fix(video): add frame metadata and Android encode diagnostics
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This commit is contained in:
Siavash Sameni
2026-05-26 11:28:17 +04:00
parent 9a7745978b
commit 112472609e
8 changed files with 574 additions and 85 deletions

View File

@@ -16,9 +16,9 @@
use std::sync::Mutex;
use wzp_proto::CodecId;
use wzp_video::{
VideoFrame,
factory::{create_video_decoder, create_video_encoder},
transport::{VideoReassembler, packetize_video_frame},
transport::{packetize_video_frame, VideoReassembler},
VideoFrame,
};
/// VideoToolbox has global session registry state — serialise integration tests
@@ -42,7 +42,12 @@ fn synthetic_i420(width: u32, height: u32, frame_idx: u32) -> VideoFrame {
data[y_size..y_size + uv_size].fill(128);
data[y_size + uv_size..].fill(128);
VideoFrame { width, height, data, timestamp_ms: frame_idx as u64 * 33 }
VideoFrame {
width,
height,
data,
timestamp_ms: frame_idx as u64 * 33,
}
}
// ── tests ─────────────────────────────────────────────────────────────────────
@@ -53,10 +58,10 @@ fn h264_pipeline_roundtrip() {
let _g = VT_LOCK.lock().unwrap();
let (w, h) = (640, 360);
let mut encoder = create_video_encoder(CodecId::H264Baseline, w, h, 1_500_000)
.expect("H264Baseline encoder");
let mut decoder = create_video_decoder(CodecId::H264Baseline, w, h)
.expect("H264Baseline decoder");
let mut encoder =
create_video_encoder(CodecId::H264Baseline, w, h, 1_500_000).expect("H264Baseline encoder");
let mut decoder =
create_video_decoder(CodecId::H264Baseline, w, h).expect("H264Baseline decoder");
let mut seq = 0u32;
let mut decoded_count = 0usize;
@@ -71,32 +76,60 @@ fn h264_pipeline_roundtrip() {
}
let is_keyframe = encoder.is_keyframe(&encoded);
let pkts = packetize_video_frame(&encoded, CodecId::H264Baseline, is_keyframe, &mut seq, i * 33);
assert!(!pkts.is_empty(), "packetize must produce at least one packet");
let pkts = packetize_video_frame(
&encoded,
CodecId::H264Baseline,
is_keyframe,
&mut seq,
i * 33,
w,
h,
);
assert!(
!pkts.is_empty(),
"packetize must produce at least one packet"
);
// All fragments for this frame share the same timestamp.
let ts = pkts[0].header.timestamp;
let total_frags = pkts.len();
for (idx, pkt) in pkts.iter().enumerate() {
assert_eq!(pkt.header.timestamp, ts, "all fragments of one frame share timestamp");
assert_eq!(
pkt.header.timestamp, ts,
"all fragments of one frame share timestamp"
);
let frag_idx = (pkt.header.fec_block >> 8) as usize;
let frag_total = (pkt.header.fec_block & 0xFF) as usize;
assert_eq!(frag_idx, idx, "fragment index must match packet position");
assert_eq!(frag_total, total_frags, "all fragments carry the correct total count");
assert_eq!(
frag_total, total_frags,
"all fragments carry the correct total count"
);
}
assert!(pkts.last().unwrap().header.is_frame_end(), "last packet must have FLAG_FRAME_END");
assert!(
pkts.last().unwrap().header.is_frame_end(),
"last packet must have FLAG_FRAME_END"
);
// Push through reassembler — only the last packet should yield a frame.
let mut reassembler = VideoReassembler::new();
for (j, pkt) in pkts.iter().enumerate() {
let result = reassembler.push(pkt);
if j + 1 < pkts.len() {
assert!(result.is_none(), "intermediate fragments must not yield a complete frame");
assert!(
result.is_none(),
"intermediate fragments must not yield a complete frame"
);
} else {
let (codec, kf, data) = result.expect("last fragment must complete the frame");
assert_eq!(codec, CodecId::H264Baseline);
assert_eq!(kf, is_keyframe);
assert_eq!(data, encoded, "reassembled bytes must match original encoded bytes");
let frame = result.expect("last fragment must complete the frame");
assert_eq!(frame.codec_id, CodecId::H264Baseline);
assert_eq!(frame.is_keyframe, is_keyframe);
assert_eq!(frame.width, Some(w as u16));
assert_eq!(frame.height, Some(h as u16));
assert_eq!(
frame.data, encoded,
"reassembled bytes must match original encoded bytes"
);
}
}
@@ -118,7 +151,10 @@ fn h264_pipeline_roundtrip() {
}
}
assert!(decoded_count > 0, "at least one frame must have been decoded");
assert!(
decoded_count > 0,
"at least one frame must have been decoded"
);
}
/// Fragmentation: a frame larger than VIDEO_MAX_PAYLOAD splits into multiple packets,
@@ -134,13 +170,28 @@ fn large_frame_fragments_and_reassembles() {
let mut seq = 0u32;
let pkts = packetize_video_frame(
&synthetic_encoded, CodecId::H264Baseline, true, &mut seq, 9000,
&synthetic_encoded,
CodecId::H264Baseline,
true,
&mut seq,
9000,
1280,
720,
);
assert!(pkts.len() >= 4, "large frame must produce ≥4 fragments");
assert!(pkts[0].header.is_keyframe(), "keyframe flag propagates to all fragments");
assert!(!pkts[0].header.is_frame_end(), "first packet is not frame end");
assert!(pkts.last().unwrap().header.is_frame_end(), "last packet is frame end");
assert!(
pkts[0].header.is_keyframe(),
"keyframe flag propagates to all fragments"
);
assert!(
!pkts[0].header.is_frame_end(),
"first packet is not frame end"
);
assert!(
pkts.last().unwrap().header.is_frame_end(),
"last packet is frame end"
);
let mut reassembler = VideoReassembler::new();
let mut result = None;
@@ -148,8 +199,13 @@ fn large_frame_fragments_and_reassembles() {
result = reassembler.push(pkt);
}
let (_, _, data) = result.expect("all fragments delivered → complete frame");
assert_eq!(data, synthetic_encoded, "reassembled bytes must match input exactly");
let frame = result.expect("all fragments delivered → complete frame");
assert_eq!(frame.width, Some(1280));
assert_eq!(frame.height, Some(720));
assert_eq!(
frame.data, synthetic_encoded,
"reassembled bytes must match input exactly"
);
}
/// Packet loss: if the first fragment is missing, reassembly cannot complete.
@@ -159,7 +215,7 @@ fn missing_fragment_blocks_reassembly() {
let frame: Vec<u8> = vec![0xAB; VIDEO_MAX_PAYLOAD * 2 + 50];
let mut seq = 0u32;
let pkts = packetize_video_frame(&frame, CodecId::Av1Main, false, &mut seq, 1234);
let pkts = packetize_video_frame(&frame, CodecId::Av1Main, false, &mut seq, 1234, 640, 480);
assert!(pkts.len() >= 3);
let mut reassembler = VideoReassembler::new();
@@ -193,7 +249,15 @@ fn evict_stale_removes_aged_frames() {
let frame: Vec<u8> = vec![0x55; VIDEO_MAX_PAYLOAD * 2];
let mut seq = 0u32;
let pkts = packetize_video_frame(&frame, CodecId::H264Baseline, false, &mut seq, 500);
let pkts = packetize_video_frame(
&frame,
CodecId::H264Baseline,
false,
&mut seq,
500,
640,
480,
);
let mut reassembler = VideoReassembler::new();
// Push only first packet — frame is incomplete.