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|
/**************************************************************************
*
* Copyright 2011 Advanced Micro Devices, Inc.
* All Rights Reserved.
*
* 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, sub license, 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 (including the
* next paragraph) 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 NON-INFRINGEMENT.
* IN NO EVENT SHALL THE COPYRIGHT HOLDER(S) OR AUTHOR(S) 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.
*
**************************************************************************/
/*
* Authors:
* Christian König <christian.koenig@amd.com>
*
*/
#include <sys/types.h>
#include <assert.h>
#include <errno.h>
#include <unistd.h>
#include <stdio.h>
#include "pipe/p_video_codec.h"
#include "util/u_memory.h"
#include "util/u_video.h"
#include "vl/vl_defines.h"
#include "vl/vl_mpeg12_decoder.h"
#include "r600_pipe_common.h"
#include "radeon_video.h"
#include "radeon_uvd.h"
#define NUM_BUFFERS 4
#define NUM_MPEG2_REFS 6
#define NUM_H264_REFS 17
#define NUM_VC1_REFS 5
#define FB_BUFFER_OFFSET 0x1000
#define FB_BUFFER_SIZE 2048
#define FB_BUFFER_SIZE_TONGA (2048 * 64)
#define IT_SCALING_TABLE_SIZE 992
#define UVD_SESSION_CONTEXT_SIZE (128 * 1024)
/* UVD decoder representation */
struct ruvd_decoder {
struct pipe_video_codec base;
ruvd_set_dtb set_dtb;
unsigned stream_handle;
unsigned stream_type;
unsigned frame_number;
struct pipe_screen *screen;
struct radeon_winsys* ws;
struct radeon_winsys_cs* cs;
unsigned cur_buffer;
struct rvid_buffer msg_fb_it_buffers[NUM_BUFFERS];
struct ruvd_msg *msg;
uint32_t *fb;
unsigned fb_size;
uint8_t *it;
struct rvid_buffer bs_buffers[NUM_BUFFERS];
void* bs_ptr;
unsigned bs_size;
struct rvid_buffer dpb;
bool use_legacy;
struct rvid_buffer ctx;
struct rvid_buffer sessionctx;
struct {
unsigned data0;
unsigned data1;
unsigned cmd;
unsigned cntl;
} reg;
};
/* flush IB to the hardware */
static int flush(struct ruvd_decoder *dec, unsigned flags)
{
return dec->ws->cs_flush(dec->cs, flags, NULL);
}
/* add a new set register command to the IB */
static void set_reg(struct ruvd_decoder *dec, unsigned reg, uint32_t val)
{
radeon_emit(dec->cs, RUVD_PKT0(reg >> 2, 0));
radeon_emit(dec->cs, val);
}
/* send a command to the VCPU through the GPCOM registers */
static void send_cmd(struct ruvd_decoder *dec, unsigned cmd,
struct pb_buffer* buf, uint32_t off,
enum radeon_bo_usage usage, enum radeon_bo_domain domain)
{
int reloc_idx;
reloc_idx = dec->ws->cs_add_buffer(dec->cs, buf, usage | RADEON_USAGE_SYNCHRONIZED,
domain,
RADEON_PRIO_UVD);
if (!dec->use_legacy) {
uint64_t addr;
addr = dec->ws->buffer_get_virtual_address(buf);
addr = addr + off;
set_reg(dec, dec->reg.data0, addr);
set_reg(dec, dec->reg.data1, addr >> 32);
} else {
off += dec->ws->buffer_get_reloc_offset(buf);
set_reg(dec, RUVD_GPCOM_VCPU_DATA0, off);
set_reg(dec, RUVD_GPCOM_VCPU_DATA1, reloc_idx * 4);
}
set_reg(dec, dec->reg.cmd, cmd << 1);
}
/* do the codec needs an IT buffer ?*/
static bool have_it(struct ruvd_decoder *dec)
{
return dec->stream_type == RUVD_CODEC_H264_PERF ||
dec->stream_type == RUVD_CODEC_H265;
}
/* map the next available message/feedback/itscaling buffer */
static void map_msg_fb_it_buf(struct ruvd_decoder *dec)
{
struct rvid_buffer* buf;
uint8_t *ptr;
/* grab the current message/feedback buffer */
buf = &dec->msg_fb_it_buffers[dec->cur_buffer];
/* and map it for CPU access */
ptr = dec->ws->buffer_map(buf->res->buf, dec->cs, PIPE_TRANSFER_WRITE);
/* calc buffer offsets */
dec->msg = (struct ruvd_msg *)ptr;
memset(dec->msg, 0, sizeof(*dec->msg));
dec->fb = (uint32_t *)(ptr + FB_BUFFER_OFFSET);
if (have_it(dec))
dec->it = (uint8_t *)(ptr + FB_BUFFER_OFFSET + dec->fb_size);
}
/* unmap and send a message command to the VCPU */
static void send_msg_buf(struct ruvd_decoder *dec)
{
struct rvid_buffer* buf;
/* ignore the request if message/feedback buffer isn't mapped */
if (!dec->msg || !dec->fb)
return;
/* grab the current message buffer */
buf = &dec->msg_fb_it_buffers[dec->cur_buffer];
/* unmap the buffer */
dec->ws->buffer_unmap(buf->res->buf);
dec->msg = NULL;
dec->fb = NULL;
dec->it = NULL;
if (dec->sessionctx.res)
send_cmd(dec, RUVD_CMD_SESSION_CONTEXT_BUFFER,
dec->sessionctx.res->buf, 0, RADEON_USAGE_READWRITE,
RADEON_DOMAIN_VRAM);
/* and send it to the hardware */
send_cmd(dec, RUVD_CMD_MSG_BUFFER, buf->res->buf, 0,
RADEON_USAGE_READ, RADEON_DOMAIN_GTT);
}
/* cycle to the next set of buffers */
static void next_buffer(struct ruvd_decoder *dec)
{
++dec->cur_buffer;
dec->cur_buffer %= NUM_BUFFERS;
}
/* convert the profile into something UVD understands */
static uint32_t profile2stream_type(struct ruvd_decoder *dec, unsigned family)
{
switch (u_reduce_video_profile(dec->base.profile)) {
case PIPE_VIDEO_FORMAT_MPEG4_AVC:
return (family >= CHIP_TONGA) ?
