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|
/*
* Copyright 2011-2013 Maarten Lankhorst
*
* Permission is hereby granted, free of charge, to any person obtaining a
* copy of this software and associated documentation files (the "Software"),
* to deal in the Software without restriction, including without limitation
* the rights to use, copy, modify, merge, publish, distribute, sublicense,
* and/or sell copies of the Software, and to permit persons to whom the
* Software is furnished to do so, subject to the following conditions:
*
* The above copyright notice and this permission notice shall be included in
* all copies or substantial portions of the Software.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL
* THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR
* OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE,
* ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR
* OTHER DEALINGS IN THE SOFTWARE.
*/
#include "nvc0_video.h"
#include <sys/mman.h>
struct mpeg12_picparm_vp {
uint16_t width; // 00 in mb units
uint16_t height; // 02 in mb units
uint32_t unk04; // 04 stride for Y?
uint32_t unk08; // 08 stride for CbCr?
uint32_t ofs[6]; // 1c..20 ofs
uint32_t bucket_size; // 24
uint32_t inter_ring_data_size; // 28
uint16_t unk2c; // 2c
uint16_t alternate_scan; // 2e
uint16_t unk30; // 30 not seen set yet
uint16_t picture_structure; // 32
uint16_t pad2[3];
uint16_t unk3a; // 3a set on I frame?
uint32_t f_code[4]; // 3c
uint32_t picture_coding_type; // 4c
uint32_t intra_dc_precision; // 50
uint32_t q_scale_type; // 54
uint32_t top_field_first; // 58
uint32_t full_pel_forward_vector; // 5c
uint32_t full_pel_backward_vector; // 60
uint8_t intra_quantizer_matrix[0x40]; // 64
uint8_t non_intra_quantizer_matrix[0x40]; // a4
};
struct mpeg4_picparm_vp {
uint32_t width; // 00 in normal units
uint32_t height; // 04 in normal units
uint32_t unk08; // stride 1
uint32_t unk0c; // stride 2
uint32_t ofs[6]; // 10..24 ofs
uint32_t bucket_size; // 28
uint32_t pad1; // 2c, pad
uint32_t pad2; // 30
uint32_t inter_ring_data_size; // 34
uint32_t trd[2]; // 38, 3c
uint32_t trb[2]; // 40, 44
uint32_t u48; // XXX codec selection? Should test with different values of VdpDecoderProfile
uint16_t f_code_fw; // 4c
uint16_t f_code_bw; // 4e
uint8_t interlaced; // 50
uint8_t quant_type; // bool, written to 528
uint8_t quarter_sample; // bool, written to 548
uint8_t short_video_header; // bool, negated written to 528 shifted by 1
uint8_t u54; // bool, written to 0x740
uint8_t vop_coding_type; // 55
uint8_t rounding_control; // 56
uint8_t alternate_vertical_scan_flag; // 57 bool
uint8_t top_field_first; // bool, written to vuc
uint8_t pad4[3]; // 59, 5a, 5b, contains garbage on blob
uint32_t pad5[0x10]; // 5c...9c non-inclusive, but WHY?
uint32_t intra[0x10]; // 9c
uint32_t non_intra[0x10]; // bc
// udc..uff pad?
};
// Full version, with data pumped from BSP
struct vc1_picparm_vp {
uint32_t bucket_size; // 00
uint32_t pad; // 04
uint32_t inter_ring_data_size; // 08
uint32_t unk0c; // stride 1
uint32_t unk10; // stride 2
uint32_t ofs[6]; // 14..28 ofs
uint16_t width; // 2c
uint16_t height; // 2e
uint8_t profile; // 30 0 = simple, 1 = main, 2 = advanced
uint8_t loopfilter; // 31 written into vuc
uint8_t fastuvmc; // 32, written into vuc
uint8_t dquant; // 33
uint8_t overlap; // 34
uint8_t quantizer; // 35
uint8_t u36; // 36, bool
uint8_t pad2; // 37, to align to 0x38
};
struct h264_picparm_vp { // 700..a00
uint16_t width, height;
uint32_t stride1, stride2; // 04 08
uint32_t ofs[6]; // 0c..24 in-image offset
uint32_t u24; // nfi ac8 ?
