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|
/*
* Copyright 2010 Jerome Glisse <glisse@freedesktop.org>
*
* 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
* on 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 AUTHOR(S) AND/OR THEIR SUPPLIERS 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:
* Jerome Glisse
*/
#include "r600_hw_context_priv.h"
#include "r600d.h"
#include "util/u_memory.h"
#include <errno.h>
#include <unistd.h>
/* Get backends mask */
void r600_get_backend_mask(struct r600_context *ctx)
{
struct radeon_winsys_cs *cs = ctx->cs;
struct r600_resource *buffer;
uint32_t *results;
unsigned num_backends = ctx->screen->info.r600_num_backends;
unsigned i, mask = 0;
uint64_t va;
/* if backend_map query is supported by the kernel */
if (ctx->screen->info.r600_backend_map_valid) {
unsigned num_tile_pipes = ctx->screen->info.r600_num_tile_pipes;
unsigned backend_map = ctx->screen->info.r600_backend_map;
unsigned item_width, item_mask;
if (ctx->chip_class >= EVERGREEN) {
item_width = 4;
item_mask = 0x7;
} else {
item_width = 2;
item_mask = 0x3;
}
while(num_tile_pipes--) {
i = backend_map & item_mask;
mask |= (1<<i);
backend_map >>= item_width;
}
if (mask != 0) {
ctx->backend_mask = mask;
return;
}
}
/* otherwise backup path for older kernels */
/* create buffer for event data */
buffer = (struct r600_resource*)
pipe_buffer_create(&ctx->screen->screen, PIPE_BIND_CUSTOM,
PIPE_USAGE_STAGING, ctx->max_db*16);
if (!buffer)
goto err;
va = r600_resource_va(&ctx->screen->screen, (void*)buffer);
/* initialize buffer with zeroes */
results = ctx->ws->buffer_map(buffer->cs_buf, ctx->cs, PIPE_TRANSFER_WRITE);
if (results) {
memset(results, 0, ctx->max_db * 4 * 4);
ctx->ws->buffer_unmap(buffer->cs_buf);
/* emit EVENT_WRITE for ZPASS_DONE */
cs->buf[cs->cdw++] = PKT3(PKT3_EVENT_WRITE, 2, 0);
cs->buf[cs->cdw++] = EVENT_TYPE(EVENT_TYPE_ZPASS_DONE) | EVENT_INDEX(1);
cs->buf[cs->cdw++] = va;
cs->buf[cs->cdw++] = (va >> 32UL) & 0xFF;
cs->buf[cs->cdw++] = PKT3(PKT3_NOP, 0, 0);
cs->buf[cs->cdw++] = r600_context_bo_reloc(ctx, buffer, RADEON_USAGE_WRITE);
/* analyze results */
results = ctx->ws->buffer_map(buffer->cs_buf, ctx->cs, PIPE_TRANSFER_READ);
if (results) {
for(i = 0; i < ctx->max_db; i++) {
/* at least highest bit will be set if backend is used */
if (results[i*4 + 1])
mask |= (1<<i);
}
ctx->ws->buffer_unmap(buffer->cs_buf);
}
}
pipe_resource_reference((struct pipe_resource**)&buffer, NULL);
if (mask != 0) {
ctx->backend_mask = mask;
return;
}
err:
/* fallback to old method - set num_backends lower bits to 1 */
ctx->backend_mask = (~((uint32_t)0))>>(32-num_backends);
return;
}
static void r600_init_block(struct r600_context *ctx,
struct r600_block *block,
const struct r600_reg *reg, int index, int nreg,
unsigned opcode, unsigned offset_base)
{
int i = index;
int j, n = nreg;
/* initialize block */
block->flags = 0;
block->status |= R600_BLOCK_STATUS_DIRTY; /* dirty all blocks at start */
block->start_offset = reg[i].offset;
block->pm4[block->pm4_ndwords++] = PKT3(opcode, n, 0);
block->pm4[block->pm4_ndwords++] = (block->start_offset - offset_base) >> 2;
block->reg = &block->pm4[block->pm4_ndwords];
block->pm4_ndwords += n;
block->nreg = n;
block->nreg_dirty = n;
LIST_INITHEAD(&block->list);
LIST_INITHEAD(&block->enable_list);
for (j = 0; j < n; j++) {
if (reg[i+j].flags & REG_FLAG_DIRTY_ALWAYS) {
block->flags |= REG_FLAG_DIRTY_ALWAYS;
}
if (reg[i+j].flags & REG_FLAG_ENABLE_ALWAYS) {
if (!(block->status & R600_BLOCK_STATUS_ENABLED)) {
block->status |= R600_BLOCK_STATUS_ENABLED;
LIST_ADDTAIL(&block->enable_list, &ctx->enable_list);
LIST_ADDTAIL(&block->list,&ctx->dirty);
}
}
if (reg[i+j].flags & REG_FLAG_FLUSH_CHANGE) {
block->flags |= REG_FLAG_FLUSH_CHANGE;
}
if (reg[i+j].flags & REG_FLAG_NEED_BO) {
block->nbo++;
assert(block->nbo < R600_BLOCK_MAX_BO);
block->pm4_bo_index[j] = block->nbo;
block->pm4[block->pm4_ndwords++] = PKT3(PKT3_NOP, 0, 0);
block->pm4[block->pm4_ndwords++] = 0x00000000;
