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marfrit 5965805d86 Phase 8.7: media controller + multi-frame streaming verification

Two pieces — both shipped:

1. Media controller binding closes the last v4l2-compliance
   failure from 8.6 (DECODER_CMD, which requires has_media on
   stateless decoders) and unlocks the V4L2 request API for
   libva-v4l2-request.

2. Multi-frame streaming test exercises the daemon's
   AVCodecContext state preservation across many REQ_DECODE
   calls — Phase 8.6's tests pushed exactly one keyframe per
   invocation; real content has P-frame references.

Compliance now reaches **49/49 passing.**

Kernel (kernel/daedalus_v4l2_main.{c,h}):
- Added `struct media_device mdev` to daedalus_dev.
- media_device_init(&mdev) BEFORE v4l2_device_register so
  v4l2-core sees v4l2_dev.mdev = &mdev and binds the m2m
  entities into the graph during register.
- After video_register_device:
  v4l2_m2m_register_media_controller(..., MEDIA_ENT_F_PROC_VIDEO_DECODER)
  then media_device_register so userspace sees the complete
  graph in /dev/mediaN with the decoder entity tagged.
- daedalus_remove unwinds in reverse: unregister media,
  unregister mc, unregister video, release m2m, unregister
  v4l2, cleanup mdev.
- Error paths added for both new failure points.

Test harness (tools/test_m2m_stream.c, new):
- Multi-frame V4L2 m2m client: parses IVF → 4-deep buffer
  rings on both queues → per-frame QBUF/DQBUF loop →
  concatenates decoded NV12 to output file. Returns 0 only
  if every input frame decoded without error.
- Same codec vocabulary as test_m2m_decode (vp9 | av1 |
  h264 via 5th arg).

Verification on hertz (Pi 5, 6.12.75+rpt-rpi-2712):

v4l2-compliance: 49 tests, 49 passed, 0 failed, 0 warnings.

  $ v4l2-ctl --list-devices
  daedalus-fourier V3D7+NEON (platform:daedalus_v4l2):
        /dev/video0
        /dev/media3

VP9 320×240 30 frames (1 keyframe + 29 P-frames, 3.46 MB
NV12): byte-for-byte match vs `ffmpeg -i in.ivf -pix_fmt
nv12 -f rawvideo`.

VP9 1920×1080 10 frames (31 MB NV12 through the dmabuf
path): byte-for-byte match vs same reference command.

Daemon log shows cookies 1..30 all completing cleanly in
order; lazily-opened AVCodecContext maintains reference
frames across the chardev round-trips.

Clean SIGTERM + rmmod, no oops/WARN.

Roadmap update (docs/roadmap.md):
- 8.7 marked closed with closure-doc reference.
- 8.8 reshaped: perf profiling, QPU dispatch substitution
  via daedalus-fourier, multi-frame AV1/H.264, HDR (P010M).

Per correctness-before-speed:
- Order-correct media controller lifecycle (init → bind
  v4l2_dev → register video → register mc → register
  media; reverse for teardown).
- 4-deep buffer rings on both queues — the scheduler
  actually pipelines multiple in-flight cookies through
  the chardev (not just one-at-a-time as in 8.5/8.6 tests).
- Bit-exact comparison against ffmpeg, not "looks right."
- All resource paths cleaned on every error branch.

Phase 8.8 next: profile daemon hot loops, dlopen
daedalus-fourier from the daemon, swap FFmpeg per-block
calls for daedalus_dispatch_* where the kernel matches,
target 30fps@1080p from 30fps-floor-is-fine memory.

Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>

2026-05-18 16:21:58 +00:00

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Phase 8.7 closure — media controller + multi-frame streaming

Status: closed 2026-05-18.

Two pieces:

Media controller binding — closes the last v4l2-compliance failure from Phase 8.6 (DECODER_CMD, which requires has_media on stateless decoders) and unlocks the V4L2 request API for libva-v4l2-request.
Multi-frame streaming verification — Phase 8.6's end-to-end tests pushed exactly one keyframe per invocation. Real-world content has reference frames (P-frames in VP9, etc.), so the daemon must maintain AVCodecContext state across many REQ_DECODE calls. This phase exercises that path with 30+10-frame streams and checks pixel-bit-exact equivalence to a reference FFmpeg decode.

Compliance now reaches 49/49 passing.

What lands

Kernel media controller (`kernel/daedalus_v4l2_main.{c,h}`)

New struct media_device mdev field in daedalus_dev.
media_device_init(&dev->mdev) before v4l2_device_register so v4l2-core picks up the mdev binding when it sees v4l2_dev.mdev = &dev->mdev.
After video_register_device succeeds: v4l2_m2m_register_media_controller(m2m_dev, &dev->vdev, MEDIA_ENT_F_PROC_VIDEO_DECODER) wires up the m2m entities; then media_device_register(&dev->mdev) makes it visible to userspace as /dev/mediaN.
Error paths cleaned for the new failure points (err_m2m_mc → unregister mc + vdev; v4l2_device_register failure also cleans mdev).
daedalus_remove reverses the order: unregister media, unregister mc, unregister video, release m2m, unregister v4l2, cleanup mdev.
Phase banner updated from 8.5 → 8.7.

Test harness (`tools/test_m2m_stream.c`, new)

Multi-frame V4L2 m2m client that:
1. Parses an IVF file into a struct ivf_frame[] (per- frame size + bitstream blob).
2. Allocates 4 OUTPUT + 4 CAPTURE buffers (ring of mmap'd OUTPUT mappings; CAPTURE buffers all QBUF'd up front).
3. For each frame: copy bitstream into OUTPUT[i%N], QBUF, poll, DQBUF OUTPUT, DQBUF CAPTURE, dump NV12 to output file, recycle CAPTURE via QBUF.
4. Returns 0 only if all input frames decoded without error.
Accepts [w] [h] [codec] overrides; same codec vocabulary as test_m2m_decode.

tools/Makefile

Adds test_m2m_stream to the build target list.

