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|
/*
* Copyright © 2016 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.
*/
#include "blorp_priv.h"
#include "brw_device_info.h"
#include "intel_aub.h"
/**
* This file provides the blorp pipeline setup and execution functionality.
* It defines the following function:
*
* static void
* blorp_exec(struct blorp_context *blorp, void *batch_data,
* const struct blorp_params *params);
*
* It is the job of whoever includes this header to wrap this in something
* to get an externally visible symbol.
*
* In order for the blorp_exec function to work, the driver must provide
* implementations of the following static helper functions.
*/
static void *
blorp_emit_dwords(struct blorp_batch *batch, unsigned n);
static uint64_t
blorp_emit_reloc(struct blorp_batch *batch,
void *location, struct blorp_address address, uint32_t delta);
static void *
blorp_alloc_dynamic_state(struct blorp_batch *batch,
enum aub_state_struct_type type,
uint32_t size,
uint32_t alignment,
uint32_t *offset);
static void *
blorp_alloc_vertex_buffer(struct blorp_batch *batch, uint32_t size,
struct blorp_address *addr);
static void
blorp_alloc_binding_table(struct blorp_batch *batch, unsigned num_entries,
unsigned state_size, unsigned state_alignment,
uint32_t *bt_offset, uint32_t **bt_map,
void **surface_maps);
static void
blorp_surface_reloc(struct blorp_batch *batch, uint32_t ss_offset,
struct blorp_address address, uint32_t delta);
static void
blorp_emit_urb_config(struct blorp_batch *batch, unsigned vs_entry_size);
static void
blorp_emit_3dstate_multisample(struct blorp_batch *batch, unsigned samples);
/***** BEGIN blorp_exec implementation ******/
#include "genxml/gen_macros.h"
#define __gen_address_type struct blorp_address
#define __gen_user_data struct blorp_batch
static uint64_t
__gen_combine_address(struct blorp_batch *batch, void *location,
struct blorp_address address, uint32_t delta)
{
if (address.buffer == NULL) {
return address.offset + delta;
} else {
return blorp_emit_reloc(batch, location, address, delta);
}
}
#include "genxml/genX_pack.h"
#define _blorp_cmd_length(cmd) cmd ## _length
#define _blorp_cmd_length_bias(cmd) cmd ## _length_bias
#define _blorp_cmd_header(cmd) cmd ## _header
#define _blorp_cmd_pack(cmd) cmd ## _pack
#define blorp_emit(batch, cmd, name) \
for (struct cmd name = { _blorp_cmd_header(cmd) }, \
*_dst = blorp_emit_dwords(batch, _blorp_cmd_length(cmd)); \
__builtin_expect(_dst != NULL, 1); \
_blorp_cmd_pack(cmd)(batch, (void *)_dst, &name), \
_dst = NULL)
#define blorp_emitn(batch, cmd, n) ({ \
uint32_t *_dw = blorp_emit_dwords(batch, n); \
struct cmd template = { \
_blorp_cmd_header(cmd), \
.DWordLength = n - _blorp_cmd_length_bias(cmd), \
}; \
_blorp_cmd_pack(cmd)(batch, _dw, &template); \
_dw + 1; /* Array starts at dw[1] */ \
})
/* Once vertex fetcher has written full VUE entries with complete
* header the space requirement is as follows per vertex (in bytes):
*
* Header Position Program constants
* +--------+------------+-------------------+
* | 16 | 16 | n x 16 |
* +--------+------------+-------------------+
*
* where 'n' stands for number of varying inputs expressed as vec4s.
*
* The URB size is in turn expressed in 64 bytes (512 bits).
*/
static inline unsigned
gen7_blorp_get_vs_entry_size(const struct blorp_params *params)
{
const unsigned num_varyings =
params->wm_prog_data ? params->wm_prog_data->num_varying_inputs : 0;
const unsigned total_needed = 16 + 16 + num_varyings * 16;
return DIV_ROUND_UP(total_needed, 64);
}
/* 3DSTATE_URB
* 3DSTATE_URB_VS
* 3DSTATE_URB_HS
* 3DSTATE_URB_DS
* 3DSTATE_URB_GS
*
* Assign the entire URB to the VS. Even though the VS disabled, URB space
* is still needed because the clipper loads the VUE's from the URB. From
* the Sandybridge PRM, Volume 2, Part 1, Section 3DSTATE,
* Dword 1.15:0 "VS Number of URB Entries":
* This field is always used (even if VS Function Enable is DISABLED).
*
* The warning below appears in the PRM (Section 3DSTATE_URB), but we can
* safely ignore it because this batch contains only one draw call.
* Because of URB corruption caused by allocating a previous GS unit
* URB entry to the VS unit, software is required to send a “GS NULL
* Fence” (Send URB fence with VS URB size == 1 and GS URB size == 0)
* plus a dummy DRAW call before any case where VS will be taking over
* GS URB space.
*
* If the 3DSTATE_URB_VS is emitted, than the others must be also.
* From the Ivybridge PRM, Volume 2 Part 1, section 1.7.1 3DSTATE_URB_VS:
*
* 3DSTATE_URB_HS, 3DSTATE_URB_DS, and 3DSTATE_URB_GS must also be
* programmed in order for the programming of this state to be
* valid.