block->reloc[block->nbo].bo_pm4_index = block->pm4_ndwords - 1;
}
}
/* check that we stay in limit */
assert(block->pm4_ndwords < R600_BLOCK_MAX_REG);
}
int r600_context_add_block(struct r600_context *ctx, const struct r600_reg *reg, unsigned nreg,
unsigned opcode, unsigned offset_base)
{
struct r600_block *block;
struct r600_range *range;
int offset;
for (unsigned i = 0, n = 0; i < nreg; i += n) {
/* ignore new block balise */
if (reg[i].offset == GROUP_FORCE_NEW_BLOCK) {
n = 1;
continue;
}
/* register that need relocation are in their own group */
/* find number of consecutive registers */
n = 0;
offset = reg[i].offset;
while (reg[i + n].offset == offset) {
n++;
offset += 4;
if ((n + i) >= nreg)
break;
if (n >= (R600_BLOCK_MAX_REG - 2))
break;
}
/* allocate new block */
block = calloc(1, sizeof(struct r600_block));
if (block == NULL) {
return -ENOMEM;
}
ctx->nblocks++;
for (int j = 0; j < n; j++) {
range = &ctx->range[CTX_RANGE_ID(reg[i + j].offset)];
/* create block table if it doesn't exist */
if (!range->blocks)
range->blocks = calloc(1 << HASH_SHIFT, sizeof(void *));
if (!range->blocks)
return -1;
range->blocks[CTX_BLOCK_ID(reg[i + j].offset)] = block;
}
r600_init_block(ctx, block, reg, i, n, opcode, offset_base);
}
return 0;
}
static const struct r600_reg r600_context_reg_list[] = {
{R_028D24_DB_HTILE_SURFACE, 0, 0},
{R_028614_SPI_VS_OUT_ID_0, 0, 0},
{R_028618_SPI_VS_OUT_ID_1, 0, 0},
{R_02861C_SPI_VS_OUT_ID_2, 0, 0},
{R_028620_SPI_VS_OUT_ID_3, 0, 0},
{R_028624_SPI_VS_OUT_ID_4, 0, 0},
{R_028628_SPI_VS_OUT_ID_5, 0, 0},
{R_02862C_SPI_VS_OUT_ID_6, 0, 0},
{R_028630_SPI_VS_OUT_ID_7, 0, 0},
{R_028634_SPI_VS_OUT_ID_8, 0, 0},
{R_028638_SPI_VS_OUT_ID_9, 0, 0},
{R_0286C4_SPI_VS_OUT_CONFIG, 0, 0},
{GROUP_FORCE_NEW_BLOCK, 0, 0},
{R_028858_SQ_PGM_START_VS, REG_FLAG_NEED_BO, 0},
{GROUP_FORCE_NEW_BLOCK, 0, 0},
{R_028868_SQ_PGM_RESOURCES_VS, 0, 0},
{GROUP_FORCE_NEW_BLOCK, 0, 0},
{R_0288A4_SQ_PGM_RESOURCES_FS, 0, 0},
{R_0288DC_SQ_PGM_CF_OFFSET_FS, 0, 0},
{R_028644_SPI_PS_INPUT_CNTL_0, 0, 0},
{R_028648_SPI_PS_INPUT_CNTL_1, 0, 0},
{R_02864C_SPI_PS_INPUT_CNTL_2, 0, 0},
{R_028650_SPI_PS_INPUT_CNTL_3, 0, 0},
{R_028654_SPI_PS_INPUT_CNTL_4, 0, 0},
{R_028658_SPI_PS_INPUT_CNTL_5, 0, 0},
{R_02865C_SPI_PS_INPUT_CNTL_6, 0, 0},
{R_028660_SPI_PS_INPUT_CNTL_7, 0, 0},
{R_028664_SPI_PS_INPUT_CNTL_8, 0, 0},
{R_028668_SPI_PS_INPUT_CNTL_9, 0, 0},
{R_02866C_SPI_PS_INPUT_CNTL_10, 0, 0},
{R_028670_SPI_PS_INPUT_CNTL_11, 0, 0},
{R_028674_SPI_PS_INPUT_CNTL_12, 0, 0},
{R_028678_SPI_PS_INPUT_CNTL_13, 0, 0},
{R_02867C_SPI_PS_INPUT_CNTL_14, 0, 0},
{R_028680_SPI_PS_INPUT_CNTL_15, 0, 0},
{R_028684_SPI_PS_INPUT_CNTL_16, 0, 0},
{R_028688_SPI_PS_INPUT_CNTL_17, 0, 0},
{R_02868C_SPI_PS_INPUT_CNTL_18, 0, 0},
{R_028690_SPI_PS_INPUT_CNTL_19, 0, 0},
{R_028694_SPI_PS_INPUT_CNTL_20, 0, 0},
{R_028698_SPI_PS_INPUT_CNTL_21, 0, 0},
{R_02869C_SPI_PS_INPUT_CNTL_22, 0, 0},
{R_0286A0_SPI_PS_INPUT_CNTL_23, 0, 0},
{R_0286A4_SPI_PS_INPUT_CNTL_24, 0, 0},
{R_0286A8_SPI_PS_INPUT_CNTL_25, 0, 0},
{R_0286AC_SPI_PS_INPUT_CNTL_26, 0, 0},
{R_0286B0_SPI_PS_INPUT_CNTL_27, 0, 0},
{R_0286B4_SPI_PS_INPUT_CNTL_28, 0, 0},
{R_0286B8_SPI_PS_INPUT_CNTL_29, 0, 0},
{R_0286BC_SPI_PS_INPUT_CNTL_30, 0, 0},
{R_0286C0_SPI_PS_INPUT_CNTL_31, 0, 0},
{R_0286CC_SPI_PS_IN_CONTROL_0, 0, 0},
{R_0286D0_SPI_PS_IN_CONTROL_1, 0, 0},
{R_0286D8_SPI_INPUT_Z, 0, 0},
{GROUP_FORCE_NEW_BLOCK, 0, 0},
{R_028840_SQ_PGM_START_PS, REG_FLAG_NEED_BO, 0},
{GROUP_FORCE_NEW_BLOCK, 0, 0},
{R_028850_SQ_PGM_RESOURCES_PS, 0, 0},
{R_028854_SQ_PGM_EXPORTS_PS, 0, 0},
};
/* initialize */
void r600_context_fini(struct r600_context *ctx)
{
struct r600_block *block;
struct r600_range *range;
if (ctx->range) {
for (int i = 0; i < NUM_RANGES; i++) {
if (!ctx->range[i].blocks)
continue;
for (int j = 0; j < (1 << HASH_SHIFT); j++) {
block = ctx->range[i].blocks[j];
if (block) {
for (int k = 0, offset = block->start_offset; k < block->nreg; k++, offset += 4) {
range = &ctx->range[CTX_RANGE_ID(offset)];
