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marfrit eca03d2641 iter5b Phase 4: plan — option α' (single-config lookup), 10 contract clauses 
Picks α' over the Phase 2 recommendation of β: smaller scope (~50 LOC
vs ~250), targets iter5b's actual bug (wrong OUTPUT format at INITIAL
CreateSurfaces2, not the multi-resolution mid-stream case the
surface.c:164-171 TODO comment anticipates).

Patches:
- C1/C6: NEW src/codec.{h,c} + meson.build — pixelformat_for_profile()
- C2: NEW find_sole_active_profile() static helper in surface.c
- C3: Replace surface.c:173 hardcode with profile-derived lookup
- C5: Extend last_output_* gate with pixelformat

Phase 7 expected post-fix matrix: HEVC + VP9 + VP8 libva == kdirect
== sw (3 codecs unblocked); MPEG-2 unchanged (already worked);
H.264 still race-loses inter frames (Bug 4, deferred to iter6).

Phase 5 review concerns laid out: helper completeness, heap iterator
API, gate semantics, hantro CAPTURE-derivation on correct format,
mpv probe-then-real flow, memory rule placement.

Option β deferral note: cleaner refactor exists but not necessary
for iter5b's bug; defer to future iteration when multi-resolution
mid-stream becomes a target.

Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
2026-05-11 19:24:35 +00:00
phase0_evidence
iter2 Phase 7: verification — all 5 criteria GREEN, third codec PASS
2026-05-08 14:52:10 +00:00
.gitignore
iter1 Phase 3: baseline measurements — Phase 2 confirmed empirically
2026-05-08 04:04:25 +00:00
iter4_phase3.tgz
iter4 Phase 3: VP9 baseline + 4-codec regression on 7.0 substrate
2026-05-09 20:31:53 +00:00
iter4_phase7_close_fresnel.tgz
iter4 Phase 7 close: Option-A transitive proof complete — VP9 PASS 4/5
2026-05-10 20:01:09 +00:00
iter4_phase7_close.md
iter4 Phase 7 close: Option-A transitive proof complete — VP9 PASS 4/5
2026-05-10 20:01:09 +00:00
iter4_phase7_close.tgz
iter4 Phase 7 close: Option-A transitive proof complete — VP9 PASS 4/5
2026-05-10 20:01:09 +00:00
iter4_phase7_status.md
iter4 Phase 7 pause: fork fix-forward 692eaa0, awaiting fresnel return for transitive-proof closure
2026-05-10 10:18:07 +00:00
iter4_phase7.tgz
iter4 Phase 7: criterion 1+2+3 PASS, criterion 4+5 FAIL — three bug classes identified
2026-05-10 07:20:51 +00:00
iter5_phase3_baseline.tgz
iter5 Phase 3: baseline — 4/5 libva codecs race-lose, MPEG-2 wins, kdirect clean
2026-05-11 05:14:57 +00:00
phase0_findings_iter1.md
iter1 Phase 0 + Phase 1 lock: MPEG-2 boolean correctness on hantro
2026-05-07 22:04:52 +00:00
phase0_findings_iter2.md
iter2 Phase 0 + Phase 1 lock: HEVC Main on rkvdec
2026-05-08 09:44:30 +00:00
phase0_findings_iter3.md
iter3 Phase 0 + Phase 1 lock: VP8 on hantro-vpu-dec
2026-05-08 15:49:28 +00:00
phase0_findings_iter4.md
iter4 Phase 0 + Phase 1 lock: VP9 on rkvdec
2026-05-08 23:36:04 +00:00
phase0_findings_iter5.md
iter5 Phase 0 amend: Bug 3 collapses, locked criteria 5→4
2026-05-11 03:55:36 +00:00
phase0_findings.md
phase 0 corrections: hantro RK3399 has no H.264; substrate is iter8 master
2026-05-07 20:57:40 +00:00
phase0_iter5_loopback.md
iter5 Phase 0 loopback: real Bug 2 is surface.c:173 hardcoded OUTPUT format
2026-05-11 11:21:41 +00:00
phase0_recovery_2026-05-07.md
phase 0 deliverables 1-3: SDDM watchpoint, V4L2 inventory, iter8 fork smoke
2026-05-07 20:54:38 +00:00
phase2_iter1_situation.md
iter1 Phase 2: situation analysis — three bugs in MPEG-2 path
2026-05-07 22:24:50 +00:00
phase2_iter2_situation.md
iter2 Phase 2: situation analysis — six bugs in HEVC path
2026-05-08 10:28:08 +00:00
phase2_iter3_situation.md
iter3 Phase 5: sonnet review — 4 Critical findings, 4 amendments
2026-05-08 21:27:53 +00:00
phase2_iter4_situation.md
iter4 Phase 3: VP9 baseline + 4-codec regression on 7.0 substrate