RUVD_CODEC_H264_PERF : RUVD_CODEC_H264;
case PIPE_VIDEO_FORMAT_VC1:
return RUVD_CODEC_VC1;
case PIPE_VIDEO_FORMAT_MPEG12:
return RUVD_CODEC_MPEG2;
case PIPE_VIDEO_FORMAT_MPEG4:
return RUVD_CODEC_MPEG4;
case PIPE_VIDEO_FORMAT_HEVC:
return RUVD_CODEC_H265;
case PIPE_VIDEO_FORMAT_JPEG:
return RUVD_CODEC_MJPEG;
default:
assert(0);
return 0;
}
}
static unsigned calc_ctx_size_h264_perf(struct ruvd_decoder *dec)
{
unsigned width_in_mb, height_in_mb, ctx_size;
unsigned width = align(dec->base.width, VL_MACROBLOCK_WIDTH);
unsigned height = align(dec->base.height, VL_MACROBLOCK_HEIGHT);
unsigned max_references = dec->base.max_references + 1;
// picture width & height in 16 pixel units
width_in_mb = width / VL_MACROBLOCK_WIDTH;
height_in_mb = align(height / VL_MACROBLOCK_HEIGHT, 2);
if (!dec->use_legacy) {
unsigned fs_in_mb = width_in_mb * height_in_mb;
unsigned num_dpb_buffer;
switch(dec->base.level) {
case 30:
num_dpb_buffer = 8100 / fs_in_mb;
break;
case 31:
num_dpb_buffer = 18000 / fs_in_mb;
break;
case 32:
num_dpb_buffer = 20480 / fs_in_mb;
break;
case 41:
num_dpb_buffer = 32768 / fs_in_mb;
break;
case 42:
num_dpb_buffer = 34816 / fs_in_mb;
break;
case 50:
num_dpb_buffer = 110400 / fs_in_mb;
break;
case 51:
num_dpb_buffer = 184320 / fs_in_mb;
break;
default:
num_dpb_buffer = 184320 / fs_in_mb;
break;
}
num_dpb_buffer++;
max_references = MAX2(MIN2(NUM_H264_REFS, num_dpb_buffer), max_references);
ctx_size = max_references * align(width_in_mb * height_in_mb * 192, 256);
} else {
// the firmware seems to always assume a minimum of ref frames
max_references = MAX2(NUM_H264_REFS, max_references);
// macroblock context buffer
ctx_size = align(width_in_mb * height_in_mb * max_references * 192, 256);
}
return ctx_size;
}
static unsigned calc_ctx_size_h265_main(struct ruvd_decoder *dec)
{
unsigned width = align(dec->base.width, VL_MACROBLOCK_WIDTH);
unsigned height = align(dec->base.height, VL_MACROBLOCK_HEIGHT);
unsigned max_references = dec->base.max_references + 1;
if (dec->base.width * dec->base.height >= 4096*2000)
max_references = MAX2(max_references, 8);
else
max_references = MAX2(max_references, 17);
width = align (width, 16);
height = align (height, 16);
return ((width + 255) / 16) * ((height + 255) / 16) * 16 * max_references + 52 * 1024;
}
static unsigned calc_ctx_size_h265_main10(struct ruvd_decoder *dec, struct pipe_h265_picture_desc *pic)
{
unsigned block_size, log2_ctb_size, width_in_ctb, height_in_ctb, num_16x16_block_per_ctb;
unsigned context_buffer_size_per_ctb_row, cm_buffer_size, max_mb_address, db_left_tile_pxl_size;
unsigned db_left_tile_ctx_size = 4096 / 16 * (32 + 16 * 4);
unsigned width = align(dec->base.width, VL_MACROBLOCK_WIDTH);
unsigned height = align(dec->base.height, VL_MACROBLOCK_HEIGHT);
unsigned coeff_10bit = (pic->pps->sps->bit_depth_luma_minus8 || pic->pps->sps->bit_depth_chroma_minus8) ? 2 : 1;
unsigned max_references = dec->base.max_references + 1;
if (dec->base.width * dec->base.height >= 4096*2000)
max_references = MAX2(max_references, 8);
else
max_references = MAX2(max_references, 17);
block_size = (1 << (pic->pps->sps->log2_min_luma_coding_block_size_minus3 + 3));
log2_ctb_size = block_size + pic->pps->sps->log2_diff_max_min_luma_coding_block_size;
width_in_ctb = (width + ((1 << log2_ctb_size) - 1)) >> log2_ctb_size;
height_in_ctb = (height + ((1 << log2_ctb_size) - 1)) >> log2_ctb_size;
num_16x16_block_per_ctb = ((1 << log2_ctb_size) >> 4) * ((1 << log2_ctb_size) >> 4);
context_buffer_size_per_ctb_row = align(width_in_ctb * num_16x16_block_per_ctb * 16, 256);
max_mb_address = (unsigned) ceil(height * 8 / 2048.0);
cm_buffer_size = max_references * context_buffer_size_per_ctb_row * height_in_ctb;
db_left_tile_pxl_size = coeff_10bit * (max_mb_address * 2 * 2048 + 1024);
return cm_buffer_size + db_left_tile_ctx_size + db_left_tile_pxl_size;
}
static unsigned get_db_pitch_alignment(struct ruvd_decoder *dec)
{
if (((struct r600_common_screen*)dec->screen)->family < CHIP_VEGA10)
return 16;
else
return 32;
}
/* calculate size of reference picture buffer */
static unsigned calc_dpb_size(struct ruvd_decoder *dec)
{
unsigned width_in_mb, height_in_mb, image_size, dpb_size;
// always align them to MB size for dpb calculation
unsigned width = align(dec->base.width, VL_MACROBLOCK_WIDTH);
unsigned height = align(dec->base.height, VL_MACROBLOCK_HEIGHT);
// always one more for currently decoded picture
unsigned max_references = dec->base.max_references + 1;
// aligned size of a single frame
image_size = align(width, get_db_pitch_alignment(dec)) * height;
image_size += image_size / 2;
image_size = align(image_size, 1024);
// picture width & height in 16 pixel units
width_in_mb = width / VL_MACROBLOCK_WIDTH;
height_in_mb = align(height / VL_MACROBLOCK_HEIGHT, 2);
switch (u_reduce_video_profile(dec->base.profile)) {
case PIPE_VIDEO_FORMAT_MPEG4_AVC: {
if (!dec->use_legacy) {
unsigned fs_in_mb = width_in_mb * height_in_mb;
unsigned alignment = 64, num_dpb_buffer;
if (dec->stream_type == RUVD_CODEC_H264_PERF)
alignment = 256;
switch(dec->base.level) {
case 30:
num_dpb_buffer = 8100 / fs_in_mb;
break;
case 31:
num_dpb_buffer = 18000 / fs_in_mb;
break;
case 32:
num_dpb_buffer = 20480 / fs_in_mb;
break;
case 41:
num_dpb_buffer = 32768 / fs_in_mb;
break;
case 42:
num_dpb_buffer = 34816 / fs_in_mb;
break;
case 50:
num_dpb_buffer = 110400 / fs_in_mb;
break;
case 51:
num_dpb_buffer = 184320 / fs_in_mb;
break;
default:
num_dpb_buffer = 184320 / fs_in_mb;
break;
}
num_dpb_buffer++;
max_references = MAX2(MIN2(NUM_H264_REFS, num_dpb_buffer), max_references);
dpb_size = image_size * max_references;
if ((dec->stream_type != RUVD_CODEC_H264_PERF) ||
(((struct r600_common_screen*)dec->screen)->family < CHIP_POLARIS10)) {
dpb_size += max_references * align(width_in_mb * height_in_mb * 192, alignment);
dpb_size += align(width_in_mb * height_in_mb * 32, alignment);
}
} else {
// the firmware seems to allways assume a minimum of ref frames
max_references = MAX2(NUM_H264_REFS, max_references);
// reference picture buffer
dpb_size = image_size * max_references;
if ((dec->stream_type != RUVD_CODEC_H264_PERF) ||