*/
static void
emit_urb_config(struct blorp_batch *batch,
const struct blorp_params *params)
{
blorp_emit_urb_config(batch, gen7_blorp_get_vs_entry_size(params));
}
static void
blorp_emit_vertex_data(struct blorp_batch *batch,
const struct blorp_params *params,
struct blorp_address *addr,
uint32_t *size)
{
const float vertices[] = {
/* v0 */ (float)params->x0, (float)params->y1,
/* v1 */ (float)params->x1, (float)params->y1,
/* v2 */ (float)params->x0, (float)params->y0,
};
void *data = blorp_alloc_vertex_buffer(batch, sizeof(vertices), addr);
memcpy(data, vertices, sizeof(vertices));
*size = sizeof(vertices);
}
static void
blorp_emit_input_varying_data(struct blorp_batch *batch,
const struct blorp_params *params,
struct blorp_address *addr,
uint32_t *size)
{
const unsigned vec4_size_in_bytes = 4 * sizeof(float);
const unsigned max_num_varyings =
DIV_ROUND_UP(sizeof(params->wm_inputs), vec4_size_in_bytes);
const unsigned num_varyings = params->wm_prog_data->num_varying_inputs;
*size = num_varyings * vec4_size_in_bytes;
const float *const inputs_src = (const float *)¶ms->wm_inputs;
float *inputs = blorp_alloc_vertex_buffer(batch, *size, addr);
/* Walk over the attribute slots, determine if the attribute is used by
* the program and when necessary copy the values from the input storage to
* the vertex data buffer.
*/
for (unsigned i = 0; i < max_num_varyings; i++) {
const gl_varying_slot attr = VARYING_SLOT_VAR0 + i;
if (!(params->wm_prog_data->inputs_read & (1ull << attr)))
continue;
memcpy(inputs, inputs_src + i * 4, vec4_size_in_bytes);
inputs += 4;
}
}
static void
blorp_emit_vertex_buffers(struct blorp_batch *batch,
const struct blorp_params *params)
{
struct GENX(VERTEX_BUFFER_STATE) vb[2];
memset(vb, 0, sizeof(vb));
unsigned num_buffers = 1;
uint32_t size;
blorp_emit_vertex_data(batch, params, &vb[0].BufferStartingAddress, &size);
vb[0].VertexBufferIndex = 0;
vb[0].BufferPitch = 2 * sizeof(float);
vb[0].VertexBufferMOCS = batch->blorp->mocs.vb;
#if GEN_GEN >= 7
vb[0].AddressModifyEnable = true;
#endif
#if GEN_GEN >= 8
vb[0].BufferSize = size;
#else
vb[0].BufferAccessType = VERTEXDATA;
vb[0].EndAddress = vb[0].BufferStartingAddress;
vb[0].EndAddress.offset += size - 1;
#endif
if (params->wm_prog_data && params->wm_prog_data->num_varying_inputs) {
blorp_emit_input_varying_data(batch, params,
&vb[1].BufferStartingAddress, &size);
vb[1].VertexBufferIndex = 1;
vb[1].BufferPitch = 0;
vb[1].VertexBufferMOCS = batch->blorp->mocs.vb;
#if GEN_GEN >= 7
vb[1].AddressModifyEnable = true;
#endif
#if GEN_GEN >= 8
vb[1].BufferSize = size;
#else
vb[1].BufferAccessType = INSTANCEDATA;
vb[1].EndAddress = vb[1].BufferStartingAddress;
vb[1].EndAddress.offset += size - 1;
#endif
num_buffers++;
}
const unsigned num_dwords =
1 + GENX(VERTEX_BUFFER_STATE_length) * num_buffers;
uint32_t *dw = blorp_emitn(batch, GENX(3DSTATE_VERTEX_BUFFERS), num_dwords);
for (unsigned i = 0; i < num_buffers; i++) {
GENX(VERTEX_BUFFER_STATE_pack)(batch, dw, &vb[i]);
dw += GENX(VERTEX_BUFFER_STATE_length);
}
}
static void
blorp_emit_vertex_elements(struct blorp_batch *batch,
const struct blorp_params *params)
{
const unsigned num_varyings =
params->wm_prog_data ? params->wm_prog_data->num_varying_inputs : 0;
const unsigned num_elements = 2 + num_varyings;
struct GENX(VERTEX_ELEMENT_STATE) ve[num_elements];
memset(ve, 0, num_elements * sizeof(*ve));
/* Setup VBO for the rectangle primitive..
*
* A rectangle primitive (3DPRIM_RECTLIST) consists of only three
* vertices. The vertices reside in screen space with DirectX
* coordinates (that is, (0, 0) is the upper left corner).
*
* v2 ------ implied
* | |
* | |
* v0 ----- v1
*
* Since the VS is disabled, the clipper loads each VUE directly from
* the URB. This is controlled by the 3DSTATE_VERTEX_BUFFERS and
* 3DSTATE_VERTEX_ELEMENTS packets below. The VUE contents are as follows:
* dw0: Reserved, MBZ.
* dw1: Render Target Array Index. The HiZ op does not use indexed
* vertices, so set the dword to 0.
* dw2: Viewport Index. The HiZ op disables viewport mapping and
* scissoring, so set the dword to 0.
* dw3: Point Width: The HiZ op does not emit the POINTLIST primitive,
* so set the dword to 0.
* dw4: Vertex Position X.
* dw5: Vertex Position Y.
* dw6: Vertex Position Z.
* dw7: Vertex Position W.
*
* dw8: Flat vertex input 0
* dw9: Flat vertex input 1
* ...
* dwn: Flat vertex input n - 8
*
* For details, see the Sandybridge PRM, Volume 2, Part 1, Section 1.5.1
* "Vertex URB Entry (VUE) Formats".
*
* Only vertex position X and Y are going to be variable, Z is fixed to
* zero and W to one. Header words dw0-3 are all zero. There is no need to
* include the fixed values in the vertex buffer. Vertex fetcher can be
* instructed to fill vertex elements with constant values of one and zero
* instead of reading them from the buffer.
