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|
/*
* Copyright © 2008 Intel Corporation
*
* 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 (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 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.
*
* Author:
* Zou Nan hai <nanhai.zou@intel.com>
*
*/
#include "i965_xvmc.h"
#include "i810_reg.h"
#include "brw_defines.h"
#include "brw_structs.h"
#include "intel_batchbuffer.h"
#include "i965_hwmc.h"
#define BATCH_STRUCT(x) intelBatchbufferData(&x, sizeof(x), 0)
#define URB_SIZE 256 /* XXX */
enum interface {
INTRA_INTERFACE, /* non field intra */
NULL_INTERFACE, /* fill with white, do nothing, for debug */
FORWARD_INTERFACE, /* non field forward predict */
BACKWARD_INTERFACE, /* non field backward predict */
F_B_INTERFACE, /* non field forward and backward predict */
FIELD_INTRA_INTERFACE, /* field intra */
FIELD_FORWARD_INTERFACE, /* field forward predict */
FIELD_BACKWARD_INTERFACE, /* field backward predict */
FIELD_F_B_INTERFACE, /* field forward and backward predict */
DUAL_PRIME_INTERFACE
};
static const uint32_t ipicture_kernel_static[][4] = {
#include "ipicture.g4b"
};
static const uint32_t null_kernel_static[][4] = {
#include "null.g4b"
};
static const uint32_t frame_forward_kernel_static[][4] = {
#include "frame_forward.g4b"
};
static const uint32_t frame_backward_kernel_static[][4] = {
#include "frame_backward.g4b"
};
static const uint32_t frame_f_b_kernel_static[][4] = {
#include "frame_f_b.g4b"
};
static const uint32_t field_forward_kernel_static[][4] = {
#include "field_forward.g4b"
};
static const uint32_t field_backward_kernel_static[][4] = {
#include "field_backward.g4b"
};
static const uint32_t field_f_b_kernel_static[][4] = {
#include "field_f_b.g4b"
};
static const uint32_t dual_prime_kernel_static[][4]= {
#include "dual_prime.g4b"
};
static const uint32_t frame_forward_igd_kernel_static[][4] = {
#include "frame_forward_igd.g4b"
};
static const uint32_t frame_backward_igd_kernel_static[][4] = {
#include "frame_backward_igd.g4b"
};
static const uint32_t frame_f_b_igd_kernel_static[][4] = {
#include "frame_f_b_igd.g4b"
};
static const uint32_t field_forward_igd_kernel_static[][4] = {
#include "field_forward_igd.g4b"
};
static const uint32_t field_backward_igd_kernel_static[][4] = {
#include "field_backward_igd.g4b"
};
static const uint32_t field_f_b_igd_kernel_static[][4] = {
#include "field_f_b_igd.g4b"
};
static const uint32_t dual_prime_igd_kernel_static[][4]= {
#include "dual_prime_igd.g4b"
};
#define ALIGN(i,m) (((i) + (m) - 1) & ~((m) - 1))
#define VFE_GENERIC_MODE 0x0
#define VFE_VLD_MODE 0x1
#define VFE_IS_MODE 0x2
#define VFE_AVC_MC_MODE 0x4
#define VFE_AVC_IT_MODE 0x7
#define VFE_VC1_IT_MODE 0x7
#define MAX_SURFACE_NUM 10
#define DESCRIPTOR_NUM 12
struct media_state {
unsigned long state_base;
void *state_ptr;
unsigned int binding_table_entry_count;
unsigned long vfe_state_offset;
unsigned long interface_descriptor_offset[DESCRIPTOR_NUM];
unsigned long ipicture_kernel_offset;
unsigned long frame_forward_kernel_offset;
unsigned long frame_backward_kernel_offset;