(((struct r600_common_screen*)dec->screen)->family < CHIP_POLARIS10)) {
// macroblock context buffer
dpb_size += width_in_mb * height_in_mb * max_references * 192;
// IT surface buffer
dpb_size += width_in_mb * height_in_mb * 32;
}
}
break;
}
case PIPE_VIDEO_FORMAT_HEVC:
if (dec->base.width * dec->base.height >= 4096*2000)
max_references = MAX2(max_references, 8);
else
max_references = MAX2(max_references, 17);
width = align (width, 16);
height = align (height, 16);
if (dec->base.profile == PIPE_VIDEO_PROFILE_HEVC_MAIN_10)
dpb_size = align((align(width, get_db_pitch_alignment(dec)) * height * 9) / 4, 256) * max_references;
else
dpb_size = align((align(width, get_db_pitch_alignment(dec)) * height * 3) / 2, 256) * max_references;
break;
case PIPE_VIDEO_FORMAT_VC1:
// the firmware seems to allways assume a minimum of ref frames
max_references = MAX2(NUM_VC1_REFS, max_references);
// reference picture buffer
dpb_size = image_size * max_references;
// CONTEXT_BUFFER
dpb_size += width_in_mb * height_in_mb * 128;
// IT surface buffer
dpb_size += width_in_mb * 64;
// DB surface buffer
dpb_size += width_in_mb * 128;
// BP
dpb_size += align(MAX2(width_in_mb, height_in_mb) * 7 * 16, 64);
break;
case PIPE_VIDEO_FORMAT_MPEG12:
// reference picture buffer, must be big enough for all frames
dpb_size = image_size * NUM_MPEG2_REFS;
break;
case PIPE_VIDEO_FORMAT_MPEG4:
// reference picture buffer
dpb_size = image_size * max_references;
// CM
dpb_size += width_in_mb * height_in_mb * 64;
// IT surface buffer
dpb_size += align(width_in_mb * height_in_mb * 32, 64);
dpb_size = MAX2(dpb_size, 30 * 1024 * 1024);
break;
case PIPE_VIDEO_FORMAT_JPEG:
dpb_size = 0;
break;
default:
// something is missing here
assert(0);
// at least use a sane default value
dpb_size = 32 * 1024 * 1024;
break;
}
return dpb_size;
}
/* free associated data in the video buffer callback */
static void ruvd_destroy_associated_data(void *data)
{
/* NOOP, since we only use an intptr */
}
/* get h264 specific message bits */
static struct ruvd_h264 get_h264_msg(struct ruvd_decoder *dec, struct pipe_h264_picture_desc *pic)
{
struct ruvd_h264 result;
memset(&result, 0, sizeof(result));
switch (pic->base.profile) {
case PIPE_VIDEO_PROFILE_MPEG4_AVC_BASELINE:
case PIPE_VIDEO_PROFILE_MPEG4_AVC_CONSTRAINED_BASELINE:
result.profile = RUVD_H264_PROFILE_BASELINE;
break;
case PIPE_VIDEO_PROFILE_MPEG4_AVC_MAIN:
result.profile = RUVD_H264_PROFILE_MAIN;
break;
case PIPE_VIDEO_PROFILE_MPEG4_AVC_HIGH:
result.profile = RUVD_H264_PROFILE_HIGH;
break;
default:
assert(0);
break;
}
result.level = dec->base.level;
result.sps_info_flags = 0;
result.sps_info_flags |= pic->pps->sps->direct_8x8_inference_flag << 0;
result.sps_info_flags |= pic->pps->sps->mb_adaptive_frame_field_flag << 1;
result.sps_info_flags |= pic->pps->sps->frame_mbs_only_flag << 2;
result.sps_info_flags |= pic->pps->sps->delta_pic_order_always_zero_flag << 3;
result.bit_depth_luma_minus8 = pic->pps->sps->bit_depth_luma_minus8;
result.bit_depth_chroma_minus8 = pic->pps->sps->bit_depth_chroma_minus8;
result.log2_max_frame_num_minus4 = pic->pps->sps->log2_max_frame_num_minus4;
result.pic_order_cnt_type = pic->pps->sps->pic_order_cnt_type;
result.log2_max_pic_order_cnt_lsb_minus4 = pic->pps->sps->log2_max_pic_order_cnt_lsb_minus4;
switch (dec->base.chroma_format) {
case PIPE_VIDEO_CHROMA_FORMAT_NONE:
/* TODO: assert? */
break;
case PIPE_VIDEO_CHROMA_FORMAT_400:
result.chroma_format = 0;
break;
case PIPE_VIDEO_CHROMA_FORMAT_420:
result.chroma_format = 1;
break;
case PIPE_VIDEO_CHROMA_FORMAT_422:
result.chroma_format = 2;
break;
case PIPE_VIDEO_CHROMA_FORMAT_444:
result.chroma_format = 3;
break;
}
result.pps_info_flags = 0;
result.pps_info_flags |= pic->pps->transform_8x8_mode_flag << 0;
result.pps_info_flags |= pic->pps->redundant_pic_cnt_present_flag << 1;
result.pps_info_flags |= pic->pps->constrained_intra_pred_flag << 2;
result.pps_info_flags |= pic->pps->deblocking_filter_control_present_flag << 3;
result.pps_info_flags |= pic->pps->weighted_bipred_idc << 4;
result.pps_info_flags |= pic->pps->weighted_pred_flag << 6;
result.pps_info_flags |= pic->pps->bottom_field_pic_order_in_frame_present_flag << 7;
result.pps_info_flags |= pic->pps->entropy_coding_mode_flag << 8;
result.num_slice_groups_minus1 = pic->pps->num_slice_groups_minus1;
result.slice_group_map_type = pic->pps->slice_group_map_type;
result.slice_group_change_rate_minus1 = pic->pps->slice_group_change_rate_minus1;
result.pic_init_qp_minus26 = pic->pps->pic_init_qp_minus26;
result.chroma_qp_index_offset = pic->pps->chroma_qp_index_offset;
result.second_chroma_qp_index_offset = pic->pps->second_chroma_qp_index_offset;
memcpy(result.scaling_list_4x4, pic->pps->ScalingList4x4, 6*16);
memcpy(result.scaling_list_8x8, pic->pps->ScalingList8x8, 2*64);
if (dec->stream_type == RUVD_CODEC_H264_PERF) {
memcpy(dec->it, result.scaling_list_4x4, 6*16);
memcpy((dec->it + 96), result.scaling_list_8x8, 2*64);
}
result.num_ref_frames = pic->num_ref_frames;
result.num_ref_idx_l0_active_minus1 = pic->num_ref_idx_l0_active_minus1;
result.num_ref_idx_l1_active_minus1 = pic->num_ref_idx_l1_active_minus1;
result.frame_num = pic->frame_num;
memcpy(result.frame_num_list, pic->frame_num_list, 4*16);
result.curr_field_order_cnt_list[0] = pic->field_order_cnt[0];
result.curr_field_order_cnt_list[1] = pic->field_order_cnt[1];
memcpy(result.field_order_cnt_list, pic->field_order_cnt_list, 4*16*2);
result.decoded_pic_idx = pic->frame_num;
return result;
}
/* get h265 specific message bits */
static struct ruvd_h265 get_h265_msg(struct ruvd_decoder *dec, struct pipe_video_buffer *target,
struct pipe_h265_picture_desc *pic)
{
struct ruvd_h265 result;
unsigned i;
memset(&result, 0, sizeof(result));
result.sps_info_flags = 0;
result.sps_info_flags |= pic->pps->sps->scaling_list_enabled_flag << 0;
result.sps_info_flags |= pic->pps->sps->amp_enabled_flag << 1;
result.sps_info_flags |= pic->pps->sps->sample_adaptive_offset_enabled_flag << 2;
result.sps_info_flags |= pic->pps->sps->pcm_enabled_flag << 3;
result.sps_info_flags |= pic->pps->sps->pcm_loop_filter_disabled_flag << 4;
result.sps_info_flags |= pic->pps->sps->long_term_ref_pics_present_flag << 5;
