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https://github.com/KhronosGroup/SPIRV-Tools
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ad3d23f478
Fixes #2929.
442 lines
21 KiB
C++
442 lines
21 KiB
C++
// Copyright (c) 2019 The Khronos Group Inc.
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// Copyright (c) 2019 Valve Corporation
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// Copyright (c) 2019 LunarG 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 "inst_buff_addr_check_pass.h"
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namespace spvtools {
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namespace opt {
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uint32_t InstBuffAddrCheckPass::CloneOriginalReference(
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Instruction* ref_inst, InstructionBuilder* builder) {
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// Clone original ref with new result id (if load)
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assert(
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(ref_inst->opcode() == SpvOpLoad || ref_inst->opcode() == SpvOpStore) &&
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"unexpected ref");
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std::unique_ptr<Instruction> new_ref_inst(ref_inst->Clone(context()));
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uint32_t ref_result_id = ref_inst->result_id();
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uint32_t new_ref_id = 0;
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if (ref_result_id != 0) {
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new_ref_id = TakeNextId();
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new_ref_inst->SetResultId(new_ref_id);
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}
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// Register new reference and add to new block
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Instruction* added_inst = builder->AddInstruction(std::move(new_ref_inst));
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uid2offset_[added_inst->unique_id()] = uid2offset_[ref_inst->unique_id()];
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if (new_ref_id != 0)
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get_decoration_mgr()->CloneDecorations(ref_result_id, new_ref_id);
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return new_ref_id;
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}
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bool InstBuffAddrCheckPass::IsPhysicalBuffAddrReference(Instruction* ref_inst) {
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if (ref_inst->opcode() != SpvOpLoad && ref_inst->opcode() != SpvOpStore)
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return false;
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uint32_t ptr_id = ref_inst->GetSingleWordInOperand(0);
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analysis::DefUseManager* du_mgr = get_def_use_mgr();
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Instruction* ptr_inst = du_mgr->GetDef(ptr_id);
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if (ptr_inst->opcode() != SpvOpAccessChain) return false;
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uint32_t ptr_ty_id = ptr_inst->type_id();
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Instruction* ptr_ty_inst = du_mgr->GetDef(ptr_ty_id);
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if (ptr_ty_inst->GetSingleWordInOperand(0) !=
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SpvStorageClassPhysicalStorageBufferEXT)
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return false;
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return true;
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}
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// TODO(greg-lunarg): Refactor with InstBindlessCheckPass::GenCheckCode() ??
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void InstBuffAddrCheckPass::GenCheckCode(
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uint32_t check_id, uint32_t error_id, uint32_t ref_uptr_id,
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uint32_t stage_idx, Instruction* ref_inst,
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std::vector<std::unique_ptr<BasicBlock>>* new_blocks) {
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BasicBlock* back_blk_ptr = &*new_blocks->back();
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InstructionBuilder builder(
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context(), back_blk_ptr,
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IRContext::kAnalysisDefUse | IRContext::kAnalysisInstrToBlockMapping);
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// Gen conditional branch on check_id. Valid branch generates original
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// reference. Invalid generates debug output and zero result (if needed).
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uint32_t merge_blk_id = TakeNextId();
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uint32_t valid_blk_id = TakeNextId();
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uint32_t invalid_blk_id = TakeNextId();
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std::unique_ptr<Instruction> merge_label(NewLabel(merge_blk_id));
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std::unique_ptr<Instruction> valid_label(NewLabel(valid_blk_id));
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std::unique_ptr<Instruction> invalid_label(NewLabel(invalid_blk_id));
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(void)builder.AddConditionalBranch(check_id, valid_blk_id, invalid_blk_id,
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merge_blk_id, SpvSelectionControlMaskNone);
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// Gen valid branch
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std::unique_ptr<BasicBlock> new_blk_ptr(
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new BasicBlock(std::move(valid_label)));
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builder.SetInsertPoint(&*new_blk_ptr);
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uint32_t new_ref_id = CloneOriginalReference(ref_inst, &builder);
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(void)builder.AddBranch(merge_blk_id);
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new_blocks->push_back(std::move(new_blk_ptr));
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// Gen invalid block
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new_blk_ptr.reset(new BasicBlock(std::move(invalid_label)));
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builder.SetInsertPoint(&*new_blk_ptr);
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// Convert uptr from uint64 to 2 uint32
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Instruction* lo_uptr_inst =
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builder.AddUnaryOp(GetUintId(), SpvOpUConvert, ref_uptr_id);
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Instruction* rshift_uptr_inst =
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builder.AddBinaryOp(GetUint64Id(), SpvOpShiftRightLogical, ref_uptr_id,
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builder.GetUintConstantId(32));
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Instruction* hi_uptr_inst = builder.AddUnaryOp(GetUintId(), SpvOpUConvert,
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rshift_uptr_inst->result_id());
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GenDebugStreamWrite(
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uid2offset_[ref_inst->unique_id()], stage_idx,
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{error_id, lo_uptr_inst->result_id(), hi_uptr_inst->result_id()},
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&builder);
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// Gen zero for invalid load. If pointer type, need to convert uint64
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// zero to pointer; cannot create ConstantNull of pointer type.
