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/*
* Copyright 2017 Advanced Micro Devices, Inc.
*
* 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.
*/
#include "glspirv.h"
#include "errors.h"
#include "shaderobj.h"
#include "mtypes.h"
#include "compiler/nir/nir.h"
#include "compiler/spirv/nir_spirv.h"
#include "program/program.h"
#include "util/u_atomic.h"
void
_mesa_spirv_module_reference(struct gl_spirv_module **dest,
struct gl_spirv_module *src)
{
struct gl_spirv_module *old = *dest;
if (old && p_atomic_dec_zero(&old->RefCount))
free(old);
*dest = src;
if (src)
p_atomic_inc(&src->RefCount);
}
void
_mesa_shader_spirv_data_reference(struct gl_shader_spirv_data **dest,
struct gl_shader_spirv_data *src)
{
struct gl_shader_spirv_data *old = *dest;
if (old && p_atomic_dec_zero(&old->RefCount)) {
_mesa_spirv_module_reference(&(*dest)->SpirVModule, NULL);
ralloc_free(old);
}
*dest = src;
if (src)
p_atomic_inc(&src->RefCount);
}
void
_mesa_spirv_shader_binary(struct gl_context *ctx,
unsigned n, struct gl_shader **shaders,
const void* binary, size_t length)
{
struct gl_spirv_module *module;
struct gl_shader_spirv_data *spirv_data;
assert(length >= 0);
module = malloc(sizeof(*module) + length);
if (!module) {
_mesa_error(ctx, GL_OUT_OF_MEMORY, "glShaderBinary");
return;
}
p_atomic_set(&module->RefCount, 0);
module->Length = length;
memcpy(&module->Binary[0], binary, length);
for (int i = 0; i < n; ++i) {
struct gl_shader *sh = shaders[i];
spirv_data = rzalloc(NULL, struct gl_shader_spirv_data);
_mesa_shader_spirv_data_reference(&sh->spirv_data, spirv_data);
_mesa_spirv_module_reference(&spirv_data->SpirVModule, module);
sh->CompileStatus = COMPILE_FAILURE;
free((void *)sh->Source);
sh->Source = NULL;
free((void *)sh->FallbackSource);
sh->FallbackSource = NULL;
ralloc_free(sh->ir);
sh->ir = NULL;
ralloc_free(sh->symbols);
sh->symbols = NULL;
}
}
/**
* This is the equivalent to compiler/glsl/linker.cpp::link_shaders()
* but for SPIR-V programs.
*
* This method just creates the gl_linked_shader structs with a reference to
* the SPIR-V data collected during previous steps.
*
* The real linking happens later in the driver-specifc call LinkShader().
* This is so backends can implement different linking strategies for
* SPIR-V programs.
*/
void
_mesa_spirv_link_shaders(struct gl_context *ctx, struct gl_shader_program *prog)
{
prog->data->LinkStatus = LINKING_SUCCESS;
prog->data->Validated = false;
for (unsigned i = 0; i < prog->NumShaders; i++) {
struct gl_shader *shader = prog->Shaders[i];
gl_shader_stage shader_type = shader->Stage;
/* We only support one shader per stage. The gl_spirv spec doesn't seem
* to prevent this, but the way the API is designed, requiring all shaders
* to be specialized with an entry point, makes supporting this quite
* undefined.
*
* TODO: Turn this into a proper error once the spec bug
* <https://gitlab.khronos.org/opengl/API/issues/58> is resolved.
