mirror of
https://github.com/KhronosGroup/SPIRV-Tools
synced 2024-12-28 10:41:04 +00:00
c14966b882
No need to incur another copy here. These guys have embedded vectors we'd rather not copy.
405 lines
14 KiB
C++
405 lines
14 KiB
C++
// Copyright (c) 2015-2016 The Khronos Group Inc.
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//
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// Licensed under the Apache License, Version 2.0 (the "License");
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// you may not use this file except in compliance with the License.
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// You may obtain a copy of the License at
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//
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// http://www.apache.org/licenses/LICENSE-2.0
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//
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// Unless required by applicable law or agreed to in writing, software
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// distributed under the License is distributed on an "AS IS" BASIS,
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// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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// See the License for the specific language governing permissions and
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// limitations under the License.
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#include "validate.h"
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#include <cassert>
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#include <cstdio>
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#include <algorithm>
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#include <functional>
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#include <iterator>
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#include <memory>
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#include <sstream>
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#include <string>
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#include <vector>
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#include "binary.h"
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#include "diagnostic.h"
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#include "enum_string_mapping.h"
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#include "extensions.h"
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#include "instruction.h"
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#include "opcode.h"
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#include "operand.h"
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#include "spirv-tools/libspirv.h"
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#include "spirv_constant.h"
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#include "spirv_endian.h"
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#include "spirv_validator_options.h"
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#include "val/construct.h"
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#include "val/function.h"
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#include "val/validation_state.h"
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using std::function;
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using std::ostream_iterator;
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using std::placeholders::_1;
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using std::string;
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using std::stringstream;
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using std::transform;
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using std::vector;
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using libspirv::CfgPass;
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using libspirv::Extension;
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using libspirv::InstructionPass;
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using libspirv::ModuleLayoutPass;
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using libspirv::DataRulesPass;
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using libspirv::IdPass;
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using libspirv::ValidationState_t;
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spv_result_t spvValidateIDs(const spv_instruction_t* pInsts,
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const uint64_t count,
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const spv_opcode_table opcodeTable,
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const spv_operand_table operandTable,
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const spv_ext_inst_table extInstTable,
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const ValidationState_t& state,
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spv_position position) {
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position->index = SPV_INDEX_INSTRUCTION;
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if (auto error =
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spvValidateInstructionIDs(pInsts, count, opcodeTable, operandTable,
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extInstTable, state, position))
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return error;
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return SPV_SUCCESS;
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}
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namespace {
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// TODO(umar): Validate header
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// TODO(umar): The binary parser validates the magic word, and the length of the
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// header, but nothing else.
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spv_result_t setHeader(void* user_data, spv_endianness_t endian, uint32_t magic,
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uint32_t version, uint32_t generator, uint32_t id_bound,
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uint32_t reserved) {
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// Record the ID bound so that the validator can ensure no ID is out of bound.
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ValidationState_t& _ = *(reinterpret_cast<ValidationState_t*>(user_data));
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_.setIdBound(id_bound);
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(void)endian;
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(void)magic;
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(void)version;
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(void)generator;
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(void)id_bound;
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(void)reserved;
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return SPV_SUCCESS;
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}
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// Improves diagnostic messages by collecting names of IDs
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// NOTE: This function returns void and is not involved in validation
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void DebugInstructionPass(ValidationState_t& _,
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const spv_parsed_instruction_t* inst) {
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switch (inst->opcode) {
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case SpvOpName: {
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const uint32_t target = *(inst->words + inst->operands[0].offset);
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const char* str =
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reinterpret_cast<const char*>(inst->words + inst->operands[1].offset);
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_.AssignNameToId(target, str);
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} break;
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case SpvOpMemberName: {
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const uint32_t target = *(inst->words + inst->operands[0].offset);
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const char* str =
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reinterpret_cast<const char*>(inst->words + inst->operands[2].offset);
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_.AssignNameToId(target, str);
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} break;
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case SpvOpSourceContinued:
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case SpvOpSource:
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case SpvOpSourceExtension:
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case SpvOpString:
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case SpvOpLine:
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case SpvOpNoLine:
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default:
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break;
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}
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}
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// Parses OpExtension instruction and registers extension.
