use super::*;
#[test]
fn test_h265_nalu_header() -> Result<()> {
#[derive(Default)]
struct TestType {
raw_header: Bytes,
fbit: bool,
typ: u8,
layer_id: u8,
tid: u8,
is_ap: bool,
is_fu: bool,
is_paci: bool,
}
let tests = vec![
// fbit
TestType {
raw_header: Bytes::from_static(&[0x80, 0x00]),
typ: 0,
layer_id: 0,
tid: 0,
fbit: true,
..Default::default()
},
// VPS_NUT
TestType {
raw_header: Bytes::from_static(&[0x40, 0x01]),
typ: 32,
layer_id: 0,
tid: 1,
..Default::default()
},
// SPS_NUT
TestType {
raw_header: Bytes::from_static(&[0x42, 0x01]),
typ: 33,
layer_id: 0,
tid: 1,
..Default::default()
},
// PPS_NUT
TestType {
raw_header: Bytes::from_static(&[0x44, 0x01]),
typ: 34,
layer_id: 0,
tid: 1,
..Default::default()
},
// PREFIX_SEI_NUT
TestType {
raw_header: Bytes::from_static(&[0x4e, 0x01]),
typ: 39,
layer_id: 0,
tid: 1,
..Default::default()
},
// Fragmentation Unit
TestType {
raw_header: Bytes::from_static(&[0x62, 0x01]),
typ: H265NALU_FRAGMENTATION_UNIT_TYPE,
layer_id: 0,
tid: 1,
is_fu: true,
..Default::default()
},
];
for cur in tests {
let header = H265NALUHeader::new(cur.raw_header[0], cur.raw_header[1]);
assert_eq!(header.f(), cur.fbit, "invalid F bit");
assert_eq!(header.nalu_type(), cur.typ, "invalid type");
// For any type < 32, NAL is a VLC NAL unit.
assert_eq!(
header.is_type_vcl_unit(),
(header.nalu_type() < 32),
"invalid IsTypeVCLUnit"
);
assert_eq!(
header.is_aggregation_packet(),
cur.is_ap,
"invalid type (aggregation packet)"
);
assert_eq!(
header.is_fragmentation_unit(),
cur.is_fu,
"invalid type (fragmentation unit)"
);
assert_eq!(header.is_paci_packet(), cur.is_paci, "invalid type (PACI)");
assert_eq!(header.layer_id(), cur.layer_id, "invalid layer_id");
assert_eq!(header.tid(), cur.tid, "invalid tid");
}
Ok(())
}
#[test]
fn test_h265_fu_header() -> Result<()> {
#[derive(Default)]
struct TestType {
header: H265FragmentationUnitHeader,
s: bool,
e: bool,
typ: u8,
}
let tests = vec![
// Start | IDR_W_RADL
TestType {
header: H265FragmentationUnitHeader(0x93),
s: true,
e: false,
typ: 19,
},
// Continuation | IDR_W_RADL
TestType {
header: H265FragmentationUnitHeader(0x13),
s: false,
e: false,
typ: 19,
},
// End | IDR_W_RADL
TestType {
header: H265FragmentationUnitHeader(0x53),
s: false,
e: true,
typ: 19,
},
// Start | TRAIL_R
TestType {
header: H265FragmentationUnitHeader(0x81),
s: true,
e: false,
typ: 1,
},
// Continuation | TRAIL_R
TestType {
header: H265FragmentationUnitHeader(0x01),
s: false,
e: false,
typ: 1,
},
// End | TRAIL_R
TestType {
header: H265FragmentationUnitHeader(0x41),
s: false,
e: true,
typ: 1,
},
];
for cur in tests {
assert_eq!(cur.header.s(), cur.s, "invalid s field");
assert_eq!(cur.header.e(), cur.e, "invalid e field");
assert_eq!(cur.header.fu_type(), cur.typ, "invalid FuType field");
}
Ok(())
}
#[test]
fn test_h265_single_nalunit_packet() -> Result<()> {
#[derive(Default)]
struct TestType {
raw: Bytes,
with_donl: bool,
expected_packet: Option<H265SingleNALUnitPacket>,
expected_err: Option<Error>,
}
let tests = vec![
TestType {
raw: Bytes::from_static(&[]),
expected_err: Some(Error::ErrShortPacket),
..Default::default()
},
TestType {
raw: Bytes::from_static(&[0x62]),
expected_err: Some(Error::ErrShortPacket),
..Default::default()
},
TestType {
raw: Bytes::from_static(&[0x62, 0x01, 0x93]),
expected_err: Some(Error::ErrShortPacket),
..Default::default()
},
// FBit enabled in H265NALUHeader
TestType {
raw: Bytes::from_static(&[0x80, 0x01, 0x93, 0xaf, 0xaf, 0xaf, 0xaf]),
expected_err: Some(Error::ErrH265CorruptedPacket),
..Default::default()
},
// Type '49' in H265NALUHeader
TestType {
raw: Bytes::from_static(&[0x62, 0x01, 0x93, 0xaf, 0xaf, 0xaf, 0xaf]),
expected_err: Some(Error::ErrInvalidH265PacketType),
..Default::default()
},
// Type '50' in H265NALUHeader
TestType {
raw: Bytes::from_static(&[0x64, 0x01, 0x93, 0xaf, 0xaf, 0xaf, 0xaf]),
expected_err: Some(Error::ErrInvalidH265PacketType),
..Default::default()
},
TestType {
raw: Bytes::from_static(&[0x01, 0x01, 0xab, 0xcd, 0xef]),
expected_packet: Some(H265SingleNALUnitPacket {
payload_header: H265NALUHeader::new(0x01, 0x01),
payload: Bytes::from_static(&[0xab, 0xcd, 0xef]),
..Default::default()
}),
..Default::default()
},
// DONL, payload too small
TestType {
raw: Bytes::from_static(&[0x01, 0x01, 0x93, 0xaf]),