range->blocks[CTX_BLOCK_ID(offset)] = NULL;
}
for (int k = 1; k <= block->nbo; k++) {
pipe_resource_reference((struct pipe_resource**)&block->reloc[k].bo, NULL);
}
free(block);
}
}
free(ctx->range[i].blocks);
}
}
free(ctx->blocks);
}
int r600_setup_block_table(struct r600_context *ctx)
{
/* setup block table */
int c = 0;
ctx->blocks = calloc(ctx->nblocks, sizeof(void*));
if (!ctx->blocks)
return -ENOMEM;
for (int i = 0; i < NUM_RANGES; i++) {
if (!ctx->range[i].blocks)
continue;
for (int j = 0, add; j < (1 << HASH_SHIFT); j++) {
if (!ctx->range[i].blocks[j])
continue;
add = 1;
for (int k = 0; k < c; k++) {
if (ctx->blocks[k] == ctx->range[i].blocks[j]) {
add = 0;
break;
}
}
if (add) {
assert(c < ctx->nblocks);
ctx->blocks[c++] = ctx->range[i].blocks[j];
j += (ctx->range[i].blocks[j]->nreg) - 1;
}
}
}
return 0;
}
int r600_context_init(struct r600_context *ctx)
{
int r;
/* add blocks */
r = r600_context_add_block(ctx, r600_context_reg_list,
Elements(r600_context_reg_list), PKT3_SET_CONTEXT_REG, R600_CONTEXT_REG_OFFSET);
if (r)
goto out_err;
r = r600_setup_block_table(ctx);
if (r)
goto out_err;
ctx->max_db = 4;
return 0;
out_err:
r600_context_fini(ctx);
return r;
}
void r600_need_cs_space(struct r600_context *ctx, unsigned num_dw,
boolean count_draw_in)
{
/* The number of dwords we already used in the CS so far. */
num_dw += ctx->cs->cdw;
if (count_draw_in) {
unsigned i;
/* The number of dwords all the dirty states would take. */
for (i = 0; i < R600_NUM_ATOMS; i++) {
if (ctx->atoms[i] && ctx->atoms[i]->dirty) {
num_dw += ctx->atoms[i]->num_dw;
#if R600_TRACE_CS
if (ctx->screen->trace_bo) {
num_dw += R600_TRACE_CS_DWORDS;
}
#endif
}
}
num_dw += ctx->pm4_dirty_cdwords;
/* The upper-bound of how much space a draw command would take. */
num_dw += R600_MAX_FLUSH_CS_DWORDS + R600_MAX_DRAW_CS_DWORDS;
#if R600_TRACE_CS
if (ctx->screen->trace_bo) {
num_dw += R600_TRACE_CS_DWORDS;
}
#endif
}
/* Count in queries_suspend. */
num_dw += ctx->num_cs_dw_nontimer_queries_suspend;
/* Count in streamout_end at the end of CS. */
num_dw += ctx->num_cs_dw_streamout_end;
/* Count in render_condition(NULL) at the end of CS. */
if (ctx->predicate_drawing) {
num_dw += 3;
}
/* SX_MISC */
if (ctx->chip_class <= R700) {
num_dw += 3;
}
/* Count in framebuffer cache flushes at the end of CS. */
num_dw += R600_MAX_FLUSH_CS_DWORDS;
/* The fence at the end of CS. */
num_dw += 10;
/* Flush if there's not enough space. */
if (num_dw > RADEON_MAX_CMDBUF_DWORDS) {
r600_flush(&ctx->context, NULL, RADEON_FLUSH_ASYNC);
}
}
void r600_context_dirty_block(struct r600_context *ctx,
struct r600_block *block,
int dirty, int index)
{
if ((index + 1) > block->nreg_dirty)
block->nreg_dirty = index + 1;
if ((dirty != (block->status & R600_BLOCK_STATUS_DIRTY)) || !(block->status & R600_BLOCK_STATUS_ENABLED)) {
block->status |= R600_BLOCK_STATUS_DIRTY;
ctx->pm4_dirty_cdwords += block->pm4_ndwords;
if (!(block->status & R600_BLOCK_STATUS_ENABLED)) {
block->status |= R600_BLOCK_STATUS_ENABLED;
LIST_ADDTAIL(&block->enable_list, &ctx->enable_list);
}
LIST_ADDTAIL(&block->list,&ctx->dirty);
if (block->flags & REG_FLAG_FLUSH_CHANGE) {
ctx->flags |= R600_CONTEXT_WAIT_3D_IDLE;
}
}
}
/**
* If reg needs a reloc, this function will add it to its block's reloc list.
* @return true if reg needs a reloc, false otherwise
*/
static bool r600_reg_set_block_reloc(struct r600_pipe_reg *reg)
{
unsigned reloc_id;
if (!reg->block->pm4_bo_index[reg->id]) {
return false;
}
/* find relocation */
reloc_id = reg->block->pm4_bo_index[reg->id];
pipe_resource_reference(
(struct pipe_resource**)®->block->reloc[reloc_id].bo,
®->bo->b.b);
reg->block->reloc[reloc_id].bo_usage = reg->bo_usage;
return true;
}
/**
* This function will emit all the registers in state directly to the command
* stream allowing you to bypass the r600_context dirty list.
*
* This is used for dispatching compute shaders to avoid mixing compute and
* 3D states in the context's dirty list.