2026-05-09 20:31:53 +00:00
phase2_iter5_situation.md
iter5 Phase 2: situation analysis — 4-patch plan (3 RFC v2 + 1 new rkvdec consumer)
2026-05-11 03:58:07 +00:00
phase2_iter5b_situation.md
iter5b Phase 2: situation — lifecycle traced, option β (defer to CreateContext) recommended
2026-05-11 19:12:58 +00:00
phase3_iter1_baseline.md
iter1 Phase 3: baseline measurements — Phase 2 confirmed empirically
2026-05-08 04:04:25 +00:00
phase3_iter2_baseline.md
iter2 Phase 3: baselines — substrate verified post-upgrade, HEVC anchor captured
2026-05-08 11:13:38 +00:00
phase3_iter3_baseline.md
iter3 Phase 3: baselines — VP8 cross-validator + 3-codec regression
2026-05-08 20:14:46 +00:00
phase3_iter4_baseline.md
iter4 Phase 3: VP9 baseline + 4-codec regression on 7.0 substrate
2026-05-09 20:31:53 +00:00
phase3_iter5_baseline.md
iter5 Phase 3: baseline — 4/5 libva codecs race-lose, MPEG-2 wins, kdirect clean
2026-05-11 05:14:57 +00:00
phase4_iter1_plan.md
iter1 Phase 4: plan — contract clauses, diff scope, Phase 7 harness
2026-05-08 04:38:53 +00:00
phase4_iter2_plan.md
iter2 Phase 4: plan — 10 contract clauses, ~400-line h265.c rewrite
2026-05-08 11:56:51 +00:00
phase4_iter3_plan.md
iter3 Phase 5: sonnet review — 4 Critical findings, 4 amendments
2026-05-08 21:27:53 +00:00
phase4_iter4_plan.md
iter4 Phase 6: 4 commits landed (Z+A+B+C), ffmpeg-vaapi VP9 decode PASS
2026-05-10 06:55:45 +00:00
phase4_iter5_plan.md
iter5 Phase 4: plan — 4 patches + manifest diff + PKGBUILD bump
2026-05-11 07:40:44 +00:00
phase4_iter5b_plan.md
iter5b Phase 4: plan — option α' (single-config lookup), 10 contract clauses
2026-05-11 19:24:35 +00:00
phase5_iter1_review.md
iter1 Phase 5: sonnet-architect review — 6 findings, 4 amendments
2026-05-08 05:36:12 +00:00
phase5_iter2_review.md
iter2 Phase 5: sonnet review — 3 critical UAPI errors caught, 7 amendments
2026-05-08 12:51:33 +00:00
phase5_iter3_review.md
iter3 Phase 5: sonnet review — 4 Critical findings, 4 amendments
2026-05-08 21:27:53 +00:00
phase5_iter4_review.md
iter4 Phase 5: sonnet-architect review — 4 Critical findings, all amendments incorporated
2026-05-10 05:49:13 +00:00
phase5_iter5_review.md
iter5 Phase 5: review CRIT-1 invalidates Phase 4 — loop back to Phase 0/3
2026-05-11 10:56:11 +00:00
phase6_iter4_implementation.md
iter4 Phase 6: 4 commits landed (Z+A+B+C), ffmpeg-vaapi VP9 decode PASS
2026-05-10 06:55:45 +00:00
phase7_iter1_verification.md
iter1 Phase 7: verification — all 5 criteria GREEN, second codec PASS
2026-05-08 09:00:14 +00:00
phase7_iter2_verification.md
iter2 Phase 7: verification — all 5 criteria GREEN, third codec PASS
2026-05-08 14:52:10 +00:00
phase7_iter3_verification.md
iter3 Phase 7: verification — 4 direct PASS, 1 transitive PASS
2026-05-08 23:26:27 +00:00
phase7_iter4_verification.md
iter4 Phase 7: criterion 1+2+3 PASS, criterion 4+5 FAIL — three bug classes identified
2026-05-10 07:20:51 +00:00
phase8_iteration1_close.md
iter1 Phase 8 close: 2/5 codecs passing, 3 lessons distilled to memory
2026-05-08 09:37:19 +00:00
phase8_iteration2_close.md
iter2 Phase 8 close: 3/5 codecs passing, lesson L1 extended (BOTH directions)
2026-05-08 15:16:55 +00:00
phase8_iteration3_close.md
iter3 Phase 8 close: 4/5 codecs passing, 3 new memory entries
2026-05-08 23:31:23 +00:00
README.md
phase 0 corrections: hantro RK3399 has no H.264; substrate is iter8 master
2026-05-07 20:57:40 +00:00

README.md

fresnel-fourier

TL;DR

Peer campaign to libva-multiplanar, targeting fresnel (Pinebook Pro / Rockchip RK3399) instead of ohm (PineTab2 / RK3566). Same deliverable shape — make libva-v4l2-request-fourier work end-to-end, for production VA-API consumers — but on a different SoC with a different (and broader) V4L2 decoder surface.