expected_err: Some(Error::ErrShortPacket),
with_donl: true,
..Default::default()
},
TestType {
raw: Bytes::from_static(&[0x01, 0x01, 0xaa, 0xbb, 0xcc]),
expected_packet: Some(H265SingleNALUnitPacket {
payload_header: H265NALUHeader::new(0x01, 0x01),
donl: Some((0xaa << 8) | 0xbb),
payload: Bytes::from_static(&[0xcc]),
..Default::default()
}),
with_donl: true,
..Default::default()
},
];
for cur in tests {
let mut parsed = H265SingleNALUnitPacket::default();
if cur.with_donl {
parsed.with_donl(cur.with_donl);
}
let result = parsed.depacketize(&cur.raw);
if cur.expected_err.is_some() && result.is_ok() {
assert!(false, "should error");
} else if cur.expected_err.is_none() && result.is_err() {
assert!(false, "should not error");
}
if let Some(expected_packet) = cur.expected_packet {
assert_eq!(
expected_packet.payload_header(),
parsed.payload_header(),
"invalid payload header"
);
assert_eq!(expected_packet.donl(), parsed.donl(), "invalid DONL");
assert_eq!(
expected_packet.payload(),
parsed.payload(),
"invalid payload"
);
}
}
Ok(())
}
#[test]
fn test_h265_aggregation_packet() -> Result<()> {
#[derive(Default)]
struct TestType {
raw: Bytes,
with_donl: bool,
expected_packet: Option<H265AggregationPacket>,
expected_err: Option<Error>,
}
let tests = vec![
TestType {
raw: Bytes::from_static(&[]),
expected_err: Some(Error::ErrShortPacket),
..Default::default()
},
TestType {
raw: Bytes::from_static(&[0x62]),
expected_err: Some(Error::ErrShortPacket),
..Default::default()
},
TestType {
raw: Bytes::from_static(&[0x62, 0x01, 0x93]),
expected_err: Some(Error::ErrShortPacket),
..Default::default()
},
// FBit enabled in H265NALUHeader
TestType {
raw: Bytes::from_static(&[0x80, 0x01, 0x93, 0xaf, 0xaf, 0xaf, 0xaf]),
expected_err: Some(Error::ErrH265CorruptedPacket),
..Default::default()
},
// Type '48' in H265NALUHeader
TestType {
raw: Bytes::from_static(&[0xE0, 0x01, 0x93, 0xaf, 0xaf, 0xaf, 0xaf]),
expected_err: Some(Error::ErrInvalidH265PacketType),
..Default::default()
},
// Small payload
TestType {
raw: Bytes::from_static(&[0x60, 0x01, 0x00, 0x1]),
expected_err: Some(Error::ErrShortPacket),
..Default::default()
},
// Small payload
TestType {
raw: Bytes::from_static(&[0x60, 0x01, 0x00]),
expected_err: Some(Error::ErrShortPacket),
with_donl: true,
..Default::default()
},
// Small payload
TestType {
raw: Bytes::from_static(&[0x60, 0x01, 0x00, 0x1]),
expected_err: Some(Error::ErrShortPacket),
with_donl: true,
..Default::default()
},
// Small payload
TestType {
raw: Bytes::from_static(&[0x60, 0x01, 0x00, 0x01, 0x02]),
expected_err: Some(Error::ErrShortPacket),
with_donl: true,
..Default::default()
},
// Single Aggregation Unit
TestType {
raw: Bytes::from_static(&[0x60, 0x01, 0x00, 0x01, 0x00, 0x02, 0x00, 0x00]),
expected_err: Some(Error::ErrShortPacket),
with_donl: true,
..Default::default()
},
// Incomplete second Aggregation Unit
TestType {
raw: Bytes::from_static(&[
0x60, 0x01, 0x00, 0x01, 0x00, 0x02, 0x00, 0x00, // DONL
0x00,
]),
expected_err: Some(Error::ErrShortPacket),
with_donl: true,
..Default::default()
},
// Incomplete second Aggregation Unit
TestType {
raw: Bytes::from_static(&[
0x60, 0x01, 0x00, 0x01, 0x00, 0x02, 0x00, 0x00,
// DONL, NAL Unit size (2 bytes)
0x00, 0x55, 0x55,
]),
expected_err: Some(Error::ErrShortPacket),
with_donl: true,
..Default::default()
},
// Valid Second Aggregation Unit
TestType {
raw: Bytes::from_static(&[
0x60, 0x01, 0xcc, 0xdd, 0x00, 0x02, 0xff, 0xee,
// DONL, NAL Unit size (2 bytes), Payload
0x77, 0x00, 0x01, 0xaa,
]),
with_donl: true,
expected_packet: Some(H265AggregationPacket {
first_unit: Some(H265AggregationUnitFirst {
donl: Some(0xccdd),
nal_unit_size: 2,
nal_unit: Bytes::from_static(&[0xff, 0xee]),
}),
other_units: vec![H265AggregationUnit {
dond: Some(0x77),
nal_unit_size: 1,
nal_unit: Bytes::from_static(&[0xaa]),
}],
might_need_donl: false,
}),
..Default::default()
},
];
for cur in tests {
let mut parsed = H265AggregationPacket::default();
if cur.with_donl {
parsed.with_donl(cur.with_donl);
}
let result = parsed.depacketize(&cur.raw);
if cur.expected_err.is_some() && result.is_ok() {
assert!(false, "should error");
} else if cur.expected_err.is_none() && result.is_err() {
assert!(false, "should not error");
}
if let Some(expected_packet) = cur.expected_packet {
if let (Some(first_unit), Some(parsed_first_unit)) =