* Flat inputs are program constants that are not interpolated. Moreover
* their values will be the same between vertices.
*
* See the vertex element setup below.
*/
ve[0].VertexBufferIndex = 0;
ve[0].Valid = true;
ve[0].SourceElementFormat = ISL_FORMAT_R32G32B32A32_FLOAT;
ve[0].SourceElementOffset = 0;
ve[0].Component0Control = VFCOMP_STORE_0;
ve[0].Component1Control = VFCOMP_STORE_0;
ve[0].Component2Control = VFCOMP_STORE_0;
ve[0].Component3Control = VFCOMP_STORE_0;
ve[1].VertexBufferIndex = 0;
ve[1].Valid = true;
ve[1].SourceElementFormat = ISL_FORMAT_R32G32_FLOAT;
ve[1].SourceElementOffset = 0;
ve[1].Component0Control = VFCOMP_STORE_SRC;
ve[1].Component1Control = VFCOMP_STORE_SRC;
ve[1].Component2Control = VFCOMP_STORE_0;
ve[1].Component3Control = VFCOMP_STORE_1_FP;
for (unsigned i = 0; i < num_varyings; ++i) {
ve[i + 2].VertexBufferIndex = 1;
ve[i + 2].Valid = true;
ve[i + 2].SourceElementFormat = ISL_FORMAT_R32G32B32A32_FLOAT;
ve[i + 2].SourceElementOffset = i * 4 * sizeof(float);
ve[i + 2].Component0Control = VFCOMP_STORE_SRC;
ve[i + 2].Component1Control = VFCOMP_STORE_SRC;
ve[i + 2].Component2Control = VFCOMP_STORE_SRC;
ve[i + 2].Component3Control = VFCOMP_STORE_SRC;
}
const unsigned num_dwords =
1 + GENX(VERTEX_ELEMENT_STATE_length) * num_elements;
uint32_t *dw = blorp_emitn(batch, GENX(3DSTATE_VERTEX_ELEMENTS), num_dwords);
for (unsigned i = 0; i < num_elements; i++) {
GENX(VERTEX_ELEMENT_STATE_pack)(batch, dw, &ve[i]);
dw += GENX(VERTEX_ELEMENT_STATE_length);
}
#if GEN_GEN >= 8
blorp_emit(batch, GENX(3DSTATE_VF_SGVS), sgvs);
for (unsigned i = 0; i < num_elements; i++) {
blorp_emit(batch, GENX(3DSTATE_VF_INSTANCING), vf) {
vf.VertexElementIndex = i;
vf.InstancingEnable = false;
}
}
blorp_emit(batch, GENX(3DSTATE_VF_TOPOLOGY), topo) {
topo.PrimitiveTopologyType = _3DPRIM_RECTLIST;
}
#endif
}
static void
blorp_emit_sf_config(struct blorp_batch *batch,
const struct blorp_params *params)
{
const struct brw_blorp_prog_data *prog_data = params->wm_prog_data;
/* 3DSTATE_SF
*
* Disable ViewportTransformEnable (dw2.1)
*
* From the SandyBridge PRM, Volume 2, Part 1, Section 1.3, "3D
* Primitives Overview":
* RECTLIST: Viewport Mapping must be DISABLED (as is typical with the
* use of screen- space coordinates).
*
* A solid rectangle must be rendered, so set FrontFaceFillMode (dw2.4:3)
* and BackFaceFillMode (dw2.5:6) to SOLID(0).
*
* From the Sandy Bridge PRM, Volume 2, Part 1, Section
* 6.4.1.1 3DSTATE_SF, Field FrontFaceFillMode:
* SOLID: Any triangle or rectangle object found to be front-facing
* is rendered as a solid object. This setting is required when
* (rendering rectangle (RECTLIST) objects.
*/
#if GEN_GEN >= 8
blorp_emit(batch, GENX(3DSTATE_SF), sf);
blorp_emit(batch, GENX(3DSTATE_RASTER), raster) {
raster.CullMode = CULLMODE_NONE;
}
blorp_emit(batch, GENX(3DSTATE_SBE), sbe) {
sbe.VertexURBEntryReadOffset = 1;
sbe.NumberofSFOutputAttributes = prog_data->num_varying_inputs;
sbe.VertexURBEntryReadLength = brw_blorp_get_urb_length(prog_data);
sbe.ForceVertexURBEntryReadLength = true;
sbe.ForceVertexURBEntryReadOffset = true;
sbe.ConstantInterpolationEnable = prog_data->flat_inputs;
#if GEN_GEN >= 9
for (unsigned i = 0; i < 32; i++)
sbe.AttributeActiveComponentFormat[i] = ACF_XYZW;
#endif
}
#elif GEN_GEN >= 7
blorp_emit(batch, GENX(3DSTATE_SF), sf) {
sf.FrontFaceFillMode = FILL_MODE_SOLID;
sf.BackFaceFillMode = FILL_MODE_SOLID;
sf.MultisampleRasterizationMode = params->dst.surf.samples > 1 ?
