backend/x64: Split off memory emitters

src/dynarmic/CMakeLists.txt

@@ -305,6 +305,7 @@ if (ARCHITECTURE STREQUAL "x86_64")
         target_sources(dynarmic PRIVATE
             backend/x64/a32_emit_x64.cpp
             backend/x64/a32_emit_x64.h
+            backend/x64/a32_emit_x64_memory.cpp
             backend/x64/a32_interface.cpp
             backend/x64/a32_jitstate.cpp
             backend/x64/a32_jitstate.h
@@ -315,6 +316,7 @@ if (ARCHITECTURE STREQUAL "x86_64")
         target_sources(dynarmic PRIVATE
             backend/x64/a64_emit_x64.cpp
             backend/x64/a64_emit_x64.h
+            backend/x64/a64_emit_x64_memory.cpp
             backend/x64/a64_interface.cpp
             backend/x64/a64_jitstate.cpp
             backend/x64/a64_jitstate.h

src/dynarmic/backend/x64/a32_emit_x64.cpp

@@ -11,7 +11,6 @@
 
 #include <fmt/format.h>
 #include <fmt/ostream.h>
-#include <mp/traits/integer_of_size.h>
 
 #include "dynarmic/backend/x64/a32_jitstate.h"
 #include "dynarmic/backend/x64/abi.h"
@@ -26,11 +25,9 @@
 #include "dynarmic/common/common_types.h"
 #include "dynarmic/common/scope_exit.h"
 #include "dynarmic/common/variant_util.h"
-#include "dynarmic/common/x64_disassemble.h"
 #include "dynarmic/frontend/A32/a32_location_descriptor.h"
 #include "dynarmic/frontend/A32/a32_types.h"
 #include "dynarmic/interface/A32/coprocessor.h"
-#include "dynarmic/interface/exclusive_monitor.h"
 #include "dynarmic/ir/basic_block.h"
 #include "dynarmic/ir/microinstruction.h"
 #include "dynarmic/ir/opcodes.h"
@@ -198,67 +195,6 @@ void A32EmitX64::ClearFastDispatchTable() {
     }
 }
 
-void A32EmitX64::GenFastmemFallbacks() {
-    const std::initializer_list<int> idxes{0, 1, 2, 3, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14};
-    const std::array<std::pair<size_t, ArgCallback>, 4> read_callbacks{{
-        {8, Devirtualize<&A32::UserCallbacks::MemoryRead8>(conf.callbacks)},
-        {16, Devirtualize<&A32::UserCallbacks::MemoryRead16>(conf.callbacks)},
-        {32, Devirtualize<&A32::UserCallbacks::MemoryRead32>(conf.callbacks)},
-        {64, Devirtualize<&A32::UserCallbacks::MemoryRead64>(conf.callbacks)},
-    }};
-    const std::array<std::pair<size_t, ArgCallback>, 4> write_callbacks{{
-        {8, Devirtualize<&A32::UserCallbacks::MemoryWrite8>(conf.callbacks)},
-        {16, Devirtualize<&A32::UserCallbacks::MemoryWrite16>(conf.callbacks)},
-        {32, Devirtualize<&A32::UserCallbacks::MemoryWrite32>(conf.callbacks)},
-        {64, Devirtualize<&A32::UserCallbacks::MemoryWrite64>(conf.callbacks)},
-    }};
-
-    for (int vaddr_idx : idxes) {
-        for (int value_idx : idxes) {
-            for (const auto& [bitsize, callback] : read_callbacks) {
-                code.align();
-                read_fallbacks[std::make_tuple(bitsize, vaddr_idx, value_idx)] = code.getCurr<void (*)()>();
-                ABI_PushCallerSaveRegistersAndAdjustStackExcept(code, HostLocRegIdx(value_idx));
-                if (vaddr_idx != code.ABI_PARAM2.getIdx()) {
-                    code.mov(code.ABI_PARAM2, Xbyak::Reg64{vaddr_idx});
-                }
-                callback.EmitCall(code);
-                if (value_idx != code.ABI_RETURN.getIdx()) {
-                    code.mov(Xbyak::Reg64{value_idx}, code.ABI_RETURN);
-                }
-                ABI_PopCallerSaveRegistersAndAdjustStackExcept(code, HostLocRegIdx(value_idx));
-                code.ret();
-                PerfMapRegister(read_fallbacks[std::make_tuple(bitsize, vaddr_idx, value_idx)], code.getCurr(), fmt::format("a32_read_fallback_{}", bitsize));
-            }
-
-            for (const auto& [bitsize, callback] : write_callbacks) {
-                code.align();
-                write_fallbacks[std::make_tuple(bitsize, vaddr_idx, value_idx)] = code.getCurr<void (*)()>();
-                ABI_PushCallerSaveRegistersAndAdjustStack(code);
-                if (vaddr_idx == code.ABI_PARAM3.getIdx() && value_idx == code.ABI_PARAM2.getIdx()) {
-                    code.xchg(code.ABI_PARAM2, code.ABI_PARAM3);
-                } else if (vaddr_idx == code.ABI_PARAM3.getIdx()) {
-                    code.mov(code.ABI_PARAM2, Xbyak::Reg64{vaddr_idx});
-                    if (value_idx != code.ABI_PARAM3.getIdx()) {
-                        code.mov(code.ABI_PARAM3, Xbyak::Reg64{value_idx});
-                    }
-                } else {
-                    if (value_idx != code.ABI_PARAM3.getIdx()) {
-                        code.mov(code.ABI_PARAM3, Xbyak::Reg64{value_idx});
-                    }
-                    if (vaddr_idx != code.ABI_PARAM2.getIdx()) {
-                        code.mov(code.ABI_PARAM2, Xbyak::Reg64{vaddr_idx});
-                    }
-                }
-                callback.EmitCall(code);
-                ABI_PopCallerSaveRegistersAndAdjustStack(code);
-                code.ret();
-                PerfMapRegister(write_fallbacks[std::make_tuple(bitsize, vaddr_idx, value_idx)], code.getCurr(), fmt::format("a32_write_fallback_{}", bitsize));
-            }
-        }
-    }
-}
-
 void A32EmitX64::GenTerminalHandlers() {
     // PC ends up in ebp, location_descriptor ends up in rbx
     const auto calculate_location_descriptor = [this] {
@@ -875,372 +811,6 @@ void A32EmitX64::EmitA32SetFpscrNZCV(A32EmitContext& ctx, IR::Inst* inst) {
     code.mov(dword[r15 + offsetof(A32JitState, fpsr_nzcv)], value);
 }
 
