253 lines
8.9 KiB
C++
Executable File
253 lines
8.9 KiB
C++
Executable File
/* This file is part of the dynarmic project.
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* Copyright (c) 2018 MerryMage
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* SPDX-License-Identifier: 0BSD
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*/
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#include "common/assert.h"
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#include "a64_unicorn.h"
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#define CHECKED(expr) \
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do { \
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if (auto cerr_ = (expr)) { \
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ASSERT_MSG(false, "Call " #expr " failed with error: {} ({})\n", cerr_, \
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uc_strerror(cerr_)); \
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} \
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} while (0)
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constexpr u64 BEGIN_ADDRESS = 0;
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constexpr u64 END_ADDRESS = ~u64(0);
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A64Unicorn::A64Unicorn(A64TestEnv& testenv) : testenv(testenv) {
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CHECKED(uc_open(UC_ARCH_ARM64, UC_MODE_ARM, &uc));
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u64 fpv = 3 << 20;
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CHECKED(uc_reg_write(uc, UC_ARM64_REG_CPACR_EL1, &fpv));
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CHECKED(uc_hook_add(uc, &intr_hook, UC_HOOK_INTR, (void*)InterruptHook, this, BEGIN_ADDRESS, END_ADDRESS));
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CHECKED(uc_hook_add(uc, &mem_invalid_hook, UC_HOOK_MEM_INVALID, (void*)UnmappedMemoryHook, this, BEGIN_ADDRESS, END_ADDRESS));
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CHECKED(uc_hook_add(uc, &mem_write_prot_hook, UC_HOOK_MEM_WRITE, (void*)MemoryWriteHook, this, BEGIN_ADDRESS, END_ADDRESS));
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}
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A64Unicorn::~A64Unicorn() {
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ClearPageCache();
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CHECKED(uc_hook_del(uc, intr_hook));
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CHECKED(uc_hook_del(uc, mem_invalid_hook));
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CHECKED(uc_close(uc));
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}
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void A64Unicorn::Run() {
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while (testenv.ticks_left > 0) {
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CHECKED(uc_emu_start(uc, GetPC(), END_ADDRESS, 0, 1));
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testenv.ticks_left--;
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if (!testenv.interrupts.empty() || testenv.code_mem_modified_by_guest) {
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return;
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}
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}
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}
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u64 A64Unicorn::GetSP() const {
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u64 sp;
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CHECKED(uc_reg_read(uc, UC_ARM64_REG_SP, &sp));
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return sp;
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}
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void A64Unicorn::SetSP(u64 value) {
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CHECKED(uc_reg_write(uc, UC_ARM64_REG_SP, &value));
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}
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u64 A64Unicorn::GetPC() const {
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u64 pc;
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CHECKED(uc_reg_read(uc, UC_ARM64_REG_PC, &pc));
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return pc;
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}
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void A64Unicorn::SetPC(u64 value) {
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CHECKED(uc_reg_write(uc, UC_ARM64_REG_PC, &value));
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}
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constexpr std::array<int, A64Unicorn::num_gprs> gpr_ids{
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UC_ARM64_REG_X0, UC_ARM64_REG_X1, UC_ARM64_REG_X2, UC_ARM64_REG_X3, UC_ARM64_REG_X4, UC_ARM64_REG_X5, UC_ARM64_REG_X6, UC_ARM64_REG_X7,
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UC_ARM64_REG_X8, UC_ARM64_REG_X9, UC_ARM64_REG_X10, UC_ARM64_REG_X11, UC_ARM64_REG_X12, UC_ARM64_REG_X13, UC_ARM64_REG_X14, UC_ARM64_REG_X15,
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UC_ARM64_REG_X16, UC_ARM64_REG_X17, UC_ARM64_REG_X18, UC_ARM64_REG_X19, UC_ARM64_REG_X20, UC_ARM64_REG_X21, UC_ARM64_REG_X22, UC_ARM64_REG_X23,
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UC_ARM64_REG_X24, UC_ARM64_REG_X25, UC_ARM64_REG_X26, UC_ARM64_REG_X27, UC_ARM64_REG_X28, UC_ARM64_REG_X29, UC_ARM64_REG_X30
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};
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A64Unicorn::RegisterArray A64Unicorn::GetRegisters() const {
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RegisterArray regs{};
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RegisterPtrArray ptrs;
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for (size_t i = 0; i < ptrs.size(); ++i)
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ptrs[i] = ®s[i];
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CHECKED(uc_reg_read_batch(uc, const_cast<int*>(gpr_ids.data()),
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reinterpret_cast<void**>(ptrs.data()), static_cast<int>(num_gprs)));
