376 lines
14 KiB
C++
376 lines
14 KiB
C++
/* This file is part of the dynarmic project.
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* Copyright (c) 2016 MerryMage
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* SPDX-License-Identifier: 0BSD
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*/
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#include <algorithm>
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#include <array>
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#include <cstdio>
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#include <functional>
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#include <tuple>
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#include <vector>
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#include <catch.hpp>
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#include <dynarmic/A32/a32.h>
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#include "common/common_types.h"
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#include "common/fp/fpcr.h"
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#include "common/fp/fpsr.h"
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#include "common/scope_exit.h"
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#include "frontend/A32/disassembler/disassembler.h"
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#include "frontend/A32/location_descriptor.h"
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#include "frontend/A32/translate/translate.h"
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#include "frontend/A32/types.h"
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#include "frontend/ir/basic_block.h"
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#include "frontend/ir/location_descriptor.h"
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#include "frontend/ir/opcodes.h"
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#include "fuzz_util.h"
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#include "rand_int.h"
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#include "testenv.h"
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#include "unicorn_emu/a32_unicorn.h"
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// Must be declared last for all necessary operator<< to be declared prior to this.
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#include <fmt/format.h>
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#include <fmt/ostream.h>
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namespace {
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using namespace Dynarmic;
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bool ShouldTestInst(u32 instruction, u32 pc, bool is_last_inst) {
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const A32::LocationDescriptor location{pc, {}, {}};
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IR::Block block{location};
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const bool should_continue = A32::TranslateSingleInstruction(block, location, instruction);
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if (!should_continue && !is_last_inst) {
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return false;
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}
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if (auto terminal = block.GetTerminal(); boost::get<IR::Term::Interpret>(&terminal)) {
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return false;
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}
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for (const auto& ir_inst : block) {
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switch (ir_inst.GetOpcode()) {
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case IR::Opcode::A32ExceptionRaised:
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case IR::Opcode::A32CallSupervisor:
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case IR::Opcode::A32CoprocInternalOperation:
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case IR::Opcode::A32CoprocSendOneWord:
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case IR::Opcode::A32CoprocSendTwoWords:
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case IR::Opcode::A32CoprocGetOneWord:
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case IR::Opcode::A32CoprocGetTwoWords:
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case IR::Opcode::A32CoprocLoadWords:
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case IR::Opcode::A32CoprocStoreWords:
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return false;
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// Currently unimplemented in Unicorn
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case IR::Opcode::FPVectorRecipEstimate16:
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case IR::Opcode::FPVectorRSqrtEstimate16:
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case IR::Opcode::VectorPolynomialMultiplyLong64:
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return false;
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default:
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continue;
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}
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}
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return true;
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}
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u32 GenRandomInst(u32 pc, bool is_last_inst) {
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static const struct InstructionGeneratorInfo {
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std::vector<InstructionGenerator> generators;
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std::vector<InstructionGenerator> invalid;
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} instructions = []{
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const std::vector<std::tuple<std::string, const char*>> list {
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#define INST(fn, name, bitstring) {#fn, bitstring},
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#include "frontend/A32/decoder/arm.inc"
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#include "frontend/A32/decoder/asimd.inc"
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#include "frontend/A32/decoder/vfp.inc"
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#undef INST
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};
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std::vector<InstructionGenerator> generators;
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std::vector<InstructionGenerator> invalid;
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// List of instructions not to test
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static constexpr std::array do_not_test {
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// Translating load/stores
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"arm_LDRBT", "arm_LDRBT", "arm_LDRHT", "arm_LDRHT", "arm_LDRSBT", "arm_LDRSBT", "arm_LDRSHT", "arm_LDRSHT", "arm_LDRT", "arm_LDRT",
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"arm_STRBT", "arm_STRBT", "arm_STRHT", "arm_STRHT", "arm_STRT", "arm_STRT",
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// Exclusive load/stores
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"arm_LDREXB", "arm_LDREXD", "arm_LDREXH", "arm_LDREX", "arm_LDAEXB", "arm_LDAEXD", "arm_LDAEXH", "arm_LDAEX",
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"arm_STREXB", "arm_STREXD", "arm_STREXH", "arm_STREX", "arm_STLEXB", "arm_STLEXD", "arm_STLEXH", "arm_STLEX",
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"arm_SWP", "arm_SWPB",
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// Elevated load/store multiple instructions.
