Re: [RFC PATCH v6] media: mediatek: vcodec: support stateless AV1 decoder

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Hi,

W dniu 29.11.2022 o 12:50, Xiaoyong Lu (卢小勇) pisze:
Hi Andrzej,

Thanks for your comments, I have fixed all except for some items which
need more discussion with you.


1.
+    for (i = 0; i < AV1_MAX_FRAME_BUF_COUNT; i++) {
+        if (instance->cdf[i].va)
+            mtk_vcodec_mem_free(ctx, &instance->cdf[i]);
+        instance->cdf[i].size = size;
+        ret = mtk_vcodec_mem_alloc(ctx, &instance->cdf[i]);
+        if (ret)
+            goto err;
+        work_buffer[i].cdf_addr.buf = instance->cdf[i].dma_addr;
+        work_buffer[i].cdf_addr.size = size;
+    }

The 3 for loops are supposed to iterate from 0 to
AV1_MAX_FRAME_BUF_COUNT - 1,
inclusive. Is it possible to merge them?

-->can you help to explain more clearly, and what  does  "3" stand for?


In vdec_av1_slice_alloc_working_buffer() there are 3 similar "for" loops
which (are supposed to) iterate the same number of times.
I was wondering if was possible to collapse them into one loop.

2.
+
+    ret = mtk_vcodec_mem_alloc(ctx, &instance->tile);
+    if (ret)
+        goto err;
+
+    vsi->tile.buf = instance->tile.dma_addr;
+    vsi->tile.size = size;

vsi->tile.size = instance->tile.size;

and now it is clear the size in vsi is the same as the one in instance.
BTW, is vsi->tile.size supposed to always be equal to the one in
instance?
If yes:
   - Is instance available whenever we need to access vsi->tile.size?
   - What's the point of duplicating this value? Can it be stored in one
place?
--> vsi->tile.size is always equal to instance->tile.size, but they
should not be stored in one place. because vsi will be used for micro-
processor,and instance is only used in kernel side.

Makes sense.

Also I can remove following two statements.
+    vsi->tile.buf = instance->tile.dma_addr;
+    vsi->tile.size = size;
because  it will re-assign values for each frame before entering to
micro-processor in vdec_av1_slice_setup_lat_buffer.

the fewer lines to review and compile, the better :)

3.
+static void vdec_av1_slice_free_working_buffer(struct
vdec_av1_slice_instance *instance)
+{
+    struct mtk_vcodec_ctx *ctx = instance->ctx;
+    int i;
+
+    for (i = 0; i < ARRAY_SIZE(instance->mv); i++)
+        if (instance->mv[i].va)
+            mtk_vcodec_mem_free(ctx, &instance->mv[i]);

Perhaps mtk_vcodec_mem_free() can properly handle the case

(!instance->mv[i].va) ? This would eliminate 7 of 20 lines of code
in this function.

--> I think it will be better to add this , because
1.if mtk_vcodec_mem_free is changed by someone later and donnot do  va
null check,  it will ensure safely in caller.

There's no stable internal api in the kernel. Whoever changes internal api,
they are responsible to make sure eiter its users are unaffected,
or to change all users accordingly. And you can't think of all possible
crazy ways people might want to change the code 5 or 10 or 20 years
from now. In other words, trying to prevent a situation that does
not exist in exchange for more lines of code seems not a good deal.

2.If I donnot do  va null check,  there will print an error log in
mtk_vcodec_mem_free  when va is null. But it may be normal behivor.
      if (!mem->va) {
         mtk_v4l2_err("%s dma_free size=%ld failed!", dev_name(dev),
                  size);
         return;
}
what about your opinion?


What I meant by "properly handling the NULL case" was to be prepared
to handle the NULL case in mtk_vcodec_mem_free(), that is to assume
that NULL can as well be passed to it. Given NULL is allowed, there's
no point in announcing that "we've been passed a NULL".
That's how kfree() behaves, for example.

4.

  +static void vdec_av1_slice_setup_gm(struct vdec_av1_slice_gm *gm,
+                    struct v4l2_av1_global_motion *ctrl_gm)
+{
+    u32 i, j;
+
+    for (i = 0; i < V4L2_AV1_TOTAL_REFS_PER_FRAME; i++) {
+        gm[i].wmtype = ctrl_gm->type[i];
+        for (j = 0; j < 6; j++)

Maybe #define this magic 6?

--> I  see uapi  driver use magic number 6 too, which is in
struct v4l2_av1_global_motion {
     __u8 flags[V4L2_AV1_TOTAL_REFS_PER_FRAME];
     enum v4l2_av1_warp_model type[V4L2_AV1_TOTAL_REFS_PER_FRAME];
     __u32 params[V4L2_AV1_TOTAL_REFS_PER_FRAME][6];
     __u8 invalid;
};
 From av1 official document in 5.9.24 Global motion params syntax
section, it also use magic number 6.

so i think it will not need to change this.


fair enough

5.
static void vdec_av1_slice_setup_quant(struct
vdec_av1_slice_quantization *quant,
+                       struct v4l2_av1_quantization *ctrl_quant)
+{
+    quant->base_q_idx = ctrl_quant->base_q_idx;
+    quant->delta_qydc = ctrl_quant->delta_q_y_dc;
+    quant->delta_qudc = ctrl_quant->delta_q_u_dc;
+    quant->delta_quac = ctrl_quant->delta_q_u_ac;
+    quant->delta_qvdc = ctrl_quant->delta_q_v_dc;
+    quant->delta_qvac = ctrl_quant->delta_q_v_ac;
+    quant->qm_y = ctrl_quant->qm_y;
+    quant->qm_u = ctrl_quant->qm_u;
+    quant->qm_v = ctrl_quant->qm_v;

Can a common struct be introduced to hold these parameters?
And then copied in one go?

Maybe there's a good reason the code is the way it is now. However,
a series of "dumb" assignments (no value modifications) makes me
wonder.

  +        cdef->cdef_y_strength[i] =
+            ctrl_cdef->y_pri_strength[i] <<
SECONDARY_FILTER_STRENGTH_NUM_BITS |
+            ctrl_cdef->y_sec_strength[i];
+        cdef->cdef_uv_strength[i] =
+            ctrl_cdef->uv_pri_strength[i] <<
SECONDARY_FILTER_STRENGTH_NUM_BITS |
+            ctrl_cdef->uv_sec_strength[i];
+    }
+}

Both vdec_av1_slice_setup_lf() and vdec_av1_slice_setup_cdef():

I'm wondering if the user of struct vdec_av1_slice_loop_filter and
struct
vdec_av1_slice_cdef could work with the uAPI variants of these structs?
Is there
a need for driver-specific mutations? (Maybe there is, the driver's
author
should know).

-->1.There is a mediatek map structure in kernel part which also has
the same structure in micro-processor.
2.Uapi v4l2 structure will not access in micro-processor, and mediatek
driver structure may not be all the same with v4l2.

so these will not need to change.

You know your hardware. If you say so, you must be right.


6.
+    /* bs NULL means flush decoder */
+    if (!bs)
+        return vdec_av1_slice_flush(h_vdec, bs, fb, res_chg);
+
+    lat_buf = vdec_msg_queue_dqbuf(&ctx->msg_queue.lat_ctx);
+    if (!lat_buf) {
+        mtk_vcodec_err(instance, "failed to get AV1 lat buf\n");

there exists vdec_msg_queue_deinit(). Should it be called in this (and
subsequent) error recovery path(s)?

+        return -EBUSY;
+    }

-->vdec_msg_queue_deinit is called when do deinit operation before stop
streaming.
But here is just error handle for current frame,  so it shouldnot call
vdec_msg_queue_deinit here.

This is confusing. It would be better if vdec_msg_queue_deinit() were
called from another place, not from the function which is called
per-frame. The "mirror location" for "before stop streaming" seems
"after start streaming", but I don't know.


7.
+    src = v4l2_m2m_next_src_buf(instance->ctx->m2m_ctx);
+    if (!src)
+        return -EINVAL;
+
+    lat_buf->src_buf_req = src->vb2_buf.req_obj.req;
+    dst = &lat_buf->ts_info;

the "ts_info" actually contains a struct vb2_v4l2_buffer. Why such a
name?

-->"ts_info" is not named by me, and i just use it here, so i will not
rename it.


fair enough

I ask the owner why it is named with ts_info and the answer is:
"This parame is used to store timestamp releated information from
output queue to capture queue."

So you reached out to the author of the "ts_info" name.
I haven't seen you asking here (maybe I haven't noticed?).
It is better to ask such a question in the mailing list rather than
in a private message.


8.
+    /* frame header */
+    ctrl_fh = (struct v4l2_ctrl_av1_frame *)
+          vdec_av1_get_ctrl_ptr(instance->ctx,
+                    V4L2_CID_STATELESS_AV1_FRAME);
+    if (IS_ERR(ctrl_fh))
+        return PTR_ERR(ctrl_fh);
+
+    ctrl_seq = (struct v4l2_ctrl_av1_sequence *)
+           vdec_av1_get_ctrl_ptr(instance->ctx,
+                     V4L2_CID_STATELESS_AV1_SEQUENCE);
+    if (IS_ERR(ctrl_seq))
+        return PTR_ERR(ctrl_seq);

Just to make sure: I assume request api is used? If so, does vdec's
framework
ensure that v4l2_ctrl_request_setup() has been called? It influences
what's
actually in ctrl->p_cur.p (current or previous value), and the
vdec_av1_get_ctrl_ptr() wrapper returns ctrl->p_cur.p.

-->v4l2_ctrl_request_setup() is called in  mtk_vdec_worker which is
before this function.


great

Thanks
Best Regards
xiaoyong Lu


Please avoid top-posting. It is easier for your reviewer to read your answers
inline. And, actually, it is easier for you not having to find the relevant
fragments, copy and then paste on top. Instead, try answering just below
reviewer's comments.

Also, when communicating on the mailing list eliminate the footer
which makes the readers wonder if they are allowed to read your
messages.

Regards,

Andrzej


On Thu, 2022-11-17 at 13:42 +0100, Andrzej Pietrasiewicz wrote:
Hi Xiaoyong Lu,

Sorry about chiming in only at v6. Please see inline below.