*
* @param pkt_flags Should be either 0 or RADEON_CP_PACKET3_COMPUTE_MODE. This
* value will be passed on to r600_context_block_emit_dirty an or'd against
* the PKT3 headers.
*/
void r600_context_pipe_state_emit(struct r600_context *ctx,
struct r600_pipe_state *state,
unsigned pkt_flags)
{
unsigned i;
/* Mark all blocks as dirty:
* Since two registers can be in the same block, we need to make sure
* we mark all the blocks dirty before we emit any of them. If we were
* to mark blocks dirty and emit them in the same loop, like this:
*
* foreach (reg in state->regs) {
* mark_dirty(reg->block)
* emit_block(reg->block)
* }
*
* Then if we have two registers in this state that are in the same
* block, we would end up emitting that block twice.
*/
for (i = 0; i < state->nregs; i++) {
struct r600_pipe_reg *reg = &state->regs[i];
/* Mark all the registers in the block as dirty */
reg->block->nreg_dirty = reg->block->nreg;
reg->block->status |= R600_BLOCK_STATUS_DIRTY;
/* Update the reloc for this register if necessary. */
r600_reg_set_block_reloc(reg);
}
/* Emit the registers writes */
for (i = 0; i < state->nregs; i++) {
struct r600_pipe_reg *reg = &state->regs[i];
if (reg->block->status & R600_BLOCK_STATUS_DIRTY) {
r600_context_block_emit_dirty(ctx, reg->block, pkt_flags);
}
}
}
void r600_context_pipe_state_set(struct r600_context *ctx, struct r600_pipe_state *state)
{
struct r600_block *block;
int dirty;
for (int i = 0; i < state->nregs; i++) {
unsigned id;
struct r600_pipe_reg *reg = &state->regs[i];
block = reg->block;
id = reg->id;
dirty = block->status & R600_BLOCK_STATUS_DIRTY;
if (reg->value != block->reg[id]) {
block->reg[id] = reg->value;
dirty |= R600_BLOCK_STATUS_DIRTY;
}
if (block->flags & REG_FLAG_DIRTY_ALWAYS)
dirty |= R600_BLOCK_STATUS_DIRTY;
if (r600_reg_set_block_reloc(reg)) {
/* always force dirty for relocs for now */
dirty |= R600_BLOCK_STATUS_DIRTY;
}
if (dirty)
r600_context_dirty_block(ctx, block, dirty, id);
}
}
/**
* @param pkt_flags should be set to RADEON_CP_PACKET3_COMPUTE_MODE if this
* block will be used for compute shaders.
*/
void r600_context_block_emit_dirty(struct r600_context *ctx, struct r600_block *block,
unsigned pkt_flags)
{
struct radeon_winsys_cs *cs = ctx->cs;
int optional = block->nbo == 0 && !(block->flags & REG_FLAG_DIRTY_ALWAYS);
int cp_dwords = block->pm4_ndwords, start_dword = 0;
int new_dwords = 0;
int nbo = block->nbo;
if (block->nreg_dirty == 0 && optional) {
goto out;
}
if (nbo) {
for (int j = 0; j < block->nreg; j++) {
if (block->pm4_bo_index[j]) {
/* find relocation */
struct r600_block_reloc *reloc = &block->reloc[block->pm4_bo_index[j]];
if (reloc->bo) {
block->pm4[reloc->bo_pm4_index] =
r600_context_bo_reloc(ctx, reloc->bo, reloc->bo_usage);
} else {
block->pm4[reloc->bo_pm4_index] = 0;
}
nbo--;
if (nbo == 0)
break;
}
}
}
optional &= (block->nreg_dirty != block->nreg);
if (optional) {
new_dwords = block->nreg_dirty;
start_dword = cs->cdw;
cp_dwords = new_dwords + 2;
}
memcpy(&cs->buf[cs->cdw], block->pm4, cp_dwords * 4);
/* We are applying the pkt_flags after copying the register block to
* the the command stream, because it is possible this block will be
* emitted with a different pkt_flags, and we don't want to store the
* pkt_flags in the block.
*/
cs->buf[cs->cdw] |= pkt_flags;
cs->cdw += cp_dwords;
if (optional) {
uint32_t newword;
newword = cs->buf[start_dword];
newword &= PKT_COUNT_C;
newword |= PKT_COUNT_S(new_dwords);
cs->buf[start_dword] = newword;
}
out:
block->status ^= R600_BLOCK_STATUS_DIRTY;
block->nreg_dirty = 0;
LIST_DELINIT(&block->list);
}
void r600_flush_emit(struct r600_context *rctx)
{
struct radeon_winsys_cs *cs = rctx->cs;
unsigned cp_coher_cntl = 0;
unsigned wait_until = 0;
unsigned emit_flush = 0;
if (!rctx->flags) {
return;
}
if (rctx->chip_class >= R700 &&
(rctx->flags & R600_CONTEXT_FLUSH_AND_INV_CB_META)) {
cs->buf[cs->cdw++] = PKT3(PKT3_EVENT_WRITE, 0, 0);
