CPU/Recompiler: Reserve whole fastmem region to avoid clashes
This commit is contained in:
Connor McLaughlin
parent
8df0496dc1
commit
922d320523
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@ -213,6 +213,15 @@ std::optional<MemoryArena::View> MemoryArena::CreateView(size_t offset, size_t s
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return View(this, base_pointer, offset, size, writable);
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}
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std::optional<MemoryArena::View> MemoryArena::CreateReservedView(size_t size, void* fixed_address /*= nullptr*/)
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{
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void* base_pointer = CreateReservedPtr(size, fixed_address);
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if (!base_pointer)
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return std::nullopt;
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return View(this, base_pointer, View::RESERVED_REGION_OFFSET, size, false);
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}
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void* MemoryArena::CreateViewPtr(size_t offset, size_t size, bool writable, bool executable,
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void* fixed_address /*= nullptr*/)
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{
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@ -276,6 +285,53 @@ bool MemoryArena::ReleaseViewPtr(void* address, size_t size)
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return true;
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}
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void* MemoryArena::CreateReservedPtr(size_t size, void* fixed_address /*= nullptr*/)
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{
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void* base_pointer;
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#if defined(WIN32)
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base_pointer = VirtualAlloc(fixed_address, size, MEM_RESERVE, PAGE_NOACCESS);
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#elif defined(__linux__)
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const int flags =
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(fixed_address != nullptr) ? (MAP_PRIVATE | MAP_ANONYMOUS | MAP_FIXED) : (MAP_PRIVATE | MAP_ANONYMOUS);
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base_pointer = mmap64(fixed_address, size, PROT_NONE, flags, -1, 0);
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if (base_pointer == reinterpret_cast<void*>(-1))
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return nullptr;
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#elif defined(__APPLE__) || defined(__FreeBSD__)
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const int flags =
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(fixed_address != nullptr) ? (MAP_PRIVATE | MAP_ANONYMOUS | MAP_FIXED) : (MAP_PRIVATE | MAP_ANONYMOUS);
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base_pointer = mmap(fixed_address, size, prot, PROT_NONE, -1, 0);
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if (base_pointer == reinterpret_cast<void*>(-1))
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return nullptr;
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#else
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return nullptr;
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#endif
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m_num_views.fetch_add(1);
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return base_pointer;
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}
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bool MemoryArena::ReleaseReservedPtr(void* address, size_t size)
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{
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bool result;
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#if defined(WIN32)
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result = static_cast<bool>(VirtualFree(address, 0, MEM_RELEASE));
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#elif defined(__linux__) || defined(__APPLE__) || defined(__FreeBSD__)
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result = (munmap(address, size) >= 0);
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#else
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result = false;
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#endif
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if (!result)
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{
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Log_ErrorPrintf("Failed to release previously-created view at %p", address);
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return false;
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}
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const size_t prev_count = m_num_views.fetch_sub(1);
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Assert(prev_count > 0);
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return true;
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}
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bool MemoryArena::SetPageProtection(void* address, size_t length, bool readable, bool writable, bool executable)
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{
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#if defined(WIN32)
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@ -315,10 +371,18 @@ MemoryArena::View::~View()
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{
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if (m_parent)
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{
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if (m_writable && !m_parent->FlushViewPtr(m_base_pointer, m_mapping_size))
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Panic("Failed to flush previously-created view");
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if (!m_parent->ReleaseViewPtr(m_base_pointer, m_mapping_size))
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Panic("Failed to unmap previously-created view");
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if (m_arena_offset != RESERVED_REGION_OFFSET)
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{
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if (m_writable && !m_parent->FlushViewPtr(m_base_pointer, m_mapping_size))
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Panic("Failed to flush previously-created view");
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if (!m_parent->ReleaseViewPtr(m_base_pointer, m_mapping_size))
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Panic("Failed to unmap previously-created view");
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}
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else
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{
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if (!m_parent->ReleaseReservedPtr(m_base_pointer, m_mapping_size))
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Panic("Failed to release previously-created view");
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}
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}
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}