MSRASTMODE_ON_PATTERN : MSRASTMODE_OFF_PIXEL;
#if GEN_GEN == 7
sf.DepthBufferSurfaceFormat = params->depth_format;
#endif
}
blorp_emit(batch, GENX(3DSTATE_SBE), sbe) {
sbe.VertexURBEntryReadOffset = 1;
if (prog_data) {
sbe.NumberofSFOutputAttributes = prog_data->num_varying_inputs;
sbe.VertexURBEntryReadLength = brw_blorp_get_urb_length(prog_data);
sbe.ConstantInterpolationEnable = prog_data->flat_inputs;
} else {
sbe.NumberofSFOutputAttributes = 0;
sbe.VertexURBEntryReadLength = 1;
}
}
#else /* GEN_GEN <= 6 */
blorp_emit(batch, GENX(3DSTATE_SF), sf) {
sf.FrontFaceFillMode = FILL_MODE_SOLID;
sf.BackFaceFillMode = FILL_MODE_SOLID;
sf.MultisampleRasterizationMode = params->dst.surf.samples > 1 ?
MSRASTMODE_ON_PATTERN : MSRASTMODE_OFF_PIXEL;
sf.VertexURBEntryReadOffset = 1;
if (prog_data) {
sf.NumberofSFOutputAttributes = prog_data->num_varying_inputs;
sf.VertexURBEntryReadLength = brw_blorp_get_urb_length(prog_data);
sf.ConstantInterpolationEnable = prog_data->flat_inputs;
} else {
sf.NumberofSFOutputAttributes = 0;
sf.VertexURBEntryReadLength = 1;
}
}
#endif /* GEN_GEN */
}
static void
blorp_emit_ps_config(struct blorp_batch *batch,
const struct blorp_params *params)
{
const struct brw_blorp_prog_data *prog_data = params->wm_prog_data;
/* Even when thread dispatch is disabled, max threads (dw5.25:31) must be
* nonzero to prevent the GPU from hanging. While the documentation doesn't
* mention this explicitly, it notes that the valid range for the field is
* [1,39] = [2,40] threads, which excludes zero.
*
* To be safe (and to minimize extraneous code) we go ahead and fully
* configure the WM state whether or not there is a WM program.
*/
#if GEN_GEN >= 8
blorp_emit(batch, GENX(3DSTATE_WM), wm);
blorp_emit(batch, GENX(3DSTATE_PS), ps) {
if (params->src.addr.buffer) {
ps.SamplerCount = 1; /* Up to 4 samplers */
ps.BindingTableEntryCount = 2;
} else {
ps.BindingTableEntryCount = 1;
}
ps.DispatchGRFStartRegisterForConstantSetupData0 =
prog_data->first_curbe_grf_0;
ps.DispatchGRFStartRegisterForConstantSetupData2 =
prog_data->first_curbe_grf_2;
ps._8PixelDispatchEnable = prog_data->dispatch_8;
ps._16PixelDispatchEnable = prog_data->dispatch_16;
ps.KernelStartPointer0 = params->wm_prog_kernel;
ps.KernelStartPointer2 =
params->wm_prog_kernel + prog_data->ksp_offset_2;
/* 3DSTATE_PS expects the number of threads per PSD, which is always 64;
* it implicitly scales for different GT levels (which have some # of
* PSDs).
*
* In Gen8 the format is U8-2 whereas in Gen9 it is U8-1.
*/
if (GEN_GEN >= 9)
ps.MaximumNumberofThreadsPerPSD = 64 - 1;
else
ps.MaximumNumberofThreadsPerPSD = 64 - 2;
switch (params->fast_clear_op) {
case BLORP_FAST_CLEAR_OP_NONE:
break;
#if GEN_GEN >= 9
case BLORP_FAST_CLEAR_OP_RESOLVE_PARTIAL:
ps.RenderTargetResolveType = RESOLVE_PARTIAL;
break;
case BLORP_FAST_CLEAR_OP_RESOLVE_FULL:
ps.RenderTargetResolveType = RESOLVE_FULL;
break;
#else
case BLORP_FAST_CLEAR_OP_RESOLVE_FULL:
ps.RenderTargetResolveEnable = true;
break;
#endif
case BLORP_FAST_CLEAR_OP_CLEAR:
ps.RenderTargetFastClearEnable = true;
break;
default:
unreachable("Invalid fast clear op");
}
}
blorp_emit(batch, GENX(3DSTATE_PS_EXTRA), psx) {
psx.PixelShaderValid = true;
if (params->src.addr.buffer)
psx.PixelShaderKillsPixel = true;
psx.AttributeEnable = prog_data->num_varying_inputs > 0;
if (prog_data && prog_data->persample_msaa_dispatch)
psx.PixelShaderIsPerSample = true;
}
#elif GEN_GEN >= 7
blorp_emit(batch, GENX(3DSTATE_WM), wm) {
switch (params->hiz_op) {
case BLORP_HIZ_OP_DEPTH_CLEAR:
wm.DepthBufferClear = true;
break;
case BLORP_HIZ_OP_DEPTH_RESOLVE:
wm.DepthBufferResolveEnable = true;
break;
case BLORP_HIZ_OP_HIZ_RESOLVE:
wm.HierarchicalDepthBufferResolveEnable = true;
break;
case BLORP_HIZ_OP_NONE:
break;
default:
unreachable("not reached");
}
if (prog_data)
wm.ThreadDispatchEnable = true;
if (params->src.addr.buffer)
wm.PixelShaderKillPixel = true;
if (params->dst.surf.samples > 1) {
wm.MultisampleRasterizationMode = MSRASTMODE_ON_PATTERN;
wm.MultisampleDispatchMode =
(prog_data && prog_data->persample_msaa_dispatch) ?