uint32_t bucket_size; // 28 bucket size
uint32_t inter_ring_data_size; // 2c
unsigned f0 : 1; // 0 0x01: into 640 shifted by 3, 540 shifted by 5, half size something?
unsigned f1 : 1; // 1 0x02: into vuc ofs 56
unsigned weighted_pred_flag : 1; // 2 0x04
unsigned f3 : 1; // 3 0x08: into vuc ofs 68
unsigned is_reference : 1; // 4
unsigned interlace : 1; // 5 field_pic_flag
unsigned bottom_field_flag : 1; // 6
unsigned f7 : 1; // 7 0x80: nfi yet
signed log2_max_frame_num_minus4 : 4; // 31 0..3
unsigned u31_45 : 2; // 31 4..5
unsigned pic_order_cnt_type : 2; // 31 6..7
signed pic_init_qp_minus26 : 6; // 32 0..5
signed chroma_qp_index_offset : 5; // 32 6..10
signed second_chroma_qp_index_offset : 5; // 32 11..15
unsigned weighted_bipred_idc : 2; // 34 0..1
unsigned fifo_dec_index : 7; // 34 2..8
unsigned tmp_idx : 5; // 34 9..13
unsigned frame_number : 16; // 34 14..29
unsigned u34_3030 : 1; // 34 30..30 pp.u34[30:30]
unsigned u34_3131 : 1; // 34 31..31 pad?
uint32_t field_order_cnt[2]; // 38, 3c
struct { // 40
// 0x00223102
// nfi (needs: top_is_reference, bottom_is_reference, is_long_term, maybe some other state that was saved..
unsigned fifo_idx : 7; // 00 0..6
unsigned tmp_idx : 5; // 00 7..11
unsigned unk12 : 1; // 00 12 not seen yet, but set, maybe top_is_reference
unsigned unk13 : 1; // 00 13 not seen yet, but set, maybe bottom_is_reference?
unsigned unk14 : 1; // 00 14 skipped?
unsigned notseenyet : 1; // 00 15 pad?
unsigned unk16 : 1; // 00 16
unsigned unk17 : 4; // 00 17..20
unsigned unk21 : 4; // 00 21..24
unsigned pad : 7; // 00 d25..31
uint32_t field_order_cnt[2]; // 04,08
uint32_t frame_idx; // 0c
} refs[0x10];
uint8_t m4x4[6][16]; // 140
uint8_t m8x8[2][64]; // 1a0
uint32_t u220; // 220 number of extra reorder_list to append?
uint8_t u224[0x20]; // 224..244 reorder_list append ?
uint8_t nfi244[0xb0]; // add some pad to make sure nulls are read
};
static void
nvc0_decoder_handle_references(struct nvc0_decoder *dec, struct nouveau_vp3_video_buffer *refs[16], unsigned seq, struct nouveau_vp3_video_buffer *target)
{
unsigned h264 = u_reduce_video_profile(dec->base.profile) == PIPE_VIDEO_CODEC_MPEG4_AVC;
unsigned i, idx, empty_spot = dec->base.max_references + 1;
for (i = 0; i < dec->base.max_references; ++i) {
if (!refs[i])
continue;
idx = refs[i]->valid_ref;
//debug_printf("ref[%i] %p in slot %i\n", i, refs[i], idx);
assert(target != refs[i] ||
(h264 && empty_spot &&
(!dec->refs[idx].decoded_bottom || !dec->refs[idx].decoded_top)));
if (target == refs[i])
empty_spot = 0;
if (dec->refs[idx].vidbuf != refs[i]) {
debug_printf("%p is not a real ref\n", refs[i]);
// FIXME: Maybe do m2mf copy here if a application really depends on it?
continue;
}
assert(dec->refs[idx].vidbuf == refs[i]);
dec->refs[idx].last_used = seq;
}
if (!empty_spot)
return;
/* Try to find a real empty spot first, there should be one..
