// SPDX-FileCopyrightText: 2023 The Pion community // SPDX-License-Identifier: MIT package codecs import ( "errors" "testing" "github.com/stretchr/testify/assert" ) func TestH265_NALU_Header(t *testing.T) { tt := [...]struct { RawHeader []byte FBit bool Type uint8 LayerID uint8 TID uint8 IsAP bool IsFU bool IsPACI bool }{ // FBit { RawHeader: []byte{0x80, 0x00}, Type: 0, LayerID: 0, TID: 0, FBit: true, }, // VPS_NUT { RawHeader: []byte{0x40, 0x01}, Type: 32, LayerID: 0, TID: 1, }, // SPS_NUT { RawHeader: []byte{0x42, 0x01}, Type: 33, LayerID: 0, TID: 1, }, // PPS_NUT { RawHeader: []byte{0x44, 0x01}, Type: 34, LayerID: 0, TID: 1, }, // PREFIX_SEI_NUT { RawHeader: []byte{0x4e, 0x01}, Type: 39, LayerID: 0, TID: 1, }, // Fragmentation Unit { RawHeader: []byte{0x62, 0x01}, Type: h265NaluFragmentationUnitType, LayerID: 0, TID: 1, IsFU: true, }, } for _, cur := range tt { header := newH265NALUHeader(cur.RawHeader[0], cur.RawHeader[1]) assert.Equal(t, cur.FBit, header.F()) assert.Equal(t, cur.Type, header.Type()) // For any type < 32, NAL is a VLC NAL unit. assert.Equal(t, header.IsTypeVCLUnit(), header.Type() < 32) assert.Equal(t, cur.IsAP, header.IsAggregationPacket()) assert.Equal(t, cur.IsFU, header.IsFragmentationUnit()) assert.Equal(t, cur.IsPACI, header.IsPACIPacket()) assert.Equal(t, cur.LayerID, header.LayerID()) assert.Equal(t, cur.TID, header.TID()) } } func TestH265_FU_Header(t *testing.T) { tt := [...]struct { header H265FragmentationUnitHeader S bool E bool Type uint8 }{ // Start | IDR_W_RADL { header: H265FragmentationUnitHeader(0x93), S: true, E: false, Type: 19, }, // Continuation | IDR_W_RADL { header: H265FragmentationUnitHeader(0x13), S: false, E: false, Type: 19, }, // End | IDR_W_RADL { header: H265FragmentationUnitHeader(0x53), S: false, E: true, Type: 19, }, // Start | TRAIL_R { header: H265FragmentationUnitHeader(0x81), S: true, E: false, Type: 1, }, // Continuation | TRAIL_R { header: H265FragmentationUnitHeader(0x01), S: false, E: false, Type: 1, }, // End | TRAIL_R { header: H265FragmentationUnitHeader(0x41), S: false, E: true, Type: 1, }, } for _, cur := range tt { assert.Equal(t, cur.S, cur.header.S()) assert.Equal(t, cur.E, cur.header.E()) assert.Equal(t, cur.header.FuType(), cur.Type) } } func TestH265_SingleNALUnitPacket(t *testing.T) { tt := [...]struct { Raw []byte WithDONL bool ExpectedPacket *H265SingleNALUnitPacket ExpectedErr error }{ { Raw: nil, ExpectedErr: errNilPacket, }, { Raw: []byte{}, ExpectedErr: errShortPacket, }, { Raw: []byte{0x62}, ExpectedErr: errShortPacket, }, { Raw: []byte{0x62, 0x01, 0x93}, ExpectedErr: errInvalidH265PacketType, }, // FBit enabled in H265NALUHeader { Raw: []byte{0x80, 0x01, 0x93, 0xaf, 0xaf, 0xaf, 0xaf}, ExpectedErr: errH265CorruptedPacket, }, // Type '49' in H265NALUHeader { Raw: []byte{0x62, 0x01, 0x93, 0xaf, 0xaf, 0xaf, 0xaf}, ExpectedErr: errInvalidH265PacketType, }, // Type '50' in H265NALUHeader { Raw: []byte{0x64, 0x01, 0x93, 0xaf, 0xaf, 0xaf, 0xaf}, ExpectedErr: errInvalidH265PacketType, }, { Raw: []byte{0x01, 0x01, 0xab, 0xcd, 0xef}, ExpectedPacket: &H265SingleNALUnitPacket{ payloadHeader: newH265NALUHeader(0x01, 0x01), payload: []byte{0xab, 0xcd, 0xef}, }, }, // DONL, payload too small { Raw: []byte{0x01, 0x01, 0x93, 0xaf}, ExpectedErr: errShortPacket, WithDONL: true, }, { Raw: []byte{0x01, 0x01, 0xaa, 0xbb, 0xcc}, ExpectedPacket: &H265SingleNALUnitPacket{ payloadHeader: newH265NALUHeader(0x01, 0x01), donl: uint16ptr((uint16(0xaa) << 8) | uint16(0xbb)), payload: []byte{0xcc}, }, WithDONL: true, }, } for _, cur := range tt { parsed := &H265SingleNALUnitPacket{} if cur.WithDONL { parsed.WithDONL(cur.WithDONL) } // Just for code coverage sake parsed.isH265Packet() _, err := parsed.Unmarshal(cur.Raw) if cur.ExpectedErr == nil { assert.NoError(t, err) } else { assert.ErrorIs(t, err, cur.ExpectedErr) } if cur.ExpectedPacket == nil { continue } assert.Equal(t, cur.ExpectedPacket.PayloadHeader(), parsed.PayloadHeader()) if cur.ExpectedPacket.DONL() != nil { assert.Equal(t, *cur.ExpectedPacket.DONL(), *parsed.DONL()) } else { assert.Nil(t, parsed.DONL()) } assert.Equal(t, cur.ExpectedPacket.Payload(), parsed.Payload()) } } func TestH265_AggregationPacket(t *testing.T) { tt := [...]struct { Raw []byte WithDONL bool ExpectedPacket *H265AggregationPacket ExpectedErr error }{ { Raw: nil, ExpectedErr: errNilPacket, }, { Raw: []byte{}, ExpectedErr: errShortPacket, }, { Raw: []byte{0x62}, ExpectedErr: errShortPacket, }, { Raw: []byte{0x62, 0x01, 0x93}, ExpectedErr: errInvalidH265PacketType, }, // FBit enabled in H265NALUHeader { Raw: []byte{0x80, 0x01, 0x93, 0xaf, 0xaf, 0xaf, 0xaf}, ExpectedErr: errH265CorruptedPacket, }, // Type '48' in H265NALUHeader { Raw: []byte{0xE0, 0x01, 0x93, 0xaf, 0xaf, 0xaf, 0xaf}, ExpectedErr: errH265CorruptedPacket, }, // Small payload { Raw: []byte{0x60, 0x01, 0x00, 0x1}, ExpectedErr: errShortPacket, }, // Small payload { Raw: []byte{0x60, 0x01, 0x00}, ExpectedErr: errShortPacket, WithDONL: true, }, // Small payload { Raw: []byte{0x60, 0x01, 0x00, 0x1}, ExpectedErr: errShortPacket, WithDONL: true, }, // Small payload { Raw: []byte{0x60, 0x01, 0x00, 0x01, 0x02}, ExpectedErr: errShortPacket, WithDONL: true, }, // Single Aggregation Unit { Raw: []byte{0x60, 0x01, 0x00, 0x01, 0x00, 0x02, 0x00, 0x00}, ExpectedErr: errShortPacket, WithDONL: true, }, // Incomplete second Aggregation Unit { Raw: []byte{ 0x60, 0x01, 0x00, 0x01, 0x00, 0x02, 0x00, 0x00, // DONL 0x00, }, ExpectedErr: errShortPacket, WithDONL: true, }, // Incomplete second