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uint32_t null_id = 0;
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if (new_ref_id != 0) {
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uint32_t ref_type_id = ref_inst->type_id();
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analysis::TypeManager* type_mgr = context()->get_type_mgr();
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analysis::Type* ref_type = type_mgr->GetType(ref_type_id);
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if (ref_type->AsPointer() != nullptr) {
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uint32_t null_u64_id = GetNullId(GetUint64Id());
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Instruction* null_ptr_inst =
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builder.AddUnaryOp(ref_type_id, SpvOpConvertUToPtr, null_u64_id);
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null_id = null_ptr_inst->result_id();
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} else {
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null_id = GetNullId(ref_type_id);
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}
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}
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(void)builder.AddBranch(merge_blk_id);
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new_blocks->push_back(std::move(new_blk_ptr));
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// Gen merge block
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new_blk_ptr.reset(new BasicBlock(std::move(merge_label)));
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builder.SetInsertPoint(&*new_blk_ptr);
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// Gen phi of new reference and zero, if necessary, and replace the
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// result id of the original reference with that of the Phi. Kill original
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// reference.
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if (new_ref_id != 0) {
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Instruction* phi_inst =
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builder.AddPhi(ref_inst->type_id(),
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{new_ref_id, valid_blk_id, null_id, invalid_blk_id});
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context()->ReplaceAllUsesWith(ref_inst->result_id(), phi_inst->result_id());
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}
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new_blocks->push_back(std::move(new_blk_ptr));
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context()->KillInst(ref_inst);
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}
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uint32_t InstBuffAddrCheckPass::GetTypeLength(uint32_t type_id) {
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Instruction* type_inst = get_def_use_mgr()->GetDef(type_id);
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switch (type_inst->opcode()) {
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case SpvOpTypeFloat:
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case SpvOpTypeInt:
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return type_inst->GetSingleWordInOperand(0) / 8u;
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case SpvOpTypeVector:
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case SpvOpTypeMatrix:
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return type_inst->GetSingleWordInOperand(1) *
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GetTypeLength(type_inst->GetSingleWordInOperand(0));
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case SpvOpTypePointer:
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assert(type_inst->GetSingleWordInOperand(0) ==
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SpvStorageClassPhysicalStorageBufferEXT &&
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"unexpected pointer type");
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return 8u;
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default:
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assert(false && "unexpected buffer reference type");
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return 0;
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}
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}
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void InstBuffAddrCheckPass::AddParam(uint32_t type_id,
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std::vector<uint32_t>* param_vec,
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std::unique_ptr<Function>* input_func) {
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uint32_t pid = TakeNextId();
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param_vec->push_back(pid);
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std::unique_ptr<Instruction> param_inst(new Instruction(
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get_module()->context(), SpvOpFunctionParameter, type_id, pid, {}));
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get_def_use_mgr()->AnalyzeInstDefUse(&*param_inst);
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(*input_func)->AddParameter(std::move(param_inst));
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}
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uint32_t InstBuffAddrCheckPass::GetSearchAndTestFuncId() {
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if (search_test_func_id_ == 0) {
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// Generate function "bool search_and_test(uint64_t ref_ptr, uint32_t len)"
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// which searches input buffer for buffer which most likely contains the
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// pointer value |ref_ptr| and verifies that the entire reference of
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// length |len| bytes is contained in the buffer.