*/
for (i = 0; i < dec->base.max_references + 1; ++i) {
if (dec->refs[i].last_used < seq) {
if (!dec->refs[i].vidbuf) {
empty_spot = i;
break;
}
if (empty_spot < dec->base.max_references+1 &&
dec->refs[empty_spot].last_used < dec->refs[i].last_used)
continue;
empty_spot = i;
}
}
assert(empty_spot < dec->base.max_references+1);
dec->refs[empty_spot].last_used = seq;
// debug_printf("Kicked %p to add %p to slot %i\n", dec->refs[empty_spot].vidbuf, target, i);
dec->refs[empty_spot].vidbuf = target;
dec->refs[empty_spot].decoded_bottom = dec->refs[empty_spot].decoded_top = 0;
target->valid_ref = empty_spot;
}
static void
nvc0_decoder_kick_ref(struct nvc0_decoder *dec, struct nouveau_vp3_video_buffer *target)
{
dec->refs[target->valid_ref].vidbuf = NULL;
dec->refs[target->valid_ref].last_used = 0;
// debug_printf("Unreffed %p\n", target);
}
static uint32_t
nvc0_decoder_fill_picparm_mpeg12_vp(struct nvc0_decoder *dec,
struct pipe_mpeg12_picture_desc *desc,
struct nouveau_vp3_video_buffer *refs[16],
unsigned *is_ref,
char *map)
{
struct mpeg12_picparm_vp pic_vp_stub = {}, *pic_vp = &pic_vp_stub;
uint32_t i, ret = 0x01010, ring; // !async_shutdown << 16 | watchdog << 12 | irq_record << 4 | unk;
assert(!(dec->base.width & 0xf));
*is_ref = desc->picture_coding_type <= 2;
if (dec->base.profile == PIPE_VIDEO_PROFILE_MPEG1)
pic_vp->picture_structure = 3;
else
pic_vp->picture_structure = desc->picture_structure;
assert(desc->picture_structure != 4);
if (desc->picture_structure == 4) // Untested, but should work
ret |= 0x100;
pic_vp->width = mb(dec->base.width);
pic_vp->height = mb(dec->base.height);
pic_vp->unk08 = pic_vp->unk04 = (dec->base.width+0xf)&~0xf; // Stride
nvc0_decoder_ycbcr_offsets(dec, &pic_vp->ofs[1], &pic_vp->ofs[3], &pic_vp->ofs[4]);
pic_vp->ofs[5] = pic_vp->ofs[3];
pic_vp->ofs[0] = pic_vp->ofs[2] = 0;
nvc0_decoder_inter_sizes(dec, 1, &ring, &pic_vp->bucket_size, &pic_vp->inter_ring_data_size);
pic_vp->alternate_scan = desc->alternate_scan;
pic_vp->pad2[0] = pic_vp->pad2[1] = pic_vp->pad2[2] = 0;
pic_vp->unk30 = desc->picture_structure < 3 && (desc->picture_structure == 2 - desc->top_field_first);
pic_vp->unk3a = (desc->picture_coding_type == 1);
for (i = 0; i < 4; ++i)
pic_vp->f_code[i] = desc->f_code[i/2][i%2] + 1; // FU
pic_vp->picture_coding_type = desc->picture_coding_type;
pic_vp->intra_dc_precision = desc->intra_dc_precision;
pic_vp->q_scale_type = desc->q_scale_type;
pic_vp->top_field_first = desc->top_field_first;
pic_vp->full_pel_forward_vector = desc->full_pel_forward_vector;
pic_vp->full_pel_backward_vector = desc->full_pel_backward_vector;
memcpy(pic_vp->intra_quantizer_matrix, desc->intra_matrix, 0x40);
memcpy(pic_vp->non_intra_quantizer_matrix, desc->non_intra_matrix, 0x40);
memcpy(map, pic_vp, sizeof(*pic_vp));
refs[0] = (struct nouveau_vp3_video_buffer *)desc->ref[0];
refs[!!refs[0]] = (struct nouveau_vp3_video_buffer *)desc->ref[1];
return ret | (dec->base.profile != PIPE_VIDEO_PROFILE_MPEG1);