unsigned long frame_f_b_kernel_offset;
unsigned long ipicture_field_kernel_offset;
unsigned long field_forward_kernel_offset;
unsigned long field_backward_kernel_offset;
unsigned long field_f_b_kernel_offset;
unsigned long dual_prime_kernel_offset;
unsigned long null_kernel_offset;
unsigned long surface_offsets[MAX_SURFACE_NUM];
unsigned long binding_table_offset;
unsigned int is_g4x:1;
unsigned int is_965_q:1;
};
struct media_state media_state;
static int map_buffer(struct drm_memory_block *mem)
{
return (drmMap(xvmc_driver->fd,
mem->handle, mem->size, &mem->ptr));
}
static void unmap_buffer(struct drm_memory_block *mem)
{
drmUnmap(mem->ptr, mem->size);
}
static Status destroy_context(Display *display, XvMCContext *context)
{
struct i965_xvmc_context *private_context;
private_context = context->privData;
unmap_buffer(&private_context->static_buffer);
unmap_buffer(&private_context->blocks);
Xfree(private_context);
return Success;
}
static Status create_surface(Display *display,
XvMCContext *context, XvMCSurface *surface, int priv_count,
CARD32 *priv_data)
{
struct i965_xvmc_surface *priv_surface =
(struct i965_xvmc_surface *)priv_data;
if (map_buffer(&priv_surface->buffer))
return BadAlloc;
surface->privData = priv_data;
return Success;
}
static Status destroy_surface(Display *display, XvMCSurface *surface)
{
struct i965_xvmc_surface *priv_surface =
surface->privData;
unmap_buffer(&priv_surface->buffer);
return Success;
}
static void flush()
{
struct brw_mi_flush flush;
memset(&flush, 0, sizeof(flush));
flush.opcode = CMD_MI_FLUSH;
BATCH_STRUCT(flush);
}
static void clear_sf_state()
{
struct brw_sf_unit_state sf;
memset(&sf, 0, sizeof(sf));
/* TODO */
}
/* urb fence must be aligned to cacheline */
static void align_urb_fence()
{
BATCH_LOCALS;
int i, offset_to_next_cacheline;
unsigned long batch_offset;
BEGIN_BATCH(3);
batch_offset = (void *)batch_ptr - xvmc_driver->alloc.ptr;
offset_to_next_cacheline = ALIGN(batch_offset, 64) - batch_offset;
if (offset_to_next_cacheline <= 12 && offset_to_next_cacheline != 0) {
for (i = 0; i < offset_to_next_cacheline/4; i++)
OUT_BATCH(0);
ADVANCE_BATCH();
}
}
/* setup urb layout for media */
static void urb_layout()
{
BATCH_LOCALS;
align_urb_fence();
BEGIN_BATCH(3);
OUT_BATCH(BRW_URB_FENCE |
UF0_VFE_REALLOC |
UF0_CS_REALLOC |
1);
OUT_BATCH(0);
OUT_BATCH(((URB_SIZE)<< UF2_VFE_FENCE_SHIFT) | /* VFE_SIZE */
((URB_SIZE)<< UF2_CS_FENCE_SHIFT)); /* CS_SIZE is 0 */
ADVANCE_BATCH();
}
/* clear previous urb layout */
static void clear_urb_state()
{
BATCH_LOCALS;
align_urb_fence();
BEGIN_BATCH(3);
OUT_BATCH(BRW_URB_FENCE |
UF0_CS_REALLOC |
UF0_SF_REALLOC |
UF0_CLIP_REALLOC |
UF0_GS_REALLOC |
UF0_VS_REALLOC |
1);
OUT_BATCH((0 << UF1_CLIP_FENCE_SHIFT) |
(0 << UF1_GS_FENCE_SHIFT) |
(0 << UF1_VS_FENCE_SHIFT));
OUT_BATCH((0 << UF2_CS_FENCE_SHIFT) |
(0 << UF2_SF_FENCE_SHIFT));
ADVANCE_BATCH();
}
static void media_state_pointers(struct media_state *media_state)
{
BATCH_LOCALS;
BEGIN_BATCH(3);
OUT_BATCH(BRW_MEDIA_STATE_POINTERS|1);
OUT_BATCH(0);
OUT_BATCH(media_state->vfe_state_offset);
ADVANCE_BATCH();
}
static void cs_urb_layout()
{