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void RegisterExtension(ValidationState_t& _,
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const spv_parsed_instruction_t* inst) {
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const std::string extension_str = libspirv::GetExtensionString(inst);
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Extension extension;
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if (!GetExtensionFromString(extension_str, &extension)) {
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// The error will be logged in the ProcessInstruction pass.
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return;
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}
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_.RegisterExtension(extension);
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}
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// Parses the beginning of the module searching for OpExtension instructions.
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// Registers extensions if recognized. Returns SPV_REQUESTED_TERMINATION
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// once an instruction which is not SpvOpCapability and SpvOpExtension is
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// encountered. According to the SPIR-V spec extensions are declared after
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// capabilities and before everything else.
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spv_result_t ProcessExtensions(
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void* user_data, const spv_parsed_instruction_t* inst) {
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const SpvOp opcode = static_cast<SpvOp>(inst->opcode);
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if (opcode == SpvOpCapability)
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return SPV_SUCCESS;
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if (opcode == SpvOpExtension) {
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ValidationState_t& _ = *(reinterpret_cast<ValidationState_t*>(user_data));
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RegisterExtension(_, inst);
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return SPV_SUCCESS;
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}
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// OpExtension block is finished, requesting termination.
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return SPV_REQUESTED_TERMINATION;
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}
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spv_result_t ProcessInstruction(void* user_data,
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const spv_parsed_instruction_t* inst) {
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ValidationState_t& _ = *(reinterpret_cast<ValidationState_t*>(user_data));
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_.increment_instruction_count();
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if (static_cast<SpvOp>(inst->opcode) == SpvOpEntryPoint) {
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const auto entry_point = inst->words[2];
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_.RegisterEntryPointId(entry_point);
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// Operand 3 and later are the <id> of interfaces for the entry point.
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for (int i = 3; i < inst->num_operands; ++i) {
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_.RegisterInterfaceForEntryPoint(entry_point,
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inst->words[inst->operands[i].offset]);
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}
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}
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if (static_cast<SpvOp>(inst->opcode) == SpvOpFunctionCall) {
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_.AddFunctionCallTarget(inst->words[3]);
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}
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DebugInstructionPass(_, inst);
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if (auto error = CapabilityPass(_, inst)) return error;
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if (auto error = DataRulesPass(_, inst)) return error;
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if (auto error = IdPass(_, inst)) return error;
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if (auto error = ModuleLayoutPass(_, inst)) return error;
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if (auto error = CfgPass(_, inst)) return error;
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if (auto error = InstructionPass(_, inst)) return error;
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if (auto error = TypeUniquePass(_, inst)) return error;
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return SPV_SUCCESS;
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}
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void printDot(const ValidationState_t& _, const libspirv::BasicBlock& other) {
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string block_string;
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if (other.successors()->empty()) {
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block_string += "end ";
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} else {
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for (auto block : *other.successors()) {
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block_string += _.getIdOrName(block->id()) + " ";
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}
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}
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printf("%10s -> {%s\b}\n", _.getIdOrName(other.id()).c_str(),
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block_string.c_str());
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}
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void PrintBlocks(ValidationState_t& _, libspirv::Function func) {
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assert(func.first_block());
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printf("%10s -> %s\n", _.getIdOrName(func.id()).c_str(),
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_.getIdOrName(func.first_block()->id()).c_str());
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for (const auto& block : func.ordered_blocks()) {
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printDot(_, *block);
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}
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}
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#ifdef __clang__
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#define UNUSED(func) [[gnu::unused]] func
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#elif defined(__GNUC__)
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#define UNUSED(func) \
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func __attribute__((unused)); \