cs->buf[cs->cdw++] = EVENT_TYPE(EVENT_TYPE_FLUSH_AND_INV_CB_META) | EVENT_INDEX(0);
}
if (rctx->flags & R600_CONTEXT_FLUSH_AND_INV) {
cs->buf[cs->cdw++] = PKT3(PKT3_EVENT_WRITE, 0, 0);
cs->buf[cs->cdw++] = EVENT_TYPE(EVENT_TYPE_CACHE_FLUSH_AND_INV_EVENT) | EVENT_INDEX(0);
if (rctx->chip_class >= EVERGREEN) {
cp_coher_cntl = S_0085F0_CB0_DEST_BASE_ENA(1) |
S_0085F0_CB1_DEST_BASE_ENA(1) |
S_0085F0_CB2_DEST_BASE_ENA(1) |
S_0085F0_CB3_DEST_BASE_ENA(1) |
S_0085F0_CB4_DEST_BASE_ENA(1) |
S_0085F0_CB5_DEST_BASE_ENA(1) |
S_0085F0_CB6_DEST_BASE_ENA(1) |
S_0085F0_CB7_DEST_BASE_ENA(1) |
S_0085F0_CB8_DEST_BASE_ENA(1) |
S_0085F0_CB9_DEST_BASE_ENA(1) |
S_0085F0_CB10_DEST_BASE_ENA(1) |
S_0085F0_CB11_DEST_BASE_ENA(1) |
S_0085F0_DB_DEST_BASE_ENA(1) |
S_0085F0_TC_ACTION_ENA(1) |
S_0085F0_CB_ACTION_ENA(1) |
S_0085F0_DB_ACTION_ENA(1) |
S_0085F0_SH_ACTION_ENA(1) |
S_0085F0_SMX_ACTION_ENA(1) |
S_0085F0_FULL_CACHE_ENA(1);
} else {
cp_coher_cntl = S_0085F0_SMX_ACTION_ENA(1) |
S_0085F0_SH_ACTION_ENA(1) |
S_0085F0_VC_ACTION_ENA(1) |
S_0085F0_TC_ACTION_ENA(1) |
S_0085F0_FULL_CACHE_ENA(1);
}
}
if (rctx->flags & R600_CONTEXT_INVAL_READ_CACHES) {
cp_coher_cntl |= S_0085F0_VC_ACTION_ENA(1) |
S_0085F0_TC_ACTION_ENA(1) |
S_0085F0_FULL_CACHE_ENA(1);
emit_flush = 1;
}
if (rctx->family >= CHIP_RV770 && rctx->flags & R600_CONTEXT_STREAMOUT_FLUSH) {
cp_coher_cntl |= S_0085F0_SO0_DEST_BASE_ENA(1) |
S_0085F0_SO1_DEST_BASE_ENA(1) |
S_0085F0_SO2_DEST_BASE_ENA(1) |
S_0085F0_SO3_DEST_BASE_ENA(1) |
S_0085F0_SMX_ACTION_ENA(1);
emit_flush = 1;
}
if (emit_flush) {
cs->buf[cs->cdw++] = PKT3(PKT3_SURFACE_SYNC, 3, 0);
cs->buf[cs->cdw++] = cp_coher_cntl; /* CP_COHER_CNTL */
cs->buf[cs->cdw++] = 0xffffffff; /* CP_COHER_SIZE */
cs->buf[cs->cdw++] = 0; /* CP_COHER_BASE */
cs->buf[cs->cdw++] = 0x0000000A; /* POLL_INTERVAL */
}
if (rctx->flags & R600_CONTEXT_WAIT_3D_IDLE) {
wait_until |= S_008040_WAIT_3D_IDLE(1);
}
if (rctx->flags & R600_CONTEXT_WAIT_CP_DMA_IDLE) {
wait_until |= S_008040_WAIT_CP_DMA_IDLE(1);
}
if (wait_until) {
/* wait for things to settle */
r600_write_config_reg(cs, R_008040_WAIT_UNTIL, wait_until);
}
/* everything is properly flushed */
rctx->flags = 0;
}
void r600_context_flush(struct r600_context *ctx, unsigned flags)
{
struct radeon_winsys_cs *cs = ctx->cs;
if (cs->cdw == ctx->start_cs_cmd.num_dw)
return;
ctx->nontimer_queries_suspended = false;
ctx->streamout_suspended = false;
/* suspend queries */
if (ctx->num_cs_dw_nontimer_queries_suspend) {
r600_suspend_nontimer_queries(ctx);
ctx->nontimer_queries_suspended = true;
}
if (ctx->num_cs_dw_streamout_end) {
r600_context_streamout_end(ctx);
ctx->streamout_suspended = true;
}
/* flush is needed to avoid lockups on some chips with user fences
* this will also flush the framebuffer cache
*/
ctx->flags |= R600_CONTEXT_FLUSH_AND_INV |
R600_CONTEXT_FLUSH_AND_INV_CB_META |
R600_CONTEXT_WAIT_3D_IDLE |
R600_CONTEXT_WAIT_CP_DMA_IDLE;
r600_flush_emit(ctx);
/* old kernels and userspace don't set SX_MISC, so we must reset it to 0 here */
if (ctx->chip_class <= R700) {
r600_write_context_reg(cs, R_028350_SX_MISC, 0);
}
/* force to keep tiling flags */
if (ctx->keep_tiling_flags) {
flags |= RADEON_FLUSH_KEEP_TILING_FLAGS;
}
/* Flush the CS. */
#if R600_TRACE_CS
if (ctx->screen->trace_bo) {
struct r600_screen *rscreen = ctx->screen;
unsigned i;
for (i = 0; i < cs->cdw; i++) {
fprintf(stderr, "[%4d] [%5d] 0x%08x\n", rscreen->cs_count, i, cs->buf[i]);
}
rscreen->cs_count++;
}
#endif
ctx->ws->cs_flush(ctx->cs, flags);
#if R600_TRACE_CS
if (ctx->screen->trace_bo) {
struct r600_screen *rscreen = ctx->screen;
unsigned i;
for (i = 0; i < 10; i++) {
usleep(5);
if (!ctx->ws->buffer_is_busy(rscreen->trace_bo->buf, RADEON_USAGE_READWRITE)) {
break;
}
}
if (i == 10) {
fprintf(stderr, "timeout on cs lockup likely happen at cs %d dw %d\n",
rscreen->trace_ptr[1], rscreen->trace_ptr[0]);
} else {
fprintf(stderr, "cs %d executed in %dms\n", rscreen->trace_ptr[1], i * 5);
}
}
#endif
r600_begin_new_cs(ctx);