BATCH_LOCALS;
BEGIN_BATCH(2);
OUT_BATCH(BRW_CS_URB_STATE | 0);
OUT_BATCH((0 << 4) | /* URB Entry Allocation Size */
(0 << 0)); /* Number of URB Entries */
ADVANCE_BATCH();
}
/* setup 2D surface for media_read or media_write
*/
static void setup_media_surface(struct media_state *media_state,
int surface_num, unsigned long offset, int w, int h)
{
struct brw_surface_state *ss;
ss = media_state->state_ptr +
(media_state->surface_offsets[surface_num] - media_state->state_base);
memset(ss, 0, sizeof(struct brw_surface_state));
ss->ss0.surface_type = BRW_SURFACE_2D;
ss->ss0.surface_format = BRW_SURFACEFORMAT_R8_SINT;
ss->ss1.base_addr = offset;
ss->ss2.width = w - 1;
ss->ss2.height = h - 1;
ss->ss3.pitch = w - 1;
}
static void setup_surfaces(struct media_state *media_state,
unsigned long dst_offset, unsigned long past_offset,
unsigned long future_offset,
int w, int h)
{
setup_media_surface(media_state, 0, dst_offset, w, h);
setup_media_surface(media_state, 1, dst_offset+w*h, w/2, h/2);
setup_media_surface(media_state, 2, dst_offset+w*h + w*h/4, w/2, h/2);
if (past_offset) {
setup_media_surface(media_state, 4, past_offset, w, h);
setup_media_surface(media_state, 5, past_offset+w*h, w/2, h/2);
setup_media_surface(media_state, 6, past_offset+w*h + w*h/4, w/2, h/2);
}
if (future_offset) {
setup_media_surface(media_state, 7, future_offset, w, h);
setup_media_surface(media_state, 8, future_offset+w*h, w/2, h/2);
setup_media_surface(media_state, 9, future_offset+w*h + w*h/4, w/2, h/2);
}
}
/* BUFFER SURFACE has a strange format
* the size of the surface is in part of w h and d component
*/
static void setup_blocks(struct media_state *media_state,
unsigned long offset, unsigned int block_size)
{
union element{
struct {
unsigned int w:7;
unsigned int h:13;
unsigned int d:7;
unsigned int pad:7;
}whd;
unsigned int size;
}e;
struct brw_surface_state *ss;
ss = media_state->state_ptr +
(media_state->surface_offsets[3] - media_state->state_base);
memset(ss, 0, sizeof(struct brw_surface_state));
ss->ss0.surface_type = BRW_SURFACE_BUFFER;
ss->ss0.surface_format = BRW_SURFACEFORMAT_R8_UINT;
ss->ss1.base_addr = offset;
e.size = block_size - 1;
ss->ss2.width = e.whd.w;
ss->ss2.height = e.whd.h;
ss->ss3.depth = e.whd.d;
ss->ss3.pitch = block_size - 1;
}
/* setup state base address */
static void state_base_address(int offset)
{
BATCH_LOCALS;
BEGIN_BATCH(6);
OUT_BATCH(BRW_STATE_BASE_ADDRESS | 4);
OUT_BATCH(0 | BASE_ADDRESS_MODIFY);
OUT_BATCH(0 | BASE_ADDRESS_MODIFY);
OUT_BATCH(0 | BASE_ADDRESS_MODIFY);
OUT_BATCH(0 | BASE_ADDRESS_MODIFY);
OUT_BATCH((0xFFFFF<<12) | BASE_ADDRESS_MODIFY);
ADVANCE_BATCH();
}
/* select media pipeline */
static void pipeline_select(struct media_state *media_state)
{
BATCH_LOCALS;
BEGIN_BATCH(1);
if (media_state->is_g4x)
OUT_BATCH(NEW_PIPELINE_SELECT | PIPELINE_SELECT_MEDIA);
else
OUT_BATCH(BRW_PIPELINE_SELECT | PIPELINE_SELECT_MEDIA);
ADVANCE_BATCH();
}
/* kick media object to gpu */
static void send_media_object(XvMCMacroBlock *mb, int offset, enum interface interface)
{
BATCH_LOCALS;
BEGIN_BATCH(13);
OUT_BATCH(BRW_MEDIA_OBJECT|11);
OUT_BATCH(interface);