}
static uint32_t
nvc0_decoder_fill_picparm_mpeg4_vp(struct nvc0_decoder *dec,
struct pipe_mpeg4_picture_desc *desc,
struct nouveau_vp3_video_buffer *refs[16],
unsigned *is_ref,
char *map)
{
struct mpeg4_picparm_vp pic_vp_stub = {}, *pic_vp = &pic_vp_stub;
uint32_t ring, ret = 0x01014; // !async_shutdown << 16 | watchdog << 12 | irq_record << 4 | unk;
assert(!(dec->base.width & 0xf));
*is_ref = desc->vop_coding_type <= 1;
pic_vp->width = dec->base.width;
pic_vp->height = mb(dec->base.height)<<4;
pic_vp->unk0c = pic_vp->unk08 = mb(dec->base.width)<<4; // Stride
nvc0_decoder_ycbcr_offsets(dec, &pic_vp->ofs[1], &pic_vp->ofs[3], &pic_vp->ofs[4]);
pic_vp->ofs[5] = pic_vp->ofs[3];
pic_vp->ofs[0] = pic_vp->ofs[2] = 0;
pic_vp->pad1 = pic_vp->pad2 = 0;
nvc0_decoder_inter_sizes(dec, 1, &ring, &pic_vp->bucket_size, &pic_vp->inter_ring_data_size);
pic_vp->trd[0] = desc->trd[0];
pic_vp->trd[1] = desc->trd[1];
pic_vp->trb[0] = desc->trb[0];
pic_vp->trb[1] = desc->trb[1];
pic_vp->u48 = 0; // Codec?
pic_vp->pad1 = pic_vp->pad2 = 0;
pic_vp->f_code_fw = desc->vop_fcode_forward;
pic_vp->f_code_bw = desc->vop_fcode_backward;
pic_vp->interlaced = desc->interlaced;
pic_vp->quant_type = desc->quant_type;
pic_vp->quarter_sample = desc->quarter_sample;
pic_vp->short_video_header = desc->short_video_header;
pic_vp->u54 = 0;
pic_vp->vop_coding_type = desc->vop_coding_type;
pic_vp->rounding_control = desc->rounding_control;
pic_vp->alternate_vertical_scan_flag = desc->alternate_vertical_scan_flag;
pic_vp->top_field_first = desc->top_field_first;
memcpy(pic_vp->intra, desc->intra_matrix, 0x40);
memcpy(pic_vp->non_intra, desc->non_intra_matrix, 0x40);
memcpy(map, pic_vp, sizeof(*pic_vp));
refs[0] = (struct nouveau_vp3_video_buffer *)desc->ref[0];
refs[!!refs[0]] = (struct nouveau_vp3_video_buffer *)desc->ref[1];
return ret;
}
static uint32_t
nvc0_decoder_fill_picparm_h264_vp(struct nvc0_decoder *dec,
const struct pipe_h264_picture_desc *d,
struct nouveau_vp3_video_buffer *refs[16],
unsigned *is_ref,
char *map)
{
struct h264_picparm_vp stub_h = {}, *h = &stub_h;
unsigned ring, i, j = 0;
assert(offsetof(struct h264_picparm_vp, u224) == 0x224);
*is_ref = d->is_reference;
dec->last_frame_num = d->frame_num;
h->width = mb(dec->base.width);
h->height = mb(dec->base.height);
h->stride1 = h->stride2 = mb(dec->base.width)*16;
nvc0_decoder_ycbcr_offsets(dec, &h->ofs[1], &h->ofs[3], &h->ofs[4]);
h->ofs[5] = h->ofs[3];
h->ofs[0] = h->ofs[2] = 0;
h->u24 = dec->tmp_stride >> 8;
assert(h->u24);
nvc0_decoder_inter_sizes(dec, 1, &ring, &h->bucket_size, &h->inter_ring_data_size);
h->u220 = 0;
h->f0 = d->mb_adaptive_frame_field_flag;
h->f1 = d->direct_8x8_inference_flag;
h->weighted_pred_flag = d->weighted_pred_flag;
h->f3 = d->constrained_intra_pred_flag;
h->is_reference = d->is_reference;
h->interlace = d->field_pic_flag;
h->bottom_field_flag = d->bottom_field_flag;
h->f7 = 0; // TODO: figure out when set..