Aggregation Unit { Raw: []byte{ 0x60, 0x01, 0x00, 0x01, 0x00, 0x02, 0x00, 0x00, // DONL, NAL Unit size (2 bytes) 0x00, 0x55, 0x55, }, ExpectedErr: errShortPacket, WithDONL: true, }, // Valid Second Aggregation Unit { Raw: []byte{ 0x60, 0x01, 0xcc, 0xdd, 0x00, 0x02, 0xff, 0xee, // DONL, NAL Unit size (2 bytes), Payload 0x77, 0x00, 0x01, 0xaa, }, WithDONL: true, ExpectedPacket: &H265AggregationPacket{ firstUnit: &H265AggregationUnitFirst{ donl: uint16ptr(0xccdd), nalUnitSize: 2, nalUnit: []byte{0xff, 0xee}, }, otherUnits: []H265AggregationUnit{ { dond: uint8ptr(0x77), nalUnitSize: 1, nalUnit: []byte{0xaa}, }, }, }, }, } for _, cur := range tt { parsed := &H265AggregationPacket{} if cur.WithDONL { parsed.WithDONL(cur.WithDONL) } // Just for code coverage sake parsed.isH265Packet() _, err := parsed.Unmarshal(cur.Raw) if cur.ExpectedErr == nil { assert.NoError(t, err) } else { assert.ErrorIs(t, err, cur.ExpectedErr) } if cur.ExpectedPacket == nil { continue } if cur.ExpectedPacket.FirstUnit() != nil { assert.Equal(t, cur.ExpectedPacket.FirstUnit().NALUSize(), parsed.FirstUnit().NALUSize()) if cur.ExpectedPacket.FirstUnit().DONL() != nil { assert.Equal(t, *cur.ExpectedPacket.FirstUnit().DONL(), *parsed.FirstUnit().DONL()) } else { assert.Nil(t, parsed.FirstUnit().DONL()) } assert.Equal( t, cur.ExpectedPacket.FirstUnit().NalUnit(), parsed.FirstUnit().NalUnit(), ) } assert.Len(t, cur.ExpectedPacket.OtherUnits(), len(parsed.OtherUnits())) for ndx, unit := range cur.ExpectedPacket.OtherUnits() { assert.Equal(t, unit.NALUSize(), parsed.OtherUnits()[ndx].NALUSize()) if unit.DOND() != nil { assert.Equal(t, *unit.DOND(), *parsed.OtherUnits()[ndx].DOND()) } else { assert.Nil(t, parsed.OtherUnits()[ndx].DOND()) } assert.Equal(t, unit.NalUnit(), parsed.OtherUnits()[ndx].NalUnit()) } assert.Equal(t, cur.ExpectedPacket.OtherUnits(), parsed.OtherUnits()) } } func TestH265_FragmentationUnitPacket(t *testing.T) { tt := [...]struct { Raw []byte WithDONL bool ExpectedFU *H265FragmentationUnitPacket ExpectedErr error }{ { Raw: nil, ExpectedErr: errNilPacket, }, { Raw: []byte{}, ExpectedErr: errShortPacket, }, { Raw: []byte{0x62}, ExpectedErr: errShortPacket, }, { Raw: []byte{0x62, 0x01}, ExpectedErr: errShortPacket, }, { Raw: []byte{0x62, 0x01, 0x93}, ExpectedErr: errShortPacket, }, // FBit enabled in H265NALUHeader { Raw: []byte{0x80, 0x01, 0x93, 0xaf}, ExpectedErr: errH265CorruptedPacket, }, // Type not '49' in H265NALUHeader { Raw: []byte{0x40, 0x01, 0x93, 0xaf}, ExpectedErr: errInvalidH265PacketType, }, { Raw: []byte{0x62, 0x01, 0x93, 0xaf}, ExpectedFU: &H265FragmentationUnitPacket{ payloadHeader: newH265NALUHeader(0x62, 0x01), fuHeader: H265FragmentationUnitHeader(0x93), donl: nil, payload: []byte{0xaf}, }, }, { Raw: []byte{0x62, 