MSDISPMODE_PERSAMPLE : MSDISPMODE_PERPIXEL;
} else {
wm.MultisampleRasterizationMode = MSRASTMODE_OFF_PIXEL;
wm.MultisampleDispatchMode = MSDISPMODE_PERSAMPLE;
}
}
blorp_emit(batch, GENX(3DSTATE_PS), ps) {
ps.MaximumNumberofThreads =
batch->blorp->isl_dev->info->max_wm_threads - 1;
#if GEN_IS_HASWELL
ps.SampleMask = 1;
#endif
if (prog_data) {
ps.DispatchGRFStartRegisterforConstantSetupData0 =
prog_data->first_curbe_grf_0;
ps.DispatchGRFStartRegisterforConstantSetupData2 =
prog_data->first_curbe_grf_2;
ps.KernelStartPointer0 = params->wm_prog_kernel;
ps.KernelStartPointer2 =
params->wm_prog_kernel + prog_data->ksp_offset_2;
ps._8PixelDispatchEnable = prog_data->dispatch_8;
ps._16PixelDispatchEnable = prog_data->dispatch_16;
ps.AttributeEnable = prog_data->num_varying_inputs > 0;
} else {
/* Gen7 hardware gets angry if we don't enable at least one dispatch
* mode, so just enable 16-pixel dispatch if we don't have a program.
*/
ps._16PixelDispatchEnable = true;
}
if (params->src.addr.buffer)
ps.SamplerCount = 1; /* Up to 4 samplers */
switch (params->fast_clear_op) {
case BLORP_FAST_CLEAR_OP_NONE:
break;
case BLORP_FAST_CLEAR_OP_RESOLVE_FULL:
ps.RenderTargetResolveEnable = true;
break;
case BLORP_FAST_CLEAR_OP_CLEAR:
ps.RenderTargetFastClearEnable = true;
break;
default:
unreachable("Invalid fast clear op");
}
}
#else /* GEN_GEN <= 6 */
blorp_emit(batch, GENX(3DSTATE_WM), wm) {
wm.MaximumNumberofThreads =
batch->blorp->isl_dev->info->max_wm_threads - 1;
switch (params->hiz_op) {
case BLORP_HIZ_OP_DEPTH_CLEAR:
wm.DepthBufferClear = true;
break;
case BLORP_HIZ_OP_DEPTH_RESOLVE:
wm.DepthBufferResolveEnable = true;
break;
case BLORP_HIZ_OP_HIZ_RESOLVE:
wm.HierarchicalDepthBufferResolveEnable = true;
break;
case BLORP_HIZ_OP_NONE:
break;
default:
unreachable("not reached");
}
if (prog_data) {
wm.ThreadDispatchEnable = true;
wm.DispatchGRFStartRegisterforConstantSetupData0 =
prog_data->first_curbe_grf_0;
wm.DispatchGRFStartRegisterforConstantSetupData2 =
prog_data->first_curbe_grf_2;
wm.KernelStartPointer0 = params->wm_prog_kernel;
wm.KernelStartPointer2 =
params->wm_prog_kernel + prog_data->ksp_offset_2;
wm._8PixelDispatchEnable = prog_data->dispatch_8;
wm._16PixelDispatchEnable = prog_data->dispatch_16;
wm.NumberofSFOutputAttributes = prog_data->num_varying_inputs;
}
if (params->src.addr.buffer) {
wm.SamplerCount = 1; /* Up to 4 samplers */
wm.PixelShaderKillPixel = true; /* TODO: temporarily smash on */
}
if (params->dst.surf.samples > 1) {
wm.MultisampleRasterizationMode = MSRASTMODE_ON_PATTERN;
wm.MultisampleDispatchMode =
(prog_data && prog_data->persample_msaa_dispatch) ?
MSDISPMODE_PERSAMPLE : MSDISPMODE_PERPIXEL;
} else {
wm.MultisampleRasterizationMode = MSRASTMODE_OFF_PIXEL;
wm.MultisampleDispatchMode = MSDISPMODE_PERSAMPLE;
}
}
#endif /* GEN_GEN */
}
static void
blorp_emit_depth_stencil_config(struct blorp_batch *batch,
const struct blorp_params *params)
{
#if GEN_GEN >= 7
const uint32_t mocs = 1; /* GEN7_MOCS_L3 */
#else
const uint32_t mocs = 0;
#endif
blorp_emit(batch, GENX(3DSTATE_DEPTH_BUFFER), db) {
switch (params->depth.surf.dim) {
case ISL_SURF_DIM_1D:
db.SurfaceType = SURFTYPE_1D;
break;
case ISL_SURF_DIM_2D:
db.SurfaceType = SURFTYPE_2D;
break;
case ISL_SURF_DIM_3D:
db.SurfaceType = SURFTYPE_3D;
break;
}
db.SurfaceFormat = params->depth_format;
#if GEN_GEN >= 7
db.DepthWriteEnable = true;
#endif
#if GEN_GEN <= 6
db.TiledSurface = true;
db.TileWalk = TILEWALK_YMAJOR;
db.MIPMapLayoutMode = MIPLAYOUT_BELOW;
db.SeparateStencilBufferEnable = true;
#endif
db.HierarchicalDepthBufferEnable = true;
db.Width = params->depth.surf.logical_level0_px.width - 1;
db.Height = params->depth.surf.logical_level0_px.height - 1;
db.RenderTargetViewExtent = db.Depth =
MAX2(params->depth.surf.logical_level0_px.depth,
params->depth.surf.logical_level0_px.array_len) - 1;
db.LOD = params->depth.view.base_level;
db.MinimumArrayElement = params->depth.view.base_array_layer;
db.SurfacePitch = params->depth.surf.row_pitch - 1;
db.SurfaceBaseAddress = params->depth.addr;
db.DepthBufferMOCS = mocs;
}
blorp_emit(batch, GENX(3DSTATE_HIER_DEPTH_BUFFER), hiz) {
hiz.SurfacePitch = params->depth.aux_surf.row_pitch - 1;
hiz.SurfaceBaseAddress = params->depth.aux_addr;
hiz.HierarchicalDepthBufferMOCS = mocs;
}
blorp_emit(batch, GENX(3DSTATE_STENCIL_BUFFER), sb);