h->log2_max_frame_num_minus4 = d->log2_max_frame_num_minus4;
h->u31_45 = 1;
h->pic_order_cnt_type = d->pic_order_cnt_type;
h->pic_init_qp_minus26 = d->pic_init_qp_minus26;
h->chroma_qp_index_offset = d->chroma_qp_index_offset;
h->second_chroma_qp_index_offset = d->second_chroma_qp_index_offset;
h->weighted_bipred_idc = d->weighted_bipred_idc;
h->tmp_idx = 0; // set in h264_vp_refs below
h->fifo_dec_index = 0; // always set to 0 to be fifo compatible with other codecs
h->frame_number = d->frame_num;
h->u34_3030 = h->u34_3131 = 0;
h->field_order_cnt[0] = d->field_order_cnt[0];
h->field_order_cnt[1] = d->field_order_cnt[1];
memset(h->refs, 0, sizeof(h->refs));
memcpy(h->m4x4, d->scaling_lists_4x4, sizeof(h->m4x4) + sizeof(h->m8x8));
h->u220 = 0;
for (i = 0; i < d->num_ref_frames; ++i) {
if (!d->ref[i])
break;
refs[j] = (struct nouveau_vp3_video_buffer *)d->ref[i];
h->refs[j].fifo_idx = j + 1;
h->refs[j].tmp_idx = refs[j]->valid_ref;
h->refs[j].field_order_cnt[0] = d->field_order_cnt_list[i][0];
h->refs[j].field_order_cnt[1] = d->field_order_cnt_list[i][1];
h->refs[j].frame_idx = d->frame_num_list[i];
if (!dec->refs[refs[j]->valid_ref].field_pic_flag) {
h->refs[j].unk12 = d->top_is_reference[i];
h->refs[j].unk13 = d->bottom_is_reference[i];
}
h->refs[j].unk14 = 0;
h->refs[j].notseenyet = 0;
h->refs[j].unk16 = dec->refs[refs[j]->valid_ref].field_pic_flag;
h->refs[j].unk17 = dec->refs[refs[j]->valid_ref].decoded_top &&
d->top_is_reference[i];
h->refs[j].unk21 = dec->refs[refs[j]->valid_ref].decoded_bottom &&
d->bottom_is_reference[i];
h->refs[j].pad = 0;
assert(!d->is_long_term[i]);
j++;
}
for (; i < 16; ++i)
assert(!d->ref[i]);
assert(d->num_ref_frames <= dec->base.max_references);
for (; i < d->num_ref_frames; ++i)
h->refs[j].unk16 = d->field_pic_flag;
*(struct h264_picparm_vp *)map = *h;
return 0x1113;
}
static void
nvc0_decoder_fill_picparm_h264_vp_refs(struct nvc0_decoder *dec,
struct pipe_h264_picture_desc *d,
struct nouveau_vp3_video_buffer *refs[16],
struct nouveau_vp3_video_buffer *target,
char *map)
{
struct h264_picparm_vp *h = (struct h264_picparm_vp *)map;
assert(dec->refs[target->valid_ref].vidbuf == target);
// debug_printf("Target: %p\n", target);
h->tmp_idx = target->valid_ref;
dec->refs[target->valid_ref].field_pic_flag = d->field_pic_flag;
if (!d->field_pic_flag || d->bottom_field_flag)
dec->refs[target->valid_ref].decoded_bottom = 1;
if (!d->field_pic_flag || !d->bottom_field_flag)
dec->refs[target->valid_ref].decoded_top = 1;
}
static uint32_t
nvc0_decoder_fill_picparm_vc1_vp(struct nvc0_decoder *dec,
struct pipe_vc1_picture_desc *d,