}
void r600_begin_new_cs(struct r600_context *ctx)
{
struct r600_block *enable_block = NULL;
unsigned shader;
ctx->pm4_dirty_cdwords = 0;
ctx->flags = 0;
/* Begin a new CS. */
r600_emit_command_buffer(ctx->cs, &ctx->start_cs_cmd);
/* Re-emit states. */
ctx->alphatest_state.atom.dirty = true;
ctx->blend_color.atom.dirty = true;
ctx->cb_misc_state.atom.dirty = true;
ctx->clip_misc_state.atom.dirty = true;
ctx->clip_state.atom.dirty = true;
ctx->db_misc_state.atom.dirty = true;
ctx->db_state.atom.dirty = true;
ctx->framebuffer.atom.dirty = true;
ctx->poly_offset_state.atom.dirty = true;
ctx->vgt_state.atom.dirty = true;
ctx->vgt2_state.atom.dirty = true;
ctx->sample_mask.atom.dirty = true;
ctx->scissor.atom.dirty = true;
ctx->config_state.atom.dirty = true;
ctx->stencil_ref.atom.dirty = true;
ctx->vertex_fetch_shader.atom.dirty = true;
ctx->viewport.atom.dirty = true;
if (ctx->blend_state.cso)
ctx->blend_state.atom.dirty = true;
if (ctx->dsa_state.cso)
ctx->dsa_state.atom.dirty = true;
if (ctx->rasterizer_state.cso)
ctx->rasterizer_state.atom.dirty = true;
if (ctx->chip_class <= R700) {
ctx->seamless_cube_map.atom.dirty = true;
}
ctx->vertex_buffer_state.dirty_mask = ctx->vertex_buffer_state.enabled_mask;
r600_vertex_buffers_dirty(ctx);
/* Re-emit shader resources. */
for (shader = 0; shader < PIPE_SHADER_TYPES; shader++) {
struct r600_constbuf_state *constbuf = &ctx->constbuf_state[shader];
struct r600_textures_info *samplers = &ctx->samplers[shader];
constbuf->dirty_mask = constbuf->enabled_mask;
samplers->views.dirty_mask = samplers->views.enabled_mask;
samplers->states.dirty_mask = samplers->states.enabled_mask;
r600_constant_buffers_dirty(ctx, constbuf);
r600_sampler_views_dirty(ctx, &samplers->views);
r600_sampler_states_dirty(ctx, &samplers->states);
}
if (ctx->streamout_suspended) {
ctx->streamout_start = TRUE;
ctx->streamout_append_bitmask = ~0;
}
/* resume queries */
if (ctx->nontimer_queries_suspended) {
r600_resume_nontimer_queries(ctx);
}
/* set all valid group as dirty so they get reemited on
* next draw command
*/
LIST_FOR_EACH_ENTRY(enable_block, &ctx->enable_list, enable_list) {
if(!(enable_block->status & R600_BLOCK_STATUS_DIRTY)) {
LIST_ADDTAIL(&enable_block->list,&ctx->dirty);
enable_block->status |= R600_BLOCK_STATUS_DIRTY;
}
ctx->pm4_dirty_cdwords += enable_block->pm4_ndwords;
enable_block->nreg_dirty = enable_block->nreg;
}
/* Re-emit the draw state. */
ctx->last_primitive_type = -1;
ctx->last_start_instance = -1;
}
void r600_context_emit_fence(struct r600_context *ctx, struct r600_resource *fence_bo, unsigned offset, unsigned value)
{
struct radeon_winsys_cs *cs = ctx->cs;
uint64_t va;
r600_need_cs_space(ctx, 10, FALSE);
va = r600_resource_va(&ctx->screen->screen, (void*)fence_bo);
va = va + (offset << 2);
r600_write_config_reg(cs, R_008040_WAIT_UNTIL, S_008040_WAIT_3D_IDLE(1));
cs->buf[cs->cdw++] = PKT3(PKT3_EVENT_WRITE_EOP, 4, 0);
cs->buf[cs->cdw++] = EVENT_TYPE(EVENT_TYPE_CACHE_FLUSH_AND_INV_TS_EVENT) | EVENT_INDEX(5);
cs->buf[cs->cdw++] = va & 0xFFFFFFFFUL; /* ADDRESS_LO */
/* DATA_SEL | INT_EN | ADDRESS_HI */
cs->buf[cs->cdw++] = (1 << 29) | (0 << 24) | ((va >> 32UL) & 0xFF);
cs->buf[cs->cdw++] = value; /* DATA_LO */
cs->buf[cs->cdw++] = 0; /* DATA_HI */
cs->buf[cs->cdw++] = PKT3(PKT3_NOP, 0, 0);
cs->buf[cs->cdw++] = r600_context_bo_reloc(ctx, fence_bo, RADEON_USAGE_WRITE);
}
static void r600_flush_vgt_streamout(struct r600_context *ctx)
{
struct radeon_winsys_cs *cs = ctx->cs;
r600_write_config_reg(cs, R_008490_CP_STRMOUT_CNTL, 0);
cs->buf[cs->cdw++] = PKT3(PKT3_EVENT_WRITE, 0, 0);
cs->buf[cs->cdw++] = EVENT_TYPE(EVENT_TYPE_SO_VGTSTREAMOUT_FLUSH) | EVENT_INDEX(0);
cs->buf[cs->cdw++] = PKT3(PKT3_WAIT_REG_MEM, 5, 0);
cs->buf[cs->cdw++] = WAIT_REG_MEM_EQUAL; /* wait until the register is equal to the reference value */
cs->buf[cs->cdw++] = R_008490_CP_STRMOUT_CNTL >> 2; /* register */
cs->buf[cs->cdw++] = 0;