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"arm_LDM_eret", "arm_LDM_usr",
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"arm_STM_usr",
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// Hint instructions
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"arm_NOP", "arm_PLD_imm", "arm_PLD_reg", "arm_SEV",
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"arm_WFE", "arm_WFI", "arm_YIELD",
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// E, T, J
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"arm_BLX_reg", "arm_BLX_imm", "arm_BXJ", "arm_SETEND",
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// Coprocessor
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"arm_CDP", "arm_LDC", "arm_MCR", "arm_MCRR", "arm_MRC", "arm_MRRC", "arm_STC",
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// System
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"arm_CPS", "arm_RFE", "arm_SRS",
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// Undefined
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"arm_UDF",
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// FPSCR is inaccurate
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"vfp_VMRS",
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// Unimplemented in Unicorn
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"asimd_VPADD_float",
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// Incorrect Unicorn implementations
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"asimd_VRECPS", // Unicorn does not fuse the multiply and subtraction, resulting in being off by 1ULP.
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"asimd_VRSQRTS", // Unicorn does not fuse the multiply and subtraction, resulting in being off by 1ULP.
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"vfp_VCVT_from_fixed", // Unicorn does not do round-to-nearest-even for this instruction correctly.
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};
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for (const auto& [fn, bitstring] : list) {
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if (std::find(do_not_test.begin(), do_not_test.end(), fn) != do_not_test.end()) {
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invalid.emplace_back(InstructionGenerator{bitstring});
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continue;
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}
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generators.emplace_back(InstructionGenerator{bitstring});
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}
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return InstructionGeneratorInfo{generators, invalid};
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}();
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while (true) {
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const size_t index = RandInt<size_t>(0, instructions.generators.size() - 1);
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const u32 inst = instructions.generators[index].Generate();
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if ((instructions.generators[index].Mask() & 0xF0000000) == 0 && (inst & 0xF0000000) == 0xF0000000) {
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continue;
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}
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if (ShouldTestInst(inst, pc, is_last_inst)) {
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return inst;
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}
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}
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}
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Dynarmic::A32::UserConfig GetUserConfig(ArmTestEnv& testenv) {
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Dynarmic::A32::UserConfig user_config;
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user_config.enable_fast_dispatch = false;
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user_config.callbacks = &testenv;
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user_config.always_little_endian = true;
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return user_config;
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}
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static void RunTestInstance(Dynarmic::A32::Jit& jit, A32Unicorn<ArmTestEnv>& uni,
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ArmTestEnv& jit_env, ArmTestEnv& uni_env,
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const A32Unicorn<ArmTestEnv>::RegisterArray& regs,
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const A32Unicorn<ArmTestEnv>::ExtRegArray& vecs,
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const std::vector<u32>& instructions, const u32 cpsr, const u32 fpscr) {
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const u32 initial_pc = regs[15];
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const u32 num_words = initial_pc / sizeof(u32);
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const u32 code_mem_size = num_words + static_cast<u32>(instructions.size());
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jit_env.code_mem.resize(code_mem_size + 1);
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uni_env.code_mem.resize(code_mem_size + 1);
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std::copy(instructions.begin(), instructions.end(), jit_env.code_mem.begin() + num_words);
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std::copy(instructions.begin(), instructions.end(), uni_env.code_mem.begin() + num_words);
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jit_env.code_mem.back() = 0xEAFFFFFE; // B .
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uni_env.code_mem.back() = 0xEAFFFFFE; // B .