-void A32EmitX64::EmitA32ClearExclusive(A32EmitContext&, IR::Inst*) {
-    code.mov(code.byte[r15 + offsetof(A32JitState, exclusive_state)], u8(0));
-}
-
-std::optional<A32EmitX64::DoNotFastmemMarker> A32EmitX64::ShouldFastmem(A32EmitContext& ctx, IR::Inst* inst) const {
-    if (!conf.fastmem_pointer || !exception_handler.SupportsFastmem()) {
-        return std::nullopt;
-    }
-
-    const auto marker = std::make_tuple(ctx.Location(), ctx.GetInstOffset(inst));
-    if (do_not_fastmem.count(marker) > 0) {
-        return std::nullopt;
-    }
-    return marker;
-}
-
-FakeCall A32EmitX64::FastmemCallback(u64 rip_) {
-    const auto iter = fastmem_patch_info.find(rip_);
-
-    if (iter == fastmem_patch_info.end()) {
-        fmt::print("dynarmic: Segfault happened within JITted code at rip = {:016x}\n", rip_);
-        fmt::print("Segfault wasn't at a fastmem patch location!\n");
-        fmt::print("Now dumping code.......\n\n");
-        Common::DumpDisassembledX64((void*)(rip_ & ~u64(0xFFF)), 0x1000);
-        ASSERT_FALSE("iter != fastmem_patch_info.end()");
-    }
-
-    if (conf.recompile_on_fastmem_failure) {
-        const auto marker = iter->second.marker;
-        do_not_fastmem.emplace(marker);
-        InvalidateBasicBlocks({std::get<0>(marker)});
-    }
-    FakeCall ret;
-    ret.call_rip = iter->second.callback;
-    ret.ret_rip = iter->second.resume_rip;
-    return ret;
-}
-
-namespace {
-
-constexpr size_t page_bits = 12;
-constexpr size_t page_size = 1 << page_bits;
-constexpr size_t page_mask = (1 << page_bits) - 1;
-
-void EmitDetectMisaignedVAddr(BlockOfCode& code, A32EmitContext& ctx, size_t bitsize, Xbyak::Label& abort, Xbyak::Reg32 vaddr, Xbyak::Reg32 tmp) {
-    if (bitsize == 8 || (ctx.conf.detect_misaligned_access_via_page_table & bitsize) == 0) {
-        return;
-    }
-
-    const u32 align_mask = [bitsize]() -> u32 {
-        switch (bitsize) {
-        case 16:
-            return 0b1;
-        case 32:
-            return 0b11;
-        case 64:
-            return 0b111;
-        }
-        UNREACHABLE();
-    }();
-
-    code.test(vaddr, align_mask);
-
-    if (!ctx.conf.only_detect_misalignment_via_page_table_on_page_boundary) {
-        code.jnz(abort, code.T_NEAR);
-        return;
-    }
-
-    const u32 page_align_mask = static_cast<u32>(page_size - 1) & ~align_mask;
-
-    Xbyak::Label detect_boundary, resume;
-
-    code.jnz(detect_boundary, code.T_NEAR);
-    code.L(resume);
-
-    code.SwitchToFarCode();
-    code.L(detect_boundary);
-    code.mov(tmp, vaddr);
-    code.and_(tmp, page_align_mask);
-    code.cmp(tmp, page_align_mask);
-    code.jne(resume, code.T_NEAR);
-    // NOTE: We expect to fallthrough into abort code here.
-    code.SwitchToNearCode();
-}
-
-Xbyak::RegExp EmitVAddrLookup(BlockOfCode& code, A32EmitContext& ctx, size_t bitsize, Xbyak::Label& abort, Xbyak::Reg64 vaddr) {
-    const Xbyak::Reg64 page = ctx.reg_alloc.ScratchGpr();
-    const Xbyak::Reg32 tmp = ctx.conf.absolute_offset_page_table ? page.cvt32() : ctx.reg_alloc.ScratchGpr().cvt32();
-
-    EmitDetectMisaignedVAddr(code, ctx, bitsize, abort, vaddr.cvt32(), tmp);
-
-    // TODO: This code assumes vaddr has been zext from 32-bits to 64-bits.
-
-    code.mov(tmp, vaddr.cvt32());
-    code.shr(tmp, static_cast<int>(page_bits));
-    code.mov(page, qword[r14 + tmp.cvt64() * sizeof(void*)]);
-    if (ctx.conf.page_table_pointer_mask_bits == 0) {
-        code.test(page, page);
-    } else {
-        code.and_(page, ~u32(0) << ctx.conf.page_table_pointer_mask_bits);
-    }
-    code.jz(abort, code.T_NEAR);
-    if (ctx.conf.absolute_offset_page_table) {
-        return page + vaddr;
-    }
-    code.mov(tmp, vaddr.cvt32());
-    code.and_(tmp, static_cast<u32>(page_mask));
-    return page + tmp.cvt64();
-}
-
-template<std::size_t bitsize>
-void EmitReadMemoryMov(BlockOfCode& code, const Xbyak::Reg64& value, const Xbyak::RegExp& addr) {
-    switch (bitsize) {
-    case 8:
-        code.movzx(value.cvt32(), code.byte[addr]);
-        return;
-    case 16:
-        code.movzx(value.cvt32(), word[addr]);
-        return;
-    case 32:
-        code.mov(value.cvt32(), dword[addr]);
-        return;
-    case 64:
-        code.mov(value, qword[addr]);
-        return;
-    default:
-        ASSERT_FALSE("Invalid bitsize");
-    }
-}
-
-template<std::size_t bitsize>
-void EmitWriteMemoryMov(BlockOfCode& code, const Xbyak::RegExp& addr, const Xbyak::Reg64& value) {
-    switch (bitsize) {
-    case 8:
-        code.mov(code.byte[addr], value.cvt8());
-        return;
-    case 16:
-        code.mov(word[addr], value.cvt16());
-        return;
-    case 32:
-        code.mov(dword[addr], value.cvt32());
-        return;
-    case 64:
-        code.mov(qword[addr], value);
-        return;
-    default:
-        ASSERT_FALSE("Invalid bitsize");
-    }
-}
-
-}  // anonymous namespace
-
-template<std::size_t bitsize, auto callback>
-void A32EmitX64::EmitMemoryRead(A32EmitContext& ctx, IR::Inst* inst) {
-    auto args = ctx.reg_alloc.GetArgumentInfo(inst);
-    const auto fastmem_marker = ShouldFastmem(ctx, inst);
-
-    if (!conf.page_table && !fastmem_marker) {
-        // Neither fastmem nor page table: Use callbacks
-        ctx.reg_alloc.HostCall(inst, {}, args[0]);
-        Devirtualize<callback>(conf.callbacks).EmitCall(code);
-        return;
-    }
-
-    const Xbyak::Reg64 vaddr = ctx.reg_alloc.UseGpr(args[0]);
-    const Xbyak::Reg64 value = ctx.reg_alloc.ScratchGpr();
-
-    const auto wrapped_fn = read_fallbacks[std::make_tuple(bitsize, vaddr.getIdx(), value.getIdx())];
-
-    if (fastmem_marker) {
-        // Use fastmem
-        const auto src_ptr = r13 + vaddr;
-
-        const auto location = code.getCurr();
-        EmitReadMemoryMov<bitsize>(code, value, src_ptr);
-
-        fastmem_patch_info.emplace(
-            Common::BitCast<u64>(location),
-            FastmemPatchInfo{
-                Common::BitCast<u64>(code.getCurr()),
-                Common::BitCast<u64>(wrapped_fn),
-                *fastmem_marker,
-            });
-
-        ctx.reg_alloc.DefineValue(inst, value);
-        return;
-    }
-
-    // Use page table
-    ASSERT(conf.page_table);
-    Xbyak::Label abort, end;
-
-    const auto src_ptr = EmitVAddrLookup(code, ctx, bitsize, abort, vaddr);
-    EmitReadMemoryMov<bitsize>(code, value, src_ptr);
-    code.L(end);
-
-    code.SwitchToFarCode();
-    code.L(abort);
-    code.call(wrapped_fn);
-    code.jmp(end, code.T_NEAR);
-    code.SwitchToNearCode();
-
-    ctx.reg_alloc.DefineValue(inst, value);
-}
-
-template<std::size_t bitsize, auto callback>
-void A32EmitX64::EmitMemoryWrite(A32EmitContext& ctx, IR::Inst* inst) {
-    auto args = ctx.reg_alloc.GetArgumentInfo(inst);
-    const auto fastmem_marker = ShouldFastmem(ctx, inst);
-
-    if (!conf.page_table && !fastmem_marker) {
-        // Neither fastmem nor page table: Use callbacks
-        ctx.reg_alloc.HostCall(nullptr, {}, args[0], args[1]);
-        Devirtualize<callback>(conf.callbacks).EmitCall(code);
-        return;
-    }
-
-    const Xbyak::Reg64 vaddr = ctx.reg_alloc.UseGpr(args[0]);
-    const Xbyak::Reg64 value = ctx.reg_alloc.UseGpr(args[1]);
-
-    const auto wrapped_fn = write_fallbacks[std::make_tuple(bitsize, vaddr.getIdx(), value.getIdx())];
-
-    if (fastmem_marker) {
-        // Use fastmem
-        const auto dest_ptr = r13 + vaddr;
-
-        const auto location = code.getCurr();
-        EmitWriteMemoryMov<bitsize>(code, dest_ptr, value);
-
-        fastmem_patch_info.emplace(
-            Common::BitCast<u64>(location),
-            FastmemPatchInfo{
-                Common::BitCast<u64>(code.getCurr()),
-                Common::BitCast<u64>(wrapped_fn),
-                *fastmem_marker,
-            });
-
-        return;
-    }
-
-    // Use page table
-    ASSERT(conf.page_table);
-    Xbyak::Label abort, end;
-
-    const auto dest_ptr = EmitVAddrLookup(code, ctx, bitsize, abort, vaddr);
-    EmitWriteMemoryMov<bitsize>(code, dest_ptr, value);
-    code.L(end);
-
-    code.SwitchToFarCode();
-    code.L(abort);
-    code.call(wrapped_fn);
-    code.jmp(end, code.T_NEAR);
-    code.SwitchToNearCode();
-}
-
-void A32EmitX64::EmitA32ReadMemory8(A32EmitContext& ctx, IR::Inst* inst) {
-    EmitMemoryRead<8, &A32::UserCallbacks::MemoryRead8>(ctx, inst);
-}
-
-void A32EmitX64::EmitA32ReadMemory16(A32EmitContext& ctx, IR::Inst* inst) {
-    EmitMemoryRead<16, &A32::UserCallbacks::MemoryRead16>(ctx, inst);
-}
-
-void A32EmitX64::EmitA32ReadMemory32(A32EmitContext& ctx, IR::Inst* inst) {
-    EmitMemoryRead<32, &A32::UserCallbacks::MemoryRead32>(ctx, inst);
-}
-
-void A32EmitX64::EmitA32ReadMemory64(A32EmitContext& ctx, IR::Inst* inst) {
-    EmitMemoryRead<64, &A32::UserCallbacks::MemoryRead64>(ctx, inst);
-}
-
-void A32EmitX64::EmitA32WriteMemory8(A32EmitContext& ctx, IR::Inst* inst) {
-    EmitMemoryWrite<8, &A32::UserCallbacks::MemoryWrite8>(ctx, inst);
-}
-
-void A32EmitX64::EmitA32WriteMemory16(A32EmitContext& ctx, IR::Inst* inst) {
-    EmitMemoryWrite<16, &A32::UserCallbacks::MemoryWrite16>(ctx, inst);
-}
-
-void A32EmitX64::EmitA32WriteMemory32(A32EmitContext& ctx, IR::Inst* inst) {
-    EmitMemoryWrite<32, &A32::UserCallbacks::MemoryWrite32>(ctx, inst);
-}
-
-void A32EmitX64::EmitA32WriteMemory64(A32EmitContext& ctx, IR::Inst* inst) {
-    EmitMemoryWrite<64, &A32::UserCallbacks::MemoryWrite64>(ctx, inst);
-}
-
-template<size_t bitsize, auto callback>
-void A32EmitX64::ExclusiveReadMemory(A32EmitContext& ctx, IR::Inst* inst) {
-    using T = mp::unsigned_integer_of_size<bitsize>;
-
-    ASSERT(conf.global_monitor != nullptr);
-    auto args = ctx.reg_alloc.GetArgumentInfo(inst);
-
-    ctx.reg_alloc.HostCall(inst, {}, args[0]);
-
-    code.mov(code.byte[r15 + offsetof(A32JitState, exclusive_state)], u8(1));
-    code.mov(code.ABI_PARAM1, reinterpret_cast<u64>(&conf));
-    code.CallLambda(
-        [](A32::UserConfig& conf, u32 vaddr) -> T {
-            return conf.global_monitor->ReadAndMark<T>(conf.processor_id, vaddr, [&]() -> T {
-                return (conf.callbacks->*callback)(vaddr);
-            });
-        });
-}
-
-template<size_t bitsize, auto callback>
-void A32EmitX64::ExclusiveWriteMemory(A32EmitContext& ctx, IR::Inst* inst) {
-    using T = mp::unsigned_integer_of_size<bitsize>;
-
-    ASSERT(conf.global_monitor != nullptr);
-    auto args = ctx.reg_alloc.GetArgumentInfo(inst);
-
-    ctx.reg_alloc.HostCall(inst, {}, args[0], args[1]);
-
-    Xbyak::Label end;
-
-    code.mov(code.ABI_RETURN, u32(1));
-    code.cmp(code.byte[r15 + offsetof(A32JitState, exclusive_state)], u8(0));
-    code.je(end);
-    code.mov(code.byte[r15 + offsetof(A32JitState, exclusive_state)], u8(0));
-    code.mov(code.ABI_PARAM1, reinterpret_cast<u64>(&conf));
-    code.CallLambda(
-        [](A32::UserConfig& conf, u32 vaddr, T value) -> u32 {
-            return conf.global_monitor->DoExclusiveOperation<T>(conf.processor_id, vaddr,
-                                                                [&](T expected) -> bool {
-                                                                    return (conf.callbacks->*callback)(vaddr, value, expected);
-                                                                })
-                     ? 0
-                     : 1;
-        });
-    code.L(end);
-}
-
-void A32EmitX64::EmitA32ExclusiveReadMemory8(A32EmitContext& ctx, IR::Inst* inst) {
-    ExclusiveReadMemory<8, &A32::UserCallbacks::MemoryRead8>(ctx, inst);
-}
-
-void A32EmitX64::EmitA32ExclusiveReadMemory16(A32EmitContext& ctx, IR::Inst* inst) {
-    ExclusiveReadMemory<16, &A32::UserCallbacks::MemoryRead16>(ctx, inst);
-}
-
-void A32EmitX64::EmitA32ExclusiveReadMemory32(A32EmitContext& ctx, IR::Inst* inst) {
-    ExclusiveReadMemory<32, &A32::UserCallbacks::MemoryRead32>(ctx, inst);
-}
-
-void A32EmitX64::EmitA32ExclusiveReadMemory64(A32EmitContext& ctx, IR::Inst* inst) {
-    ExclusiveReadMemory<64, &A32::UserCallbacks::MemoryRead64>(ctx, inst);
-}
-
-void A32EmitX64::EmitA32ExclusiveWriteMemory8(A32EmitContext& ctx, IR::Inst* inst) {
-    ExclusiveWriteMemory<8, &A32::UserCallbacks::MemoryWriteExclusive8>(ctx, inst);
-}
-
-void A32EmitX64::EmitA32ExclusiveWriteMemory16(A32EmitContext& ctx, IR::Inst* inst) {
-    ExclusiveWriteMemory<16, &A32::UserCallbacks::MemoryWriteExclusive16>(ctx, inst);
-}
-
-void A32EmitX64::EmitA32ExclusiveWriteMemory32(A32EmitContext& ctx, IR::Inst* inst) {
-    ExclusiveWriteMemory<32, &A32::UserCallbacks::MemoryWriteExclusive32>(ctx, inst);
-}
-
-void A32EmitX64::EmitA32ExclusiveWriteMemory64(A32EmitContext& ctx, IR::Inst* inst) {
-    ExclusiveWriteMemory<64, &A32::UserCallbacks::MemoryWriteExclusive64>(ctx, inst);
-}
-
 static void EmitCoprocessorException() {
     ASSERT_FALSE("Should raise coproc exception here");
 }

