Commit Graph

203 Commits

Author SHA1 Message Date
Anton Khirnov 56ba57b672 lavc/refstruct: move to lavu and make public
It is highly versatile and generally useful.
2024-12-15 14:03:47 +01:00
Frank Plowman 8629306627 lavc/vvc: Fix scaling matrix DC coef derivation
In 7.4.3.20 of H.266 (V3), there are two similarly-named variables:
scalingMatrixDcPred and ScalingMatrixDcRec.  The old code set
ScalingMatrixDcRec, rather than scalingMatrixDcPred, in the first two
branches of the conditions on scaling_list_copy_mode_flag[id] and
aps->scaling_list_pred_mode_flag[id].  This could lead to decode
mismatches in sequences with explicitly-signalled scaling lists.

Signed-off-by: Frank Plowman <post@frankplowman.com>
2024-12-10 20:26:12 +08:00
Frank Plowman 34c6ad0a07 lavc/vvc: Use a bitfield to store MIP information
Reduces memory consumption by ~4MB for 1080p video with a maximum delay
of 16 frames by packing various information related to MIP:
* intra_mip_flag, 1 bit
* intra_mip_transposed_flag, 1 bit
* intra_mip_mode, 4 bits
Into a single byte.

Co-authored-by: Nuo Mi <nuomi2021@gmail.com>
Signed-off-by: Frank Plowman <post@frankplowman.com>
2024-12-07 17:37:45 +08:00
Frank Plowman 56419fd096 lavc/vvc: Fix overflow in MVD derivation
H.266 (V3) section 7.4.12.8: "The value of lMvd[ compIdx ] shall be in
the range of −2^{17} to 2^{17} − 1, inclusive."

Signed-off-by: Frank Plowman <post@frankplowman.com>
2024-12-03 10:22:55 +08:00
Frank Plowman 499896ca2f lavc/vvc: Fix derivation of LmcsMaxBinIdx
Per H.266 (V3) section 7.4.3.19, LmcsMaxBinIdx is set equal to
15 - lmcs_delta_max_bin_idx.  The previous code instead had it equal to
15 - lmcs_min_bin_idx.  This could cause decoder mismatches.

Signed-off-by: Frank Plowman <post@frankplowman.com>
2024-12-03 10:22:55 +08:00
Frank Plowman 699322519c lavc/vvc: Store MIP information over entire CU area
Previously, the code only stored the MIP mode and transpose flag in the
relevant tables at the top-left corner of the CU.  This information ends
up being retrieved in ff_vvc_intra_pred_* not based on the CU position
but instead the transform unit position (specifically, using the x0 and
y0 from get_luma_predict_unit).  There might be multiple transform units
in a CU, hence the top-left corner of the transform unit might not
coincide with the top-left corner of the CU.  Consequently, we need to
store the MIP information at all positions in the CU, not only its
top-left corner, as we already do for the MIP flag.

Signed-off-by: Frank Plowman <post@frankplowman.com>
2024-12-03 10:20:51 +08:00
Frank Plowman 7399d9f374 lavc/vvc: Don't check motion estimation region for IBC
The final parameter of check_available determines whether the motion
estimation region constraints imposed in section 8.5.2.3 of H.266 (V3)
on MVP candidates apply to the current candidate or not.  In the case of
IBC spatial merge candidates they do not, as their availability is
dependent only on the criteria described in sections 8.6.2.3 and 6.4.4,
which do not include this constraint on the motion estimation region.

