mirror of
https://github.com/KhronosGroup/SPIRV-Tools
synced 2024-11-26 21:30:07 +00:00
dfcb5a1e10
Introduced abstract class for transformations, and refactored all transformations to inherit from this abstract class.
463 lines
20 KiB
C++
463 lines
20 KiB
C++
// Copyright (c) 2019 Google LLC
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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 "source/fuzz/fuzzer_pass_obfuscate_constants.h"
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#include <cmath>
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#include "source/fuzz/transformation_replace_boolean_constant_with_constant_binary.h"
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#include "source/fuzz/transformation_replace_constant_with_uniform.h"
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#include "source/opt/ir_context.h"
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namespace spvtools {
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namespace fuzz {
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FuzzerPassObfuscateConstants::FuzzerPassObfuscateConstants(
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opt::IRContext* ir_context, FactManager* fact_manager,
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FuzzerContext* fuzzer_context,
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protobufs::TransformationSequence* transformations)
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: FuzzerPass(ir_context, fact_manager, fuzzer_context, transformations) {}
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FuzzerPassObfuscateConstants::~FuzzerPassObfuscateConstants() = default;
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void FuzzerPassObfuscateConstants::ObfuscateBoolConstantViaConstantPair(
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uint32_t depth, const protobufs::IdUseDescriptor& bool_constant_use,
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const std::vector<SpvOp>& greater_than_opcodes,
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const std::vector<SpvOp>& less_than_opcodes, uint32_t constant_id_1,
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uint32_t constant_id_2, bool first_constant_is_larger) {
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auto bool_constant_opcode = GetIRContext()
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->get_def_use_mgr()
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->GetDef(bool_constant_use.id_of_interest())
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->opcode();
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assert((bool_constant_opcode == SpvOpConstantFalse ||
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bool_constant_opcode == SpvOpConstantTrue) &&
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"Precondition: this must be a usage of a boolean constant.");
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// Pick an opcode at random. First randomly decide whether to generate
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// a 'greater than' or 'less than' kind of opcode, and then select a
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// random opcode from the resulting subset.
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SpvOp comparison_opcode;
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if (GetFuzzerContext()->GetRandomGenerator()->RandomBool()) {
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comparison_opcode = greater_than_opcodes
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[GetFuzzerContext()->GetRandomGenerator()->RandomUint32(
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static_cast<uint32_t>(greater_than_opcodes.size()))];
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} else {
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comparison_opcode = less_than_opcodes
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[GetFuzzerContext()->GetRandomGenerator()->RandomUint32(
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static_cast<uint32_t>(less_than_opcodes.size()))];
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}
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// We now need to decide how to order constant_id_1 and constant_id_2 such
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// that 'constant_id_1 comparison_opcode constant_id_2' evaluates to the
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// boolean constant.
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const bool is_greater_than_opcode =
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std::find(greater_than_opcodes.begin(), greater_than_opcodes.end(),
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comparison_opcode) != greater_than_opcodes.end();
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uint32_t lhs_id;
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uint32_t rhs_id;
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if ((bool_constant_opcode == SpvOpConstantTrue &&
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first_constant_is_larger == is_greater_than_opcode) ||
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(bool_constant_opcode == SpvOpConstantFalse &&
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first_constant_is_larger != is_greater_than_opcode)) {
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lhs_id = constant_id_1;
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rhs_id = constant_id_2;
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} else {
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lhs_id = constant_id_2;
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rhs_id = constant_id_1;
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}
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// We can now make a transformation that will replace |bool_constant_use|
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// with an expression of the form (written using infix notation):
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// |lhs_id| |comparison_opcode| |rhs_id|
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auto transformation = TransformationReplaceBooleanConstantWithConstantBinary(
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bool_constant_use, lhs_id, rhs_id, comparison_opcode,
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GetFuzzerContext()->GetFreshId());
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// The transformation should be applicable by construction.
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assert(transformation.IsApplicable(GetIRContext(), *GetFactManager()));
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// Applying this transformation yields a pointer to the new instruction that
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// computes the result of the binary expression.
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auto binary_operator_instruction =
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transformation.ApplyWithResult(GetIRContext(), GetFactManager());
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// Add this transformation to the sequence of transformations that have been
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// applied.