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return regs;
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}
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void A64Unicorn::SetRegisters(const RegisterArray& value) {
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RegisterConstPtrArray ptrs;
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for (size_t i = 0; i < ptrs.size(); ++i)
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ptrs[i] = &value[i];
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CHECKED(uc_reg_write_batch(uc, const_cast<int*>(gpr_ids.data()),
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reinterpret_cast<void**>(const_cast<u64**>(ptrs.data())), static_cast<int>(num_gprs)));
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}
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constexpr std::array<int, A64Unicorn::num_vecs> vec_ids{
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UC_ARM64_REG_Q0, UC_ARM64_REG_Q1, UC_ARM64_REG_Q2, UC_ARM64_REG_Q3, UC_ARM64_REG_Q4, UC_ARM64_REG_Q5, UC_ARM64_REG_Q6, UC_ARM64_REG_Q7,
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UC_ARM64_REG_Q8, UC_ARM64_REG_Q9, UC_ARM64_REG_Q10, UC_ARM64_REG_Q11, UC_ARM64_REG_Q12, UC_ARM64_REG_Q13, UC_ARM64_REG_Q14, UC_ARM64_REG_Q15,
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UC_ARM64_REG_Q16, UC_ARM64_REG_Q17, UC_ARM64_REG_Q18, UC_ARM64_REG_Q19, UC_ARM64_REG_Q20, UC_ARM64_REG_Q21, UC_ARM64_REG_Q22, UC_ARM64_REG_Q23,
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UC_ARM64_REG_Q24, UC_ARM64_REG_Q25, UC_ARM64_REG_Q26, UC_ARM64_REG_Q27, UC_ARM64_REG_Q28, UC_ARM64_REG_Q29, UC_ARM64_REG_Q30, UC_ARM64_REG_Q31
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};
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A64Unicorn::VectorArray A64Unicorn::GetVectors() const {
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VectorArray vecs{};
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VectorPtrArray ptrs;
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for (size_t i = 0; i < ptrs.size(); ++i)
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ptrs[i] = &vecs[i];
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CHECKED(uc_reg_read_batch(uc, const_cast<int*>(vec_ids.data()),
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reinterpret_cast<void**>(ptrs.data()), static_cast<int>(num_vecs)));
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return vecs;
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}
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void A64Unicorn::SetVectors(const VectorArray& value) {
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VectorConstPtrArray ptrs;
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for (size_t i = 0; i < ptrs.size(); ++i)
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ptrs[i] = &value[i];
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CHECKED(uc_reg_write_batch(uc, const_cast<int*>(vec_ids.data()),
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reinterpret_cast<void* const *>(const_cast<Vector**>(ptrs.data())), static_cast<int>(num_vecs)));
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}
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u32 A64Unicorn::GetFpcr() const {
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u32 fpcr;
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CHECKED(uc_reg_read(uc, UC_ARM64_REG_FPCR, &fpcr));
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return fpcr;
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}
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void A64Unicorn::SetFpcr(u32 value) {
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CHECKED(uc_reg_write(uc, UC_ARM64_REG_FPCR, &value));
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}
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u32 A64Unicorn::GetFpsr() const {
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u32 fpsr;
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CHECKED(uc_reg_read(uc, UC_ARM64_REG_FPSR, &fpsr));
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return fpsr;
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}
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void A64Unicorn::SetFpsr(u32 value) {
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CHECKED(uc_reg_write(uc, UC_ARM64_REG_FPSR, &value));
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}
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u32 A64Unicorn::GetPstate() const {
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u32 pstate;
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CHECKED(uc_reg_read(uc, UC_ARM64_REG_NZCV, &pstate));
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return pstate;
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}
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void A64Unicorn::SetPstate(u32 value) {
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CHECKED(uc_reg_write(uc, UC_ARM64_REG_NZCV, &value));
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}
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void A64Unicorn::ClearPageCache() {
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for (const auto& page : pages) {
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CHECKED(uc_mem_unmap(uc, page->address, 4096));
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}
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pages.clear();
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}
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void A64Unicorn::DumpMemoryInformation() {
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uc_mem_region* regions;
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u32 count;
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CHECKED(uc_mem_regions(uc, ®ions, &count));
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for (u32 i = 0; i < count; ++i) {
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printf("region: start 0x%016" PRIx64 " end 0x%016" PRIx64 " perms 0x%08x\n", regions[i].begin, regions[i].end, regions[i].perms);
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}