struct nouveau_vp3_video_buffer *refs[16],
unsigned *is_ref,
char *map)
{
struct vc1_picparm_vp *vc = (struct vc1_picparm_vp *)map;
unsigned ring;
assert(dec->base.profile != PIPE_VIDEO_PROFILE_VC1_SIMPLE);
*is_ref = d->picture_type <= 1;
nvc0_decoder_ycbcr_offsets(dec, &vc->ofs[1], &vc->ofs[3], &vc->ofs[4]);
vc->ofs[5] = vc->ofs[3];
vc->ofs[0] = vc->ofs[2] = 0;
vc->width = dec->base.width;
vc->height = mb(dec->base.height)<<4;
vc->unk0c = vc->unk10 = mb(dec->base.width)<<4; // Stride
vc->pad = vc->pad2 = 0;
nvc0_decoder_inter_sizes(dec, 1, &ring, &vc->bucket_size, &vc->inter_ring_data_size);
vc->profile = dec->base.profile - PIPE_VIDEO_PROFILE_VC1_SIMPLE;
vc->loopfilter = d->loopfilter;
vc->fastuvmc = d->fastuvmc;
vc->dquant = d->dquant;
vc->overlap = d->overlap;
vc->quantizer = d->quantizer;
vc->u36 = 0; // ? No idea what this one is..
refs[0] = (struct nouveau_vp3_video_buffer *)d->ref[0];
refs[!!refs[0]] = (struct nouveau_vp3_video_buffer *)d->ref[1];
return 0x12;
}
#if NVC0_DEBUG_FENCE
static void dump_comm_vp(struct nvc0_decoder *dec, struct comm *comm, u32 comm_seq,
struct nouveau_bo *inter_bo, unsigned slice_size)
{
unsigned i, idx = comm->pvp_cur_index & 0xf;
debug_printf("Status: %08x, stage: %08x\n", comm->status_vp[idx], comm->pvp_stage);
#if 0
debug_printf("Acked byte ofs: %x, bsp byte ofs: %x\n", comm->acked_byte_ofs, comm->byte_ofs);
debug_printf("Irq/parse indexes: %i %i\n", comm->irq_index, comm->parse_endpos_index);
for (i = 0; i != comm->irq_index; ++i)
debug_printf("irq[%i] = { @ %08x -> %04x }\n", i, comm->irq_pos[i], comm->irq_470[i]);
for (i = 0; i != comm->parse_endpos_index; ++i)
debug_printf("parse_endpos[%i] = { @ %08x}\n", i, comm->parse_endpos[i]);
#endif
debug_printf("mb_y = %u\n", comm->mb_y[idx]);
if (comm->status_vp[idx] == 1)
return;
if ((comm->pvp_stage & 0xff) != 0xff) {
unsigned *map;
assert(nouveau_bo_map(inter_bo, NOUVEAU_BO_RD|NOUVEAU_BO_NOBLOCK, dec->client) >= 0);
map = inter_bo->map;
for (i = 0; i < comm->byte_ofs + slice_size; i += 0x10) {
debug_printf("%05x: %08x %08x %08x %08x\n", i, map[i/4], map[i/4+1], map[i/4+2], map[i/4+3]);
}
munmap(inter_bo->map, inter_bo->size);
inter_bo->map = NULL;
}
assert((comm->pvp_stage & 0xff) == 0xff);
}
#endif
void nvc0_decoder_vp_caps(struct nvc0_decoder *dec, union pipe_desc desc,
struct nouveau_vp3_video_buffer *target, unsigned comm_seq,
unsigned *caps, unsigned *is_ref,
struct nouveau_vp3_video_buffer *refs[16])
{
struct nouveau_bo *bsp_bo = dec->bsp_bo[comm_seq % NVC0_VIDEO_QDEPTH];
enum pipe_video_codec codec = u_reduce_video_profile(dec->base.profile);