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*GetTransformations()->add_transformation() = transformation.ToMessage();
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// Having made a binary expression, there may now be opportunities to further
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// obfuscate the constants used as the LHS and RHS of the expression (e.g. by
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// replacing them with loads from known uniforms).
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//
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// We thus consider operands 0 and 1 (LHS and RHS in turn).
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for (uint32_t index : {0u, 1u}) {
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// We randomly decide, based on the current depth of obfuscation, whether
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// to further obfuscate this operand.
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if (GetFuzzerContext()->GoDeeperInConstantObfuscation()(
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depth, GetFuzzerContext()->GetRandomGenerator())) {
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auto in_operand_use = transformation::MakeIdUseDescriptor(
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binary_operator_instruction->GetSingleWordInOperand(index),
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binary_operator_instruction->opcode(), index,
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binary_operator_instruction->result_id(), 0);
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ObfuscateConstant(depth + 1, in_operand_use);
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}
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}
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}
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void FuzzerPassObfuscateConstants::ObfuscateBoolConstantViaFloatConstantPair(
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uint32_t depth, const protobufs::IdUseDescriptor& bool_constant_use,
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uint32_t float_constant_id_1, uint32_t float_constant_id_2) {
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auto float_constant_1 = GetIRContext()
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->get_constant_mgr()
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->FindDeclaredConstant(float_constant_id_1)
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->AsFloatConstant();
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auto float_constant_2 = GetIRContext()
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->get_constant_mgr()
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->FindDeclaredConstant(float_constant_id_2)
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->AsFloatConstant();
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assert(float_constant_1->words() != float_constant_2->words() &&
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"The constants should not be identical.");
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assert(std::isfinite(float_constant_1->GetValueAsDouble()) &&
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"The constants must be finite numbers.");
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assert(std::isfinite(float_constant_2->GetValueAsDouble()) &&
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"The constants must be finite numbers.");
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bool first_constant_is_larger;
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assert(float_constant_1->type()->AsFloat()->width() ==
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float_constant_2->type()->AsFloat()->width() &&
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"First and second floating-point constants must have the same width.");
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if (float_constant_1->type()->AsFloat()->width() == 32) {
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first_constant_is_larger =
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float_constant_1->GetFloat() > float_constant_2->GetFloat();
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} else {
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assert(float_constant_1->type()->AsFloat()->width() == 64 &&
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"Supported floating-point widths are 32 and 64.");
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first_constant_is_larger =
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float_constant_1->GetDouble() > float_constant_2->GetDouble();
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}
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std::vector<SpvOp> greater_than_opcodes{
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SpvOpFOrdGreaterThan, SpvOpFOrdGreaterThanEqual, SpvOpFUnordGreaterThan,
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SpvOpFUnordGreaterThanEqual};
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std::vector<SpvOp> less_than_opcodes{
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SpvOpFOrdGreaterThan, SpvOpFOrdGreaterThanEqual, SpvOpFUnordGreaterThan,
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SpvOpFUnordGreaterThanEqual};
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ObfuscateBoolConstantViaConstantPair(
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depth, bool_constant_use, greater_than_opcodes, less_than_opcodes,
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float_constant_id_1, float_constant_id_2, first_constant_is_larger);
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}
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void FuzzerPassObfuscateConstants::
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ObfuscateBoolConstantViaSignedIntConstantPair(
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uint32_t depth, const protobufs::IdUseDescriptor& bool_constant_use,
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uint32_t signed_int_constant_id_1, uint32_t signed_int_constant_id_2) {
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auto signed_int_constant_1 =
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GetIRContext()
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->get_constant_mgr()
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->FindDeclaredConstant(signed_int_constant_id_1)
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->AsIntConstant();
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auto signed_int_constant_2 =
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GetIRContext()
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->get_constant_mgr()
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->FindDeclaredConstant(signed_int_constant_id_2)
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->AsIntConstant();
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assert(signed_int_constant_1->words() != signed_int_constant_2->words() &&
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"The constants should not be identical.");
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bool first_constant_is_larger;
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assert(signed_int_constant_1->type()->AsInteger()->width() ==
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signed_int_constant_2->type()->AsInteger()->width() &&
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"First and second floating-point constants must have the same width.");
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assert(signed_int_constant_1->type()->AsInteger()->IsSigned());
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assert(signed_int_constant_2->type()->AsInteger()->IsSigned());