(expected_packet.first_unit(), parsed.first_unit())
{
assert_eq!(
parsed_first_unit.nal_unit_size, first_unit.nal_unit_size,
"invalid first unit NALUSize"
);
assert_eq!(
first_unit.donl(),
parsed_first_unit.donl(),
"invalid first unit DONL"
);
assert_eq!(
first_unit.nal_unit(),
parsed_first_unit.nal_unit(),
"invalid first unit NalUnit"
);
}
assert_eq!(
expected_packet.other_units().len(),
parsed.other_units().len(),
"number of other units mismatch"
);
for ndx in 0..expected_packet.other_units().len() {
assert_eq!(
parsed.other_units()[ndx].nalu_size(),
expected_packet.other_units()[ndx].nalu_size(),
"invalid unit NALUSize"
);
assert_eq!(
expected_packet.other_units()[ndx].dond(),
parsed.other_units()[ndx].dond(),
"invalid unit DOND"
);
assert_eq!(
expected_packet.other_units()[ndx].nal_unit(),
parsed.other_units()[ndx].nal_unit(),
"invalid first unit NalUnit"
);
}
assert_eq!(
expected_packet.other_units(),
parsed.other_units(),
"invalid payload"
);
}
}
Ok(())
}
#[test]
fn test_h265_fragmentation_unit_packet() -> Result<()> {
#[derive(Default)]
struct TestType {
raw: Bytes,
with_donl: bool,
expected_fu: Option<H265FragmentationUnitPacket>,
expected_err: Option<Error>,
}
let tests = vec![
TestType {
raw: Bytes::from_static(&[]),
expected_err: Some(Error::ErrShortPacket),
..Default::default()
},
TestType {
raw: Bytes::from_static(&[0x62]),
expected_err: Some(Error::ErrShortPacket),
..Default::default()
},
TestType {
raw: Bytes::from_static(&[0x62, 0x01]),
expected_err: Some(Error::ErrShortPacket),
..Default::default()
},
TestType {
raw: Bytes::from_static(&[0x62, 0x01, 0x93]),
expected_err: Some(Error::ErrShortPacket),
..Default::default()
},
// FBit enabled in H265NALUHeader
TestType {
raw: Bytes::from_static(&[0x80, 0x01, 0x93, 0xaf]),
expected_err: Some(Error::ErrH265CorruptedPacket),
..Default::default()
},
// Type not '49' in H265NALUHeader
TestType {
raw: Bytes::from_static(&[0x40, 0x01, 0x93, 0xaf]),
expected_err: Some(Error::ErrInvalidH265PacketType),
..Default::default()
},
TestType {
raw: Bytes::from_static(&[0x62, 0x01, 0x93, 0xaf]),
expected_fu: Some(H265FragmentationUnitPacket {
payload_header: H265NALUHeader::new(0x62, 0x01),
fu_header: H265FragmentationUnitHeader(0x93),
donl: None,
payload: Bytes::from_static(&[0xaf]),
might_need_donl: false,
}),
..Default::default()
},
TestType {
raw: Bytes::from_static(&[0x62, 0x01, 0x93, 0xcc]),
with_donl: true,
expected_err: Some(Error::ErrShortPacket),
..Default::default()
},
TestType {
raw: Bytes::from_static(&[0x62, 0x01, 0x93, 0xcc, 0xdd, 0xaf, 0x0d, 0x5a]),
with_donl: true,
expected_fu: Some(H265FragmentationUnitPacket {
payload_header: H265NALUHeader::new(0x62, 0x01),
fu_header: H265FragmentationUnitHeader(0x93),
donl: Some((0xcc << 8) | 0xdd),
payload: Bytes::from_static(&[0xaf, 0x0d, 0x5a]),
might_need_donl: false,
}),
..Default::default()
},
];
for cur in tests {
let mut parsed = H265FragmentationUnitPacket::default();
if cur.with_donl {
parsed.with_donl(cur.with_donl);
}
let result = parsed.depacketize(&cur.raw);
if cur.expected_err.is_some() && result.is_ok() {
assert!(false, "should error");
} else if cur.expected_err.is_none() && result.is_err() {
assert!(false, "should not error");
}
if let Some(expected_fu) = &cur.expected_fu {
assert_eq!(
parsed.payload_header(),
expected_fu.payload_header(),
"invalid payload header"
);
assert_eq!(
parsed.fu_header(),
expected_fu.fu_header(),
"invalid FU header"
);
assert_eq!(parsed.donl(), expected_fu.donl(), "invalid DONL");
assert_eq!(parsed.payload(), expected_fu.payload(), "invalid Payload");
}
}
Ok(())
}
#[test]
fn test_h265_temporal_scalability_control_information() -> Result<()> {
#[derive(Default)]
struct TestType {
value: H265TSCI,
expected_tl0picidx: u8,
expected_irap_pic_id: u8,
expected_s: bool,
expected_e: bool,
expected_res: u8,
}
let tests = vec![
TestType {
value: H265TSCI(((0xCA) << 24) | ((0xFE) << 16)),
expected_tl0picidx: 0xCA,
expected_irap_pic_id: 0xFE,
..Default::default()
},
TestType {
value: H265TSCI((1) << 15),
expected_s: true,
..Default::default()
},
TestType {
value: H265TSCI((1) << 14),
expected_e: true,
..Default::default()
},
TestType {
value: H265TSCI((0x0A) << 8),
expected_res: 0x0A,
..Default::default()
},
// Sets RES, and force sets S and E to 0.