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} // namespace Common
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@ -10,6 +10,11 @@ public:
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class View
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{
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public:
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enum : size_t
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{
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RESERVED_REGION_OFFSET = static_cast<size_t>(-1)
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};
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View(MemoryArena* parent, void* base_pointer, size_t arena_offset, size_t mapping_size, bool writable);
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View(View&& view);
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~View();
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@ -39,10 +44,15 @@ public:
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std::optional<View> CreateView(size_t offset, size_t size, bool writable, bool executable,
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void* fixed_address = nullptr);
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std::optional<View> CreateReservedView(size_t size, void* fixed_address = nullptr);
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void* CreateViewPtr(size_t offset, size_t size, bool writable, bool executable, void* fixed_address = nullptr);
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bool FlushViewPtr(void* address, size_t size);
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bool ReleaseViewPtr(void* address, size_t size);
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void* CreateReservedPtr(size_t size, void* fixed_address = nullptr);
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bool ReleaseReservedPtr(void* address, size_t size);
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static bool SetPageProtection(void* address, size_t length, bool readable, bool writable, bool executable);
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private:
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102
src/core/bus.cpp
102
src/core/bus.cpp
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@ -95,6 +95,7 @@ static CPUFastmemMode m_fastmem_mode = CPUFastmemMode::Disabled;
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#ifdef WITH_MMAP_FASTMEM
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static u8* m_fastmem_base = nullptr;
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static std::vector<Common::MemoryArena::View> m_fastmem_ram_views;
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static std::vector<Common::MemoryArena::View> m_fastmem_reserved_views;
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#endif
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static u8** m_fastmem_lut = nullptr;
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@ -304,12 +305,18 @@ CPUFastmemMode GetFastmemMode()
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return m_fastmem_mode;
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}
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void UpdateFastmemViews(CPUFastmemMode mode, bool isolate_cache)
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u8* GetFastmemBase()
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{
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return m_fastmem_base;
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}
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void UpdateFastmemViews(CPUFastmemMode mode)
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{
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#ifndef WITH_MMAP_FASTMEM
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Assert(mode != CPUFastmemMode::MMap);
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#else
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m_fastmem_ram_views.clear();
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m_fastmem_reserved_views.clear();
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#endif
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m_fastmem_mode = mode;
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@ -323,8 +330,6 @@ void UpdateFastmemViews(CPUFastmemMode mode, bool isolate_cache)
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return;
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}
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Log_DevPrintf("Remapping fastmem area, isolate cache = %s", isolate_cache ? "true" : "false");
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#ifdef WITH_MMAP_FASTMEM
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if (mode == CPUFastmemMode::MMap)
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{
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@ -344,9 +349,9 @@ void UpdateFastmemViews(CPUFastmemMode mode, bool isolate_cache)
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CPU::g_state.fastmem_base = m_fastmem_base;
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}
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auto MapRAM = [](u32 base_address, bool writable) {
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auto MapRAM = [](u32 base_address) {
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u8* map_address = m_fastmem_base + base_address;
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auto view = m_memory_arena.CreateView(MEMORY_ARENA_RAM_OFFSET, RAM_SIZE, writable, false, map_address);
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auto view = m_memory_arena.CreateView(MEMORY_ARENA_RAM_OFFSET, RAM_SIZE, true, false, map_address);
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if (!view)
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{
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Log_ErrorPrintf("Failed to map RAM at fastmem area %p (offset 0x%08X)", map_address, RAM_SIZE);
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@ -370,26 +375,39 @@ void UpdateFastmemViews(CPUFastmemMode mode, bool isolate_cache)
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m_fastmem_ram_views.push_back(std::move(view.value()));
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};
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if (!isolate_cache)
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{
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// KUSEG - cached
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MapRAM(0x00000000, true);
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// MapRAM(0x00200000, true);
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// MapRAM(0x00400000, true);
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// MapRAM(0x00600000, true);
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auto ReserveRegion = [](u32 start_address, u32 end_address_inclusive) {
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Assert(end_address_inclusive >= start_address);
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u8* map_address = m_fastmem_base + start_address;
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auto view = m_memory_arena.CreateReservedView(end_address_inclusive - start_address + 1, map_address);
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if (!view)