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if (signed_int_constant_1->type()->AsFloat()->width() == 32) {
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first_constant_is_larger =
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signed_int_constant_1->GetS32() > signed_int_constant_2->GetS32();
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} else {
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assert(signed_int_constant_1->type()->AsFloat()->width() == 64 &&
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"Supported integer widths are 32 and 64.");
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first_constant_is_larger =
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signed_int_constant_1->GetS64() > signed_int_constant_2->GetS64();
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}
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std::vector<SpvOp> greater_than_opcodes{SpvOpSGreaterThan,
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SpvOpSGreaterThanEqual};
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std::vector<SpvOp> less_than_opcodes{SpvOpSLessThan, SpvOpSLessThanEqual};
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ObfuscateBoolConstantViaConstantPair(
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depth, bool_constant_use, greater_than_opcodes, less_than_opcodes,
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signed_int_constant_id_1, signed_int_constant_id_2,
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first_constant_is_larger);
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}
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void FuzzerPassObfuscateConstants::
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ObfuscateBoolConstantViaUnsignedIntConstantPair(
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uint32_t depth, const protobufs::IdUseDescriptor& bool_constant_use,
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uint32_t unsigned_int_constant_id_1,
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uint32_t unsigned_int_constant_id_2) {
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auto unsigned_int_constant_1 =
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GetIRContext()
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->get_constant_mgr()
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->FindDeclaredConstant(unsigned_int_constant_id_1)
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->AsIntConstant();
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auto unsigned_int_constant_2 =
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GetIRContext()
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->get_constant_mgr()
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->FindDeclaredConstant(unsigned_int_constant_id_2)
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->AsIntConstant();
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assert(unsigned_int_constant_1->words() != unsigned_int_constant_2->words() &&
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"The constants should not be identical.");
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bool first_constant_is_larger;
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assert(unsigned_int_constant_1->type()->AsInteger()->width() ==
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unsigned_int_constant_2->type()->AsInteger()->width() &&
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"First and second floating-point constants must have the same width.");
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assert(!unsigned_int_constant_1->type()->AsInteger()->IsSigned());
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assert(!unsigned_int_constant_2->type()->AsInteger()->IsSigned());
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if (unsigned_int_constant_1->type()->AsFloat()->width() == 32) {
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first_constant_is_larger =
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unsigned_int_constant_1->GetU32() > unsigned_int_constant_2->GetU32();
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} else {
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assert(unsigned_int_constant_1->type()->AsFloat()->width() == 64 &&
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"Supported integer widths are 32 and 64.");
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first_constant_is_larger =
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unsigned_int_constant_1->GetU64() > unsigned_int_constant_2->GetU64();
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}
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std::vector<SpvOp> greater_than_opcodes{SpvOpUGreaterThan,
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SpvOpUGreaterThanEqual};
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std::vector<SpvOp> less_than_opcodes{SpvOpULessThan, SpvOpULessThanEqual};
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ObfuscateBoolConstantViaConstantPair(
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depth, bool_constant_use, greater_than_opcodes, less_than_opcodes,
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unsigned_int_constant_id_1, unsigned_int_constant_id_2,
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first_constant_is_larger);
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}
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void FuzzerPassObfuscateConstants::ObfuscateBoolConstant(
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uint32_t depth, const protobufs::IdUseDescriptor& constant_use) {
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// We want to replace the boolean constant use with a binary expression over
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// scalar constants, but only if we can then potentially replace the constants
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// with uniforms of the same value.
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auto available_types_with_uniforms =
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GetFactManager()->GetTypesForWhichUniformValuesAreKnown();
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if (available_types_with_uniforms.empty()) {
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// Do not try to obfuscate if we do not have access to any uniform
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// elements with known values.
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return;
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}
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auto chosen_type_id = available_types_with_uniforms
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[GetFuzzerContext()->GetRandomGenerator()->RandomUint32(
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static_cast<uint32_t>(available_types_with_uniforms.size()))];
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auto available_constants =
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GetFactManager()->GetConstantsAvailableFromUniformsForType(
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GetIRContext(), chosen_type_id);
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if (available_constants.size() == 1) {
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// TODO(afd): for now we only obfuscate a boolean if there are at least
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// two constants available from uniforms, so that we can do a
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// comparison between them. It would be good to be able to do the
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// obfuscation even if there is only one such constant, if there is
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// also another regular constant available.