TestType {
value: H265TSCI(((0xAA) << 8) & (u32::MAX ^ ((1) << 15)) & (u32::MAX ^ ((1) << 14))),
expected_res: 0xAA & 0b00111111,
..Default::default()
},
];
for cur in tests {
assert_eq!(
cur.value.tl0picidx(),
cur.expected_tl0picidx,
"invalid TL0PICIDX"
);
assert_eq!(
cur.value.irap_pic_id(),
cur.expected_irap_pic_id,
"invalid IrapPicID"
);
assert_eq!(cur.value.s(), cur.expected_s, "invalid S");
assert_eq!(cur.value.e(), cur.expected_e, "invalid E");
assert_eq!(cur.value.res(), cur.expected_res, "invalid RES");
}
Ok(())
}
#[test]
fn test_h265_paci_packet() -> Result<()> {
#[derive(Default)]
struct TestType {
raw: Bytes,
expected_fu: Option<H265PACIPacket>,
expected_err: Option<Error>,
}
let tests = vec![
TestType {
raw: Bytes::from_static(&[]),
expected_err: Some(Error::ErrShortPacket),
..Default::default()
},
TestType {
raw: Bytes::from_static(&[0x62, 0x01, 0x93]),
expected_err: Some(Error::ErrShortPacket),
..Default::default()
},
// FBit enabled in H265NALUHeader
TestType {
raw: Bytes::from_static(&[0x80, 0x01, 0x93, 0xaf, 0xaf, 0xaf, 0xaf]),
expected_err: Some(Error::ErrH265CorruptedPacket),
..Default::default()
},
// Type not '50' in H265NALUHeader
TestType {
raw: Bytes::from_static(&[0x40, 0x01, 0x93, 0xaf, 0xaf, 0xaf, 0xaf]),
expected_err: Some(Error::ErrInvalidH265PacketType),
..Default::default()
},
// Invalid header extension size
TestType {
raw: Bytes::from_static(&[0x64, 0x01, 0x93, 0xaf, 0xaf, 0xaf, 0xaf]),
expected_err: Some(Error::ErrInvalidH265PacketType),
..Default::default()
},
// No Header Extension
TestType {
raw: Bytes::from_static(&[0x64, 0x01, 0x64, 0x00, 0xab, 0xcd, 0xef]),
expected_fu: Some(H265PACIPacket {
payload_header: H265NALUHeader::new(0x64, 0x01),
paci_header_fields: ((0x64) << 8),
phes: Bytes::from_static(&[]),
payload: Bytes::from_static(&[0xab, 0xcd, 0xef]),
}),
..Default::default()
},
// Header Extension 1 byte
TestType {
raw: Bytes::from_static(&[0x64, 0x01, 0x64, 0x10, 0xff, 0xab, 0xcd, 0xef]),
expected_fu: Some(H265PACIPacket {
payload_header: H265NALUHeader::new(0x64, 0x01),
paci_header_fields: ((0x64) << 8) | (0x10),
phes: Bytes::from_static(&[0xff]),
payload: Bytes::from_static(&[0xab, 0xcd, 0xef]),
}),
..Default::default()
},
// Header Extension TSCI
TestType {
raw: Bytes::from_static(&[
0x64, 0x01, 0x64, 0b00111000, 0xaa, 0xbb, 0x80, 0xab, 0xcd, 0xef,
]),
expected_fu: Some(H265PACIPacket {
payload_header: H265NALUHeader::new(0x64, 0x01),
paci_header_fields: ((0x64) << 8) | (0b00111000),
phes: Bytes::from_static(&[0xaa, 0xbb, 0x80]),
payload: Bytes::from_static(&[0xab, 0xcd, 0xef]),
}),
..Default::default()
},
];
for cur in tests {
let mut parsed = H265PACIPacket::default();
let result = parsed.depacketize(&cur.raw);
if cur.expected_err.is_some() && result.is_ok() {
assert!(false, "should error");
} else if cur.expected_err.is_none() && result.is_err() {
assert!(false, "should not error");
}
if let Some(expected_fu) = &cur.expected_fu {
assert_eq!(
expected_fu.payload_header(),
parsed.payload_header(),
"invalid PayloadHeader"
);
assert_eq!(expected_fu.a(), parsed.a(), "invalid A");
assert_eq!(expected_fu.ctype(), parsed.ctype(), "invalid CType");
assert_eq!(expected_fu.phs_size(), parsed.phs_size(), "invalid PHSsize");
assert_eq!(expected_fu.f0(), parsed.f0(), "invalid F0");
assert_eq!(expected_fu.f1(), parsed.f1(), "invalid F1");
assert_eq!(expected_fu.f2(), parsed.f2(), "invalid F2");
assert_eq!(expected_fu.y(), parsed.y(), "invalid Y");
assert_eq!(expected_fu.phes(), parsed.phes(), "invalid PHES");
assert_eq!(expected_fu.payload(), parsed.payload(), "invalid Payload");