result.sps_info_flags |= pic->pps->sps->sps_temporal_mvp_enabled_flag << 6;
result.sps_info_flags |= pic->pps->sps->strong_intra_smoothing_enabled_flag << 7;
result.sps_info_flags |= pic->pps->sps->separate_colour_plane_flag << 8;
if (((struct r600_common_screen*)dec->screen)->family == CHIP_CARRIZO)
result.sps_info_flags |= 1 << 9;
if (pic->UseRefPicList == true)
result.sps_info_flags |= 1 << 10;
result.chroma_format = pic->pps->sps->chroma_format_idc;
result.bit_depth_luma_minus8 = pic->pps->sps->bit_depth_luma_minus8;
result.bit_depth_chroma_minus8 = pic->pps->sps->bit_depth_chroma_minus8;
result.log2_max_pic_order_cnt_lsb_minus4 = pic->pps->sps->log2_max_pic_order_cnt_lsb_minus4;
result.sps_max_dec_pic_buffering_minus1 = pic->pps->sps->sps_max_dec_pic_buffering_minus1;
result.log2_min_luma_coding_block_size_minus3 = pic->pps->sps->log2_min_luma_coding_block_size_minus3;
result.log2_diff_max_min_luma_coding_block_size = pic->pps->sps->log2_diff_max_min_luma_coding_block_size;
result.log2_min_transform_block_size_minus2 = pic->pps->sps->log2_min_transform_block_size_minus2;
result.log2_diff_max_min_transform_block_size = pic->pps->sps->log2_diff_max_min_transform_block_size;
result.max_transform_hierarchy_depth_inter = pic->pps->sps->max_transform_hierarchy_depth_inter;
result.max_transform_hierarchy_depth_intra = pic->pps->sps->max_transform_hierarchy_depth_intra;
result.pcm_sample_bit_depth_luma_minus1 = pic->pps->sps->pcm_sample_bit_depth_luma_minus1;
result.pcm_sample_bit_depth_chroma_minus1 = pic->pps->sps->pcm_sample_bit_depth_chroma_minus1;
result.log2_min_pcm_luma_coding_block_size_minus3 = pic->pps->sps->log2_min_pcm_luma_coding_block_size_minus3;
result.log2_diff_max_min_pcm_luma_coding_block_size = pic->pps->sps->log2_diff_max_min_pcm_luma_coding_block_size;
result.num_short_term_ref_pic_sets = pic->pps->sps->num_short_term_ref_pic_sets;
result.pps_info_flags = 0;
result.pps_info_flags |= pic->pps->dependent_slice_segments_enabled_flag << 0;
result.pps_info_flags |= pic->pps->output_flag_present_flag << 1;
result.pps_info_flags |= pic->pps->sign_data_hiding_enabled_flag << 2;
result.pps_info_flags |= pic->pps->cabac_init_present_flag << 3;
result.pps_info_flags |= pic->pps->constrained_intra_pred_flag << 4;
result.pps_info_flags |= pic->pps->transform_skip_enabled_flag << 5;
result.pps_info_flags |= pic->pps->cu_qp_delta_enabled_flag << 6;
result.pps_info_flags |= pic->pps->pps_slice_chroma_qp_offsets_present_flag << 7;
result.pps_info_flags |= pic->pps->weighted_pred_flag << 8;
result.pps_info_flags |= pic->pps->weighted_bipred_flag << 9;
result.pps_info_flags |= pic->pps->transquant_bypass_enabled_flag << 10;
result.pps_info_flags |= pic->pps->tiles_enabled_flag << 11;
result.pps_info_flags |= pic->pps->entropy_coding_sync_enabled_flag << 12;
result.pps_info_flags |= pic->pps->uniform_spacing_flag << 13;
result.pps_info_flags |= pic->pps->loop_filter_across_tiles_enabled_flag << 14;
result.pps_info_flags |= pic->pps->pps_loop_filter_across_slices_enabled_flag << 15;
result.pps_info_flags |= pic->pps->deblocking_filter_override_enabled_flag << 16;
result.pps_info_flags |= pic->pps->pps_deblocking_filter_disabled_flag << 17;
result.pps_info_flags |= pic->pps->lists_modification_present_flag << 18;
result.pps_info_flags |= pic->pps->slice_segment_header_extension_present_flag << 19;
//result.pps_info_flags |= pic->pps->deblocking_filter_control_present_flag; ???
result.num_extra_slice_header_bits = pic->pps->num_extra_slice_header_bits;
result.num_long_term_ref_pic_sps = pic->pps->sps->num_long_term_ref_pics_sps;
result.num_ref_idx_l0_default_active_minus1 = pic->pps->num_ref_idx_l0_default_active_minus1;
result.num_ref_idx_l1_default_active_minus1 = pic->pps->num_ref_idx_l1_default_active_minus1;
result.pps_cb_qp_offset = pic->pps->pps_cb_qp_offset;
result.pps_cr_qp_offset = pic->pps->pps_cr_qp_offset;
result.pps_beta_offset_div2 = pic->pps->pps_beta_offset_div2;
result.pps_tc_offset_div2 = pic->pps->pps_tc_offset_div2;
result.diff_cu_qp_delta_depth = pic->pps->diff_cu_qp_delta_depth;
result.num_tile_columns_minus1 = pic->pps->num_tile_columns_minus1;
result.num_tile_rows_minus1 = pic->pps->num_tile_rows_minus1;
result.log2_parallel_merge_level_minus2 = pic->pps->log2_parallel_merge_level_minus2;
result.init_qp_minus26 = pic->pps->init_qp_minus26;
for (i = 0; i < 19; ++i)
result.column_width_minus1[i] = pic->pps->column_width_minus1[i];
for (i = 0; i < 21; ++i)
result.row_height_minus1[i] = pic->pps->row_height_minus1[i];
result.num_delta_pocs_ref_rps_idx = pic->NumDeltaPocsOfRefRpsIdx;
result.curr_idx = pic->CurrPicOrderCntVal;
result.curr_poc = pic->CurrPicOrderCntVal;
vl_video_buffer_set_associated_data(target, &dec->base,
(void *)(uintptr_t)pic->CurrPicOrderCntVal,
&ruvd_destroy_associated_data);
for (i = 0; i < 16; ++i) {
struct pipe_video_buffer *ref = pic->ref[i];
uintptr_t ref_pic = 0;
result.poc_list[i] = pic->PicOrderCntVal[i];
if (ref)
ref_pic = (uintptr_t)vl_video_buffer_get_associated_data(ref, &dec->base);
else
ref_pic = 0x7F;
result.ref_pic_list[i] = ref_pic;
}
for (i = 0; i < 8; ++i) {
result.ref_pic_set_st_curr_before[i] = 0xFF;
result.ref_pic_set_st_curr_after[i] = 0xFF;
result.ref_pic_set_lt_curr[i] = 0xFF;
}
for (i = 0; i < pic->NumPocStCurrBefore; ++i)
result.ref_pic_set_st_curr_before[i] = pic->RefPicSetStCurrBefore[i];
for (i = 0; i < pic->NumPocStCurrAfter; ++i)
result.ref_pic_set_st_curr_after[i] = pic->RefPicSetStCurrAfter[i];
for (i = 0; i < pic->NumPocLtCurr; ++i)
result.ref_pic_set_lt_curr[i] = pic->RefPicSetLtCurr[i];
for (i = 0; i < 6; ++i)
result.ucScalingListDCCoefSizeID2[i] = pic->pps->sps->ScalingListDCCoeff16x16[i];
for (i = 0; i < 2; ++i)
result.ucScalingListDCCoefSizeID3[i] = pic->pps->sps->ScalingListDCCoeff32x32[i];
memcpy(dec->it, pic->pps->sps->ScalingList4x4, 6 * 16);
memcpy(dec->it + 96, pic->pps->sps->ScalingList8x8, 6 * 64);
memcpy(dec->it + 480, pic->pps->sps->ScalingList16x16, 6 * 64);
memcpy(dec->it + 864, pic->pps->sps->ScalingList32x32, 2 * 64);
for (i = 0 ; i < 2 ; i++) {
for (int j = 0 ; j < 15 ; j++)
result.direct_reflist[i][j] = pic->RefPicList[i][j];