0x01, 0x93, 0xcc}, WithDONL: true, ExpectedErr: errShortPacket, }, { Raw: []byte{0x62, 0x01, 0x93, 0xcc, 0xdd, 0xaf, 0x0d, 0x5a}, WithDONL: true, ExpectedFU: &H265FragmentationUnitPacket{ payloadHeader: newH265NALUHeader(0x62, 0x01), fuHeader: H265FragmentationUnitHeader(0x93), donl: uint16ptr((uint16(0xcc) << 8) | uint16(0xdd)), payload: []byte{0xaf, 0x0d, 0x5a}, }, }, } for _, cur := range tt { parsed := &H265FragmentationUnitPacket{} if cur.WithDONL { parsed.WithDONL(cur.WithDONL) } // Just for code coverage sake parsed.isH265Packet() _, err := parsed.Unmarshal(cur.Raw) if cur.ExpectedErr != nil { assert.ErrorIs(t, err, cur.ExpectedErr) } else { assert.NoError(t, err) } if cur.ExpectedFU == nil { continue } assert.Equal(t, cur.ExpectedFU.PayloadHeader(), parsed.PayloadHeader()) assert.Equal(t, cur.ExpectedFU.FuHeader(), parsed.FuHeader()) if cur.ExpectedFU.DONL() != nil { assert.Equal(t, *cur.ExpectedFU.DONL(), *parsed.DONL()) } else { assert.Nil(t, parsed.DONL()) } assert.Equal(t, cur.ExpectedFU.Payload(), parsed.Payload()) } } func TestH265_TemporalScalabilityControlInformation(t *testing.T) { tt := [...]struct { Value H265TSCI ExpectedTL0PICIDX uint8 ExpectedIrapPicID uint8 ExpectedS bool ExpectedE bool ExpectedRES uint8 }{ {}, { Value: H265TSCI((uint32(0xCA) << 24) | (uint32(0xFE) << 16)), ExpectedTL0PICIDX: 0xCA, ExpectedIrapPicID: 0xFE, }, { Value: H265TSCI(uint32(1) << 15), ExpectedS: true, }, { Value: H265TSCI(uint32(1) << 14), ExpectedE: true, }, { Value: H265TSCI(uint32(0x0A) << 8), ExpectedRES: 0x0A, }, // Sets RES, and force sets S and E to 0. { Value: H265TSCI((uint32(0xAA) << 8) & ^(uint32(1) << 15) & ^(uint32(1) << 14)), ExpectedRES: 0xAA & 0b00111111, }, } for _, cur := range tt { assert.Equal(t, cur.ExpectedTL0PICIDX, cur.Value.TL0PICIDX()) assert.Equal(t, cur.ExpectedIrapPicID, cur.Value.IrapPicID()) assert.Equal(t, cur.ExpectedS, cur.Value.S()) assert.Equal(t, cur.ExpectedE, cur.Value.E()) assert.Equal(t, cur.ExpectedRES, cur.Value.RES()) } } func TestH265_PACI_Packet(t *testing.T) { tt := [...]struct { Raw []byte ExpectedFU *H265PACIPacket ExpectedErr error }{ { Raw: nil, ExpectedErr: errNilPacket, }, { Raw: []byte{}, ExpectedErr: errShortPacket, }, { Raw: []byte{0x62, 0x01, 0x93}, ExpectedErr: errShortPacket, }, // FBit enabled in H265NALUHeader { Raw: []byte{0x80, 0x01, 0x93, 0xaf, 0xaf, 0xaf, 0xaf}, ExpectedErr: errH265CorruptedPacket, }, // Type not '50' in H265NALUHeader { Raw: []byte{0x40, 0x01, 0x93, 0xaf, 0xaf, 0xaf, 0xaf}, ExpectedErr: errInvalidH265PacketType, }, // Invalid header extension size { Raw: []byte{0x64, 0x01, 0x93, 0xaf, 0xaf, 0xaf, 0xaf}, ExpectedErr: errShortPacket, }, // No Header Extension { Raw: []byte{0x64, 0x01, 0x64, 0x00, 0xab, 0xcd, 0xef}, ExpectedFU: &H265PACIPacket{ payloadHeader: newH265NALUHeader(0x64, 0x01), paciHeaderFields: (uint16(0x64) << 8) | uint16(0x00), phes: nil, payload: []byte{0xab, 0xcd, 0xef}, }, }, // Header Extension 1 byte { Raw: []byte{0x64, 0x01, 0x64, 0x10, 0xff, 0xab, 0xcd, 0xef}, ExpectedFU: &H265PACIPacket{ payloadHeader: newH265NALUHeader(0x64, 0x01), paciHeaderFields: (uint16(0x64) << 8) | uint16(0x10), phes: []byte{0xff}, payload: []byte{0xab, 0xcd, 0xef}, }, }, // Header Extension TSCI { Raw: []byte{0x64, 0x01, 0x64, 0b00111000, 0xaa, 0xbb, 0x80, 0xab, 0xcd, 0xef}, ExpectedFU: &H265PACIPacket{ payloadHeader: newH265NALUHeader(0x64, 0x01), paciHeaderFields: (uint16(0x64) << 8) | uint16(0b00111000), phes: []byte{0xaa, 0xbb, 0x80}, payload: []byte{0xab, 0xcd, 0xef}, }, }, } for _, cur := range tt { parsed := &H265PACIPacket{} _, err := parsed.Unmarshal(cur.Raw) // Just for code coverage sake parsed.isH265Packet() if cur.ExpectedErr != nil { assert.ErrorIs(t, err, cur.ExpectedErr) } else { assert.NoError(t, err) } if cur.ExpectedFU == nil { continue } assert.Equal(t, cur.ExpectedFU.PayloadHeader(), parsed.PayloadHeader()) assert.Equal(t, cur.ExpectedFU.A(), parsed.A()) assert.Equal(t, cur.ExpectedFU.CType(), parsed.CType()) assert.Equal(t, cur.ExpectedFU.PHSsize(), parsed.PHSsize()) assert.Equal(t, cur.ExpectedFU.F0(), parsed.F0()) assert.Equal(t, cur.ExpectedFU.F1(), parsed.F1()) assert.Equal(t, cur.ExpectedFU.F2(), parsed.F2()) assert.Equal(t, cur.ExpectedFU.Y(), parsed.Y()) assert.Equal(t, cur.ExpectedFU.PHES(), parsed.PHES()) assert.Equal(t, cur.ExpectedFU.Payload(), parsed.Payload()) if cur.ExpectedFU.TSCI() != nil { assert.Equal(t, cur.ExpectedFU.TSCI(), parsed.TSCI()) } else { assert.Nil(t, parsed.TSCI()) } } } func TestH265_Packet(t *testing.T) { tt := [...]struct { Raw []byte WithDONL bool ExpectedPacketType any ExpectedErr error }{ { Raw: nil, ExpectedErr: errNilPacket, }, { Raw: []byte{}, ExpectedErr: errShortPacket, }, { Raw: []byte{0x62, 0x01, 0x93}, ExpectedErr: errShortPacket, }, { Raw: []byte{0x64, 0x01, 0x93, 0xaf}, ExpectedErr: errShortPacket, }, { Raw: []byte{0x01, 0x01}, WithDONL: true, ExpectedErr: errShortPacket, }, // FBit enabled in H265NALUHeader { Raw: []byte{0x80, 0x01, 0x93, 0xaf, 0xaf, 0xaf, 0xaf}, ExpectedErr: errH265CorruptedPacket, }, // Valid H265SingleNALUnitPacket { Raw: []byte{0x01, 0x01, 0xab, 0xcd, 0xef}, ExpectedPacketType: &H265SingleNALUnitPacket{}, }, // Invalid H265SingleNALUnitPacket { Raw: []byte{0x01, 0x01, 0x93, 0xaf}, ExpectedErr: errShortPacket, WithDONL: true, }, // Valid H265PACIPacket { Raw: []byte{0x64, 0x01, 0x64, 0b00111000, 0xaa, 0xbb, 0x80, 0xab, 0xcd, 0xef}, ExpectedPacketType: &H265PACIPacket{}, }, // Valid H265FragmentationUnitPacket { Raw: []byte{0x62, 0x01, 0x93, 0xcc, 0xdd, 