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func
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#elif defined(_MSC_VER)
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#define UNUSED(func) func
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#endif
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UNUSED(void PrintDotGraph(ValidationState_t& _, libspirv::Function func)) {
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if (func.first_block()) {
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string func_name(_.getIdOrName(func.id()));
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printf("digraph %s {\n", func_name.c_str());
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PrintBlocks(_, func);
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printf("}\n");
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}
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}
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} // anonymous namespace
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spv_result_t spvValidate(const spv_const_context context,
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const spv_const_binary binary,
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spv_diagnostic* pDiagnostic) {
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return spvValidateBinary(context, binary->code, binary->wordCount,
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pDiagnostic);
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}
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spv_result_t ValidateBinaryUsingContextAndValidationState(
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const spv_context_t& context, const uint32_t* words, const size_t num_words,
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spv_diagnostic* pDiagnostic, ValidationState_t* vstate) {
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auto binary = std::unique_ptr<spv_const_binary_t>(
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new spv_const_binary_t{words, num_words});
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spv_endianness_t endian;
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spv_position_t position = {};
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if (spvBinaryEndianness(binary.get(), &endian)) {
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return libspirv::DiagnosticStream(position, context.consumer,
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SPV_ERROR_INVALID_BINARY)
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<< "Invalid SPIR-V magic number.";
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}
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spv_header_t header;
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if (spvBinaryHeaderGet(binary.get(), endian, &header)) {
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return libspirv::DiagnosticStream(position, context.consumer,
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SPV_ERROR_INVALID_BINARY)
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<< "Invalid SPIR-V header.";
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}
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// Look for OpExtension instructions and register extensions.
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// Diagnostics if any will be produced in the next pass (ProcessInstruction).
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spvBinaryParse(&context, vstate, words, num_words,
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/* parsed_header = */ nullptr, ProcessExtensions,
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/* diagnostic = */ nullptr);
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// NOTE: Parse the module and perform inline validation checks. These
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// checks do not require the the knowledge of the whole module.
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if (auto error = spvBinaryParse(&context, vstate, words, num_words,
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setHeader, ProcessInstruction, pDiagnostic))
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return error;
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if (vstate->in_function_body())
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return vstate->diag(SPV_ERROR_INVALID_LAYOUT)
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<< "Missing OpFunctionEnd at end of module.";
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// TODO(umar): Add validation checks which require the parsing of the entire
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// module. Use the information from the ProcessInstruction pass to make the
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// checks.
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if (vstate->unresolved_forward_id_count() > 0) {
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stringstream ss;
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vector<uint32_t> ids = vstate->UnresolvedForwardIds();
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transform(begin(ids), end(ids), ostream_iterator<string>(ss, " "),
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bind(&ValidationState_t::getIdName, std::ref(*vstate), _1));
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auto id_str = ss.str();
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return vstate->diag(SPV_ERROR_INVALID_ID)
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<< "The following forward referenced IDs have not been defined:\n"
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<< id_str.substr(0, id_str.size() - 1);
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}
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// CFG checks are performed after the binary has been parsed
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// and the CFGPass has collected information about the control flow
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if (auto error = PerformCfgChecks(*vstate)) return error;
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if (auto error = UpdateIdUse(*vstate)) return error;
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if (auto error = CheckIdDefinitionDominateUse(*vstate)) return error;
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if (auto error = ValidateDecorations(*vstate)) return error;
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// Entry point validation. Based on 2.16.1 (Universal Validation Rules) of the
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// SPIRV spec:
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// * There is at least one OpEntryPoint instruction, unless the Linkage
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// capability is being used.
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// * No function can be targeted by both an OpEntryPoint instruction and an
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// OpFunctionCall instruction.