Andrzej

W dniu 17.11.2022 o 07:17, Xiaoyong Lu pisze:
> Add mediatek av1 decoder linux driver which use the stateless API
> in
> MT8195.
> > Signed-off-by: Xiaoyong Lu<xiaoyong.lu@xxxxxxxxxxxx>
> ---
> Changes from v5:
> > - change av1 PROFILE and LEVEL cfg
> - test by av1 fluster, result is 173/239
> > Changes from v4: > > - convert vb2_find_timestamp to vb2_find_buffer
> - test by av1 fluster, result is 173/239
> > Changes from v3: > > - modify comment for struct vdec_av1_slice_slot
> - add define SEG_LVL_ALT_Q
> - change use_lr/use_chroma_lr parse from av1 spec
> - use ARRAY_SIZE to replace size for loop_filter_level and
> loop_filter_mode_deltas
> - change array size of loop_filter_mode_deltas from 4 to 2
> - add define SECONDARY_FILTER_STRENGTH_NUM_BITS
> - change some hex values from upper case to lower case
> - change *dpb_sz equal to V4L2_AV1_TOTAL_REFS_PER_FRAME + 1
> - test by av1 fluster, result is 173/239
> > Changes from v2: > > - Match with av1 uapi v3 modify
> - test by av1 fluster, result is 173/239
> > ---
> Reference series:
> [1]: v3 of this series is presend by Daniel Almeida.
> message-id: > 20220825225312.564619-1-daniel.almeida@xxxxxxxxxxxxx > > .../media/platform/mediatek/vcodec/Makefile | 1 +
>   .../vcodec/mtk_vcodec_dec_stateless.c         |   47 +-
>   .../platform/mediatek/vcodec/mtk_vcodec_drv.h |    1 +
>   .../vcodec/vdec/vdec_av1_req_lat_if.c         | 2234
> +++++++++++++++++
>   .../platform/mediatek/vcodec/vdec_drv_if.c    |    4 +
>   .../platform/mediatek/vcodec/vdec_drv_if.h    |    1 +
>   .../platform/mediatek/vcodec/vdec_msg_queue.c |   27 +
>   .../platform/mediatek/vcodec/vdec_msg_queue.h |    4 +
>   8 files changed, 2318 insertions(+), 1 deletion(-)
>   create mode 100644
> drivers/media/platform/mediatek/vcodec/vdec/vdec_av1_req_lat_if.c
> > diff --git a/drivers/media/platform/mediatek/vcodec/Makefile
> b/drivers/media/platform/mediatek/vcodec/Makefile
> index 93e7a343b5b0e..7537259130072 100644
> --- a/drivers/media/platform/mediatek/vcodec/Makefile
> +++ b/drivers/media/platform/mediatek/vcodec/Makefile
> @@ -10,6 +10,7 @@ mtk-vcodec-dec-y := vdec/vdec_h264_if.o \
>   vdec/vdec_vp8_req_if.o \
>   vdec/vdec_vp9_if.o \
>   vdec/vdec_vp9_req_lat_if.o \
> +vdec/vdec_av1_req_lat_if.o \
>   vdec/vdec_h264_req_if.o \
>   vdec/vdec_h264_req_common.o \
>   vdec/vdec_h264_req_multi_if.o \
> diff --git
> a/drivers/media/platform/mediatek/vcodec/mtk_vcodec_dec_stateless.c
> b/drivers/media/platform/mediatek/vcodec/mtk_vcodec_dec_stateless.c
> index c45bd2599bb2d..ceb6fabc67749 100644
> ---
> a/drivers/media/platform/mediatek/vcodec/mtk_vcodec_dec_stateless.c
> +++
> b/drivers/media/platform/mediatek/vcodec/mtk_vcodec_dec_stateless.c
> @@ -107,11 +107,51 @@ static const struct mtk_stateless_control
> mtk_stateless_controls[] = {
>   },
>   .codec_type = V4L2_PIX_FMT_VP9_FRAME,
>   },
> +{
> +.cfg = {
> +.id = V4L2_CID_STATELESS_AV1_SEQUENCE,
> +
> +},
> +.codec_type = V4L2_PIX_FMT_AV1_FRAME,
> +},
> +{
> +.cfg = {
> +.id = V4L2_CID_STATELESS_AV1_FRAME,
> +
> +},
> +.codec_type = V4L2_PIX_FMT_AV1_FRAME,
> +},
> +{
> +.cfg = {
> +.id = V4L2_CID_STATELESS_AV1_TILE_GROUP_ENTRY,
> +.dims = { V4L2_AV1_MAX_TILE_COUNT },
> +
> +},
> +.codec_type = V4L2_PIX_FMT_AV1_FRAME,
> +},
> +{
> +.cfg = {
> +.id = V4L2_CID_STATELESS_AV1_PROFILE,
> +.min = V4L2_STATELESS_AV1_PROFILE_MAIN,
> +.def = V4L2_STATELESS_AV1_PROFILE_MAIN,
> +.max = V4L2_STATELESS_AV1_PROFILE_MAIN,
> +},
> +.codec_type = V4L2_PIX_FMT_AV1_FRAME,
> +},
> +{
> +.cfg = {
> +.id = V4L2_CID_STATELESS_AV1_LEVEL,
> +.min = V4L2_STATELESS_AV1_LEVEL_2_0,
> +.def = V4L2_STATELESS_AV1_LEVEL_4_0,
> +.max = V4L2_STATELESS_AV1_LEVEL_5_1,
> +},
> +.codec_type = V4L2_PIX_FMT_AV1_FRAME,
> +},
>   };
> > #define NUM_CTRLS ARRAY_SIZE(mtk_stateless_controls) > > -static struct mtk_video_fmt mtk_video_formats[5];
> +static struct mtk_video_fmt mtk_video_formats[6];
> > static struct mtk_video_fmt default_out_format;
>   static struct mtk_video_fmt default_cap_format;
> @@ -351,6 +391,7 @@ static void mtk_vcodec_add_formats(unsigned int
> fourcc,
>   case V4L2_PIX_FMT_H264_SLICE:
>   case V4L2_PIX_FMT_VP8_FRAME:
>   case V4L2_PIX_FMT_VP9_FRAME:
> +case V4L2_PIX_FMT_AV1_FRAME:
>   mtk_video_formats[count_formats].fourcc = fourcc;
>   mtk_video_formats[count_formats].type = MTK_FMT_DEC;
>   mtk_video_formats[count_formats].num_planes = 1;
> @@ -407,6 +448,10 @@ static void
> mtk_vcodec_get_supported_formats(struct mtk_vcodec_ctx *ctx)
>   mtk_vcodec_add_formats(V4L2_PIX_FMT_VP9_FRAME, ctx);
>   out_format_count++;
>   }
> +if (ctx->dev->dec_capability & MTK_VDEC_FORMAT_AV1_FRAME) {
> +mtk_vcodec_add_formats(V4L2_PIX_FMT_AV1_FRAME, ctx);
> +out_format_count++;
> +}
> > if (cap_format_count)
>   default_cap_format = mtk_video_formats[cap_format_count
> - 1];
> diff --git
> a/drivers/media/platform/mediatek/vcodec/mtk_vcodec_drv.h
> b/drivers/media/platform/mediatek/vcodec/mtk_vcodec_drv.h
> index 6a47a11ff654a..a6db972b1ff72 100644
> --- a/drivers/media/platform/mediatek/vcodec/mtk_vcodec_drv.h
> +++ b/drivers/media/platform/mediatek/vcodec/mtk_vcodec_drv.h
> @@ -344,6 +344,7 @@ enum mtk_vdec_format_types {
>   MTK_VDEC_FORMAT_H264_SLICE = 0x100,
>   MTK_VDEC_FORMAT_VP8_FRAME = 0x200,
>   MTK_VDEC_FORMAT_VP9_FRAME = 0x400,
> +MTK_VDEC_FORMAT_AV1_FRAME = 0x800,
>   MTK_VCODEC_INNER_RACING = 0x20000,
>   };
> > diff --git
> a/drivers/media/platform/mediatek/vcodec/vdec/vdec_av1_req_lat_if.c
> b/drivers/media/platform/mediatek/vcodec/vdec/vdec_av1_req_lat_if.c
> new file mode 100644
> index 0000000000000..2ac77175dad7c
> --- /dev/null
> +++
> b/drivers/media/platform/mediatek/vcodec/vdec/vdec_av1_req_lat_if.c
> @@ -0,0 +1,2234 @@
> +// SPDX-License-Identifier: GPL-2.0
> +/*
> + * Copyright (c) 2022 MediaTek Inc.
> + * Author: Xiaoyong Lu <xiaoyong.lu@xxxxxxxxxxxx>
> + */
> +
> +#include <linux/module.h>
> +#include <linux/slab.h>
> +#include <media/videobuf2-dma-contig.h>
> +
> +#include "../mtk_vcodec_util.h"
> +#include "../mtk_vcodec_dec.h"
> +#include "../mtk_vcodec_intr.h"
> +#include "../vdec_drv_base.h"
> +#include "../vdec_drv_if.h"
> +#include "../vdec_vpu_if.h"
> +
> +#define AV1_MAX_FRAME_BUF_COUNT(V4L2_AV1_TOTAL_REFS_PE
> R_FRAME + 1)
> +#define AV1_TILE_BUF_SIZE64
> +#define AV1_SCALE_SUBPEL_BITS10
> +#define AV1_REF_SCALE_SHIFT14
> +#define AV1_REF_NO_SCALEBIT(AV1_REF_SCALE_SHIFT)
> +#define AV1_REF_INVALID_SCALE-1
> +
> +#define AV1_INVALID_IDX-1
> +
> +#define AV1_DIV_ROUND_UP_POW2(value, n)\
> +({\
> +typeof(n) _n  = n;\
> +typeof(value) _value = value;\
> +(_value + (BIT(_n) >> 1)) >> _n;\
> +})
> +
> +#define AV1_DIV_ROUND_UP_POW2_SIGNED(value, n)
> \
> +({
> \
> +typeof(n) _n_  = n;\
> +typeof(value) _value_ = value;
> \
> +(((_value_) < 0) ? -AV1_DIV_ROUND_UP_POW2(-(_value_), (_n_))
> \
> +: AV1_DIV_ROUND_UP_POW2((_value_), (_n_)));\
> +})
> +
> +#define BIT_FLAG(x, bit)(!!((x)->flags & (bit)))
> +#define SEGMENTATION_FLAG(x, name)(!!((x)->flags &
> V4L2_AV1_SEGMENTATION_FLAG_##name))
> +#define QUANT_FLAG(x, name)(!!((x)->flags &
> V4L2_AV1_QUANTIZATION_FLAG_##name))
> +#define SEQUENCE_FLAG(x, name)(!!((x)->flags &
> V4L2_AV1_SEQUENCE_FLAG_##name))
> +#define FH_FLAG(x, name)(!!((x)->flags &
> V4L2_AV1_FRAME_FLAG_##name))
> +
> +#define MINQ 0
> +#define MAXQ 255
> +
> +#define DIV_LUT_PREC_BITS 14
> +#define DIV_LUT_BITS 8
> +#define DIV_LUT_NUM BIT(DIV_LUT_BITS)
> +#define WARP_PARAM_REDUCE_BITS 6
> +#define WARPEDMODEL_PREC_BITS 16
> +
> +#define SEG_LVL_ALT_Q 0
> +#define SECONDARY_FILTER_STRENGTH_NUM_BITS 2
> +
> +static const short div_lut[DIV_LUT_NUM + 1] = {
> +16384, 16320, 16257, 16194, 16132, 16070, 16009, 15948, 15888,
> 15828, 15768,
> +15709, 15650, 15592, 15534, 15477, 15420, 15364, 15308, 15252,
> 15197, 15142,
> +15087, 15033, 14980, 14926, 14873, 14821, 14769, 14717, 14665,
> 14614, 14564,
> +14513, 14463, 14413, 14364, 14315, 14266, 14218, 14170, 14122,
> 14075, 14028,
> +13981, 13935, 13888, 13843, 13797, 13752, 13707, 13662, 13618,
> 13574, 13530,
> +13487, 13443, 13400, 13358, 13315, 13273, 13231, 13190, 13148,
> 13107, 13066,
> +13026, 12985, 12945, 12906, 12866, 12827, 12788, 12749, 12710,
> 12672, 12633,
> +12596, 12558, 12520, 12483, 12446, 12409, 12373, 12336, 12300,
> 12264, 12228,
> +12193, 12157, 12122, 12087, 12053, 12018, 11984, 11950, 11916,
> 11882, 11848,
> +11815, 11782, 11749, 11716, 11683, 11651, 11619, 11586, 11555,
> 11523, 11491,
> +11460, 11429, 11398, 11367, 11336, 11305, 11275, 11245, 11215,
> 11185, 11155,
> +11125, 11096, 11067, 11038, 11009, 10980, 10951, 10923, 10894,
> 10866, 10838,
> +10810, 10782, 10755, 10727, 10700, 10673, 10645, 10618, 10592,
> 10565, 10538,
> +10512, 10486, 10460, 10434, 10408, 10382, 10356, 10331, 10305,
> 10280, 10255,
> +10230, 10205, 10180, 10156, 10131, 10107, 10082, 10058, 10034,
> 10010, 9986,
> +9963, 9939, 9916, 9892, 9869, 9846, 9823, 9800, 9777, > 9754, 9732, > +9709, 9687, 9664, 9642, 9620, 9598, 9576, 9554, 9533, > 9511, 9489, > +9468, 9447, 9425, 9404, 9383, 9362, 9341, 9321, 9300, > 9279, 9259, > +9239, 9218, 9198, 9178, 9158, 9138, 9118, 9098, 9079, > 9059, 9039, > +9020, 9001, 8981, 8962, 8943, 8924, 8905, 8886, 8867, > 8849, 8830, > +8812, 8793, 8775, 8756, 8738, 8720, 8702, 8684, 8666, > 8648, 8630, > +8613, 8595, 8577, 8560, 8542, 8525, 8508, 8490, 8473, > 8456, 8439, > +8422, 8405, 8389, 8372, 8355, 8339, 8322, 8306, 8289, > 8273, 8257,
> +8240,  8224,  8208,  8192,
> +};
> +
> +/**
> + * struct vdec_av1_slice_init_vsi - VSI used to initialize
> instance
> + * @architecture:architecture type
> + * @reserved:reserved
> + * @core_vsi:for core vsi
> + * @cdf_table_addr:cdf table addr
> + * @cdf_table_size:cdf table size
> + * @iq_table_addr:iq table addr
> + * @iq_table_size:iq table size
> + * @vsi_size:share vsi structure size
> + */
> +struct vdec_av1_slice_init_vsi {
> +u32 architecture;
> +u32 reserved;
> +u64 core_vsi;
> +u64 cdf_table_addr;
> +u32 cdf_table_size;
> +u64 iq_table_addr;
> +u32 iq_table_size;
> +u32 vsi_size;
> +};
> +
> +/**
> + * struct vdec_av1_slice_mem - memory address and size
> + * @buf:dma_addr padding
> + * @dma_addr:buffer address
> + * @size:buffer size
> + * @dma_addr_end:buffer end address
> + * @padding:for padding
> + */
> +struct vdec_av1_slice_mem {
> +union {
> +u64 buf;
> +dma_addr_t dma_addr;
> +};
> +union {
> +size_t size;
> +dma_addr_t dma_addr_end;
> +u64 padding;
> +};
> +};
> +
> +/**
> + * struct vdec_av1_slice_state - decoding state
> + * @err                   : err type for decode
> + * @full                  : transcoded buffer is full or not
> + * @timeout               : decode timeout or not
> + * @perf                  : performance enable
> + * @crc                   : hw checksum
> + * @out_size              : hw output size
> + */
> +struct vdec_av1_slice_state {
> +int err;
> +u32 full;
> +u32 timeout;
> +u32 perf;
> +u32 crc[16];
> +u32 out_size;
> +};
> +
> +/*
> + * enum vdec_av1_slice_resolution_level - resolution level
> + */
> +enum vdec_av1_slice_resolution_level {
> +AV1_RES_NONE,
> +AV1_RES_FHD,
> +AV1_RES_4K,
> +AV1_RES_8K,
> +};
> +
> +/*
> + * enum vdec_av1_slice_frame_type - av1 frame type
> + */
> +enum vdec_av1_slice_frame_type {
> +AV1_KEY_FRAME = 0,
> +AV1_INTER_FRAME,
> +AV1_INTRA_ONLY_FRAME,
> +AV1_SWITCH_FRAME,
> +AV1_FRAME_TYPES,
> +};
> +
> +/*
> + * enum vdec_av1_slice_reference_mode - reference mode type
> + */
> +enum vdec_av1_slice_reference_mode {
> +AV1_SINGLE_REFERENCE = 0,
> +AV1_COMPOUND_REFERENCE,
> +AV1_REFERENCE_MODE_SELECT,
> +AV1_REFERENCE_MODES,
> +};
> +
> +/**
> + * struct vdec_av1_slice_tile_group - info for each tile
> + * @num_tiles:tile number
> + * @tile_size:input size for each tile
> + * @tile_start_offset:tile offset to input buffer
> + */
> +struct vdec_av1_slice_tile_group {
> +u32 num_tiles;
> +u32 tile_size[V4L2_AV1_MAX_TILE_COUNT];
> +u32 tile_start_offset[V4L2_AV1_MAX_TILE_COUNT];
> +};
> +
> +/**
> + * struct vdec_av1_slice_scale_factors - scale info for each ref
> frame
> + * @is_scaled:  frame is scaled or not
> + * @x_scale:    frame width scale coefficient
> + * @y_scale:    frame height scale coefficient
> + * @x_step:     width step for x_scale
> + * @y_step:     height step for y_scale
> + */
> +struct vdec_av1_slice_scale_factors {
> +u8 is_scaled;
> +int x_scale;
> +int y_scale;
> +int x_step;
> +int y_step;
> +};
> +
> +/**
> + * struct vdec_av1_slice_frame_refs - ref frame info
> + * @ref_fb_idx:         ref slot index
> + * @ref_map_idx:        ref frame index
> + * @scale_factors:      scale factors for each ref frame
> + */
> +struct vdec_av1_slice_frame_refs {
> +int ref_fb_idx;
> +int ref_map_idx;
> +struct vdec_av1_slice_scale_factors scale_factors;
> +};
> +
> +/**
> + * struct vdec_av1_slice_gm - AV1 Global Motion parameters
> + * @wmtype:     The type of global motion transform used
> + * @wmmat:      gm_params
> + * @alpha:      alpha info
> + * @beta:       beta info
> + * @gamma:      gamma info
> + * @delta:      delta info
> + * @invalid:    is invalid or not
> + */
> +struct vdec_av1_slice_gm {
> +int wmtype;
> +int wmmat[8];
> +short alpha;
> +short beta;
> +short gamma;
> +short delta;
> +char invalid;
> +};
> +
> +/**
> + * struct vdec_av1_slice_sm - AV1 Skip Mode parameters
> + * @skip_mode_allowed:  Skip Mode is allowed or not
> + * @skip_mode_present:  specified that the skip_mode will be
> present or not
> + * @skip_mode_frame:    specifies the frames to use for compound
> prediction
> + */
> +struct vdec_av1_slice_sm {
> +u8 skip_mode_allowed;
> +u8 skip_mode_present;
> +int skip_mode_frame[2];
> +};
> +
> +/**
> + * struct vdec_av1_slice_seg - AV1 Segmentation params
> + * @segmentation_enabled:        this frame makes use of the
> segmentation tool or not
> + * @segmentation_update_map:     segmentation map are updated
> during the decoding frame
> + * @segmentation_temporal_update:segmentation map are coded
> relative the existing segmentaion map
> + * @segmentation_update_data:    new parameters are about to be
> specified for each segment
> + * @feature_data:                specifies the feature data for a
> segment feature
> + * @feature_enabled_mask:        the corresponding feature value
> is coded or not.
> + * @segid_preskip:               segment id will be read before
> the skip syntax element.
> + * @last_active_segid:           the highest numbered segment id
> that has some enabled feature
> + */
> +struct vdec_av1_slice_seg {
> +u8 segmentation_enabled;
> +u8 segmentation_update_map;
> +u8 segmentation_temporal_update;
> +u8 segmentation_update_data;
> +int feature_data[V4L2_AV1_MAX_SEGMENTS][V4L2_AV1_SEG_LVL_MAX];
> +u16 feature_enabled_mask[V4L2_AV1_MAX_SEGMENTS];
> +int segid_preskip;
> +int last_active_segid;
> +};
> +
> +/**
> + * struct vdec_av1_slice_delta_q_lf - AV1 Loop Filter delta
> parameters
> + * @delta_q_present:    specified whether quantizer index delta
> values are present
> + * @delta_q_res:        specifies the left shift which should be
> applied to decoded quantizer index
> + * @delta_lf_present:   specifies whether loop filter delta values
> are present
> + * @delta_lf_res:       specifies the left shift which should be
> applied to decoded
> + *                      loop filter delta values
> + * @delta_lf_multi:     specifies that separate loop filter deltas
> are sent for horizontal
> + *                      luma edges,vertical luma edges,the u
> edges, and the v edges.
> + */
> +struct vdec_av1_slice_delta_q_lf {
> +u8 delta_q_present;
> +u8 delta_q_res;
> +u8 delta_lf_present;
> +u8 delta_lf_res;
> +u8 delta_lf_multi;
> +};
> +
> +/**
> + * struct vdec_av1_slice_quantization - AV1 Quantization params
> + * @base_q_idx:         indicates the base frame qindex. This is
> used for Y AC
> + *                      coefficients and as the base value for the
> other quantizers.
> + * @qindex:             qindex
> + * @delta_qydc:         indicates the Y DC quantizer relative to
> base_q_idx
> + * @delta_qudc:         indicates the U DC quantizer relative to
> base_q_idx.
> + * @delta_quac:         indicates the U AC quantizer relative to
> base_q_idx
> + * @delta_qvdc:         indicates the V DC quantizer relative to
> base_q_idx
> + * @delta_qvac:         indicates the V AC quantizer relative to
> base_q_idx
> + * @using_qmatrix:      specifies that the quantizer matrix will
> be used to
> + *                      compute quantizers
> + * @qm_y:               specifies the level in the quantizer
> matrix that should
> + *                      be used for luma plane decoding
> + * @qm_u:               specifies the level in the quantizer
> matrix that should
> + *                      be used for chroma U plane decoding.
> + * @qm_v:               specifies the level in the quantizer
> matrix that should be
> + *                      used for chroma V plane decoding
> + */
> +struct vdec_av1_slice_quantization {
> +int base_q_idx;
> +int qindex[V4L2_AV1_MAX_SEGMENTS];
> +int delta_qydc;
> +int delta_qudc;
> +int delta_quac;
> +int delta_qvdc;
> +int delta_qvac;
> +u8 using_qmatrix;
> +u8 qm_y;
> +u8 qm_u;
> +u8 qm_v;
> +};
> +
> +/**
> + * struct vdec_av1_slice_lr - AV1 Loop Restauration parameters
> + * @use_lr:                     whether to use loop restoration
> + * @use_chroma_lr:              whether to use chroma loop
> restoration
> + * @frame_restoration_type:     specifies the type of restoration
> used for each plane
> + * @loop_restoration_size:      pecifies the size of loop
> restoration units in units