assert_eq!(expected_fu.tsci(), parsed.tsci(), "invalid TSCI");
}
}
Ok(())
}
#[test]
fn test_h265_packet() -> Result<()> {
#[derive(Default)]
struct TestType {
raw: Bytes,
with_donl: bool,
expected_packet_type: Option<H265Payload>,
expected_err: Option<Error>,
}
let tests = vec![
TestType {
raw: Bytes::from_static(&[]),
expected_err: Some(Error::ErrShortPacket),
..Default::default()
},
TestType {
raw: Bytes::from_static(&[0x62, 0x01, 0x93]),
expected_err: Some(Error::ErrShortPacket),
..Default::default()
},
TestType {
raw: Bytes::from_static(&[0x64, 0x01, 0x93, 0xaf]),
expected_err: Some(Error::ErrShortPacket),
..Default::default()
},
TestType {
raw: Bytes::from_static(&[0x01, 0x01]),
with_donl: true,
expected_err: Some(Error::ErrShortPacket),
..Default::default()
},
// FBit enabled in H265NALUHeader
TestType {
raw: Bytes::from_static(&[0x80, 0x01, 0x93, 0xaf, 0xaf, 0xaf, 0xaf]),
expected_err: Some(Error::ErrH265CorruptedPacket),
..Default::default()
},
// Valid H265SingleNALUnitPacket
TestType {
raw: Bytes::from_static(&[0x01, 0x01, 0xab, 0xcd, 0xef]),
expected_packet_type: Some(H265Payload::H265SingleNALUnitPacket(
H265SingleNALUnitPacket::default(),
)),
..Default::default()
},
// Invalid H265SingleNALUnitPacket
TestType {
raw: Bytes::from_static(&[0x01, 0x01, 0x93, 0xaf]),
expected_err: Some(Error::ErrShortPacket),
with_donl: true,
..Default::default()
},
// Valid H265PACIPacket
TestType {
raw: Bytes::from_static(&[
0x64, 0x01, 0x64, 0b00111000, 0xaa, 0xbb, 0x80, 0xab, 0xcd, 0xef,
]),
expected_packet_type: Some(H265Payload::H265PACIPacket(H265PACIPacket::default())),
..Default::default()
},
// Valid H265FragmentationUnitPacket
TestType {
raw: Bytes::from_static(&[0x62, 0x01, 0x93, 0xcc, 0xdd, 0xaf, 0x0d, 0x5a]),
expected_packet_type: Some(H265Payload::H265FragmentationUnitPacket(
H265FragmentationUnitPacket::default(),
)),
with_donl: true,
..Default::default()
},
// Valid H265AggregationPacket
TestType {
raw: Bytes::from_static(&[
0x60, 0x01, 0xcc, 0xdd, 0x00, 0x02, 0xff, 0xee, 0x77, 0x00, 0x01, 0xaa,
]),
expected_packet_type: Some(H265Payload::H265AggregationPacket(
H265AggregationPacket::default(),
)),
with_donl: true,
..Default::default()
},
// Invalid H265AggregationPacket
TestType {
raw: Bytes::from_static(&[0x60, 0x01, 0x00, 0x01, 0x00, 0x02, 0x00, 0x00]),
expected_err: Some(Error::ErrShortPacket),
with_donl: true,
..Default::default()
},
];
for cur in tests {
let mut pck = H265Packet::default();
if cur.with_donl {
pck.with_donl(true);
}
let result = pck.depacketize(&cur.raw);
if cur.expected_err.is_some() && result.is_ok() {
assert!(false, "should error");
} else if cur.expected_err.is_none() && result.is_err() {
assert!(false, "should not error");
}
if cur.expected_err.is_some() {
continue;
}
if let Some(expected_packet_type) = &cur.expected_packet_type {
//TODO: assert_eq!(pck.packet(), expected_packet_type, "invalid packet type");
let pck_packet = pck.payload();
match (pck_packet, expected_packet_type) {
(
&H265Payload::H265SingleNALUnitPacket(_),
&H265Payload::H265SingleNALUnitPacket(_),
) => assert!(true),
(
&H265Payload::H265FragmentationUnitPacket(_),
&H265Payload::H265FragmentationUnitPacket(_),
) => assert!(true),
(
&H265Payload::H265AggregationPacket(_),
&H265Payload::H265AggregationPacket(_),
) => assert!(true),
(&H265Payload::H265PACIPacket(_), &H265Payload::H265PACIPacket(_)) => {
assert!(true)
}
_ => assert!(false),
};
}
}
Ok(())
}
#[test]
fn test_h265_packet_real() -> Result<()> {
// Tests decoding of real H265 payloads extracted from a Wireshark dump.