The libva backend fork itself (libva-v4l2-request-fourier) is shared: it lives at ../libva-multiplanar/libva-v4l2-request-fourier/. This campaign does not nest a second copy. Code-side work that turns out to be RK3399-specific lands either as #ifdef/runtime-detected paths inside that fork's master or, if scope diverges sharply, on a feature branch — Phase 2 source-read of each iteration decides.

Origin

libva-multiplanar reached iter5-close on 2026-05-05 with the ohm path solid: hantro (rk3568-vpu DT compatible) decodes H.264 to NV12 dmabufs end-to-end, three iterations of bugs fixed, mpv --hwdec=vaapi smooth, firefox-fourier RDD-sandboxed Firefox engages the backend without MOZ_DISABLE_RDD_SANDBOX=1, chromium-fourier 149 confirmed as the regression-check consumer.

That campaign's README explicitly names fresnel (RK3399) and ampere/boltzmann (RK3588) as "future iterations after ohm path is solid" (libva-multiplanar/README.md:87). fresnel-fourier is the formal peer campaign for the RK3399 leg of that promise.

Topology choice (LOCKED 2026-05-07): peer campaign, not child of libva-multiplanar. Each runs its own 8(+1) phase loop. Cross-link only — fresnel-fourier results do not gate libva-multiplanar's Phase 8 close (which already happened iteration-by-iteration on ohm).

Hardware target

fresnel — Pinebook Pro laptop. See reference_fresnel_kernel_constraints.md for the custom-OC-kernel discipline (don't let pacman -Syu clobber the OC DTB) and project_fresnel.md for fleet placement.

Property Value
SoC Rockchip RK3399 (2× Cortex-A72 + 4× Cortex-A53)
GPU Mali-T860 MP4 (Midgard, panfrost)
Decoder block 1 rkvdec (/dev/video3) — H.264 + HEVC + VP9
Decoder block 2 hantro-vpu-dec (rk3399-vpu-dec, /dev/video5) — MPEG-2 + VP8 (RK3399 hantro does not advertise H.264; corrected 2026-05-07 from empirical V4L2 enumeration — see phase0_evidence/2026-05-07/v4l2_inventory_findings.md)
Encoder block hantro-vpu-enc (/dev/video4) — JPEG only
OS EndeavourOS-ARM (Arch derivative; same pacman + marfrit-packages mechanism as ohm)
Kernel linux-eos-arm 6.19.9-99CONFIG_FTRACE=y, CONFIG_FUNCTION_TRACER=y, CONFIG_DYNAMIC_FTRACE=y, CONFIG_TRACING=y verified 2026-05-07. No rebuild needed for trace work.

The decode-side surface area is genuinely broader than ohm. ohm has hantro (H.264 + MPEG-2 + VP8) and an rkvdec block whose mainline rkvdec2/vdpu346 driver isn't merged. fresnel has hantro (MPEG-2 + VP8 only — empirical, see correction note in the table above) plus a fully-driven mainline rkvdec covering H.264 + HEVC + VP9. So this campaign exercises codecs (HEVC, VP9) the libva-v4l2-request-fourier fork has never run on real hardware to date, and there is exactly one decoder bind for H.264 (rkvdec) — no two-block routing decision.

GPU side: panfrost on Mali-T860 (Midgard) is a different generation than ohm's Mali-G52 (Bifrost). KWin / Mesa / panfrost stack regressions or wins on T860 are not assumed to track G52 — the kwin-fourier verdict from fourier_attribution doesn't transfer for free.

Scope (LOCKED 2026-05-07 in phase0_findings.md)

In scope:

  • libva-v4l2-request-fourier backend exercised on fresnel V4L2 decode nodes (rkvdec + hantro-vpu-dec).
  • Codecs: everything decode-capable — H.264 + HEVC + VP9 (via rkvdec) + MPEG-2 + VP8 (via hantro-vpu-dec). This is the explicit broadening from libva-multiplanar's H.264-first locked scope.
  • Test consumers: vainfo, mpv --hwdec=vaapi, Firefox via media.ffmpeg.vaapi.enabled, chromium-fourier 149 (regression check).
  • Phase 1 success criterion (matching libva-multiplanar): boolean correctness — "libva accepted + providing access to hardware decoder for each codec." Performance metrics deferred.
  • Phase 0 task 1: recover fresnel from the SDDM greeter crash-loop (per ~/.claude/plans/dynamic-forging-piglet.md). Recovery is bookkept as substrate work inside this campaign, not as a separate prereq.