> + *                              of samples in the current plane
> + */
> +struct vdec_av1_slice_lr {
> +u8 use_lr;
> +u8 use_chroma_lr;
> +u8 frame_restoration_type[V4L2_AV1_NUM_PLANES_MAX];
> +u32 loop_restoration_size[V4L2_AV1_NUM_PLANES_MAX];
> +};
> +
> +/**
> + * struct vdec_av1_slice_loop_filter - AV1 Loop filter parameters
> + * @loop_filter_level:          an array containing loop filter
> strength values.
> + * @loop_filter_ref_deltas:     contains the adjustment needed for
> the filter
> + *                              level based on the chosen
> reference frame
> + * @loop_filter_mode_deltas:    contains the adjustment needed for
> the filter
> + *                              level based on the chosen mode
> + * @loop_filter_sharpness:      indicates the sharpness level. The
> loop_filter_level
> + *                              and loop_filter_sharpness together
> determine when
> + *                              a block edge is filtered, and by
> how much the
> + *                              filtering can change the sample
> values
> + * @loop_filter_delta_enabled:  filetr level depends on the mode
> and reference
> + *                              frame used to predict a block
> + */
> +struct vdec_av1_slice_loop_filter {
> +u8 loop_filter_level[4];
> +int loop_filter_ref_deltas[V4L2_AV1_TOTAL_REFS_PER_FRAME];
> +int loop_filter_mode_deltas[2];
> +u8 loop_filter_sharpness;
> +u8 loop_filter_delta_enabled;
> +};
> +
> +/**
> + * struct vdec_av1_slice_cdef - AV1 CDEF parameters
> + * @cdef_damping:       controls the amount of damping in the
> deringing filter
> + * @cdef_y_strength:    specifies the strength of the primary
> filter and secondary filter
> + * @cdef_uv_strength:   specifies the strength of the primary
> filter and secondary filter
> + * @cdef_bits:          specifies the number of bits needed to
> specify which
> + *                      CDEF filter to apply
> + */
> +struct vdec_av1_slice_cdef {
> +u8 cdef_damping;
> +u8 cdef_y_strength[8];
> +u8 cdef_uv_strength[8];
> +u8 cdef_bits;
> +};
> +
> +/**
> + * struct vdec_av1_slice_mfmv - AV1 mfmv parameters
> + * @mfmv_valid_ref:     mfmv_valid_ref
> + * @mfmv_dir:           mfmv_dir
> + * @mfmv_ref_to_cur:    mfmv_ref_to_cur
> + * @mfmv_ref_frame_idx: mfmv_ref_frame_idx
> + * @mfmv_count:         mfmv_count
> + */
> +struct vdec_av1_slice_mfmv {
> +u32 mfmv_valid_ref[3];
> +u32 mfmv_dir[3];
> +int mfmv_ref_to_cur[3];
> +int mfmv_ref_frame_idx[3];
> +int mfmv_count;
> +};
> +
> +/**
> + * struct vdec_av1_slice_tile - AV1 Tile info
> + * @tile_cols:                  specifies the number of tiles
> across the frame
> + * @tile_rows:                  pecifies the number of tiles down
> the frame
> + * @mi_col_starts:              an array specifying the start
> column
> + * @mi_row_starts:              an array specifying the start row
> + * @context_update_tile_id:     specifies which tile to use for
> the CDF update
> + * @uniform_tile_spacing_flag:  tiles are uniformly spaced across
> the frame
> + *                              or the tile sizes are coded
> + */
> +struct vdec_av1_slice_tile {
> +u8 tile_cols;
> +u8 tile_rows;
> +int mi_col_starts[V4L2_AV1_MAX_TILE_COLS + 1];
> +int mi_row_starts[V4L2_AV1_MAX_TILE_ROWS + 1];
> +u8 context_update_tile_id;
> +u8 uniform_tile_spacing_flag;
> +};
> +
> +/**
> + * struct vdec_av1_slice_uncompressed_header - Represents an AV1
> Frame Header OBU
> + * @use_ref_frame_mvs:          use_ref_frame_mvs flag
> + * @order_hint:                 specifies OrderHintBits least
> significant bits of the expected
> + * @gm:                         global motion param
> + * @upscaled_width:             the upscaled width
> + * @frame_width:                frame's width
> + * @frame_height:               frame's height
> + * @reduced_tx_set:             frame is restricted to a reduced
> subset of the full
> + *                              set of transform types
> + * @tx_mode:                    specifies how the transform size
> is determined
> + * @uniform_tile_spacing_flag:  tiles are uniformly spaced across
> the frame
> + *                              or the tile sizes are coded
> + * @interpolation_filter:       specifies the filter selection
> used for performing inter prediction
> + * @allow_warped_motion:        motion_mode may be present or not
> + * @is_motion_mode_switchable : euqlt to 0 specifies that only the
> SIMPLE motion mode will be used
> + * @reference_mode :            frame reference mode selected
> + * @allow_high_precision_mv:    specifies that motion vectors are
> specified to
> + *                              quarter pel precision or to eighth
> pel precision
> + * @allow_intra_bc:             ubducates that intra block copy
> may be used in this frame
> + * @force_integer_mv:           specifies motion vectors will
> always be integers or
> + *                              can contain fractional bits
> + * @allow_screen_content_tools: intra blocks may use palette
> encoding
> + * @error_resilient_mode:       error resislent mode is
> enable/disable
> + * @frame_type:                 specifies the AV1 frame type
> + * @primary_ref_frame:          specifies which reference frame
> contains the CDF values
> + *                              and other state that should be
> loaded at the start of the frame
> + *                              slots will be updated with the
> current frame after it is decoded
> + * @disable_frame_end_update_cdf:indicates the end of frame CDF
> update is disable or enable
> + * @disable_cdf_update:         specified whether the CDF update
> in the symbol
> + *                              decoding process should be
> disables
> + * @skip_mode:                  av1 skip mode parameters
> + * @seg:                        av1 segmentaon parameters
> + * @delta_q_lf:                 av1 delta loop fileter
> + * @quant:                      av1 Quantization params
> + * @lr:                         av1 Loop Restauration parameters
> + * @superres_denom:             the denominator for the upscaling
> ratio
> + * @loop_filter:                av1 Loop filter parameters
> + * @cdef:                       av1 CDEF parameters
> + * @mfmv:                       av1 mfmv parameters
> + * @tile:                       av1 Tile info
> + * @frame_is_intra:             intra frame
> + * @loss_less_array:            loss less array
> + * @coded_loss_less:            coded lsss less
> + * @mi_rows:                    size of mi unit in rows
> + * @mi_cols:                    size of mi unit in cols
> + */
> +struct vdec_av1_slice_uncompressed_header {
> +u8 use_ref_frame_mvs;
> +int order_hint;
> +struct vdec_av1_slice_gm gm[V4L2_AV1_TOTAL_REFS_PER_FRAME];
> +u32 upscaled_width;
> +u32 frame_width;
> +u32 frame_height;
> +u8 reduced_tx_set;
> +u8 tx_mode;
> +u8 uniform_tile_spacing_flag;
> +u8 interpolation_filter;
> +u8 allow_warped_motion;
> +u8 is_motion_mode_switchable;
> +u8 reference_mode;
> +u8 allow_high_precision_mv;
> +u8 allow_intra_bc;
> +u8 force_integer_mv;
> +u8 allow_screen_content_tools;
> +u8 error_resilient_mode;
> +u8 frame_type;
> +u8 primary_ref_frame;
> +u8 disable_frame_end_update_cdf;
> +u32 disable_cdf_update;
> +struct vdec_av1_slice_sm skip_mode;
> +struct vdec_av1_slice_seg seg;
> +struct vdec_av1_slice_delta_q_lf delta_q_lf;
> +struct vdec_av1_slice_quantization quant;
> +struct vdec_av1_slice_lr lr;
> +u32 superres_denom;
> +struct vdec_av1_slice_loop_filter loop_filter;
> +struct vdec_av1_slice_cdef cdef;
> +struct vdec_av1_slice_mfmv mfmv;
> +struct vdec_av1_slice_tile tile;
> +u8 frame_is_intra;
> +u8 loss_less_array[V4L2_AV1_MAX_SEGMENTS];
> +u8 coded_loss_less;
> +u32 mi_rows;
> +u32 mi_cols;
> +};
> +
> +/**
> + * struct vdec_av1_slice_seq_header - Represents an AV1 Sequence
> OBU
> + * @bitdepth:                   the bitdepth to use for the
> sequence
> + * @enable_superres:            specifies whether the use_superres
> syntax element may be present
> + * @enable_filter_intra:        specifies the use_filter_intra
> syntax element may be present
> + * @enable_intra_edge_filter:   whether the intra edge filtering
> process should be enabled
> + * @enable_interintra_compound: specifies the mode info fo rinter
> blocks may
> + *                              contain the syntax element
> interintra
> + * @enable_masked_compound:     specifies the mode info fo rinter
> blocks may
> + *                              contain the syntax element
> compound_type
> + * @enable_dual_filter:         the inter prediction filter type
> may be specified independently
> + * @enable_jnt_comp:            distance weights process may be
> used for inter prediction
> + * @mono_chrome:                indicates the video does not
> contain U and V color planes
> + * @enable_order_hint:          tools based on the values of order
> hints may be used
> + * @order_hint_bits:            the number of bits used for the
> order_hint field at each frame
> + * @use_128x128_superblock:     indicates superblocks contain
> 128*128 luma samples
> + * @subsampling_x:              the chroma subsamling format
> + * @subsampling_y:              the chroma subsamling format
> + * @max_frame_width:            the maximum frame width for the
> frames represented by sequence
> + * @max_frame_height:           the maximum frame height for the
> frames represented by sequence
> + */
> +struct vdec_av1_slice_seq_header {
> +u8 bitdepth;
> +u8 enable_superres;
> +u8 enable_filter_intra;
> +u8 enable_intra_edge_filter;
> +u8 enable_interintra_compound;
> +u8 enable_masked_compound;
> +u8 enable_dual_filter;
> +u8 enable_jnt_comp;
> +u8 mono_chrome;
> +u8 enable_order_hint;
> +u8 order_hint_bits;
> +u8 use_128x128_superblock;
> +u8 subsampling_x;
> +u8 subsampling_y;
> +u32 max_frame_width;
> +u32 max_frame_height;
> +};
> +
> +/**
> + * struct vdec_av1_slice_frame - Represents current Frame info
> + * @uh:                         uncompressed header info
> + * @seq:                        sequence header info
> + * @large_scale_tile:           is large scale mode
> + * @cur_ts:                     current frame timestamp
> + * @prev_fb_idx:                prev slot id
> + * @ref_frame_sign_bias:        arrays for ref_frame sign bias
> + * @order_hints:                arrays for ref_frame order hint
> + * @ref_frame_valid:            arrays for valid ref_frame
> + * @ref_frame_map:              map to slot frame info
> + * @frame_refs:                 ref_frame info
> + */
> +struct vdec_av1_slice_frame {
> +struct vdec_av1_slice_uncompressed_header uh;
> +struct vdec_av1_slice_seq_header seq;
> +u8 large_scale_tile;
> +u64 cur_ts;
> +int prev_fb_idx;
> +u8 ref_frame_sign_bias[V4L2_AV1_TOTAL_REFS_PER_FRAME];
> +u32 order_hints[V4L2_AV1_REFS_PER_FRAME];
> +u32 ref_frame_valid[V4L2_AV1_REFS_PER_FRAME];
> +int ref_frame_map[V4L2_AV1_TOTAL_REFS_PER_FRAME];
> +struct vdec_av1_slice_frame_refs
> frame_refs[V4L2_AV1_REFS_PER_FRAME];
> +};
> +
> +/**
> + * struct vdec_av1_slice_work_buffer - work buffer for lat
> + * @mv_addr:    mv buffer memory info
> + * @cdf_addr:   cdf buffer memory info
> + * @segid_addr: segid buffer memory info
> + */
> +struct vdec_av1_slice_work_buffer {
> +struct vdec_av1_slice_mem mv_addr;
> +struct vdec_av1_slice_mem cdf_addr;
> +struct vdec_av1_slice_mem segid_addr;
> +};
> +
> +/**
> + * struct vdec_av1_slice_frame_info - frame info for each slot
> + * @frame_type:         frame type
> + * @frame_is_intra:     is intra frame
> + * @order_hint:         order hint
> + * @order_hints:        referece frame order hint
> + * @upscaled_width:     upscale width
> + * @pic_pitch:          buffer pitch
> + * @frame_width:        frane width
> + * @frame_height:       frame height
> + * @mi_rows:            rows in mode info
> + * @mi_cols:            cols in mode info
> + * @ref_count:          mark to reference frame counts
> + */
> +struct vdec_av1_slice_frame_info {
> +u8 frame_type;
> +u8 frame_is_intra;
> +int order_hint;
> +u32 order_hints[V4L2_AV1_REFS_PER_FRAME];
> +u32 upscaled_width;
> +u32 pic_pitch;
> +u32 frame_width;
> +u32 frame_height;
> +u32 mi_rows;
> +u32 mi_cols;
> +int ref_count;
> +};
> +
> +/**
> + * struct vdec_av1_slice_slot - slot info that needs to be saved
> in the global instance
> + * @frame_info: frame info for each slot
> + * @timestamp:  time stamp info
> + */
> +struct vdec_av1_slice_slot {
> +struct vdec_av1_slice_frame_info
> frame_info[AV1_MAX_FRAME_BUF_COUNT];
> +u64 timestamp[AV1_MAX_FRAME_BUF_COUNT];
> +};
> +
> +/**
> + * struct vdec_av1_slice_fb - frame buffer for decoding
> + * @y:  current y buffer address info
> + * @c:  current c buffer address info
> + */
> +struct vdec_av1_slice_fb {
> +struct vdec_av1_slice_mem y;
> +struct vdec_av1_slice_mem c;
> +};
> +
> +/**
> + * struct vdec_av1_slice_vsi - exchange frame information between
> Main CPU and MicroP
> + * @bs:input buffer info
> + * @work_buffer:working buffe for hw
> + * @cdf_table:cdf_table buffer
> + * @cdf_tmp:cdf temp buffer
> + * @rd_mv:mv buffer for lat output , core input
> + * @ube:ube buffer
> + * @trans:transcoded buffer
> + * @err_map:err map buffer
> + * @row_info:row info buffer
> + * @fb:current y/c buffer
> + * @ref:ref y/c buffer
> + * @iq_table:iq table buffer
> + * @tile:tile buffer
> + * @slots:slots info for each frame
> + * @slot_id:current frame slot id
> + * @frame:current frame info
> + * @state:status after decode done
> + * @cur_lst_tile_id:tile id for large scale
> + */
> +struct vdec_av1_slice_vsi {
> +/* lat */
> +struct vdec_av1_slice_mem bs;
> +struct vdec_av1_slice_work_buffer
> work_buffer[AV1_MAX_FRAME_BUF_COUNT];
> +struct vdec_av1_slice_mem cdf_table;
> +struct vdec_av1_slice_mem cdf_tmp;
> +/* LAT stage's output, Core stage's input */
> +struct vdec_av1_slice_mem rd_mv;
> +struct vdec_av1_slice_mem ube;
> +struct vdec_av1_slice_mem trans;
> +struct vdec_av1_slice_mem err_map;
> +struct vdec_av1_slice_mem row_info;
> +/* core */
> +struct vdec_av1_slice_fb fb;
> +struct vdec_av1_slice_fb ref[V4L2_AV1_REFS_PER_FRAME];
> +struct vdec_av1_slice_mem iq_table;
> +/* lat and core share*/
> +struct vdec_av1_slice_mem tile;
> +struct vdec_av1_slice_slot slots;
> +u8 slot_id;
> +struct vdec_av1_slice_frame frame;
> +struct vdec_av1_slice_state state;
> +u32 cur_lst_tile_id;
> +};
> +
> +/**
> + * struct vdec_av1_slice_pfc - per-frame context that contains a
> local vsi.
> + *                             pass it from lat to core
> + * @vsi:        local vsi. copy to/from remote vsi before/after
> decoding
> + * @ref_idx:    reference buffer timestamp
> + * @seq:        picture sequence
> + */
> +struct vdec_av1_slice_pfc {
> +struct vdec_av1_slice_vsi vsi;
> +u64 ref_idx[V4L2_AV1_REFS_PER_FRAME];
> +int seq;
> +};
> +
> +/**
> + * struct vdec_av1_slice_instance - represent one av1 instance
> + * @ctx:                pointer to codec's context
> + * @vpu:                VPU instance
> + * @iq_table:           iq table buffer
> + * @cdf_table:          cdf table buffer
> + * @mv:                 mv working buffer
> + * @cdf:                cdf working buffer
> + * @seg:                segmentation working buffer
> + * @cdf_temp:           cdf temp buffer
> + * @tile:               tile buffer
> + * @slots:              slots info
> + * @tile_group:         tile_group entry
> + * @level:              level of current resolution
> + * @width:              width of last picture
> + * @height:             height of last picture
> + * @frame_type:         frame_type of last picture
> + * @irq:                irq to Main CPU or MicroP
> + * @inneracing_mode:    is inneracing mode
> + * @init_vsi:           vsi used for initialized AV1 instance
> + * @vsi:                vsi used for decoding/flush ...
> + * @core_vsi:           vsi used for Core stage
> + * @seq:                global picture sequence
> + */
> +struct vdec_av1_slice_instance {
> +struct mtk_vcodec_ctx *ctx;
> +struct vdec_vpu_inst vpu;
> +
> +struct mtk_vcodec_mem iq_table;
> +struct mtk_vcodec_mem cdf_table;
> +
> +struct mtk_vcodec_mem mv[AV1_MAX_FRAME_BUF_COUNT];
> +struct mtk_vcodec_mem cdf[AV1_MAX_FRAME_BUF_COUNT];
> +struct mtk_vcodec_mem seg[AV1_MAX_FRAME_BUF_COUNT];
> +struct mtk_vcodec_mem cdf_temp;
> +struct mtk_vcodec_mem tile;
> +struct vdec_av1_slice_slot slots;
> +struct vdec_av1_slice_tile_group tile_group;
> +
> +/* for resolution change and get_pic_info */
> +enum vdec_av1_slice_resolution_level level;
> +u32 width;
> +u32 height;
> +
> +u32 frame_type;
> +u32 irq;
> +u32 inneracing_mode;
> +
> +/* MicroP vsi */
> +union {
> +struct vdec_av1_slice_init_vsi *init_vsi;
> +struct vdec_av1_slice_vsi *vsi;
> +};
> +struct vdec_av1_slice_vsi *core_vsi;
> +int seq;
> +};
> +
> +static int vdec_av1_slice_core_decode(struct vdec_lat_buf
> *lat_buf);
> +
> +static inline int vdec_av1_slice_get_msb(u32 n)
> +{
> +if (n == 0)
> +return 0;
> +return 31 ^ __builtin_clz(n);
> +}
> +
> +static inline bool vdec_av1_slice_need_scale(u32 ref_width, u32
> ref_height,
> +     u32 this_width, u32
> this_height)
> +{
> +return ((this_width << 1) >= ref_width) &&
> +((this_height << 1) >= ref_height) &&
> +(this_width <= (ref_width << 4)) &&
> +(this_height <= (ref_height << 4));
> +}
> +
> +static void *vdec_av1_get_ctrl_ptr(struct mtk_vcodec_ctx *ctx, int
> id)
> +{
> +struct v4l2_ctrl *ctrl = v4l2_ctrl_find(&ctx->ctrl_hdl, id);
> +
> +if (!ctrl)
> +return ERR_PTR(-EINVAL);
> +
> +return ctrl->p_cur.p;
> +}