let tests = vec![
b"\x40\x01\x0c\x01\xff\xff\x01\x60\x00\x00\x03\x00\xb0\x00\x00\x03\x00\x00\x03\x00\x7b\xac\x09".to_vec(),
b"\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".to_vec(),
b"\x44\x01\xc0\xf2\xf0\x3c\x90".to_vec(),
b"\x4e\x01\xe5\x04\x61\x0c\x00\x00\x80".to_vec(),
b"\x62\x01\x93\xaf\x0d\x5a\xfe\x67\x77\x29\xc0\x74\xf3\x57\x4c\x16\x94\xaa\x7c\x2a\x64\x5f\xe9\xa5\xb7\x2a\xa3\x95\x9d\x94\xa7\xb4\xd3\xc4\x4a\xb1\xb7\x69\xca\xbe\x75\xc5\x64\xa8\x97\x4b\x8a\xbf\x7e\xf0\x0f\xc3\x22\x60\x67\xab\xae\x96\xd6\x99\xca\x7a\x8d\x35\x93\x1a\x67\x60\xe7\xbe\x7e\x13\x95\x3c\xe0\x11\xc1\xc1\xa7\x48\xef\xf7\x7b\xb0\xeb\x35\x49\x81\x4e\x4e\x54\xf7\x31\x6a\x38\xa1\xa7\x0c\xd6\xbe\x3b\x25\xba\x08\x19\x0b\x49\xfd\x90\xbb\x73\x7a\x45\x8c\xb9\x73\x43\x04\xc5\x5f\xda\x0f\xd5\x70\x4c\x11\xee\x72\xb8\x6a\xb4\x95\x62\x64\xb6\x23\x14\x7e\xdb\x0e\xa5\x0f\x86\x31\xe4\xd1\x64\x56\x43\xf6\xb7\xe7\x1b\x93\x4a\xeb\xd0\xa6\xe3\x1f\xce\xda\x15\x67\x05\xb6\x77\x36\x8b\x27\x5b\xc6\xf2\x95\xb8\x2b\xcc\x9b\x0a\x03\x05\xbe\xc3\xd3\x85\xf5\x69\xb6\x19\x1f\x63\x2d\x8b\x65\x9e\xc3\x9d\xd2\x44\xb3\x7c\x86\x3b\xea\xa8\x5d\x02\xe5\x40\x03\x20\x76\x48\xff\xf6\x2b\x0d\x18\xd6\x4d\x49\x70\x1a\x5e\xb2\x89\xca\xec\x71\x41\x79\x4e\x94\x17\x0c\x57\x51\x55\x14\x61\x40\x46\x4b\x3e\x17\xb2\xc8\xbd\x1c\x06\x13\x91\x72\xf8\xc8\xfc\x6f\xb0\x30\x9a\xec\x3b\xa6\xc9\x33\x0b\xa5\xe5\xf4\x65\x7a\x29\x8b\x76\x62\x81\x12\xaf\x20\x4c\xd9\x21\x23\x9e\xeb\xc9\x0e\x5b\x29\x35\x7f\x41\xcd\xce\xa1\xc4\xbe\x01\x30\xb9\x11\xc3\xb1\xe4\xce\x45\xd2\x5c\xb3\x1e\x69\x78\xba\xb1\x72\xe4\x88\x54\xd8\x5d\xd0\xa8\x3a\x74\xad\xe5\xc7\xc1\x59\x7c\x78\x15\x26\x37\x3d\x50\xae\xb3\xa4\x5b\x6c\x7d\x65\x66\x85\x4d\x16\x9a\x67\x74\xad\x55\x32\x3a\x84\x85\x0b\x6a\xeb\x24\x97\xb4\x20\x4d\xca\x41\x61\x7a\xd1\x7b\x60\xdb\x7f\xd5\x61\x22\xcf\xd1\x7e\x4c\xf3\x85\xfd\x13\x63\xe4\x9d\xed\xac\x13\x0a\xa0\x92\xb7\x34\xde\x65\x0f\xd9\x0f\x9b\xac\xe2\x47\xe8\x5c\xb3\x11\x8e\xc6\x08\x19\xd0\xb0\x85\x52\xc8\x5c\x1b\x08\x0a\xce\xc9\x6b\xa7\xef\x95\x2f\xd0\xb8\x63\xe5\x4c\xd4\xed\x6e\x87\xe9\xd4\x0a\xe6\x11\x44\x63\x00\x94\x18\xe9\x28\xba\xcf\x92\x43\x06\x59\xdd\x37\x4f\xd3\xef\x9d\x31\x5e\x9b\x48\xf9\x1f\x3e\x7b\x95\x3a\xbd\x1f\x71\x55\x0c\x06\xf9\x86\xf8\x3d\x39\x16\x50\xb3\x21\x11\x19\x6f\x70\xa9\x48\xe8\xbb\x0a\x11\x23\xf8\xab\xfe\x44\xe0\xbb\xe8\x64\xfa\x85\xe4\x02\x55\x88\x41\xc6\x30\x7f\x10\xad\x75\x02\x4b\xef\xe1\x0b\x06\x3c\x10\x49\x83\xf9\xd1\x3e\x3e\x67\x86\x4c\xf8\x9d\xde\x5a\xc4\xc8\xcf\xb6\xf4\xb0\xd3\x34\x58\xd4\x7b\x4d\xd3\x37\x63\xb2\x48\x8a\x7e\x20\x00\xde\xb4\x42\x8f\xda\xe9\x43\x9e\x0c\x16\xce\x79\xac\x2c\x70\xc1\x89\x05\x36\x62\x6e\xd9\xbc\xfb\x63\xc6\x79\x89\x3c\x90\x89\x2b\xd1\x8c\xe0\xc2\x54\xc7\xd6\xb4\xe8\x9e\x96\x55\