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search_test_func_id_ = TakeNextId();
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analysis::TypeManager* type_mgr = context()->get_type_mgr();
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std::vector<const analysis::Type*> param_types = {
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type_mgr->GetType(GetUint64Id()), type_mgr->GetType(GetUintId())};
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analysis::Function func_ty(type_mgr->GetType(GetBoolId()), param_types);
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analysis::Type* reg_func_ty = type_mgr->GetRegisteredType(&func_ty);
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std::unique_ptr<Instruction> func_inst(
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new Instruction(get_module()->context(), SpvOpFunction, GetBoolId(),
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search_test_func_id_,
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{{spv_operand_type_t::SPV_OPERAND_TYPE_LITERAL_INTEGER,
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{SpvFunctionControlMaskNone}},
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{spv_operand_type_t::SPV_OPERAND_TYPE_ID,
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{type_mgr->GetTypeInstruction(reg_func_ty)}}}));
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get_def_use_mgr()->AnalyzeInstDefUse(&*func_inst);
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std::unique_ptr<Function> input_func =
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MakeUnique<Function>(std::move(func_inst));
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std::vector<uint32_t> param_vec;
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// Add ref_ptr and length parameters
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AddParam(GetUint64Id(), ¶m_vec, &input_func);
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AddParam(GetUintId(), ¶m_vec, &input_func);
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// Empty first block.
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uint32_t first_blk_id = TakeNextId();
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std::unique_ptr<Instruction> first_blk_label(NewLabel(first_blk_id));
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std::unique_ptr<BasicBlock> first_blk_ptr =
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MakeUnique<BasicBlock>(std::move(first_blk_label));
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InstructionBuilder builder(
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context(), &*first_blk_ptr,
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IRContext::kAnalysisDefUse | IRContext::kAnalysisInstrToBlockMapping);
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uint32_t hdr_blk_id = TakeNextId();
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// Branch to search loop header
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std::unique_ptr<Instruction> hdr_blk_label(NewLabel(hdr_blk_id));
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(void)builder.AddInstruction(MakeUnique<Instruction>(
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context(), SpvOpBranch, 0, 0,
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std::initializer_list<Operand>{{SPV_OPERAND_TYPE_ID, {hdr_blk_id}}}));
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first_blk_ptr->SetParent(&*input_func);
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input_func->AddBasicBlock(std::move(first_blk_ptr));
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// Linear search loop header block
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// TODO(greg-lunarg): Implement binary search
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std::unique_ptr<BasicBlock> hdr_blk_ptr =
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MakeUnique<BasicBlock>(std::move(hdr_blk_label));
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builder.SetInsertPoint(&*hdr_blk_ptr);
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// Phi for search index. Starts with 1.
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uint32_t cont_blk_id = TakeNextId();
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std::unique_ptr<Instruction> cont_blk_label(NewLabel(cont_blk_id));
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// Deal with def-use cycle caused by search loop index computation.
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// Create Add and Phi instructions first, then do Def analysis on Add.
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// Add Phi and Add instructions and do Use analysis later.