I see we keep repeating this kind of a v4l2_ctrl_find() wrapper in
drivers.
The only reason this code cannot be factored out is the "context"
struct pointer
pointing at structs of different types. Maybe we could

#define v4l2_get_ctrl_ptr(ctx, member, id) \
__v4l2_get_ctrl_ptr((ctx), offsetof(typeof(*ctx), (member)),
(id))

void *__v4l2_get_ctrl_ptr(void *ctx, size_t offset, u32 id)
{
struct v4l2_ctrl_handler *hdl = (struct v4l2_ctrl_handler
*)(ctx + offset);
struct v4l2_ctrl *ctrl = v4l2_ctrl_find(hdl, id);

if (!ctrl)
return ERR_PTR(-EINVAL);

return ctrl->p_cur.p;
}

and reuse v4l2_get_ctrl_ptr() in drivers?

A similar kind of void* arithmetic happens in container_of, only with
'-'.

> +
> +static int vdec_av1_slice_init_cdf_table(struct
> vdec_av1_slice_instance *instance)
> +{
> +u8 *remote_cdf_table;
> +struct mtk_vcodec_ctx *ctx;
> +struct vdec_av1_slice_init_vsi *vsi;
> +int ret;
> +
> +ctx = instance->ctx;
> +vsi = instance->vpu.vsi;
> +if (!ctx || !vsi) {
> +mtk_vcodec_err(instance, "invalid ctx or vsi 0x%p
> 0x%p\n",
> +       ctx, vsi);
> +return -EINVAL;
> +}

The above if block is redundant, because - given the current shape of
ths driver
code - the condition is never true.

This function is only called from vdec_av1_slice_init(), where both
instance->ctx and instance->vpu.vsi are set to some values. The
latter is even
checked for being null before this function is called.

In the caller, instance->ctx is set to whatever the caller receives
from its
caller. This perhaps might be checked, but vdec_av1_slice_init()
dereferences
ctx without checking anyway (instance->vpu.codec_type = ctx-
>current_codec;).
So maybe add a check in vdec_av1_slice_init(), or ensure that
vdec_av1_slice_init() is never passed a NULL ctx.

> +
> +remote_cdf_table = mtk_vcodec_fw_map_dm_addr(ctx->dev-
> >fw_handler,
> +     (u32)vsi-
> >cdf_table_addr);
> +if (IS_ERR(remote_cdf_table)) {
> +mtk_vcodec_err(instance, "failed to map cdf table\n");
> +return PTR_ERR(remote_cdf_table);
> +}
> +
> +mtk_vcodec_debug(instance, "map cdf table to 0x%p\n",
> + remote_cdf_table);
> +
> +if (instance->cdf_table.va)
> +mtk_vcodec_mem_free(ctx, &instance->cdf_table);
> +instance->cdf_table.size = vsi->cdf_table_size;
> +
> +ret = mtk_vcodec_mem_alloc(ctx, &instance->cdf_table);
> +if (ret)
> +return ret;
> +
> +memcpy(instance->cdf_table.va, remote_cdf_table, vsi-
> >cdf_table_size);
> +
> +return 0;
> +}
> +
> +static int vdec_av1_slice_init_iq_table(struct
> vdec_av1_slice_instance *instance)
> +{
> +u8 *remote_iq_table;
> +struct mtk_vcodec_ctx *ctx;
> +struct vdec_av1_slice_init_vsi *vsi;
> +int ret;
> +
> +ctx = instance->ctx;
> +vsi = instance->vpu.vsi;
> +if (!ctx || !vsi) {
> +mtk_vcodec_err(instance, "invalid ctx or vsi 0x%p
> 0x%p\n",
> +       ctx, vsi);
> +return -EINVAL;
> +}

ditto

> +
> +remote_iq_table = mtk_vcodec_fw_map_dm_addr(ctx->dev-
> >fw_handler,
> +    (u32)vsi-
> >iq_table_addr);
> +if (IS_ERR(remote_iq_table)) {
> +mtk_vcodec_err(instance, "failed to map iq table\n");
> +return PTR_ERR(remote_iq_table);
> +}
> +
> +mtk_vcodec_debug(instance, "map iq table to 0x%p\n",
> remote_iq_table);
> +
> +if (instance->iq_table.va)
> +mtk_vcodec_mem_free(ctx, &instance->iq_table);
> +instance->iq_table.size = vsi->iq_table_size;
> +
> +ret = mtk_vcodec_mem_alloc(ctx, &instance->iq_table);
> +if (ret)
> +return ret;
> +
> +memcpy(instance->iq_table.va, remote_iq_table, vsi-
> >iq_table_size);
> +
> +return 0;
> +}
> +
> +static int vdec_av1_slice_get_new_slot(struct vdec_av1_slice_vsi
> *vsi)
> +{
> +struct vdec_av1_slice_slot *slots = &vsi->slots;
> +int new_slot_idx = AV1_INVALID_IDX;
> +int i;
> +
> +for (i = 0; i < AV1_MAX_FRAME_BUF_COUNT; i++) {
> +if (slots->frame_info[i].ref_count == 0) {
> +new_slot_idx = i;
> +break;
> +}
> +}
> +
> +if (new_slot_idx != AV1_INVALID_IDX) {
> +slots->frame_info[new_slot_idx].ref_count++;
> +slots->timestamp[new_slot_idx] = vsi->frame.cur_ts;
> +}
> +
> +return new_slot_idx;
> +}
> +
> +static void vdec_av1_slice_clear_fb(struct
> vdec_av1_slice_frame_info *frame_info)

static inline void?

> +{
> +memset((void *)frame_info, 0, sizeof(struct
> vdec_av1_slice_frame_info));
> +}
> +
> +static void vdec_av1_slice_decrease_ref_count(struct
> vdec_av1_slice_slot *slots, int fb_idx)
> +{
> +struct vdec_av1_slice_frame_info *frame_info = slots-
> >frame_info;
> +
> +if (fb_idx < 0 || fb_idx >= AV1_MAX_FRAME_BUF_COUNT) {
> +mtk_v4l2_err("av1_error: %s() invalid fb_idx %d\n",
> __func__, fb_idx);
> +return;
> +}

The above if block is redundant, because - given the current shape of
this
driver code - the condition is never true.

This function is only called from the below
vdec_av1_slice_cleanup_slots().
The fb_idx formal param comes from the caller's slot_id local
variable, whose
value is only assigned in the for loop, iterating from 0 to
AV1_MAX_FRAME_BUF_COUNT - 1, inclusive. Hence slot_id is never < 0
nor >= AV1_MAX_FRAME_BUF_COUNT.

> +
> +frame_info[fb_idx].ref_count--;
> +if (frame_info[fb_idx].ref_count < 0) {
> +frame_info[fb_idx].ref_count = 0;
> +mtk_v4l2_err("av1_error: %s() fb_idx %d decrease
> ref_count error\n",
> +     __func__, fb_idx);
> +}
> +vdec_av1_slice_clear_fb(&frame_info[fb_idx]);
> +}
> +
> +static void vdec_av1_slice_cleanup_slots(struct
> vdec_av1_slice_slot *slots,
> + struct vdec_av1_slice_frame
> *frame,
> + struct v4l2_ctrl_av1_frame
> *ctrl_fh)
> +{
> +int slot_id, ref_id;
> +
> +for (ref_id = 0; ref_id < V4L2_AV1_TOTAL_REFS_PER_FRAME;
> ref_id++)
> +frame->ref_frame_map[ref_id] = AV1_INVALID_IDX;
> +
> +for (slot_id = 0; slot_id < AV1_MAX_FRAME_BUF_COUNT; slot_id++)
> {
> +u64 timestamp = slots->timestamp[slot_id];
> +bool ref_used = false;
> +
> +/* ignored unused slots */
> +if (slots->frame_info[slot_id].ref_count == 0)
> +continue;
> +
> +for (ref_id = 0; ref_id <
> V4L2_AV1_TOTAL_REFS_PER_FRAME; ref_id++) {
> +if (ctrl_fh->reference_frame_ts[ref_id] ==
> timestamp) {
> +frame->ref_frame_map[ref_id] = slot_id;
> +ref_used = true;
> +}
> +}
> +
> +if (!ref_used)
> +vdec_av1_slice_decrease_ref_count(slots,
> slot_id);
> +}
> +}
> +
> +static void vdec_av1_slice_setup_slot(struct
> vdec_av1_slice_instance *instance,
> +      struct vdec_av1_slice_vsi *vsi,
> +      struct v4l2_ctrl_av1_frame
> *ctrl_fh)
> +{
> +struct vdec_av1_slice_frame_info *cur_frame_info;
> +struct vdec_av1_slice_uncompressed_header *uh = &vsi->frame.uh;
> +int ref_id;
> +
> +memcpy(&vsi->slots, &instance->slots, sizeof(instance->slots));
> +vdec_av1_slice_cleanup_slots(&vsi->slots, &vsi->frame,
> ctrl_fh);
> +vsi->slot_id = vdec_av1_slice_get_new_slot(vsi);
> +
> +if (vsi->slot_id == AV1_INVALID_IDX) {
> +mtk_v4l2_err("warning:av1 get invalid index slot\n");
> +vsi->slot_id = 0;
> +}
> +cur_frame_info = &vsi->slots.frame_info[vsi->slot_id];
> +cur_frame_info->frame_type = uh->frame_type;
> +cur_frame_info->frame_is_intra = ((uh->frame_type ==
> AV1_INTRA_ONLY_FRAME) ||
> +  (uh->frame_type ==
> AV1_KEY_FRAME));
> +cur_frame_info->order_hint = uh->order_hint;
> +cur_frame_info->upscaled_width = uh->upscaled_width;
> +cur_frame_info->pic_pitch = 0;
> +cur_frame_info->frame_width = uh->frame_width;
> +cur_frame_info->frame_height = uh->frame_height;
> +cur_frame_info->mi_cols = ((uh->frame_width + 7) >> 3) << 1;
> +cur_frame_info->mi_rows = ((uh->frame_height + 7) >> 3) << 1;
> +
> +/* ensure current frame is properly mapped if referenced */
> +for (ref_id = 0; ref_id < V4L2_AV1_TOTAL_REFS_PER_FRAME;
> ref_id++) {
> +u64 timestamp = vsi->slots.timestamp[vsi->slot_id];
> +
> +if (ctrl_fh->reference_frame_ts[ref_id] == timestamp)
> +vsi->frame.ref_frame_map[ref_id] = vsi-
> >slot_id;
> +}
> +}
> +
> +static int vdec_av1_slice_alloc_working_buffer(struct
> vdec_av1_slice_instance *instance,
> +       struct
> vdec_av1_slice_vsi *vsi)
> +{
> +struct mtk_vcodec_ctx *ctx = instance->ctx;
> +struct vdec_av1_slice_work_buffer *work_buffer = vsi-
> >work_buffer;
> +enum vdec_av1_slice_resolution_level level;
> +u32 max_sb_w, max_sb_h, max_w, max_h, w, h;
> +size_t size;
> +int i, ret;
> +
> +w = vsi->frame.uh.frame_width;
> +h = vsi->frame.uh.frame_height;
> +
> +if (w > VCODEC_DEC_4K_CODED_WIDTH || h >
> VCODEC_DEC_4K_CODED_HEIGHT)
> +/* 8K */
> +return -EINVAL;
> +
> +if (w > MTK_VDEC_MAX_W || h > MTK_VDEC_MAX_H) {
> +/* 4K */
> +level = AV1_RES_4K;
> +max_w = VCODEC_DEC_4K_CODED_WIDTH;
> +max_h = VCODEC_DEC_4K_CODED_HEIGHT;
> +} else {
> +/* FHD */
> +level = AV1_RES_FHD;
> +max_w = MTK_VDEC_MAX_W;
> +max_h = MTK_VDEC_MAX_H;
> +}
> +
> +if (level == instance->level)
> +return 0;
> +
> +mtk_vcodec_debug(instance, "resolution level changed from %u to
> %u, %ux%u",
> + instance->level, level, w, h);
> +
> +max_sb_w = DIV_ROUND_UP(max_w, 128);
> +max_sb_h = DIV_ROUND_UP(max_h, 128);
> +size = max_sb_w * max_sb_h * SZ_1K;
> +for (i = 0; i < AV1_MAX_FRAME_BUF_COUNT; i++) {
> +if (instance->mv[i].va)
> +mtk_vcodec_mem_free(ctx, &instance->mv[i]);
> +instance->mv[i].size = size;
> +ret = mtk_vcodec_mem_alloc(ctx, &instance->mv[i]);
> +if (ret)
> +goto err;

Please ignore this comment if this has been discussed and settled.
Maybe it's just me, but I feel it is idiomatic in the kernel to
undo all previous allocations if at some iteration we fail. Here a
different
approach is taken: we stop iterating and return an error, and free
next time
we are called. Why?

> +work_buffer[i].mv_addr.buf = instance->mv[i].dma_addr;
> +work_buffer[i].mv_addr.size = size; > +}
> +
> +size = max_sb_w * max_sb_h * 512;
> +for (i = 0; i < AV1_MAX_FRAME_BUF_COUNT; i++) {
> +if (instance->seg[i].va)
> +mtk_vcodec_mem_free(ctx, &instance->seg[i]);
> +instance->seg[i].size = size;
> +ret = mtk_vcodec_mem_alloc(ctx, &instance->seg[i]);
> +if (ret)
> +goto err;
> +work_buffer[i].segid_addr.buf = instance-
> >seg[i].dma_addr;
> +work_buffer[i].segid_addr.size = size;
> +}
> +
> +size = 16384;

#define a named constant for this magic number?

> +for (i = 0; i < AV1_MAX_FRAME_BUF_COUNT; i++) {
> +if (instance->cdf[i].va)
> +mtk_vcodec_mem_free(ctx, &instance->cdf[i]);
> +instance->cdf[i].size = size;
> +ret = mtk_vcodec_mem_alloc(ctx, &instance->cdf[i]);
> +if (ret)
> +goto err;
> +work_buffer[i].cdf_addr.buf = instance-
> >cdf[i].dma_addr;
> +work_buffer[i].cdf_addr.size = size;
> +}

The 3 for loops are supposed to iterate from 0 to
AV1_MAX_FRAME_BUF_COUNT - 1,
inclusive. Is it possible to merge them?

> +if (!instance->cdf_temp.va) {
> +instance->cdf_temp.size = (SZ_1K * 16 * 100);
> +ret = mtk_vcodec_mem_alloc(ctx, &instance->cdf_temp);
> +if (ret)
> +goto err;
> +vsi->cdf_tmp.buf = instance->cdf_temp.dma_addr;
> +vsi->cdf_tmp.size = instance->cdf_temp.size;
> +}
> +size = AV1_TILE_BUF_SIZE * V4L2_AV1_MAX_TILE_COUNT;

This "size" is never changed until the end of this function.
It is a compile-time constant, so there's no need to assign its
value to an intermediate variable.