char *vp = bsp_bo->map + VP_OFFSET;
switch (codec){
case PIPE_VIDEO_CODEC_MPEG12:
*caps = nvc0_decoder_fill_picparm_mpeg12_vp(dec, desc.mpeg12, refs, is_ref, vp);
nvc0_decoder_handle_references(dec, refs, dec->fence_seq, target);
return;
case PIPE_VIDEO_CODEC_MPEG4:
*caps = nvc0_decoder_fill_picparm_mpeg4_vp(dec, desc.mpeg4, refs, is_ref, vp);
nvc0_decoder_handle_references(dec, refs, dec->fence_seq, target);
return;
case PIPE_VIDEO_CODEC_VC1: {
*caps = nvc0_decoder_fill_picparm_vc1_vp(dec, desc.vc1, refs, is_ref, vp);
nvc0_decoder_handle_references(dec, refs, dec->fence_seq, target);
return;
}
case PIPE_VIDEO_CODEC_MPEG4_AVC: {
*caps = nvc0_decoder_fill_picparm_h264_vp(dec, desc.h264, refs, is_ref, vp);
nvc0_decoder_handle_references(dec, refs, dec->fence_seq, target);
nvc0_decoder_fill_picparm_h264_vp_refs(dec, desc.h264, refs, target, vp);
return;
}
default: assert(0); return;
}
}
void
nvc0_decoder_vp(struct nvc0_decoder *dec, union pipe_desc desc,
struct nouveau_vp3_video_buffer *target, unsigned comm_seq,
unsigned caps, unsigned is_ref,
struct nouveau_vp3_video_buffer *refs[16])
{
struct nouveau_pushbuf *push = dec->pushbuf[1];
uint32_t bsp_addr, comm_addr, inter_addr, ucode_addr, pic_addr[17], last_addr, null_addr;
uint32_t slice_size, bucket_size, ring_size, i;
enum pipe_video_codec codec = u_reduce_video_profile(dec->base.profile);
struct nouveau_bo *bsp_bo = dec->bsp_bo[comm_seq % NVC0_VIDEO_QDEPTH];
struct nouveau_bo *inter_bo = dec->inter_bo[comm_seq & 1];
u32 fence_extra = 0, codec_extra = 0;
struct nouveau_pushbuf_refn bo_refs[] = {
{ inter_bo, NOUVEAU_BO_WR | NOUVEAU_BO_VRAM },
{ dec->ref_bo, NOUVEAU_BO_WR | NOUVEAU_BO_VRAM },
{ bsp_bo, NOUVEAU_BO_RD | NOUVEAU_BO_VRAM },
#if NVC0_DEBUG_FENCE
{ dec->fence_bo, NOUVEAU_BO_WR | NOUVEAU_BO_GART },
#endif
{ dec->fw_bo, NOUVEAU_BO_RD | NOUVEAU_BO_VRAM },
};
int num_refs = sizeof(bo_refs)/sizeof(*bo_refs) - !dec->fw_bo;
#if NVC0_DEBUG_FENCE
fence_extra = 4;
#endif
if (codec == PIPE_VIDEO_CODEC_MPEG4_AVC) {
nvc0_decoder_inter_sizes(dec, desc.h264->slice_count, &slice_size, &bucket_size, &ring_size);
codec_extra += 2;
} else
nvc0_decoder_inter_sizes(dec, 1, &slice_size, &bucket_size, &ring_size);
if (dec->base.max_references > 2)
codec_extra += 1 + (dec->base.max_references - 2);
pic_addr[16] = nvc0_video_addr(dec, target) >> 8;
last_addr = null_addr = nvc0_video_addr(dec, NULL) >> 8;
for (i = 0; i < dec->base.max_references; ++i) {
if (!refs[i])
pic_addr[i] = last_addr;
else if (dec->refs[refs[i]->valid_ref].vidbuf == refs[i])
last_addr = pic_addr[i] = nvc0_video_addr(dec, refs[i]) >> 8;