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uint32_t idx_phi_id = TakeNextId();
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uint32_t idx_inc_id = TakeNextId();
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std::unique_ptr<Instruction> idx_inc_inst(new Instruction(
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context(), SpvOpIAdd, GetUintId(), idx_inc_id,
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{{spv_operand_type_t::SPV_OPERAND_TYPE_ID, {idx_phi_id}},
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{spv_operand_type_t::SPV_OPERAND_TYPE_ID,
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{builder.GetUintConstantId(1u)}}}));
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std::unique_ptr<Instruction> idx_phi_inst(new Instruction(
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context(), SpvOpPhi, GetUintId(), idx_phi_id,
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{{spv_operand_type_t::SPV_OPERAND_TYPE_ID,
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{builder.GetUintConstantId(1u)}},
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{spv_operand_type_t::SPV_OPERAND_TYPE_ID, {first_blk_id}},
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{spv_operand_type_t::SPV_OPERAND_TYPE_ID, {idx_inc_id}},
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{spv_operand_type_t::SPV_OPERAND_TYPE_ID, {cont_blk_id}}}));
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get_def_use_mgr()->AnalyzeInstDef(&*idx_inc_inst);
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// Add (previously created) search index phi
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(void)builder.AddInstruction(std::move(idx_phi_inst));
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// LoopMerge
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uint32_t bound_test_blk_id = TakeNextId();
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std::unique_ptr<Instruction> bound_test_blk_label(
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NewLabel(bound_test_blk_id));
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(void)builder.AddInstruction(MakeUnique<Instruction>(
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context(), SpvOpLoopMerge, 0, 0,
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std::initializer_list<Operand>{
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{SPV_OPERAND_TYPE_ID, {bound_test_blk_id}},
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{SPV_OPERAND_TYPE_ID, {cont_blk_id}},
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{SPV_OPERAND_TYPE_LITERAL_INTEGER, {SpvLoopControlMaskNone}}}));
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// Branch to continue/work block
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(void)builder.AddInstruction(MakeUnique<Instruction>(
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context(), SpvOpBranch, 0, 0,
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std::initializer_list<Operand>{{SPV_OPERAND_TYPE_ID, {cont_blk_id}}}));
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hdr_blk_ptr->SetParent(&*input_func);
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input_func->AddBasicBlock(std::move(hdr_blk_ptr));
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// Continue/Work Block. Read next buffer pointer and break if greater
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// than ref_ptr arg.
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std::unique_ptr<BasicBlock> cont_blk_ptr =
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MakeUnique<BasicBlock>(std::move(cont_blk_label));
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builder.SetInsertPoint(&*cont_blk_ptr);
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// Add (previously created) search index increment now.
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(void)builder.AddInstruction(std::move(idx_inc_inst));
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// Load next buffer address from debug input buffer
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uint32_t ibuf_id = GetInputBufferId();
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uint32_t ibuf_ptr_id = GetInputBufferPtrId();
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Instruction* uptr_ac_inst = builder.AddTernaryOp(
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ibuf_ptr_id, SpvOpAccessChain, ibuf_id,
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builder.GetUintConstantId(kDebugInputDataOffset), idx_inc_id);
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uint32_t ibuf_type_id = GetInputBufferTypeId();
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Instruction* uptr_load_inst =
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builder.AddUnaryOp(ibuf_type_id, SpvOpLoad, uptr_ac_inst->result_id());
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// If loaded address greater than ref_ptr arg, break, else branch back to
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// loop header
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Instruction* uptr_test_inst =
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builder.AddBinaryOp(GetBoolId(), SpvOpUGreaterThan,
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uptr_load_inst->result_id(), param_vec[0]);
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(void)builder.AddConditionalBranch(uptr_test_inst->result_id(),
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bound_test_blk_id, hdr_blk_id,
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kInvalidId, SpvSelectionControlMaskNone);
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cont_blk_ptr->SetParent(&*input_func);
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input_func->AddBasicBlock(std::move(cont_blk_ptr));
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// Bounds test block. Read length of selected buffer and test that
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// all len arg bytes are in buffer.
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std::unique_ptr<BasicBlock> bound_test_blk_ptr =
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MakeUnique<BasicBlock>(std::move(bound_test_blk_label));
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builder.SetInsertPoint(&*bound_test_blk_ptr);
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// Decrement index to point to previous/candidate buffer address
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Instruction* cand_idx_inst = builder.AddBinaryOp(
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GetUintId(), SpvOpISub, idx_inc_id, builder.GetUintConstantId(1u));
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// Load candidate buffer address
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Instruction* cand_ac_inst =
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builder.AddTernaryOp(ibuf_ptr_id, SpvOpAccessChain, ibuf_id,
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builder.GetUintConstantId(kDebugInputDataOffset),
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cand_idx_inst->result_id());
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Instruction* cand_load_inst =
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builder.AddUnaryOp(ibuf_type_id, SpvOpLoad, cand_ac_inst->result_id());
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// Compute offset of ref_ptr from candidate buffer address
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Instruction* offset_inst = builder.AddBinaryOp(
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ibuf_type_id, SpvOpISub, param_vec[0], cand_load_inst->result_id());
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// Convert ref length to uint64
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Instruction* ref_len_64_inst =