cs->buf[cs->cdw++] = S_008490_OFFSET_UPDATE_DONE(1); /* reference value */
cs->buf[cs->cdw++] = S_008490_OFFSET_UPDATE_DONE(1); /* mask */
cs->buf[cs->cdw++] = 4; /* poll interval */
}
static void r600_set_streamout_enable(struct r600_context *ctx, unsigned buffer_enable_bit)
{
struct radeon_winsys_cs *cs = ctx->cs;
if (buffer_enable_bit) {
r600_write_context_reg(cs, R_028AB0_VGT_STRMOUT_EN, S_028AB0_STREAMOUT(1));
r600_write_context_reg(cs, R_028B20_VGT_STRMOUT_BUFFER_EN, buffer_enable_bit);
} else {
r600_write_context_reg(cs, R_028AB0_VGT_STRMOUT_EN, S_028AB0_STREAMOUT(0));
}
}
void r600_context_streamout_begin(struct r600_context *ctx)
{
struct radeon_winsys_cs *cs = ctx->cs;
struct r600_so_target **t = ctx->so_targets;
unsigned *stride_in_dw = ctx->vs_shader->so.stride;
unsigned buffer_en, i, update_flags = 0;
uint64_t va;
unsigned num_cs_dw_streamout_end;
buffer_en = (ctx->num_so_targets >= 1 && t[0] ? 1 : 0) |
(ctx->num_so_targets >= 2 && t[1] ? 2 : 0) |
(ctx->num_so_targets >= 3 && t[2] ? 4 : 0) |
(ctx->num_so_targets >= 4 && t[3] ? 8 : 0);
num_cs_dw_streamout_end =
12 + /* flush_vgt_streamout */
util_bitcount(buffer_en) * 8 + /* STRMOUT_BUFFER_UPDATE */
3 /* set_streamout_enable(0) */;
r600_need_cs_space(ctx,
12 + /* flush_vgt_streamout */
6 + /* set_streamout_enable */
util_bitcount(buffer_en) * 7 + /* SET_CONTEXT_REG */
(ctx->family >= CHIP_RS780 &&
ctx->family <= CHIP_RV740 ? util_bitcount(buffer_en) * 5 : 0) + /* STRMOUT_BASE_UPDATE */
util_bitcount(buffer_en & ctx->streamout_append_bitmask) * 8 + /* STRMOUT_BUFFER_UPDATE */
util_bitcount(buffer_en & ~ctx->streamout_append_bitmask) * 6 + /* STRMOUT_BUFFER_UPDATE */
(ctx->family > CHIP_R600 && ctx->family < CHIP_RS780 ? 2 : 0) + /* SURFACE_BASE_UPDATE */
num_cs_dw_streamout_end, TRUE);
/* This must be set after r600_need_cs_space. */
ctx->num_cs_dw_streamout_end = num_cs_dw_streamout_end;
if (ctx->chip_class >= EVERGREEN) {
evergreen_flush_vgt_streamout(ctx);
evergreen_set_streamout_enable(ctx, buffer_en);
} else {
r600_flush_vgt_streamout(ctx);
r600_set_streamout_enable(ctx, buffer_en);
}
for (i = 0; i < ctx->num_so_targets; i++) {
if (t[i]) {
t[i]->stride_in_dw = stride_in_dw[i];
t[i]->so_index = i;
va = r600_resource_va(&ctx->screen->screen,
(void*)t[i]->b.buffer);
update_flags |= SURFACE_BASE_UPDATE_STRMOUT(i);
r600_write_context_reg_seq(cs, R_028AD0_VGT_STRMOUT_BUFFER_SIZE_0 + 16*i, 3);
r600_write_value(cs, (t[i]->b.buffer_offset +
t[i]->b.buffer_size) >> 2); /* BUFFER_SIZE (in DW) */
r600_write_value(cs, stride_in_dw[i]); /* VTX_STRIDE (in DW) */
r600_write_value(cs, va >> 8); /* BUFFER_BASE */
cs->buf[cs->cdw++] = PKT3(PKT3_NOP, 0, 0);
cs->buf[cs->cdw++] =
r600_context_bo_reloc(ctx, r600_resource(t[i]->b.buffer),
RADEON_USAGE_WRITE);
/* R7xx requires this packet after updating BUFFER_BASE.
* Without this, R7xx locks up. */
if (ctx->family >= CHIP_RS780 && ctx->family <= CHIP_RV740) {
cs->buf[cs->cdw++] = PKT3(PKT3_STRMOUT_BASE_UPDATE, 1, 0);
cs->buf[cs->cdw++] = i;
cs->buf[cs->cdw++] = va >> 8;
cs->buf[cs->cdw++] = PKT3(PKT3_NOP, 0, 0);
cs->buf[cs->cdw++] =
r600_context_bo_reloc(ctx, r600_resource(t[i]->b.buffer),
RADEON_USAGE_WRITE);
}
if (ctx->streamout_append_bitmask & (1 << i)) {
va = r600_resource_va(&ctx->screen->screen,
(void*)t[i]->buf_filled_size) + t[i]->buf_filled_size_offset;
/* Append. */
cs->buf[cs->cdw++] = PKT3(PKT3_STRMOUT_BUFFER_UPDATE, 4, 0);
cs->buf[cs->cdw++] = STRMOUT_SELECT_BUFFER(i) |
STRMOUT_OFFSET_SOURCE(STRMOUT_OFFSET_FROM_MEM); /* control */
cs->buf[cs->cdw++] = 0; /* unused */
cs->buf[cs->cdw++] = 0; /* unused */
cs->buf[cs->cdw++] = va & 0xFFFFFFFFUL; /* src address lo */
cs->buf[cs->cdw++] = (va >> 32UL) & 0xFFUL; /* src address hi */
cs->buf[cs->cdw++] = PKT3(PKT3_NOP, 0, 0);
cs->buf[cs->cdw++] =
r600_context_bo_reloc(ctx, t[i]->buf_filled_size,
RADEON_USAGE_READ);
} else {
/* Start from the beginning. */
cs->buf[cs->cdw++] = PKT3(PKT3_STRMOUT_BUFFER_UPDATE, 4, 0);
