marfrit
bf67900cd8
iter20-23: kernel printk in rkvdec_hevc_run + v4l2_ctrl_request_setup
iter24: pinpointed rkvdec_s_ctrl returning -EBUSY for HEVC_SPS due
to vb2_is_busy(CAPTURE) — libva pre-allocates 24 CAPTURE bufs
before first per-frame S_EXT_CTRLS, blocking image_fmt reset
iter25 α-25: synthetic SPS injection before cap_pool_init seeds
ctx->image_fmt to RKVDEC_IMG_FMT_420_8BIT while CAPTURE is
still empty. H264 Bug 4 fully fixed (byte-equal kdirect).
HEVC Bug 5 frame 1 fixed (byte-equal kdirect).
iter26 α-26: populate decode_params.short_term_ref_pic_set_size from
picture->st_rps_bits (VAAPI does expose it). Bytes 4-5 of
dp now match kdirect. HEVC frame 2+ still diverges
(separate bug, likely DPB entry mapping).
Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
6.5 KiB
Iteration 22 — Phase 8 (close)
Closes 2026-05-14. iter22 = kernel printk in v4l2_ctrl_request_clone tracing each handler_new_ref step. FULL close. iter21's mid-conclusion is overturned: the request-clone-hdl is COMPLETE for libva — all 22 controls cloned with err=0.
Method
linux-fresnel-fourier 7.0-6 added per-step pr_info to v4l2_ctrl_request_clone:
pr_info("iter22_clone_start: new_hdl=%p from=%p\n", hdl, from);
list_for_each_entry(ref, &from->ctrl_refs, node) {
...
err = handler_new_ref(hdl, ctrl, &new_ref, false, true);
pr_info("iter22_clone_step: id=0x%x err=%d hdl_error=%d new_ref=%p\n",
ctrl->id, err, hdl->error, new_ref);
...
}
pr_info("iter22_clone_end: hdl=%p err=%d\n", hdl, err);
Built ~2 min via ccache. Deployed via scp + pacman -U + reboot.
Results
libva HEVC (11 clones — one per request_fd binding):
Every clone-step logs err=0 hdl_error=0 new_ref=valid_ptr. Each clone has 22 controls successfully added, ending with iter22_clone_end err=0. Full ID list per clone:
0x990001, 0x990a67, 0x990a6b, 0x990b00, 0x990b67, 0x990b68,
0xa40001, 0xa40900, 0xa40901, 0xa40902, 0xa40903, 0xa40904, 0xa40907,
0xa40a2c, 0xa40a2d,
0xa40a90, 0xa40a91, 0xa40a92, 0xa40a93, 0xa40a94, 0xa40a95, 0xa40a96
Note: H264_PRED_WEIGHTS (0xa40905) and H264_SLICE_PARAMS (0xa40906) are NOT in the source main_hdl (these are not registered in rkvdec_h264_ctrls on this kernel — rkvdec doesn't expose them). All 7 HEVC stateless decode controls ARE present.
kdirect HEVC (13 clones): identical pattern, identical ID set, all err=0.
What this overturns from iter21
iter21 concluded the clone-hdl was missing 6 HEVC controls for libva. That was wrong. The clone-hdl actually has all 22 controls. The iter21_setup_ref printk's iteration was filtering 8 of them out via the early-return check:
if (ref->req_done || (ctrl->flags & V4L2_CTRL_FLAG_READ_ONLY))
continue;
For libva, only 14 refs reach the printk. For kdirect, 21 refs reach it. 8 vs 1 difference in skip count.
What this implies
Two of the 8 skipped controls are clearly READ_ONLY: codec class roots 0x990001 and 0xa40001 (V4L2_CTRL_TYPE_CTRL_CLASS). That accounts for 2 of 8 in both libva and kdirect.
For libva, 6 additional HEVC controls (PPS, SLICE_PARAMS, SCALING_MATRIX, DECODE_PARAMS, DECODE_MODE, START_CODE) get skipped. For kdirect, only DECODE_MODE + START_CODE get skipped (the 2 with p_req_valid=0 that aren't staged this frame).
Wait — kdirect shows DECODE_MODE + START_CODE in the setup_ref printk with p_req_valid=0. So they're NOT skipped by the continue check. So kdirect's 21 displayed = 22 cloned - 1 (only one CLASS root being printed?). Hmm, mismatch.