src/dynarmic/backend/x64/a32_emit_x64_memory.cpp

@@ -0,0 +1,454 @@
+/* This file is part of the dynarmic project.
+ * Copyright (c) 2022 MerryMage
+ * SPDX-License-Identifier: 0BSD
+ */
+
+#include <array>
+#include <initializer_list>
+#include <tuple>
+#include <utility>
+
+#include <fmt/format.h>
+#include <fmt/ostream.h>
+#include <mp/traits/integer_of_size.h>
+#include <xbyak/xbyak.h>
+
+#include "dynarmic/backend/x64/a32_emit_x64.h"
+#include "dynarmic/backend/x64/abi.h"
+#include "dynarmic/backend/x64/devirtualize.h"
+#include "dynarmic/backend/x64/perf_map.h"
+#include "dynarmic/common/x64_disassemble.h"
+#include "dynarmic/interface/exclusive_monitor.h"
+
+namespace Dynarmic::Backend::X64 {
+
+using namespace Xbyak::util;
+
+void A32EmitX64::GenFastmemFallbacks() {
+    const std::initializer_list<int> idxes{0, 1, 2, 3, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14};
+    const std::array<std::pair<size_t, ArgCallback>, 4> read_callbacks{{
+        {8, Devirtualize<&A32::UserCallbacks::MemoryRead8>(conf.callbacks)},
+        {16, Devirtualize<&A32::UserCallbacks::MemoryRead16>(conf.callbacks)},
+        {32, Devirtualize<&A32::UserCallbacks::MemoryRead32>(conf.callbacks)},
+        {64, Devirtualize<&A32::UserCallbacks::MemoryRead64>(conf.callbacks)},
+    }};
+    const std::array<std::pair<size_t, ArgCallback>, 4> write_callbacks{{
+        {8, Devirtualize<&A32::UserCallbacks::MemoryWrite8>(conf.callbacks)},
+        {16, Devirtualize<&A32::UserCallbacks::MemoryWrite16>(conf.callbacks)},
+        {32, Devirtualize<&A32::UserCallbacks::MemoryWrite32>(conf.callbacks)},
+        {64, Devirtualize<&A32::UserCallbacks::MemoryWrite64>(conf.callbacks)},
+    }};
+
+    for (int vaddr_idx : idxes) {
+        for (int value_idx : idxes) {
+            for (const auto& [bitsize, callback] : read_callbacks) {
+                code.align();
+                read_fallbacks[std::make_tuple(bitsize, vaddr_idx, value_idx)] = code.getCurr<void (*)()>();
+                ABI_PushCallerSaveRegistersAndAdjustStackExcept(code, HostLocRegIdx(value_idx));
+                if (vaddr_idx != code.ABI_PARAM2.getIdx()) {
+                    code.mov(code.ABI_PARAM2, Xbyak::Reg64{vaddr_idx});
+                }
+                callback.EmitCall(code);
+                if (value_idx != code.ABI_RETURN.getIdx()) {
+                    code.mov(Xbyak::Reg64{value_idx}, code.ABI_RETURN);
+                }
+                ABI_PopCallerSaveRegistersAndAdjustStackExcept(code, HostLocRegIdx(value_idx));
+                code.ret();
+                PerfMapRegister(read_fallbacks[std::make_tuple(bitsize, vaddr_idx, value_idx)], code.getCurr(), fmt::format("a32_read_fallback_{}", bitsize));
+            }
+
+            for (const auto& [bitsize, callback] : write_callbacks) {
+                code.align();
+                write_fallbacks[std::make_tuple(bitsize, vaddr_idx, value_idx)] = code.getCurr<void (*)()>();
+                ABI_PushCallerSaveRegistersAndAdjustStack(code);
+                if (vaddr_idx == code.ABI_PARAM3.getIdx() && value_idx == code.ABI_PARAM2.getIdx()) {
+                    code.xchg(code.ABI_PARAM2, code.ABI_PARAM3);
+                } else if (vaddr_idx == code.ABI_PARAM3.getIdx()) {
+                    code.mov(code.ABI_PARAM2, Xbyak::Reg64{vaddr_idx});
+                    if (value_idx != code.ABI_PARAM3.getIdx()) {
+                        code.mov(code.ABI_PARAM3, Xbyak::Reg64{value_idx});
+                    }
+                } else {
+                    if (value_idx != code.ABI_PARAM3.getIdx()) {
+                        code.mov(code.ABI_PARAM3, Xbyak::Reg64{value_idx});
+                    }
+                    if (vaddr_idx != code.ABI_PARAM2.getIdx()) {
+                        code.mov(code.ABI_PARAM2, Xbyak::Reg64{vaddr_idx});
+                    }
+                }
+                callback.EmitCall(code);
+                ABI_PopCallerSaveRegistersAndAdjustStack(code);
+                code.ret();
+                PerfMapRegister(write_fallbacks[std::make_tuple(bitsize, vaddr_idx, value_idx)], code.getCurr(), fmt::format("a32_write_fallback_{}", bitsize));
+            }
+        }
+    }
+}
+
+std::optional<A32EmitX64::DoNotFastmemMarker> A32EmitX64::ShouldFastmem(A32EmitContext& ctx, IR::Inst* inst) const {
+    if (!conf.fastmem_pointer || !exception_handler.SupportsFastmem()) {
+        return std::nullopt;
+    }
+
+    const auto marker = std::make_tuple(ctx.Location(), ctx.GetInstOffset(inst));
+    if (do_not_fastmem.count(marker) > 0) {
+        return std::nullopt;
+    }
+    return marker;
+}
+
+FakeCall A32EmitX64::FastmemCallback(u64 rip_) {
+    const auto iter = fastmem_patch_info.find(rip_);
+
+    if (iter == fastmem_patch_info.end()) {
+        fmt::print("dynarmic: Segfault happened within JITted code at rip = {:016x}\n", rip_);
+        fmt::print("Segfault wasn't at a fastmem patch location!\n");
+        fmt::print("Now dumping code.......\n\n");
+        Common::DumpDisassembledX64((void*)(rip_ & ~u64(0xFFF)), 0x1000);
+        ASSERT_FALSE("iter != fastmem_patch_info.end()");
+    }
+
+    if (conf.recompile_on_fastmem_failure) {
+        const auto marker = iter->second.marker;
+        do_not_fastmem.emplace(marker);
+        InvalidateBasicBlocks({std::get<0>(marker)});
+    }
+    FakeCall ret;
+    ret.call_rip = iter->second.callback;
+    ret.ret_rip = iter->second.resume_rip;
+    return ret;
+}
+
+namespace {
+
+constexpr size_t page_bits = 12;
+constexpr size_t page_size = 1 << page_bits;
+constexpr size_t page_mask = (1 << page_bits) - 1;
+
+void EmitDetectMisaignedVAddr(BlockOfCode& code, A32EmitContext& ctx, size_t bitsize, Xbyak::Label& abort, Xbyak::Reg32 vaddr, Xbyak::Reg32 tmp) {
+    if (bitsize == 8 || (ctx.conf.detect_misaligned_access_via_page_table & bitsize) == 0) {
+        return;
+    }
+
+    const u32 align_mask = [bitsize]() -> u32 {
+        switch (bitsize) {
+        case 16:
+            return 0b1;
+        case 32:
+            return 0b11;
+        case 64:
+            return 0b111;
+        }
+        UNREACHABLE();
+    }();
+
+    code.test(vaddr, align_mask);
+
+    if (!ctx.conf.only_detect_misalignment_via_page_table_on_page_boundary) {
+        code.jnz(abort, code.T_NEAR);
+        return;
+    }
+
+    const u32 page_align_mask = static_cast<u32>(page_size - 1) & ~align_mask;
+
+    Xbyak::Label detect_boundary, resume;
+
+    code.jnz(detect_boundary, code.T_NEAR);
+    code.L(resume);
+
+    code.SwitchToFarCode();
+    code.L(detect_boundary);
+    code.mov(tmp, vaddr);
+    code.and_(tmp, page_align_mask);
+    code.cmp(tmp, page_align_mask);
+    code.jne(resume, code.T_NEAR);
+    // NOTE: We expect to fallthrough into abort code here.
+    code.SwitchToNearCode();
+}
+
+Xbyak::RegExp EmitVAddrLookup(BlockOfCode& code, A32EmitContext& ctx, size_t bitsize, Xbyak::Label& abort, Xbyak::Reg64 vaddr) {
+    const Xbyak::Reg64 page = ctx.reg_alloc.ScratchGpr();
+    const Xbyak::Reg32 tmp = ctx.conf.absolute_offset_page_table ? page.cvt32() : ctx.reg_alloc.ScratchGpr().cvt32();
+
+    EmitDetectMisaignedVAddr(code, ctx, bitsize, abort, vaddr.cvt32(), tmp);
+
+    // TODO: This code assumes vaddr has been zext from 32-bits to 64-bits.
+
+    code.mov(tmp, vaddr.cvt32());
+    code.shr(tmp, static_cast<int>(page_bits));
+    code.mov(page, qword[r14 + tmp.cvt64() * sizeof(void*)]);
+    if (ctx.conf.page_table_pointer_mask_bits == 0) {
+        code.test(page, page);
+    } else {
+        code.and_(page, ~u32(0) << ctx.conf.page_table_pointer_mask_bits);
+    }
+    code.jz(abort, code.T_NEAR);
+    if (ctx.conf.absolute_offset_page_table) {
+        return page + vaddr;
+    }
+    code.mov(tmp, vaddr.cvt32());
+    code.and_(tmp, static_cast<u32>(page_mask));
+    return page + tmp.cvt64();
+}
+
+template<std::size_t bitsize>
+void EmitReadMemoryMov(BlockOfCode& code, const Xbyak::Reg64& value, const Xbyak::RegExp& addr) {
+    switch (bitsize) {
+    case 8:
+        code.movzx(value.cvt32(), code.byte[addr]);
+        return;
+    case 16:
+        code.movzx(value.cvt32(), word[addr]);
+        return;
+    case 32:
+        code.mov(value.cvt32(), dword[addr]);
+        return;
+    case 64:
+        code.mov(value, qword[addr]);
+        return;
+    default:
+        ASSERT_FALSE("Invalid bitsize");
+    }
+}
+
+template<std::size_t bitsize>
+void EmitWriteMemoryMov(BlockOfCode& code, const Xbyak::RegExp& addr, const Xbyak::Reg64& value) {
+    switch (bitsize) {
+    case 8:
+        code.mov(code.byte[addr], value.cvt8());
+        return;
+    case 16:
+        code.mov(word[addr], value.cvt16());
+        return;
+    case 32:
+        code.mov(dword[addr], value.cvt32());
+        return;
+    case 64:
+        code.mov(qword[addr], value);
+        return;
+    default:
+        ASSERT_FALSE("Invalid bitsize");
+    }
+}
+
+}  // anonymous namespace
+
+template<std::size_t bitsize, auto callback>
+void A32EmitX64::EmitMemoryRead(A32EmitContext& ctx, IR::Inst* inst) {
+    auto args = ctx.reg_alloc.GetArgumentInfo(inst);
+    const auto fastmem_marker = ShouldFastmem(ctx, inst);
+
+    if (!conf.page_table && !fastmem_marker) {
+        // Neither fastmem nor page table: Use callbacks
+        ctx.reg_alloc.HostCall(inst, {}, args[0]);
+        Devirtualize<callback>(conf.callbacks).EmitCall(code);
+        return;
+    }
+
+    const Xbyak::Reg64 vaddr = ctx.reg_alloc.UseGpr(args[0]);
+    const Xbyak::Reg64 value = ctx.reg_alloc.ScratchGpr();
+
+    const auto wrapped_fn = read_fallbacks[std::make_tuple(bitsize, vaddr.getIdx(), value.getIdx())];
+
+    if (fastmem_marker) {
+        // Use fastmem
+        const auto src_ptr = r13 + vaddr;
+
+        const auto location = code.getCurr();
+        EmitReadMemoryMov<bitsize>(code, value, src_ptr);
+
+        fastmem_patch_info.emplace(
+            Common::BitCast<u64>(location),
+            FastmemPatchInfo{
+                Common::BitCast<u64>(code.getCurr()),
+                Common::BitCast<u64>(wrapped_fn),
+                *fastmem_marker,
+            });
+
+        ctx.reg_alloc.DefineValue(inst, value);
+        return;
+    }
+
+    // Use page table
+    ASSERT(conf.page_table);
+    Xbyak::Label abort, end;
+
+    const auto src_ptr = EmitVAddrLookup(code, ctx, bitsize, abort, vaddr);
+    EmitReadMemoryMov<bitsize>(code, value, src_ptr);
+    code.L(end);
+
+    code.SwitchToFarCode();
+    code.L(abort);
+    code.call(wrapped_fn);
+    code.jmp(end, code.T_NEAR);
+    code.SwitchToNearCode();
+
+    ctx.reg_alloc.DefineValue(inst, value);
+}
+
+template<std::size_t bitsize, auto callback>
+void A32EmitX64::EmitMemoryWrite(A32EmitContext& ctx, IR::Inst* inst) {
+    auto args = ctx.reg_alloc.GetArgumentInfo(inst);
+    const auto fastmem_marker = ShouldFastmem(ctx, inst);
+
+    if (!conf.page_table && !fastmem_marker) {
+        // Neither fastmem nor page table: Use callbacks
+        ctx.reg_alloc.HostCall(nullptr, {}, args[0], args[1]);
+        Devirtualize<callback>(conf.callbacks).EmitCall(code);
+        return;
+    }
+
+    const Xbyak::Reg64 vaddr = ctx.reg_alloc.UseGpr(args[0]);
+    const Xbyak::Reg64 value = ctx.reg_alloc.UseGpr(args[1]);
+
+    const auto wrapped_fn = write_fallbacks[std::make_tuple(bitsize, vaddr.getIdx(), value.getIdx())];
+
+    if (fastmem_marker) {
+        // Use fastmem
+        const auto dest_ptr = r13 + vaddr;
+
+        const auto location = code.getCurr();
+        EmitWriteMemoryMov<bitsize>(code, dest_ptr, value);
+
+        fastmem_patch_info.emplace(
+            Common::BitCast<u64>(location),
+            FastmemPatchInfo{
+                Common::BitCast<u64>(code.getCurr()),
+                Common::BitCast<u64>(wrapped_fn),
+                *fastmem_marker,
+            });
+
+        return;
+    }
+
+    // Use page table
+    ASSERT(conf.page_table);
+    Xbyak::Label abort, end;
+
+    const auto dest_ptr = EmitVAddrLookup(code, ctx, bitsize, abort, vaddr);
+    EmitWriteMemoryMov<bitsize>(code, dest_ptr, value);
+    code.L(end);
+
+    code.SwitchToFarCode();
+    code.L(abort);
+    code.call(wrapped_fn);
+    code.jmp(end, code.T_NEAR);
+    code.SwitchToNearCode();
+}
+
+void A32EmitX64::EmitA32ReadMemory8(A32EmitContext& ctx, IR::Inst* inst) {
+    EmitMemoryRead<8, &A32::UserCallbacks::MemoryRead8>(ctx, inst);
+}
+
+void A32EmitX64::EmitA32ReadMemory16(A32EmitContext& ctx, IR::Inst* inst) {
+    EmitMemoryRead<16, &A32::UserCallbacks::MemoryRead16>(ctx, inst);
+}
+
+void A32EmitX64::EmitA32ReadMemory32(A32EmitContext& ctx, IR::Inst* inst) {
+    EmitMemoryRead<32, &A32::UserCallbacks::MemoryRead32>(ctx, inst);
+}
+
+void A32EmitX64::EmitA32ReadMemory64(A32EmitContext& ctx, IR::Inst* inst) {
+    EmitMemoryRead<64, &A32::UserCallbacks::MemoryRead64>(ctx, inst);
+}
+
+void A32EmitX64::EmitA32WriteMemory8(A32EmitContext& ctx, IR::Inst* inst) {
+    EmitMemoryWrite<8, &A32::UserCallbacks::MemoryWrite8>(ctx, inst);
+}
+
+void A32EmitX64::EmitA32WriteMemory16(A32EmitContext& ctx, IR::Inst* inst) {
+    EmitMemoryWrite<16, &A32::UserCallbacks::MemoryWrite16>(ctx, inst);
+}
+
+void A32EmitX64::EmitA32WriteMemory32(A32EmitContext& ctx, IR::Inst* inst) {
+    EmitMemoryWrite<32, &A32::UserCallbacks::MemoryWrite32>(ctx, inst);
+}
+
+void A32EmitX64::EmitA32WriteMemory64(A32EmitContext& ctx, IR::Inst* inst) {
+    EmitMemoryWrite<64, &A32::UserCallbacks::MemoryWrite64>(ctx, inst);
+}
+
+template<size_t bitsize, auto callback>
+void A32EmitX64::ExclusiveReadMemory(A32EmitContext& ctx, IR::Inst* inst) {
+    using T = mp::unsigned_integer_of_size<bitsize>;
+
+    ASSERT(conf.global_monitor != nullptr);
+    auto args = ctx.reg_alloc.GetArgumentInfo(inst);
+
+    ctx.reg_alloc.HostCall(inst, {}, args[0]);
+
+    code.mov(code.byte[r15 + offsetof(A32JitState, exclusive_state)], u8(1));
+    code.mov(code.ABI_PARAM1, reinterpret_cast<u64>(&conf));
+    code.CallLambda(
+        [](A32::UserConfig& conf, u32 vaddr) -> T {
+            return conf.global_monitor->ReadAndMark<T>(conf.processor_id, vaddr, [&]() -> T {
+                return (conf.callbacks->*callback)(vaddr);
+            });
+        });
+}
+
+template<size_t bitsize, auto callback>
+void A32EmitX64::ExclusiveWriteMemory(A32EmitContext& ctx, IR::Inst* inst) {
+    using T = mp::unsigned_integer_of_size<bitsize>;
+
+    ASSERT(conf.global_monitor != nullptr);
+    auto args = ctx.reg_alloc.GetArgumentInfo(inst);
+
+    ctx.reg_alloc.HostCall(inst, {}, args[0], args[1]);
+
+    Xbyak::Label end;
+
+    code.mov(code.ABI_RETURN, u32(1));
+    code.cmp(code.byte[r15 + offsetof(A32JitState, exclusive_state)], u8(0));
+    code.je(end);
+    code.mov(code.byte[r15 + offsetof(A32JitState, exclusive_state)], u8(0));
+    code.mov(code.ABI_PARAM1, reinterpret_cast<u64>(&conf));
+    code.CallLambda(
+        [](A32::UserConfig& conf, u32 vaddr, T value) -> u32 {
+            return conf.global_monitor->DoExclusiveOperation<T>(conf.processor_id, vaddr,
+                                                                [&](T expected) -> bool {
+                                                                    return (conf.callbacks->*callback)(vaddr, value, expected);
+                                                                })
+                     ? 0
+                     : 1;
+        });
+    code.L(end);
+}
+
+void A32EmitX64::EmitA32ClearExclusive(A32EmitContext&, IR::Inst*) {
+    code.mov(code.byte[r15 + offsetof(A32JitState, exclusive_state)], u8(0));
+}
+
+void A32EmitX64::EmitA32ExclusiveReadMemory8(A32EmitContext& ctx, IR::Inst* inst) {
+    ExclusiveReadMemory<8, &A32::UserCallbacks::MemoryRead8>(ctx, inst);
+}
+
+void A32EmitX64::EmitA32ExclusiveReadMemory16(A32EmitContext& ctx, IR::Inst* inst) {
+    ExclusiveReadMemory<16, &A32::UserCallbacks::MemoryRead16>(ctx, inst);
+}
+
+void A32EmitX64::EmitA32ExclusiveReadMemory32(A32EmitContext& ctx, IR::Inst* inst) {
+    ExclusiveReadMemory<32, &A32::UserCallbacks::MemoryRead32>(ctx, inst);
+}
+
+void A32EmitX64::EmitA32ExclusiveReadMemory64(A32EmitContext& ctx, IR::Inst* inst) {
+    ExclusiveReadMemory<64, &A32::UserCallbacks::MemoryRead64>(ctx, inst);
+}
+
+void A32EmitX64::EmitA32ExclusiveWriteMemory8(A32EmitContext& ctx, IR::Inst* inst) {
+    ExclusiveWriteMemory<8, &A32::UserCallbacks::MemoryWriteExclusive8>(ctx, inst);
+}
+
+void A32EmitX64::EmitA32ExclusiveWriteMemory16(A32EmitContext& ctx, IR::Inst* inst) {
+    ExclusiveWriteMemory<16, &A32::UserCallbacks::MemoryWriteExclusive16>(ctx, inst);
+}
+
+void A32EmitX64::EmitA32ExclusiveWriteMemory32(A32EmitContext& ctx, IR::Inst* inst) {
+    ExclusiveWriteMemory<32, &A32::UserCallbacks::MemoryWriteExclusive32>(ctx, inst);
+}
+
+void A32EmitX64::EmitA32ExclusiveWriteMemory64(A32EmitContext& ctx, IR::Inst* inst) {
+    ExclusiveWriteMemory<64, &A32::UserCallbacks::MemoryWriteExclusive64>(ctx, inst);
+}
+
+}  // namespace Dynarmic::Backend::X64

src/dynarmic/backend/x64/a64_emit_x64.cpp

@@ -5,8 +5,6 @@
 
 #include "dynarmic/backend/x64/a64_emit_x64.h"
 