Verification

v4l2-compliance — full pass

Total for daedalus_v4l2 device /dev/video0:
  49 tests, Succeeded: 49, Failed: 0, Warnings: 0

Progression:

8.1: 44/48
8.5: 44/48 (different fails)
8.6: 47/48
8.7: 49/49 (media controller added one more pass-eligible test and it passes)

$ v4l2-ctl --list-devices
daedalus-fourier V3D7+NEON (platform:daedalus_v4l2):
        /dev/video0
        /dev/media3

30-frame VP9 320×240 stream, byte-exact

$ ffmpeg -f lavfi -i 'testsrc=duration=1.2:size=320x240:rate=25' \
       -pix_fmt yuv420p -c:v libvpx-vp9 -y /tmp/vp9_stream.ivf
$ ffmpeg -i /tmp/vp9_stream.ivf -pix_fmt nv12 -f rawvideo \
       -y /tmp/vp9_stream_ref.nv12

$ sudo ./tools/test_m2m_stream /tmp/vp9_stream.ivf \
       /tmp/vp9_stream_out.nv12
  parsed 30 frames, 320x240
  OUTPUT reqbufs -> 4
  CAPTURE reqbufs -> 4
  STREAMON both
  decoded 30 / 30 frames to /tmp/vp9_stream_out.nv12

$ cmp /tmp/vp9_stream_out.nv12 /tmp/vp9_stream_ref.nv12
$ echo $?
0   # 3.46 MB across 30 frames, byte-for-byte match

1 keyframe + 29 P-frames. The daemon's lazily-opened AVCodecContext maintains reference frames across the 30 sequential REQ_DECODE calls — pixel-bit-exact equivalence proves the decoder state is preserved correctly across the chardev round-trips.

10-frame VP9 1080p stream, byte-exact

$ sudo ./tools/test_m2m_stream /tmp/vp9_1080_stream.ivf \
       /tmp/vp9_1080_stream_out.nv12 1920 1080
  parsed 10 frames, 1920x1080
  ...
  decoded 10 / 10 frames

$ cmp /tmp/vp9_1080_stream_out.nv12 /tmp/vp9_1080_stream_ref.nv12
0   # 31 MB across 10 frames, byte-for-byte match

Combined with Phase 8.6's single-frame 1080p test: real video content streams correctly through the dmabuf-driven m2m path at 1080p.

Clean teardown

$ pkill -TERM daedalus_v4l2_daemon
$ sudo rmmod daedalus_v4l2
$ sudo dmesg | grep -E 'BUG|oops'
(empty)

No kernel oops / WARN. 4-deep buffer rings on both queues mean the scheduler is actually pipelining requests through the chardev (multiple in-flight cookies) — no deadlocks, no fd leaks, no buffer-state corruption.

Design decisions

Why register the media controller in this order?

media_device_init must run before v4l2_device_register because v4l2-core uses v4l2_dev.mdev to add the v4l2 entities into the media graph during register.

v4l2_m2m_register_media_controller must run after video_register_device because it creates the I/O entity tied to vdev->num, which only exists after register.

media_device_register must be last so userspace sees the graph in a consistent state (all entities + links present).

Reverse for tear-down. Caught by reading drivers/cedrus, hantro, rkvdec.

Why 4-deep buffer rings?

Phase 8.5 used REQBUFS count=1 — just enough to prove QBUF/DQBUF works. Real-world workloads pipeline: while the daemon decodes frame N, the client wants to QBUF N+1. A ring of 4 OUTPUT and 4 CAPTURE buffers gives the scheduler slack to maintain forward progress under poll() latency spikes. Bumping further has diminishing returns because the test serialises DQBUF after each QBUF anyway — but the infrastructure is in place for asynchronous pipelining when Phase 8.8 starts profiling throughput.

Why test_m2m_stream is its own binary

test_m2m_decode is the per-frame smoke test (single QBUF/ DQBUF cycle, exits on first error, ideal for bisecting). test_m2m_stream is the soak test (long-running, exercises the FFmpeg reference-frame plumbing, ideal for regression). Keeping them separate keeps each binary's intent and exit semantics clear.

What's NOT here (deferred to Phase 8.8)

Performance profiling and QPU dispatch. Currently the daemon decodes entirely on CPU via FFmpeg. Substituting per-block daedalus_dispatch_* calls into FFmpeg's hot path for the kernels where our V3D7 implementation matches is the road to 30fps@1080p (the 30fps-floor-is-fine memory's user-facing criterion).
HDR / 10-bit. CAPTURE is NV12M only; no P010M or YUV420P10LE pack path.
Multi-codec stream tests. Phase 8.7's streaming tests are VP9 only (multi-frame test files are easy to make). AV1 + H.264 multi-frame round-trips should be done by Phase 8.8.

Phase 8.8 plan

Profile daemon end-to-end on hertz: identify FFmpeg hot functions for VP9 / AV1 / H.264.
Map matching daedalus_dispatch_* calls (IDCT, MC, deblock, qpel — from cycles 1, 2, 4, 9).
dlopen-binding from the daemon into daedalus-fourier's per-kernel entry points (sibling repo).
Validate bit-exactness after each substitution.
Measure fps@1080p; target 30fps stable on VP9 (8.6's single-frame proved 1080p works; 8.8 makes it real-time).
Multi-frame AV1 + H.264 round-trips.
P010M / YUV420P10LE for HDR sources.

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