}
if (pic->base.profile == PIPE_VIDEO_PROFILE_HEVC_MAIN_10) {
if (target->buffer_format == PIPE_FORMAT_P016) {
result.p010_mode = 1;
result.msb_mode = 1;
} else {
result.luma_10to8 = 5;
result.chroma_10to8 = 5;
result.sclr_luma10to8 = 4;
result.sclr_chroma10to8 = 4;
}
}
/* TODO
result.highestTid;
result.isNonRef;
IDRPicFlag;
RAPPicFlag;
NumPocTotalCurr;
NumShortTermPictureSliceHeaderBits;
NumLongTermPictureSliceHeaderBits;
IsLongTerm[16];
*/
return result;
}
/* get vc1 specific message bits */
static struct ruvd_vc1 get_vc1_msg(struct pipe_vc1_picture_desc *pic)
{
struct ruvd_vc1 result;
memset(&result, 0, sizeof(result));
switch(pic->base.profile) {
case PIPE_VIDEO_PROFILE_VC1_SIMPLE:
result.profile = RUVD_VC1_PROFILE_SIMPLE;
result.level = 1;
break;
case PIPE_VIDEO_PROFILE_VC1_MAIN:
result.profile = RUVD_VC1_PROFILE_MAIN;
result.level = 2;
break;
case PIPE_VIDEO_PROFILE_VC1_ADVANCED:
result.profile = RUVD_VC1_PROFILE_ADVANCED;
result.level = 4;
break;
default:
assert(0);
}
/* fields common for all profiles */
result.sps_info_flags |= pic->postprocflag << 7;
result.sps_info_flags |= pic->pulldown << 6;
result.sps_info_flags |= pic->interlace << 5;
result.sps_info_flags |= pic->tfcntrflag << 4;
result.sps_info_flags |= pic->finterpflag << 3;
result.sps_info_flags |= pic->psf << 1;
result.pps_info_flags |= pic->range_mapy_flag << 31;
result.pps_info_flags |= pic->range_mapy << 28;
result.pps_info_flags |= pic->range_mapuv_flag << 27;
result.pps_info_flags |= pic->range_mapuv << 24;
result.pps_info_flags |= pic->multires << 21;
result.pps_info_flags |= pic->maxbframes << 16;
result.pps_info_flags |= pic->overlap << 11;
result.pps_info_flags |= pic->quantizer << 9;
result.pps_info_flags |= pic->panscan_flag << 7;
result.pps_info_flags |= pic->refdist_flag << 6;
result.pps_info_flags |= pic->vstransform << 0;
/* some fields only apply to main/advanced profile */
if (pic->base.profile != PIPE_VIDEO_PROFILE_VC1_SIMPLE) {
result.pps_info_flags |= pic->syncmarker << 20;
result.pps_info_flags |= pic->rangered << 19;
result.pps_info_flags |= pic->loopfilter << 5;
result.pps_info_flags |= pic->fastuvmc << 4;
result.pps_info_flags |= pic->extended_mv << 3;
result.pps_info_flags |= pic->extended_dmv << 8;
result.pps_info_flags |= pic->dquant << 1;
}
result.chroma_format = 1;
#if 0
//(((unsigned int)(pPicParams->advance.reserved1)) << SPS_INFO_VC1_RESERVED_SHIFT)
uint32_t slice_count
uint8_t picture_type
uint8_t frame_coding_mode
uint8_t deblockEnable
uint8_t pquant
#endif
return result;
}
/* extract the frame number from a referenced video buffer */
static uint32_t get_ref_pic_idx(struct ruvd_decoder *dec, struct pipe_video_buffer *ref)
{
uint32_t min = MAX2(dec->frame_number, NUM_MPEG2_REFS) - NUM_MPEG2_REFS;
uint32_t max = MAX2(dec->frame_number, 1) - 1;
uintptr_t frame;
/* seems to be the most sane fallback */
if (!ref)
return max;
/* get the frame number from the associated data */
frame = (uintptr_t)vl_video_buffer_get_associated_data(ref, &dec->base);
/* limit the frame number to a valid range */
return MAX2(MIN2(frame, max), min);
}
/* get mpeg2 specific msg bits */
static struct ruvd_mpeg2 get_mpeg2_msg(struct ruvd_decoder *dec,
struct pipe_mpeg12_picture_desc *pic)
{
const int *zscan = pic->alternate_scan ? vl_zscan_alternate : vl_zscan_normal;
struct ruvd_mpeg2 result;
unsigned i;
memset(&result, 0, sizeof(result));
result.decoded_pic_idx = dec->frame_number;
for (i = 0; i < 2; ++i)
result.ref_pic_idx[i] = get_ref_pic_idx(dec, pic->ref[i]);
result.load_intra_quantiser_matrix = 1;
result.load_nonintra_quantiser_matrix = 1;
for (i = 0; i < 64; ++i) {
result.intra_quantiser_matrix[i] = pic->intra_matrix[zscan[i]];
result.nonintra_quantiser_matrix[i] = pic->non_intra_matrix[zscan[i]];
}
result.profile_and_level_indication = 0;
result.chroma_format = 0x1;
result.picture_coding_type = pic->picture_coding_type;
result.f_code[0][0] = pic->f_code[0][0] + 1;
result.f_code[0][1] = pic->f_code[0][1] + 1;
result.f_code[1][0] = pic->f_code[1][0] + 1;
result.f_code[1][1] = pic->f_code[1][1] + 1;
result.intra_dc_precision = pic->intra_dc_precision;
result.pic_structure = pic->picture_structure;
result.top_field_first = pic->top_field_first;
result.frame_pred_frame_dct = pic->frame_pred_frame_dct;
result.concealment_motion_vectors = pic->concealment_motion_vectors;
result.q_scale_type = pic->q_scale_type;
result.intra_vlc_format = pic->intra_vlc_format;
result.alternate_scan = pic->alternate_scan;
return result;
}
/* get mpeg4 specific msg bits */
static struct ruvd_mpeg4 get_mpeg4_msg(struct ruvd_decoder *dec,
struct pipe_mpeg4_picture_desc *pic)
{
struct ruvd_mpeg4 result;
unsigned i;
memset(&result, 0, sizeof(result));
result.decoded_pic_idx = dec->frame_number;
for (i = 0; i < 2; ++i)
result.ref_pic_idx[i] = get_ref_pic_idx(dec, pic->ref[i]);
result.variant_type = 0;
result.profile_and_level_indication = 0xF0; // ASP Level0
result.video_object_layer_verid = 0x5; // advanced simple
result.video_object_layer_shape = 0x0; // rectangular
result.video_object_layer_width = dec->base.width;
result.video_object_layer_height = dec->base.height;
result.vop_time_increment_resolution = pic->vop_time_increment_resolution;
result.flags |= pic->short_video_header << 0;
//result.flags |= obmc_disable << 1;
result.flags |= pic->interlaced << 2;
result.flags |= 1 << 3; // load_intra_quant_mat
result.flags |= 1 << 4; // load_nonintra_quant_mat
result.flags |= pic->quarter_sample << 5;
result.flags |= 1 << 6; // complexity_estimation_disable
result.flags |= pic->resync_marker_disable << 7;
//result.flags |= data_partitioned << 8;
//result.flags |= reversible_vlc << 9;
result.flags |= 0 << 10; // newpred_enable
result.flags |= 0 << 11; // reduced_resolution_vop_enable
//result.flags |= scalability << 12;
//result.flags |= is_object_layer_identifier << 13;
//result.flags |= fixed_vop_rate << 14;
//result.flags |= newpred_segment_type << 15;
result.quant_type = pic->quant_type;
for (i = 0; i < 64; ++i) {
result.intra_quant_mat[i] = pic->intra_matrix[vl_zscan_normal[i]];
result.nonintra_quant_mat[i] = pic->non_intra_matrix[vl_zscan_normal[i]];