-#include <initializer_list>
-
 #include <fmt/format.h>
 #include <fmt/ostream.h>
 #include <mp/traits/integer_of_size.h>
@@ -23,10 +21,8 @@
 #include "dynarmic/common/bit_util.h"
 #include "dynarmic/common/common_types.h"
 #include "dynarmic/common/scope_exit.h"
-#include "dynarmic/common/x64_disassemble.h"
 #include "dynarmic/frontend/A64/a64_location_descriptor.h"
 #include "dynarmic/frontend/A64/a64_types.h"
-#include "dynarmic/interface/exclusive_monitor.h"
 #include "dynarmic/ir/basic_block.h"
 #include "dynarmic/ir/cond.h"
 #include "dynarmic/ir/microinstruction.h"
@@ -156,155 +152,6 @@ void A64EmitX64::ClearFastDispatchTable() {
     }
 }
 
-void A64EmitX64::GenMemory128Accessors() {
-    code.align();
-    memory_read_128 = code.getCurr<void (*)()>();
-#ifdef _WIN32
-    Devirtualize<&A64::UserCallbacks::MemoryRead128>(conf.callbacks).EmitCallWithReturnPointer(code, [&](Xbyak::Reg64 return_value_ptr, [[maybe_unused]] RegList args) {
-        code.mov(code.ABI_PARAM3, code.ABI_PARAM2);
-        code.sub(rsp, 8 + 16 + ABI_SHADOW_SPACE);
-        code.lea(return_value_ptr, ptr[rsp + ABI_SHADOW_SPACE]);
-    });
-    code.movups(xmm1, xword[code.ABI_RETURN]);
-    code.add(rsp, 8 + 16 + ABI_SHADOW_SPACE);
-#else
-    code.sub(rsp, 8);
-    Devirtualize<&A64::UserCallbacks::MemoryRead128>(conf.callbacks).EmitCall(code);
-    if (code.HasHostFeature(HostFeature::SSE41)) {
-        code.movq(xmm1, code.ABI_RETURN);
-        code.pinsrq(xmm1, code.ABI_RETURN2, 1);
-    } else {
-        code.movq(xmm1, code.ABI_RETURN);
-        code.movq(xmm2, code.ABI_RETURN2);
-        code.punpcklqdq(xmm1, xmm2);
-    }
-    code.add(rsp, 8);
-#endif
-    code.ret();
-    PerfMapRegister(memory_read_128, code.getCurr(), "a64_memory_read_128");
-
-    code.align();
-    memory_write_128 = code.getCurr<void (*)()>();
-#ifdef _WIN32
-    code.sub(rsp, 8 + 16 + ABI_SHADOW_SPACE);
-    code.lea(code.ABI_PARAM3, ptr[rsp + ABI_SHADOW_SPACE]);
-    code.movaps(xword[code.ABI_PARAM3], xmm1);
-    Devirtualize<&A64::UserCallbacks::MemoryWrite128>(conf.callbacks).EmitCall(code);
-    code.add(rsp, 8 + 16 + ABI_SHADOW_SPACE);
-#else
-    code.sub(rsp, 8);
-    if (code.HasHostFeature(HostFeature::SSE41)) {
-        code.movq(code.ABI_PARAM3, xmm1);
-        code.pextrq(code.ABI_PARAM4, xmm1, 1);
-    } else {
-        code.movq(code.ABI_PARAM3, xmm1);
-        code.punpckhqdq(xmm1, xmm1);
-        code.movq(code.ABI_PARAM4, xmm1);
-    }
-    Devirtualize<&A64::UserCallbacks::MemoryWrite128>(conf.callbacks).EmitCall(code);
-    code.add(rsp, 8);
-#endif
-    code.ret();
-    PerfMapRegister(memory_read_128, code.getCurr(), "a64_memory_write_128");
-}
-
-void A64EmitX64::GenFastmemFallbacks() {
-    const std::initializer_list<int> idxes{0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15};
-    const std::array<std::pair<size_t, ArgCallback>, 4> read_callbacks{{
-        {8, Devirtualize<&A64::UserCallbacks::MemoryRead8>(conf.callbacks)},
-        {16, Devirtualize<&A64::UserCallbacks::MemoryRead16>(conf.callbacks)},
-        {32, Devirtualize<&A64::UserCallbacks::MemoryRead32>(conf.callbacks)},
-        {64, Devirtualize<&A64::UserCallbacks::MemoryRead64>(conf.callbacks)},
-    }};
-    const std::array<std::pair<size_t, ArgCallback>, 4> write_callbacks{{
-        {8, Devirtualize<&A64::UserCallbacks::MemoryWrite8>(conf.callbacks)},
-        {16, Devirtualize<&A64::UserCallbacks::MemoryWrite16>(conf.callbacks)},
-        {32, Devirtualize<&A64::UserCallbacks::MemoryWrite32>(conf.callbacks)},
-        {64, Devirtualize<&A64::UserCallbacks::MemoryWrite64>(conf.callbacks)},
-    }};
-
-    for (int vaddr_idx : idxes) {
-        if (vaddr_idx == 4 || vaddr_idx == 15) {
-            continue;
-        }
-
-        for (int value_idx : idxes) {
-            code.align();
-            read_fallbacks[std::make_tuple(128, vaddr_idx, value_idx)] = code.getCurr<void (*)()>();
-            ABI_PushCallerSaveRegistersAndAdjustStackExcept(code, HostLocXmmIdx(value_idx));
-            if (vaddr_idx != code.ABI_PARAM2.getIdx()) {
-                code.mov(code.ABI_PARAM2, Xbyak::Reg64{vaddr_idx});
-            }
-            code.call(memory_read_128);
-            if (value_idx != 1) {
-                code.movaps(Xbyak::Xmm{value_idx}, xmm1);
-            }
-            ABI_PopCallerSaveRegistersAndAdjustStackExcept(code, HostLocXmmIdx(value_idx));
-            code.ret();
-            PerfMapRegister(read_fallbacks[std::make_tuple(128, vaddr_idx, value_idx)], code.getCurr(), "a64_read_fallback_128");
-
-            code.align();
-            write_fallbacks[std::make_tuple(128, vaddr_idx, value_idx)] = code.getCurr<void (*)()>();
-            ABI_PushCallerSaveRegistersAndAdjustStack(code);
-            if (vaddr_idx != code.ABI_PARAM2.getIdx()) {
-                code.mov(code.ABI_PARAM2, Xbyak::Reg64{vaddr_idx});
-            }
-            if (value_idx != 1) {
-                code.movaps(xmm1, Xbyak::Xmm{value_idx});
-            }
-            code.call(memory_write_128);
-            ABI_PopCallerSaveRegistersAndAdjustStack(code);
-            code.ret();
-            PerfMapRegister(write_fallbacks[std::make_tuple(128, vaddr_idx, value_idx)], code.getCurr(), "a64_write_fallback_128");
-
-            if (value_idx == 4 || value_idx == 15) {
-                continue;
-            }
-
-            for (const auto& [bitsize, callback] : read_callbacks) {
-                code.align();
-                read_fallbacks[std::make_tuple(bitsize, vaddr_idx, value_idx)] = code.getCurr<void (*)()>();
-                ABI_PushCallerSaveRegistersAndAdjustStackExcept(code, HostLocRegIdx(value_idx));
-                if (vaddr_idx != code.ABI_PARAM2.getIdx()) {
-                    code.mov(code.ABI_PARAM2, Xbyak::Reg64{vaddr_idx});
-                }
-                callback.EmitCall(code);
-                if (value_idx != code.ABI_RETURN.getIdx()) {
-                    code.mov(Xbyak::Reg64{value_idx}, code.ABI_RETURN);
-                }
-                ABI_PopCallerSaveRegistersAndAdjustStackExcept(code, HostLocRegIdx(value_idx));
-                code.ret();
-                PerfMapRegister(read_fallbacks[std::make_tuple(bitsize, vaddr_idx, value_idx)], code.getCurr(), fmt::format("a64_read_fallback_{}", bitsize));
-            }
-
-            for (const auto& [bitsize, callback] : write_callbacks) {
-                code.align();
-                write_fallbacks[std::make_tuple(bitsize, vaddr_idx, value_idx)] = code.getCurr<void (*)()>();
-                ABI_PushCallerSaveRegistersAndAdjustStack(code);
-                if (vaddr_idx == code.ABI_PARAM3.getIdx() && value_idx == code.ABI_PARAM2.getIdx()) {
-                    code.xchg(code.ABI_PARAM2, code.ABI_PARAM3);
-                } else if (vaddr_idx == code.ABI_PARAM3.getIdx()) {
-                    code.mov(code.ABI_PARAM2, Xbyak::Reg64{vaddr_idx});
-                    if (value_idx != code.ABI_PARAM3.getIdx()) {
-                        code.mov(code.ABI_PARAM3, Xbyak::Reg64{value_idx});
-                    }
-                } else {
-                    if (value_idx != code.ABI_PARAM3.getIdx()) {
-                        code.mov(code.ABI_PARAM3, Xbyak::Reg64{value_idx});
-                    }
-                    if (vaddr_idx != code.ABI_PARAM2.getIdx()) {
-                        code.mov(code.ABI_PARAM2, Xbyak::Reg64{vaddr_idx});
-                    }
-                }
-                callback.EmitCall(code);
-                ABI_PopCallerSaveRegistersAndAdjustStack(code);
-                code.ret();
-                PerfMapRegister(write_fallbacks[std::make_tuple(bitsize, vaddr_idx, value_idx)], code.getCurr(), fmt::format("a64_write_fallback_{}", bitsize));
-            }
-        }
-    }
-}
-
 void A64EmitX64::GenTerminalHandlers() {
     // PC ends up in rbp, location_descriptor ends up in rbx
     const auto calculate_location_descriptor = [this] {
@@ -742,600 +589,6 @@ void A64EmitX64::EmitA64SetTPIDR(A64EmitContext& ctx, IR::Inst* inst) {
     }
 }
 