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jit_env.modified_memory.clear();
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uni_env.modified_memory.clear();
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jit_env.interrupts.clear();
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uni_env.interrupts.clear();
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jit.Regs() = regs;
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jit.ExtRegs() = vecs;
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jit.SetFpscr(fpscr);
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jit.SetCpsr(cpsr);
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jit.ClearCache();
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uni.SetRegisters(regs);
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uni.SetExtRegs(vecs);
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uni.SetFpscr(fpscr);
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uni.EnableFloatingPointAccess();
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uni.SetCpsr(cpsr);
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uni.ClearPageCache();
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jit_env.ticks_left = instructions.size();
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jit.Run();
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uni_env.ticks_left = instructions.size();
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uni.Run();
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SCOPE_FAIL {
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fmt::print("Instruction Listing:\n");
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for (u32 instruction : instructions) {
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fmt::print("{:08x} {}\n", instruction, A32::DisassembleArm(instruction));
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}
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fmt::print("\n");
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fmt::print("Initial register listing:\n");
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for (size_t i = 0; i < regs.size(); ++i) {
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fmt::print("{:3s}: {:08x}\n", static_cast<A32::Reg>(i), regs[i]);
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}
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for (size_t i = 0; i < vecs.size(); ++i) {
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fmt::print("{:3s}: {:08x}\n", static_cast<A32::ExtReg>(i), vecs[i]);
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}
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fmt::print("cpsr {:08x}\n", cpsr);
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fmt::print("fpcr {:08x}\n", fpscr);
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fmt::print("fpcr.AHP {}\n", FP::FPCR{fpscr}.AHP());
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fmt::print("fpcr.DN {}\n", FP::FPCR{fpscr}.DN());
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fmt::print("fpcr.FZ {}\n", FP::FPCR{fpscr}.FZ());
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fmt::print("fpcr.RMode {}\n", static_cast<size_t>(FP::FPCR{fpscr}.RMode()));
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fmt::print("fpcr.FZ16 {}\n", FP::FPCR{fpscr}.FZ16());
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fmt::print("\n");
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fmt::print("Final register listing:\n");
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fmt::print(" unicorn dynarmic\n");
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const auto uni_regs = uni.GetRegisters();
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for (size_t i = 0; i < regs.size(); ++i) {
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fmt::print("{:3s}: {:08x} {:08x} {}\n", static_cast<A32::Reg>(i), uni_regs[i], jit.Regs()[i], uni_regs[i] != jit.Regs()[i] ? "*" : "");
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}
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const auto uni_ext_regs = uni.GetExtRegs();
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for (size_t i = 0; i < vecs.size(); ++i) {
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fmt::print("s{:2d}: {:08x} {:08x} {}\n", static_cast<size_t>(i), uni_ext_regs[i], jit.ExtRegs()[i], uni_ext_regs[i] != jit.ExtRegs()[i] ? "*" : "");
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}
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fmt::print("cpsr {:08x} {:08x} {}\n", uni.GetCpsr(), jit.Cpsr(), uni.GetCpsr() != jit.Cpsr() ? "*" : "");
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fmt::print("fpsr {:08x} {:08x} {}\n", uni.GetFpscr(), jit.Fpscr(), (uni.GetFpscr() & 0xF0000000) != (jit.Fpscr() & 0xF0000000) ? "*" : "");
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fmt::print("\n");
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fmt::print("Modified memory:\n");
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fmt::print(" uni dyn\n");
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auto uni_iter = uni_env.modified_memory.begin();
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auto jit_iter = jit_env.modified_memory.begin();
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while (uni_iter != uni_env.modified_memory.end() || jit_iter != jit_env.modified_memory.end()) {
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if (uni_iter == uni_env.modified_memory.end() || (jit_iter != jit_env.modified_memory.end() && uni_iter->first > jit_iter->first)) {
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fmt::print("{:08x}: {:02x} *\n", jit_iter->first, jit_iter->second);
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jit_iter++;
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} else if (jit_iter == jit_env.modified_memory.end() || jit_iter->first > uni_iter->first) {
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fmt::print("{:08x}: {:02x} *\n", uni_iter->first, uni_iter->second);
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uni_iter++;
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} else if (uni_iter->first == jit_iter->first) {
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fmt::print("{:08x}: {:02x} {:02x} {}\n", uni_iter->first, uni_iter->second, jit_iter->second, uni_iter->second != jit_iter->second ? "*" : "");
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uni_iter++;
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jit_iter++;
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}
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}
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fmt::print("\n");
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fmt::print("x86_64:\n");
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fmt::print("{}\n", jit.Disassemble());
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fmt::print("Interrupts:\n");
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for (const auto& i : uni_env.interrupts) {
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std::puts(i.c_str());
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}
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};
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REQUIRE(uni_env.code_mem_modified_by_guest == jit_env.code_mem_modified_by_guest);
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if (uni_env.code_mem_modified_by_guest) {
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return;
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}
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// Qemu doesn't do Thumb transitions??