x6e\x7b\xd5\x7f\xac\xd4\xa7\x1c\xa0\xdf\x01\x30\xad\xc0\x9f\x69\x06\x10\x43\x7f\xf4\x5d\x62\xa3\xea\x73\xf2\x14\x79\x19\x13\xea\x59\x14\x79\xa8\xe7\xce\xce\x44\x25\x13\x41\x18\x57\xdd\xce\xe4\xbe\xcc\x20\x80\x29\x71\x73\xa7\x7c\x86\x39\x76\xf4\xa7\x1c\x63\x24\x21\x93\x1e\xb5\x9a\x5c\x8a\x9e\xda\x8b\x9d\x88\x97\xfc\x98\x7d\x26\x74\x04\x1f\xa8\x10\x4f\x45\xcd\x46\xe8\x28\xe4\x8e\x59\x67\x63\x4a\xcf\x1e\xed\xdd\xbb\x79\x2f\x8d\x94\xab\xfc\xdb\xc5\x79\x1a\x4d\xcd\x53\x41\xdf\xd1\x7a\x8f\x46\x3e\x1f\x79\x88\xe3\xee\x9f\xc4\xc1\xe6\x2e\x89\x4d\x28\xc9\xca\x28\xc2\x0a\xc5\xc7\xf1\x22\xcd\xb3\x36\xfa\xe3\x7e\xa6\xcd\x95\x55\x5e\x0e\x1a\x75\x7f\x65\x27\xd3\x37\x4f\x23\xc5\xab\x49\x68\x4e\x02\xb5\xbf\xd7\x95\xc0\x78\x67\xbc\x1a\xe9\xae\x6f\x44\x58\x8a\xc2\xce\x42\x98\x4e\x77\xc7\x2a\xa0\xa7\x7d\xe4\x3b\xd1\x20\x82\x1a\xd3\xe2\xc7\x76\x5d\x06\x46\xb5\x24\xd7\xfb\x57\x63\x2b\x19\x51\x48\x65\x6d\xfb\xe0\x98\xd1\x14\x0e\x17\x64\x29\x34\x6f\x6e\x66\x9e\x8d\xc9\x89\x49\x69\xee\x74\xf3\x35\xe6\x8b\x67\x56\x95\x7f\x1b\xe9\xed\x8c\x0f\xe2\x19\x59\xbf\x03\x35\x55\x3c\x04\xbc\x40\x52\x90\x10\x08\xad\xa7\x65\xe0\x31\xcb\xcf\x3d\xd4\x62\x68\x01\x0d\xed\xf5\x28\x64\x2d\xaa\x7c\x99\x15\x8d\x70\x32\x53\xb8\x9d\x0a\x3c\xbf\x91\x02\x04\xd0\xee\x87\xce\x04\xcc\x3e\xa8\x20\xfd\x97\xdf\xbf\x4a\xbc\xfc\xc9\x7c\x77\x21\xcc\x23\x6f\x59\x38\xd8\xd9\xa0\x0e\xb1\x23\x4e\x04\x3f\x14\x9e\xcc\x05\x54\xab\x20\x69\xed\xa4\xd5\x1d\xb4\x1b\x52\xed\x6a\xea\xeb\x7f\xd1\xbc\xfd\x75\x20\xa0\x1c\x59\x8c\x5a\xa1\x2a\x70\x64\x11\xb1\x7b\xc1\x24\x80\x28\x51\x4c\x94\xa1\x95\x64\x72\xe8\x90\x67\x38\x74\x2b\xab\x38\x46\x12\x71\xce\x19\x98\x98\xf7\x89\xd4\xfe\x2f\x2a\xc5\x61\x20\xd0\xa4\x1a\x51\x3c\x82\xc8\x18\x31\x7a\x10\xe8\x1c\xc6\x95\x5a\xa0\x82\x88\xce\x8f\x4b\x47\x85\x7e\x89\x95\x95\x52\x1e\xac\xce\x45\x57\x61\x38\x97\x2b\x62\xa5\x14\x6f\xc3\xaa\x6c\x35\x83\xc9\xa3\x1e\x30\x89\xf4\xb1\xea\x4f\x39\xde\xde\xc7\x46\x5c\x0e\x85\x41\xec\x6a\xa4\xcb\xee\x70\x9c\x57\xd9\xf4\xa1\xc3\x9c\x2a\x0a\xf0\x5d\x58\xb0\xae\xd4\xdc\xc5\x6a\xa8\x34\xfa\x23\xef\xef\x08\x39\xc3\x3d\xea\x11\x6e\x6a\xe0\x1e\xd0\x52\xa8\xc3\x6e\xc9\x1c\xfc\xd0\x0c\x4c\xea\x0d\x82\xcb\xdd\x29\x1a\xc4\x4f\x6e\xa3\x4d\xcb\x7a\x38\x77\xe5\x15\x6e\xad\xfa\x9d\x2f\x02\xb6\x39\x84\x3a\x60\x8f\x71\x9f\x92\xe5\x24\x4f\xbd\x18\x49\xd5\xef\xbf\x70\xfb\xd1\x4c\x2e\xfc\x2f\x36\xf3\x00\x31\x2e\x90\x18\xcc\xf4\x71\xb9\xe4\xf9\xbe\xcb\x5e\xff\xf3\xe7\xf8\xca\x03\x60\x66\xb3\xc9\x5a\xf9\x74\x09\x02\x57\xb6\x90\x94\xfc\x41\x35\xdc\x35\x3f\x32\x7a\xa6\xa5\xcd\x8a\x8f\xc8\x3d\xc8\x81\xc3\xec\x37\x74\x86\x61\x41\x0d\xc5\xe2\xc8\x0c\x84\x2b\x3b\x71\x58\xde\x1b\xe3\x20\x65\x2e\x76\xf4\x98\xd8\xaa\x78\xe6\xeb\xb8\x85\x0d\xa0\xd0\xf5\x57\x64\x01\x58\x55\x82\xd5\x0f\x2d\