if (media_state.is_965_q) {
OUT_BATCH(0);
OUT_BATCH(0);
}else {
OUT_BATCH(6*128);
OUT_BATCH(offset);
}
OUT_BATCH(mb->x<<4); //g1.0
OUT_BATCH(mb->y<<4);
OUT_BATCH(offset); //g1.8
OUT_BATCH_SHORT(mb->coded_block_pattern); //g1.12
OUT_BATCH_SHORT(mb->PMV[0][0][0]); //g1.14
OUT_BATCH_SHORT(mb->PMV[0][0][1]); //g1.16
OUT_BATCH_SHORT(mb->PMV[0][1][0]); //g1.18
OUT_BATCH_SHORT(mb->PMV[0][1][1]); //g1.20
OUT_BATCH_SHORT(mb->PMV[1][0][0]); //g1.22
OUT_BATCH_SHORT(mb->PMV[1][0][1]); //g1.24
OUT_BATCH_SHORT(mb->PMV[1][1][0]); //g1.26
OUT_BATCH_SHORT(mb->PMV[1][1][1]); //g1.28
OUT_BATCH_CHAR(mb->dct_type); //g1.30
OUT_BATCH_CHAR(mb->motion_vertical_field_select);//g1.31
if (media_state.is_965_q)
OUT_BATCH(0x0);
else
OUT_BATCH(0xffffffff);
ADVANCE_BATCH();
}
static void binding_tables(struct media_state *media_state)
{
unsigned int *binding_table;
int i;
binding_table = media_state->state_ptr +
(media_state->binding_table_offset - media_state->state_base);
for (i = 0; i < MAX_SURFACE_NUM; i++)
binding_table[i] = media_state->surface_offsets[i];
}
static void media_kernels(struct media_state *media_state)
{
void *kernel;
#define LOAD_KERNEL(name) kernel = media_state->state_ptr +\
(media_state->name##_kernel_offset - media_state->state_base);\
memcpy(kernel, name##_kernel_static, sizeof(name##_kernel_static));
#define LOAD_KERNEL_IGD(name) kernel = media_state->state_ptr +\
(media_state->name##_kernel_offset - media_state->state_base);\
memcpy(kernel, name##_igd_kernel_static, sizeof(name##_igd_kernel_static));
LOAD_KERNEL(ipicture);
LOAD_KERNEL(null);
if (media_state->is_g4x) {
LOAD_KERNEL_IGD(frame_forward);
LOAD_KERNEL_IGD(field_forward);
LOAD_KERNEL_IGD(frame_backward);
LOAD_KERNEL_IGD(field_backward);
LOAD_KERNEL_IGD(frame_f_b);
LOAD_KERNEL_IGD(field_f_b);
LOAD_KERNEL_IGD(dual_prime);
}else {
LOAD_KERNEL(frame_forward);
LOAD_KERNEL(field_forward);
LOAD_KERNEL(frame_backward);
LOAD_KERNEL(field_backward);
LOAD_KERNEL(frame_f_b);
LOAD_KERNEL(field_f_b);
LOAD_KERNEL(dual_prime);
}
}
static void setup_interface(struct media_state *media_state,
enum interface interface, unsigned int kernel_offset)
{
struct brw_interface_descriptor *desc;
desc = media_state->state_ptr +
(media_state->interface_descriptor_offset[interface]
- media_state->state_base);
memset(desc, 0, sizeof(*desc));
desc->desc0.grf_reg_blocks = 15;
desc->desc0.kernel_start_pointer = kernel_offset >> 6;
desc->desc1.floating_point_mode = BRW_FLOATING_POINT_NON_IEEE_754;
/* use same binding table for all interface
* may change this if it affect performance
*/
desc->desc3.binding_table_entry_count = MAX_SURFACE_NUM;
desc->desc3.binding_table_pointer = media_state->binding_table_offset >> 5;
}
static void interface_descriptor(struct media_state *media_state)
{
setup_interface(media_state, INTRA_INTERFACE,
media_state->ipicture_kernel_offset);
setup_interface(media_state, NULL_INTERFACE,
media_state->null_kernel_offset);
setup_interface(media_state, FORWARD_INTERFACE,
media_state->frame_forward_kernel_offset);
setup_interface(media_state, FIELD_FORWARD_INTERFACE,
media_state->field_forward_kernel_offset);