Signed-off-by: Frank Plowman <post@frankplowman.com>
2024-12-03 10:20:51 +08:00
Nuo Mi 4de67e8746 avcodec/vvcdec: return error if CTU size > 128
The v3 spec reserves CTU size 256. Currently, we use an uint8_t* table to hold cb_width and cb_height.
If a CTU size of 256 is not split, cb_width and cb_height will overflow to 0.
To avoid switching to uint16_t, rejecting CTU size 256 provides a simple solution.
2024-11-30 09:58:59 +08:00
Nuo Mi eb67e60cb0 avcodec/vvcdec: schedule next stage only if the current stage reports no error
If the current stage reports an error, some variables may not be correctly initialized.
Scheduling the next stage could lead to the use of uninitialized variables.
2024-11-30 09:58:59 +08:00
Nuo Mi 4ec767abcc avcodec/vvcdec: misc, reformat inter_data() 2024-11-30 09:58:59 +08:00
Nuo Mi ba89c5b989 avcodec/vvcdec: inter_data, check the return value from hls_merge_data
Reported-by: Frank Plowman <post@frankplowman.com>
2024-11-30 09:58:59 +08:00
Nuo Mi 5c5a08ecb5 avcodec/vvcdec: ensure every CTU belongs to a slice
According to section 6.3.3 "Spatial or component-wise partitionings,"
CTUs should fully cover slices with no overlaps, gaps, or additions.
No overlaps are ensured by task_init_parse.
No gaps and no additions are ensured by this patch.

Co-authored-by: Frank Plowman <post@frankplowman.com>
2024-11-30 09:58:59 +08:00
Frank Plowman 1e5f24d1a6 lavc/vvc: Remove floating point logic
This was the only floating point logic in the native VVC decoder.

Signed-off-by: Frank Plowman <post@frankplowman.com>
2024-11-11 19:31:00 +08:00
Fei Wang e726fdeb05 lavc/vaapi_dec: Add VVC decoder
Signed-off-by: Fei Wang <fei.w.wang@intel.com>
2024-11-01 12:13:07 +08:00
Fei Wang 4dc18c78cd lavc/vvc_dec: Add hardware decode API
Signed-off-by: Fei Wang <fei.w.wang@intel.com>
2024-11-01 12:13:07 +08:00
Fei Wang a94aa2d61e lavc/vvc_ps: Add alf raw syntax into VVCALF
Signed-off-by: Fei Wang <fei.w.wang@intel.com>
2024-11-01 12:13:07 +08:00
Fei Wang 15a75e8e04 lavc/vvc_refs: Define VVC_FRAME_FLAG* to h header
So that hardware decoder can use the flags too.

Signed-off-by: Fei Wang <fei.w.wang@intel.com>
2024-11-01 12:13:07 +08:00
Nuo Mi b611410569 avcodec/vvc/thread: Check frame to be non NULL
Fixes: NULL pointer dereference
Fixes: 71303/clusterfuzz-testcase-minimized-ffmpeg_AV_CODEC_ID_VVC_fuzzer-4875859050168320

Found-by: continuous fuzzing process https://github.com/google/oss-fuzz/tree/master/projects/ffmpeg
Reported-by: Michael Niedermayer <michael@niedermayer.cc>
2024-10-20 20:36:15 +08:00
Nuo Mi a144e7b92e avcodec/vvcdec: remove unused tb_pos_x0 and tb_pos_y0
This change will save approximately 531 MB for an 8K clip when processed with 16 threads.
The calculation is as follows:
7680 * 4320 * sizeof(int) * 2 * 2 * 16 / (4 * 4).
2024-10-16 20:28:09 +08:00
Nuo Mi 2e936f2c11 avcodec/vvdec: refact, ff_vvc_deblock_bs use CodingUnit/TransformUnit instead of fc->tabs
perf result for:
"perf record -F 99 ./ffmpeg_g -i  Tango2_3840x2160_60_10_420_27_LD.266 -f null -"

before: 5.24%
1.87%  ffmpeg_g  [.] vvc_deblock_bs_chroma
1.72%  ffmpeg_g  [.] ff_vvc_deblock_bs
1.65%  ffmpeg_g  [.] vvc_deblock_bs_luma