}
static uint32_t
blorp_emit_blend_state(struct blorp_batch *batch,
const struct blorp_params *params)
{
struct GENX(BLEND_STATE) blend;
memset(&blend, 0, sizeof(blend));
for (unsigned i = 0; i < params->num_draw_buffers; ++i) {
blend.Entry[i].PreBlendColorClampEnable = true;
blend.Entry[i].PostBlendColorClampEnable = true;
blend.Entry[i].ColorClampRange = COLORCLAMP_RTFORMAT;
blend.Entry[i].WriteDisableRed = params->color_write_disable[0];
blend.Entry[i].WriteDisableGreen = params->color_write_disable[1];
blend.Entry[i].WriteDisableBlue = params->color_write_disable[2];
blend.Entry[i].WriteDisableAlpha = params->color_write_disable[3];
}
uint32_t offset;
void *state = blorp_alloc_dynamic_state(batch, AUB_TRACE_BLEND_STATE,
GENX(BLEND_STATE_length) * 4,
64, &offset);
GENX(BLEND_STATE_pack)(NULL, state, &blend);
#if GEN_GEN >= 7
blorp_emit(batch, GENX(3DSTATE_BLEND_STATE_POINTERS), sp) {
sp.BlendStatePointer = offset;
#if GEN_GEN >= 8
sp.BlendStatePointerValid = true;
#endif
}
#endif
#if GEN_GEN >= 8
blorp_emit(batch, GENX(3DSTATE_PS_BLEND), ps_blend) {
ps_blend.HasWriteableRT = true;
}
#endif
return offset;
}
static uint32_t
blorp_emit_color_calc_state(struct blorp_batch *batch,
const struct blorp_params *params)
{
uint32_t offset;
void *state = blorp_alloc_dynamic_state(batch, AUB_TRACE_CC_STATE,
GENX(COLOR_CALC_STATE_length) * 4,
64, &offset);
memset(state, 0, GENX(COLOR_CALC_STATE_length) * 4);
#if GEN_GEN >= 7
blorp_emit(batch, GENX(3DSTATE_CC_STATE_POINTERS), sp) {
sp.ColorCalcStatePointer = offset;
#if GEN_GEN >= 8
sp.ColorCalcStatePointerValid = true;
#endif
}
#endif
return offset;
}
static uint32_t
blorp_emit_depth_stencil_state(struct blorp_batch *batch,
const struct blorp_params *params)
{
#if GEN_GEN >= 8
/* On gen8+, DEPTH_STENCIL state is simply an instruction */
blorp_emit(batch, GENX(3DSTATE_WM_DEPTH_STENCIL), ds);
return 0;
#else /* GEN_GEN <= 7 */
/* See the following sections of the Sandy Bridge PRM, Volume 1, Part2:
* - 7.5.3.1 Depth Buffer Clear
* - 7.5.3.2 Depth Buffer Resolve
* - 7.5.3.3 Hierarchical Depth Buffer Resolve
*/
struct GENX(DEPTH_STENCIL_STATE) ds = {
.DepthBufferWriteEnable = true,
};
if (params->hiz_op == BLORP_HIZ_OP_DEPTH_RESOLVE) {
ds.DepthTestEnable = true;
ds.DepthTestFunction = COMPAREFUNCTION_NEVER;
}
uint32_t offset;
void *state = blorp_alloc_dynamic_state(batch, AUB_TRACE_DEPTH_STENCIL_STATE,
GENX(DEPTH_STENCIL_STATE_length) * 4,
64, &offset);
GENX(DEPTH_STENCIL_STATE_pack)(NULL, state, &ds);
#if GEN_GEN >= 7
blorp_emit(batch, GENX(3DSTATE_DEPTH_STENCIL_STATE_POINTERS), sp) {
sp.PointertoDEPTH_STENCIL_STATE = offset;
}
#endif
return offset;
#endif /* GEN_GEN */
}
struct surface_state_info {
unsigned num_dwords;
unsigned ss_align; /* Required alignment of RENDER_SURFACE_STATE in bytes */
unsigned reloc_dw;
unsigned aux_reloc_dw;
};
static const struct surface_state_info surface_state_infos[] = {
[6] = {6, 32, 1, 0},
[7] = {8, 32, 1, 6},
[8] = {13, 64, 8, 10},
[9] = {16, 64, 8, 10},
};
static void
blorp_emit_surface_state(struct blorp_batch *batch,
const struct brw_blorp_surface_info *surface,
uint32_t *state, uint32_t state_offset,
bool is_render_target)
{
const struct surface_state_info ss_info = surface_state_infos[GEN_GEN];
struct isl_surf surf = surface->surf;
if (surf.dim == ISL_SURF_DIM_1D &&
surf.dim_layout == ISL_DIM_LAYOUT_GEN4_2D) {
assert(surf.logical_level0_px.height == 1);
surf.dim = ISL_SURF_DIM_2D;
}
/* Blorp doesn't support HiZ in any of the blit or slow-clear paths */
enum isl_aux_usage aux_usage = surface->aux_usage;
if (aux_usage == ISL_AUX_USAGE_HIZ)
aux_usage = ISL_AUX_USAGE_NONE;
const uint32_t mocs =
is_render_target ? batch->blorp->mocs.rb : batch->blorp->mocs.tex;
isl_surf_fill_state(batch->blorp->isl_dev, state,
.surf = &surf, .view = &surface->view,
.aux_surf = &surface->aux_surf, .aux_usage = aux_usage,
.mocs = mocs, .clear_color = surface->clear_color,
.x_offset_sa = surface->tile_x_sa,
.y_offset_sa = surface->tile_y_sa);
blorp_surface_reloc(batch, state_offset + ss_info.reloc_dw * 4,
surface->addr, 0);
if (aux_usage != ISL_AUX_USAGE_NONE) {
/* On gen7 and prior, the bottom 12 bits of the MCS base address are
* used to store other information. This should be ok, however, because
* surface buffer addresses are always 4K page alinged.