setup_interface(media_state, BACKWARD_INTERFACE,
media_state->frame_backward_kernel_offset);
setup_interface(media_state, FIELD_BACKWARD_INTERFACE,
media_state->field_backward_kernel_offset);
setup_interface(media_state, F_B_INTERFACE,
media_state->frame_f_b_kernel_offset);
setup_interface(media_state, FIELD_F_B_INTERFACE,
media_state->field_f_b_kernel_offset);
setup_interface(media_state, DUAL_PRIME_INTERFACE,
media_state->dual_prime_kernel_offset);
}
static void vfe_state(struct media_state *media_state)
{
struct brw_vfe_state *state;
state = media_state->state_ptr +
(media_state->vfe_state_offset - media_state->state_base);
memset(state, 0, sizeof(*state));
/* no scratch space */
state->vfe1.vfe_mode = VFE_GENERIC_MODE;
state->vfe1.num_urb_entries = 1;
/* XXX TODO */
/* should carefully caculate those values for performance */
state->vfe1.urb_entry_alloc_size = 2;
state->vfe1.max_threads = 31;
state->vfe2.interface_descriptor_base =
media_state->interface_descriptor_offset[0] >> 4;
}
static void calc_state_layouts(struct media_state *media_state)
{
int i;
media_state->vfe_state_offset = ALIGN(media_state->state_base, 64);
media_state->interface_descriptor_offset[0] =
ALIGN(media_state->vfe_state_offset + sizeof(struct brw_vfe_state), 64);
for (i = 1; i < DESCRIPTOR_NUM; i++)
media_state->interface_descriptor_offset[i] =
media_state->interface_descriptor_offset[i-1]
+ sizeof(struct brw_interface_descriptor);
media_state->binding_table_offset =
ALIGN(media_state->interface_descriptor_offset[DESCRIPTOR_NUM - 1]
+ sizeof(struct brw_interface_descriptor), 64);
media_state->surface_offsets[0] =
ALIGN(media_state->binding_table_offset
+ 4*media_state->binding_table_entry_count , 32);
for (i = 1; i < MAX_SURFACE_NUM; i++)
media_state->surface_offsets[i] =
ALIGN(media_state->surface_offsets[i - 1]
+ sizeof(struct brw_surface_state) , 32);
media_state->ipicture_kernel_offset =
ALIGN(media_state->surface_offsets[MAX_SURFACE_NUM - 1]
+ sizeof(struct brw_surface_state) , 64);
media_state->frame_forward_kernel_offset =
ALIGN(media_state->ipicture_kernel_offset +
sizeof(ipicture_kernel_static), 64);
if(!media_state->is_g4x) {
media_state->field_forward_kernel_offset =
ALIGN(media_state->frame_forward_kernel_offset +
sizeof(frame_forward_kernel_static), 64);
media_state->frame_backward_kernel_offset =
ALIGN(media_state->field_forward_kernel_offset +
sizeof(field_forward_kernel_static), 64);
media_state->field_backward_kernel_offset =
ALIGN(media_state->frame_backward_kernel_offset +
sizeof(frame_backward_kernel_static), 64);
media_state->frame_f_b_kernel_offset =
ALIGN(media_state->field_backward_kernel_offset +
sizeof(field_backward_kernel_static), 64);
media_state->field_f_b_kernel_offset =
ALIGN(media_state->frame_f_b_kernel_offset +
sizeof(frame_f_b_kernel_static), 64);
media_state->null_kernel_offset =
ALIGN(media_state->field_f_b_kernel_offset +
sizeof(field_f_b_kernel_static), 64);
media_state->dual_prime_kernel_offset =
ALIGN(media_state->null_kernel_offset +
sizeof(null_kernel_static), 64);
} else {
media_state->field_forward_kernel_offset =
ALIGN(media_state->frame_forward_kernel_offset +