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builder.AddUnaryOp(ibuf_type_id, SpvOpUConvert, param_vec[1]);
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// Add ref length to ref offset to compute end of reference
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Instruction* ref_end_inst =
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builder.AddBinaryOp(ibuf_type_id, SpvOpIAdd, offset_inst->result_id(),
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ref_len_64_inst->result_id());
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// Load starting index of lengths in input buffer and convert to uint32
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Instruction* len_start_ac_inst =
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builder.AddTernaryOp(ibuf_ptr_id, SpvOpAccessChain, ibuf_id,
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builder.GetUintConstantId(kDebugInputDataOffset),
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builder.GetUintConstantId(0u));
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Instruction* len_start_load_inst = builder.AddUnaryOp(
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ibuf_type_id, SpvOpLoad, len_start_ac_inst->result_id());
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Instruction* len_start_32_inst = builder.AddUnaryOp(
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GetUintId(), SpvOpUConvert, len_start_load_inst->result_id());
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// Decrement search index to get candidate buffer length index
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Instruction* cand_len_idx_inst =
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builder.AddBinaryOp(GetUintId(), SpvOpISub, cand_idx_inst->result_id(),
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builder.GetUintConstantId(1u));
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// Add candidate length index to start index
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Instruction* len_idx_inst = builder.AddBinaryOp(
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GetUintId(), SpvOpIAdd, cand_len_idx_inst->result_id(),
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len_start_32_inst->result_id());
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// Load candidate buffer length
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Instruction* len_ac_inst =
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builder.AddTernaryOp(ibuf_ptr_id, SpvOpAccessChain, ibuf_id,
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builder.GetUintConstantId(kDebugInputDataOffset),
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len_idx_inst->result_id());
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Instruction* len_load_inst =
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builder.AddUnaryOp(ibuf_type_id, SpvOpLoad, len_ac_inst->result_id());
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// Test if reference end within candidate buffer length
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Instruction* len_test_inst = builder.AddBinaryOp(
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GetBoolId(), SpvOpULessThanEqual, ref_end_inst->result_id(),
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len_load_inst->result_id());
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// Return test result
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(void)builder.AddInstruction(MakeUnique<Instruction>(
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context(), SpvOpReturnValue, 0, 0,
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std::initializer_list<Operand>{
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{SPV_OPERAND_TYPE_ID, {len_test_inst->result_id()}}}));
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// Close block
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bound_test_blk_ptr->SetParent(&*input_func);
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input_func->AddBasicBlock(std::move(bound_test_blk_ptr));
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// Close function and add function to module
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std::unique_ptr<Instruction> func_end_inst(
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new Instruction(get_module()->context(), SpvOpFunctionEnd, 0, 0, {}));
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get_def_use_mgr()->AnalyzeInstDefUse(&*func_end_inst);
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input_func->SetFunctionEnd(std::move(func_end_inst));
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context()->AddFunction(std::move(input_func));
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}
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return search_test_func_id_;
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}
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uint32_t InstBuffAddrCheckPass::GenSearchAndTest(Instruction* ref_inst,
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InstructionBuilder* builder,
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uint32_t* ref_uptr_id) {
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// Enable Int64 if necessary
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if (!get_feature_mgr()->HasCapability(SpvCapabilityInt64)) {
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std::unique_ptr<Instruction> cap_int64_inst(new Instruction(
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context(), SpvOpCapability, 0, 0,
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std::initializer_list<Operand>{
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{SPV_OPERAND_TYPE_CAPABILITY, {SpvCapabilityInt64}}}));
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get_def_use_mgr()->AnalyzeInstDefUse(&*cap_int64_inst);
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context()->AddCapability(std::move(cap_int64_inst));
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}
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// Convert reference pointer to uint64
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uint32_t ref_ptr_id = ref_inst->GetSingleWordInOperand(0);
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Instruction* ref_uptr_inst =
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builder->AddUnaryOp(GetUint64Id(), SpvOpConvertPtrToU, ref_ptr_id);
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*ref_uptr_id = ref_uptr_inst->result_id();
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// Compute reference length in bytes
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analysis::DefUseManager* du_mgr = get_def_use_mgr();
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Instruction* ref_ptr_inst = du_mgr->GetDef(ref_ptr_id);
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uint32_t ref_ptr_ty_id = ref_ptr_inst->type_id();
|
|
Instruction* ref_ptr_ty_inst = du_mgr->GetDef(ref_ptr_ty_id);
|
|
uint32_t ref_len = GetTypeLength(ref_ptr_ty_inst->GetSingleWordInOperand(1));
|
|
uint32_t ref_len_id = builder->GetUintConstantId(ref_len);
|
|
// Gen call to search and test function
|
|
const std::vector<uint32_t> args = {GetSearchAndTestFuncId(), *ref_uptr_id,
|
|
ref_len_id};
|
|
Instruction* call_inst =
|
|
builder->AddNaryOp(GetBoolId(), SpvOpFunctionCall, args);
|
|
uint32_t retval = call_inst->result_id();
|
|
return retval;
|
|
}
|
|
|
|
void InstBuffAddrCheckPass::GenBuffAddrCheckCode(
|
|
BasicBlock::iterator ref_inst_itr,
|
|
UptrVectorIterator<BasicBlock> ref_block_itr, uint32_t stage_idx,
|
|
std::vector<std::unique_ptr<BasicBlock>>* new_blocks) {
|
|
// Look for reference through indexed descriptor. If found, analyze and
|
|
// save components. If not, return.
