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mpeg4.c
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mpeg4.c
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/*
* Copyright (c) 2014 Jens Kuske <[email protected]>
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Lesser General Public
* License as published by the Free Software Foundation; either
* version 2.1 of the License, or (at your option) any later version.
*
* This library is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public
* License along with this library; if not, write to the Free Software
* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
*
*/
#include <stdlib.h>
#include <string.h>
#include <unistd.h>
#include <cedrus/cedrus.h>
#include <cedrus/cedrus_regs.h>
#include "vdpau_private.h"
typedef struct
{
const uint8_t *data;
unsigned int length;
unsigned int bitpos;
} bitstream;
static int find_startcode(bitstream *bs)
{
unsigned int pos, zeros = 0;
for (pos = bs->bitpos / 8; pos < bs->length; pos++)
{
if (bs->data[pos] == 0x00)
zeros++;
else if (bs->data[pos] == 0x01 && zeros >= 2)
{
bs->bitpos = (pos + 1) * 8;
return 1;
}
else
zeros = 0;
}
return 0;
}
static uint32_t get_bits(bitstream *bs, int n)
{
uint32_t bits = 0;
int remaining_bits = n;
while (remaining_bits > 0)
{
int bits_in_current_byte = 8 - (bs->bitpos & 7);
int trash_bits = 0;
if (remaining_bits < bits_in_current_byte)
trash_bits = bits_in_current_byte - remaining_bits;
int useful_bits = bits_in_current_byte - trash_bits;
bits = (bits << useful_bits) | (bs->data[bs->bitpos / 8] >> trash_bits);
remaining_bits -= useful_bits;
bs->bitpos += useful_bits;
}
return bits & ((1 << n) - 1);
}
typedef struct
{
cedrus_mem_t *mbh_buffer;
cedrus_mem_t *dcac_buffer;
cedrus_mem_t *ncf_buffer;
} mpeg4_private_t;
static void mpeg4_private_free(decoder_ctx_t *decoder)
{
mpeg4_private_t *decoder_p = (mpeg4_private_t *)decoder->private;
cedrus_mem_free(decoder_p->mbh_buffer);
cedrus_mem_free(decoder_p->dcac_buffer);
cedrus_mem_free(decoder_p->ncf_buffer);
free(decoder_p);
}
#define VOP_I 0
#define VOP_P 1
#define VOP_B 2
#define VOP_S 3
typedef struct
{
int vop_coding_type;
int intra_dc_vlc_thr;
int vop_quant;
} vop_header;
static int decode_vop_header(bitstream *bs, VdpPictureInfoMPEG4Part2 const *info, vop_header *h)
{
h->vop_coding_type = get_bits(bs, 2);
// modulo_time_base
while (get_bits(bs, 1) != 0);
if (get_bits(bs, 1) != 1)
VDPAU_DBG("vop header marker error");
// vop_time_increment
get_bits(bs, 32 - __builtin_clz(info->vop_time_increment_resolution));
if (get_bits(bs, 1) != 1)
VDPAU_DBG("vop header marker error");
// vop_coded
if (!get_bits(bs, 1))
return 0;
// rounding_type
if (h->vop_coding_type == VOP_P)
get_bits(bs, 1);
h->intra_dc_vlc_thr = get_bits(bs, 3);
// assume default size of 5 bits
h->vop_quant = get_bits(bs, 5);
// vop_fcode_forward
if (h->vop_coding_type != VOP_I)
get_bits(bs, 3);
// vop_fcode_backward
if (h->vop_coding_type == VOP_B)
get_bits(bs, 3);
return 1;
}
static VdpStatus mpeg4_decode(decoder_ctx_t *decoder,
VdpPictureInfo const *_info,
const int len,
video_surface_ctx_t *output)
{
VdpPictureInfoMPEG4Part2 const *info = (VdpPictureInfoMPEG4Part2 const *)_info;
mpeg4_private_t *decoder_p = (mpeg4_private_t *)decoder->private;
if (!info->resync_marker_disable)
{
VDPAU_DBG("We can't decode VOPs with resync markers yet! Sorry");
return VDP_STATUS_ERROR;
}
VdpStatus ret = yuv_prepare(output);
if (ret != VDP_STATUS_OK)
return ret;
bitstream bs = { .data = cedrus_mem_get_pointer(decoder->data), .length = len, .bitpos = 0 };
while (find_startcode(&bs))
{
if (get_bits(&bs, 8) != 0xb6)
continue;
vop_header hdr;
if (!decode_vop_header(&bs, info, &hdr))
continue;
// activate MPEG engine
void *ve_regs = cedrus_ve_get(decoder->device->cedrus, CEDRUS_ENGINE_MPEG, 0);
// set buffers
writel(cedrus_mem_get_bus_addr(decoder_p->mbh_buffer), ve_regs + VE_MPEG_MBH_ADDR);
writel(cedrus_mem_get_bus_addr(decoder_p->dcac_buffer), ve_regs + VE_MPEG_DCAC_ADDR);
writel(cedrus_mem_get_bus_addr(decoder_p->ncf_buffer), ve_regs + VE_MPEG_NCF_ADDR);
// set output buffers
writel(cedrus_mem_get_bus_addr(output->yuv->data), ve_regs + VE_MPEG_REC_LUMA);
writel(cedrus_mem_get_bus_addr(output->yuv->data) + output->luma_size, ve_regs + VE_MPEG_REC_CHROMA);
writel(cedrus_mem_get_bus_addr(output->yuv->data), ve_regs + VE_MPEG_ROT_LUMA);
writel(cedrus_mem_get_bus_addr(output->yuv->data) + output->luma_size, ve_regs + VE_MPEG_ROT_CHROMA);
// ??