*/
assert((surface->aux_addr.offset & 0xfff) == 0);
blorp_surface_reloc(batch, state_offset + ss_info.aux_reloc_dw * 4,
surface->aux_addr, state[ss_info.aux_reloc_dw]);
}
}
static void
blorp_emit_surface_states(struct blorp_batch *batch,
const struct blorp_params *params)
{
uint32_t bind_offset, *bind_map;
void *surface_maps[2];
const unsigned ss_size = GENX(RENDER_SURFACE_STATE_length) * 4;
const unsigned ss_align = GENX(RENDER_SURFACE_STATE_length) > 8 ? 64 : 32;
unsigned num_surfaces = 1 + (params->src.addr.buffer != NULL);
blorp_alloc_binding_table(batch, num_surfaces, ss_size, ss_align,
&bind_offset, &bind_map, surface_maps);
blorp_emit_surface_state(batch, ¶ms->dst,
surface_maps[BLORP_RENDERBUFFER_BT_INDEX],
bind_map[BLORP_RENDERBUFFER_BT_INDEX], true);
if (params->src.addr.buffer) {
blorp_emit_surface_state(batch, ¶ms->src,
surface_maps[BLORP_TEXTURE_BT_INDEX],
bind_map[BLORP_TEXTURE_BT_INDEX], false);
}
#if GEN_GEN >= 7
blorp_emit(batch, GENX(3DSTATE_BINDING_TABLE_POINTERS_PS), bt) {
bt.PointertoPSBindingTable = bind_offset;
}
#else
blorp_emit(batch, GENX(3DSTATE_BINDING_TABLE_POINTERS), bt) {
bt.PSBindingTableChange = true;
bt.PointertoPSBindingTable = bind_offset;
}
#endif
}
static void
blorp_emit_sampler_state(struct blorp_batch *batch,
const struct blorp_params *params)
{
struct GENX(SAMPLER_STATE) sampler = {
.MipModeFilter = MIPFILTER_NONE,
.MagModeFilter = MAPFILTER_LINEAR,
.MinModeFilter = MAPFILTER_LINEAR,
.MinLOD = 0,
.MaxLOD = 0,
.TCXAddressControlMode = TCM_CLAMP,
.TCYAddressControlMode = TCM_CLAMP,
.TCZAddressControlMode = TCM_CLAMP,
.MaximumAnisotropy = RATIO21,
.RAddressMinFilterRoundingEnable = true,
.RAddressMagFilterRoundingEnable = true,
.VAddressMinFilterRoundingEnable = true,
.VAddressMagFilterRoundingEnable = true,
.UAddressMinFilterRoundingEnable = true,
.UAddressMagFilterRoundingEnable = true,
.NonnormalizedCoordinateEnable = true,
};
uint32_t offset;
void *state = blorp_alloc_dynamic_state(batch, AUB_TRACE_SAMPLER_STATE,
GENX(SAMPLER_STATE_length) * 4,
32, &offset);
GENX(SAMPLER_STATE_pack)(NULL, state, &sampler);
#if GEN_GEN >= 7
blorp_emit(batch, GENX(3DSTATE_SAMPLER_STATE_POINTERS_PS), ssp) {
ssp.PointertoPSSamplerState = offset;
}
#else
blorp_emit(batch, GENX(3DSTATE_SAMPLER_STATE_POINTERS), ssp) {
ssp.VSSamplerStateChange = true;
ssp.GSSamplerStateChange = true;
ssp.PSSamplerStateChange = true;
ssp.PointertoPSSamplerState = offset;
}
#endif
}
/* 3DSTATE_VIEWPORT_STATE_POINTERS */
static void
blorp_emit_viewport_state(struct blorp_batch *batch,
const struct blorp_params *params)
{
uint32_t cc_vp_offset;
void *state = blorp_alloc_dynamic_state(batch, AUB_TRACE_CC_VP_STATE,
GENX(CC_VIEWPORT_length) * 4, 32,
&cc_vp_offset);
GENX(CC_VIEWPORT_pack)(batch, state,
&(struct GENX(CC_VIEWPORT)) {
.MinimumDepth = 0.0,
.MaximumDepth = 1.0,
});
#if GEN_GEN >= 7
blorp_emit(batch, GENX(3DSTATE_VIEWPORT_STATE_POINTERS_CC), vsp) {
vsp.CCViewportPointer = cc_vp_offset;
}
#else
blorp_emit(batch, GENX(3DSTATE_VIEWPORT_STATE_POINTERS), vsp) {
vsp.CCViewportStateChange = true;
vsp.PointertoCC_VIEWPORT = cc_vp_offset;
}
#endif
}
/**
* \brief Execute a blit or render pass operation.
*
* To execute the operation, this function manually constructs and emits a
* batch to draw a rectangle primitive. The batchbuffer is flushed before
* constructing and after emitting the batch.
*
* This function alters no GL state.