after: 3.48%
1.84%  ffmpeg_g  [.] vvc_deblock_bs_chroma
1.64%  ffmpeg_g  [.] ff_vvc_deblock_bs + vvc_deblock_bs_luma(inlined)
2024-10-16 20:28:09 +08:00
Nuo Mi d78b43ecf8 avcodec/vvcdec: misc, move pcmf from min_tu_tl_init to min_cb_nz_tl_init
pcmf are cu level flags
2024-10-16 20:28:09 +08:00
Nuo Mi 634780f3cf avcodec/vvcdec: refact out deblock boundary strength stage
The deblock boundary strength stage utilizes ~5% of CPU resources for 8K clips.
It's worth considering it as a standalone stage. This stage has been relocated
to follow the parser process, allowing us to reuse CUs and TUs before releasing them.
2024-10-16 20:28:09 +08:00
Nuo Mi 846fbc395b avcodec/vvc: simplify priority logical to improve performance for 4K/8K
For 4K/8K video processing, it's possible to have over 1,000 tasks pending on the executor.
In such cases, O(n) and O(log(n)) insertion times are too costly.
Reducing this to O(1) will significantly decrease the time spent in critical sections

clip                                                        | before | after  | delta
------------------------------------------------------------|--------|--------|-------
VVC_HDR_UHDTV2_OpenGOP_7680x4320_50fps_HLG10.bit            |    24  |   27   |  12.5%
VVC_HDR_UHDTV2_OpenGOP_7680x4320_50fps_HLG10_HighBitrate.bit|    12  |   17   |  41.7%
tears_of_steel_4k_8M_8bit_2000.vvc                          |    34  |  102   | 200.0%
VVC_UHDTV1_OpenGOP_3840x2160_60fps_HLG10.bit                |   126  |  128   |   1.6%
RitualDance_1920x1080_60_10_420_37_RA.266                   |   350  |  378   |   8.0%
NovosobornayaSquare_1920x1080.bin                           |   341  |  369   |   8.2%
Tango2_3840x2160_60_10_420_27_LD.266                        |    69  |   70   |   1.4%
RitualDance_1920x1080_60_10_420_32_LD.266                   |   243  |  259   |   6.6%
Chimera_8bit_1080P_1000_frames.vvc                          |   420  |  392   |  -6.7%
BQTerrace_1920x1080_60_10_420_22_RA.vvc                     |   148  |  144   |  -2.7%
2024-10-04 21:58:42 +08:00
Nuo Mi 40a14ef970 avcodec/executor: remove unused ready callback
Due to the nature of multithreading, using a "ready check" mechanism may introduce a deadlock. For example:

Suppose all tasks have been submitted to the executor, and the last thread checks the entire list and finds
no ready tasks. It then goes to sleep, waiting for a new task. However, for some multithreading-related reason,
a task becomes ready after the check. Since no other thread is aware of this and no new tasks are being added to
the executor, a deadlock occurs.