> +
> +if (instance->tile.va)
> +mtk_vcodec_mem_free(ctx, &instance->tile);
> +instance->tile.size = size;

instance->tile.size = AV1_TILE_BUF_SIZE * V4L2_AV1_MAX_TILE_COUNT;

> +
> +ret = mtk_vcodec_mem_alloc(ctx, &instance->tile);
> +if (ret)
> +goto err;
> +
> +vsi->tile.buf = instance->tile.dma_addr;
> +vsi->tile.size = size;

vsi->tile.size = instance->tile.size;

and now it is clear the size in vsi is the same as the one in
instance.
BTW, is vsi->tile.size supposed to always be equal to the one in
instance?
If yes:
  - Is instance available whenever we need to access vsi->tile.size?
  - What's the point of duplicating this value? Can it be stored in
one place?

> +
> +instance->level = level;
> +return 0;
> +
> +err:
> +instance->level = AV1_RES_NONE;
> +return ret;
> +}
> +
> +static void vdec_av1_slice_free_working_buffer(struct
> vdec_av1_slice_instance *instance)
> +{
> +struct mtk_vcodec_ctx *ctx = instance->ctx;
> +int i;
> +
> +for (i = 0; i < ARRAY_SIZE(instance->mv); i++)
> +if (instance->mv[i].va)
> +mtk_vcodec_mem_free(ctx, &instance->mv[i]);

Perhaps mtk_vcodec_mem_free() can properly handle the case

(!instance->mv[i].va) ? This would eliminate 7 of 20 lines of code
in this function.

> +
> +for (i = 0; i < ARRAY_SIZE(instance->seg); i++)
> +if (instance->seg[i].va)
> +mtk_vcodec_mem_free(ctx, &instance->seg[i]);
> +
> +for (i = 0; i < ARRAY_SIZE(instance->cdf); i++)
> +if (instance->cdf[i].va)
> +mtk_vcodec_mem_free(ctx, &instance->cdf[i]);
> +
> +if (instance->tile.va)
> +mtk_vcodec_mem_free(ctx, &instance->tile);
> +if (instance->cdf_temp.va)
> +mtk_vcodec_mem_free(ctx, &instance->cdf_temp);
> +if (instance->cdf_table.va)
> +mtk_vcodec_mem_free(ctx, &instance->cdf_table);
> +if (instance->iq_table.va)
> +mtk_vcodec_mem_free(ctx, &instance->iq_table);
> +
> +instance->level = AV1_RES_NONE;
> +}
> +
> +static void vdec_av1_slice_vsi_from_remote(struct
> vdec_av1_slice_vsi *vsi,
> +   struct vdec_av1_slice_vsi
> *remote_vsi)

static inline void?

> +{
> +memcpy(&vsi->trans, &remote_vsi->trans, sizeof(vsi->trans));
> +memcpy(&vsi->state, &remote_vsi->state, sizeof(vsi->state));
> +}
> +
> +static void vdec_av1_slice_vsi_to_remote(struct vdec_av1_slice_vsi
> *vsi,
> + struct vdec_av1_slice_vsi
> *remote_vsi)

static inline void?

> +{
> +memcpy(remote_vsi, vsi, sizeof(*vsi));
> +}
> +
> +static int vdec_av1_slice_setup_lat_from_src_buf(struct
> vdec_av1_slice_instance *instance,
> + struct
> vdec_av1_slice_vsi *vsi,
> + struct vdec_lat_buf
> *lat_buf)
> +{
> +struct vb2_v4l2_buffer *src;
> +struct vb2_v4l2_buffer *dst;
> +
> +src = v4l2_m2m_next_src_buf(instance->ctx->m2m_ctx);
> +if (!src)
> +return -EINVAL;
> +
> +lat_buf->src_buf_req = src->vb2_buf.req_obj.req;
> +dst = &lat_buf->ts_info;

the "ts_info" actually contains a struct vb2_v4l2_buffer. Why such a
name?

> +v4l2_m2m_buf_copy_metadata(src, dst, true);
> +vsi->frame.cur_ts = dst->vb2_buf.timestamp;
> +
> +return 0;
> +}
> +
> +static short vdec_av1_slice_resolve_divisor_32(u32 D, short
> *shift)
> +{
> +int f;
> +int e;
> +
> +*shift = vdec_av1_slice_get_msb(D);
> +/* e is obtained from D after resetting the most significant 1
> bit. */
> +e = D - ((u32)1 << *shift);
> +/* Get the most significant DIV_LUT_BITS (8) bits of e into f
> */
> +if (*shift > DIV_LUT_BITS)
> +f = AV1_DIV_ROUND_UP_POW2(e, *shift - DIV_LUT_BITS);
> +else
> +f = e << (DIV_LUT_BITS - *shift);
> +if (f > DIV_LUT_NUM)
> +return -1;
> +*shift += DIV_LUT_PREC_BITS;
> +/* Use f as lookup into the precomputed table of multipliers */
> +return div_lut[f];
> +}
> +
> +static void vdec_av1_slice_get_shear_params(struct
> vdec_av1_slice_gm *gm_params)
> +{
> +const int *mat = gm_params->wmmat;
> +short shift;
> +short y;
> +long long gv, dv;
> +
> +if (gm_params->wmmat[2] <= 0)
> +return;
> +
> +gm_params->alpha = clamp_val(mat[2] - (1 <<
> WARPEDMODEL_PREC_BITS), S16_MIN, S16_MAX);
> +gm_params->beta = clamp_val(mat[3], S16_MIN, S16_MAX);
> +
> +y = vdec_av1_slice_resolve_divisor_32(abs(mat[2]), &shift) *
> (mat[2] < 0 ? -1 : 1);
> +
> +gv = ((long long)mat[4] * (1 << WARPEDMODEL_PREC_BITS)) * y;
> +gm_params->gamma =
> clamp_val((int)AV1_DIV_ROUND_UP_POW2_SIGNED(gv, shift),
> +     S16_MIN, S16_MAX);
> +
> +dv = ((long long)mat[3] * mat[4]) * y;
> +gm_params->delta = clamp_val(mat[5] -
> (int)AV1_DIV_ROUND_UP_POW2_SIGNED(dv, shift) -
> +     (1 << WARPEDMODEL_PREC_BITS),
> S16_MIN, S16_MAX);
> +
> +gm_params->alpha = AV1_DIV_ROUND_UP_POW2_SIGNED(gm_params-
> >alpha, WARP_PARAM_REDUCE_BITS) *
> +(1 <<
> WARP_PARAM_REDUCE_BITS);
> +gm_params->beta = AV1_DIV_ROUND_UP_POW2_SIGNED(gm_params->beta, > WARP_PARAM_REDUCE_BITS) *
> +       (1 <<
> WARP_PARAM_REDUCE_BITS);
> +gm_params->gamma = AV1_DIV_ROUND_UP_POW2_SIGNED(gm_params-
> >gamma, WARP_PARAM_REDUCE_BITS) *
> +(1 <<
> WARP_PARAM_REDUCE_BITS);
> +gm_params->delta = AV1_DIV_ROUND_UP_POW2_SIGNED(gm_params-
> >delta, WARP_PARAM_REDUCE_BITS) *
> +(1 <<
> WARP_PARAM_REDUCE_BITS);
> +}
> +
> +static void vdec_av1_slice_setup_gm(struct vdec_av1_slice_gm *gm,
> +    struct v4l2_av1_global_motion
> *ctrl_gm)
> +{
> +u32 i, j;
> +
> +for (i = 0; i < V4L2_AV1_TOTAL_REFS_PER_FRAME; i++) {
> +gm[i].wmtype = ctrl_gm->type[i];
> +for (j = 0; j < 6; j++)

Maybe #define this magic 6?

> +gm[i].wmmat[j] = ctrl_gm->params[i][j];
> +
> +gm[i].invalid = !!(ctrl_gm->invalid & BIT(i));
> +gm[i].alpha = 0;
> +gm[i].beta = 0;
> +gm[i].gamma = 0;
> +gm[i].delta = 0;
> +if (gm[i].wmtype <= 3)

And this 3?

> +vdec_av1_slice_get_shear_params(&gm[i]);
> +}
> +}
> +
> +static void vdec_av1_slice_setup_seg(struct vdec_av1_slice_seg
> *seg,
> +     struct v4l2_av1_segmentation
> *ctrl_seg)
> +{
> +u32 i, j;
> +
> +seg->segmentation_enabled = SEGMENTATION_FLAG(ctrl_seg,
> ENABLED);
> +seg->segmentation_update_map = SEGMENTATION_FLAG(ctrl_seg,
> UPDATE_MAP);
> +seg->segmentation_temporal_update = SEGMENTATION_FLAG(ctrl_seg,
> TEMPORAL_UPDATE);
> +seg->segmentation_update_data = SEGMENTATION_FLAG(ctrl_seg,
> UPDATE_DATA);
> +seg->segid_preskip = SEGMENTATION_FLAG(ctrl_seg,
> SEG_ID_PRE_SKIP);
> +seg->last_active_segid = ctrl_seg->last_active_seg_id;
> +
> +for (i = 0; i < V4L2_AV1_MAX_SEGMENTS; i++) {
> +seg->feature_enabled_mask[i] = ctrl_seg-
> >feature_enabled[i];
> +for (j = 0; j < V4L2_AV1_SEG_LVL_MAX; j++)
> +seg->feature_data[i][j] = ctrl_seg-
> >feature_data[i][j];
> +}
> +}
> +
> +static void vdec_av1_slice_setup_quant(struct
> vdec_av1_slice_quantization *quant,
> +       struct v4l2_av1_quantization
> *ctrl_quant)
> +{
> +quant->base_q_idx = ctrl_quant->base_q_idx;
> +quant->delta_qydc = ctrl_quant->delta_q_y_dc;
> +quant->delta_qudc = ctrl_quant->delta_q_u_dc;
> +quant->delta_quac = ctrl_quant->delta_q_u_ac;
> +quant->delta_qvdc = ctrl_quant->delta_q_v_dc;
> +quant->delta_qvac = ctrl_quant->delta_q_v_ac;
> +quant->qm_y = ctrl_quant->qm_y;
> +quant->qm_u = ctrl_quant->qm_u;
> +quant->qm_v = ctrl_quant->qm_v;

Can a common struct be introduced to hold these parameters?
And then copied in one go?

Maybe there's a good reason the code is the way it is now. However,
a series of "dumb" assignments (no value modifications) makes me
wonder.

> +quant->using_qmatrix = QUANT_FLAG(ctrl_quant, USING_QMATRIX);
> +}
> +
> +static int vdec_av1_slice_get_qindex(struct
> vdec_av1_slice_uncompressed_header *uh,
> +     int segmentation_id)
> +{
> +struct vdec_av1_slice_seg *seg = &uh->seg;
> +struct vdec_av1_slice_quantization *quant = &uh->quant;
> +int data = 0, qindex = 0;
> +
> +if (seg->segmentation_enabled &&
> +    (seg->feature_enabled_mask[segmentation_id] &
> BIT(SEG_LVL_ALT_Q))) {
> +data = seg-
> >feature_data[segmentation_id][SEG_LVL_ALT_Q];
> +qindex = quant->base_q_idx + data;
> +return clamp_val(qindex, 0, MAXQ);
> +}
> +
> +return quant->base_q_idx;
> +}
> +
> +static void vdec_av1_slice_setup_lr(struct vdec_av1_slice_lr *lr,
> +    struct
> v4l2_av1_loop_restoration  *ctrl_lr)
> +{
> +int i;
> +
> +lr->use_lr = 0;
> +lr->use_chroma_lr = 0;
> +for (i = 0; i < V4L2_AV1_NUM_PLANES_MAX; i++) {
> +lr->frame_restoration_type[i] = ctrl_lr-
> >frame_restoration_type[i];
> +lr->loop_restoration_size[i] = ctrl_lr-
> >loop_restoration_size[i];
> +if (lr->frame_restoration_type[i]) {
> +lr->use_lr = 1;
> +if (i > 0)
> +lr->use_chroma_lr = 1;
> +}
> +}
> +}
> +
> +static void vdec_av1_slice_setup_lf(struct
> vdec_av1_slice_loop_filter *lf,
> +    struct v4l2_av1_loop_filter
> *ctrl_lf)
> +{
> +int i;
> +
> +for (i = 0; i < ARRAY_SIZE(lf->loop_filter_level); i++)
> +lf->loop_filter_level[i] = ctrl_lf->level[i];
> +
> +for (i = 0; i < V4L2_AV1_TOTAL_REFS_PER_FRAME; i++)
> +lf->loop_filter_ref_deltas[i] = ctrl_lf->ref_deltas[i];
> +
> +for (i = 0; i < ARRAY_SIZE(lf->loop_filter_mode_deltas); i++)
> +lf->loop_filter_mode_deltas[i] = ctrl_lf-
> >mode_deltas[i];
> +
> +lf->loop_filter_sharpness = ctrl_lf->sharpness;
> +lf->loop_filter_delta_enabled =
> +   BIT_FLAG(ctrl_lf,
> V4L2_AV1_LOOP_FILTER_FLAG_DELTA_ENABLED);
> +}
> +
> +static void vdec_av1_slice_setup_cdef(struct vdec_av1_slice_cdef
> *cdef,
> +      struct v4l2_av1_cdef *ctrl_cdef)
> +{
> +int i;
> +
> +cdef->cdef_damping = ctrl_cdef->damping_minus_3 + 3;
> +cdef->cdef_bits = ctrl_cdef->bits;
> +
> +for (i = 0; i < V4L2_AV1_CDEF_MAX; i++) {
> +if (ctrl_cdef->y_sec_strength[i] == 4)
> +ctrl_cdef->y_sec_strength[i] -= 1;
> +
> +if (ctrl_cdef->uv_sec_strength[i] == 4)
> +ctrl_cdef->uv_sec_strength[i] -= 1;
> +
> +cdef->cdef_y_strength[i] =
> +ctrl_cdef->y_pri_strength[i] <<
> SECONDARY_FILTER_STRENGTH_NUM_BITS |
> +ctrl_cdef->y_sec_strength[i];
> +cdef->cdef_uv_strength[i] =
> +ctrl_cdef->uv_pri_strength[i] <<
> SECONDARY_FILTER_STRENGTH_NUM_BITS |
> +ctrl_cdef->uv_sec_strength[i];
> +}
> +}

Both vdec_av1_slice_setup_lf() and vdec_av1_slice_setup_cdef():

I'm wondering if the user of struct vdec_av1_slice_loop_filter and
struct vdec_av1_slice_cdef could work with the uAPI variants of these
structs? Is there
a need for driver-specific mutations? (Maybe there is, the driver's
author
should know).

