f77eec12993ac337b3b577a71719418c00919a1c
5 Commits
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f77eec1299 |
feat(client): PyroWave planar present path + Linux NVENC match-arm fix (Phase 2b, part 2)
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The arch package job (--features nvenc) tripped the same class of Codec::PyroWave non-exhaustive matches as windows-host had, in nvenc_cuda.rs (6 sites) — dispatch-guarded unreachable!() arms, plus the vk_util-extraction leftover unused imports in vulkan_video.rs. All Linux host feature combos (none / pyrowave / nvenc,vulkan-encode / all three) now compile clean on .21. Presenter: planar_csc.frag (+ committed .spv) — the 3-plane variant of nv12_csc.frag (separate Cb/Cr R8 planes, same push-constant CSC-row contract, siting correction self-disables at full-res chroma). CscPass grows a shared builder + new_planar()/bind_planes_planar() (GENERAL-layout descriptors — pyrowave planes stay GENERAL); the Vk presenter builds the planar pass when the device passed the pyrowave probe, FrameInput::PyroWave rides present_frame (no acquire barrier needed: the decoder fence-completed and barriered the planes on the same queue), and run.rs presents it with no demote rung (only device loss ends the session). Co-Authored-By: Claude Fable 5 <noreply@anthropic.com> |
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a1af916e38 |
feat(host): in-place encoder rate reconfigure — ABR steps no longer cost an IDR
ci / web (push) Successful in 56s
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ci / bench (push) Successful in 5m25s
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docker / build-push (., web/Dockerfile, punktfunk-web) (push) Successful in 41s
android / android (push) Successful in 14m53s
docker / build-push (ci, ci/rust-ci.Dockerfile, punktfunk-rust-ci) (push) Successful in 6m24s
deb / build-publish (push) Successful in 11m50s
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ci / rust (push) Successful in 23m4s
rpm / build-publish (43, bazzite, punktfunk-fedora-rpm) (push) Successful in 16m54s
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windows-host / package (push) Successful in 14m46s
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Every adaptive-bitrate step used to tear the encoder down and rebuild it, opening on a full IDR (a 20-40x frame-size spike, in-flight AU forfeit and an IDR-cooldown anchor) — exactly when the Automatic controller is climbing. Encoder::reconfigure_bitrate(bps) retargets the LIVE encoder instead (default false, so libavcodec/software paths keep the rebuild fallback, which also still owns the bitrate clamping): - Linux + Windows direct NVENC: nvEncReconfigureEncoder (added to the hand-rolled runtime EncodeApi tables) with resetEncoder=0 / forceIDR=0; the same init/config is re-authored via the new shared build_config/ build_init_params with only avg/max bitrate + VBV (PUNKTFUNK_VBV_FRAMES) moved. On-hardware test: 20→60→10 Mbps in place, zero IDRs (RTX 5070 Ti). - Native AMF: TargetBitrate/PeakBitrate/VBVBufferSize are dynamic properties — SetProperty on the live component, no Terminate/re-Init. - Vulkan Video (HEVC + AV1): stage the rate and emit an ENCODE_RATE_CONTROL control command on the next recorded frame (begin keeps declaring the session's current state, as the spec requires). The session glue tries the in-place retarget first and skips the rebuild/ inflight-clear/IDR-cooldown bookkeeping when it succeeds — the reference chain and the wire-index prediction survive, so RFI keeps working across rate steps. Co-Authored-By: Claude Fable 5 <noreply@anthropic.com> |
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9b7fc127ef |
feat(core): Automatic bitrate scales to measured link capacity — probe ceiling + slow start