x9c\x3e\x2a\xa0\x7e\xaf\x42\xf3\x37\xd1\xb3\xaf\xda\x5b\xa9\xda\xe3\x89\x5d\xf1\xca\xa5\x12\x3d\xe7\x91\x95\x53\x21\x72\xca\x7f\xf6\x79\x59\x21\xcf\x30\x18\xfb\x78\x55\x40\x59\xc3\xf9\xf1\xdd\x58\x44\x5e\x83\x11\x5c\x2d\x1d\x91\xf6\x01\x3d\x3f\xd4\x33\x81\x66\x6c\x40\x7a\x9d\x70\x10\x58\xe6\x53\xad\x85\x11\x99\x3e\x4b\xbc\x31\xc6\x78\x9d\x79\xc5\xde\x9f\x2e\x43\xfa\x76\x84\x2f\xfd\x28\x75\x12\x48\x25\xfd\x15\x8c\x29\x6a\x91\xa4\x63\xc0\xa2\x8c\x41\x3c\xf1\xb0\xf8\xdf\x66\xeb\xbd\x14\x88\xa9\x81\xa7\x35\xc4\x41\x40\x6c\x10\x3f\x09\xbd\xb5\xd3\x7a\xee\x4b\xd5\x86\xff\x36\x03\x6b\x78\xde".to_vec(),
b"\x62\x01\x53\x8a\xe9\x25\xe1\x06\x09\x8e\xba\x12\x74\x87\x09\x9a\x95\xe4\x86\x62\x2b\x4b\xf9\xa6\x2e\x7b\x35\x43\xf7\x39\x99\x0f\x3b\x6f\xfd\x1a\x6e\x23\x54\x70\xb5\x1d\x10\x1c\x63\x40\x96\x99\x41\xb6\x96\x0b\x70\x98\xec\x17\xb0\xaa\xdc\x4a\xab\xe8\x3b\xb7\x6b\x00\x1c\x5b\xc3\xe0\xa2\x8b\x7c\x17\xc8\x92\xc9\xb0\x92\xb6\x70\x84\x95\x30".to_vec(),
b"\x4e\x01\xe5\x04\x35\xac\x00\x00\x80".to_vec(),
b"\x62\x01\x41\xb0\x75\x5c\x27\x46\xef\x8a\xe7\x1d\x50\x38\xb2\x13\x33\xe0\x79\x35\x1b\xc2\xb5\x79\x73\xe7\xc2\x6f\xb9\x1a\x8c\x21\x0e\xa9\x54\x17\x6c\x41\xab\xc8\x16\x57\xec\x5e\xeb\x89\x3b\xa9\x90\x8c\xff\x4d\x46\x8b\xf0\xd9\xc0\xd0\x51\xcf\x8b\x88\xf1\x5f\x1e\x9e\xc1\xb9\x1f\xe3\x06\x45\x35\x8a\x47\xe8\x9a\xf2\x4f\x19\x4c\xf8\xce\x68\x1b\x63\x34\x11\x75\xea\xe5\xb1\x0f\x38\xcc\x05\x09\x8b\x3e\x2b\x88\x84\x9d\xc5\x03\xc3\xc0\x90\x32\xe2\x45\x69\xb1\xe5\xf7\x68\x6b\x16\x90\xa0\x40\xe6\x18\x74\xd8\x68\xf3\x34\x38\x99\xf2\x6c\xb7\x1a\x35\x21\xca\x52\x56\x4c\x7f\xb2\xa3\xd5\xb8\x40\x50\x48\x3e\xdc\xdf\x0b\xf5\x54\x5a\x15\x1a\xe2\xc3\xb4\x94\xda\x3f\xb5\x34\xa2\xca\xbc\x2f\xe0\xa4\xe5\x69\xf4\xbf\x62\x4d\x15\x21\x1b\x11\xfc\x39\xaa\x86\x74\x96\x63\xfd\x07\x53\x26\xf6\x34\x72\xeb\x14\x37\x98\x0d\xf4\x68\x91\x2c\x6b\x46\x83\x88\x82\x04\x8b\x9f\xb8\x32\x73\x75\x8b\xf9\xac\x71\x42\xd1\x2d\xb4\x28\x28\xf5\x78\xe0\x32\xf3\xe1\xfc\x43\x6b\xf9\x92\xf7\x48\xfe\x7f\xc0\x17\xbd\xfd\xba\x2f\x58\x6f\xee\x84\x03\x18\xce\xb0\x9d\x8d\xeb\x22\xf1\xfc\xb1\xcf\xff\x2f\xb2\x9f\x6c\xe5\xb4\x69\xdc\xdd\x20\x93\x00\x30\xad\x56\x04\x66\x7e\xa3\x3c\x18\x4b\x43\x66\x00\x27\x1e\x1c\x09\x11\xd8\xf4\x8a\x9e\xc5\x6a\x94\xe5\xae\x0b\x8a\xbe\x84\xda\xe5\x44\x7f\x38\x1c\xe7\xbb\x03\x19\x66\xe1\x5d\x1d\xc1\xbd\x3d\xc6\xb7\xe3\xff\x7f\x8e\xff\x1e\xf6\x9e\x6f\x58\x27\x74\x65\xef\x02\x5d\xa4\xde\x27\x7f\x51\xe3\x4b\x9e\x3f\x79\x83\xbd\x1b\x8f\x0d\x77\xfb\xbc\xc5\x9f\x15\xa7\x4e\x05\x8a\x24\x97\x66\xb2\x7c\xf6\xe1\x84\x54\xdb\x39\x5e\xf6\x1b\x8f\x05\x73\x1d\xb6\x8e\xd7\x09\x9a\xc5\x92\x80".to_vec(),
];
for cur in tests {
let mut pck = H265Packet::default();
let _ = pck.depacketize(&Bytes::from(cur))?;
}
Ok(())
}