}
/*
int32_t trd [2]
int32_t trb [2]
uint8_t vop_coding_type
uint8_t vop_fcode_forward
uint8_t vop_fcode_backward
uint8_t rounding_control
uint8_t alternate_vertical_scan_flag
uint8_t top_field_first
*/
return result;
}
static void get_mjpeg_slice_header(struct ruvd_decoder *dec, struct pipe_mjpeg_picture_desc *pic)
{
int size = 0, saved_size, len_pos, i;
uint16_t *bs;
uint8_t *buf = dec->bs_ptr;
/* SOI */
buf[size++] = 0xff;
buf[size++] = 0xd8;
/* DQT */
buf[size++] = 0xff;
buf[size++] = 0xdb;
len_pos = size++;
size++;
for (i = 0; i < 4; ++i) {
if (pic->quantization_table.load_quantiser_table[i] == 0)
continue;
buf[size++] = i;
memcpy((buf + size), &pic->quantization_table.quantiser_table[i], 64);
size += 64;
}
bs = (uint16_t*)&buf[len_pos];
*bs = util_bswap16(size - 4);
saved_size = size;
/* DHT */
buf[size++] = 0xff;
buf[size++] = 0xc4;
len_pos = size++;
size++;
for (i = 0; i < 2; ++i) {
if (pic->huffman_table.load_huffman_table[i] == 0)
continue;
buf[size++] = 0x00 | i;
memcpy((buf + size), &pic->huffman_table.table[i].num_dc_codes, 16);
size += 16;
memcpy((buf + size), &pic->huffman_table.table[i].dc_values, 12);
size += 12;
}
for (i = 0; i < 2; ++i) {
if (pic->huffman_table.load_huffman_table[i] == 0)
continue;
buf[size++] = 0x10 | i;
memcpy((buf + size), &pic->huffman_table.table[i].num_ac_codes, 16);
size += 16;
memcpy((buf + size), &pic->huffman_table.table[i].ac_values, 162);
size += 162;
}
bs = (uint16_t*)&buf[len_pos];
*bs = util_bswap16(size - saved_size - 2);
saved_size = size;
/* DRI */
if (pic->slice_parameter.restart_interval) {
buf[size++] = 0xff;
buf[size++] = 0xdd;
buf[size++] = 0x00;
buf[size++] = 0x04;
bs = (uint16_t*)&buf[size++];
*bs = util_bswap16(pic->slice_parameter.restart_interval);
saved_size = ++size;
}
/* SOF */
buf[size++] = 0xff;
buf[size++] = 0xc0;
len_pos = size++;
size++;
buf[size++] = 0x08;
bs = (uint16_t*)&buf[size++];
*bs = util_bswap16(pic->picture_parameter.picture_height);
size++;
bs = (uint16_t*)&buf[size++];
*bs = util_bswap16(pic->picture_parameter.picture_width);
size++;
buf[size++] = pic->picture_parameter.num_components;
for (i = 0; i < pic->picture_parameter.num_components; ++i) {
buf[size++] = pic->picture_parameter.components[i].component_id;
buf[size++] = pic->picture_parameter.components[i].h_sampling_factor << 4 |
pic->picture_parameter.components[i].v_sampling_factor;
buf[size++] = pic->picture_parameter.components[i].quantiser_table_selector;
}
bs = (uint16_t*)&buf[len_pos];
*bs = util_bswap16(size - saved_size - 2);
saved_size = size;
/* SOS */
buf[size++] = 0xff;
buf[size++] = 0xda;
len_pos = size++;
size++;
buf[size++] = pic->slice_parameter.num_components;
for (i = 0; i < pic->slice_parameter.num_components; ++i) {
buf[size++] = pic->slice_parameter.components[i].component_selector;
buf[size++] = pic->slice_parameter.components[i].dc_table_selector << 4 |
pic->slice_parameter.components[i].ac_table_selector;
}
buf[size++] = 0x00;
buf[size++] = 0x3f;
buf[size++] = 0x00;
bs = (uint16_t*)&buf[len_pos];
*bs = util_bswap16(size - saved_size - 2);
dec->bs_ptr += size;
dec->bs_size += size;
}
/**
* destroy this video decoder
*/
static void ruvd_destroy(struct pipe_video_codec *decoder)
{
struct ruvd_decoder *dec = (struct ruvd_decoder*)decoder;
unsigned i;
assert(decoder);
map_msg_fb_it_buf(dec);
dec->msg->size = sizeof(*dec->msg);
dec->msg->msg_type = RUVD_MSG_DESTROY;
dec->msg->stream_handle = dec->stream_handle;
send_msg_buf(dec);
flush(dec, 0);
dec->ws->cs_destroy(dec->cs);
for (i = 0; i < NUM_BUFFERS; ++i) {
si_vid_destroy_buffer(&dec->msg_fb_it_buffers[i]);
si_vid_destroy_buffer(&dec->bs_buffers[i]);
}
si_vid_destroy_buffer(&dec->dpb);
si_vid_destroy_buffer(&dec->ctx);
si_vid_destroy_buffer(&dec->sessionctx);
FREE(dec);
}
/**
* start decoding of a new frame
*/
static void ruvd_begin_frame(struct pipe_video_codec *decoder,
struct pipe_video_buffer *target,
struct pipe_picture_desc *picture)
{
struct ruvd_decoder *dec = (struct ruvd_decoder*)decoder;
uintptr_t frame;
assert(decoder);
frame = ++dec->frame_number;
vl_video_buffer_set_associated_data(target, decoder, (void *)frame,
&ruvd_destroy_associated_data);
dec->bs_size = 0;
dec->bs_ptr = dec->ws->buffer_map(
dec->bs_buffers[dec->cur_buffer].res->buf,
dec->cs, PIPE_TRANSFER_WRITE);
}
/**
* decode a macroblock
*/
static void ruvd_decode_macroblock(struct pipe_video_codec *decoder,
struct pipe_video_buffer *target,
struct pipe_picture_desc *picture,
const struct pipe_macroblock *macroblocks,
unsigned num_macroblocks)
{
/* not supported (yet) */
assert(0);
}
/**
* decode a bitstream
*/
static void ruvd_decode_bitstream(struct pipe_video_codec *decoder,
struct pipe_video_buffer *target,
struct pipe_picture_desc *picture,
unsigned num_buffers,
const void * const *buffers,
const unsigned *sizes)
{
struct ruvd_decoder *dec = (struct ruvd_decoder*)decoder;
enum pipe_video_format format = u_reduce_video_profile(picture->profile);
unsigned i;
assert(decoder);
if (!dec->bs_ptr)
return;
if (format == PIPE_VIDEO_FORMAT_JPEG)
get_mjpeg_slice_header(dec, (struct pipe_mjpeg_picture_desc*)picture);
for (i = 0; i < num_buffers; ++i) {
struct rvid_buffer *buf = &dec->bs_buffers[dec->cur_buffer];
unsigned new_size = dec->bs_size + sizes[i];
if (format == PIPE_VIDEO_FORMAT_JPEG)
new_size += 2; /* save for EOI */
if (new_size > buf->res->buf->size) {
dec->ws->buffer_unmap(buf->res->buf);
if (!si_vid_resize_buffer(dec->screen, dec->cs, buf, new_size)) {
RVID_ERR("Can't resize bitstream buffer!");
return;
}
dec->bs_ptr = dec->ws->buffer_map(buf->res->buf, dec->cs,
PIPE_TRANSFER_WRITE);
if (!dec->bs_ptr)
return;
dec->bs_ptr += dec->bs_size;
}
memcpy(dec->bs_ptr, buffers[i], sizes[i]);
dec->bs_size += sizes[i];
dec->bs_ptr += sizes[i];
}
if (format == PIPE_VIDEO_FORMAT_JPEG) {
((uint8_t *)dec->bs_ptr)[0] = 0xff; /* EOI */
((uint8_t *)dec->bs_ptr)[1] = 0xd9;
dec->bs_size += 2;
dec->bs_ptr += 2;
}
}
/**
* end decoding of the current frame
*/
static void ruvd_end_frame(struct pipe_video_codec *decoder,
struct pipe_video_buffer *target,
struct pipe_picture_desc *picture)
{
struct ruvd_decoder *dec = (struct ruvd_decoder*)decoder;
struct pb_buffer *dt;