else
pic_addr[i] = null_addr;
}
if (!is_ref)
nvc0_decoder_kick_ref(dec, target);
nouveau_pushbuf_space(push, 8 + 3 * (codec != PIPE_VIDEO_CODEC_MPEG12) +
6 + codec_extra + fence_extra + 2, num_refs, 0);
nouveau_pushbuf_refn(push, bo_refs, num_refs);
bsp_addr = bsp_bo->offset >> 8;
#if NVC0_DEBUG_FENCE
comm_addr = (dec->fence_bo->offset + COMM_OFFSET)>>8;
#else
comm_addr = bsp_addr + (COMM_OFFSET>>8);
#endif
inter_addr = inter_bo->offset >> 8;
if (dec->fw_bo)
ucode_addr = dec->fw_bo->offset >> 8;
else
ucode_addr = 0;
BEGIN_NVC0(push, SUBC_VP(0x700), 7);
PUSH_DATA (push, caps); // 700
PUSH_DATA (push, comm_seq); // 704
PUSH_DATA (push, 0); // 708 fuc targets, ignored for nvc0
PUSH_DATA (push, dec->fw_sizes); // 70c
PUSH_DATA (push, bsp_addr+(VP_OFFSET>>8)); // 710 picparm_addr
PUSH_DATA (push, inter_addr); // 714 inter_parm
PUSH_DATA (push, inter_addr + slice_size + bucket_size); // 718 inter_data_ofs
if (bucket_size) {
uint64_t tmpimg_addr = dec->ref_bo->offset + dec->ref_stride * (dec->base.max_references+2);
BEGIN_NVC0(push, SUBC_VP(0x71c), 2);
PUSH_DATA (push, tmpimg_addr >> 8); // 71c
PUSH_DATA (push, inter_addr + slice_size); // 720 bucket_ofs
}
BEGIN_NVC0(push, SUBC_VP(0x724), 5);
PUSH_DATA (push, comm_addr); // 724
PUSH_DATA (push, ucode_addr); // 728
PUSH_DATA (push, pic_addr[16]); // 734
PUSH_DATA (push, pic_addr[0]); // 72c
PUSH_DATA (push, pic_addr[1]); // 730
if (dec->base.max_references > 2) {
int i;
BEGIN_NVC0(push, SUBC_VP(0x400), dec->base.max_references - 2);
for (i = 2; i < dec->base.max_references; ++i) {
assert(0x400 + (i - 2) * 4 < 0x438);
PUSH_DATA (push, pic_addr[i]);
}
}
if (codec == PIPE_VIDEO_CODEC_MPEG4_AVC) {
BEGIN_NVC0(push, SUBC_VP(0x438), 1);
PUSH_DATA (push, desc.h264->slice_count);
}
//debug_printf("Decoding %08lx with %08lx and %08lx\n", pic_addr[16], pic_addr[0], pic_addr[1]);
#if NVC0_DEBUG_FENCE
BEGIN_NVC0(push, SUBC_VP(0x240), 3);
PUSH_DATAh(push, (dec->fence_bo->offset + 0x10));
PUSH_DATA (push, (dec->fence_bo->offset + 0x10));
PUSH_DATA (push, dec->fence_seq);
BEGIN_NVC0(push, SUBC_VP(0x300), 1);
PUSH_DATA (push, 1);
PUSH_KICK(push);
{
unsigned spin = 0;
do {
usleep(100);
if ((spin++ & 0xff) == 0xff) {
debug_printf("v%u: %u\n", dec->fence_seq, dec->fence_map[4]);
dump_comm_vp(dec, dec->comm, comm_seq, inter_bo, slice_size << 8);
}
} while (dec->fence_seq > dec->fence_map[4]);
}
dump_comm_vp(dec, dec->comm, comm_seq, inter_bo, slice_size << 8);
#else
BEGIN_NVC0(push, SUBC_VP(0x300), 1);
PUSH_DATA (push, 0);
PUSH_KICK (push);
#endif
}
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