeNoColourDescription, &kColorSpaceFullRange, SpsVuiRewriter::ParseResult::kVuiRewritten), std::make_tuple(kVuiNoVideoSignalType, &kColorSpacePrimariesBt709, SpsVuiRewriter::ParseResult::kVuiRewritten), std::make_tuple(kVuiNoVideoSignalType, &kColorSpaceTransferBt709, SpsVuiRewriter::ParseResult::kVuiRewritten), std::make_tuple(kVuiNoVideoSignalType, &kColorSpaceMatrixBt709, SpsVuiRewriter::ParseResult::kVuiRewritten), std::make_tuple(kVuiFullRangeNoColourDescription, &kColorSpaceH264Default, SpsVuiRewriter::ParseResult::kVuiRewritten), std::make_tuple(kVuiLimitedRangeBt709Color, &kColorSpaceH264Default, SpsVuiRewriter::ParseResult::kVuiRewritten))); TEST(SpsVuiRewriterOutgoingVuiTest, ParseOutgoingBitstreamOptimalVui) { rtc::LogMessage::LogToDebug(rtc::LS_VERBOSE); rtc::Buffer optimal_sps; GenerateFakeSps(kVuiNoFrameBuffering, &optimal_sps); rtc::Buffer buffer; buffer.AppendData(kStartSequence); buffer.AppendData(optimal_sps); buffer.AppendData(kStartSequence); buffer.AppendData(kIdr1); EXPECT_THAT(SpsVuiRewriter::ParseOutgoingBitstreamAndRewrite(buffer, nullptr), ::testing::ElementsAreArray(buffer)); } TEST(SpsVuiRewriterOutgoingVuiTest, ParseOutgoingBitstreamNoVui) { rtc::LogMessage::LogToDebug(rtc::LS_VERBOSE); rtc::Buffer sps; GenerateFakeSps(kVuiNotPresent, &sps); rtc::Buffer buffer; buffer.AppendData(kStartSequence); buffer.AppendData(kIdr1); buffer.AppendData(kStartSequence); buffer.AppendData(kSpsNaluType); buffer.AppendData(sps); buffer.AppendData(kStartSequence); buffer.AppendData(kIdr2); rtc::Buffer optimal_sps; GenerateFakeSps(kVuiNoFrameBuffering, &optimal_sps); rtc::Buffer expected_buffer; expected_buffer.AppendData(kStartSequence); expected_buffer.AppendData(kIdr1); expected_buffer.AppendData(kStartSequence); expected_buffer.AppendData(kSpsNaluType); expected_buffer.AppendData(optimal_sps); expected_buffer.AppendData(kStartSequence); expected_buffer.AppendData(kIdr2); EXPECT_THAT(SpsVuiRewriter::ParseOutgoingBitstreamAndRewrite(buffer, nullptr), ::testing::ElementsAreArray(expected_buffer)); } TEST(SpsVuiRewriterOutgoingAudTest, ParseOutgoingBitstreamWithAud) { rtc::LogMessage::LogToDebug(rtc::LS_VERBOSE); rtc::Buffer optimal_sps; GenerateFakeSps(kVuiNoFrameBuffering, &optimal_sps); rtc::Buffer buffer; buffer.AppendData(kStartSequence); buffer.AppendData(kAud); buffer.AppendData(kStartSequence); buffer.AppendData(optimal_sps); buffer.AppendData(kStartSequence); buffer.AppendData(kIdr1); rtc::Buffer expected_buffer; expected_buffer.AppendData(kStartSequence); expected_buffer.AppendData(optimal_sps); expected_buffer.AppendData(kStartSequence); expected_buffer.AppendData(kIdr1); EXPECT_THAT(SpsVuiRewriter::ParseOutgoingBitstreamAndRewrite(buffer, nullptr), ::testing::ElementsAreArray(expected_buffer)); } } // namespace webrtc