In VVC, this function is unnecessary because we use a scoreboard. All tasks submitted to the executor are ready tasks.
2024-10-04 21:58:42 +08:00
Nuo Mi 8446e27bf3 avcodec: make a local copy of executor
We still need several refactors to improve the current VVC decoder's performance,
which will frequently break the API/ABI. To mitigate this, we've copied the executor from
avutil to avcodec. Once the API/ABI is stable, we will move this class back to avutil
2024-10-04 21:58:42 +08:00
Zhao Zhili 240c16bbc6 avcodec/vvc: Don't use large array on stack
tmp_array in dmvr_hv takes 33024 bytes on stack, which can be
dangerous.
2024-10-01 11:30:22 +08:00
sunyuechi ba7d0d5fc3 lavc/vvc_mc: R-V V avg w_avg
C908   X60
avg_8_2x2_c                                        :    1.2    1.0
avg_8_2x2_rvv_i32                                  :    0.7    0.7
avg_8_2x4_c                                        :    2.0    2.2
avg_8_2x4_rvv_i32                                  :    1.2    1.2
avg_8_2x8_c                                        :    3.7    4.0
avg_8_2x8_rvv_i32                                  :    1.7    1.5
avg_8_2x16_c                                       :    7.2    7.7
avg_8_2x16_rvv_i32                                 :    3.0    2.7
avg_8_2x32_c                                       :   14.2   15.2
avg_8_2x32_rvv_i32                                 :    5.5    5.0
avg_8_2x64_c                                       :   51.0   43.7
avg_8_2x64_rvv_i32                                 :   39.2   29.7
avg_8_2x128_c                                      :  100.5   79.2
avg_8_2x128_rvv_i32                                :   79.7   68.2
avg_8_4x2_c                                        :    1.7    2.0
avg_8_4x2_rvv_i32                                  :    1.0    0.7
avg_8_4x4_c                                        :    3.5    3.7
avg_8_4x4_rvv_i32                                  :    1.2    1.2
avg_8_4x8_c                                        :    6.7    7.0
avg_8_4x8_rvv_i32                                  :    1.7    1.5
avg_8_4x16_c                                       :   13.5   14.0
avg_8_4x16_rvv_i32                                 :    3.0    2.7
avg_8_4x32_c                                       :   26.2   27.7
avg_8_4x32_rvv_i32                                 :    5.5    4.7
avg_8_4x64_c                                       :   73.0   73.7
avg_8_4x64_rvv_i32                                 :   39.0   32.5
avg_8_4x128_c                                      :  143.0  137.2
avg_8_4x128_rvv_i32                                :   72.7   68.0
avg_8_8x2_c                                        :    3.5    3.5
avg_8_8x2_rvv_i32                                  :    1.0    0.7
avg_8_8x4_c                                        :    6.2    6.5
avg_8_8x4_rvv_i32                                  :    1.5    1.0
avg_8_8x8_c                                        :   12.7   13.2
avg_8_8x8_rvv_i32                                  :    2.0    1.5
avg_8_8x16_c                                       :   25.0   26.5
avg_8_8x16_rvv_i32                                 :    3.2    2.7
avg_8_8x32_c                                       :   50.0   52.7
avg_8_8x32_rvv_i32                                 :    6.2    5.0
avg_8_8x64_c                                       :  118.7  122.5
avg_8_8x64_rvv_i32                                 :   40.2   31.5
avg_8_8x128_c                                      :  236.7  220.2
avg_8_8x128_rvv_i32                                :   85.2   67.7
avg_8_16x2_c                                       :    6.2    6.7
avg_8_16x2_rvv_i32                                 :    1.2    0.7
avg_8_16x4_c                                       :   12.5   13.0
avg_8_16x4_rvv_i32                                 :    1.7    1.0
avg_8_16x8_c                                       :   24.5   26.0
avg_8_16x8_rvv_i32                                 :    3.0    1.7
avg_8_16x16_c                                      :   49.0   51.5
avg_8_16x16_rvv_i32                                :    5.5    3.0
avg_8_16x32_c                                      :   97.5  102.5
avg_8_16x32_rvv_i32                                :   10.5    5.5
avg_8_16x64_c                                      :  213.7  222.0
avg_8_16x64_rvv_i32                                :   48.5   34.2
avg_8_16x128_c                                     :  434.7  420.0
avg_8_16x128_rvv_i32                               :   97.7   74.0
avg_8_32x2_c                                       :   12.2   12.7
avg_8_32x2_rvv_i32                                 :    1.5    1.0