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The ABR ceiling was the negotiated start rate, so an 'Automatic' session was permanently boxed at the 20 Mbps default no matter the link — the most user-visible cap left after the transport work lifted the client receive ceiling to ~4.8 Gbps wire. - Startup link-capacity probe: ~2 s into an Automatic session the pump fires one speed-test burst (2 Gbps target, 800 ms) over the existing ProbeRequest machinery; delivered wire throughput x0.7 (FEC + variance headroom) becomes the controller's climb ceiling via set_ceiling(). Old hosts decline (all-zero reply) or never answer (a 6 s timeout clears the stuck probe state so LossReports resume) — the ceiling then stays negotiated, exactly the old behavior. PUNKTFUNK_ABR_PROBE=0 opts out. - Slow start: until the first congestion signal, every cooled clean window DOUBLES the rate toward the ceiling (20 Mbps -> 640 Mbps in ~10 s) instead of +6% per ~10 s (which would have taken ~10 minutes). Any congestion signal ends it for good; classic AIMD takes over. - Faster, severity-aware AIMD: a SEVERE window (unrecoverable frame, jump-to-live flush, or >=6% loss) backs off x0.7 immediately instead of waiting two windows; ordinary congestion (2-6% loss, OWD rise) keeps the two-window fuse. Additive climbs need 6 clean windows (~4.5 s, was ~10 s); the change cooldown drops 3 s -> 1.5 s. - PUNKTFUNK_VBV_FRAMES now also scales the direct-NVENC VBV (Windows + Linux, previously hardwired to 1 frame) — parity with AMF/VAAPI/QSV. Each accepted step still costs an encoder rebuild + IDR on the host; in-place rate reconfigure (NvEncReconfigureEncoder / AMF dynamic properties / Vulkan per-frame RC) is the planned follow-up that makes stepping free. Controller tests rewritten to the new policy (severity classes, slow-start climb, ceiling semantics; 144 green). Co-Authored-By: Claude Fable 5 <noreply@anthropic.com> |
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ad532b08a0 |
style(encode): rustfmt the direct-SDK NVENC Linux backend
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`cargo fmt` was not run on the Phase 5.2 additions (nvenc_cuda.rs + the encode.rs dispatcher fork), failing the ci.yml rust fmt job. Whitespace/wrapping only — no behavior change. Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com> |
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93093f3cf9 |
feat(encode): direct-SDK NVENC on Linux (CUDA input) with real RFI
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Phase 5.2 of design/encoder-recovery-hardening.md (design/linux-direct-nvenc.md). The Linux NVIDIA host encodes through libavcodec `hevc_nvenc`, which structurally cannot express `nvEncInvalidateRefFrames` — so every FEC-unrecoverable loss is a full IDR and, since the client freezes-until-reanchor, a per-loss freeze for RTT+IDR-encode. This ports the Windows raw-NVENC backend to NV_ENC_DEVICE_TYPE_CUDA over the shared CUcontext so Linux NVIDIA gets the same real RFI + F2 recovery-anchor + reset() stall lever + HDR-SEI/Main10 plumbing. New `encode/linux/nvenc_cuda.rs` (`NvencCudaEncoder`): - runtime-loaded entry table via `dlopen libnvidia-encode.so.1` (never link-time, mirroring the zerocopy::cuda libcuda loader) — one binary still starts on AMD/Intel Linux boxes and falls through to VAAPI/software; - session on the shared CUcontext (zerocopy::cuda::context()); - an encoder-owned ring of registered CUDADEVICEPTR input surfaces (zerocopy::cuda::InputSurface + a contiguous-NV12 allocator), each captured DeviceBuffer device→device copied in via the existing copy_* helpers — mirrors the libav recycled-hwframe-pool copy, so zero regression vs today; - config/RFI/anchor/reset ported from the Windows backend; sync-only (NVENC async is Windows-only, so that whole subsystem is dropped); - Main10/HDR-SEI wired but inert until a Linux P010 capture path (Phase 5.1). Wired behind PUNKTFUNK_NVENC_DIRECT (default OFF) in open_nvenc_probed; the Windows path is untouched (no shared extraction in v1). Two on-hardware `#[ignore]` smokes added. Validated on .21 (RTX 5070 Ti, driver 610.43.03): builds on Linux under ci-check, clippy-clean, full host suite 272/0, NV12 smoke (8 AUs, real invalidate_ref_frames + recovery_anchor on a P-frame) and YUV444 FREXT smoke (6 AUs, chroma_444) green; Windows compile unaffected. Owed: the client-in-the-loop matrix (RFI-survives-ABR, reset() heal, A/B vs libav) and the default flip. Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com> |