-void A64EmitX64::EmitA64ClearExclusive(A64EmitContext&, IR::Inst*) {
-    code.mov(code.byte[r15 + offsetof(A64JitState, exclusive_state)], u8(0));
-}
-
-std::optional<A64EmitX64::DoNotFastmemMarker> A64EmitX64::ShouldFastmem(A64EmitContext& ctx, IR::Inst* inst) const {
-    if (!conf.fastmem_pointer || !exception_handler.SupportsFastmem()) {
-        return std::nullopt;
-    }
-
-    const auto marker = std::make_tuple(ctx.Location(), ctx.GetInstOffset(inst));
-    if (do_not_fastmem.count(marker) > 0) {
-        return std::nullopt;
-    }
-    return marker;
-}
-
-FakeCall A64EmitX64::FastmemCallback(u64 rip_) {
-    const auto iter = fastmem_patch_info.find(rip_);
-
-    if (iter == fastmem_patch_info.end()) {
-        fmt::print("dynarmic: Segfault happened within JITted code at rip = {:016x}\n", rip_);
-        fmt::print("Segfault wasn't at a fastmem patch location!\n");
-        fmt::print("Now dumping code.......\n\n");
-        Common::DumpDisassembledX64((void*)(rip_ & ~u64(0xFFF)), 0x1000);
-        ASSERT_FALSE("iter != fastmem_patch_info.end()");
-    }
-
-    if (conf.recompile_on_fastmem_failure) {
-        const auto marker = iter->second.marker;
-        do_not_fastmem.emplace(marker);
-        InvalidateBasicBlocks({std::get<0>(marker)});
-    }
-    FakeCall ret;
-    ret.call_rip = iter->second.callback;
-    ret.ret_rip = iter->second.resume_rip;
-    return ret;
-}
-
-namespace {
-
-constexpr size_t page_bits = 12;
-constexpr size_t page_size = 1 << page_bits;
-constexpr size_t page_mask = (1 << page_bits) - 1;
-
-void EmitDetectMisaignedVAddr(BlockOfCode& code, A64EmitContext& ctx, size_t bitsize, Xbyak::Label& abort, Xbyak::Reg64 vaddr, Xbyak::Reg64 tmp) {
-    if (bitsize == 8 || (ctx.conf.detect_misaligned_access_via_page_table & bitsize) == 0) {
-        return;
-    }
-
-    const u32 align_mask = [bitsize]() -> u32 {
-        switch (bitsize) {
-        case 16:
-            return 0b1;
-        case 32:
-            return 0b11;
-        case 64:
-            return 0b111;
-        case 128:
-            return 0b1111;
-        }
-        UNREACHABLE();
-    }();
-
-    code.test(vaddr, align_mask);
-
-    if (!ctx.conf.only_detect_misalignment_via_page_table_on_page_boundary) {
-        code.jnz(abort, code.T_NEAR);
-        return;
-    }
-
-    const u32 page_align_mask = static_cast<u32>(page_size - 1) & ~align_mask;
-
-    Xbyak::Label detect_boundary, resume;
-
-    code.jnz(detect_boundary, code.T_NEAR);
-    code.L(resume);
-
-    code.SwitchToFarCode();
-    code.L(detect_boundary);
-    code.mov(tmp, vaddr);
-    code.and_(tmp, page_align_mask);
-    code.cmp(tmp, page_align_mask);
-    code.jne(resume, code.T_NEAR);
-    // NOTE: We expect to fallthrough into abort code here.
-    code.SwitchToNearCode();
-}
-
-Xbyak::RegExp EmitVAddrLookup(BlockOfCode& code, A64EmitContext& ctx, size_t bitsize, Xbyak::Label& abort, Xbyak::Reg64 vaddr) {
-    const size_t valid_page_index_bits = ctx.conf.page_table_address_space_bits - page_bits;
-    const size_t unused_top_bits = 64 - ctx.conf.page_table_address_space_bits;
-
-    const Xbyak::Reg64 page = ctx.reg_alloc.ScratchGpr();
-    const Xbyak::Reg64 tmp = ctx.conf.absolute_offset_page_table ? page : ctx.reg_alloc.ScratchGpr();
-
-    EmitDetectMisaignedVAddr(code, ctx, bitsize, abort, vaddr, tmp);
-
-    if (unused_top_bits == 0) {
-        code.mov(tmp, vaddr);
-        code.shr(tmp, int(page_bits));
-    } else if (ctx.conf.silently_mirror_page_table) {
-        if (valid_page_index_bits >= 32) {
-            if (code.HasHostFeature(HostFeature::BMI2)) {
-                const Xbyak::Reg64 bit_count = ctx.reg_alloc.ScratchGpr();
-                code.mov(bit_count, unused_top_bits);
-                code.bzhi(tmp, vaddr, bit_count);
-                code.shr(tmp, int(page_bits));
-                ctx.reg_alloc.Release(bit_count);
-            } else {
-                code.mov(tmp, vaddr);
-                code.shl(tmp, int(unused_top_bits));
-                code.shr(tmp, int(unused_top_bits + page_bits));
-            }
-        } else {
-            code.mov(tmp, vaddr);
-            code.shr(tmp, int(page_bits));
-            code.and_(tmp, u32((1 << valid_page_index_bits) - 1));
-        }
-    } else {
-        ASSERT(valid_page_index_bits < 32);
-        code.mov(tmp, vaddr);
-        code.shr(tmp, int(page_bits));
-        code.test(tmp, u32(-(1 << valid_page_index_bits)));
-        code.jnz(abort, code.T_NEAR);
-    }
-    code.mov(page, qword[r14 + tmp * sizeof(void*)]);
-    if (ctx.conf.page_table_pointer_mask_bits == 0) {
-        code.test(page, page);
-    } else {
-        code.and_(page, ~u32(0) << ctx.conf.page_table_pointer_mask_bits);
-    }
-    code.jz(abort, code.T_NEAR);
-    if (ctx.conf.absolute_offset_page_table) {
-        return page + vaddr;
-    }
-    code.mov(tmp, vaddr);
-    code.and_(tmp, static_cast<u32>(page_mask));
-    return page + tmp;
-}
-
-Xbyak::RegExp EmitFastmemVAddr(BlockOfCode& code, A64EmitContext& ctx, Xbyak::Label& abort, Xbyak::Reg64 vaddr, bool& require_abort_handling) {
-    const size_t unused_top_bits = 64 - ctx.conf.fastmem_address_space_bits;
-
-    if (unused_top_bits == 0) {
-        return r13 + vaddr;
-    } else if (ctx.conf.silently_mirror_fastmem) {
-        Xbyak::Reg64 tmp = ctx.reg_alloc.ScratchGpr();
-        if (unused_top_bits < 32) {
-            code.mov(tmp, vaddr);
-            code.shl(tmp, int(unused_top_bits));
-            code.shr(tmp, int(unused_top_bits));
-        } else if (unused_top_bits == 32) {
-            code.mov(tmp.cvt32(), vaddr.cvt32());
-        } else {
-            code.mov(tmp.cvt32(), vaddr.cvt32());
-            code.and_(tmp, u32((1 << ctx.conf.fastmem_address_space_bits) - 1));
-        }
-        return r13 + tmp;
-    } else {
-        if (ctx.conf.fastmem_address_space_bits < 32) {
-            code.test(vaddr, u32(-(1 << ctx.conf.fastmem_address_space_bits)));
-            code.jnz(abort, code.T_NEAR);
-            require_abort_handling = true;
-        } else {
-            // TODO: Consider having TEST as above but coalesce 64-bit constant in register allocator
-            Xbyak::Reg64 tmp = ctx.reg_alloc.ScratchGpr();
-            code.mov(tmp, vaddr);
-            code.shr(tmp, int(ctx.conf.fastmem_address_space_bits));
-            code.jnz(abort, code.T_NEAR);
-            require_abort_handling = true;
-        }
-        return r13 + vaddr;
-    }
-}
-
-template<std::size_t bitsize>
-void EmitReadMemoryMov(BlockOfCode& code, const Xbyak::Reg64& value, const Xbyak::RegExp& addr) {
-    switch (bitsize) {
-    case 8:
-        code.movzx(value.cvt32(), code.byte[addr]);
-        return;
-    case 16:
-        code.movzx(value.cvt32(), word[addr]);
-        return;
-    case 32:
-        code.mov(value.cvt32(), dword[addr]);
-        return;
-    case 64:
-        code.mov(value, qword[addr]);
-        return;
-    default:
-        ASSERT_FALSE("Invalid bitsize");
-    }
-}
-
-template<std::size_t bitsize>
-void EmitWriteMemoryMov(BlockOfCode& code, const Xbyak::RegExp& addr, const Xbyak::Reg64& value) {
-    switch (bitsize) {
-    case 8:
-        code.mov(code.byte[addr], value.cvt8());
-        return;
-    case 16:
-        code.mov(word[addr], value.cvt16());
-        return;
-    case 32:
-        code.mov(dword[addr], value.cvt32());
-        return;
-    case 64:
-        code.mov(qword[addr], value);
-        return;
-    default:
-        ASSERT_FALSE("Invalid bitsize");
-    }
-}
-
-}  // namespace
-
-template<std::size_t bitsize, auto callback>
-void A64EmitX64::EmitMemoryRead(A64EmitContext& ctx, IR::Inst* inst) {
-    auto args = ctx.reg_alloc.GetArgumentInfo(inst);
-    const auto fastmem_marker = ShouldFastmem(ctx, inst);
-
-    if (!conf.page_table && !fastmem_marker) {
-        // Neither fastmem nor page table: Use callbacks
-        ctx.reg_alloc.HostCall(inst, {}, args[0]);
-        Devirtualize<callback>(conf.callbacks).EmitCall(code);
-        return;
-    }
-
-    const Xbyak::Reg64 vaddr = ctx.reg_alloc.UseGpr(args[0]);
-    const Xbyak::Reg64 value = ctx.reg_alloc.ScratchGpr();
-
-    const auto wrapped_fn = read_fallbacks[std::make_tuple(bitsize, vaddr.getIdx(), value.getIdx())];
-
-    Xbyak::Label abort, end;
-    bool require_abort_handling = false;
-
-    if (fastmem_marker) {
-        // Use fastmem
-        const auto src_ptr = EmitFastmemVAddr(code, ctx, abort, vaddr, require_abort_handling);
-
-        const auto location = code.getCurr();
-        EmitReadMemoryMov<bitsize>(code, value, src_ptr);
-
-        fastmem_patch_info.emplace(
-            Common::BitCast<u64>(location),
-            FastmemPatchInfo{
-                Common::BitCast<u64>(code.getCurr()),
-                Common::BitCast<u64>(wrapped_fn),
-                *fastmem_marker,
-            });
-    } else {
-        // Use page table
-        ASSERT(conf.page_table);
-        const auto src_ptr = EmitVAddrLookup(code, ctx, bitsize, abort, vaddr);
-        require_abort_handling = true;
-        EmitReadMemoryMov<bitsize>(code, value, src_ptr);
-    }
-    code.L(end);
-
-    if (require_abort_handling) {
-        code.SwitchToFarCode();
-        code.L(abort);
-        code.call(wrapped_fn);
-        code.jmp(end, code.T_NEAR);
-        code.SwitchToNearCode();
-    }
-
-    ctx.reg_alloc.DefineValue(inst, value);
-}
-
-template<std::size_t bitsize, auto callback>
-void A64EmitX64::EmitMemoryWrite(A64EmitContext& ctx, IR::Inst* inst) {
-    auto args = ctx.reg_alloc.GetArgumentInfo(inst);
-    const auto fastmem_marker = ShouldFastmem(ctx, inst);
-
-    if (!conf.page_table && !fastmem_marker) {
-        // Neither fastmem nor page table: Use callbacks
-        ctx.reg_alloc.HostCall(nullptr, {}, args[0], args[1]);
-        Devirtualize<callback>(conf.callbacks).EmitCall(code);
-        return;
-    }
-
-    const Xbyak::Reg64 vaddr = ctx.reg_alloc.UseGpr(args[0]);
-    const Xbyak::Reg64 value = ctx.reg_alloc.UseGpr(args[1]);
-
-    const auto wrapped_fn = write_fallbacks[std::make_tuple(bitsize, vaddr.getIdx(), value.getIdx())];
-
-    Xbyak::Label abort, end;
-    bool require_abort_handling = false;
-
-    if (fastmem_marker) {
-        // Use fastmem
-        const auto dest_ptr = EmitFastmemVAddr(code, ctx, abort, vaddr, require_abort_handling);
-
-        const auto location = code.getCurr();
-        EmitWriteMemoryMov<bitsize>(code, dest_ptr, value);
-
-        fastmem_patch_info.emplace(
-            Common::BitCast<u64>(location),
-            FastmemPatchInfo{
-                Common::BitCast<u64>(code.getCurr()),
-                Common::BitCast<u64>(wrapped_fn),
-                *fastmem_marker,
-            });
-    } else {
-        // Use page table
-        ASSERT(conf.page_table);
-        const auto dest_ptr = EmitVAddrLookup(code, ctx, bitsize, abort, vaddr);
-        require_abort_handling = true;
-        EmitWriteMemoryMov<bitsize>(code, dest_ptr, value);
-    }
-    code.L(end);
-
-    if (require_abort_handling) {
-        code.SwitchToFarCode();
-        code.L(abort);
-        code.call(wrapped_fn);