> +
> +static void vdec_av1_slice_setup_seq(struct
> vdec_av1_slice_seq_header *seq,
> +     struct v4l2_ctrl_av1_sequence
> *ctrl_seq)
> +{
> +seq->bitdepth = ctrl_seq->bit_depth;
> +seq->max_frame_width = ctrl_seq->max_frame_width_minus_1 + 1;
> +seq->max_frame_height = ctrl_seq->max_frame_height_minus_1 + 1;
> +seq->enable_superres = SEQUENCE_FLAG(ctrl_seq,
> ENABLE_SUPERRES);
> +seq->enable_filter_intra = SEQUENCE_FLAG(ctrl_seq,
> ENABLE_FILTER_INTRA);
> +seq->enable_intra_edge_filter = SEQUENCE_FLAG(ctrl_seq,
> ENABLE_INTRA_EDGE_FILTER);
> +seq->enable_interintra_compound = SEQUENCE_FLAG(ctrl_seq,
> ENABLE_INTERINTRA_COMPOUND);
> +seq->enable_masked_compound = SEQUENCE_FLAG(ctrl_seq,
> ENABLE_MASKED_COMPOUND);
> +seq->enable_dual_filter = SEQUENCE_FLAG(ctrl_seq,
> ENABLE_DUAL_FILTER);
> +seq->enable_jnt_comp = SEQUENCE_FLAG(ctrl_seq,
> ENABLE_JNT_COMP);
> +seq->mono_chrome = SEQUENCE_FLAG(ctrl_seq, MONO_CHROME);
> +seq->enable_order_hint = SEQUENCE_FLAG(ctrl_seq,
> ENABLE_ORDER_HINT);
> +seq->order_hint_bits = ctrl_seq->order_hint_bits;
> +seq->use_128x128_superblock = SEQUENCE_FLAG(ctrl_seq,
> USE_128X128_SUPERBLOCK);
> +seq->subsampling_x = SEQUENCE_FLAG(ctrl_seq, SUBSAMPLING_X);
> +seq->subsampling_y = SEQUENCE_FLAG(ctrl_seq, SUBSAMPLING_Y);
> +}
> +
> +static void vdec_av1_slice_setup_tile(struct vdec_av1_slice_frame
> *frame,
> +      struct v4l2_av1_tile_info
> *ctrl_tile)
> +{
> +struct vdec_av1_slice_seq_header *seq = &frame->seq;
> +struct vdec_av1_slice_tile *tile = &frame->uh.tile;
> +u32 mib_size_log2 = seq->use_128x128_superblock ? 5 : 4;
> +int i;
> +
> +tile->tile_cols = ctrl_tile->tile_cols;
> +tile->tile_rows = ctrl_tile->tile_rows;
> +tile->context_update_tile_id = ctrl_tile-
> >context_update_tile_id;
> +tile->uniform_tile_spacing_flag =
> +BIT_FLAG(ctrl_tile,
> V4L2_AV1_TILE_INFO_FLAG_UNIFORM_TILE_SPACING);
> +
> +for (i = 0; i < tile->tile_cols + 1; i++)
> +tile->mi_col_starts[i] =
> +ALIGN(ctrl_tile->mi_col_starts[i],
> BIT(mib_size_log2)) >> mib_size_log2;
> +
> +for (i = 0; i < tile->tile_rows + 1; i++)
> +tile->mi_row_starts[i] =
> +ALIGN(ctrl_tile->mi_row_starts[i],
> BIT(mib_size_log2)) >> mib_size_log2;
> +}
> +
> +static void vdec_av1_slice_setup_uh(struct vdec_av1_slice_instance
> *instance,
> +    struct vdec_av1_slice_frame *frame,
> +    struct v4l2_ctrl_av1_frame
> *ctrl_fh)
> +{
> +struct vdec_av1_slice_uncompressed_header *uh = &frame->uh;
> +int i;
> +
> +uh->use_ref_frame_mvs = FH_FLAG(ctrl_fh, USE_REF_FRAME_MVS);
> +uh->order_hint = ctrl_fh->order_hint;
> +vdec_av1_slice_setup_gm(uh->gm, &ctrl_fh->global_motion);
> +uh->upscaled_width = ctrl_fh->upscaled_width;
> +uh->frame_width = ctrl_fh->frame_width_minus_1 + 1;
> +uh->frame_height = ctrl_fh->frame_height_minus_1 + 1;
> +uh->mi_cols = ((uh->frame_width + 7) >> 3) << 1;
> +uh->mi_rows = ((uh->frame_height + 7) >> 3) << 1;
> +uh->reduced_tx_set = FH_FLAG(ctrl_fh, REDUCED_TX_SET);
> +uh->tx_mode = ctrl_fh->tx_mode;
> +uh->uniform_tile_spacing_flag = FH_FLAG(ctrl_fh,
> UNIFORM_TILE_SPACING);
> +uh->interpolation_filter = ctrl_fh->interpolation_filter;
> +uh->allow_warped_motion = FH_FLAG(ctrl_fh,
> ALLOW_WARPED_MOTION);
> +uh->is_motion_mode_switchable = FH_FLAG(ctrl_fh,
> IS_MOTION_MODE_SWITCHABLE);
> +uh->frame_type = ctrl_fh->frame_type;
> +uh->frame_is_intra = (uh->frame_type ==
> V4L2_AV1_INTRA_ONLY_FRAME ||
> +      uh->frame_type == V4L2_AV1_KEY_FRAME);
> +
> +if (!uh->frame_is_intra && FH_FLAG(ctrl_fh, REFERENCE_SELECT))
> +uh->reference_mode = AV1_REFERENCE_MODE_SELECT;
> +else
> +uh->reference_mode = AV1_SINGLE_REFERENCE;
> +
> +uh->allow_high_precision_mv = FH_FLAG(ctrl_fh,
> ALLOW_HIGH_PRECISION_MV);
> +uh->allow_intra_bc = FH_FLAG(ctrl_fh, ALLOW_INTRABC);
> +uh->force_integer_mv = FH_FLAG(ctrl_fh, FORCE_INTEGER_MV);
> +uh->allow_screen_content_tools = FH_FLAG(ctrl_fh,
> ALLOW_SCREEN_CONTENT_TOOLS);
> +uh->error_resilient_mode = FH_FLAG(ctrl_fh,
> ERROR_RESILIENT_MODE);
> +uh->primary_ref_frame = ctrl_fh->primary_ref_frame;
> +uh->disable_frame_end_update_cdf =
> +FH_FLAG(ctrl_fh, DISABLE_FRAME_END_UPDATE_CDF);
> +uh->disable_cdf_update = FH_FLAG(ctrl_fh, DISABLE_CDF_UPDATE);
> +uh->skip_mode.skip_mode_present = FH_FLAG(ctrl_fh,
> SKIP_MODE_PRESENT);
> +uh->skip_mode.skip_mode_frame[0] =
> +ctrl_fh->skip_mode_frame[0] - V4L2_AV1_REF_LAST_FRAME;
> +uh->skip_mode.skip_mode_frame[1] =
> +ctrl_fh->skip_mode_frame[1] - V4L2_AV1_REF_LAST_FRAME;
> +uh->skip_mode.skip_mode_allowed = ctrl_fh->skip_mode_frame[0] ?
> 1 : 0;
> +
> +vdec_av1_slice_setup_seg(&uh->seg, &ctrl_fh->segmentation);
> +uh->delta_q_lf.delta_q_present = QUANT_FLAG(&ctrl_fh-
> >quantization, DELTA_Q_PRESENT);
> +uh->delta_q_lf.delta_q_res = 1 << ctrl_fh-
> >quantization.delta_q_res;
> +uh->delta_q_lf.delta_lf_present =
> +BIT_FLAG(&ctrl_fh->loop_filter,
> V4L2_AV1_LOOP_FILTER_FLAG_DELTA_LF_PRESENT);
> +uh->delta_q_lf.delta_lf_res = ctrl_fh-
> >loop_filter.delta_lf_res;
> +uh->delta_q_lf.delta_lf_multi =
> +BIT_FLAG(&ctrl_fh->loop_filter,
> V4L2_AV1_LOOP_FILTER_FLAG_DELTA_LF_MULTI);
> +vdec_av1_slice_setup_quant(&uh->quant, &ctrl_fh->quantization);
> +
> +uh->coded_loss_less = 1;
> +for (i = 0; i < V4L2_AV1_MAX_SEGMENTS; i++) {
> +uh->quant.qindex[i] = vdec_av1_slice_get_qindex(uh, i);
> +uh->loss_less_array[i] =
> +(uh->quant.qindex[i] == 0 && uh-
> >quant.delta_qydc == 0 &&
> +uh->quant.delta_quac == 0 && uh-
> >quant.delta_qudc == 0 &&
> +uh->quant.delta_qvac == 0 && uh-
> >quant.delta_qvdc == 0);
> +
> +if (!uh->loss_less_array[i])
> +uh->coded_loss_less = 0;
> +}
> +
> +vdec_av1_slice_setup_lr(&uh->lr, &ctrl_fh->loop_restoration);
> +uh->superres_denom = ctrl_fh->superres_denom;
> +vdec_av1_slice_setup_lf(&uh->loop_filter, &ctrl_fh-
> >loop_filter);
> +vdec_av1_slice_setup_cdef(&uh->cdef, &ctrl_fh->cdef);
> +vdec_av1_slice_setup_tile(frame, &ctrl_fh->tile_info);
> +}
> +
> +static int vdec_av1_slice_setup_tile_group(struct
> vdec_av1_slice_instance *instance,
> +   struct vdec_av1_slice_vsi
> *vsi)
> +{
> +struct v4l2_ctrl_av1_tile_group_entry *ctrl_tge;
> +struct vdec_av1_slice_tile_group *tile_group = &instance-
> >tile_group;
> +struct vdec_av1_slice_uncompressed_header *uh = &vsi->frame.uh;
> +struct vdec_av1_slice_tile *tile = &uh->tile;
> +struct v4l2_ctrl *ctrl;
> +u32 tge_size;
> +int i;
> +
> +ctrl = v4l2_ctrl_find(&instance->ctx->ctrl_hdl,
> V4L2_CID_STATELESS_AV1_TILE_GROUP_ENTRY);
> +if (!ctrl)
> +return -EINVAL;
> +
> +tge_size = ctrl->elems;
> +ctrl_tge = (struct v4l2_ctrl_av1_tile_group_entry *)ctrl-
> >p_cur.p;
> +
> +tile_group->num_tiles = tile->tile_cols * tile->tile_rows;
> +
> +if (tile_group->num_tiles != tge_size ||
> +    tile_group->num_tiles > V4L2_AV1_MAX_TILE_COUNT) {
> +mtk_vcodec_err(instance, "invalid tge_size %d,
> tile_num:%d\n",
> +       tge_size, tile_group->num_tiles);
> +return -EINVAL;
> +}
> +
> +for (i = 0; i < tge_size; i++) {
> +if (i != ctrl_tge[i].tile_row * vsi-
> >frame.uh.tile.tile_cols +
> +    ctrl_tge[i].tile_col) {
> +mtk_vcodec_err(instance, "invalid tge info %d,
> %d %d %d\n",
> +       i, ctrl_tge[i].tile_row,
> ctrl_tge[i].tile_col,
> +       vsi->frame.uh.tile.tile_rows);
> +return -EINVAL;
> +}
> +tile_group->tile_size[i] = ctrl_tge[i].tile_size;
> +tile_group->tile_start_offset[i] =
> ctrl_tge[i].tile_offset;
> +}
> +
> +return 0;
> +}
> +
> +static void vdec_av1_slice_setup_state(struct vdec_av1_slice_vsi
> *vsi)

static inline void?

> +{
> +memset(&vsi->state, 0, sizeof(vsi->state));
> +}
> +
> +static void vdec_av1_slice_setup_scale_factors(struct
> vdec_av1_slice_frame_refs *frame_ref,
> +       struct
> vdec_av1_slice_frame_info *ref_frame_info,
> +       struct
> vdec_av1_slice_uncompressed_header *uh)
> +{
> +struct vdec_av1_slice_scale_factors *scale_factors =
> &frame_ref->scale_factors;
> +u32 ref_upscaled_width = ref_frame_info->upscaled_width;
> +u32 ref_frame_height = ref_frame_info->frame_height;
> +u32 frame_width = uh->frame_width;
> +u32 frame_height = uh->frame_height;
> +
> +if (!vdec_av1_slice_need_scale(ref_upscaled_width,
> ref_frame_height,
> +       frame_width, frame_height)) {
> +scale_factors->x_scale = -1;
> +scale_factors->y_scale = -1;
> +scale_factors->is_scaled = 0;
> +return;
> +}
> +
> +scale_factors->x_scale =
> +((ref_upscaled_width << AV1_REF_SCALE_SHIFT) +
> (frame_width >> 1)) / frame_width;
> +scale_factors->y_scale =
> +((ref_frame_height << AV1_REF_SCALE_SHIFT) +
> (frame_height >> 1)) / frame_height;
> +scale_factors->is_scaled =
> +(scale_factors->x_scale != AV1_REF_INVALID_SCALE) &&
> +(scale_factors->y_scale != AV1_REF_INVALID_SCALE) &&
> +(scale_factors->x_scale != AV1_REF_NO_SCALE ||
> + scale_factors->y_scale != AV1_REF_NO_SCALE);
> +scale_factors->x_step =
> +AV1_DIV_ROUND_UP_POW2(scale_factors->x_scale,
> +      AV1_REF_SCALE_SHIFT -
> AV1_SCALE_SUBPEL_BITS);
> +scale_factors->y_step =
> +AV1_DIV_ROUND_UP_POW2(scale_factors->y_scale,
> +      AV1_REF_SCALE_SHIFT -
> AV1_SCALE_SUBPEL_BITS);
> +}
> +
> +static int vdec_av1_slice_get_relative_dist(int a, int b, u8
> enable_order_hint, u8 order_hint_bits)
> +{
> +int diff = 0;
> +int m = 0;
> +
> +if (!enable_order_hint)
> +return 0;
> +
> +diff = a - b;
> +m = 1 << (order_hint_bits - 1);
> +diff = (diff & (m - 1)) - (diff & m);
> +
> +return diff;
> +}

This function is called in one place only, and its result needs to be
interpreted at call site. Can it return the result in a form expected
at call site...

> +
> +static void vdec_av1_slice_setup_ref(struct vdec_av1_slice_pfc
> *pfc,
> +     struct v4l2_ctrl_av1_frame
> *ctrl_fh)
> +{
> +struct vdec_av1_slice_vsi *vsi = &pfc->vsi;
> +struct vdec_av1_slice_frame *frame = &vsi->frame;
> +struct vdec_av1_slice_slot *slots = &vsi->slots;
> +struct vdec_av1_slice_uncompressed_header *uh = &frame->uh;
> +struct vdec_av1_slice_seq_header *seq = &frame->seq;
> +struct vdec_av1_slice_frame_info *cur_frame_info =
> +&slots->frame_info[vsi->slot_id];
> +struct vdec_av1_slice_frame_info *frame_info;
> +int i, slot_id;
> +
> +if (uh->frame_is_intra)
> +return;
> +
> +for (i = 0; i < V4L2_AV1_REFS_PER_FRAME; i++) {
> +int ref_idx = ctrl_fh->ref_frame_idx[i];
> +
> +pfc->ref_idx[i] = ctrl_fh->reference_frame_ts[ref_idx];
> +slot_id = frame->ref_frame_map[ref_idx];
> +frame_info = &slots->frame_info[slot_id];
> +if (slot_id == AV1_INVALID_IDX) {
> +mtk_v4l2_err("cannot match reference[%d]
> 0x%llx\n", i,
> +     ctrl_fh-
> >reference_frame_ts[ref_idx]);
> +frame->order_hints[i] = 0;
> +frame->ref_frame_valid[i] = 0;
> +continue;
> +}
> +
> +frame->frame_refs[i].ref_fb_idx = slot_id;
> +vdec_av1_slice_setup_scale_factors(&frame-
> >frame_refs[i],
> +   frame_info, uh);
> +if (!seq->enable_order_hint)
> +frame->ref_frame_sign_bias[i + 1] = 0;
> +else
> +frame->ref_frame_sign_bias[i + 1] =
> +vdec_av1_slice_get_relative_dist(frame_
> info->order_hint,
> + uh-
> >order_hint,
> + seq-
> >enable_order_hint,
> + seq-
> >order_hint_bits)
> +<= 0 ? 0 : 1;

... to get rid of this tri-argument operator altogether?

> +
> +frame->order_hints[i] = ctrl_fh->order_hints[i + 1];
> +cur_frame_info->order_hints[i] = frame->order_hints[i];
> +frame->ref_frame_valid[i] = 1;
> +}
> +}
> +
> +static void vdec_av1_slice_get_previous(struct vdec_av1_slice_vsi
> *vsi)
> +{
> +struct vdec_av1_slice_frame *frame = &vsi->frame;
> +
> +if (frame->uh.primary_ref_frame == 7)

#define magic number 7?

> +frame->prev_fb_idx = AV1_INVALID_IDX;
> +else
> +frame->prev_fb_idx = frame->frame_refs[frame-
> >uh.primary_ref_frame].ref_fb_idx;
> +}
> +
> +static void vdec_av1_slice_setup_operating_mode(struct
> vdec_av1_slice_instance *instance,
> +struct
> vdec_av1_slice_frame *frame)

static inline void?

> +{
> +frame->large_scale_tile = 0;
> +}
> +
> +static int vdec_av1_slice_setup_pfc(struct vdec_av1_slice_instance
> *instance,
> +    struct vdec_av1_slice_pfc *pfc)
> +{
> +struct v4l2_ctrl_av1_frame *ctrl_fh;
> +struct v4l2_ctrl_av1_sequence *ctrl_seq;
> +struct vdec_av1_slice_vsi *vsi = &pfc->vsi;
> +int ret = 0;
> +
> +/* frame header */
> +ctrl_fh = (struct v4l2_ctrl_av1_frame *)
> +  vdec_av1_get_ctrl_ptr(instance->ctx,
> +V4L2_CID_STATELESS_AV1_FRAME);
> +if (IS_ERR(ctrl_fh))
> +return PTR_ERR(ctrl_fh);
> +
> +ctrl_seq = (struct v4l2_ctrl_av1_sequence *)
> +   vdec_av1_get_ctrl_ptr(instance->ctx,
> + V4L2_CID_STATELESS_AV1_SEQUENC
> E);
> +if (IS_ERR(ctrl_seq))
> +return PTR_ERR(ctrl_seq);

Just to make sure: I assume request api is used? If so, does vdec's
framework
ensure that v4l2_ctrl_request_setup() has been called? It influences
what's
actually in ctrl->p_cur.p (current or previous value), and the
vdec_av1_get_ctrl_ptr() wrapper returns ctrl->p_cur.p.