avg_8_32x4_c                                       :   24.5   25.5
avg_8_32x4_rvv_i32                                 :    3.0    1.7
avg_8_32x8_c                                       :   48.5   50.7
avg_8_32x8_rvv_i32                                 :    5.2    2.7
avg_8_32x16_c                                      :   96.7  101.2
avg_8_32x16_rvv_i32                                :   10.2    5.0
avg_8_32x32_c                                      :  192.7  202.2
avg_8_32x32_rvv_i32                                :   19.7    9.5
avg_8_32x64_c                                      :  427.5  426.5
avg_8_32x64_rvv_i32                                :   64.2   18.2
avg_8_32x128_c                                     :  816.5  821.0
avg_8_32x128_rvv_i32                               :  135.2   75.5
avg_8_64x2_c                                       :   24.0   25.2
avg_8_64x2_rvv_i32                                 :    2.7    1.5
avg_8_64x4_c                                       :   48.2   50.5
avg_8_64x4_rvv_i32                                 :    5.0    2.7
avg_8_64x8_c                                       :   96.0  100.7
avg_8_64x8_rvv_i32                                 :    9.7    4.5
avg_8_64x16_c                                      :  207.7  201.2
avg_8_64x16_rvv_i32                                :   19.0    9.0
avg_8_64x32_c                                      :  383.2  402.0
avg_8_64x32_rvv_i32                                :   37.5   17.5
avg_8_64x64_c                                      :  837.2  828.7
avg_8_64x64_rvv_i32                                :   84.7   35.5
avg_8_64x128_c                                     : 1640.7 1640.2
avg_8_64x128_rvv_i32                               :  206.0  153.0
avg_8_128x2_c                                      :   48.7   51.0
avg_8_128x2_rvv_i32                                :    5.2    2.7
avg_8_128x4_c                                      :   96.7  101.5
avg_8_128x4_rvv_i32                                :   10.2    5.0
avg_8_128x8_c                                      :  192.2  202.0
avg_8_128x8_rvv_i32                                :   19.7    9.2
avg_8_128x16_c                                     :  400.7  403.2
avg_8_128x16_rvv_i32                               :   38.7   18.5
avg_8_128x32_c                                     :  786.7  805.7
avg_8_128x32_rvv_i32                               :   77.0   36.2
avg_8_128x64_c                                     : 1615.5 1655.5
avg_8_128x64_rvv_i32                               :  189.7   80.7
avg_8_128x128_c                                    : 3182.0 3238.0
avg_8_128x128_rvv_i32                              :  397.5  308.5
w_avg_8_2x2_c                                      :    1.7    1.2
w_avg_8_2x2_rvv_i32                                :    1.2    1.0
w_avg_8_2x4_c                                      :    2.7    2.7
w_avg_8_2x4_rvv_i32                                :    1.7    1.5
w_avg_8_2x8_c                                      :   21.7    4.7
w_avg_8_2x8_rvv_i32                                :    2.7    2.5
w_avg_8_2x16_c                                     :    9.5    9.2
w_avg_8_2x16_rvv_i32                               :    4.7    4.2
w_avg_8_2x32_c                                     :   19.0   18.7
w_avg_8_2x32_rvv_i32                               :    9.0    8.0
w_avg_8_2x64_c                                     :   62.0   50.2
w_avg_8_2x64_rvv_i32                               :   47.7   33.5
w_avg_8_2x128_c                                    :  116.7   87.7
w_avg_8_2x128_rvv_i32                              :   80.0   69.5
w_avg_8_4x2_c                                      :    2.5    2.5
w_avg_8_4x2_rvv_i32                                :    1.2    1.0
w_avg_8_4x4_c                                      :    4.7    4.5
w_avg_8_4x4_rvv_i32                                :    1.7    1.7
w_avg_8_4x8_c                                      :    9.0    8.7
w_avg_8_4x8_rvv_i32                                :    2.7    2.5
w_avg_8_4x16_c                                     :   17.7   17.5
w_avg_8_4x16_rvv_i32                               :    4.7    4.2
w_avg_8_4x32_c                                     :   35.0   35.0
w_avg_8_4x32_rvv_i32                               :    9.0    8.0
w_avg_8_4x64_c                                     :  100.5   84.5
w_avg_8_4x64_rvv_i32                               :   42.2   33.7
w_avg_8_4x128_c                                    :  203.5  151.2
w_avg_8_4x128_rvv_i32                              :   83.0   69.5
w_avg_8_8x2_c                                      :    4.5    4.5