-        code.jmp(end, code.T_NEAR);
-        code.SwitchToNearCode();
-    }
-}
-
-void A64EmitX64::EmitA64ReadMemory8(A64EmitContext& ctx, IR::Inst* inst) {
-    EmitMemoryRead<8, &A64::UserCallbacks::MemoryRead8>(ctx, inst);
-}
-
-void A64EmitX64::EmitA64ReadMemory16(A64EmitContext& ctx, IR::Inst* inst) {
-    EmitMemoryRead<16, &A64::UserCallbacks::MemoryRead16>(ctx, inst);
-}
-
-void A64EmitX64::EmitA64ReadMemory32(A64EmitContext& ctx, IR::Inst* inst) {
-    EmitMemoryRead<32, &A64::UserCallbacks::MemoryRead32>(ctx, inst);
-}
-
-void A64EmitX64::EmitA64ReadMemory64(A64EmitContext& ctx, IR::Inst* inst) {
-    EmitMemoryRead<64, &A64::UserCallbacks::MemoryRead64>(ctx, inst);
-}
-
-void A64EmitX64::EmitA64ReadMemory128(A64EmitContext& ctx, IR::Inst* inst) {
-    auto args = ctx.reg_alloc.GetArgumentInfo(inst);
-    const auto fastmem_marker = ShouldFastmem(ctx, inst);
-
-    if (!conf.page_table && !fastmem_marker) {
-        // Neither fastmem nor page table: Use callbacks
-        ctx.reg_alloc.HostCall(nullptr, {}, args[0]);
-        code.CallFunction(memory_read_128);
-        ctx.reg_alloc.DefineValue(inst, xmm1);
-        return;
-    }
-
-    const Xbyak::Reg64 vaddr = ctx.reg_alloc.UseGpr(args[0]);
-    const Xbyak::Xmm value = ctx.reg_alloc.ScratchXmm();
-
-    const auto wrapped_fn = read_fallbacks[std::make_tuple(128, vaddr.getIdx(), value.getIdx())];
-
-    Xbyak::Label abort, end;
-    bool require_abort_handling = false;
-
-    if (fastmem_marker) {
-        // Use fastmem
-        const auto src_ptr = EmitFastmemVAddr(code, ctx, abort, vaddr, require_abort_handling);
-
-        const auto location = code.getCurr();
-        code.movups(value, xword[src_ptr]);
-
-        fastmem_patch_info.emplace(
-            Common::BitCast<u64>(location),
-            FastmemPatchInfo{
-                Common::BitCast<u64>(code.getCurr()),
-                Common::BitCast<u64>(wrapped_fn),
-                *fastmem_marker,
-            });
-    } else {
-        // Use page table
-        ASSERT(conf.page_table);
-        const auto src_ptr = EmitVAddrLookup(code, ctx, 128, abort, vaddr);
-        require_abort_handling = true;
-        code.movups(value, xword[src_ptr]);
-    }
-    code.L(end);
-
-    if (require_abort_handling) {
-        code.SwitchToFarCode();
-        code.L(abort);
-        code.call(wrapped_fn);
-        code.jmp(end, code.T_NEAR);
-        code.SwitchToNearCode();
-    }
-
-    ctx.reg_alloc.DefineValue(inst, value);
-}
-
-void A64EmitX64::EmitA64WriteMemory8(A64EmitContext& ctx, IR::Inst* inst) {
-    EmitMemoryWrite<8, &A64::UserCallbacks::MemoryWrite8>(ctx, inst);
-}
-
-void A64EmitX64::EmitA64WriteMemory16(A64EmitContext& ctx, IR::Inst* inst) {
-    EmitMemoryWrite<16, &A64::UserCallbacks::MemoryWrite16>(ctx, inst);
-}
-
-void A64EmitX64::EmitA64WriteMemory32(A64EmitContext& ctx, IR::Inst* inst) {
-    EmitMemoryWrite<32, &A64::UserCallbacks::MemoryWrite32>(ctx, inst);
-}
-
-void A64EmitX64::EmitA64WriteMemory64(A64EmitContext& ctx, IR::Inst* inst) {
-    EmitMemoryWrite<64, &A64::UserCallbacks::MemoryWrite64>(ctx, inst);
-}
-
-void A64EmitX64::EmitA64WriteMemory128(A64EmitContext& ctx, IR::Inst* inst) {
-    auto args = ctx.reg_alloc.GetArgumentInfo(inst);
-    const auto fastmem_marker = ShouldFastmem(ctx, inst);
-
-    if (!conf.page_table && !fastmem_marker) {
-        // Neither fastmem nor page table: Use callbacks
-        ctx.reg_alloc.Use(args[0], ABI_PARAM2);
-        ctx.reg_alloc.Use(args[1], HostLoc::XMM1);
-        ctx.reg_alloc.EndOfAllocScope();
-        ctx.reg_alloc.HostCall(nullptr);
-        code.CallFunction(memory_write_128);
-        return;
-    }
-
-    const Xbyak::Reg64 vaddr = ctx.reg_alloc.UseGpr(args[0]);
-    const Xbyak::Xmm value = ctx.reg_alloc.UseXmm(args[1]);
-
-    const auto wrapped_fn = write_fallbacks[std::make_tuple(128, vaddr.getIdx(), value.getIdx())];
-
-    Xbyak::Label abort, end;
-    bool require_abort_handling = false;
-
-    if (fastmem_marker) {
-        // Use fastmem
-        const auto dest_ptr = EmitFastmemVAddr(code, ctx, abort, vaddr, require_abort_handling);
-
-        const auto location = code.getCurr();
-        code.movups(xword[dest_ptr], value);
-
-        fastmem_patch_info.emplace(
-            Common::BitCast<u64>(location),
-            FastmemPatchInfo{
-                Common::BitCast<u64>(code.getCurr()),
-                Common::BitCast<u64>(wrapped_fn),
-                *fastmem_marker,
-            });
-    } else {
-        // Use page table
-        ASSERT(conf.page_table);
-        const auto dest_ptr = EmitVAddrLookup(code, ctx, 128, abort, vaddr);
-        require_abort_handling = true;
-        code.movups(xword[dest_ptr], value);
-    }
-    code.L(end);
-
-    if (require_abort_handling) {
-        code.SwitchToFarCode();
-        code.L(abort);
-        code.call(wrapped_fn);
-        code.jmp(end, code.T_NEAR);
-        code.SwitchToNearCode();
-    }
-}
-
-template<std::size_t bitsize, auto callback>
-void A64EmitX64::EmitExclusiveReadMemory(A64EmitContext& ctx, IR::Inst* inst) {
-    ASSERT(conf.global_monitor != nullptr);
-    auto args = ctx.reg_alloc.GetArgumentInfo(inst);
-
-    if constexpr (bitsize != 128) {
-        using T = mp::unsigned_integer_of_size<bitsize>;
-
-        ctx.reg_alloc.HostCall(inst, {}, args[0]);
-
-        code.mov(code.byte[r15 + offsetof(A64JitState, exclusive_state)], u8(1));
-        code.mov(code.ABI_PARAM1, reinterpret_cast<u64>(&conf));
-        code.CallLambda(
-            [](A64::UserConfig& conf, u64 vaddr) -> T {
-                return conf.global_monitor->ReadAndMark<T>(conf.processor_id, vaddr, [&]() -> T {
-                    return (conf.callbacks->*callback)(vaddr);
-                });
-            });
-    } else {
-        const Xbyak::Xmm result = ctx.reg_alloc.ScratchXmm();
-        ctx.reg_alloc.Use(args[0], ABI_PARAM2);
-        ctx.reg_alloc.EndOfAllocScope();
-        ctx.reg_alloc.HostCall(nullptr);
-
-        code.mov(code.byte[r15 + offsetof(A64JitState, exclusive_state)], u8(1));
-        code.mov(code.ABI_PARAM1, reinterpret_cast<u64>(&conf));
-        ctx.reg_alloc.AllocStackSpace(16 + ABI_SHADOW_SPACE);
-        code.lea(code.ABI_PARAM3, ptr[rsp + ABI_SHADOW_SPACE]);
-        code.CallLambda(
-            [](A64::UserConfig& conf, u64 vaddr, A64::Vector& ret) {
-                ret = conf.global_monitor->ReadAndMark<A64::Vector>(conf.processor_id, vaddr, [&]() -> A64::Vector {
-                    return (conf.callbacks->*callback)(vaddr);
-                });
-            });
-        code.movups(result, xword[rsp + ABI_SHADOW_SPACE]);
-        ctx.reg_alloc.ReleaseStackSpace(16 + ABI_SHADOW_SPACE);
-
-        ctx.reg_alloc.DefineValue(inst, result);
-    }
-}
-
-void A64EmitX64::EmitA64ExclusiveReadMemory8(A64EmitContext& ctx, IR::Inst* inst) {
-    EmitExclusiveReadMemory<8, &A64::UserCallbacks::MemoryRead8>(ctx, inst);
-}
-
-void A64EmitX64::EmitA64ExclusiveReadMemory16(A64EmitContext& ctx, IR::Inst* inst) {
-    EmitExclusiveReadMemory<16, &A64::UserCallbacks::MemoryRead16>(ctx, inst);
-}
-
-void A64EmitX64::EmitA64ExclusiveReadMemory32(A64EmitContext& ctx, IR::Inst* inst) {
-    EmitExclusiveReadMemory<32, &A64::UserCallbacks::MemoryRead32>(ctx, inst);
-}
-
-void A64EmitX64::EmitA64ExclusiveReadMemory64(A64EmitContext& ctx, IR::Inst* inst) {
-    EmitExclusiveReadMemory<64, &A64::UserCallbacks::MemoryRead64>(ctx, inst);
-}
-
-void A64EmitX64::EmitA64ExclusiveReadMemory128(A64EmitContext& ctx, IR::Inst* inst) {
-    EmitExclusiveReadMemory<128, &A64::UserCallbacks::MemoryRead128>(ctx, inst);
-}
-
-template<std::size_t bitsize, auto callback>
-void A64EmitX64::EmitExclusiveWriteMemory(A64EmitContext& ctx, IR::Inst* inst) {
-    ASSERT(conf.global_monitor != nullptr);
-    auto args = ctx.reg_alloc.GetArgumentInfo(inst);
-
-    if constexpr (bitsize != 128) {
-        ctx.reg_alloc.HostCall(inst, {}, args[0], args[1]);
-    } else {
-        ctx.reg_alloc.Use(args[0], ABI_PARAM2);
-        ctx.reg_alloc.Use(args[1], HostLoc::XMM1);
-        ctx.reg_alloc.EndOfAllocScope();
-        ctx.reg_alloc.HostCall(inst);
-    }
-
-    Xbyak::Label end;
-
-    code.mov(code.ABI_RETURN, u32(1));
-    code.cmp(code.byte[r15 + offsetof(A64JitState, exclusive_state)], u8(0));
-    code.je(end);
-    code.mov(code.byte[r15 + offsetof(A64JitState, exclusive_state)], u8(0));
-    code.mov(code.ABI_PARAM1, reinterpret_cast<u64>(&conf));
-    if constexpr (bitsize != 128) {
-        using T = mp::unsigned_integer_of_size<bitsize>;
-
-        code.CallLambda(
-            [](A64::UserConfig& conf, u64 vaddr, T value) -> u32 {
-                return conf.global_monitor->DoExclusiveOperation<T>(conf.processor_id, vaddr,
-                                                                    [&](T expected) -> bool {
-                                                                        return (conf.callbacks->*callback)(vaddr, value, expected);
-                                                                    })
-                         ? 0
-                         : 1;
-            });
-    } else {
-        ctx.reg_alloc.AllocStackSpace(16 + ABI_SHADOW_SPACE);
-        code.lea(code.ABI_PARAM3, ptr[rsp + ABI_SHADOW_SPACE]);
-        code.movaps(xword[code.ABI_PARAM3], xmm1);
-        code.CallLambda(
-            [](A64::UserConfig& conf, u64 vaddr, A64::Vector& value) -> u32 {
-                return conf.global_monitor->DoExclusiveOperation<A64::Vector>(conf.processor_id, vaddr,
-                                                                              [&](A64::Vector expected) -> bool {
-                                                                                  return (conf.callbacks->*callback)(vaddr, value, expected);
-                                                                              })
-                         ? 0
-                         : 1;
-            });
-        ctx.reg_alloc.ReleaseStackSpace(16 + ABI_SHADOW_SPACE);
-    }
-    code.L(end);
-}
-
-void A64EmitX64::EmitA64ExclusiveWriteMemory8(A64EmitContext& ctx, IR::Inst* inst) {
-    EmitExclusiveWriteMemory<8, &A64::UserCallbacks::MemoryWriteExclusive8>(ctx, inst);
-}
-
-void A64EmitX64::EmitA64ExclusiveWriteMemory16(A64EmitContext& ctx, IR::Inst* inst) {
-    EmitExclusiveWriteMemory<16, &A64::UserCallbacks::MemoryWriteExclusive16>(ctx, inst);
-}
-
-void A64EmitX64::EmitA64ExclusiveWriteMemory32(A64EmitContext& ctx, IR::Inst* inst) {
-    EmitExclusiveWriteMemory<32, &A64::UserCallbacks::MemoryWriteExclusive32>(ctx, inst);
-}
-
-void A64EmitX64::EmitA64ExclusiveWriteMemory64(A64EmitContext& ctx, IR::Inst* inst) {
-    EmitExclusiveWriteMemory<64, &A64::UserCallbacks::MemoryWriteExclusive64>(ctx, inst);
-}
-
-void A64EmitX64::EmitA64ExclusiveWriteMemory128(A64EmitContext& ctx, IR::Inst* inst) {
-    EmitExclusiveWriteMemory<128, &A64::UserCallbacks::MemoryWriteExclusive128>(ctx, inst);
-}
-
 std::string A64EmitX64::LocationDescriptorToFriendlyName(const IR::LocationDescriptor& ir_descriptor) const {
     const A64::LocationDescriptor descriptor{ir_descriptor};
     return fmt::format("a64_{:016X}_fpcr{:08X}",