cs->buf[cs->cdw++] = STRMOUT_SELECT_BUFFER(i) |
STRMOUT_OFFSET_SOURCE(STRMOUT_OFFSET_FROM_PACKET); /* control */
cs->buf[cs->cdw++] = 0; /* unused */
cs->buf[cs->cdw++] = 0; /* unused */
cs->buf[cs->cdw++] = t[i]->b.buffer_offset >> 2; /* buffer offset in DW */
cs->buf[cs->cdw++] = 0; /* unused */
}
}
}
if (ctx->family > CHIP_R600 && ctx->family < CHIP_RS780) {
cs->buf[cs->cdw++] = PKT3(PKT3_SURFACE_BASE_UPDATE, 0, 0);
cs->buf[cs->cdw++] = update_flags;
}
}
void r600_context_streamout_end(struct r600_context *ctx)
{
struct radeon_winsys_cs *cs = ctx->cs;
struct r600_so_target **t = ctx->so_targets;
unsigned i;
uint64_t va;
if (ctx->chip_class >= EVERGREEN) {
evergreen_flush_vgt_streamout(ctx);
} else {
r600_flush_vgt_streamout(ctx);
}
for (i = 0; i < ctx->num_so_targets; i++) {
if (t[i]) {
va = r600_resource_va(&ctx->screen->screen,
(void*)t[i]->buf_filled_size) + t[i]->buf_filled_size_offset;
cs->buf[cs->cdw++] = PKT3(PKT3_STRMOUT_BUFFER_UPDATE, 4, 0);
cs->buf[cs->cdw++] = STRMOUT_SELECT_BUFFER(i) |
STRMOUT_OFFSET_SOURCE(STRMOUT_OFFSET_NONE) |
STRMOUT_STORE_BUFFER_FILLED_SIZE; /* control */
cs->buf[cs->cdw++] = va & 0xFFFFFFFFUL; /* dst address lo */
cs->buf[cs->cdw++] = (va >> 32UL) & 0xFFUL; /* dst address hi */
cs->buf[cs->cdw++] = 0; /* unused */
cs->buf[cs->cdw++] = 0; /* unused */
cs->buf[cs->cdw++] = PKT3(PKT3_NOP, 0, 0);
cs->buf[cs->cdw++] =
r600_context_bo_reloc(ctx, t[i]->buf_filled_size,
RADEON_USAGE_WRITE);
}
}
if (ctx->chip_class >= EVERGREEN) {
ctx->flags |= R600_CONTEXT_STREAMOUT_FLUSH;
evergreen_set_streamout_enable(ctx, 0);
} else {
if (ctx->chip_class >= R700) {
ctx->flags |= R600_CONTEXT_STREAMOUT_FLUSH;
}
r600_set_streamout_enable(ctx, 0);
}
ctx->flags |= R600_CONTEXT_WAIT_3D_IDLE | R600_CONTEXT_FLUSH_AND_INV;
ctx->num_cs_dw_streamout_end = 0;
}
/* The max number of bytes to copy per packet. */
#define CP_DMA_MAX_BYTE_COUNT ((1 << 21) - 8)
void r600_cp_dma_copy_buffer(struct r600_context *rctx,
struct pipe_resource *dst, unsigned dst_offset,
struct pipe_resource *src, unsigned src_offset,
unsigned size)
{
struct radeon_winsys_cs *cs = rctx->cs;
assert(size);
assert(rctx->chip_class != R600);
/* CP DMA doesn't work on R600 (flushing seems to be unreliable). */
if (rctx->chip_class == R600) {
return;
}
/* We flush the caches, because we might read from or write
* to resources which are bound right now. */
rctx->flags |= R600_CONTEXT_INVAL_READ_CACHES |
R600_CONTEXT_FLUSH_AND_INV |
R600_CONTEXT_FLUSH_AND_INV_CB_META |
R600_CONTEXT_STREAMOUT_FLUSH |
R600_CONTEXT_WAIT_3D_IDLE;
/* There are differences between R700 and EG in CP DMA,
* but we only use the common bits here. */
while (size) {
unsigned sync = 0;
unsigned byte_count = MIN2(size, CP_DMA_MAX_BYTE_COUNT);
unsigned src_reloc, dst_reloc;
r600_need_cs_space(rctx, 10 + (rctx->flags ? R600_MAX_FLUSH_CS_DWORDS : 0), FALSE);
/* Flush the caches for the first copy only. */
if (rctx->flags) {
r600_flush_emit(rctx);
}
/* Do the synchronization after the last copy, so that all data is written to memory. */
if (size == byte_count) {
sync = PKT3_CP_DMA_CP_SYNC;
}
/* This must be done after r600_need_cs_space. */
src_reloc = r600_context_bo_reloc(rctx, (struct r600_resource*)src, RADEON_USAGE_READ);
dst_reloc = r600_context_bo_reloc(rctx, (struct r600_resource*)dst, RADEON_USAGE_WRITE);
r600_write_value(cs, PKT3(PKT3_CP_DMA, 4, 0));
r600_write_value(cs, src_offset); /* SRC_ADDR_LO [31:0] */
r600_write_value(cs, sync); /* CP_SYNC [31] | SRC_ADDR_HI [7:0] */
r600_write_value(cs, dst_offset); /* DST_ADDR_LO [31:0] */
r600_write_value(cs, 0); /* DST_ADDR_HI [7:0] */
r600_write_value(cs, byte_count); /* COMMAND [29:22] | BYTE_COUNT [20:0] */
r600_write_value(cs, PKT3(PKT3_NOP, 0, 0));
r600_write_value(cs, src_reloc);
r600_write_value(cs, PKT3(PKT3_NOP, 0, 0));
r600_write_value(cs, dst_reloc);
size -= byte_count;
src_offset += byte_count;
dst_offset += byte_count;
}
}
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