struct rvid_buffer *msg_fb_it_buf, *bs_buf;
unsigned bs_size;
assert(decoder);
if (!dec->bs_ptr)
return;
msg_fb_it_buf = &dec->msg_fb_it_buffers[dec->cur_buffer];
bs_buf = &dec->bs_buffers[dec->cur_buffer];
bs_size = align(dec->bs_size, 128);
memset(dec->bs_ptr, 0, bs_size - dec->bs_size);
dec->ws->buffer_unmap(bs_buf->res->buf);
map_msg_fb_it_buf(dec);
dec->msg->size = sizeof(*dec->msg);
dec->msg->msg_type = RUVD_MSG_DECODE;
dec->msg->stream_handle = dec->stream_handle;
dec->msg->status_report_feedback_number = dec->frame_number;
dec->msg->body.decode.stream_type = dec->stream_type;
dec->msg->body.decode.decode_flags = 0x1;
dec->msg->body.decode.width_in_samples = dec->base.width;
dec->msg->body.decode.height_in_samples = dec->base.height;
if ((picture->profile == PIPE_VIDEO_PROFILE_VC1_SIMPLE) ||
(picture->profile == PIPE_VIDEO_PROFILE_VC1_MAIN)) {
dec->msg->body.decode.width_in_samples = align(dec->msg->body.decode.width_in_samples, 16) / 16;
dec->msg->body.decode.height_in_samples = align(dec->msg->body.decode.height_in_samples, 16) / 16;
}
if (dec->dpb.res)
dec->msg->body.decode.dpb_size = dec->dpb.res->buf->size;
dec->msg->body.decode.bsd_size = bs_size;
dec->msg->body.decode.db_pitch = align(dec->base.width, get_db_pitch_alignment(dec));
if (dec->stream_type == RUVD_CODEC_H264_PERF &&
((struct r600_common_screen*)dec->screen)->family >= CHIP_POLARIS10)
dec->msg->body.decode.dpb_reserved = dec->ctx.res->buf->size;
dt = dec->set_dtb(dec->msg, (struct vl_video_buffer *)target);
if (((struct r600_common_screen*)dec->screen)->family >= CHIP_STONEY)
dec->msg->body.decode.dt_wa_chroma_top_offset = dec->msg->body.decode.dt_pitch / 2;
switch (u_reduce_video_profile(picture->profile)) {
case PIPE_VIDEO_FORMAT_MPEG4_AVC:
dec->msg->body.decode.codec.h264 = get_h264_msg(dec, (struct pipe_h264_picture_desc*)picture);
break;
case PIPE_VIDEO_FORMAT_HEVC:
dec->msg->body.decode.codec.h265 = get_h265_msg(dec, target, (struct pipe_h265_picture_desc*)picture);
if (dec->ctx.res == NULL) {
unsigned ctx_size;
if (dec->base.profile == PIPE_VIDEO_PROFILE_HEVC_MAIN_10)
ctx_size = calc_ctx_size_h265_main10(dec, (struct pipe_h265_picture_desc*)picture);
else
ctx_size = calc_ctx_size_h265_main(dec);
if (!si_vid_create_buffer(dec->screen, &dec->ctx, ctx_size, PIPE_USAGE_DEFAULT)) {
RVID_ERR("Can't allocated context buffer.\n");
}
si_vid_clear_buffer(decoder->context, &dec->ctx);
}
if (dec->ctx.res)
dec->msg->body.decode.dpb_reserved = dec->ctx.res->buf->size;
break;
case PIPE_VIDEO_FORMAT_VC1:
dec->msg->body.decode.codec.vc1 = get_vc1_msg((struct pipe_vc1_picture_desc*)picture);
break;
case PIPE_VIDEO_FORMAT_MPEG12:
dec->msg->body.decode.codec.mpeg2 = get_mpeg2_msg(dec, (struct pipe_mpeg12_picture_desc*)picture);
break;
case PIPE_VIDEO_FORMAT_MPEG4:
dec->msg->body.decode.codec.mpeg4 = get_mpeg4_msg(dec, (struct pipe_mpeg4_picture_desc*)picture);
break;
case PIPE_VIDEO_FORMAT_JPEG:
break;
default:
assert(0);
return;
}
dec->msg->body.decode.db_surf_tile_config = dec->msg->body.decode.dt_surf_tile_config;
dec->msg->body.decode.extension_support = 0x1;
/* set at least the feedback buffer size */
dec->fb[0] = dec->fb_size;
send_msg_buf(dec);
if (dec->dpb.res)
send_cmd(dec, RUVD_CMD_DPB_BUFFER, dec->dpb.res->buf, 0,
RADEON_USAGE_READWRITE, RADEON_DOMAIN_VRAM);
if (dec->ctx.res)
send_cmd(dec, RUVD_CMD_CONTEXT_BUFFER, dec->ctx.res->buf, 0,
RADEON_USAGE_READWRITE, RADEON_DOMAIN_VRAM);
send_cmd(dec, RUVD_CMD_BITSTREAM_BUFFER, bs_buf->res->buf,
0, RADEON_USAGE_READ, RADEON_DOMAIN_GTT);
send_cmd(dec, RUVD_CMD_DECODING_TARGET_BUFFER, dt, 0,
RADEON_USAGE_WRITE, RADEON_DOMAIN_VRAM);
send_cmd(dec, RUVD_CMD_FEEDBACK_BUFFER, msg_fb_it_buf->res->buf,
FB_BUFFER_OFFSET, RADEON_USAGE_WRITE, RADEON_DOMAIN_GTT);
if (have_it(dec))
send_cmd(dec, RUVD_CMD_ITSCALING_TABLE_BUFFER, msg_fb_it_buf->res->buf,
FB_BUFFER_OFFSET + dec->fb_size, RADEON_USAGE_READ, RADEON_DOMAIN_GTT);
set_reg(dec, dec->reg.cntl, 1);
flush(dec, RADEON_FLUSH_ASYNC);
next_buffer(dec);
}
/**
* flush any outstanding command buffers to the hardware
*/
static void ruvd_flush(struct pipe_video_codec *decoder)
{
}
/**
* create and UVD decoder
*/
struct pipe_video_codec *si_common_uvd_create_decoder(struct pipe_context *context,
const struct pipe_video_codec *templ,
ruvd_set_dtb set_dtb)
{
struct radeon_winsys* ws = ((struct r600_common_context *)context)->ws;
struct r600_common_context *rctx = (struct r600_common_context*)context;
unsigned dpb_size;
unsigned width = templ->width, height = templ->height;
unsigned bs_buf_size;
struct radeon_info info;
struct ruvd_decoder *dec;
int r, i;
ws->query_info(ws, &info);
switch(u_reduce_video_profile(templ->profile)) {
case PIPE_VIDEO_FORMAT_MPEG12:
if (templ->entrypoint > PIPE_VIDEO_ENTRYPOINT_BITSTREAM)
return vl_create_mpeg12_decoder(context, templ);
/* fall through */
case PIPE_VIDEO_FORMAT_MPEG4:
width = align(width, VL_MACROBLOCK_WIDTH);
height = align(height, VL_MACROBLOCK_HEIGHT);
break;
case PIPE_VIDEO_FORMAT_MPEG4_AVC:
width = align(width, VL_MACROBLOCK_WIDTH);
height = align(height, VL_MACROBLOCK_HEIGHT);
break;
default:
break;
}
dec = CALLOC_STRUCT(ruvd_decoder);
if (!dec)
return NULL;
if (info.drm_major < 3)
dec->use_legacy = true;
dec->base = *templ;
dec->base.context = context;
dec->base.width = width;
dec->base.height = height;
dec->base.destroy = ruvd_destroy;
dec->base.begin_frame = ruvd_begin_frame;
dec->base.decode_macroblock = ruvd_decode_macroblock;
dec->base.decode_bitstream = ruvd_decode_bitstream;
dec->base.end_frame = ruvd_end_frame;
dec->base.flush = ruvd_flush;
dec->stream_type = profile2stream_type(dec, info.family);
dec->set_dtb = set_dtb;
dec->stream_handle = si_vid_alloc_stream_handle();
dec->screen = context->screen;
dec->ws = ws;
dec->cs = ws->cs_create(rctx->ctx, RING_UVD, NULL, NULL);
if (!dec->cs) {
RVID_ERR("Can't get command submission context.\n");
goto error;
}
dec->fb_size = (info.family == CHIP_TONGA) ? FB_BUFFER_SIZE_TONGA :
FB_BUFFER_SIZE;
bs_buf_size = width * height * (512 / (16 * 16));
for (i = 0; i < NUM_BUFFERS; ++i) {
unsigned msg_fb_it_size = FB_BUFFER_OFFSET + dec->fb_size;
STATIC_ASSERT(sizeof(struct ruvd_msg) <= FB_BUFFER_OFFSET);