> +
> +/* setup vsi information */
> +vdec_av1_slice_setup_seq(&vsi->frame.seq, ctrl_seq);
> +vdec_av1_slice_setup_uh(instance, &vsi->frame, ctrl_fh);
> +vdec_av1_slice_setup_operating_mode(instance, &vsi->frame);
> +
> +vdec_av1_slice_setup_state(vsi);
> +vdec_av1_slice_setup_slot(instance, vsi, ctrl_fh);
> +vdec_av1_slice_setup_ref(pfc, ctrl_fh);
> +vdec_av1_slice_get_previous(vsi);
> +
> +pfc->seq = instance->seq;
> +instance->seq++;
> +
> +return ret;
> +}
> +
> +static void vdec_av1_slice_setup_lat_buffer(struct
> vdec_av1_slice_instance *instance,
> +    struct vdec_av1_slice_vsi
> *vsi,
> +    struct mtk_vcodec_mem *bs,
> +    struct vdec_lat_buf
> *lat_buf)
> +{
> +struct vdec_av1_slice_work_buffer *work_buffer;
> +int i;
> +
> +vsi->bs.dma_addr = bs->dma_addr;
> +vsi->bs.size = bs->size;
> +
> +vsi->ube.dma_addr = lat_buf->ctx->msg_queue.wdma_addr.dma_addr;
> +vsi->ube.size = lat_buf->ctx->msg_queue.wdma_addr.size;
> +vsi->trans.dma_addr = lat_buf->ctx->msg_queue.wdma_wptr_addr;
> +/* used to store trans end */
> +vsi->trans.dma_addr_end = lat_buf->ctx-
> >msg_queue.wdma_rptr_addr;
> +vsi->err_map.dma_addr = lat_buf->wdma_err_addr.dma_addr;
> +vsi->err_map.size = lat_buf->wdma_err_addr.size;
> +vsi->rd_mv.dma_addr = lat_buf->rd_mv_addr.dma_addr;
> +vsi->rd_mv.size = lat_buf->rd_mv_addr.size;
> +
> +vsi->row_info.buf = 0;
> +vsi->row_info.size = 0;
> +
> +work_buffer = vsi->work_buffer;
> +
> +for (i = 0; i < AV1_MAX_FRAME_BUF_COUNT; i++) {
> +work_buffer[i].mv_addr.buf = instance->mv[i].dma_addr;
> +work_buffer[i].mv_addr.size = instance->mv[i].size;
> +work_buffer[i].segid_addr.buf = instance-
> >seg[i].dma_addr;
> +work_buffer[i].segid_addr.size = instance->seg[i].size;
> +work_buffer[i].cdf_addr.buf = instance-
> >cdf[i].dma_addr;
> +work_buffer[i].cdf_addr.size = instance->cdf[i].size;
> +}
> +
> +vsi->cdf_tmp.buf = instance->cdf_temp.dma_addr;
> +vsi->cdf_tmp.size = instance->cdf_temp.size;
> +
> +vsi->tile.buf = instance->tile.dma_addr;
> +vsi->tile.size = instance->tile.size;
> +memcpy(lat_buf->tile_addr.va, instance->tile.va, 64 * instance-
> >tile_group.num_tiles);
> +
> +vsi->cdf_table.buf = instance->cdf_table.dma_addr;
> +vsi->cdf_table.size = instance->cdf_table.size;
> +vsi->iq_table.buf = instance->iq_table.dma_addr;
> +vsi->iq_table.size = instance->iq_table.size;
> +}
> +
> +static void vdec_av1_slice_setup_seg_buffer(struct
> vdec_av1_slice_instance *instance,
> +    struct vdec_av1_slice_vsi
> *vsi)
> +{
> +struct vdec_av1_slice_uncompressed_header *uh = &vsi->frame.uh;
> +struct mtk_vcodec_mem *buf;
> +
> +/* reset segment buffer */
> +if (uh->primary_ref_frame == 7 || !uh-
> >seg.segmentation_enabled) {

#define magic 7?

> +mtk_vcodec_debug(instance, "reset seg %d\n", vsi-
> >slot_id);
> +if (vsi->slot_id != AV1_INVALID_IDX) {
> +buf = &instance->seg[vsi->slot_id];
> +memset(buf->va, 0, buf->size);
> +}
> +}
> +}
> +
> +static void vdec_av1_slice_setup_tile_buffer(struct
> vdec_av1_slice_instance *instance,
> +     struct vdec_av1_slice_vsi
> *vsi,
> +     struct mtk_vcodec_mem *bs)
> +{
> +struct vdec_av1_slice_tile_group *tile_group = &instance-
> >tile_group;
> +struct vdec_av1_slice_uncompressed_header *uh = &vsi->frame.uh;
> +struct vdec_av1_slice_tile *tile = &uh->tile;
> +u32 tile_num, tile_row, tile_col;
> +u32 allow_update_cdf = 0;
> +u32 sb_boundary_x_m1 = 0, sb_boundary_y_m1 = 0;
> +int tile_info_base;
> +u32 tile_buf_pa;
> +u32 *tile_info_buf = instance->tile.va;
> +u32 pa = (u32)bs->dma_addr;
> +
> +if (uh->disable_cdf_update == 0)
> +allow_update_cdf = 1;
> +
> +for (tile_num = 0; tile_num < tile_group->num_tiles;
> tile_num++) {
> +/* each uint32 takes place of 4 bytes */
> +tile_info_base = (AV1_TILE_BUF_SIZE * tile_num) >> 2;
> +tile_row = tile_num / tile->tile_cols;
> +tile_col = tile_num % tile->tile_cols;
> +tile_info_buf[tile_info_base + 0] = (tile_group-
> >tile_size[tile_num] << 3);
> +tile_buf_pa = pa + tile_group-
> >tile_start_offset[tile_num];
> +
> +tile_info_buf[tile_info_base + 1] = (tile_buf_pa >> 4)
> << 4;
> +tile_info_buf[tile_info_base + 2] = (tile_buf_pa % 16)
> << 3;
> +
> +sb_boundary_x_m1 =
> +(tile->mi_col_starts[tile_col + 1] - tile-
> >mi_col_starts[tile_col] - 1) &
> +0x3f;
> +sb_boundary_y_m1 =
> +(tile->mi_row_starts[tile_row + 1] - tile-
> >mi_row_starts[tile_row] - 1) &
> +0x1ff;
> +
> +tile_info_buf[tile_info_base + 3] = (sb_boundary_y_m1
> << 7) | sb_boundary_x_m1;
> +tile_info_buf[tile_info_base + 4] = ((allow_update_cdf
> << 18) | (1 << 16));
> +
> +if (tile_num == tile->context_update_tile_id &&
> +    uh->disable_frame_end_update_cdf == 0)
> +tile_info_buf[tile_info_base + 4] |= (1 << 17);
> +
> +mtk_vcodec_debug(instance, "// tile buf %d pos(%dx%d)
> offset 0x%x\n",
> + tile_num, tile_row, tile_col,
> tile_info_base);
> +mtk_vcodec_debug(instance, "// %08x %08x %08x %08x\n",
> + tile_info_buf[tile_info_base + 0],
> + tile_info_buf[tile_info_base + 1],
> + tile_info_buf[tile_info_base + 2],
> + tile_info_buf[tile_info_base + 3]);
> +mtk_vcodec_debug(instance, "// %08x %08x %08x %08x\n",
> + tile_info_buf[tile_info_base + 4],
> + tile_info_buf[tile_info_base + 5],
> + tile_info_buf[tile_info_base + 6],
> + tile_info_buf[tile_info_base + 7]);
> +}
> +}
> +
> +static int vdec_av1_slice_setup_lat(struct vdec_av1_slice_instance
> *instance,
> +    struct mtk_vcodec_mem *bs,
> +    struct vdec_lat_buf *lat_buf,
> +    struct vdec_av1_slice_pfc *pfc)
> +{
> +struct vdec_av1_slice_vsi *vsi = &pfc->vsi;
> +int ret;
> +
> +ret = vdec_av1_slice_setup_lat_from_src_buf(instance, vsi,
> lat_buf);
> +if (ret)
> +return ret;
> +
> +ret = vdec_av1_slice_setup_pfc(instance, pfc);
> +if (ret)
> +return ret;
> +
> +ret = vdec_av1_slice_setup_tile_group(instance, vsi);
> +if (ret)
> +return ret;
> +
> +ret = vdec_av1_slice_alloc_working_buffer(instance, vsi);
> +if (ret)
> +return ret;
> +
> +vdec_av1_slice_setup_seg_buffer(instance, vsi);
> +vdec_av1_slice_setup_tile_buffer(instance, vsi, bs);
> +vdec_av1_slice_setup_lat_buffer(instance, vsi, bs, lat_buf);
> +
> +return 0;
> +}
> +
> +static int vdec_av1_slice_update_lat(struct
> vdec_av1_slice_instance *instance,
> +     struct vdec_lat_buf *lat_buf,
> +     struct vdec_av1_slice_pfc *pfc)
> +{
> +struct vdec_av1_slice_vsi *vsi;
> +
> +vsi = &pfc->vsi;
> +mtk_vcodec_debug(instance, "frame %u LAT CRC 0x%08x, output
> size is %d\n",
> + pfc->seq, vsi->state.crc[0], vsi-
> >state.out_size);
> +
> +/* buffer full, need to re-decode */
> +if (vsi->state.full) {
> +/* buffer not enough */
> +if (vsi->trans.dma_addr_end - vsi->trans.dma_addr ==
> vsi->ube.size)
> +return -ENOMEM;
> +return -EAGAIN;
> +}
> +
> +instance->width = vsi->frame.uh.upscaled_width;
> +instance->height = vsi->frame.uh.frame_height;
> +instance->frame_type = vsi->frame.uh.frame_type;
> +
> +return 0;
> +}
> +
> +static int vdec_av1_slice_setup_core_to_dst_buf(struct
> vdec_av1_slice_instance *instance,
> +struct vdec_lat_buf
> *lat_buf)
> +{
> +struct vb2_v4l2_buffer *dst;
> +
> +dst = v4l2_m2m_next_dst_buf(instance->ctx->m2m_ctx);
> +if (!dst)
> +return -EINVAL;
> +
> +v4l2_m2m_buf_copy_metadata(&lat_buf->ts_info, dst, true);
> +
> +return 0;
> +}
> +
> +static int vdec_av1_slice_setup_core_buffer(struct
> vdec_av1_slice_instance *instance,
> +    struct vdec_av1_slice_pfc
> *pfc,
> +    struct vdec_av1_slice_vsi
> *vsi,
> +    struct vdec_fb *fb,
> +    struct vdec_lat_buf
> *lat_buf)
> +{
> +struct vb2_buffer *vb;
> +struct vb2_queue *vq;
> +int w, h, plane, size;
> +int i;
> +
> +plane = instance->ctx->q_data[MTK_Q_DATA_DST].fmt->num_planes;
> +w = vsi->frame.uh.upscaled_width;
> +h = vsi->frame.uh.frame_height;
> +size = ALIGN(w, VCODEC_DEC_ALIGNED_64) * ALIGN(h,
> VCODEC_DEC_ALIGNED_64);
> +
> +/* frame buffer */
> +vsi->fb.y.dma_addr = fb->base_y.dma_addr;
> +if (plane == 1)
> +vsi->fb.c.dma_addr = fb->base_y.dma_addr + size;
> +else
> +vsi->fb.c.dma_addr = fb->base_c.dma_addr;
> +
> +/* reference buffers */
> +vq = v4l2_m2m_get_vq(instance->ctx->m2m_ctx,
> V4L2_BUF_TYPE_VIDEO_CAPTURE_MPLANE);
> +if (!vq)
> +return -EINVAL;
> +
> +/* get current output buffer */
> +vb = &v4l2_m2m_next_dst_buf(instance->ctx->m2m_ctx)->vb2_buf;
> +if (!vb)
> +return -EINVAL;
> +
> +/* get buffer address from vb2buf */
> +for (i = 0; i < V4L2_AV1_REFS_PER_FRAME; i++) {
> +struct vdec_av1_slice_fb *vref = &vsi->ref[i];
> +
> +vb = vb2_find_buffer(vq, pfc->ref_idx[i]);
> +if (!vb) {
> +memset(vref, 0, sizeof(*vref));
> +continue;
> +}
> +
> +vref->y.dma_addr = vb2_dma_contig_plane_dma_addr(vb,
> 0);
> +if (plane == 1)
> +vref->c.dma_addr = vref->y.dma_addr + size;
> +else
> +vref->c.dma_addr =
> vb2_dma_contig_plane_dma_addr(vb, 1);
> +}
> +vsi->tile.dma_addr = lat_buf->tile_addr.dma_addr;
> +vsi->tile.size = lat_buf->tile_addr.size;
> +
> +return 0;
> +}
> +
> +static int vdec_av1_slice_setup_core(struct
> vdec_av1_slice_instance *instance,
> +     struct vdec_fb *fb,
> +     struct vdec_lat_buf *lat_buf,
> +     struct vdec_av1_slice_pfc *pfc)
> +{
> +struct vdec_av1_slice_vsi *vsi = &pfc->vsi;
> +int ret;
> +
> +ret = vdec_av1_slice_setup_core_to_dst_buf(instance, lat_buf);
> +if (ret)
> +return ret;
> +
> +ret = vdec_av1_slice_setup_core_buffer(instance, pfc, vsi, fb,
> lat_buf);
> +if (ret)
> +return ret;
> +
> +return 0;
> +}
> +
> +static int vdec_av1_slice_update_core(struct
> vdec_av1_slice_instance *instance,
> +      struct vdec_lat_buf *lat_buf,
> +      struct vdec_av1_slice_pfc *pfc)
> +{
> +struct vdec_av1_slice_vsi *vsi = instance->core_vsi;
> +
> +/* TODO: Do something here, or remove this function entirely */

And?

> +
> +mtk_vcodec_debug(instance, "frame %u Y_CRC %08x %08x %08x
> %08x\n",
> + pfc->seq, vsi->state.crc[0], vsi-
> >state.crc[1],
> + vsi->state.crc[2], vsi->state.crc[3]);
> +mtk_vcodec_debug(instance, "frame %u C_CRC %08x %08x %08x
> %08x\n",
> + pfc->seq, vsi->state.crc[8], vsi-
> >state.crc[9],
> + vsi->state.crc[10], vsi->state.crc[11]);
> +
> +return 0;
> +}
> +
> +static int vdec_av1_slice_init(struct mtk_vcodec_ctx *ctx)
> +{
> +struct vdec_av1_slice_instance *instance;
> +struct vdec_av1_slice_init_vsi *vsi;
> +int ret;
> +
> +instance = kzalloc(sizeof(*instance), GFP_KERNEL);
> +if (!instance)
> +return -ENOMEM;
> +
> +instance->ctx = ctx;
> +instance->vpu.id = SCP_IPI_VDEC_LAT;
> +instance->vpu.core_id = SCP_IPI_VDEC_CORE;
> +instance->vpu.ctx = ctx;
> +instance->vpu.codec_type = ctx->current_codec;
> +
> +ret = vpu_dec_init(&instance->vpu);
> +if (ret) {
> +mtk_vcodec_err(instance, "failed to init vpu dec, ret
> %d\n", ret);
> +goto error_vpu_init;
> +}
> +
> +/* init vsi and global flags */
> +vsi = instance->vpu.vsi;
> +if (!vsi) {
> +mtk_vcodec_err(instance, "failed to get AV1 vsi\n");
> +ret = -EINVAL;
> +goto error_vsi;
> +}
> +instance->init_vsi = vsi;
> +instance->core_vsi = mtk_vcodec_fw_map_dm_addr(ctx->dev-
> >fw_handler, (u32)vsi->core_vsi);
> +
> +if (!instance->core_vsi) {
> +mtk_vcodec_err(instance, "failed to get AV1 core
> vsi\n");
> +ret = -EINVAL;
> +goto error_vsi;
> +}
> +
> +if (vsi->vsi_size != sizeof(struct vdec_av1_slice_vsi))
> +mtk_vcodec_err(instance, "remote vsi size 0x%x
> mismatch! expected: 0x%lx\n",
> +       vsi->vsi_size, sizeof(struct
> vdec_av1_slice_vsi));
> +
> +instance->irq = 1;

Does this mean "irq_enabled"? If so, rename?

> +instance->inneracing_mode = IS_VDEC_INNER_RACING(instance->ctx-
> >dev->dec_capability);
> +
> +mtk_vcodec_debug(instance, "vsi 0x%p core_vsi 0x%llx 0x%p,
> inneracing_mode %d\n",
> + vsi, vsi->core_vsi, instance->core_vsi,
> instance->inneracing_mode);
> +
> +ret = vdec_av1_slice_init_cdf_table(instance);
> +if (ret)
> +goto error_vsi;
> +
> +ret = vdec_av1_slice_init_iq_table(instance);
> +if (ret)
> +goto error_vsi;
> +
> +ctx->drv_handle = instance;
> +
> +return 0;
> +error_vsi:
> +vpu_dec_deinit(&instance->vpu);
> +error_vpu_init:
> +kfree(instance);

newline?

> +return ret;
> +}
> +
> +static void vdec_av1_slice_deinit(void *h_vdec)
> +{
> +struct vdec_av1_slice_instance *instance = h_vdec;
> +
> +if (!instance)
> +return;
> +mtk_vcodec_debug(instance, "h_vdec 0x%p\n", h_vdec);
> +vpu_dec_deinit(&instance->vpu);
> +vdec_av1_slice_free_working_buffer(instance);
> +vdec_msg_queue_deinit(&instance->ctx->msg_queue, instance-
> >ctx);
> +kfree(instance);
> +}
> +
> +static int vdec_av1_slice_flush(void *h_vdec, struct
> mtk_vcodec_mem *bs,
> +struct vdec_fb *fb, bool *res_chg)
> +{
> +struct vdec_av1_slice_instance *instance = h_vdec;
> +int i;
> +
> +mtk_vcodec_debug(instance, "flush ...\n");
> +
> +for (i = 0; i < AV1_MAX_FRAME_BUF_COUNT; i++)
> +vdec_av1_slice_clear_fb(&instance-
> >slots.frame_info[i]);
> +
> +vdec_msg_queue_wait_lat_buf_full(&instance->ctx->msg_queue);

newline?