*/
if (prog->_LinkedShaders[shader_type]) {
ralloc_strcat(&prog->data->InfoLog,
"\nError trying to link more than one SPIR-V shader "
"per stage.\n");
prog->data->LinkStatus = LINKING_FAILURE;
return;
}
assert(shader->spirv_data);
struct gl_linked_shader *linked = rzalloc(NULL, struct gl_linked_shader);
linked->Stage = shader_type;
/* Create program and attach it to the linked shader */
struct gl_program *gl_prog =
ctx->Driver.NewProgram(ctx,
_mesa_shader_stage_to_program(shader_type),
prog->Name, false);
if (!gl_prog) {
prog->data->LinkStatus = LINKING_FAILURE;
_mesa_delete_linked_shader(ctx, linked);
return;
}
_mesa_reference_shader_program_data(ctx,
&gl_prog->sh.data,
prog->data);
/* Don't use _mesa_reference_program() just take ownership */
linked->Program = gl_prog;
/* Reference the SPIR-V data from shader to the linked shader */
_mesa_shader_spirv_data_reference(&linked->spirv_data,
shader->spirv_data);
prog->_LinkedShaders[shader_type] = linked;
prog->data->linked_stages |= 1 << shader_type;
}
int last_vert_stage =
util_last_bit(prog->data->linked_stages &
((1 << (MESA_SHADER_GEOMETRY + 1)) - 1));
if (last_vert_stage)
prog->last_vert_prog = prog->_LinkedShaders[last_vert_stage - 1]->Program;
}
nir_shader *
_mesa_spirv_to_nir(struct gl_context *ctx,
const struct gl_shader_program *prog,
gl_shader_stage stage,
const nir_shader_compiler_options *options)
{
nir_shader *nir = NULL;
struct gl_linked_shader *linked_shader = prog->_LinkedShaders[stage];
assert (linked_shader);
struct gl_shader_spirv_data *spirv_data = linked_shader->spirv_data;
assert(spirv_data);
struct gl_spirv_module *spirv_module = spirv_data->SpirVModule;
assert (spirv_module != NULL);
const char *entry_point_name = spirv_data->SpirVEntryPoint;
assert(entry_point_name);
struct nir_spirv_specialization *spec_entries =
calloc(sizeof(*spec_entries),
spirv_data->NumSpecializationConstants);
for (unsigned i = 0; i < spirv_data->NumSpecializationConstants; ++i) {
spec_entries[i].id = spirv_data->SpecializationConstantsIndex[i];
spec_entries[i].data32 = spirv_data->SpecializationConstantsValue[i];
spec_entries[i].defined_on_module = false;
}
const struct spirv_to_nir_options spirv_options = {
.lower_workgroup_access_to_offsets = true,
.caps = ctx->Const.SpirVCapabilities
};
nir_function *entry_point =
spirv_to_nir((const uint32_t *) &spirv_module->Binary[0],
spirv_module->Length / 4,
spec_entries, spirv_data->NumSpecializationConstants,
stage, entry_point_name,
&spirv_options,
options);
free(spec_entries);
assert (entry_point);
nir = entry_point->shader;
assert(nir->info.stage == stage);
nir->options = options;
nir->info.name =
ralloc_asprintf(nir, "SPIRV:%s:%d",
_mesa_shader_stage_to_abbrev(nir->info.stage),
prog->Name);
nir_validate_shader(nir);
nir->info.separate_shader = linked_shader->Program->info.separate_shader;
/* We have to lower away local constant initializers right before we
* inline functions. That way they get properly initialized at the top
* of the function and not at the top of its caller.
*/
NIR_PASS_V(nir, nir_lower_constant_initializers, nir_var_local);
NIR_PASS_V(nir, nir_lower_returns);
NIR_PASS_V(nir, nir_inline_functions);
NIR_PASS_V(nir, nir_copy_prop);
/* Pick off the single entrypoint that we want */
foreach_list_typed_safe(nir_function, func, node, &nir->functions) {
if (func != entry_point)
exec_node_remove(&func->node);
}
assert(exec_list_length(&nir->functions) == 1);
entry_point->name = ralloc_strdup(entry_point, "main");
/* Split member structs. We do this before lower_io_to_temporaries so that
* it doesn't lower system values to temporaries by accident.