Actually the iter21 setup_ref for kdirect showed 21 lines visible — 20 entries +1 setup header. Let me re-examine. The kdirect dump had 21 ctrl_refs lines (excluding setup: line). 22 clone - 21 setup_ref = 1 skipped. Possibly only one class root present in kdirect's clone-hdl somehow.
So the actual difference is: libva skips 8, kdirect skips 1. The 7 EXTRA skips for libva are: 6 HEVC controls (PPS, SLICE, SCALING, DECODE_PARAMS, DECODE_MODE, START_CODE) + 1 mystery.
Mechanism status (post-iter22)
| # | Mechanism | Status |
|---|---|---|
| 1 | request_fd mismatch | DISPROVED |
| 2 | REINIT clears | DISPROVED iter19 |
| 3 | Stack-locals stale | DISPROVED iter18 |
| 4 | ctrl_hdl mismatch | REFRAMED iter20 |
| 5 | error_idx silent failure | DISPROVED iter18 |
| 6 | req->p_new staging incomplete | iter21 → 22 OVERTURNED (clone IS complete) |
| 7 | Clone-hdl missing controls | DISPROVED iter22 (clone has all 22) |
| 8 | NEW iter22: 6 of 7 HEVC controls get skipped in v4l2_ctrl_request_setup loop for libva but not kdirect | leading hypothesis |
iter23 candidate
Add printk inside the v4l2_ctrl_request_setup loop before the continue check, logging req_done, flags, ncontrols, cluster[0]->id:
pr_info("iter23_loop: id=0x%x req_done=%d flags=0x%x ncontrols=%d cluster0_id=0x%x\n",
ctrl->id, ref->req_done, ctrl->flags,
master->ncontrols,
master->cluster[0] ? master->cluster[0]->id : 0);
if (ref->req_done || (ctrl->flags & V4L2_CTRL_FLAG_READ_ONLY))
continue;
Two possible findings:
- req_done already true for the 6 HEVC controls → an earlier iteration (HEVC_SPS) clustered them and set req_done. Means main_hdl's HEVC_SPS has
master->clustercontaining PPS+SLICE+SCALING+DECODE_PARAMS+DECODE_MODE+START_CODE on libva's path. - flags has READ_ONLY → the controls have READ_ONLY set, which is wrong for stateless decode controls.
ncontrols and cluster0_id reveal cluster membership directly: if ncontrols > 1 for HEVC_SPS, it's been clustered with siblings.
Substrate state at iter22 close
- Backend SHA on fresnel:
c1d4bb53…(iter15 stable, unchanged). - Fork tip
e109306(α-24 reverted) — unchanged. - Kernel
linux-fresnel-fourier 7.0-6with iter17 + iter20 + iter21 + iter22 printks. - 5-codec anchors: unchanged.
Iter23 build kicked off
linux-fresnel-fourier 7.0-7 building on boltzmann (PID 1643224, log /tmp/iter23-kbuild.log). Expected ~2 min via ccache.
Lesson
iter21's mid-conclusion was based on the wrong printk position — the iter21_setup_ref printk was inside v4l2_ctrl_request_setup's loop but AFTER the early-continue checks, missing controls that get skipped. iter22's clone-trace showed the clone IS complete; the staging FAILS via the setup-loop SKIP path, not the clone path.
The empirical pattern is now: libva's per-frame request gets through clone correctly; gets through S_EXT_CTRLS correctly (stages all 5 controls with p_req_valid=1 — at least for SPS, definitely 1); but at setup-loop time, 6 of the 7 HEVC controls get a continue that bypasses req_to_new. SPS alone reaches req_to_new → try_or_set_cluster → commits to p_cur → rkvdec_run reads ctx->ctrl_hdl[SPS]->p_cur which is non-zero?
Actually — wait, iter20 said sps[0..16] was zero for libva. If SPS is the only one that reaches req_to_new + try_or_set_cluster, then SPS's content SHOULD be correct, but iter20 said it's zero. So SPS itself ALSO has a problem in the commit path.
So we have:
- 6 of 7 HEVC controls: never reach
req_to_new(skipped in setup loop). - 1 of 7 (SPS): reaches
req_to_newbut resultingp_curcontent is zero anyway.
These are TWO separate bugs (or one bug with two symptoms). iter23 will reveal the skip mechanism; another iter (or test) may need to address the SPS-commit-content issue.