test(host): Windows on-hardware NVENC reconfigure smoke — 20→60→10 Mbps in place, zero IDRs
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The Windows twin of nvenc_cuda_reconfigure_no_idr, green on the .173 RTX box (release profile — the dev-profile test binary trips a pre-existing LNK2019 on the sdk crate's unused safe EncodeAPI statics, which release LTO strips). Chasing this also uncovered why the live A/B kept rebuilding: the PunktfunkHost service runs C:\Users\Public\punktfunk-native's exe, not the Developer clone deploy-host.ps1 had been rebuilding. Co-Authored-By: Claude Fable 5 <noreply@anthropic.com>
This commit is contained in:
@@ -1966,6 +1966,126 @@ mod tests {
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}
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}
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/// ON-HARDWARE (RTX box `.173`): the Phase 3.2 in-place rate retarget — encode a few frames,
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/// `reconfigure_bitrate` mid-stream (up AND down), keep encoding, and assert every
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/// post-reconfigure AU is a P-frame (`nvEncReconfigureEncoder` with `resetEncoder=0` /
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/// `forceIDR=0` must NOT restart the stream). The Windows twin of the Linux backend's
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/// `nvenc_cuda_reconfigure_no_idr`. Run:
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/// cargo test -p punktfunk-host --features nvenc -- --ignored nvenc_reconfigure --nocapture
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#[test]
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#[ignore = "requires an NVIDIA GPU + driver — run manually on the RTX box (.173)"]
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fn nvenc_reconfigure_no_idr() {
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let _ = tracing_subscriber::fmt().with_test_writer().try_init();
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const W: u32 = 1280;
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const H: u32 = 720;
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// SAFETY: (test-only) same straight-line D3D11/DXGI setup as `encode_pattern`.
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unsafe {
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let factory: IDXGIFactory1 = CreateDXGIFactory1().expect("DXGI factory");
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let mut adapter = None;
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for i in 0.. {
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let Ok(a) = factory.EnumAdapters1(i) else {
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break;
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};
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let desc = a.GetDesc1().expect("adapter desc");
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if desc.Flags & DXGI_ADAPTER_FLAG_SOFTWARE.0 as u32 == 0 {
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adapter = Some(a);
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break;
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}
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}
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let adapter = adapter.expect("no hardware DXGI adapter");
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let (device, _ctx) = crate::capture::dxgi::make_device(&adapter).expect("make_device");
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let bytes = probe_pattern(W as usize, H as usize);
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let init = D3D11_SUBRESOURCE_DATA {
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pSysMem: bytes.as_ptr() as *const _,
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SysMemPitch: W * 4,
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SysMemSlicePitch: 0,
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};
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let desc = D3D11_TEXTURE2D_DESC {
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Width: W,
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Height: H,
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MipLevels: 1,
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ArraySize: 1,
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Format: DXGI_FORMAT_B8G8R8A8_UNORM,
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SampleDesc: DXGI_SAMPLE_DESC {
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Count: 1,
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Quality: 0,
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},
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Usage: D3D11_USAGE_DEFAULT,
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BindFlags: D3D11_BIND_RENDER_TARGET.0 as u32,
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CPUAccessFlags: 0,
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MiscFlags: 0,
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};
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let mut tex = None;
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device
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.CreateTexture2D(&desc, Some(&init), Some(&mut tex))
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.expect("pattern texture");
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let tex = tex.expect("null pattern texture");
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let mut enc = NvencD3d11Encoder::open(
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Codec::H265,
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PixelFormat::Bgra,
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W,
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H,
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60,
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20_000_000,
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8,
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ChromaFormat::Yuv420,
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)
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.expect("NVENC open");
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let submit_and_poll = |enc: &mut NvencD3d11Encoder, range: std::ops::Range<u64>| {
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let mut keyframes = 0usize;
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let mut aus = 0usize;
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for i in range {
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let frame = CapturedFrame {
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width: W,
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height: H,
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pts_ns: i * 16_666_667,
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format: PixelFormat::Bgra,
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payload: FramePayload::D3d11(D3d11Frame {
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texture: tex.clone(),
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device: device.clone(),
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}),
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};
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enc.submit_indexed(&frame, i as u32).expect("submit");
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while let Some(au) = enc.poll().expect("poll") {
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aus += 1;
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keyframes += au.keyframe as usize;
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}
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}
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enc.flush().ok();
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while let Ok(Some(au)) = enc.poll() {
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aus += 1;
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keyframes += au.keyframe as usize;
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}
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(aus, keyframes)
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};
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let (aus, kfs) = submit_and_poll(&mut enc, 0..4);
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assert!(aus > 0, "no AUs before the reconfigure");
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assert_eq!(kfs, 1, "exactly the opening IDR before the reconfigure");
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assert!(
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enc.reconfigure_bitrate(60_000_000),
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"in-place reconfigure to 60 Mbps must succeed on RTX NVENC"
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);
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let (aus, kfs) = submit_and_poll(&mut enc, 4..8);
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assert!(aus > 0, "no AUs after the up-reconfigure");
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assert_eq!(kfs, 0, "an in-place rate retarget must not emit an IDR");
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assert!(
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enc.reconfigure_bitrate(10_000_000),
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"in-place reconfigure down to 10 Mbps must succeed"
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);
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let (aus, kfs) = submit_and_poll(&mut enc, 8..12);
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assert!(aus > 0, "no AUs after the down-reconfigure");
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assert_eq!(kfs, 0, "an in-place rate retarget must not emit an IDR");
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println!("nvenc (Windows) reconfigure smoke: 20→60→10 Mbps in place, zero IDRs");
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}
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}
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/// ON-GLASS (RTX box): the measurement gating the AYUV 4:4:4 work — encodes the probe
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/// pattern through the REAL ARGB-input NVENC session once with `chromaFormatIDC=3`/FREXT
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/// and once as plain 4:2:0, so offline analysis of the two bitstreams answers (1) whether
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