Out of scope:

  • Front-end libva (API library). Backend only.
  • Other hardware (ohm + ampere/boltzmann are libva-multiplanar's iterations).
  • AV1 (no decoder block on RK3399 supports it).
  • Performance metrics — fresnel CPU/GPU benchmarking is a separate iteration after correctness lands.
  • cros-codecs Rust replacement (per user_stance_rust.md).
  • Bootlin / Collabora upstreaming default-deferred (per feedback_no_upstream.md). Same discipline as libva-multiplanar.
  • KWin / panfrost / Mali-T860 work — orthogonal until proven otherwise; a parallel kwin-fourier-fresnel campaign would be a separate decision.

Process

8(+1) phase loop per feedback_dev_process.md. Phase 0 substrate is in phase0_findings.md. Phase 5 review uses the sonnet-architect subagent pattern (Plan with model: sonnet).

In-session-acquired data discipline per feedback_replicate_baseline_first.md: libva-multiplanar's ohm-side measurements are reference history, not threshold sources for fresnel-fourier cells.

Predecessor work this campaign builds on

  • ../libva-multiplanar/ — five closed iterations on ohm. Read in order:
    • README.md — current state, codec scope, file map.
    • phase8_iteration5_close.md — most recent close. The iter5-end backend is the substrate fresnel-fourier starts from.
    • phase0_findings.md (and phase0_findings_iter[2-5].md) — locked-scope precedent for codec breadth and consumer matrix on ohm; useful frame-of-reference when locking fresnel-side scope.
    • phase8_iteration1_close.md — iter1 surface-export DMA-BUF lifecycle race + multi-resolution cache + 64-pitch alignment bugs. Likely re-surface candidates on RK3399.
  • ../libva-multiplanar/libva-v4l2-request-fourier/ — the fork itself. 12 commits ahead of bootlin tip plus iter1..iter5 work. git log for the actual landing record.
  • ~/.claude/plans/dynamic-forging-piglet.md — fresnel SDDM greeter crash diagnosis + recovery plan. Phase 0 task 1 picks up from here.
  • ~/src/fourier_attribution/ — ohm-only attribution matrix. The chromium-fourier WHEAT-but-fragile verdict and Cell E (vanilla Chromium 149 control) item are ohm-side context, not fresnel data.

External reference (carry-over from libva-multiplanar):

  • Mozilla bug 1833354 / 1965646 (Firefox HW decode on RK35xx via libva-v4l2-request).
  • Bootlin upstream bootlin/libva-v4l2-request — dormant since 2021.
  • Linux kernel drivers/staging/media/rkvdec/ — RK3399 rkvdec H.264/HEVC/VP9 control protocol reference.
  • Linux kernel drivers/media/platform/verisilicon/hantro_* — RK3399-vpu-dec MPEG-2/H.264/VP8 control protocol reference.

Repository layout

~/src/fresnel-fourier/                     <- this campaign (its own git repo)
├── README.md                              <- this file
├── phase0_findings.md                     <- locked research question + Phase 0 work list
├── (worklist.md, phase[2-8]*.md as phases land)
└── (the libva fork is NOT here — see ../libva-multiplanar/libva-v4l2-request-fourier/)

The campaign repo and the fork repo stay separate. fresnel-fourier commits its findings here; code changes to the backend land on the fork's master (or a branch named per the iteration if scope diverges from libva-multiplanar's ohm-side master).

Operator-facing repo URL: git.reauktion.de/marfrit/fresnel-fourier — created empty during scaffolding, no push until first iteration finds something worth publishing.

Non-upstreaming default

Inherited from libva-multiplanar / feedback_no_upstream.md. Patches must be aligned to upstream in syntax and semantics; PR/MR/bug-report only on explicit operator instruction.

Build infrastructure

distcc/cross-build path is the existing fleet: aarch64crosscompiler LXD on data, tesla LXD on hertz, dcc1 on dcw3. See reference_distcc_kernel_builds.md for invocation. Per the locked Phase 0 answer for libva-multiplanar (item 9), no distcc for libva builds — libva is small and links fast, hand-build on fresnel directly. Same default applies here unless a specific reason emerges.

For chromium-fourier 149 / firefox-fourier rebuilds against fresnel-side findings, the boltzmann LXD container path from libva-multiplanar iter3 is reusable.

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libva-v4l2-request-fourier peer campaign for fresnel (Pinebook Pro / RK3399).
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