0xaf, 0x0d, 0x5a}, ExpectedPacketType: &H265FragmentationPacket{}, WithDONL: true, }, // Valid H265AggregationPacket { Raw: []byte{0x60, 0x01, 0xcc, 0xdd, 0x00, 0x02, 0xff, 0xee, 0x77, 0x00, 0x01, 0xaa}, ExpectedPacketType: &H265AggregationPacket{}, WithDONL: true, }, // Invalid H265AggregationPacket { Raw: []byte{0x60, 0x01, 0x00, 0x01, 0x00, 0x02, 0x00, 0x00}, ExpectedErr: errShortPacket, WithDONL: true, }, } for _, cur := range tt { pck := &H265Packet{} if cur.WithDONL { pck.WithDONL(true) } _, err := pck.Unmarshal(cur.Raw) if cur.ExpectedErr == nil { assert.NoError(t, err) } else { assert.ErrorIs(t, err, cur.ExpectedErr) } if cur.ExpectedErr != nil { continue } assert.IsType(t, cur.ExpectedPacketType, pck.Packet()) } } func TestH265IsPartitionHead(t *testing.T) { h265 := H265Packet{} assert.False(t, h265.IsPartitionHead(nil), "nil must not be a partition head") assert.False(t, h265.IsPartitionHead([]byte{}), "empty nalu must not be a partition head") singleNalu := []byte{0x01, 0x01, 0xab, 0xcd, 0xef} assert.True(t, h265.IsPartitionHead(singleNalu), "single nalu must be a partition head") fbitNalu := []byte{0x80, 0x00, 0x00} assert.True(t, h265.IsPartitionHead(fbitNalu), "fbit nalu must be a partition head") fuStartNalu := []byte{0x62, 0x01, 0x93} assert.True(t, h265.IsPartitionHead(fuStartNalu), "fu start nalu must be a partition head") fuEndNalu := []byte{0x62, 0x01, 0x53} assert.False(t, h265.IsPartitionHead(fuEndNalu), "fu end nalu must not be a partition head") } func TestH265_Packet_Real(t *testing.T) { // Tests decoding of real H265 payloads extracted from a Wireshark dump. // nolint: lll tt := [...]string{ "\x40\x01\x0c\x01\xff\xff\x01\x60\x00\x00\x03\x00\xb0\x00\x00\x03\x00\x00\x03\x00\x7b\xac\x09", "\x42\x01\x01\x01\x60\x00\x00\x03\x00\xb0\x00\x00\x03\x00\x00\x03\x00\x7b\xa0\x03\xc0\x80\x10\xe5\x8d\xae\x49\x32\xf4\xdc\x04\x04\x04\x02", "\x44\x01\xc0\xf2\xf0\x3c\x90", "\x4e\x01\xe5\x04\x61\x0c\x00\x00\x80", 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} for _, cur := range tt { pck := &H265Packet{} _, err := pck.Unmarshal([]byte(cur)) assert.True(t, err == nil || errors.Is(err, errExpectFragmentationStartUnit)) } } func TestH265Payloader_Payload(t *testing.T) { tt := []struct { Name string Data []byte MTU uint16 AddDONL bool SkipAggregation bool ExpectedLen int ExpectedData *[][]byte Msg string }{ { Name: "Positive MTU, nil payload", MTU: 1, Data: nil, ExpectedLen: 0, Msg: "Generated payload must be empty", }, { Name: "Positive MTU, empty NAL", MTU: 1, Data: []byte{}, ExpectedLen: 0, Msg: "Generated payload should be empty", }, { Name: "Zero MTU, start code", MTU: 0, Data: []byte{0x00, 0x00, 0x01}, ExpectedLen: 0, Msg: "Generated payload should be empty", }, { Name: "Positive MTU, 1 byte