riscv/riscv64g_bitmanip_decoder.cc - mpact-riscv - Git at Google

 // Copyright 2024 Google LLC
 //
 // Licensed under the Apache License, Version 2.0 (the "License");
 // you may not use this file except in compliance with the License.
 // You may obtain a copy of the License at
 //
 //     https://www.apache.org/licenses/LICENSE-2.0
 //
 // Unless required by applicable law or agreed to in writing, software
 // distributed under the License is distributed on an "AS IS" BASIS,
 // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 // See the License for the specific language governing permissions and
 // limitations under the License.

 #include "riscv/riscv64g_bitmanip_decoder.h"

 #include <cstdint>
 #include <new>
 #include <string>

 #include "mpact/sim/generic/instruction.h"
 #include "mpact/sim/generic/type_helpers.h"
 #include "mpact/sim/util/memory/memory_interface.h"
 #include "riscv/riscv64gzb_decoder.h"
 #include "riscv/riscv64gzb_encoding.h"
 #include "riscv/riscv64gzb_enums.h"
 #include "riscv/riscv_state.h"

 namespace mpact {
 namespace sim {
 namespace riscv {

 using ::mpact::sim::generic::operator*;  // NOLINT: is used below (clang error).

 RiscV64GBitmanipDecoder::RiscV64GBitmanipDecoder(RiscVState* state,
                                                  util::MemoryInterface* memory)
     : state_(state), memory_(memory) {
   // Need a data buffer to load instructions from memory. Allocate a single
   // buffer that can be reused for each instruction word.
   inst_db_ = state_->db_factory()->Allocate<uint32_t>(1);
   // Allocate the isa factory class, the top level isa decoder instance, and
   // the encoding parser.
   riscv_isa_factory_ = new RV64GZBIsaFactory();
   riscv_isa_ =
       new isa64gzb::RiscV64GZBInstructionSet(state, riscv_isa_factory_);
   riscv_encoding_ = new isa64gzb::RiscV64GZBEncoding(state);
 }

 RiscV64GBitmanipDecoder::~RiscV64GBitmanipDecoder() {
   delete riscv_isa_;
   delete riscv_isa_factory_;
   delete riscv_encoding_;
   inst_db_->DecRef();
 }

 generic::Instruction* RiscV64GBitmanipDecoder::DecodeInstruction(
     uint64_t address) {
   // First check that the address is aligned properly. If not, create and return
   // an instruction object that will raise an exception.
   if (address & 0x1) {
     auto* inst = new generic::Instruction(0, state_);
     inst->set_size(1);
     inst->SetDisassemblyString("Misaligned instruction address");
     inst->set_opcode(*isa64gzb::OpcodeEnum::kNone);
     inst->set_address(address);
     inst->set_semantic_function([this](generic::Instruction* inst) {
       state_->Trap(/*is_interrupt*/ false, inst->address(),
                    *ExceptionCode::kInstructionAddressMisaligned,
                    inst->address() ^ 0x1, inst);
     });
     return inst;
   }

   // If the address is greater than the max address, return an instruction
   // that will raise an exception.
   if (address > state_->max_physical_address()) {
     auto* inst = new generic::Instruction(0, state_);
     inst->set_size(0);
     inst->SetDisassemblyString("Instruction access fault");
     inst->set_opcode(*isa64gzb::OpcodeEnum::kNone);
     inst->set_address(address);
     inst->set_semantic_function([this](generic::Instruction* inst) {
       state_->Trap(/*is_interrupt*/ false, inst->address(),
                    *ExceptionCode::kInstructionAccessFault, inst->address(),
                    nullptr);
     });
     return inst;
   }

   // Read the instruction word from memory and parse it in the encoding parser.
   memory_->Load(address, inst_db_, nullptr, nullptr);
   uint32_t iword = inst_db_->Get<uint32_t>(0);
   riscv_encoding_->ParseInstruction(iword);

   // Call the isa decoder to obtain a new instruction object for the instruction
   // word that was parsed above.
   auto* instruction = riscv_isa_->Decode(address, riscv_encoding_);
   return instruction;
 }

 }  // namespace riscv
 }  // namespace sim
 }  // namespace mpact
	// Copyright 2024 Google LLC
	//
	// Licensed under the Apache License, Version 2.0 (the "License");
	// you may not use this file except in compliance with the License.
	// You may obtain a copy of the License at
	//
	// https://www.apache.org/licenses/LICENSE-2.0
	//
	// Unless required by applicable law or agreed to in writing, software
	// distributed under the License is distributed on an "AS IS" BASIS,
	// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	// See the License for the specific language governing permissions and
	// limitations under the License.