w_avg_8_8x2_rvv_i32                                :    1.2    1.2
w_avg_8_8x4_c                                      :    8.7    8.7
w_avg_8_8x4_rvv_i32                                :    2.0    1.7
w_avg_8_8x8_c                                      :   17.0   17.0
w_avg_8_8x8_rvv_i32                                :    3.2    2.5
w_avg_8_8x16_c                                     :   34.0   33.5
w_avg_8_8x16_rvv_i32                               :    5.5    4.2
w_avg_8_8x32_c                                     :   86.0   67.5
w_avg_8_8x32_rvv_i32                               :   10.5    8.0
w_avg_8_8x64_c                                     :  187.2  149.5
w_avg_8_8x64_rvv_i32                               :   45.0   35.5
w_avg_8_8x128_c                                    :  342.7  290.0
w_avg_8_8x128_rvv_i32                              :  108.7   70.2
w_avg_8_16x2_c                                     :    8.5    8.2
w_avg_8_16x2_rvv_i32                               :    2.0    1.2
w_avg_8_16x4_c                                     :   16.7   16.7
w_avg_8_16x4_rvv_i32                               :    3.0    1.7
w_avg_8_16x8_c                                     :   33.2   33.5
w_avg_8_16x8_rvv_i32                               :    5.5    3.0
w_avg_8_16x16_c                                    :   66.2   66.7
w_avg_8_16x16_rvv_i32                              :   10.5    5.0
w_avg_8_16x32_c                                    :  132.5  131.0
w_avg_8_16x32_rvv_i32                              :   20.0    9.7
w_avg_8_16x64_c                                    :  340.0  283.5
w_avg_8_16x64_rvv_i32                              :   60.5   37.2
w_avg_8_16x128_c                                   :  641.2  597.5
w_avg_8_16x128_rvv_i32                             :  118.7   77.7
w_avg_8_32x2_c                                     :   16.5   16.7
w_avg_8_32x2_rvv_i32                               :    3.2    1.7
w_avg_8_32x4_c                                     :   33.2   33.2
w_avg_8_32x4_rvv_i32                               :    5.5    2.7
w_avg_8_32x8_c                                     :   66.0   62.5
w_avg_8_32x8_rvv_i32                               :   10.5    5.0
w_avg_8_32x16_c                                    :  131.5  132.0
w_avg_8_32x16_rvv_i32                              :   20.2    9.5
w_avg_8_32x32_c                                    :  261.7  272.0
w_avg_8_32x32_rvv_i32                              :   39.7   18.0
w_avg_8_32x64_c                                    :  575.2  545.5
w_avg_8_32x64_rvv_i32                              :  105.5   58.7
w_avg_8_32x128_c                                   : 1154.2 1088.0
w_avg_8_32x128_rvv_i32                             :  207.0   98.0
w_avg_8_64x2_c                                     :   33.0   33.0
w_avg_8_64x2_rvv_i32                               :    6.2    2.7
w_avg_8_64x4_c                                     :   65.5   66.0
w_avg_8_64x4_rvv_i32                               :   11.5    5.0
w_avg_8_64x8_c                                     :  131.2  132.5
w_avg_8_64x8_rvv_i32                               :   22.5    9.5
w_avg_8_64x16_c                                    :  268.2  262.5
w_avg_8_64x16_rvv_i32                              :   44.2   18.0
w_avg_8_64x32_c                                    :  561.5  528.7
w_avg_8_64x32_rvv_i32                              :   88.0   35.2
w_avg_8_64x64_c                                    : 1136.2 1124.0
w_avg_8_64x64_rvv_i32                              :  222.0   82.2
w_avg_8_64x128_c                                   : 2345.0 2312.7
w_avg_8_64x128_rvv_i32                             :  423.0  190.5
w_avg_8_128x2_c                                    :   65.7   66.5
w_avg_8_128x2_rvv_i32                              :   11.2    5.5
w_avg_8_128x4_c                                    :  131.2  132.2
w_avg_8_128x4_rvv_i32                              :   22.0   10.2
w_avg_8_128x8_c                                    :  263.5  312.0
w_avg_8_128x8_rvv_i32                              :   43.2   19.7
w_avg_8_128x16_c                                   :  528.7  526.2
w_avg_8_128x16_rvv_i32                             :   85.5   39.5
w_avg_8_128x32_c                                   : 1067.7 1062.7
w_avg_8_128x32_rvv_i32                             :  171.7   78.2
w_avg_8_128x64_c                                   : 2234.7 2168.7
w_avg_8_128x64_rvv_i32                             :  400.0  159.0
w_avg_8_128x128_c                                  : 4752.5 4295.0
w_avg_8_128x128_rvv_i32                            :  757.7  365.5