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return;
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}
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// We know we have at least two known-to-be-constant uniforms of the chosen
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// type. Pick one of them at random.
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auto constant_index_1 =
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GetFuzzerContext()->GetRandomGenerator()->RandomUint32(
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static_cast<uint32_t>(available_constants.size()));
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uint32_t constant_index_2;
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// Now choose another one distinct from the first one.
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do {
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constant_index_2 = GetFuzzerContext()->GetRandomGenerator()->RandomUint32(
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static_cast<uint32_t>(available_constants.size()));
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} while (constant_index_1 == constant_index_2);
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auto constant_id_1 = available_constants[constant_index_1];
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auto constant_id_2 = available_constants[constant_index_2];
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assert(constant_id_1 != 0 && constant_id_2 != 0 &&
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"We should not find an available constant with an id of 0.");
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// Now perform the obfuscation, according to whether the type of the constants
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// is float, signed int, or unsigned int.
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auto chosen_type = GetIRContext()->get_type_mgr()->GetType(chosen_type_id);
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if (chosen_type->AsFloat()) {
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ObfuscateBoolConstantViaFloatConstantPair(depth, constant_use,
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constant_id_1, constant_id_2);
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} else {
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assert(chosen_type->AsInteger() &&
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"We should only have uniform facts about ints and floats.");
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if (chosen_type->AsInteger()->IsSigned()) {
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ObfuscateBoolConstantViaSignedIntConstantPair(
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depth, constant_use, constant_id_1, constant_id_2);
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} else {
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ObfuscateBoolConstantViaUnsignedIntConstantPair(
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depth, constant_use, constant_id_1, constant_id_2);
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}
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}
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}
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void FuzzerPassObfuscateConstants::ObfuscateScalarConstant(
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uint32_t /*depth*/, const protobufs::IdUseDescriptor& constant_use) {
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// TODO(https://github.com/KhronosGroup/SPIRV-Tools/issues/2670): consider
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// additional ways to obfuscate scalar constants.
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// Check whether we know that any uniforms are guaranteed to be equal to the
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// scalar constant associated with |constant_use|.
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auto uniform_descriptors = GetFactManager()->GetUniformDescriptorsForConstant(
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GetIRContext(), constant_use.id_of_interest());
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if (uniform_descriptors.empty()) {
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// No relevant uniforms, so do not obfuscate.
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return;
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}
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// Choose a random available uniform known to be equal to the constant.
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protobufs::UniformBufferElementDescriptor uniform_descriptor =
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uniform_descriptors
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[GetFuzzerContext()->GetRandomGenerator()->RandomUint32(
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static_cast<uint32_t>(uniform_descriptors.size()))];
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// Create, apply and record a transformation to replace the constant use with
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// the result of a load from the chosen uniform.
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auto transformation = TransformationReplaceConstantWithUniform(
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constant_use, uniform_descriptor, GetFuzzerContext()->GetFreshId(),
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GetFuzzerContext()->GetFreshId());
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// Transformation should be applicable by construction.
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assert(transformation.IsApplicable(GetIRContext(), *GetFactManager()));
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transformation.Apply(GetIRContext(), GetFactManager());
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*GetTransformations()->add_transformation() = transformation.ToMessage();
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}
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void FuzzerPassObfuscateConstants::ObfuscateConstant(
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uint32_t depth, const protobufs::IdUseDescriptor& constant_use) {
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switch (GetIRContext()
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->get_def_use_mgr()
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->GetDef(constant_use.id_of_interest())
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->opcode()) {
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case SpvOpConstantTrue:
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case SpvOpConstantFalse:
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ObfuscateBoolConstant(depth, constant_use);
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break;
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case SpvOpConstant:
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ObfuscateScalarConstant(depth, constant_use);
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break;
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default:
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assert(false && "The opcode should be one of the above.");
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break;
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}
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}
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void FuzzerPassObfuscateConstants::MaybeAddConstantIdUse(
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const opt::Instruction& inst, uint32_t in_operand_index,
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uint32_t base_instruction_result_id,
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const std::map<SpvOp, uint32_t>& skipped_opcode_count,
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std::vector<protobufs::IdUseDescriptor>* constant_uses) {
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if (inst.GetInOperand(in_operand_index).type != SPV_OPERAND_TYPE_ID) {
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// The operand is not an id, so it cannot be a constant id.