src/dynarmic/backend/x64/a64_emit_x64_memory.cpp

@@ -0,0 +1,694 @@
+/* This file is part of the dynarmic project.
+ * Copyright (c) 2022 MerryMage
+ * SPDX-License-Identifier: 0BSD
+ */
+
+#include <array>
+#include <initializer_list>
+#include <tuple>
+#include <utility>
+
+#include <fmt/format.h>
+#include <fmt/ostream.h>
+#include <mp/traits/integer_of_size.h>
+#include <xbyak/xbyak.h>
+
+#include "dynarmic/backend/x64/a64_emit_x64.h"
+#include "dynarmic/backend/x64/abi.h"
+#include "dynarmic/backend/x64/devirtualize.h"
+#include "dynarmic/backend/x64/perf_map.h"
+#include "dynarmic/common/x64_disassemble.h"
+#include "dynarmic/interface/exclusive_monitor.h"
+
+namespace Dynarmic::Backend::X64 {
+
+using namespace Xbyak::util;
+
+void A64EmitX64::GenMemory128Accessors() {
+    code.align();
+    memory_read_128 = code.getCurr<void (*)()>();
+#ifdef _WIN32
+    Devirtualize<&A64::UserCallbacks::MemoryRead128>(conf.callbacks).EmitCallWithReturnPointer(code, [&](Xbyak::Reg64 return_value_ptr, [[maybe_unused]] RegList args) {
+        code.mov(code.ABI_PARAM3, code.ABI_PARAM2);
+        code.sub(rsp, 8 + 16 + ABI_SHADOW_SPACE);
+        code.lea(return_value_ptr, ptr[rsp + ABI_SHADOW_SPACE]);
+    });
+    code.movups(xmm1, xword[code.ABI_RETURN]);
+    code.add(rsp, 8 + 16 + ABI_SHADOW_SPACE);
+#else
+    code.sub(rsp, 8);
+    Devirtualize<&A64::UserCallbacks::MemoryRead128>(conf.callbacks).EmitCall(code);
+    if (code.HasHostFeature(HostFeature::SSE41)) {
+        code.movq(xmm1, code.ABI_RETURN);
+        code.pinsrq(xmm1, code.ABI_RETURN2, 1);
+    } else {
+        code.movq(xmm1, code.ABI_RETURN);
+        code.movq(xmm2, code.ABI_RETURN2);
+        code.punpcklqdq(xmm1, xmm2);
+    }
+    code.add(rsp, 8);
+#endif
+    code.ret();
+    PerfMapRegister(memory_read_128, code.getCurr(), "a64_memory_read_128");
+
+    code.align();
+    memory_write_128 = code.getCurr<void (*)()>();
+#ifdef _WIN32
+    code.sub(rsp, 8 + 16 + ABI_SHADOW_SPACE);
+    code.lea(code.ABI_PARAM3, ptr[rsp + ABI_SHADOW_SPACE]);
+    code.movaps(xword[code.ABI_PARAM3], xmm1);
+    Devirtualize<&A64::UserCallbacks::MemoryWrite128>(conf.callbacks).EmitCall(code);
+    code.add(rsp, 8 + 16 + ABI_SHADOW_SPACE);
+#else
+    code.sub(rsp, 8);
+    if (code.HasHostFeature(HostFeature::SSE41)) {
+        code.movq(code.ABI_PARAM3, xmm1);
+        code.pextrq(code.ABI_PARAM4, xmm1, 1);
+    } else {
+        code.movq(code.ABI_PARAM3, xmm1);
+        code.punpckhqdq(xmm1, xmm1);
+        code.movq(code.ABI_PARAM4, xmm1);
+    }
+    Devirtualize<&A64::UserCallbacks::MemoryWrite128>(conf.callbacks).EmitCall(code);
+    code.add(rsp, 8);
+#endif
+    code.ret();
+    PerfMapRegister(memory_read_128, code.getCurr(), "a64_memory_write_128");
+}
+
+void A64EmitX64::GenFastmemFallbacks() {
+    const std::initializer_list<int> idxes{0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15};
+    const std::array<std::pair<size_t, ArgCallback>, 4> read_callbacks{{
+        {8, Devirtualize<&A64::UserCallbacks::MemoryRead8>(conf.callbacks)},
+        {16, Devirtualize<&A64::UserCallbacks::MemoryRead16>(conf.callbacks)},
+        {32, Devirtualize<&A64::UserCallbacks::MemoryRead32>(conf.callbacks)},
+        {64, Devirtualize<&A64::UserCallbacks::MemoryRead64>(conf.callbacks)},
+    }};
+    const std::array<std::pair<size_t, ArgCallback>, 4> write_callbacks{{
+        {8, Devirtualize<&A64::UserCallbacks::MemoryWrite8>(conf.callbacks)},
+        {16, Devirtualize<&A64::UserCallbacks::MemoryWrite16>(conf.callbacks)},
+        {32, Devirtualize<&A64::UserCallbacks::MemoryWrite32>(conf.callbacks)},
+        {64, Devirtualize<&A64::UserCallbacks::MemoryWrite64>(conf.callbacks)},
+    }};
+
+    for (int vaddr_idx : idxes) {
+        if (vaddr_idx == 4 || vaddr_idx == 15) {
+            continue;
+        }
+
+        for (int value_idx : idxes) {
+            code.align();
+            read_fallbacks[std::make_tuple(128, vaddr_idx, value_idx)] = code.getCurr<void (*)()>();
+            ABI_PushCallerSaveRegistersAndAdjustStackExcept(code, HostLocXmmIdx(value_idx));
+            if (vaddr_idx != code.ABI_PARAM2.getIdx()) {
+                code.mov(code.ABI_PARAM2, Xbyak::Reg64{vaddr_idx});
+            }
+            code.call(memory_read_128);
+            if (value_idx != 1) {
+                code.movaps(Xbyak::Xmm{value_idx}, xmm1);
+            }
+            ABI_PopCallerSaveRegistersAndAdjustStackExcept(code, HostLocXmmIdx(value_idx));
+            code.ret();
+            PerfMapRegister(read_fallbacks[std::make_tuple(128, vaddr_idx, value_idx)], code.getCurr(), "a64_read_fallback_128");
+
+            code.align();
+            write_fallbacks[std::make_tuple(128, vaddr_idx, value_idx)] = code.getCurr<void (*)()>();
+            ABI_PushCallerSaveRegistersAndAdjustStack(code);
+            if (vaddr_idx != code.ABI_PARAM2.getIdx()) {
+                code.mov(code.ABI_PARAM2, Xbyak::Reg64{vaddr_idx});
+            }
+            if (value_idx != 1) {
+                code.movaps(xmm1, Xbyak::Xmm{value_idx});
+            }
+            code.call(memory_write_128);
+            ABI_PopCallerSaveRegistersAndAdjustStack(code);
+            code.ret();
+            PerfMapRegister(write_fallbacks[std::make_tuple(128, vaddr_idx, value_idx)], code.getCurr(), "a64_write_fallback_128");
+
+            if (value_idx == 4 || value_idx == 15) {
+                continue;
+            }
+
+            for (const auto& [bitsize, callback] : read_callbacks) {
+                code.align();
+                read_fallbacks[std::make_tuple(bitsize, vaddr_idx, value_idx)] = code.getCurr<void (*)()>();
+                ABI_PushCallerSaveRegistersAndAdjustStackExcept(code, HostLocRegIdx(value_idx));
+                if (vaddr_idx != code.ABI_PARAM2.getIdx()) {
+                    code.mov(code.ABI_PARAM2, Xbyak::Reg64{vaddr_idx});
+                }
+                callback.EmitCall(code);
+                if (value_idx != code.ABI_RETURN.getIdx()) {
+                    code.mov(Xbyak::Reg64{value_idx}, code.ABI_RETURN);
+                }
+                ABI_PopCallerSaveRegistersAndAdjustStackExcept(code, HostLocRegIdx(value_idx));
+                code.ret();
+                PerfMapRegister(read_fallbacks[std::make_tuple(bitsize, vaddr_idx, value_idx)], code.getCurr(), fmt::format("a64_read_fallback_{}", bitsize));
+            }
+
+            for (const auto& [bitsize, callback] : write_callbacks) {
+                code.align();
+                write_fallbacks[std::make_tuple(bitsize, vaddr_idx, value_idx)] = code.getCurr<void (*)()>();
+                ABI_PushCallerSaveRegistersAndAdjustStack(code);
+                if (vaddr_idx == code.ABI_PARAM3.getIdx() && value_idx == code.ABI_PARAM2.getIdx()) {
+                    code.xchg(code.ABI_PARAM2, code.ABI_PARAM3);
+                } else if (vaddr_idx == code.ABI_PARAM3.getIdx()) {
+                    code.mov(code.ABI_PARAM2, Xbyak::Reg64{vaddr_idx});
+                    if (value_idx != code.ABI_PARAM3.getIdx()) {
+                        code.mov(code.ABI_PARAM3, Xbyak::Reg64{value_idx});
+                    }
+                } else {
+                    if (value_idx != code.ABI_PARAM3.getIdx()) {
+                        code.mov(code.ABI_PARAM3, Xbyak::Reg64{value_idx});
+                    }
+                    if (vaddr_idx != code.ABI_PARAM2.getIdx()) {
+                        code.mov(code.ABI_PARAM2, Xbyak::Reg64{vaddr_idx});
+                    }
+                }
+                callback.EmitCall(code);
+                ABI_PopCallerSaveRegistersAndAdjustStack(code);
+                code.ret();
+                PerfMapRegister(write_fallbacks[std::make_tuple(bitsize, vaddr_idx, value_idx)], code.getCurr(), fmt::format("a64_write_fallback_{}", bitsize));
+            }
+        }
+    }
+}
+
+std::optional<A64EmitX64::DoNotFastmemMarker> A64EmitX64::ShouldFastmem(A64EmitContext& ctx, IR::Inst* inst) const {
+    if (!conf.fastmem_pointer || !exception_handler.SupportsFastmem()) {
+        return std::nullopt;
+    }
+
+    const auto marker = std::make_tuple(ctx.Location(), ctx.GetInstOffset(inst));
+    if (do_not_fastmem.count(marker) > 0) {
+        return std::nullopt;
+    }
+    return marker;
+}
+
+FakeCall A64EmitX64::FastmemCallback(u64 rip_) {
+    const auto iter = fastmem_patch_info.find(rip_);
+
+    if (iter == fastmem_patch_info.end()) {
+        fmt::print("dynarmic: Segfault happened within JITted code at rip = {:016x}\n", rip_);
+        fmt::print("Segfault wasn't at a fastmem patch location!\n");
+        fmt::print("Now dumping code.......\n\n");
+        Common::DumpDisassembledX64((void*)(rip_ & ~u64(0xFFF)), 0x1000);
+        ASSERT_FALSE("iter != fastmem_patch_info.end()");
+    }
+
+    if (conf.recompile_on_fastmem_failure) {
+        const auto marker = iter->second.marker;
+        do_not_fastmem.emplace(marker);
+        InvalidateBasicBlocks({std::get<0>(marker)});
+    }
+    FakeCall ret;
+    ret.call_rip = iter->second.callback;
+    ret.ret_rip = iter->second.resume_rip;
+    return ret;
+}
+
+namespace {
+
+constexpr size_t page_bits = 12;
+constexpr size_t page_size = 1 << page_bits;
+constexpr size_t page_mask = (1 << page_bits) - 1;
+
+void EmitDetectMisaignedVAddr(BlockOfCode& code, A64EmitContext& ctx, size_t bitsize, Xbyak::Label& abort, Xbyak::Reg64 vaddr, Xbyak::Reg64 tmp) {
+    if (bitsize == 8 || (ctx.conf.detect_misaligned_access_via_page_table & bitsize) == 0) {
+        return;
+    }
+
+    const u32 align_mask = [bitsize]() -> u32 {
+        switch (bitsize) {
+        case 16:
+            return 0b1;
+        case 32:
+            return 0b11;
+        case 64:
+            return 0b111;
+        case 128:
+            return 0b1111;
+        }
+        UNREACHABLE();
+    }();
+
+    code.test(vaddr, align_mask);
+
+    if (!ctx.conf.only_detect_misalignment_via_page_table_on_page_boundary) {
+        code.jnz(abort, code.T_NEAR);
+        return;
+    }
+
+    const u32 page_align_mask = static_cast<u32>(page_size - 1) & ~align_mask;
+
+    Xbyak::Label detect_boundary, resume;
+
+    code.jnz(detect_boundary, code.T_NEAR);
+    code.L(resume);
+
+    code.SwitchToFarCode();
+    code.L(detect_boundary);
+    code.mov(tmp, vaddr);
+    code.and_(tmp, page_align_mask);
+    code.cmp(tmp, page_align_mask);
+    code.jne(resume, code.T_NEAR);
+    // NOTE: We expect to fallthrough into abort code here.
+    code.SwitchToNearCode();
+}
+
+Xbyak::RegExp EmitVAddrLookup(BlockOfCode& code, A64EmitContext& ctx, size_t bitsize, Xbyak::Label& abort, Xbyak::Reg64 vaddr) {
+    const size_t valid_page_index_bits = ctx.conf.page_table_address_space_bits - page_bits;
+    const size_t unused_top_bits = 64 - ctx.conf.page_table_address_space_bits;
+
+    const Xbyak::Reg64 page = ctx.reg_alloc.ScratchGpr();
+    const Xbyak::Reg64 tmp = ctx.conf.absolute_offset_page_table ? page : ctx.reg_alloc.ScratchGpr();
+
+    EmitDetectMisaignedVAddr(code, ctx, bitsize, abort, vaddr, tmp);
+
+    if (unused_top_bits == 0) {
+        code.mov(tmp, vaddr);
+        code.shr(tmp, int(page_bits));
+    } else if (ctx.conf.silently_mirror_page_table) {
+        if (valid_page_index_bits >= 32) {
+            if (code.HasHostFeature(HostFeature::BMI2)) {
+                const Xbyak::Reg64 bit_count = ctx.reg_alloc.ScratchGpr();
+                code.mov(bit_count, unused_top_bits);
+                code.bzhi(tmp, vaddr, bit_count);
+                code.shr(tmp, int(page_bits));
+                ctx.reg_alloc.Release(bit_count);
+            } else {
+                code.mov(tmp, vaddr);
+                code.shl(tmp, int(unused_top_bits));
+                code.shr(tmp, int(unused_top_bits + page_bits));
+            }
+        } else {
+            code.mov(tmp, vaddr);
+            code.shr(tmp, int(page_bits));
+            code.and_(tmp, u32((1 << valid_page_index_bits) - 1));
+        }
+    } else {
+        ASSERT(valid_page_index_bits < 32);
+        code.mov(tmp, vaddr);
+        code.shr(tmp, int(page_bits));
+        code.test(tmp, u32(-(1 << valid_page_index_bits)));
+        code.jnz(abort, code.T_NEAR);
+    }
+    code.mov(page, qword[r14 + tmp * sizeof(void*)]);
+    if (ctx.conf.page_table_pointer_mask_bits == 0) {
+        code.test(page, page);
+    } else {
+        code.and_(page, ~u32(0) << ctx.conf.page_table_pointer_mask_bits);
+    }
+    code.jz(abort, code.T_NEAR);
+    if (ctx.conf.absolute_offset_page_table) {
+        return page + vaddr;
+    }
+    code.mov(tmp, vaddr);
+    code.and_(tmp, static_cast<u32>(page_mask));
+    return page + tmp;
+}
+
+Xbyak::RegExp EmitFastmemVAddr(BlockOfCode& code, A64EmitContext& ctx, Xbyak::Label& abort, Xbyak::Reg64 vaddr, bool& require_abort_handling) {
+    const size_t unused_top_bits = 64 - ctx.conf.fastmem_address_space_bits;
+
+    if (unused_top_bits == 0) {
+        return r13 + vaddr;
+    } else if (ctx.conf.silently_mirror_fastmem) {
+        Xbyak::Reg64 tmp = ctx.reg_alloc.ScratchGpr();
+        if (unused_top_bits < 32) {
+            code.mov(tmp, vaddr);
+            code.shl(tmp, int(unused_top_bits));
+            code.shr(tmp, int(unused_top_bits));
+        } else if (unused_top_bits == 32) {
+            code.mov(tmp.cvt32(), vaddr.cvt32());
+        } else {
+            code.mov(tmp.cvt32(), vaddr.cvt32());
+            code.and_(tmp, u32((1 << ctx.conf.fastmem_address_space_bits) - 1));
+        }
+        return r13 + tmp;
+    } else {
+        if (ctx.conf.fastmem_address_space_bits < 32) {
+            code.test(vaddr, u32(-(1 << ctx.conf.fastmem_address_space_bits)));
+            code.jnz(abort, code.T_NEAR);
+            require_abort_handling = true;
+        } else {
+            // TODO: Consider having TEST as above but coalesce 64-bit constant in register allocator