|
|
Instruction* ref_inst = &*ref_inst_itr;
|
|
if (!IsPhysicalBuffAddrReference(ref_inst)) return;
|
|
// Move original block's preceding instructions into first new block
|
|
std::unique_ptr<BasicBlock> new_blk_ptr;
|
|
MovePreludeCode(ref_inst_itr, ref_block_itr, &new_blk_ptr);
|
|
InstructionBuilder builder(
|
|
context(), &*new_blk_ptr,
|
|
IRContext::kAnalysisDefUse | IRContext::kAnalysisInstrToBlockMapping);
|
|
new_blocks->push_back(std::move(new_blk_ptr));
|
|
uint32_t error_id = builder.GetUintConstantId(kInstErrorBuffAddrUnallocRef);
|
|
// Generate code to do search and test if all bytes of reference
|
|
// are within a listed buffer. Return reference pointer converted to uint64.
|
|
uint32_t ref_uptr_id;
|
|
uint32_t valid_id = GenSearchAndTest(ref_inst, &builder, &ref_uptr_id);
|
|
// Generate test of search results with true branch
|
|
// being full reference and false branch being debug output and zero
|
|
// for the referenced value.
|
|
GenCheckCode(valid_id, error_id, ref_uptr_id, stage_idx, ref_inst,
|
|
new_blocks);
|
|
// Move original block's remaining code into remainder/merge block and add
|
|
// to new blocks
|
|
BasicBlock* back_blk_ptr = &*new_blocks->back();
|
|
MovePostludeCode(ref_block_itr, back_blk_ptr);
|
|
}
|
|
|
|
void InstBuffAddrCheckPass::InitInstBuffAddrCheck() {
|
|
// Initialize base class
|
|
InitializeInstrument();
|
|
// Initialize class
|
|
search_test_func_id_ = 0;
|
|
}
|
|
|
|
Pass::Status InstBuffAddrCheckPass::ProcessImpl() {
|
|
// Perform bindless bounds check on each entry point function in module
|
|
InstProcessFunction pfn =
|
|
[this](BasicBlock::iterator ref_inst_itr,
|
|
UptrVectorIterator<BasicBlock> ref_block_itr, uint32_t stage_idx,
|
|
std::vector<std::unique_ptr<BasicBlock>>* new_blocks) {
|
|
return GenBuffAddrCheckCode(ref_inst_itr, ref_block_itr, stage_idx,
|
|
new_blocks);
|
|
};
|
|
bool modified = InstProcessEntryPointCallTree(pfn);
|
|
return modified ? Status::SuccessWithChange : Status::SuccessWithoutChange;
|
|
}
|
|
|
|
Pass::Status InstBuffAddrCheckPass::Process() {
|
|
if (!get_feature_mgr()->HasCapability(
|
|
SpvCapabilityPhysicalStorageBufferAddressesEXT))
|
|
return Status::SuccessWithoutChange;
|
|
InitInstBuffAddrCheck();
|
|
return ProcessImpl();
|
|
}
|
|
|
|
} // namespace opt
|
|
} // namespace spvtools
|