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if (vstate->entry_points().empty() &&
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!vstate->HasCapability(SpvCapabilityLinkage)) {
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return vstate->diag(SPV_ERROR_INVALID_BINARY)
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<< "No OpEntryPoint instruction was found. This is only allowed if "
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"the Linkage capability is being used.";
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}
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for (const auto& entry_point : vstate->entry_points()) {
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if (vstate->IsFunctionCallTarget(entry_point)) {
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return vstate->diag(SPV_ERROR_INVALID_BINARY)
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<< "A function (" << entry_point
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<< ") may not be targeted by both an OpEntryPoint instruction and "
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"an OpFunctionCall instruction.";
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}
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}
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// NOTE: Copy each instruction for easier processing
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std::vector<spv_instruction_t> instructions;
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// Expect average instruction length to be a bit over 2 words.
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instructions.reserve(binary->wordCount / 2);
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uint64_t index = SPV_INDEX_INSTRUCTION;
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while (index < binary->wordCount) {
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uint16_t wordCount;
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uint16_t opcode;
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spvOpcodeSplit(spvFixWord(binary->code[index], endian), &wordCount,
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&opcode);
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spv_instruction_t inst;
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spvInstructionCopy(&binary->code[index], static_cast<SpvOp>(opcode),
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wordCount, endian, &inst);
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instructions.emplace_back(std::move(inst));
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index += wordCount;
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}
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position.index = SPV_INDEX_INSTRUCTION;
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return spvValidateIDs(instructions.data(), instructions.size(),
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context.opcode_table,
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context.operand_table,
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context.ext_inst_table, *vstate, &position);
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}
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spv_result_t spvValidateBinary(const spv_const_context context,
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const uint32_t* words, const size_t num_words,
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spv_diagnostic* pDiagnostic) {
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spv_context_t hijack_context = *context;
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if (pDiagnostic) {
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*pDiagnostic = nullptr;
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libspirv::UseDiagnosticAsMessageConsumer(&hijack_context, pDiagnostic);
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}
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// This interface is used for default command line options.
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spv_validator_options default_options = spvValidatorOptionsCreate();
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// Create the ValidationState using the context and default options.
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ValidationState_t vstate(&hijack_context, default_options);
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spv_result_t result = ValidateBinaryUsingContextAndValidationState(
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hijack_context, words, num_words, pDiagnostic, &vstate);
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spvValidatorOptionsDestroy(default_options);
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return result;
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}
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spv_result_t spvValidateWithOptions(const spv_const_context context,
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spv_const_validator_options options,
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const spv_const_binary binary,
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spv_diagnostic* pDiagnostic) {
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spv_context_t hijack_context = *context;
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if (pDiagnostic) {
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*pDiagnostic = nullptr;
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libspirv::UseDiagnosticAsMessageConsumer(&hijack_context, pDiagnostic);
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}
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// Create the ValidationState using the context.
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ValidationState_t vstate(&hijack_context, options);
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return ValidateBinaryUsingContextAndValidationState(
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hijack_context, binary->code, binary->wordCount, pDiagnostic, &vstate);
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}
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namespace spvtools {
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spv_result_t ValidateBinaryAndKeepValidationState(
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const spv_const_context context, spv_const_validator_options options,
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const uint32_t* words, const size_t num_words, spv_diagnostic* pDiagnostic,
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std::unique_ptr<ValidationState_t>* vstate) {
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spv_context_t hijack_context = *context;
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if (pDiagnostic) {
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*pDiagnostic = nullptr;
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libspirv::UseDiagnosticAsMessageConsumer(&hijack_context, pDiagnostic);
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}
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vstate->reset(new ValidationState_t(&hijack_context, options));
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return ValidateBinaryUsingContextAndValidationState(
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hijack_context, words, num_words, pDiagnostic, vstate->get());
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}
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spv_result_t ValidateInstructionAndUpdateValidationState(
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ValidationState_t* vstate, const spv_parsed_instruction_t* inst) {
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return ProcessInstruction(vstate, inst);
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}
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} // namespace spvtools
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