writel(0x40620000, ve_regs + VE_MPEG_SDROT_CTRL);
if (cedrus_get_ve_version(decoder->device->cedrus) >= 0x1680)
{
writel((0x2 << 30) | (0x1 << 28) | (output->chroma_size / 2), ve_regs + VE_EXTRA_OUT_FMT_OFFSET);
writel((0x2 << 4), ve_regs + 0x0ec);
writel(output->chroma_size / 2, ve_regs + 0x0c4);
writel((ALIGN(decoder->width / 2, 16) << 16) | ALIGN(decoder->width, 32), ve_regs + 0x0c8);
}
// set vop header
writel(((hdr.vop_coding_type == VOP_B ? 0x1 : 0x0) << 28)
| (info->quant_type << 24)
| (info->quarter_sample << 23)
| (info->resync_marker_disable << 22)
| (hdr.vop_coding_type << 18)
| (info->rounding_control << 17)
| (hdr.intra_dc_vlc_thr << 8)
| (info->top_field_first << 7)
| (info->alternate_vertical_scan_flag << 6)
| ((hdr.vop_coding_type != VOP_I ? info->vop_fcode_forward : 0) << 3)
| ((hdr.vop_coding_type == VOP_B ? info->vop_fcode_backward : 0) << 0)
, ve_regs + VE_MPEG_VOP_HDR);
// set size
uint16_t width = (decoder->width + 15) / 16;
uint16_t height = (decoder->height + 15) / 16;
writel((((width + 1) & ~0x1) << 16) | (width << 8) | height, ve_regs + VE_MPEG_SIZE);
writel(((width * 16) << 16) | (height * 16), ve_regs + VE_MPEG_FRAME_SIZE);
// ??
writel(0x0, ve_regs + VE_MPEG_MBA);
// enable interrupt, unknown control flags
writel(0x80084118 | (1 << 7) | ((hdr.vop_coding_type == VOP_P ? 0x1 : 0x0) << 12), ve_regs + VE_MPEG_CTRL);
// set quantization parameter
writel(hdr.vop_quant, ve_regs + VE_MPEG_QP_INPUT);
// set forward/backward predicion buffers
if (info->forward_reference != VDP_INVALID_HANDLE)
{
video_surface_ctx_t *forward = handle_get(info->forward_reference);
writel(cedrus_mem_get_bus_addr(forward->yuv->data), ve_regs + VE_MPEG_FWD_LUMA);
writel(cedrus_mem_get_bus_addr(forward->yuv->data) + forward->luma_size, ve_regs + VE_MPEG_FWD_CHROMA);
}
if (info->backward_reference != VDP_INVALID_HANDLE)
{
video_surface_ctx_t *backward = handle_get(info->backward_reference);
writel(cedrus_mem_get_bus_addr(backward->yuv->data), ve_regs + VE_MPEG_BACK_LUMA);
writel(cedrus_mem_get_bus_addr(backward->yuv->data) + backward->luma_size, ve_regs + VE_MPEG_BACK_CHROMA);
}
// set trb/trd
if (hdr.vop_coding_type == VOP_B)
{
writel((info->trb[0] << 16) | (info->trd[0] << 0), ve_regs + VE_MPEG_TRBTRD_FRAME);
// unverified:
writel((info->trb[1] << 16) | (info->trd[1] << 0), ve_regs + VE_MPEG_TRBTRD_FIELD);
}
// clear status
writel(0xffffffff, ve_regs + VE_MPEG_STATUS);
// set input offset in bits
writel(bs.bitpos, ve_regs + VE_MPEG_VLD_OFFSET);
// set input length in bits
writel(len * 8 - bs.bitpos, ve_regs + VE_MPEG_VLD_LEN);
// input end
uint32_t input_addr = cedrus_mem_get_bus_addr(decoder->data);
writel(input_addr + VBV_SIZE - 1, ve_regs + VE_MPEG_VLD_END);
// set input buffer
writel((input_addr & 0x0ffffff0) | (input_addr >> 28) | (0x7 << 28), ve_regs + VE_MPEG_VLD_ADDR);
// trigger
writel(0x8400000d | ((width * height) << 8), ve_regs + VE_MPEG_TRIGGER);
cedrus_ve_wait(decoder->device->cedrus, 1);
// clear status
writel(readl(ve_regs + VE_MPEG_STATUS) | 0xf, ve_regs + VE_MPEG_STATUS);
// stop MPEG engine
cedrus_ve_put(decoder->device->cedrus);
}
return VDP_STATUS_OK;
}
VdpStatus new_decoder_mpeg4(decoder_ctx_t *decoder)
{
mpeg4_private_t *decoder_p = calloc(1, sizeof(mpeg4_private_t));
if (!decoder_p)
goto err_priv;
int width = ((decoder->width + 15) / 16);
int height = ((decoder->height + 15) / 16);
decoder_p->mbh_buffer = cedrus_mem_alloc(decoder->device->cedrus, height * 2048);
if (!decoder_p->mbh_buffer)
goto err_mbh;
decoder_p->dcac_buffer = cedrus_mem_alloc(decoder->device->cedrus, width * height * 2);
if (!decoder_p->dcac_buffer)
goto err_dcac;
decoder_p->ncf_buffer = cedrus_mem_alloc(decoder->device->cedrus, 4 * 1024);
if (!decoder_p->ncf_buffer)
goto err_ncf;
decoder->decode = mpeg4_decode;
decoder->private = decoder_p;
decoder->private_free = mpeg4_private_free;
return VDP_STATUS_OK;
err_ncf:
cedrus_mem_free(decoder_p->dcac_buffer);
err_dcac:
cedrus_mem_free(decoder_p->mbh_buffer);
err_mbh:
free(decoder_p);
err_priv:
return VDP_STATUS_RESOURCES;
}