> +return vpu_dec_reset(&instance->vpu);
> +}
> +
> +static void vdec_av1_slice_get_pic_info(struct
> vdec_av1_slice_instance *instance)
> +{
> +struct mtk_vcodec_ctx *ctx = instance->ctx;
> +u32 data[3];
> +
> +mtk_vcodec_debug(instance, "w %u h %u\n", ctx->picinfo.pic_w,
> ctx->picinfo.pic_h);
> +
> +data[0] = ctx->picinfo.pic_w;
> +data[1] = ctx->picinfo.pic_h;
> +data[2] = ctx->capture_fourcc;
> +vpu_dec_get_param(&instance->vpu, data, 3, GET_PARAM_PIC_INFO);
> +
> +ctx->picinfo.buf_w = ALIGN(ctx->picinfo.pic_w,
> VCODEC_DEC_ALIGNED_64);
> +ctx->picinfo.buf_h = ALIGN(ctx->picinfo.pic_h,
> VCODEC_DEC_ALIGNED_64);
> +ctx->picinfo.fb_sz[0] = instance->vpu.fb_sz[0];
> +ctx->picinfo.fb_sz[1] = instance->vpu.fb_sz[1];
> +}
> +
> +static void vdec_av1_slice_get_dpb_size(struct
> vdec_av1_slice_instance *instance, u32 *dpb_sz)

static inline void?

> +{
> +/* refer av1 specification */
> +*dpb_sz = V4L2_AV1_TOTAL_REFS_PER_FRAME + 1;
> +}
> +
> +static void vdec_av1_slice_get_crop_info(struct
> vdec_av1_slice_instance *instance,
> + struct v4l2_rect *cr)
> +{
> +struct mtk_vcodec_ctx *ctx = instance->ctx;
> +
> +cr->left = 0;
> +cr->top = 0;
> +cr->width = ctx->picinfo.pic_w;
> +cr->height = ctx->picinfo.pic_h;
> +
> +mtk_vcodec_debug(instance, "l=%d, t=%d, w=%d, h=%d\n",
> + cr->left, cr->top, cr->width, cr->height);
> +}
> +
> +static int vdec_av1_slice_get_param(void *h_vdec, enum
> vdec_get_param_type type, void *out)
> +{
> +struct vdec_av1_slice_instance *instance = h_vdec;
> +
> +switch (type) {
> +case GET_PARAM_PIC_INFO:
> +vdec_av1_slice_get_pic_info(instance);
> +break;
> +case GET_PARAM_DPB_SIZE:
> +vdec_av1_slice_get_dpb_size(instance, out);
> +break;
> +case GET_PARAM_CROP_INFO:
> +vdec_av1_slice_get_crop_info(instance, out);
> +break;
> +default:
> +mtk_vcodec_err(instance, "invalid get parameter
> type=%d\n", type);
> +return -EINVAL;
> +}
> +
> +return 0;
> +}
> +
> +static int vdec_av1_slice_lat_decode(void *h_vdec, struct
> mtk_vcodec_mem *bs,
> +     struct vdec_fb *fb, bool *res_chg)
> +{
> +struct vdec_av1_slice_instance *instance = h_vdec;
> +struct vdec_lat_buf *lat_buf;
> +struct vdec_av1_slice_pfc *pfc;
> +struct vdec_av1_slice_vsi *vsi;
> +struct mtk_vcodec_ctx *ctx;
> +int ret;
> +
> +if (!instance || !instance->ctx)
> +return -EINVAL;
> +
> +ctx = instance->ctx;
> +/* init msgQ for the first time */
> +if (vdec_msg_queue_init(&ctx->msg_queue, ctx,
> +vdec_av1_slice_core_decode,
> sizeof(*pfc))) {
> +mtk_vcodec_err(instance, "failed to init AV1 msg
> queue\n");
> +return -ENOMEM;
> +}
> +
> +/* bs NULL means flush decoder */
> +if (!bs)
> +return vdec_av1_slice_flush(h_vdec, bs, fb, res_chg);
> +
> +lat_buf = vdec_msg_queue_dqbuf(&ctx->msg_queue.lat_ctx);
> +if (!lat_buf) {
> +mtk_vcodec_err(instance, "failed to get AV1 lat
> buf\n");

there exists vdec_msg_queue_deinit(). Should it be called in this
(and subsequent) error recovery path(s)?

> +return -EBUSY;
> +}
> +pfc = (struct vdec_av1_slice_pfc *)lat_buf->private_data;
> +if (!pfc) {
> +ret = -EINVAL;
> +goto err_free_fb_out;
> +}
> +vsi = &pfc->vsi;
> +
> +ret = vdec_av1_slice_setup_lat(instance, bs, lat_buf, pfc);
> +if (ret) {
> +mtk_vcodec_err(instance, "failed to setup AV1 lat ret
> %d\n", ret);
> +goto err_free_fb_out;
> +}
> +
> +vdec_av1_slice_vsi_to_remote(vsi, instance->vsi);
> +ret = vpu_dec_start(&instance->vpu, NULL, 0);
> +if (ret) {
> +mtk_vcodec_err(instance, "failed to dec AV1 ret %d\n",
> ret);
> +goto err_free_fb_out;
> +}
> +if (instance->inneracing_mode)
> +vdec_msg_queue_qbuf(&ctx->dev->msg_queue_core_ctx,
> lat_buf);
> +
> +if (instance->irq) {
> +ret = mtk_vcodec_wait_for_done_ctx(ctx,
> MTK_INST_IRQ_RECEIVED,
> +   WAIT_INTR_TIMEOUT_MS
> ,
> +   MTK_VDEC_LAT0);
> +/* update remote vsi if decode timeout */
> +if (ret) {
> +mtk_vcodec_err(instance, "AV1 Frame %d decode
> timeout %d\n", pfc->seq, ret);
> +WRITE_ONCE(instance->vsi->state.timeout, 1);
> +}
> +vpu_dec_end(&instance->vpu);
> +}
> +
> +vdec_av1_slice_vsi_from_remote(vsi, instance->vsi);
> +ret = vdec_av1_slice_update_lat(instance, lat_buf, pfc);
> +
> +/* LAT trans full, re-decode */
> +if (ret == -EAGAIN) {
> +mtk_vcodec_err(instance, "AV1 Frame %d trans full\n",
> pfc->seq);
> +if (!instance->inneracing_mode)
> +vdec_msg_queue_qbuf(&ctx->msg_queue.lat_ctx,
> lat_buf);
> +return 0;
> +}
> +
> +/* LAT trans full, no more UBE or decode timeout */
> +if (ret == -ENOMEM || vsi->state.timeout) {
> +mtk_vcodec_err(instance, "AV1 Frame %d insufficient
> buffer or timeout\n", pfc->seq);
> +if (!instance->inneracing_mode)
> +vdec_msg_queue_qbuf(&ctx->msg_queue.lat_ctx,
> lat_buf);
> +return -EBUSY;
> +}
> +vsi->trans.dma_addr_end += ctx->msg_queue.wdma_addr.dma_addr;
> +mtk_vcodec_debug(instance, "lat dma 1 0x%llx 0x%llx\n",
> + pfc->vsi.trans.dma_addr, pfc-
> >vsi.trans.dma_addr_end);
> +
> +vdec_msg_queue_update_ube_wptr(&ctx->msg_queue, vsi-
> >trans.dma_addr_end);
> +
> +if (!instance->inneracing_mode)
> +vdec_msg_queue_qbuf(&ctx->dev->msg_queue_core_ctx,
> lat_buf);
> +memcpy(&instance->slots, &vsi->slots, sizeof(instance->slots));
> +
> +return 0;
> +
> +err_free_fb_out:
> +vdec_msg_queue_qbuf(&ctx->msg_queue.lat_ctx, lat_buf);
> +mtk_vcodec_err(instance, "slice dec number: %d err: %d", pfc-
> >seq, ret);
> +return ret;
> +}
> +
> +static int vdec_av1_slice_core_decode(struct vdec_lat_buf
> *lat_buf)
> +{
> +struct vdec_av1_slice_instance *instance;
> +struct vdec_av1_slice_pfc *pfc;
> +struct mtk_vcodec_ctx *ctx = NULL;
> +struct vdec_fb *fb = NULL;
> +int ret = -EINVAL;
> +
> +if (!lat_buf)
> +return -EINVAL;
> +
> +pfc = lat_buf->private_data;
> +ctx = lat_buf->ctx;
> +if (!pfc || !ctx)
> +return -EINVAL;
> +
> +instance = ctx->drv_handle;
> +if (!instance)
> +goto err;
> +
> +fb = ctx->dev->vdec_pdata->get_cap_buffer(ctx);
> +if (!fb) {
> +ret = -EBUSY;
> +goto err;
> +}
> +
> +ret = vdec_av1_slice_setup_core(instance, fb, lat_buf, pfc);
> +if (ret) {
> +mtk_vcodec_err(instance,
> "vdec_av1_slice_setup_core\n");
> +goto err;
> +}
> +vdec_av1_slice_vsi_to_remote(&pfc->vsi, instance->core_vsi);
> +ret = vpu_dec_core(&instance->vpu);
> +if (ret) {
> +mtk_vcodec_err(instance, "vpu_dec_core\n");
> +goto err;
> +}
> +
> +if (instance->irq) {
> +ret = mtk_vcodec_wait_for_done_ctx(ctx,
> MTK_INST_IRQ_RECEIVED,
> +   WAIT_INTR_TIMEOUT_MS
> ,
> +   MTK_VDEC_CORE);
> +/* update remote vsi if decode timeout */
> +if (ret) {
> +mtk_vcodec_err(instance, "AV1 frame %d core
> timeout\n", pfc->seq);
> +WRITE_ONCE(instance->vsi->state.timeout, 1);
> +}
> +vpu_dec_core_end(&instance->vpu);
> +}
> +
> +ret = vdec_av1_slice_update_core(instance, lat_buf, pfc);
> +if (ret) {
> +mtk_vcodec_err(instance,
> "vdec_av1_slice_update_core\n");
> +goto err;
> +}
> +
> +mtk_vcodec_debug(instance, "core dma_addr_end 0x%llx\n",
> + instance->core_vsi->trans.dma_addr_end);
> +vdec_msg_queue_update_ube_rptr(&ctx->msg_queue, instance-
> >core_vsi->trans.dma_addr_end);
> +
> +ctx->dev->vdec_pdata->cap_to_disp(ctx, 0, lat_buf-
> >src_buf_req);
> +
> +return 0;
> +
> +err:
> +/* always update read pointer */
> +vdec_msg_queue_update_ube_rptr(&ctx->msg_queue, pfc-
> >vsi.trans.dma_addr_end);
> +
> +if (fb)
> +ctx->dev->vdec_pdata->cap_to_disp(ctx, 1, lat_buf-
> >src_buf_req);
> +
> +return ret;
> +}
> +
> +const struct vdec_common_if vdec_av1_slice_lat_if = {
> +.init= vdec_av1_slice_init,
> +.decode= vdec_av1_slice_lat_decode,
> +.get_param= vdec_av1_slice_get_param,
> +.deinit= vdec_av1_slice_deinit,
> +};
> diff --git a/drivers/media/platform/mediatek/vcodec/vdec_drv_if.c
> b/drivers/media/platform/mediatek/vcodec/vdec_drv_if.c
> index f3807f03d8806..4dda59a6c8141 100644
> --- a/drivers/media/platform/mediatek/vcodec/vdec_drv_if.c
> +++ b/drivers/media/platform/mediatek/vcodec/vdec_drv_if.c
> @@ -49,6 +49,10 @@ int vdec_if_init(struct mtk_vcodec_ctx *ctx,
> unsigned int fourcc)
>   ctx->dec_if = &vdec_vp9_slice_lat_if;
>   ctx->hw_id = IS_VDEC_LAT_ARCH(hw_arch) ? MTK_VDEC_LAT0
> : MTK_VDEC_CORE;
>   break;
> +case V4L2_PIX_FMT_AV1_FRAME:
> +ctx->dec_if = &vdec_av1_slice_lat_if;
> +ctx->hw_id = MTK_VDEC_LAT0;
> +break;
>   default:
>   return -EINVAL;
>   }
> diff --git a/drivers/media/platform/mediatek/vcodec/vdec_drv_if.h
> b/drivers/media/platform/mediatek/vcodec/vdec_drv_if.h
> index 076306ff2dd49..dc6c8ecd9843a 100644
> --- a/drivers/media/platform/mediatek/vcodec/vdec_drv_if.h
> +++ b/drivers/media/platform/mediatek/vcodec/vdec_drv_if.h
> @@ -61,6 +61,7 @@ extern const struct vdec_common_if vdec_vp8_if;
>   extern const struct vdec_common_if vdec_vp8_slice_if;
>   extern const struct vdec_common_if vdec_vp9_if;
>   extern const struct vdec_common_if vdec_vp9_slice_lat_if;
> +extern const struct vdec_common_if vdec_av1_slice_lat_if;
> > /**
>    * vdec_if_init() - initialize decode driver
> diff --git
> a/drivers/media/platform/mediatek/vcodec/vdec_msg_queue.c
> b/drivers/media/platform/mediatek/vcodec/vdec_msg_queue.c
> index ae500980ad45c..05b54b0e3f2d2 100644
> --- a/drivers/media/platform/mediatek/vcodec/vdec_msg_queue.c
> +++ b/drivers/media/platform/mediatek/vcodec/vdec_msg_queue.c
> @@ -20,6 +20,9 @@
>   /* the size used to store avc error information */
>   #define VDEC_ERR_MAP_SZ_AVC         (17 * SZ_1K)
> > +#define VDEC_RD_MV_BUFFER_SZ (((SZ_4K * 2304 >> 4) + SZ_1K)
> << 1)
> +#define VDEC_LAT_TILE_SZ            (64 * SZ_4K)
> +
>   /* core will read the trans buffer which decoded by lat to decode
> again.
>    * The trans buffer size of FHD and 4K bitstreams are different.
>    */
> @@ -194,6 +197,14 @@ void vdec_msg_queue_deinit(struct
> vdec_msg_queue *msg_queue,
>   if (mem->va)
>   mtk_vcodec_mem_free(ctx, mem);
> > +mem = &lat_buf->rd_mv_addr;
> +if (mem->va)
> +mtk_vcodec_mem_free(ctx, mem);
> +
> +mem = &lat_buf->tile_addr;
> +if (mem->va)
> +mtk_vcodec_mem_free(ctx, mem);
> +
>   kfree(lat_buf->private_data);
>   }
>   }
> @@ -270,6 +281,22 @@ int vdec_msg_queue_init(struct vdec_msg_queue
> *msg_queue,
>   goto mem_alloc_err;
>   }
> > +if (ctx->current_codec == V4L2_PIX_FMT_AV1_FRAME) {
> +lat_buf->rd_mv_addr.size =
> VDEC_RD_MV_BUFFER_SZ;
> +err = mtk_vcodec_mem_alloc(ctx, &lat_buf-
> >rd_mv_addr);
> +if (err) {
> +mtk_v4l2_err("failed to allocate
> rd_mv_addr buf[%d]", i);
> +return -ENOMEM;
> +}
> +
> +lat_buf->tile_addr.size = VDEC_LAT_TILE_SZ;
> +err = mtk_vcodec_mem_alloc(ctx, &lat_buf-
> >tile_addr);
> +if (err) {
> +mtk_v4l2_err("failed to allocate
> tile_addr buf[%d]", i);
> +return -ENOMEM;
> +}
> +}
> +
>   lat_buf->private_data = kzalloc(private_size,
> GFP_KERNEL);
>   if (!lat_buf->private_data) {
>   err = -ENOMEM;
> diff --git
> a/drivers/media/platform/mediatek/vcodec/vdec_msg_queue.h
> b/drivers/media/platform/mediatek/vcodec/vdec_msg_queue.h
> index c43d427f5f544..525170e411ee0 100644
> --- a/drivers/media/platform/mediatek/vcodec/vdec_msg_queue.h
> +++ b/drivers/media/platform/mediatek/vcodec/vdec_msg_queue.h
> @@ -42,6 +42,8 @@ struct vdec_msg_queue_ctx {
>    * struct vdec_lat_buf - lat buffer message used to store lat
> info for core decode
>    * @wdma_err_addr: wdma error address used for lat hardware
>    * @slice_bc_addr: slice bc address used for lat hardware
> + * @rd_mv_addr:mv addr for av1 lat hardware output, core
> hardware input
> + * @tile_addr:tile buffer for av1 core input
>    * @ts_info: need to set timestamp from output to capture
>    * @src_buf_req: output buffer media request object
>    *
> @@ -54,6 +56,8 @@ struct vdec_msg_queue_ctx {
>   struct vdec_lat_buf {
>   struct mtk_vcodec_mem wdma_err_addr;
>   struct mtk_vcodec_mem slice_bc_addr;
> +struct mtk_vcodec_mem rd_mv_addr;
> +struct mtk_vcodec_mem tile_addr;
>   struct vb2_v4l2_buffer ts_info;
>   struct media_request *src_buf_req;
>


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