*/
static void
blorp_exec(struct blorp_batch *batch, const struct blorp_params *params)
{
uint32_t blend_state_offset = 0;
uint32_t color_calc_state_offset = 0;
uint32_t depth_stencil_state_offset;
blorp_emit_vertex_buffers(batch, params);
blorp_emit_vertex_elements(batch, params);
emit_urb_config(batch, params);
if (params->wm_prog_data) {
blend_state_offset = blorp_emit_blend_state(batch, params);
color_calc_state_offset = blorp_emit_color_calc_state(batch, params);
}
depth_stencil_state_offset = blorp_emit_depth_stencil_state(batch, params);
#if GEN_GEN <= 6
/* 3DSTATE_CC_STATE_POINTERS
*
* The pointer offsets are relative to
* CMD_STATE_BASE_ADDRESS.DynamicStateBaseAddress.
*
* The HiZ op doesn't use BLEND_STATE or COLOR_CALC_STATE.
*
* The dynamic state emit helpers emit their own STATE_POINTERS packets on
* gen7+. However, on gen6 and earlier, they're all lumpped together in
* one CC_STATE_POINTERS packet so we have to emit that here.
*/
blorp_emit(batch, GENX(3DSTATE_CC_STATE_POINTERS), cc) {
cc.BLEND_STATEChange = true;
cc.COLOR_CALC_STATEChange = true;
cc.DEPTH_STENCIL_STATEChange = true;
cc.PointertoBLEND_STATE = blend_state_offset;
cc.PointertoCOLOR_CALC_STATE = color_calc_state_offset;
cc.PointertoDEPTH_STENCIL_STATE = depth_stencil_state_offset;
}
#else
(void)blend_state_offset;
(void)color_calc_state_offset;
(void)depth_stencil_state_offset;
#endif
blorp_emit(batch, GENX(3DSTATE_CONSTANT_VS), vs);
#if GEN_GEN >= 7
blorp_emit(batch, GENX(3DSTATE_CONSTANT_HS), hs);
blorp_emit(batch, GENX(3DSTATE_CONSTANT_DS), DS);
#endif
blorp_emit(batch, GENX(3DSTATE_CONSTANT_GS), gs);
blorp_emit(batch, GENX(3DSTATE_CONSTANT_PS), ps);
if (params->wm_prog_data)
blorp_emit_surface_states(batch, params);
if (params->src.addr.buffer)
blorp_emit_sampler_state(batch, params);
blorp_emit_3dstate_multisample(batch, params->dst.surf.samples);
blorp_emit(batch, GENX(3DSTATE_SAMPLE_MASK), mask) {
mask.SampleMask = (1 << params->dst.surf.samples) - 1;
}
/* From the BSpec, 3D Pipeline > Geometry > Vertex Shader > State,
* 3DSTATE_VS, Dword 5.0 "VS Function Enable":
*
* [DevSNB] A pipeline flush must be programmed prior to a
* 3DSTATE_VS command that causes the VS Function Enable to
* toggle. Pipeline flush can be executed by sending a PIPE_CONTROL
* command with CS stall bit set and a post sync operation.
*
* We've already done one at the start of the BLORP operation.
*/
blorp_emit(batch, GENX(3DSTATE_VS), vs);
#if GEN_GEN >= 7
blorp_emit(batch, GENX(3DSTATE_HS), hs);
blorp_emit(batch, GENX(3DSTATE_TE), te);
blorp_emit(batch, GENX(3DSTATE_DS), DS);
blorp_emit(batch, GENX(3DSTATE_STREAMOUT), so);
#endif
blorp_emit(batch, GENX(3DSTATE_GS), gs);
blorp_emit(batch, GENX(3DSTATE_CLIP), clip) {
clip.PerspectiveDivideDisable = true;
}
blorp_emit_sf_config(batch, params);
blorp_emit_ps_config(batch, params);
blorp_emit_viewport_state(batch, params);
if (params->depth.addr.buffer) {
blorp_emit_depth_stencil_config(batch, params);
} else {
blorp_emit(batch, GENX(3DSTATE_DEPTH_BUFFER), db) {
db.SurfaceType = SURFTYPE_NULL;
db.SurfaceFormat = D32_FLOAT;
}
blorp_emit(batch, GENX(3DSTATE_HIER_DEPTH_BUFFER), hiz);
blorp_emit(batch, GENX(3DSTATE_STENCIL_BUFFER), sb);
}
/* 3DSTATE_CLEAR_PARAMS
*
* From the Sandybridge PRM, Volume 2, Part 1, Section 3DSTATE_CLEAR_PARAMS:
* [DevSNB] 3DSTATE_CLEAR_PARAMS packet must follow the DEPTH_BUFFER_STATE
* packet when HiZ is enabled and the DEPTH_BUFFER_STATE changes.
*/
blorp_emit(batch, GENX(3DSTATE_CLEAR_PARAMS), clear) {
clear.DepthClearValueValid = true;
clear.DepthClearValue = params->depth.clear_color.u32[0];
}
blorp_emit(batch, GENX(3DSTATE_DRAWING_RECTANGLE), rect) {
rect.ClippedDrawingRectangleXMax = MAX2(params->x1, params->x0) - 1;
rect.ClippedDrawingRectangleYMax = MAX2(params->y1, params->y0) - 1;
}
blorp_emit(batch, GENX(3DPRIMITIVE), prim) {
prim.VertexAccessType = SEQUENTIAL;
prim.PrimitiveTopologyType = _3DPRIM_RECTLIST;
prim.VertexCountPerInstance = 3;
prim.InstanceCount = params->num_layers;
}
}
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