Signed-off-by: Rémi Denis-Courmont <remi@remlab.net>
2024-09-24 20:04:51 +03:00
Zhao Zhili 5c66a3ab51 avcodec/vvc: Fix output and unref a frame which isn't decoding yet
ff_vvc_output_frame is called before actually decoding. It's possible
for ff_vvc_output_frame to select current frame to output. If current
frame is nonref frame, it will be released by ff_vvc_unref_frame.

Fix this by always marking the current frame with
VVC_FRAME_FLAG_SHORT_REF, as is done by the HEVC decoder.
2024-09-15 16:42:14 +08:00
Frank Plowman 6df0c5f9f4 lavc/vvc: Remove experimental flag
This reverts commit 110d8549d5.

I have been working through fixing bugs, particularly crashes I've
found using a fuzzer, in the VVC decoder for the past few months.
While I won't claim it is now bug-free, it is considerably more
resilient than it was and I think in a position to have the
experimental flag removed for release 7.1.

Additionally, most of the Main 10 features of VVC which were missing
version of the decoder released in 7.0 have now been implemented.
This includes the most major missing features: IBC, subpictures and RPR.

Signed-off-by: Frank Plowman <post@frankplowman.com>
2024-09-06 22:14:52 +08:00
Nuo Mi 3d2fafa229 avcodec/vvcdec: fix potential deadlock in report_frame_progress
Fixes:
https://fate.ffmpeg.org/report.cgi?slot=x86_64-archlinux-gcc-tsan&time=20240823175808

Reproduction steps:
./configure --enable-memory-poisoning --toolchain=gcc-tsan --disable-stripping && make fate-vvc

Root cause:
We hold the current frame's lock while updating progress for other frames,
which also requires acquiring other frame locks. This could potentially lead to a deadlock.
However, I don't think this will happen in practice because progress updates are one-way, with no cyclic dependencies.
But we need this patch to make FATE happy.
2024-09-03 21:32:27 +08:00
Frank Plowman 54291f4383 lavc/vvc: Fix assertion bound on qPy_{a,b}
Signed-off-by: Frank Plowman <post@frankplowman.com>
2024-09-03 20:57:52 +08:00
Frank Plowman 01701bdcd5 lavc/vvc: Prevent OOB access in subpic_tiles
The previous logic relied on the subpicture boundaries coinciding with
the tile boundaries.  Per 6.3.1 of H.266 (V3), vertical subpicture
boundaries are always tile boundaries however the same cannot be said
for horizontal subpicture boundaries.  Furthermore, it is possible to
construct an illegal bitstream where vertical subpicture boundaries are
not coincident with tile boundaries.  In these cases, the condition of
the while loop would never be satisfied resulting in an OOB read on
col_bd/row_bd.

Patch fixes this issue by replacing != with <, thereby not requiring
subpicture boundaries and tile boundaries to be coincident.

Signed-off-by: Frank Plowman <post@frankplowman.com>
2024-08-31 15:05:23 +08:00
Nuo Mi b2eabe0ff2 avcodec/vvcdec: format, fix indent for vvc_deblock_bs 2024-08-31 14:16:19 +08:00
Nuo Mi 7bd22342c3 avcodec/vvcdec: filter, fix uninitialized variables for YUV400 format
fix
==135000== Conditional jump or move depends on uninitialised value(s)
==135000==    at 0x169FF95: vvc_deblock_bs (filter.c:699)
and
==135000== Conditional jump or move depends on uninitialised value(s)
==135000==    at 0x16A2E72: ff_vvc_alf_filter (filter.c:1217)

Reported-by: James Almer <jamrial@gmail.com>
2024-08-31 14:16:19 +08:00
Nuo Mi f851abb4b3 avcodec/vvcdec: bdof, do not pad sources and gradients to simplify the code 2024-08-31 13:57:51 +08:00
Nuo Mi 8347def797 avcodec/vvcdec: misc, rename BDOF_BLOCK_SIZE to BDOF_MIN_BLOCK_SIZE 2024-08-31 13:57:51 +08:00
Wu Jianhua ca5c9e810a avcodec/vvc/dsp: prefix TxType and TxSize with VVC
See https://patchwork.ffmpeg.org/project/ffmpeg/patch/TYSPR06MB64337C4A9ADF5312E6648543AA62A@TYSPR06MB6433.apcprd06.prod.outlook.com/#81892