sizeof(frame_forward_igd_kernel_static), 64);
media_state->frame_backward_kernel_offset =
ALIGN(media_state->field_forward_kernel_offset +
sizeof(field_forward_igd_kernel_static), 64);
media_state->field_backward_kernel_offset =
ALIGN(media_state->frame_backward_kernel_offset +
sizeof(frame_backward_igd_kernel_static), 64);
media_state->frame_f_b_kernel_offset =
ALIGN(media_state->field_backward_kernel_offset +
sizeof(field_backward_igd_kernel_static), 64);
media_state->field_f_b_kernel_offset =
ALIGN(media_state->frame_f_b_kernel_offset +
sizeof(frame_f_b_igd_kernel_static), 64);
media_state->null_kernel_offset =
ALIGN(media_state->field_f_b_kernel_offset +
sizeof(field_f_b_igd_kernel_static), 64);
media_state->dual_prime_kernel_offset =
ALIGN(media_state->null_kernel_offset +
sizeof(null_kernel_static), 64);
}
}
static Status render_surface(Display *display,
XvMCContext *context,
unsigned int picture_structure,
XvMCSurface *target_surface,
XvMCSurface *past_surface,
XvMCSurface *future_surface,
unsigned int flags,
unsigned int num_macroblocks,
unsigned int first_macroblock,
XvMCMacroBlockArray *macroblock_array,
XvMCBlockArray *blocks)
{
intel_xvmc_context_ptr intel_ctx;
int i, j;
struct i965_xvmc_context *i965_ctx;
XvMCMacroBlock *mb;
struct i965_xvmc_surface *priv_target_surface =
target_surface->privData;
struct i965_xvmc_surface *priv_past_surface =
past_surface?past_surface->privData:0;
struct i965_xvmc_surface *priv_future_surface =
future_surface?future_surface->privData:0;
unsigned short *block_ptr;
intel_ctx = intel_xvmc_find_context(context->context_id);
i965_ctx = context->privData;
if (!intel_ctx) {
XVMC_ERR("Can't find intel xvmc context\n");
return BadValue;
}
setup_surfaces(&media_state,
priv_target_surface->buffer.offset,
past_surface? priv_past_surface->buffer.offset:0,
future_surface?priv_future_surface->buffer.offset:0,
context->width, context->height);
block_ptr = i965_ctx->blocks.ptr;
for (i = first_macroblock;
i < num_macroblocks + first_macroblock; i++) {
unsigned short *mb_block_ptr;
mb = ¯oblock_array->macro_blocks[i];
mb_block_ptr = &blocks->blocks[(mb->index<<6)];
if (mb->coded_block_pattern & 0x20) {
for (j = 0; j < 8; j++)
memcpy(block_ptr + 16*j, mb_block_ptr + 8*j, 16);
mb_block_ptr += 64;
}
if (mb->coded_block_pattern & 0x10) {
for (j = 0; j < 8; j++)
memcpy(block_ptr + 16*j + 8, mb_block_ptr + 8*j, 16);
mb_block_ptr += 64;
}
block_ptr += 2*64;
if (mb->coded_block_pattern & 0x08) {
for (j = 0; j < 8; j++)
memcpy(block_ptr + 16*j, mb_block_ptr + 8*j, 16);
mb_block_ptr += 64;
}
if (mb->coded_block_pattern & 0x04) {
for (j = 0; j < 8; j++)
memcpy(block_ptr + 16*j + 8, mb_block_ptr + 8*j, 16);
mb_block_ptr += 64;
}
block_ptr += 2*64;
if (mb->coded_block_pattern & 0x2) {
memcpy(block_ptr, mb_block_ptr, 128);
mb_block_ptr += 64;
}
block_ptr += 64;
if (mb->coded_block_pattern & 0x1)
memcpy(block_ptr, mb_block_ptr, 128);
block_ptr += 64;
}
{
int block_offset;
block_offset = media_state.is_965_q?0:i965_ctx->blocks.offset;
LOCK_HARDWARE(intel_ctx->hw_context);
state_base_address(block_offset);
flush();