+            Xbyak::Reg64 tmp = ctx.reg_alloc.ScratchGpr();
+            code.mov(tmp, vaddr);
+            code.shr(tmp, int(ctx.conf.fastmem_address_space_bits));
+            code.jnz(abort, code.T_NEAR);
+            require_abort_handling = true;
+        }
+        return r13 + vaddr;
+    }
+}
+
+template<std::size_t bitsize>
+void EmitReadMemoryMov(BlockOfCode& code, int value_idx, const Xbyak::RegExp& addr) {
+    switch (bitsize) {
+    case 8:
+        code.movzx(Xbyak::Reg32{value_idx}, code.byte[addr]);
+        return;
+    case 16:
+        code.movzx(Xbyak::Reg32{value_idx}, word[addr]);
+        return;
+    case 32:
+        code.mov(Xbyak::Reg32{value_idx}, dword[addr]);
+        return;
+    case 64:
+        code.mov(Xbyak::Reg64{value_idx}, qword[addr]);
+        return;
+    case 128:
+        code.movups(Xbyak::Xmm{value_idx}, xword[addr]);
+        return;
+    default:
+        ASSERT_FALSE("Invalid bitsize");
+    }
+}
+
+template<std::size_t bitsize>
+void EmitWriteMemoryMov(BlockOfCode& code, const Xbyak::RegExp& addr, int value_idx) {
+    switch (bitsize) {
+    case 8:
+        code.mov(code.byte[addr], Xbyak::Reg64{value_idx}.cvt8());
+        return;
+    case 16:
+        code.mov(word[addr], Xbyak::Reg16{value_idx});
+        return;
+    case 32:
+        code.mov(dword[addr], Xbyak::Reg32{value_idx});
+        return;
+    case 64:
+        code.mov(qword[addr], Xbyak::Reg64{value_idx});
+        return;
+    case 128:
+        code.movups(xword[addr], Xbyak::Xmm{value_idx});
+        return;
+    default:
+        ASSERT_FALSE("Invalid bitsize");
+    }
+}
+
+}  // namespace
+
+template<std::size_t bitsize, auto callback>
+void A64EmitX64::EmitMemoryRead(A64EmitContext& ctx, IR::Inst* inst) {
+    auto args = ctx.reg_alloc.GetArgumentInfo(inst);
+    const auto fastmem_marker = ShouldFastmem(ctx, inst);
+
+    if (!conf.page_table && !fastmem_marker) {
+        // Neither fastmem nor page table: Use callbacks
+        if constexpr (bitsize == 128) {
+            ctx.reg_alloc.HostCall(nullptr, {}, args[0]);
+            code.CallFunction(memory_read_128);
+            ctx.reg_alloc.DefineValue(inst, xmm1);
+        } else {
+            ctx.reg_alloc.HostCall(inst, {}, args[0]);
+            Devirtualize<callback>(conf.callbacks).EmitCall(code);
+        }
+        return;
+    }
+
+    const Xbyak::Reg64 vaddr = ctx.reg_alloc.UseGpr(args[0]);
+    const int value_idx = bitsize == 128 ? ctx.reg_alloc.ScratchXmm().getIdx() : ctx.reg_alloc.ScratchGpr().getIdx();
+
+    const auto wrapped_fn = read_fallbacks[std::make_tuple(bitsize, vaddr.getIdx(), value_idx)];
+
+    Xbyak::Label abort, end;
+    bool require_abort_handling = false;
+
+    if (fastmem_marker) {
+        // Use fastmem
+        const auto src_ptr = EmitFastmemVAddr(code, ctx, abort, vaddr, require_abort_handling);
+
+        const auto location = code.getCurr();
+        EmitReadMemoryMov<bitsize>(code, value_idx, src_ptr);
+
+        fastmem_patch_info.emplace(
+            Common::BitCast<u64>(location),
+            FastmemPatchInfo{
+                Common::BitCast<u64>(code.getCurr()),
+                Common::BitCast<u64>(wrapped_fn),
+                *fastmem_marker,
+            });
+    } else {
+        // Use page table
+        ASSERT(conf.page_table);
+        const auto src_ptr = EmitVAddrLookup(code, ctx, bitsize, abort, vaddr);
+        require_abort_handling = true;
+        EmitReadMemoryMov<bitsize>(code, value_idx, src_ptr);
+    }
+    code.L(end);
+
+    if (require_abort_handling) {
+        code.SwitchToFarCode();
+        code.L(abort);
+        code.call(wrapped_fn);
+        code.jmp(end, code.T_NEAR);
+        code.SwitchToNearCode();
+    }
+
+    if constexpr (bitsize == 128) {
+        ctx.reg_alloc.DefineValue(inst, Xbyak::Xmm{value_idx});
+    } else {
+        ctx.reg_alloc.DefineValue(inst, Xbyak::Reg64{value_idx});
+    }
+}
+
+template<std::size_t bitsize, auto callback>
+void A64EmitX64::EmitMemoryWrite(A64EmitContext& ctx, IR::Inst* inst) {
+    auto args = ctx.reg_alloc.GetArgumentInfo(inst);
+    const auto fastmem_marker = ShouldFastmem(ctx, inst);
+
+    if (!conf.page_table && !fastmem_marker) {
+        // Neither fastmem nor page table: Use callbacks
+        if constexpr (bitsize == 128) {
+            ctx.reg_alloc.Use(args[0], ABI_PARAM2);
+            ctx.reg_alloc.Use(args[1], HostLoc::XMM1);
+            ctx.reg_alloc.EndOfAllocScope();
+            ctx.reg_alloc.HostCall(nullptr);
+            code.CallFunction(memory_write_128);
+        } else {
+            ctx.reg_alloc.HostCall(nullptr, {}, args[0], args[1]);
+            Devirtualize<callback>(conf.callbacks).EmitCall(code);
+        }
+        return;
+    }
+
+    const Xbyak::Reg64 vaddr = ctx.reg_alloc.UseGpr(args[0]);
+    const int value_idx = bitsize == 128 ? ctx.reg_alloc.UseXmm(args[1]).getIdx() : ctx.reg_alloc.UseGpr(args[1]).getIdx();
+
+    const auto wrapped_fn = write_fallbacks[std::make_tuple(bitsize, vaddr.getIdx(), value_idx)];
+
+    Xbyak::Label abort, end;
+    bool require_abort_handling = false;
+
+    if (fastmem_marker) {
+        // Use fastmem
+        const auto dest_ptr = EmitFastmemVAddr(code, ctx, abort, vaddr, require_abort_handling);
+
+        const auto location = code.getCurr();
+        EmitWriteMemoryMov<bitsize>(code, dest_ptr, value_idx);
+
+        fastmem_patch_info.emplace(
+            Common::BitCast<u64>(location),
+            FastmemPatchInfo{
+                Common::BitCast<u64>(code.getCurr()),
+                Common::BitCast<u64>(wrapped_fn),
+                *fastmem_marker,
+            });
+    } else {
+        // Use page table
+        ASSERT(conf.page_table);
+        const auto dest_ptr = EmitVAddrLookup(code, ctx, bitsize, abort, vaddr);
+        require_abort_handling = true;
+        EmitWriteMemoryMov<bitsize>(code, dest_ptr, value_idx);
+    }
+    code.L(end);
+
+    if (require_abort_handling) {
+        code.SwitchToFarCode();
+        code.L(abort);
+        code.call(wrapped_fn);
+        code.jmp(end, code.T_NEAR);
+        code.SwitchToNearCode();
+    }
+}
+
+void A64EmitX64::EmitA64ReadMemory8(A64EmitContext& ctx, IR::Inst* inst) {
+    EmitMemoryRead<8, &A64::UserCallbacks::MemoryRead8>(ctx, inst);
+}
+
+void A64EmitX64::EmitA64ReadMemory16(A64EmitContext& ctx, IR::Inst* inst) {
+    EmitMemoryRead<16, &A64::UserCallbacks::MemoryRead16>(ctx, inst);
+}
+
+void A64EmitX64::EmitA64ReadMemory32(A64EmitContext& ctx, IR::Inst* inst) {
+    EmitMemoryRead<32, &A64::UserCallbacks::MemoryRead32>(ctx, inst);
+}
+
+void A64EmitX64::EmitA64ReadMemory64(A64EmitContext& ctx, IR::Inst* inst) {
+    EmitMemoryRead<64, &A64::UserCallbacks::MemoryRead64>(ctx, inst);
+}
+
+void A64EmitX64::EmitA64ReadMemory128(A64EmitContext& ctx, IR::Inst* inst) {
+    EmitMemoryRead<128, &A64::UserCallbacks::MemoryRead128>(ctx, inst);
+}
+
+void A64EmitX64::EmitA64WriteMemory8(A64EmitContext& ctx, IR::Inst* inst) {
+    EmitMemoryWrite<8, &A64::UserCallbacks::MemoryWrite8>(ctx, inst);
+}
+
+void A64EmitX64::EmitA64WriteMemory16(A64EmitContext& ctx, IR::Inst* inst) {
+    EmitMemoryWrite<16, &A64::UserCallbacks::MemoryWrite16>(ctx, inst);
+}
+
+void A64EmitX64::EmitA64WriteMemory32(A64EmitContext& ctx, IR::Inst* inst) {
+    EmitMemoryWrite<32, &A64::UserCallbacks::MemoryWrite32>(ctx, inst);
+}
+
+void A64EmitX64::EmitA64WriteMemory64(A64EmitContext& ctx, IR::Inst* inst) {
+    EmitMemoryWrite<64, &A64::UserCallbacks::MemoryWrite64>(ctx, inst);
+}
+
+void A64EmitX64::EmitA64WriteMemory128(A64EmitContext& ctx, IR::Inst* inst) {
+    EmitMemoryWrite<128, &A64::UserCallbacks::MemoryWrite64>(ctx, inst);
+}
+
+template<std::size_t bitsize, auto callback>
+void A64EmitX64::EmitExclusiveReadMemory(A64EmitContext& ctx, IR::Inst* inst) {
+    ASSERT(conf.global_monitor != nullptr);
+    auto args = ctx.reg_alloc.GetArgumentInfo(inst);
+
+    if constexpr (bitsize != 128) {
+        using T = mp::unsigned_integer_of_size<bitsize>;
+
+        ctx.reg_alloc.HostCall(inst, {}, args[0]);
+
+        code.mov(code.byte[r15 + offsetof(A64JitState, exclusive_state)], u8(1));
+        code.mov(code.ABI_PARAM1, reinterpret_cast<u64>(&conf));
+        code.CallLambda(
+            [](A64::UserConfig& conf, u64 vaddr) -> T {
+                return conf.global_monitor->ReadAndMark<T>(conf.processor_id, vaddr, [&]() -> T {
+                    return (conf.callbacks->*callback)(vaddr);
+                });
+            });
+    } else {
+        const Xbyak::Xmm result = ctx.reg_alloc.ScratchXmm();
+        ctx.reg_alloc.Use(args[0], ABI_PARAM2);
+        ctx.reg_alloc.EndOfAllocScope();
+        ctx.reg_alloc.HostCall(nullptr);
+
+        code.mov(code.byte[r15 + offsetof(A64JitState, exclusive_state)], u8(1));
+        code.mov(code.ABI_PARAM1, reinterpret_cast<u64>(&conf));
+        ctx.reg_alloc.AllocStackSpace(16 + ABI_SHADOW_SPACE);
+        code.lea(code.ABI_PARAM3, ptr[rsp + ABI_SHADOW_SPACE]);
+        code.CallLambda(
+            [](A64::UserConfig& conf, u64 vaddr, A64::Vector& ret) {
+                ret = conf.global_monitor->ReadAndMark<A64::Vector>(conf.processor_id, vaddr, [&]() -> A64::Vector {
+                    return (conf.callbacks->*callback)(vaddr);
+                });
+            });
+        code.movups(result, xword[rsp + ABI_SHADOW_SPACE]);
+        ctx.reg_alloc.ReleaseStackSpace(16 + ABI_SHADOW_SPACE);
+
+        ctx.reg_alloc.DefineValue(inst, result);
+    }
+}
+
+template<std::size_t bitsize, auto callback>
+void A64EmitX64::EmitExclusiveWriteMemory(A64EmitContext& ctx, IR::Inst* inst) {
+    ASSERT(conf.global_monitor != nullptr);
+    auto args = ctx.reg_alloc.GetArgumentInfo(inst);
+
+    if constexpr (bitsize != 128) {
+        ctx.reg_alloc.HostCall(inst, {}, args[0], args[1]);
+    } else {
+        ctx.reg_alloc.Use(args[0], ABI_PARAM2);
+        ctx.reg_alloc.Use(args[1], HostLoc::XMM1);
+        ctx.reg_alloc.EndOfAllocScope();
+        ctx.reg_alloc.HostCall(inst);
+    }
+
+    Xbyak::Label end;
+
+    code.mov(code.ABI_RETURN, u32(1));
+    code.cmp(code.byte[r15 + offsetof(A64JitState, exclusive_state)], u8(0));
+    code.je(end);
+    code.mov(code.byte[r15 + offsetof(A64JitState, exclusive_state)], u8(0));
+    code.mov(code.ABI_PARAM1, reinterpret_cast<u64>(&conf));
+    if constexpr (bitsize != 128) {
+        using T = mp::unsigned_integer_of_size<bitsize>;
+
+        code.CallLambda(
+            [](A64::UserConfig& conf, u64 vaddr, T value) -> u32 {
+                return conf.global_monitor->DoExclusiveOperation<T>(conf.processor_id, vaddr,
+                                                                    [&](T expected) -> bool {
+                                                                        return (conf.callbacks->*callback)(vaddr, value, expected);
+                                                                    })
+                         ? 0
+                         : 1;
+            });
+    } else {
+        ctx.reg_alloc.AllocStackSpace(16 + ABI_SHADOW_SPACE);
+        code.lea(code.ABI_PARAM3, ptr[rsp + ABI_SHADOW_SPACE]);
+        code.movaps(xword[code.ABI_PARAM3], xmm1);
+        code.CallLambda(
+            [](A64::UserConfig& conf, u64 vaddr, A64::Vector& value) -> u32 {
+                return conf.global_monitor->DoExclusiveOperation<A64::Vector>(conf.processor_id, vaddr,
+                                                                              [&](A64::Vector expected) -> bool {
+                                                                                  return (conf.callbacks->*callback)(vaddr, value, expected);
+                                                                              })
+                         ? 0
+                         : 1;
+            });
+        ctx.reg_alloc.ReleaseStackSpace(16 + ABI_SHADOW_SPACE);
+    }
+    code.L(end);
+}
+
+void A64EmitX64::EmitA64ClearExclusive(A64EmitContext&, IR::Inst*) {
+    code.mov(code.byte[r15 + offsetof(A64JitState, exclusive_state)], u8(0));
+}
+
+void A64EmitX64::EmitA64ExclusiveReadMemory8(A64EmitContext& ctx, IR::Inst* inst) {
+    EmitExclusiveReadMemory<8, &A64::UserCallbacks::MemoryRead8>(ctx, inst);
+}
+
+void A64EmitX64::EmitA64ExclusiveReadMemory16(A64EmitContext& ctx, IR::Inst* inst) {
+    EmitExclusiveReadMemory<16, &A64::UserCallbacks::MemoryRead16>(ctx, inst);
+}
+
+void A64EmitX64::EmitA64ExclusiveReadMemory32(A64EmitContext& ctx, IR::Inst* inst) {
+    EmitExclusiveReadMemory<32, &A64::UserCallbacks::MemoryRead32>(ctx, inst);
+}
+
+void A64EmitX64::EmitA64ExclusiveReadMemory64(A64EmitContext& ctx, IR::Inst* inst) {
+    EmitExclusiveReadMemory<64, &A64::UserCallbacks::MemoryRead64>(ctx, inst);
+}
+
+void A64EmitX64::EmitA64ExclusiveReadMemory128(A64EmitContext& ctx, IR::Inst* inst) {
+    EmitExclusiveReadMemory<128, &A64::UserCallbacks::MemoryRead128>(ctx, inst);
+}
+
+void A64EmitX64::EmitA64ExclusiveWriteMemory8(A64EmitContext& ctx, IR::Inst* inst) {
+    EmitExclusiveWriteMemory<8, &A64::UserCallbacks::MemoryWriteExclusive8>(ctx, inst);
+}
+
+void A64EmitX64::EmitA64ExclusiveWriteMemory16(A64EmitContext& ctx, IR::Inst* inst) {
+    EmitExclusiveWriteMemory<16, &A64::UserCallbacks::MemoryWriteExclusive16>(ctx, inst);
+}
+
+void A64EmitX64::EmitA64ExclusiveWriteMemory32(A64EmitContext& ctx, IR::Inst* inst) {
+    EmitExclusiveWriteMemory<32, &A64::UserCallbacks::MemoryWriteExclusive32>(ctx, inst);
+}
+
+void A64EmitX64::EmitA64ExclusiveWriteMemory64(A64EmitContext& ctx, IR::Inst* inst) {
+    EmitExclusiveWriteMemory<64, &A64::UserCallbacks::MemoryWriteExclusive64>(ctx, inst);
+}
+
+void A64EmitX64::EmitA64ExclusiveWriteMemory128(A64EmitContext& ctx, IR::Inst* inst) {
+    EmitExclusiveWriteMemory<128, &A64::UserCallbacks::MemoryWriteExclusive128>(ctx, inst);
+}
+
+}  // namespace Dynarmic::Backend::X64