/* * Copyright © 2014 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. */ /** * \file serialize.cpp * * GLSL serialization * * Supports serializing and deserializing glsl programs using a blob. */ #include "compiler/glsl_types.h" #include "compiler/shader_info.h" #include "ir_uniform.h" #include "main/mtypes.h" #include "main/shaderobj.h" #include "program/program.h" #include "string_to_uint_map.h" #include "util/bitscan.h" static void write_subroutines(struct blob *metadata, struct gl_shader_program *prog) { for (unsigned i = 0; i < MESA_SHADER_STAGES; i++) { struct gl_linked_shader *sh = prog->_LinkedShaders[i]; if (!sh) continue; struct gl_program *glprog = sh->Program; blob_write_uint32(metadata, glprog->sh.NumSubroutineUniforms); blob_write_uint32(metadata, glprog->sh.MaxSubroutineFunctionIndex); blob_write_uint32(metadata, glprog->sh.NumSubroutineFunctions); for (unsigned j = 0; j < glprog->sh.NumSubroutineFunctions; j++) { int num_types = glprog->sh.SubroutineFunctions[j].num_compat_types; blob_write_string(metadata, glprog->sh.SubroutineFunctions[j].name); blob_write_uint32(metadata, glprog->sh.SubroutineFunctions[j].index); blob_write_uint32(metadata, num_types); for (int k = 0; k < num_types; k++) { encode_type_to_blob(metadata, glprog->sh.SubroutineFunctions[j].types[k]); } } } } static void read_subroutines(struct blob_reader *metadata, struct gl_shader_program *prog) { struct gl_subroutine_function *subs; for (unsigned i = 0; i < MESA_SHADER_STAGES; i++) { struct gl_linked_shader *sh = prog->_LinkedShaders[i]; if (!sh) continue; struct gl_program *glprog = sh->Program; glprog->sh.NumSubroutineUniforms = blob_read_uint32(metadata); glprog->sh.MaxSubroutineFunctionIndex = blob_read_uint32(metadata); glprog->sh.NumSubroutineFunctions = blob_read_uint32(metadata); subs = rzalloc_array(prog, struct gl_subroutine_function, glprog->sh.NumSubroutineFunctions); glprog->sh.SubroutineFunctions = subs; for (unsigned j = 0; j < glprog->sh.NumSubroutineFunctions; j++) { subs[j].name = ralloc_strdup(prog, blob_read_string (metadata)); subs[j].index = (int) blob_read_uint32(metadata); subs[j].num_compat_types = (int) blob_read_uint32(metadata); subs[j].types = rzalloc_array(prog, const struct glsl_type *, subs[j].num_compat_types); for (int k = 0; k < subs[j].num_compat_types; k++) { subs[j].types[k] = decode_type_from_blob(metadata); } } } } static void write_buffer_block(struct blob *metadata, struct gl_uniform_block *b) { blob_write_string(metadata, b->Name); blob_write_uint32(metadata, b->NumUniforms); blob_write_uint32(metadata, b->Binding); blob_write_uint32(metadata, b->UniformBufferSize); blob_write_uint32(metadata, b->stageref); for (unsigned j = 0; j < b->NumUniforms; j++) { blob_write_string(metadata, b->Uniforms[j].Name); blob_write_string(metadata, b->Uniforms[j].IndexName); encode_type_to_blob(metadata, b->Uniforms[j].Type); blob_write_uint32(metadata, b->Uniforms[j].Offset); } } static void write_buffer_blocks(struct blob *metadata, struct gl_shader_program *prog) { blob_write_uint32(metadata, prog->data->NumUniformBlocks); blob_write_uint32(metadata, prog->data->NumShaderStorageBlocks); for (unsigned i = 0; i < prog->data->NumUniformBlocks; i++) { write_buffer_block(metadata, &prog->data->UniformBlocks[i]); } for (unsigned i = 0; i < prog->data->NumShaderStorageBlocks; i++) { write_buffer_block(metadata, &prog->data->ShaderStorageBlocks[i]); } for (unsigned i = 0; i < MESA_SHADER_STAGES; i++) { struct gl_linked_shader *sh = prog->_LinkedShaders[i]; if (!sh) continue; struct gl_program *glprog = sh->Program; blob_write_uint32(metadata, glprog->info.num_ubos); blob_write_uint32(metadata, glprog->info.num_ssbos); for (unsigned j = 0; j < glprog->info.num_ubos; j++) { uint32_t offset = glprog->sh.UniformBlocks[j] - prog->data->UniformBlocks; blob_write_uint32(metadata, offset); } for (unsigned j = 0; j < glprog->info.num_ssbos; j++) { uint32_t offset = glprog->sh.ShaderStorageBlocks[j] - prog->data->ShaderStorageBlocks; blob_write_uint32(metadata, offset); } } } static void read_buffer_block(struct blob_reader *metadata, struct gl_uniform_block *b, struct gl_shader_program *prog) { b->Name = ralloc_strdup(prog->data, blob_read_string (metadata)); b->NumUniforms = blob_read_uint32(metadata); b->Binding = blob_read_uint32(metadata); b->UniformBufferSize = blob_read_uint32(metadata); b->stageref = blob_read_uint32(metadata); b->Uniforms = rzalloc_array(prog->data, struct gl_uniform_buffer_variable, b->NumUniforms); for (unsigned j = 0; j < b->NumUniforms; j++) { b->Uniforms[j].Name = ralloc_strdup(prog->data, blob_read_string (metadata)); char *index_name = blob_read_string(metadata); if (strcmp(b->Uniforms[j].Name, index_name) == 0) { b->Uniforms[j].IndexName = b->Uniforms[j].Name; } else { b->Uniforms[j].IndexName = ralloc_strdup(prog->data, index_name); } b->Uniforms[j].Type = decode_type_from_blob(metadata); b->Uniforms[j].Offset = blob_read_uint32(metadata); } } static void read_buffer_blocks(struct blob_reader *metadata, struct gl_shader_program *prog) { prog->data->NumUniformBlocks = blob_read_uint32(metadata); prog->data->NumShaderStorageBlocks = blob_read_uint32(metadata); prog->data->UniformBlocks = rzalloc_array(prog->data, struct gl_uniform_block, prog->data->NumUniformBlocks); prog->data->ShaderStorageBlocks = rzalloc_array(prog->data, struct gl_uniform_block, prog->data->NumShaderStorageBlocks); for (unsigned i = 0; i < prog->data->NumUniformBlocks; i++) { read_buffer_block(metadata, &prog->data->UniformBlocks[i], prog); } for (unsigned i = 0; i < prog->data->NumShaderStorageBlocks; i++) { read_buffer_block(metadata, &prog->data->ShaderStorageBlocks[i], prog); } for (unsigned i = 0; i < MESA_SHADER_STAGES; i++) { struct gl_linked_shader *sh = prog->_LinkedShaders[i]; if (!sh) continue; struct gl_program *glprog = sh->Program; glprog->info.num_ubos = blob_read_uint32(metadata); glprog->info.num_ssbos = blob_read_uint32(metadata); glprog->sh.UniformBlocks = rzalloc_array(glprog, gl_uniform_block *, glprog->info.num_ubos); glprog->sh.ShaderStorageBlocks = rzalloc_array(glprog, gl_uniform_block *, glprog->info.num_ssbos); for (unsigned j = 0; j < glprog->info.num_ubos; j++) { uint32_t offset = blob_read_uint32(metadata); glprog->sh.UniformBlocks[j] = prog->data->UniformBlocks + offset; } for (unsigned j = 0; j < glprog->info.num_ssbos; j++) { uint32_t offset = blob_read_uint32(metadata); glprog->sh.ShaderStorageBlocks[j] = prog->data->ShaderStorageBlocks + offset; } } } static void write_atomic_buffers(struct blob *metadata, struct gl_shader_program *prog) { blob_write_uint32(metadata, prog->data->NumAtomicBuffers); for (unsigned i = 0; i < MESA_SHADER_STAGES; i++) { if (prog->_LinkedShaders[i]) { struct gl_program *glprog = prog->_LinkedShaders[i]->Program; blob_write_uint32(metadata, glprog->info.num_abos); } } for (unsigned i = 0; i < prog->data->NumAtomicBuffers; i++) { blob_write_uint32(metadata, prog->data->AtomicBuffers[i].Binding); blob_write_uint32(metadata, prog->data->AtomicBuffers[i].MinimumSize); blob_write_uint32(metadata, prog->data->AtomicBuffers[i].NumUniforms); blob_write_bytes(metadata, prog->data->AtomicBuffers[i].StageReferences, sizeof(prog->data->AtomicBuffers[i].StageReferences)); for (unsigned j = 0; j < prog->data->AtomicBuffers[i].NumUniforms; j++) { blob_write_uint32(metadata, prog->data->AtomicBuffers[i].Uniforms[j]); } } } static void read_atomic_buffers(struct blob_reader *metadata, struct gl_shader_program *prog) { prog->data->NumAtomicBuffers = blob_read_uint32(metadata); prog->data->AtomicBuffers = rzalloc_array(prog, gl_active_atomic_buffer, prog->data->NumAtomicBuffers); struct gl_active_atomic_buffer **stage_buff_list[MESA_SHADER_STAGES]; for (unsigned i = 0; i < MESA_SHADER_STAGES; i++) { if (prog->_LinkedShaders[i]) { struct gl_program *glprog = prog->_LinkedShaders[i]->Program; glprog->info.num_abos = blob_read_uint32(metadata); glprog->sh.AtomicBuffers = rzalloc_array(glprog, gl_active_atomic_buffer *, glprog->info.num_abos); stage_buff_list[i] = glprog->sh.AtomicBuffers; } } for (unsigned i = 0; i < prog->data->NumAtomicBuffers; i++) { prog->data->AtomicBuffers[i].Binding = blob_read_uint32(metadata); prog->data->AtomicBuffers[i].MinimumSize = blob_read_uint32(metadata); prog->data->AtomicBuffers[i].NumUniforms = blob_read_uint32(metadata); blob_copy_bytes(metadata, (uint8_t *) &prog->data->AtomicBuffers[i].StageReferences, sizeof(prog->data->AtomicBuffers[i].StageReferences)); prog->data->AtomicBuffers[i].Uniforms = rzalloc_array(prog, unsigned, prog->data->AtomicBuffers[i].NumUniforms); for (unsigned j = 0; j < prog->data->AtomicBuffers[i].NumUniforms; j++) { prog->data->AtomicBuffers[i].Uniforms[j] = blob_read_uint32(metadata); } for (unsigned j = 0; j < MESA_SHADER_STAGES; j++) { if (prog->data->AtomicBuffers[i].StageReferences[j]) { *stage_buff_list[j] = &prog->data->AtomicBuffers[i]; stage_buff_list[j]++; } } } } static void write_xfb(struct blob *metadata, struct gl_shader_program *shProg) { struct gl_program *prog = shProg->last_vert_prog; if (!prog) { blob_write_uint32(metadata, ~0u); return; } struct gl_transform_feedback_info *ltf = prog->sh.LinkedTransformFeedback; blob_write_uint32(metadata, prog->info.stage); /* Data set by glTransformFeedbackVaryings. */ blob_write_uint32(metadata, shProg->TransformFeedback.BufferMode); blob_write_bytes(metadata, shProg->TransformFeedback.BufferStride, sizeof(shProg->TransformFeedback.BufferStride)); blob_write_uint32(metadata, shProg->TransformFeedback.NumVarying); for (unsigned i = 0; i < shProg->TransformFeedback.NumVarying; i++) blob_write_string(metadata, shProg->TransformFeedback.VaryingNames[i]); blob_write_uint32(metadata, ltf->NumOutputs); blob_write_uint32(metadata, ltf->ActiveBuffers); blob_write_uint32(metadata, ltf->NumVarying); blob_write_bytes(metadata, ltf->Outputs, sizeof(struct gl_transform_feedback_output) * ltf->NumOutputs); for (int i = 0; i < ltf->NumVarying; i++) { blob_write_string(metadata, ltf->Varyings[i].Name); blob_write_uint32(metadata, ltf->Varyings[i].Type); blob_write_uint32(metadata, ltf->Varyings[i].BufferIndex); blob_write_uint32(metadata, ltf->Varyings[i].Size); blob_write_uint32(metadata, ltf->Varyings[i].Offset); } blob_write_bytes(metadata, ltf->Buffers, sizeof(struct gl_transform_feedback_buffer) * MAX_FEEDBACK_BUFFERS); } static void read_xfb(struct blob_reader *metadata, struct gl_shader_program *shProg) { unsigned xfb_stage = blob_read_uint32(metadata); if (xfb_stage == ~0u) return; /* Data set by glTransformFeedbackVaryings. */ shProg->TransformFeedback.BufferMode = blob_read_uint32(metadata); blob_copy_bytes(metadata, &shProg->TransformFeedback.BufferStride, sizeof(shProg->TransformFeedback.BufferStride)); shProg->TransformFeedback.NumVarying = blob_read_uint32(metadata); shProg->TransformFeedback.VaryingNames = (char **) malloc(shProg->TransformFeedback.NumVarying * sizeof(GLchar *)); /* Note, malloc used with VaryingNames. */ for (unsigned i = 0; i < shProg->TransformFeedback.NumVarying; i++) shProg->TransformFeedback.VaryingNames[i] = strdup(blob_read_string(metadata)); struct gl_program *prog = shProg->_LinkedShaders[xfb_stage]->Program; struct gl_transform_feedback_info *ltf = rzalloc(prog, struct gl_transform_feedback_info); prog->sh.LinkedTransformFeedback = ltf; shProg->last_vert_prog = prog; ltf->NumOutputs = blob_read_uint32(metadata); ltf->ActiveBuffers = blob_read_uint32(metadata); ltf->NumVarying = blob_read_uint32(metadata); ltf->Outputs = rzalloc_array(prog, struct gl_transform_feedback_output, ltf->NumOutputs); blob_copy_bytes(metadata, (uint8_t *) ltf->Outputs, sizeof(struct gl_transform_feedback_output) * ltf->NumOutputs); ltf->Varyings = rzalloc_array(prog, struct gl_transform_feedback_varying_info, ltf->NumVarying); for (int i = 0; i < ltf->NumVarying; i++) { ltf->Varyings[i].Name = ralloc_strdup(prog, blob_read_string(metadata)); ltf->Varyings[i].Type = blob_read_uint32(metadata); ltf->Varyings[i].BufferIndex = blob_read_uint32(metadata); ltf->Varyings[i].Size = blob_read_uint32(metadata); ltf->Varyings[i].Offset = blob_read_uint32(metadata); } blob_copy_bytes(metadata, (uint8_t *) ltf->Buffers, sizeof(struct gl_transform_feedback_buffer) * MAX_FEEDBACK_BUFFERS); } static bool has_uniform_storage(struct gl_shader_program *prog, unsigned idx) { if (!prog->data->UniformStorage[idx].builtin && !prog->data->UniformStorage[idx].is_shader_storage && prog->data->UniformStorage[idx].block_index == -1) return true; return false; } static void write_uniforms(struct blob *metadata, struct gl_shader_program *prog) { blob_write_uint32(metadata, prog->SamplersValidated); blob_write_uint32(metadata, prog->data->NumUniformStorage); blob_write_uint32(metadata, prog->data->NumUniformDataSlots); for (unsigned i = 0; i < prog->data->NumUniformStorage; i++) { encode_type_to_blob(metadata, prog->data->UniformStorage[i].type); blob_write_uint32(metadata, prog->data->UniformStorage[i].array_elements); blob_write_string(metadata, prog->data->UniformStorage[i].name); blob_write_uint32(metadata, prog->data->UniformStorage[i].builtin); blob_write_uint32(metadata, prog->data->UniformStorage[i].remap_location); blob_write_uint32(metadata, prog->data->UniformStorage[i].block_index); blob_write_uint32(metadata, prog->data->UniformStorage[i].atomic_buffer_index); blob_write_uint32(metadata, prog->data->UniformStorage[i].offset); blob_write_uint32(metadata, prog->data->UniformStorage[i].array_stride); blob_write_uint32(metadata, prog->data->UniformStorage[i].hidden); blob_write_uint32(metadata, prog->data->UniformStorage[i].is_shader_storage); blob_write_uint32(metadata, prog->data->UniformStorage[i].active_shader_mask); blob_write_uint32(metadata, prog->data->UniformStorage[i].matrix_stride); blob_write_uint32(metadata, prog->data->UniformStorage[i].row_major); blob_write_uint32(metadata, prog->data->UniformStorage[i].is_bindless); blob_write_uint32(metadata, prog->data->UniformStorage[i].num_compatible_subroutines); blob_write_uint32(metadata, prog->data->UniformStorage[i].top_level_array_size); blob_write_uint32(metadata, prog->data->UniformStorage[i].top_level_array_stride); if (has_uniform_storage(prog, i)) { blob_write_uint32(metadata, prog->data->UniformStorage[i].storage - prog->data->UniformDataSlots); } blob_write_bytes(metadata, prog->data->UniformStorage[i].opaque, sizeof(prog->data->UniformStorage[i].opaque)); } /* Here