clear_sf_state();
clear_urb_state();
pipeline_select(&media_state);
urb_layout();
media_state_pointers(&media_state);
cs_urb_layout();
for (i = first_macroblock;
i < num_macroblocks + first_macroblock;
i++, block_offset += 128*6) {
mb = ¯oblock_array->macro_blocks[i];
if (mb->macroblock_type & XVMC_MB_TYPE_INTRA) {
send_media_object(mb, block_offset, INTRA_INTERFACE);
} else {
if (((mb->motion_type & 3) == XVMC_PREDICTION_FRAME)) {
if ((mb->macroblock_type&XVMC_MB_TYPE_MOTION_FORWARD))
{
if (((mb->macroblock_type&XVMC_MB_TYPE_MOTION_BACKWARD)))
send_media_object(mb, block_offset, F_B_INTERFACE);
else
send_media_object(mb, block_offset, FORWARD_INTERFACE);
} else if ((mb->macroblock_type&XVMC_MB_TYPE_MOTION_BACKWARD))
{
send_media_object(mb, block_offset, BACKWARD_INTERFACE);
}
} else if ((mb->motion_type & 3) == XVMC_PREDICTION_FIELD) {
if ((mb->macroblock_type&XVMC_MB_TYPE_MOTION_FORWARD))
{
if (((mb->macroblock_type&XVMC_MB_TYPE_MOTION_BACKWARD)))
send_media_object(mb, block_offset, FIELD_F_B_INTERFACE);
else
send_media_object(mb, block_offset, FIELD_FORWARD_INTERFACE);
} else if ((mb->macroblock_type&XVMC_MB_TYPE_MOTION_BACKWARD))
{
send_media_object(mb, block_offset, FIELD_BACKWARD_INTERFACE);
}
}else {
send_media_object(mb, block_offset, DUAL_PRIME_INTERFACE);
}
}
}
intelFlushBatch(TRUE);
UNLOCK_HARDWARE(intel_ctx->hw_context);
}
return Success;
}
static Status put_surface(Display *display,XvMCSurface *surface,
Drawable draw, short srcx, short srcy,
unsigned short srcw, unsigned short srch,
short destx, short desty,
unsigned short destw, unsigned short desth,
int flags, struct intel_xvmc_command *data)
{
struct i965_xvmc_surface *private_surface =
surface->privData;
data->surf_offset = private_surface->buffer.offset;
return Success;
}
static Status get_surface_status(Display *display,
XvMCSurface *surface, int *stats)
{
*stats = 0;
return 0;
}
static Status create_context(Display *display, XvMCContext *context,
int priv_count, CARD32 *priv_data)
{
struct i965_xvmc_context *i965_ctx;
i965_ctx = (struct i965_xvmc_context *)priv_data;
context->privData = i965_ctx;
if (map_buffer(&i965_ctx->static_buffer))
return BadAlloc;
if(map_buffer(&i965_ctx->blocks))
return BadAlloc;
{
media_state.state_base = i965_ctx->static_buffer.offset;
media_state.state_ptr = i965_ctx->static_buffer.ptr;
media_state.is_g4x = i965_ctx->is_g4x;
media_state.is_965_q = i965_ctx->is_965_q;
media_state.binding_table_entry_count = MAX_SURFACE_NUM;
calc_state_layouts(&media_state);
vfe_state(&media_state);
interface_descriptor(&media_state);
media_kernels(&media_state);
setup_blocks(&media_state,
i965_ctx->blocks.offset,
6*context->width*context->height*sizeof(short));
binding_tables(&media_state);
}
return Success;
}
struct _intel_xvmc_driver i965_xvmc_mc_driver = {
.type = XVMC_I965_MPEG2_MC,
.create_context = create_context,
.destroy_context = destroy_context,
.create_surface = create_surface,
.destroy_surface = destroy_surface,
.render_surface = render_surface,
.put_surface = put_surface,
.get_surface_status = get_surface_status,
};
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