Signed-off-by: Wu Jianhua <toqsxw@outlook.com>
2024-08-15 20:52:14 +08:00
Wu Jianhua ae1a9cfd52 avcodec/vvc_parser: move avctx->has_b_frames initialization to dec
From Jun Zhao <mypopydev@gmail.com>:
> Should we relocate this to the decoder? Other codecs typically set this
> parameter in the decoder.

Signed-off-by: Wu Jianhua <toqsxw@outlook.com>
2024-08-15 20:50:24 +08:00
Nuo Mi 80af195804 avcodec/vvcdec: move frame tab memset from the main thread to worker threads
memset tables in the main thread can become a bottleneck for the decoder.
For example, if it takes 1% of the processing time for one core, the maximum achievable FPS will be 100.
Move the memeset to worker threads will fix the issue.
2024-08-15 20:33:57 +08:00
Nuo Mi daf6fcd816 avcodec/vvcdec: do not zero frame qp table
For luma, qp can only change at the CU level, so the qp tab size is related to the CU.
For chroma, considering the joint CbCr, the QP tab size is related to the TU.
2024-08-15 20:33:57 +08:00
Nuo Mi ca2caeb21d avcodec/vvcdec: do not zero frame msf mmi table 2024-08-15 20:33:57 +08:00
Nuo Mi 0c7106f618 avcodec/vvcdec: do not zero frame cpm table 2024-08-15 20:33:57 +08:00
Nuo Mi 3e497249eb avcodec/vvcdec: check_available, use && instead of &= for shortcut evaluation 2024-08-15 20:33:57 +08:00
Nuo Mi 4f882c453e avcodec/vvcdec: do not zero frame mvf table 2024-08-15 20:33:57 +08:00
Nuo Mi 93b0d5f9ce avcodec/vvcdec: refact out is_available from is_a0_available 2024-08-15 20:33:57 +08:00
Nuo Mi e8ac761293 avcodec/vvcdec: split ctu table to zero init and no zero init parts
cus need to init to zero, other parts are not
2024-08-15 20:19:45 +08:00
Nuo Mi 4f60961498 avcodec/vvcdec: remove unnecessary perframe initializations
deblock, sao, alf
skip, imtf, ipm, cqt_depth, cb_pos_x, cb_pos_y, cb_height, cp_mv,
tb_pos_x0, tb_pos_y0, tb_width, tb_height
2024-08-15 20:19:45 +08:00
Nuo Mi 210bf1b154 avcodec/vvcdec: refact, combine bs tab with tu tab 2024-08-15 20:19:45 +08:00
Nuo Mi bdb79fe60a avcodec/vvcdec: thread, ensure the parse stage gets the highest priority
The parser stage is not parallelizable.
We need to schedule it as soon as possible to create later stages, which are more parallelizable

clips                                       | before | after | delta
--------------------------------------------|--------|-------|------
RitualDance_1920x1080_60_10_420_37_RA.266   | 342.7  | 365.3 |  6.59%
NovosobornayaSquare_1920x1080.bin           | 321.7  | 400   | 24.34%
Tango2_3840x2160_60_10_420_27_LD.266        |  82.3  |  91.7 | 11.42%
RitualDance_1920x1080_60_10_420_32_LD.266   | 323.7  | 319.3 | -1.36%
Chimera_8bit_1080P_1000_frames.vvc          | 364    | 411.3 | 12.99%
BQTerrace_1920x1080_60_10_420_22_RA.vvc     | 162.7  | 185.7 | 14.14%
2024-08-15 20:19:45 +08:00
Nuo Mi 1c17520e79 avcodec/vvcdec: Use av_image_copy_plane for DMVR 10-bit integer pixels
It's no need to shift and interpolate for 10-bit integer pixels,
av_image_copy_plane is enough
2024-08-15 20:19:45 +08:00