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CHECKED(uc_free(regions));
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}
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void A64Unicorn::InterruptHook(uc_engine* uc, u32 int_number, void* user_data) {
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auto* this_ = static_cast<A64Unicorn*>(user_data);
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u32 esr;
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CHECKED(uc_reg_read(uc, UC_ARM64_REG_ESR, &esr));
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auto ec = esr >> 26;
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auto iss = esr & 0xFFFFFF;
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switch (ec) {
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case 0x15: // SVC
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this_->testenv.CallSVC(iss);
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break;
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default:
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this_->testenv.interrupts.emplace_back(fmt::format("Unhandled interrupt: int_number: {:#x}, esr: {:#x} (ec: {:#x}, iss: {:#x})", int_number, esr, ec, iss));
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break;
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}
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}
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bool A64Unicorn::UnmappedMemoryHook(uc_engine* uc, uc_mem_type /*type*/, u64 start_address, int size, u64 /*value*/, void* user_data) {
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auto* this_ = static_cast<A64Unicorn*>(user_data);
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const auto generate_page = [&](u64 base_address) {
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// printf("generate_page(%" PRIx64 ")\n", base_address);
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const u32 permissions = [&]() -> u32 {
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if (base_address < this_->testenv.code_mem.size() * 4)
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return UC_PROT_READ | UC_PROT_EXEC;
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return UC_PROT_READ;
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}();
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auto page = std::make_unique<Page>();
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page->address = base_address;
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for (size_t i = 0; i < page->data.size(); ++i)
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page->data[i] = this_->testenv.MemoryRead8(base_address + i);
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uc_err err = uc_mem_map_ptr(uc, base_address, page->data.size(), permissions, page->data.data());
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if (err == UC_ERR_MAP)
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return; // page already exists
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CHECKED(err);
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this_->pages.emplace_back(std::move(page));
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};
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const auto is_in_range = [](u64 addr, u64 start, u64 end) {
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if (start <= end)
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return addr >= start && addr <= end; // fffff[tttttt]fffff
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return addr >= start || addr <= end; // ttttt]ffffff[ttttt
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};
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const u64 start_address_page = start_address & ~u64(0xFFF);
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const u64 end_address = start_address + size - 1;
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u64 current_address = start_address_page;
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do {
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generate_page(current_address);
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current_address += 0x1000;
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} while (is_in_range(current_address, start_address_page, end_address) && current_address != start_address_page);
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return true;
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}
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bool A64Unicorn::MemoryWriteHook(uc_engine* /*uc*/, uc_mem_type /*type*/, u64 start_address, int size, u64 value, void* user_data) {
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auto* this_ = static_cast<A64Unicorn*>(user_data);
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switch (size) {
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case 1:
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this_->testenv.MemoryWrite8(start_address, static_cast<u8>(value));
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break;
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case 2:
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this_->testenv.MemoryWrite16(start_address, static_cast<u16>(value));
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break;
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case 4:
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this_->testenv.MemoryWrite32(start_address, static_cast<u32>(value));
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break;
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case 8:
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this_->testenv.MemoryWrite64(start_address, value);
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break;
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default:
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UNREACHABLE();
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}
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return true;
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}
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