*/
NIR_PASS_V(nir, nir_split_var_copies);
NIR_PASS_V(nir, nir_split_per_member_structs);
if (nir->info.stage == MESA_SHADER_VERTEX)
nir_remap_dual_slot_attributes(nir, &linked_shader->Program->DualSlotInputs);
return nir;
}
void GLAPIENTRY
_mesa_SpecializeShaderARB(GLuint shader,
const GLchar *pEntryPoint,
GLuint numSpecializationConstants,
const GLuint *pConstantIndex,
const GLuint *pConstantValue)
{
GET_CURRENT_CONTEXT(ctx);
struct gl_shader *sh;
bool has_entry_point;
struct nir_spirv_specialization *spec_entries = NULL;
if (!ctx->Extensions.ARB_gl_spirv) {
_mesa_error(ctx, GL_INVALID_OPERATION, "glSpecializeShaderARB");
return;
}
sh = _mesa_lookup_shader_err(ctx, shader, "glSpecializeShaderARB");
if (!sh)
return;
if (!sh->spirv_data) {
_mesa_error(ctx, GL_INVALID_OPERATION,
"glSpecializeShaderARB(not SPIR-V)");
return;
}
if (sh->CompileStatus) {
_mesa_error(ctx, GL_INVALID_OPERATION,
"glSpecializeShaderARB(already specialized)");
return;
}
struct gl_shader_spirv_data *spirv_data = sh->spirv_data;
/* From the GL_ARB_gl_spirv spec:
*
* "The OpenGL API expects the SPIR-V module to have already been
* validated, and can return an error if it discovers anything invalid
* in the module. An invalid SPIR-V module is allowed to result in
* undefined behavior."
*
* However, the following errors still need to be detected (from the same
* spec):
*
* "INVALID_VALUE is generated if <pEntryPoint> does not name a valid
* entry point for <shader>.
*
* INVALID_VALUE is generated if any element of <pConstantIndex>
* refers to a specialization constant that does not exist in the
* shader module contained in <shader>."
*
* We cannot flag those errors a-priori because detecting them requires
* parsing the module. However, flagging them during specialization is okay,
* since it makes no difference in terms of application-visible state.
*/
spec_entries = calloc(sizeof(*spec_entries), numSpecializationConstants);
for (unsigned i = 0; i < numSpecializationConstants; ++i) {
spec_entries[i].id = pConstantIndex[i];
spec_entries[i].data32 = pConstantValue[i];
spec_entries[i].defined_on_module = false;
}
has_entry_point =
gl_spirv_validation((uint32_t *)&spirv_data->SpirVModule->Binary[0],
spirv_data->SpirVModule->Length / 4,
spec_entries, numSpecializationConstants,
sh->Stage, pEntryPoint);
/* See previous spec comment */
if (!has_entry_point) {
_mesa_error(ctx, GL_INVALID_VALUE,
"glSpecializeShaderARB(\"%s\" is not a valid entry point"
" for shader)", pEntryPoint);
goto end;
}
for (unsigned i = 0; i < numSpecializationConstants; ++i) {
if (spec_entries[i].defined_on_module == false) {
_mesa_error(ctx, GL_INVALID_VALUE,
"glSpecializeShaderARB(constant \"%i\" does not exist "
"in shader)", spec_entries[i].id);
goto end;
}
}
spirv_data->SpirVEntryPoint = ralloc_strdup(spirv_data, pEntryPoint);
/* Note that we didn't make a real compilation of the module (spirv_to_nir),
* but just checked some error conditions. Real "compilation" will be done
* later, upon linking.
*/
sh->CompileStatus = COMPILE_SUCCESS;
spirv_data->NumSpecializationConstants = numSpecializationConstants;
spirv_data->SpecializationConstantsIndex =
rzalloc_array_size(spirv_data, sizeof(GLuint),
numSpecializationConstants);
spirv_data->SpecializationConstantsValue =
rzalloc_array_size(spirv_data, sizeof(GLuint),
numSpecializationConstants);
for (unsigned i = 0; i < numSpecializationConstants; ++i) {
spirv_data->SpecializationConstantsIndex[i] = pConstantIndex[i];
spirv_data->SpecializationConstantsValue[i] = pConstantValue[i];
}
end:
free(spec_entries);
}
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