if (have_it(dec))
msg_fb_it_size += IT_SCALING_TABLE_SIZE;
if (!si_vid_create_buffer(dec->screen, &dec->msg_fb_it_buffers[i],
msg_fb_it_size, PIPE_USAGE_STAGING)) {
RVID_ERR("Can't allocated message buffers.\n");
goto error;
}
if (!si_vid_create_buffer(dec->screen, &dec->bs_buffers[i],
bs_buf_size, PIPE_USAGE_STAGING)) {
RVID_ERR("Can't allocated bitstream buffers.\n");
goto error;
}
si_vid_clear_buffer(context, &dec->msg_fb_it_buffers[i]);
si_vid_clear_buffer(context, &dec->bs_buffers[i]);
}
dpb_size = calc_dpb_size(dec);
if (dpb_size) {
if (!si_vid_create_buffer(dec->screen, &dec->dpb, dpb_size, PIPE_USAGE_DEFAULT)) {
RVID_ERR("Can't allocated dpb.\n");
goto error;
}
si_vid_clear_buffer(context, &dec->dpb);
}
if (dec->stream_type == RUVD_CODEC_H264_PERF && info.family >= CHIP_POLARIS10) {
unsigned ctx_size = calc_ctx_size_h264_perf(dec);
if (!si_vid_create_buffer(dec->screen, &dec->ctx, ctx_size, PIPE_USAGE_DEFAULT)) {
RVID_ERR("Can't allocated context buffer.\n");
goto error;
}
si_vid_clear_buffer(context, &dec->ctx);
}
if (info.family >= CHIP_POLARIS10 && info.drm_minor >= 3) {
if (!si_vid_create_buffer(dec->screen, &dec->sessionctx,
UVD_SESSION_CONTEXT_SIZE,
PIPE_USAGE_DEFAULT)) {
RVID_ERR("Can't allocated session ctx.\n");
goto error;
}
si_vid_clear_buffer(context, &dec->sessionctx);
}
if (info.family >= CHIP_VEGA10) {
dec->reg.data0 = RUVD_GPCOM_VCPU_DATA0_SOC15;
dec->reg.data1 = RUVD_GPCOM_VCPU_DATA1_SOC15;
dec->reg.cmd = RUVD_GPCOM_VCPU_CMD_SOC15;
dec->reg.cntl = RUVD_ENGINE_CNTL_SOC15;
} else {
dec->reg.data0 = RUVD_GPCOM_VCPU_DATA0;
dec->reg.data1 = RUVD_GPCOM_VCPU_DATA1;
dec->reg.cmd = RUVD_GPCOM_VCPU_CMD;
dec->reg.cntl = RUVD_ENGINE_CNTL;
}
map_msg_fb_it_buf(dec);
dec->msg->size = sizeof(*dec->msg);
dec->msg->msg_type = RUVD_MSG_CREATE;
dec->msg->stream_handle = dec->stream_handle;
dec->msg->body.create.stream_type = dec->stream_type;
dec->msg->body.create.width_in_samples = dec->base.width;
dec->msg->body.create.height_in_samples = dec->base.height;
dec->msg->body.create.dpb_size = dpb_size;
send_msg_buf(dec);
r = flush(dec, 0);
if (r)
goto error;
next_buffer(dec);
return &dec->base;
error:
if (dec->cs) dec->ws->cs_destroy(dec->cs);
for (i = 0; i < NUM_BUFFERS; ++i) {
si_vid_destroy_buffer(&dec->msg_fb_it_buffers[i]);
si_vid_destroy_buffer(&dec->bs_buffers[i]);
}
si_vid_destroy_buffer(&dec->dpb);
si_vid_destroy_buffer(&dec->ctx);
si_vid_destroy_buffer(&dec->sessionctx);
FREE(dec);
return NULL;
}
/* calculate top/bottom offset */
static unsigned texture_offset(struct radeon_surf *surface, unsigned layer,
enum ruvd_surface_type type)
{
switch (type) {
default:
case RUVD_SURFACE_TYPE_LEGACY:
return surface->u.legacy.level[0].offset +
layer * surface->u.legacy.level[0].slice_size;
break;
case RUVD_SURFACE_TYPE_GFX9:
return surface->u.gfx9.surf_offset +
layer * surface->u.gfx9.surf_slice_size;
break;
}
}
/* hw encode the aspect of macro tiles */
static unsigned macro_tile_aspect(unsigned macro_tile_aspect)
{
switch (macro_tile_aspect) {
default:
case 1: macro_tile_aspect = 0; break;
case 2: macro_tile_aspect = 1; break;
case 4: macro_tile_aspect = 2; break;
case 8: macro_tile_aspect = 3; break;
}
return macro_tile_aspect;
}
/* hw encode the bank width and height */
static unsigned bank_wh(unsigned bankwh)
{
switch (bankwh) {
default:
case 1: bankwh = 0; break;
case 2: bankwh = 1; break;
case 4: bankwh = 2; break;
case 8: bankwh = 3; break;
}
return bankwh;
}
/**
* fill decoding target field from the luma and chroma surfaces
*/
void si_uvd_set_dt_surfaces(struct ruvd_msg *msg, struct radeon_surf *luma,
struct radeon_surf *chroma, enum ruvd_surface_type type)
{
switch (type) {
default:
case RUVD_SURFACE_TYPE_LEGACY:
msg->body.decode.dt_pitch = luma->u.legacy.level[0].nblk_x * luma->blk_w;
switch (luma->u.legacy.level[0].mode) {
case RADEON_SURF_MODE_LINEAR_ALIGNED:
msg->body.decode.dt_tiling_mode = RUVD_TILE_LINEAR;
msg->body.decode.dt_array_mode = RUVD_ARRAY_MODE_LINEAR;
break;
case RADEON_SURF_MODE_1D:
msg->body.decode.dt_tiling_mode = RUVD_TILE_8X8;
msg->body.decode.dt_array_mode = RUVD_ARRAY_MODE_1D_THIN;
break;
case RADEON_SURF_MODE_2D:
msg->body.decode.dt_tiling_mode = RUVD_TILE_8X8;
msg->body.decode.dt_array_mode = RUVD_ARRAY_MODE_2D_THIN;
break;
default:
assert(0);
break;
}
msg->body.decode.dt_luma_top_offset = texture_offset(luma, 0, type);
if (chroma)
msg->body.decode.dt_chroma_top_offset = texture_offset(chroma, 0, type);
if (msg->body.decode.dt_field_mode) {
msg->body.decode.dt_luma_bottom_offset = texture_offset(luma, 1, type);
if (chroma)
msg->body.decode.dt_chroma_bottom_offset = texture_offset(chroma, 1, type);
} else {
msg->body.decode.dt_luma_bottom_offset = msg->body.decode.dt_luma_top_offset;
msg->body.decode.dt_chroma_bottom_offset = msg->body.decode.dt_chroma_top_offset;
}
if (chroma) {
assert(luma->u.legacy.bankw == chroma->u.legacy.bankw);
assert(luma->u.legacy.bankh == chroma->u.legacy.bankh);
assert(luma->u.legacy.mtilea == chroma->u.legacy.mtilea);
}
msg->body.decode.dt_surf_tile_config |= RUVD_BANK_WIDTH(bank_wh(luma->u.legacy.bankw));
msg->body.decode.dt_surf_tile_config |= RUVD_BANK_HEIGHT(bank_wh(luma->u.legacy.bankh));
msg->body.decode.dt_surf_tile_config |= RUVD_MACRO_TILE_ASPECT_RATIO(macro_tile_aspect(luma->u.legacy.mtilea));
break;
case RUVD_SURFACE_TYPE_GFX9:
msg->body.decode.dt_pitch = luma->u.gfx9.surf_pitch * luma->blk_w;
/* SWIZZLE LINEAR MODE */
msg->body.decode.dt_tiling_mode = RUVD_TILE_LINEAR;
msg->body.decode.dt_array_mode = RUVD_ARRAY_MODE_LINEAR;
msg->body.decode.dt_luma_top_offset = texture_offset(luma, 0, type);
msg->body.decode.dt_chroma_top_offset = texture_offset(chroma, 0, type);
if (msg->body.decode.dt_field_mode) {
msg->body.decode.dt_luma_bottom_offset = texture_offset(luma, 1, type);
msg->body.decode.dt_chroma_bottom_offset = texture_offset(chroma, 1, type);
} else {
msg->body.decode.dt_luma_bottom_offset = msg->body.decode.dt_luma_top_offset;
msg->body.decode.dt_chroma_bottom_offset = msg->body.decode.dt_chroma_top_offset;
}
msg->body.decode.dt_surf_tile_config = 0;
break;
}
}
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