payload", MTU: 1, Data: []byte{0x90}, ExpectedLen: 0, Msg: "Generated payload should be empty. H.265 nal unit too small", }, { Name: "MTU:1, 2 byte payload", MTU: 1, Data: []byte{0x46, 0x01}, ExpectedLen: 0, Msg: "Generated payload should be empty. H.265 nal unit too small", }, { Name: "MTU:2, 2 byte payload.", MTU: 2, Data: []byte{0x46, 0x01}, ExpectedLen: 0, Msg: "Generated payload should be empty. min MTU is 4", }, { Name: "MTU:4, 2 byte payload.", MTU: 4, Data: []byte{0x46, 0x01}, ExpectedData: &[][]byte{{0x46, 0x01}}, Msg: "AUD packetization failed", }, { Name: "Negative MTU, small payload", MTU: 0, Data: []byte{0x90, 0x90, 0x90}, ExpectedLen: 0, }, { Name: "Negative MTU, small payload", MTU: 0, Data: []byte{0x90, 0x90, 0x90}, ExpectedLen: 0, }, { Name: "Negative MTU, small payload", MTU: 1, Data: []byte{0x90, 0x90, 0x90}, ExpectedLen: 0, }, { Name: "Negative MTU, small payload", MTU: 5, Data: []byte{0x90, 0x90, 0x90}, ExpectedData: &[][]byte{{0x90, 0x90, 0x90}}, }, { Name: "Large payload", MTU: 5, Data: []byte{ 0x00, 0x00, 0x01, 0x00, 0x01, 0x02, 0x03, 0x04, 0x05, 0x06, 0x07, 0x08, 0x09, 0x10, 0x11, 0x12, 0x13, 0x14, 0x15, }, ExpectedData: &[][]byte{ {0x62, 0x01, 0x80, 0x02, 0x03}, {0x62, 0x01, 0x00, 0x04, 0x05}, {0x62, 0x01, 0x00, 0x06, 0x07}, {0x62, 0x01, 0x00, 0x08, 0x09}, {0x62, 0x01, 0x00, 0x10, 0x11}, {0x62, 0x01, 0x00, 0x12, 0x13}, {0x62, 0x01, 0x40, 0x14, 0x15}, }, Msg: "Large payload split across fragmentation Packets", }, { Name: "Short MTU, multiple NALUs flushed in single packet", MTU: 5, Data: []byte{ 0x00, 0x00, 0x01, 0x00, 0x01, 0x00, 0x00, 0x01, 0x02, 0x03, }, ExpectedData: &[][]byte{{0x00, 0x01}, {0x02, 0x03}}, Msg: "multiple Single NALUs packetization should succeed", }, { Name: "Enough MUT, multiple NALUs create Signle Packet", MTU: 10, Data: []byte{ 0x00, 0x00, 0x01, 0x00, 0x01, 0x00, 0x00, 0x01, 0x02, 0x03, }, ExpectedData: &[][]byte{{0x60, 0x01, 0x00, 0x02, 0x00, 0x01, 0x00, 0x02, 0x02, 0x03}}, Msg: "Aggregation packetization should succeed", }, { Name: "Enough MUT, multiple NALUs flushed two Packets, don't aggregate", MTU: 5, Data: []byte{ 0x00, 0x00, 0x01, 0x00, 0x01, 0x00, 0x00, 0x01, 0x02, 0x03, 0x00, 0x00, 0x01, 0x04, 0x05, }, ExpectedData: &[][]byte{{0x00, 0x01}, {0x02, 0x03}, {0x04, 0x05}}, Msg: "multiple Single NALUs packetization should succeed", }, { Name: "Enough MUT, multiple NALUs flushed two Packets, aggregate", MTU: 15, Data: []byte{ 0x00, 0x00, 0x01, 0x00, 0x01, 0x00, 0x00, 0x01, 0x02, 0x03, 0x00, 0x00, 0x01, 0x04, 0x05, }, ExpectedData: &[][]byte{{0x60, 0x01, 0x00, 0x02, 0x00, 0x01, 0x00, 0x02, 0x02, 0x03, 0x00, 0x02, 0x04, 0x05}}, Msg: "Aggregation packetization should succeed", }, // Add DONL = true { Name: "DONL, invalid MTU:1", MTU: 1, Data: []byte{0x01}, AddDONL: true, ExpectedLen: 0, Msg: "Generated payload must be empty", }, { Name: "DONL MTU:4, 2 byte payload.", MTU: 4, Data: []byte{0x00, 0x01}, AddDONL: true, ExpectedLen: 0, Msg: "Generated payload must be empty", }, { Name: "DONL single NALU minimum payload", MTU: 6, Data: []byte{0x00, 0x01}, AddDONL: true, ExpectedData: &[][]byte{{0x00, 0x01, 0x00, 0x00}}, Msg: "single NALU should be packetized", }, { Name: "DONL multiple NALU", MTU: 6, Data: []byte{ 0x00, 0x00, 0x01, 0x00, 0x01, 0x00, 0x00, 0x01, 0x02, 0x03, 0x00, 0x00, 0x01, 0x04, 0x05, }, AddDONL: true, ExpectedData: &[][]byte{ {0x00, 0x01, 0x00, 0x00}, {0x02, 0x03, 0x00, 0x01}, {0x04, 0x05, 0x00, 0x02}, }, Msg: "DONL should be incremented", }, { Name: "DONL aggregation minimum payload", MTU: 18, Data: []byte{ 0x00, 0x00, 0x01, 0x00, 0x01, 0x00, 0x00, 0x01, 0x02, 0x03, 0x00, 0x00, 0x01, 0x04, 0x05, }, AddDONL: true, ExpectedData: &[][]byte{ { 0x60, 0x01, // NALU Header + Layer ID + TID 0x00, 0x00, // DONL 0x00, 0x02, 0x00, 0x01, 0x00, // DONL 0x00, 0x02, 0x02, 0x03, 0x01, // DONL 0x00, 0x02, 0x04, 0x05, }, }, Msg: "DONL Aggregation packetization should succeed", }, { Name: "DONL Large payload", MTU: 7, Data: []byte{ 0x00, 0x00, 0x01, 0x00, 0x01, 0x02, 0x03, 0x04, 0x05, 0x06, 0x07, 0x08, 0x09, 0x10, 0x11, 0x12, 0x13, 0x14, 0x15, }, AddDONL: true, ExpectedData: &[][]byte{ {0x62, 0x01, 0x80, 0x00, 0x00, 0x02, 0x03}, {0x62, 0x01, 0x00, 0x00, 0x01, 0x04, 0x05}, {0x62, 0x01, 0x00, 0x00, 0x02, 0x06, 0x07}, {0x62, 0x01, 0x00, 0x00, 0x03, 0x08, 0x09}, {0x62, 0x01, 0x00, 0x00, 0x04, 0x10, 0x11}, {0x62, 0x01, 0x00, 0x00, 0x05, 0x12, 0x13}, {0x62, 0x01, 0x40, 0x00, 0x06, 0x14, 0x15}, }, Msg: "DONL Large payload split across fragmentation Packets", }, // SkipAggregation = true { Name: "SkipAggregation Enough MUT, multiple NALUs", MTU: 4, Data: []byte{ 0x00, 0x00, 0x01, 0x00, 0x01, 0x00, 0x00, 0x01, 0x02, 0x03, 0x00, 0x00, 0x01, 0x04, 0x05, }, SkipAggregation: true, ExpectedData: &[][]byte{{0x00, 0x01}, {0x02, 0x03}, {0x04, 0x05}}, Msg: "Aggregation packetization should be skipped", }, } for _, cur := range tt { t.Run(cur.Name, func(t *testing.T) { pck := H265Payloader{AddDONL: cur.AddDONL, SkipAggregation: cur.SkipAggregation} res := pck.Payload(cur.MTU, cur.Data) if cur.ExpectedData != nil { assert.Equal(t, *cur.ExpectedData, res) } else { assert.Len(t, res, cur.ExpectedLen) } }) } } func TestH265Payloader_Real(t *testing.T) { // curl -LO 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Aggregating three NALUs into a single payload // 2. Fragmented packets divided by MTU=1400 // 3. Remaining fragment packets split by MTU assert.Len(t, res, 3, "Generated payload should be 3") } func uint8ptr(v uint8) *uint8 { return &v } func uint16ptr(v uint16) *uint16 { return &v }