we cache all uniform values. We do this to retain values for * uniforms with initialisers and also hidden uniforms that may be lowered * constant arrays. We could possibly just store the values we need but for * now we just store everything. */ blob_write_uint32(metadata, prog->data->NumHiddenUniforms); for (unsigned i = 0; i < prog->data->NumUniformStorage; i++) { if (has_uniform_storage(prog, i)) { unsigned vec_size = prog->data->UniformStorage[i].type->component_slots() * MAX2(prog->data->UniformStorage[i].array_elements, 1); unsigned slot = prog->data->UniformStorage[i].storage - prog->data->UniformDataSlots; blob_write_bytes(metadata, &prog->data->UniformDataDefaults[slot], sizeof(union gl_constant_value) * vec_size); } } } static void read_uniforms(struct blob_reader *metadata, struct gl_shader_program *prog) { struct gl_uniform_storage *uniforms; union gl_constant_value *data; prog->SamplersValidated = blob_read_uint32(metadata); prog->data->NumUniformStorage = blob_read_uint32(metadata); prog->data->NumUniformDataSlots = blob_read_uint32(metadata); uniforms = rzalloc_array(prog->data, struct gl_uniform_storage, prog->data->NumUniformStorage); prog->data->UniformStorage = uniforms; data = rzalloc_array(uniforms, union gl_constant_value, prog->data->NumUniformDataSlots); prog->data->UniformDataSlots = data; prog->data->UniformDataDefaults = rzalloc_array(uniforms, union gl_constant_value, prog->data->NumUniformDataSlots); prog->UniformHash = new string_to_uint_map; for (unsigned i = 0; i < prog->data->NumUniformStorage; i++) { uniforms[i].type = decode_type_from_blob(metadata); uniforms[i].array_elements = blob_read_uint32(metadata); uniforms[i].name = ralloc_strdup(prog, blob_read_string (metadata)); uniforms[i].builtin = blob_read_uint32(metadata); uniforms[i].remap_location = blob_read_uint32(metadata); uniforms[i].block_index = blob_read_uint32(metadata); uniforms[i].atomic_buffer_index = blob_read_uint32(metadata); uniforms[i].offset = blob_read_uint32(metadata); uniforms[i].array_stride = blob_read_uint32(metadata); uniforms[i].hidden = blob_read_uint32(metadata); uniforms[i].is_shader_storage = blob_read_uint32(metadata); uniforms[i].active_shader_mask = blob_read_uint32(metadata); uniforms[i].matrix_stride = blob_read_uint32(metadata); uniforms[i].row_major = blob_read_uint32(metadata); uniforms[i].is_bindless = blob_read_uint32(metadata); uniforms[i].num_compatible_subroutines = blob_read_uint32(metadata); uniforms[i].top_level_array_size = blob_read_uint32(metadata); uniforms[i].top_level_array_stride = blob_read_uint32(metadata); prog->UniformHash->put(i, uniforms[i].name); if (has_uniform_storage(prog, i)) { uniforms[i].storage = data + blob_read_uint32(metadata); } memcpy(uniforms[i].opaque, blob_read_bytes(metadata, sizeof(uniforms[i].opaque)), sizeof(uniforms[i].opaque)); } /* Restore uniform values. */ prog->data->NumHiddenUniforms = blob_read_uint32(metadata); for (unsigned i = 0; i < prog->data->NumUniformStorage; i++) { if (has_uniform_storage(prog, i)) { unsigned vec_size = prog->data->UniformStorage[i].type->component_slots() * MAX2(prog->data->UniformStorage[i].array_elements, 1); unsigned slot = prog->data->UniformStorage[i].storage - prog->data->UniformDataSlots; blob_copy_bytes(metadata, (uint8_t *) &prog->data->UniformDataSlots[slot], sizeof(union gl_constant_value) * vec_size); assert(vec_size + prog->data->UniformStorage[i].storage <= data + prog->data->NumUniformDataSlots); } } memcpy(prog->data->UniformDataDefaults, prog->data->UniformDataSlots, sizeof(union gl_constant_value) * prog->data->NumUniformDataSlots); } enum uniform_remap_type { remap_type_inactive_explicit_location, remap_type_null_ptr, remap_type_uniform_offset }; static void write_uniform_remap_table_entry(struct blob *metadata, gl_uniform_storage *uniform_storage, gl_uniform_storage *entry) { if (entry == INACTIVE_UNIFORM_EXPLICIT_LOCATION) { blob_write_uint32(metadata, remap_type_inactive_explicit_location); } else if (entry == NULL) { blob_write_uint32(metadata, remap_type_null_ptr); } else { blob_write_uint32(metadata, remap_type_uniform_offset); uint32_t offset = entry - uniform_storage; blob_write_uint32(metadata, offset); } } static void write_uniform_remap_tables(struct blob *metadata, struct gl_shader_program *prog) { blob_write_uint32(metadata, prog->NumUniformRemapTable); for (unsigned i = 0; i < prog->NumUniformRemapTable; i++) { write_uniform_remap_table_entry(metadata, prog->data->UniformStorage, prog->UniformRemapTable[i]); } for (unsigned i = 0; i < MESA_SHADER_STAGES; i++) { struct gl_linked_shader *sh = prog->_LinkedShaders[i]; if (sh) { struct gl_program *glprog = sh->Program; blob_write_uint32(metadata, glprog->sh.NumSubroutineUniformRemapTable); for (unsigned j = 0; j < glprog->sh.NumSubroutineUniformRemapTable; j++) { write_uniform_remap_table_entry(metadata, prog->data->UniformStorage, glprog->sh.SubroutineUniformRemapTable[j]); } } } } static void read_uniform_remap_table_entry(struct blob_reader *metadata, gl_uniform_storage *uniform_storage, gl_uniform_storage **entry, enum uniform_remap_type type) { if (type == remap_type_inactive_explicit_location) { *entry = INACTIVE_UNIFORM_EXPLICIT_LOCATION; } else if (type == remap_type_null_ptr) { *entry = NULL; } else { uint32_t uni_offset = blob_read_uint32(metadata); *entry = uniform_storage + uni_offset; } } static void read_uniform_remap_tables(struct blob_reader *metadata, struct gl_shader_program *prog) { prog->NumUniformRemapTable = blob_read_uint32(metadata); prog->UniformRemapTable = rzalloc_array(prog, struct gl_uniform_storage *, prog->NumUniformRemapTable); for (unsigned i = 0; i < prog->NumUniformRemapTable; i++) { enum uniform_remap_type type = (enum uniform_remap_type) blob_read_uint32(metadata); read_uniform_remap_table_entry(metadata, prog->data->UniformStorage, &prog->UniformRemapTable[i], type); } for (unsigned i = 0; i < MESA_SHADER_STAGES; i++) { struct gl_linked_shader *sh = prog->_LinkedShaders[i]; if (sh) { struct gl_program *glprog = sh->Program; glprog->sh.NumSubroutineUniformRemapTable = blob_read_uint32(metadata); glprog->sh.SubroutineUniformRemapTable = rzalloc_array(glprog, struct gl_uniform_storage *, glprog->sh.NumSubroutineUniformRemapTable); for (unsigned j = 0; j < glprog->sh.NumSubroutineUniformRemapTable; j++) { enum uniform_remap_type type = (enum uniform_remap_type) blob_read_uint32(metadata); read_uniform_remap_table_entry(metadata, prog->data->UniformStorage, &glprog->sh.SubroutineUniformRemapTable[j], type); } } } } struct whte_closure { struct blob *blob; size_t num_entries; }; static void write_hash_table_entry(const char *key, unsigned value, void *closure) { struct whte_closure *whte = (struct whte_closure *) closure; blob_write_string(whte->blob, key); blob_write_uint32(whte->blob, value); whte->num_entries++; } static void write_hash_table(struct blob *metadata, struct string_to_uint_map *hash) { size_t offset; struct whte_closure whte; whte.blob = metadata; whte.num_entries = 0; offset = metadata->size; /* Write a placeholder for the hashtable size. */ blob_write_uint32 (metadata, 0); hash->iterate(write_hash_table_entry, &whte); /* Overwrite with the computed number of entries written. */ blob_overwrite_uint32 (metadata, offset, whte.num_entries); } static void read_hash_table(struct blob_reader *metadata, struct string_to_uint_map *hash) { size_t i, num_entries; const char *key; uint32_t value; num_entries = blob_read_uint32 (metadata); for (i = 0; i < num_entries; i++) { key = blob_read_string(metadata); value = blob_read_uint32(metadata); hash->put(value, key); } } static void write_hash_tables(struct blob *metadata, struct gl_shader_program *prog) { write_hash_table(metadata, prog->AttributeBindings); write_hash_table(metadata, prog->FragDataBindings); write_hash_table(metadata, prog->FragDataIndexBindings); } static void read_hash_tables(struct blob_reader *metadata, struct gl_shader_program *prog) { read_hash_table(metadata, prog->AttributeBindings); read_hash_table(metadata, prog->FragDataBindings); read_hash_table(metadata, prog->FragDataIndexBindings); } static void write_shader_subroutine_index(struct blob *metadata, struct gl_linked_shader *sh, struct gl_program_resource *res) { assert(sh); for (unsigned j = 0; j < sh->Program->sh.NumSubroutineFunctions; j++) { if (strcmp(((gl_subroutine_function *)res->Data)->name, sh->Program->sh.SubroutineFunctions[j].name) == 0) { blob_write_uint32(metadata, j); break; } } } static void get_shader_var_and_pointer_sizes(size_t *s_var_size, size_t *s_var_ptrs, const gl_shader_variable *var) { *s_var_size = sizeof(gl_shader_variable); *s_var_ptrs = sizeof(var->type) + sizeof(var->interface_type) + sizeof(var->outermost_struct_type) + sizeof(var->name); } static void write_program_resource_data(struct blob *metadata, struct gl_shader_program *prog, struct gl_program_resource *res) { struct gl_linked_shader *sh; switch(res->Type) { case GL_PROGRAM_INPUT: case GL_PROGRAM_OUTPUT: { const gl_shader_variable *var = (gl_shader_variable *)res->Data; encode_type_to_blob(metadata, var->type); encode_type_to_blob(metadata, var->interface_type); encode_type_to_blob(metadata, var->outermost_struct_type); blob_write_string(metadata, var->name); size_t s_var_size, s_var_ptrs; get_shader_var_and_pointer_sizes(&s_var_size, &s_var_ptrs, var); /* Write gl_shader_variable skipping over the pointers */ blob_write_bytes(metadata, ((char *)var) + s_var_ptrs, s_var_size - s_var_ptrs); break; } case GL_UNIFORM_BLOCK: for (unsigned i = 0; i < prog->data->NumUniformBlocks; i++) { if (strcmp(((gl_uniform_block *)res->Data)->Name, prog->data->UniformBlocks[i].Name) == 0) { blob_write_uint32(metadata, i); break; } } break; case GL_SHADER_STORAGE_BLOCK: for (unsigned i = 0; i < prog->data->NumShaderStorageBlocks; i++) { if (strcmp(((gl_uniform_block *)res->Data)->Name, prog->data->ShaderStorageBlocks[i].Name) == 0) { blob_write_uint32(metadata, i); break; } } break; case GL_BUFFER_VARIABLE: case GL_VERTEX_SUBROUTINE_UNIFORM: case GL_GEOMETRY_SUBROUTINE_UNIFORM: case GL_FRAGMENT_SUBROUTINE_UNIFORM: case GL_COMPUTE_SUBROUTINE_UNIFORM: case GL_TESS_CONTROL_SUBROUTINE_UNIFORM: case GL_TESS_EVALUATION_SUBROUTINE_UNIFORM: case GL_UNIFORM: for (unsigned i = 0; i < prog->data->NumUniformStorage; i++) { if (strcmp(((gl_uniform_storage *)res->Data)->name, prog->data->UniformStorage[i].name) == 0) { blob_write_uint32(metadata, i); break; } } break; case GL_ATOMIC_COUNTER_BUFFER: for (unsigned i = 0; i < prog->data->NumAtomicBuffers; i++) { if (((gl_active_atomic_buffer *)res->Data)->Binding == prog->data->AtomicBuffers[i].Binding) { blob_write_uint32(metadata, i); break; } } break; case GL_TRANSFORM_FEEDBACK_BUFFER: for (unsigned i = 0; i < MAX_FEEDBACK_BUFFERS; i++) { if (((gl_transform_feedback_buffer *)res->Data)->Binding == prog->last_vert_prog->sh.LinkedTransformFeedback->Buffers[i].Binding) { blob_write_uint32(metadata, i); break; } } break; case GL_TRANSFORM_FEEDBACK_VARYING: for (int i = 0; i < prog->last_vert_prog->sh.LinkedTransformFeedback->NumVarying; i++) { if (strcmp(((gl_transform_feedback_varying_info *)res->Data)->Name, prog->last_vert_prog->sh.LinkedTransformFeedback->Varyings[i].Name) == 0) { blob_write_uint32(metadata, i); break; } } break; case GL_VERTEX_SUBROUTINE: case GL_TESS_CONTROL_SUBROUTINE: case GL_TESS_EVALUATION_SUBROUTINE: case GL_GEOMETRY_SUBROUTINE: case GL_FRAGMENT_SUBROUTINE: case GL_COMPUTE_SUBROUTINE: sh = prog->_LinkedShaders[_mesa_shader_stage_from_subroutine(res->Type)]; write_shader_subroutine_index(metadata, sh, res); break; default: assert(!"Support for writing resource not yet implemented."); } } static void read_program_resource_data(struct blob_reader *metadata, struct gl_shader_program *prog, struct gl_program_resource *res) { struct gl_linked_shader *sh; switch(res->Type) { case GL_PROGRAM_INPUT: case GL_PROGRAM_OUTPUT: { gl_shader_variable *var = ralloc(prog, struct gl_shader_variable); var->type = decode_type_from_blob(metadata); var->interface_type = decode_type_from_blob(metadata); var->outermost_struct_type = decode_type_from_blob(metadata); var->name = ralloc_strdup(prog, blob_read_string(metadata)); size_t s_var_size, s_var_ptrs; get_shader_var_and_pointer_sizes(&s_var_size, &s_var_ptrs, var); blob_copy_bytes(metadata, ((uint8_t *) var) + s_var_ptrs, s_var_size - s_var_ptrs); res->Data = var; break; } case GL_UNIFORM_BLOCK: res->Data = &prog->data->UniformBlocks[blob_read_uint32(metadata)]; break; case GL_SHADER_STORAGE_BLOCK: res->Data = &prog->data->ShaderStorageBlocks[blob_read_uint32(metadata)]; break; case GL_BUFFER_VARIABLE: case GL_VERTEX_SUBROUTINE_UNIFORM: case GL_GEOMETRY_SUBROUTINE_UNIFORM: case GL_FRAGMENT_SUBROUTINE_UNIFORM: case GL_COMPUTE_SUBROUTINE_UNIFORM: case GL_TESS_CONTROL_SUBROUTINE_UNIFORM: case GL_TESS_EVALUATION_SUBROUTINE_UNIFORM: case GL_UNIFORM: res->Data = &prog->data->UniformStorage[blob_read_uint32(metadata)]; break; case GL_ATOMIC_COUNTER_BUFFER: res->Data = &prog->data->AtomicBuffers[blob_read_uint32(metadata)]; break; case GL_TRANSFORM_FEEDBACK_BUFFER: res->Data = &prog->last_vert_prog-> sh.LinkedTransformFeedback->Buffers[blob_read_uint32(metadata)]; break; case GL_TRANSFORM_FEEDBACK_VARYING: res->Data = &prog->last_vert_prog-> sh.LinkedTransformFeedback->Varyings[blob_read_uint32(metadata)]; break; case GL_VERTEX_SUBROUTINE: case GL_TESS_CONTROL_SUBROUTINE: case GL_TESS_EVALUATION_SUBROUTINE: case GL_GEOMETRY_SUBROUTINE: case GL_FRAGMENT_SUBROUTINE: case GL_COMPUTE_SUBROUTINE: sh = prog->_LinkedShaders[_mesa_shader_stage_from_subroutine(res->Type)]; res->Data = &sh->Program->sh.SubroutineFunctions[blob_read_uint32(metadata)]; break; default: assert(!"Support for reading resource not yet implemented."); } } static void write_program_resource_list(struct blob *metadata, struct gl_shader_program *prog) { blob_write_uint32(metadata, prog->data->NumProgramResourceList); for (unsigned i = 0; i < prog->data->NumProgramResourceList; i++) { blob_write_uint32(metadata, prog->data->ProgramResourceList[i].Type); write_program_resource_data(metadata, prog, &prog->data->ProgramResourceList[i]); blob_write_bytes(metadata, &prog->data->ProgramResourceList[i].StageReferences, sizeof(prog->data->ProgramResourceList[i].StageReferences)); } } static void read_program_resource_list(struct blob_reader *metadata, struct gl_shader_program *prog) { prog->data->NumProgramResourceList = blob_read_uint32(metadata); prog->data->ProgramResourceList = ralloc_array(prog->data, gl_program_resource, prog->data->NumProgramResourceList); for (unsigned i = 0; i < prog->data->NumProgramResourceList; i++) { prog->data->ProgramResourceList[i].Type = blob_read_uint32(metadata); read_program_resource_data(metadata, prog, &prog->data->ProgramResourceList[i]); blob_copy_bytes(metadata, (uint8_t *) &prog->data->ProgramResourceList[i].StageReferences, sizeof(prog->data->ProgramResourceList[i].StageReferences)); } } static void write_shader_parameters(struct blob *metadata, struct gl_program_parameter_list *params) { blob_write_uint32(metadata, params->NumParameters); blob_write_uint32(metadata, params->NumParameterValues); uint32_t i = 0; while (i < params->NumParameters) { struct gl_program_parameter *param = ¶ms->Parameters[i]; blob_write_uint32(metadata, param->Type); blob_write_string(metadata, param->Name); blob_write_uint32(metadata, param->Size); blob_write_uint32(metadata, param->DataType); blob_write_bytes(metadata, param->StateIndexes, sizeof(param->StateIndexes)); i++; } blob_write_bytes(metadata, params->ParameterValues, sizeof(gl_constant_value) * params->NumParameterValues); blob_write_bytes(metadata, params->ParameterValueOffset, sizeof(uint32_t) * params->NumParameters); blob_write_uint32(metadata, params->StateFlags); } static void read_shader_parameters(struct blob_reader *metadata, struct gl_program_parameter_list *params) { gl_state_index16 state_indexes[STATE_LENGTH]; uint32_t i = 0; uint32_t num_parameters = blob_read_uint32(metadata); uint32_t num_parameters_values = blob_read_uint32(metadata); _mesa_reserve_parameter_storage(params, num_parameters); while (i < num_parameters) { gl_register_file type = (gl_register_file) blob_read_uint32(metadata); const char *name = blob_read_string(metadata); unsigned size = blob_read_uint32(metadata); unsigned data_type = blob_read_uint32(metadata); blob_copy_bytes(metadata, (uint8_t *) state_indexes, sizeof(state_indexes)); _mesa_add_parameter(params, type, name, size, data_type, NULL, state_indexes, false); i++; } blob_copy_bytes(metadata, (uint8_t *) params->ParameterValues, sizeof(gl_constant_value) * num_parameters_values); blob_copy_bytes(metadata, (uint8_t *) params->ParameterValueOffset, sizeof(uint32_t) * num_parameters); params->StateFlags = blob_read_uint32(metadata); } static void write_shader_metadata(struct blob *metadata, gl_linked_shader *shader) { assert(shader->Program); struct gl_program *glprog = shader->Program; unsigned i; blob_write_bytes(metadata, glprog->TexturesUsed, sizeof(glprog->TexturesUsed)); blob_write_uint64(metadata, glprog->SamplersUsed); blob_write_bytes(metadata, glprog->SamplerUnits, sizeof(glprog->SamplerUnits)); blob_write_bytes(metadata, glprog->sh.SamplerTargets, sizeof(glprog->sh.SamplerTargets)); blob_write_uint32(metadata, glprog->ShadowSamplers); blob_write_uint32(metadata, glprog->ExternalSamplersUsed); blob_write_bytes(metadata, glprog->sh.ImageAccess, sizeof(glprog->sh.ImageAccess)); blob_write_bytes(metadata, glprog->sh.ImageUnits, sizeof(glprog->sh.ImageUnits)); size_t ptr_size = sizeof(GLvoid *); blob_write_uint32(metadata, glprog->sh.NumBindlessSamplers); blob_write_uint32(metadata, glprog->sh.HasBoundBindlessSampler); for (i = 0; i < glprog->sh.NumBindlessSamplers; i++) { blob_write_bytes(metadata, &glprog->sh.BindlessSamplers[i], sizeof(struct gl_bindless_sampler) - ptr_size); } blob_write_uint32(metadata, glprog->sh.NumBindlessImages); blob_write_uint32(metadata, glprog->sh.HasBoundBindlessImage); for (i = 0; i < glprog->sh.NumBindlessImages; i++) { blob_write_bytes(metadata, &glprog->sh.BindlessImages[i], sizeof(struct gl_bindless_image) - ptr_size); } blob_write_bytes(metadata, &glprog->sh.fs.BlendSupport, sizeof(glprog->sh.fs.BlendSupport)); write_shader_parameters(metadata, glprog->Parameters); assert((glprog->driver_cache_blob == NULL) == (glprog->driver_cache_blob_size == 0)); blob_write_uint32(metadata, (uint32_t)glprog->driver_cache_blob_size); if (glprog->driver_cache_blob_size > 0) { blob_write_bytes(metadata, glprog->driver_cache_blob, glprog->driver_cache_blob_size); } } static void read_shader_metadata(struct blob_reader *metadata, struct gl_program *glprog, gl_linked_shader *linked) { unsigned i; blob_copy_bytes(metadata, (uint8_t *) glprog->TexturesUsed, sizeof(glprog->TexturesUsed)); glprog->SamplersUsed = blob_read_uint64(metadata); blob_copy_bytes(metadata, (uint8_t *) glprog->SamplerUnits, sizeof(glprog->SamplerUnits)); blob_copy_bytes(metadata, (uint8_t *) glprog->sh.SamplerTargets, sizeof(glprog->sh.SamplerTargets)); glprog->ShadowSamplers = blob_read_uint32(metadata); glprog->ExternalSamplersUsed = blob_read_uint32(metadata); blob_copy_bytes(metadata, (uint8_t *) glprog->sh.ImageAccess, sizeof(glprog->sh.ImageAccess)); blob_copy_bytes(metadata, (uint8_t *) glprog->sh.ImageUnits, sizeof(glprog->sh.ImageUnits)); size_t ptr_size = sizeof(GLvoid *); glprog->sh.NumBindlessSamplers = blob_read_uint32(metadata); glprog->sh.HasBoundBindlessSampler = blob_read_uint32(metadata); if (glprog->sh.NumBindlessSamplers > 0) { glprog->sh.BindlessSamplers = rzalloc_array(glprog, gl_bindless_sampler, glprog->sh.NumBindlessSamplers); for (i = 0; i < glprog->sh.NumBindlessSamplers; i++) { blob_copy_bytes(metadata, (uint8_t *) &glprog->sh.BindlessSamplers[i], sizeof(struct gl_bindless_sampler) - ptr_size); } } glprog->sh.NumBindlessImages = blob_read_uint32(metadata); glprog->sh.HasBoundBindlessImage = blob_read_uint32(metadata); if (glprog->sh.NumBindlessImages > 0) { glprog->sh.BindlessImages = rzalloc_array(glprog, gl_bindless_image, glprog->sh.NumBindlessImages); for (i = 0; i < glprog->sh.NumBindlessImages; i++) { blob_copy_bytes(metadata, (uint8_t *) &glprog->sh.BindlessImages[i], sizeof(struct gl_bindless_image) - ptr_size); } } blob_copy_bytes(metadata, (uint8_t *) &glprog->sh.fs.BlendSupport, sizeof(glprog->sh.fs.BlendSupport)); glprog->Parameters = _mesa_new_parameter_list(); read_shader_parameters(metadata, glprog->Parameters); glprog->driver_cache_blob_size = (size_t)blob_read_uint32(metadata); if (glprog->driver_cache_blob_size > 0) { glprog->driver_cache_blob = (uint8_t*)ralloc_size(glprog, glprog->driver_cache_blob_size); blob_copy_bytes(metadata, glprog->driver_cache_blob, glprog->driver_cache_blob_size); } } static void get_shader_info_and_pointer_sizes(size_t *s_info_size, size_t *s_info_ptrs, shader_info *info) { *s_info_size = sizeof(shader_info); *s_info_ptrs = sizeof(info->name) + sizeof(info->label); } static void create_linked_shader_and_program(struct gl_context *ctx, gl_shader_stage stage, struct gl_shader_program *prog, struct blob_reader *metadata) { struct gl_program *glprog; struct gl_linked_shader *linked = rzalloc(NULL, struct gl_linked_shader); linked->Stage = stage; glprog = ctx->Driver.NewProgram(ctx, _mesa_shader_stage_to_program(stage), prog->Name, false); glprog->info.stage = stage; linked->Program = glprog; read_shader_metadata(metadata, glprog, linked); glprog->info.name = ralloc_strdup(glprog, blob_read_string(metadata)); glprog->info.label = ralloc_strdup(glprog, blob_read_string(metadata)); size_t s_info_size, s_info_ptrs; get_shader_info_and_pointer_sizes(&s_info_size, &s_info_ptrs, &glprog->info); /* Restore shader info */ blob_copy_bytes(metadata, ((uint8_t *) &glprog->info) + s_info_ptrs, s_info_size - s_info_ptrs); _mesa_reference_shader_program_data(ctx, &glprog->sh.data, prog->data); _mesa_reference_program(ctx, &linked->Program, glprog); prog->_LinkedShaders[stage] = linked; } extern "C" void serialize_glsl_program(struct blob *blob, struct gl_context *ctx, struct gl_shader_program *prog) { blob_write_bytes(blob, prog->data->sha1, sizeof(prog->data->sha1)); write_uniforms(blob, prog); write_hash_tables(blob, prog); blob_write_uint32(blob, prog->data->Version); blob_write_uint32(blob, prog->data->linked_stages); for (unsigned i = 0; i < MESA_SHADER_STAGES; i++) { struct gl_linked_shader *sh = prog->_LinkedShaders[i]; if (sh) { write_shader_metadata(blob, sh); if (sh->Program->info.name) blob_write_string(blob, sh->Program->info.name); else blob_write_string(blob, ""); if (sh->Program->info.label) blob_write_string(blob, sh->Program->info.label); else blob_write_string(blob, ""); size_t s_info_size, s_info_ptrs; get_shader_info_and_pointer_sizes(&s_info_size, &s_info_ptrs, &sh->Program->info); /* Store shader info */ blob_write_bytes(blob, ((char *) &sh->Program->info) + s_info_ptrs, s_info_size - s_info_ptrs); } } write_xfb(blob, prog); write_uniform_remap_tables(blob, prog); write_atomic_buffers(blob, prog); write_buffer_blocks(blob, prog); write_subroutines(blob, prog); write_program_resource_list(blob, prog); } extern "C" bool deserialize_glsl_program(struct blob_reader *blob, struct gl_context *ctx, struct gl_shader_program *prog) { /* Fixed function programs generated by Mesa can't be serialized. */ if (prog->Name == 0) return false; assert(prog->data->UniformStorage == NULL); blob_copy_bytes(blob, prog->data->sha1, sizeof(prog->data->sha1)); read_uniforms(blob, prog); read_hash_tables(blob, prog); prog->data->Version = blob_read_uint32(blob); prog->data->linked_stages = blob_read_uint32(blob); unsigned mask = prog->data->linked_stages; while (mask) { const int j = u_bit_scan(&mask); create_linked_shader_and_program(ctx, (gl_shader_stage) j, prog, blob); } read_xfb(blob, prog); read_uniform_remap_tables(blob, prog); read_atomic_buffers(blob, prog); read_buffer_blocks(blob, prog); read_subroutines(blob, prog); read_program_resource_list(blob, prog); return !blob->overrun; }