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{
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const u32 uni_pc = uni.GetPC();
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const bool is_thumb = (jit.Cpsr() & (1 << 5)) != 0;
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const u32 new_uni_pc = uni_pc & (is_thumb ? 0xFFFFFFFE : 0xFFFFFFFC);
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uni.SetPC(new_uni_pc);
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}
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REQUIRE(uni.GetRegisters() == jit.Regs());
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REQUIRE(uni.GetExtRegs() == jit.ExtRegs());
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REQUIRE((uni.GetCpsr() & 0xFFFFFDDF) == (jit.Cpsr() & 0xFFFFFDDF));
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REQUIRE((uni.GetFpscr() & 0xF0000000) == (jit.Fpscr() & 0xF0000000));
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REQUIRE(uni_env.modified_memory == jit_env.modified_memory);
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REQUIRE(uni_env.interrupts.empty());
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}
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} // Anonymous namespace
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TEST_CASE("A32: Single random instruction", "[arm]") {
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ArmTestEnv jit_env{};
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ArmTestEnv uni_env{};
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Dynarmic::A32::Jit jit{GetUserConfig(jit_env)};
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A32Unicorn<ArmTestEnv> uni{uni_env};
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A32Unicorn<ArmTestEnv>::RegisterArray regs;
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A32Unicorn<ArmTestEnv>::ExtRegArray ext_reg;
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std::vector<u32> instructions(1);
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for (size_t iteration = 0; iteration < 100000; ++iteration) {
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std::generate(regs.begin(), regs.end(), [] { return RandInt<u32>(0, ~u32(0)); });
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std::generate(ext_reg.begin(), ext_reg.end(), [] { return RandInt<u32>(0, ~u32(0)); });
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instructions[0] = GenRandomInst(0, true);
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const u32 start_address = 100;
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const u32 cpsr = (RandInt<u32>(0, 0xF) << 28) | 0x10;
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const u32 fpcr = RandomFpcr();
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INFO("Instruction: 0x" << std::hex << instructions[0]);
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regs[15] = start_address;
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RunTestInstance(jit, uni, jit_env, uni_env, regs, ext_reg, instructions, cpsr, fpcr);
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}
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}
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TEST_CASE("A32: Small random block", "[arm]") {
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ArmTestEnv jit_env{};
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ArmTestEnv uni_env{};
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Dynarmic::A32::Jit jit{GetUserConfig(jit_env)};
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A32Unicorn<ArmTestEnv> uni{uni_env};
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A32Unicorn<ArmTestEnv>::RegisterArray regs;
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A32Unicorn<ArmTestEnv>::ExtRegArray ext_reg;
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std::vector<u32> instructions(5);
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for (size_t iteration = 0; iteration < 100000; ++iteration) {
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std::generate(regs.begin(), regs.end(), [] { return RandInt<u32>(0, ~u32(0)); });
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std::generate(ext_reg.begin(), ext_reg.end(), [] { return RandInt<u32>(0, ~u32(0)); });
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instructions[0] = GenRandomInst(0, false);
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instructions[1] = GenRandomInst(4, false);
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instructions[2] = GenRandomInst(8, false);
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instructions[3] = GenRandomInst(12, false);
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instructions[4] = GenRandomInst(16, true);
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const u32 start_address = 100;
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const u32 cpsr = (RandInt<u32>(0, 0xF) << 28) | 0x10;
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const u32 fpcr = RandomFpcr();
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INFO("Instruction 1: 0x" << std::hex << instructions[0]);
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INFO("Instruction 2: 0x" << std::hex << instructions[1]);
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INFO("Instruction 3: 0x" << std::hex << instructions[2]);
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INFO("Instruction 4: 0x" << std::hex << instructions[3]);
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INFO("Instruction 5: 0x" << std::hex << instructions[4]);
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regs[15] = start_address;
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RunTestInstance(jit, uni, jit_env, uni_env, regs, ext_reg, instructions, cpsr, fpcr);
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}
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}
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TEST_CASE("A32: Large random block", "[arm]") {
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ArmTestEnv jit_env{};
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ArmTestEnv uni_env{};
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Dynarmic::A32::Jit jit{GetUserConfig(jit_env)};
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A32Unicorn<ArmTestEnv> uni{uni_env};
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A32Unicorn<ArmTestEnv>::RegisterArray regs;
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A32Unicorn<ArmTestEnv>::ExtRegArray ext_reg;
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constexpr size_t instruction_count = 100;
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std::vector<u32> instructions(instruction_count);
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for (size_t iteration = 0; iteration < 10000; ++iteration) {
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std::generate(regs.begin(), regs.end(), [] { return RandInt<u32>(0, ~u32(0)); });
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std::generate(ext_reg.begin(), ext_reg.end(), [] { return RandInt<u32>(0, ~u32(0)); });
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for (size_t j = 0; j < instruction_count; ++j) {
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instructions[j] = GenRandomInst(j * 4, j == instruction_count - 1);
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}
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const u64 start_address = 100;
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const u32 cpsr = (RandInt<u32>(0, 0xF) << 28) | 0x10;
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const u32 fpcr = RandomFpcr();
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regs[15] = start_address;
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RunTestInstance(jit, uni, jit_env, uni_env, regs, ext_reg, instructions, cpsr, fpcr);
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}
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}
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