	#include "riscv/riscv64g_bitmanip_decoder.h"

	#include <cstdint>
	#include <new>
	#include <string>

	#include "mpact/sim/generic/instruction.h"
	#include "mpact/sim/generic/type_helpers.h"
	#include "mpact/sim/util/memory/memory_interface.h"
	#include "riscv/riscv64gzb_decoder.h"
	#include "riscv/riscv64gzb_encoding.h"
	#include "riscv/riscv64gzb_enums.h"
	#include "riscv/riscv_state.h"

	namespace mpact {
	namespace sim {
	namespace riscv {

	using ::mpact::sim::generic::operator*; // NOLINT: is used below (clang error).

	RiscV64GBitmanipDecoder::RiscV64GBitmanipDecoder(RiscVState* state,
	util::MemoryInterface* memory)
	: state_(state), memory_(memory) {
	// Need a data buffer to load instructions from memory. Allocate a single
	// buffer that can be reused for each instruction word.
	inst_db_ = state_->db_factory()->Allocate<uint32_t>(1);
	// Allocate the isa factory class, the top level isa decoder instance, and
	// the encoding parser.
	riscv_isa_factory_ = new RV64GZBIsaFactory();
	riscv_isa_ =
	new isa64gzb::RiscV64GZBInstructionSet(state, riscv_isa_factory_);
	riscv_encoding_ = new isa64gzb::RiscV64GZBEncoding(state);
	}

	RiscV64GBitmanipDecoder::~RiscV64GBitmanipDecoder() {
	delete riscv_isa_;
	delete riscv_isa_factory_;
	delete riscv_encoding_;
	inst_db_->DecRef();
	}

	generic::Instruction* RiscV64GBitmanipDecoder::DecodeInstruction(
	uint64_t address) {
	// First check that the address is aligned properly. If not, create and return
	// an instruction object that will raise an exception.
	if (address & 0x1) {
	auto* inst = new generic::Instruction(0, state_);
	inst->set_size(1);
	inst->SetDisassemblyString("Misaligned instruction address");
	inst->set_opcode(*isa64gzb::OpcodeEnum::kNone);
	inst->set_address(address);
	inst->set_semantic_function([this](generic::Instruction* inst) {
	state_->Trap(/is_interrupt/ false, inst->address(),
	*ExceptionCode::kInstructionAddressMisaligned,
	inst->address() ^ 0x1, inst);
	});
	return inst;
	}

	// If the address is greater than the max address, return an instruction
	// that will raise an exception.
	if (address > state_->max_physical_address()) {
	auto* inst = new generic::Instruction(0, state_);
	inst->set_size(0);
	inst->SetDisassemblyString("Instruction access fault");
	inst->set_opcode(*isa64gzb::OpcodeEnum::kNone);
	inst->set_address(address);
	inst->set_semantic_function([this](generic::Instruction* inst) {
	state_->Trap(/is_interrupt/ false, inst->address(),
	*ExceptionCode::kInstructionAccessFault, inst->address(),
	nullptr);
	});
	return inst;
	}

	// Read the instruction word from memory and parse it in the encoding parser.
	memory_->Load(address, inst_db_, nullptr, nullptr);
	uint32_t iword = inst_db_->Get<uint32_t>(0);
	riscv_encoding_->ParseInstruction(iword);

	// Call the isa decoder to obtain a new instruction object for the instruction
	// word that was parsed above.
	auto* instruction = riscv_isa_->Decode(address, riscv_encoding_);
	return instruction;
	}

	} // namespace riscv
	} // namespace sim
	} // namespace mpact