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return;
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}
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auto operand_id = inst.GetSingleWordInOperand(in_operand_index);
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auto operand_definition =
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GetIRContext()->get_def_use_mgr()->GetDef(operand_id);
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switch (operand_definition->opcode()) {
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case SpvOpConstantFalse:
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case SpvOpConstantTrue:
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case SpvOpConstant: {
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// The operand is a constant id, so make an id use descriptor and record
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// it.
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protobufs::IdUseDescriptor id_use_descriptor;
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id_use_descriptor.set_id_of_interest(operand_id);
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id_use_descriptor.set_target_instruction_opcode(inst.opcode());
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id_use_descriptor.set_in_operand_index(in_operand_index);
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id_use_descriptor.set_base_instruction_result_id(
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base_instruction_result_id);
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id_use_descriptor.set_num_opcodes_to_ignore(
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skipped_opcode_count.find(inst.opcode()) == skipped_opcode_count.end()
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? 0
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: skipped_opcode_count.at(inst.opcode()));
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constant_uses->push_back(id_use_descriptor);
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} break;
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default:
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break;
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}
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}
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void FuzzerPassObfuscateConstants::Apply() {
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// First, gather up all the constant uses available in the module, by going
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// through each block in each function.
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std::vector<protobufs::IdUseDescriptor> constant_uses;
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for (auto& function : *GetIRContext()->module()) {
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for (auto& block : function) {
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// For each constant use we encounter we are going to make an id use
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// descriptor. An id use is described with respect to a base instruction;
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// if there are instructions at the start of the block without result ids,
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// the base instruction will have to be the block's label.
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uint32_t base_instruction_result_id = block.id();
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// An id use descriptor also records how many instructions of a particular
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// opcode need to be skipped in order to find the instruction of interest
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// from the base instruction. We maintain a mapping that records a skip
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// count for each relevant opcode.
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std::map<SpvOp, uint32_t> skipped_opcode_count;
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// Go through each instruction in the block.
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for (auto& inst : block) {
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if (inst.HasResultId()) {
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// The instruction has a result id, so can be used as the base
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// instruction from now on, until another instruction with a result id
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// is encountered.
|
|
base_instruction_result_id = inst.result_id();
|
|
// Opcode skip counts were with respect to the previous base
|
|
// instruction and are now irrelevant.
|
|
skipped_opcode_count.clear();
|
|
}
|
|
|
|
// Consider each operand of the instruction, and add a constant id use
|
|
// for the operand if relevant.
|
|
for (uint32_t in_operand_index = 0;
|
|
in_operand_index < inst.NumInOperands(); in_operand_index++) {
|
|
MaybeAddConstantIdUse(inst, in_operand_index,
|
|
base_instruction_result_id,
|
|
skipped_opcode_count, &constant_uses);
|
|
}
|
|
|
|
if (!inst.HasResultId()) {
|
|
// The instruction has no result id, so in order to identify future id
|
|
// uses for instructions with this opcode from the existing base
|
|
// instruction, we need to increase the skip count for this opcode.
|
|
skipped_opcode_count[inst.opcode()] =
|
|
skipped_opcode_count.find(inst.opcode()) ==
|
|
skipped_opcode_count.end()
|
|
? 1
|
|
: skipped_opcode_count[inst.opcode()] + 1;
|
|
}
|
|
}
|
|
}
|
|
}
|
|
|
|
// Go through the constant uses in a random order by repeatedly pulling out a
|
|
// constant use at a random index.
|
|
while (!constant_uses.empty()) {
|
|
auto index = GetFuzzerContext()->GetRandomGenerator()->RandomUint32(
|
|
static_cast<uint32_t>(constant_uses.size()));
|
|
auto constant_use = std::move(constant_uses[index]);
|
|
constant_uses.erase(constant_uses.begin() + index);
|
|
// Decide probabilistically whether to skip or obfuscate this constant use.
|
|
if (GetFuzzerContext()->GetRandomGenerator()->RandomPercentage() >
|
|
GetFuzzerContext()->GetChanceOfObfuscatingConstant()) {
|
|
continue;
|
|
}
|
|
ObfuscateConstant(0, constant_use);
|
|
}
|
|
}
|
|
|
|
} // namespace fuzz
|
|
} // namespace spvtools
|