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{
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Log_ErrorPrintf("Failed to map RAM at fastmem area %p (offset 0x%08X)", map_address, RAM_SIZE);
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return;
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}
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// KSEG0 - cached
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MapRAM(0x80000000, true);
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// MapRAM(0x80200000, true);
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// MapRAM(0x80400000, true);
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// MapRAM(0x80600000, true);
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}
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m_fastmem_reserved_views.push_back(std::move(view.value()));
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};
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// KUSEG - cached
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MapRAM(0x00000000);
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// MapRAM(0x00200000);
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// MapRAM(0x00400000);
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// MapRAM(0x00600000);
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ReserveRegion(0x00200000, 0x80000000 - 1);
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// KSEG0 - cached
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MapRAM(0x80000000);
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// MapRAM(0x80200000);
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// MapRAM(0x80400000);
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// MapRAM(0x80600000);
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ReserveRegion(0x80200000, 0xA0000000 - 1);
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// KSEG1 - uncached
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MapRAM(0xA0000000, true);
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// MapRAM(0xA0200000, true);
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// MapRAM(0xA0400000, true);
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// MapRAM(0xA0600000, true);
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MapRAM(0xA0000000);
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// MapRAM(0xA0200000);
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// MapRAM(0xA0400000);
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// MapRAM(0xA0600000);
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ReserveRegion(0xA0200000, 0xFFFFFFFF);
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return;
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}
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@ -408,39 +426,31 @@ void UpdateFastmemViews(CPUFastmemMode mode, bool isolate_cache)
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CPU::g_state.fastmem_base = reinterpret_cast<u8*>(m_fastmem_lut);
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}
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auto MapRAM = [](u32 base_address, bool readable, bool writable) {
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if (readable)
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auto MapRAM = [](u32 base_address) {
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for (u32 address = 0; address < RAM_SIZE; address += HOST_PAGE_SIZE)
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{
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for (u32 address = 0; address < RAM_SIZE; address += HOST_PAGE_SIZE)
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{
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SetLUTFastmemPage(base_address + address, &g_ram[address],
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!m_ram_code_bits[FastmemAddressToLUTPageIndex(address)]);
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}
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}
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else
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{
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for (u32 address = 0; address < RAM_SIZE; address += HOST_PAGE_SIZE)
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SetLUTFastmemPage(base_address + address, nullptr, false);
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SetLUTFastmemPage(base_address + address, &g_ram[address],
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!m_ram_code_bits[FastmemAddressToLUTPageIndex(address)]);
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}
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};
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// KUSEG - cached
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MapRAM(0x00000000, !isolate_cache, !isolate_cache);
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MapRAM(0x00200000, !isolate_cache, !isolate_cache);
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MapRAM(0x00400000, !isolate_cache, !isolate_cache);
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MapRAM(0x00600000, !isolate_cache, !isolate_cache);
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MapRAM(0x00000000);
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MapRAM(0x00200000);
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MapRAM(0x00400000);
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MapRAM(0x00600000);
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// KSEG0 - cached
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MapRAM(0x80000000, !isolate_cache, !isolate_cache);
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MapRAM(0x80200000, !isolate_cache, !isolate_cache);
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MapRAM(0x80400000, !isolate_cache, !isolate_cache);
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MapRAM(0x80600000, !isolate_cache, !isolate_cache);
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MapRAM(0x80000000);
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MapRAM(0x80200000);
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MapRAM(0x80400000);
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MapRAM(0x80600000);
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// KSEG1 - uncached
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MapRAM(0xA0000000, true, true);
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MapRAM(0xA0200000, true, true);
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MapRAM(0xA0400000, true, true);
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MapRAM(0xA0600000, true, true);
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MapRAM(0xA0000000);
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MapRAM(0xA0200000);
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MapRAM(0xA0400000);
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MapRAM(0xA0600000);
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}
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bool CanUseFastmemForAddress(VirtualMemoryAddress address)
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@ -100,7 +100,8 @@ void Reset();
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bool DoState(StateWrapper& sw);
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CPUFastmemMode GetFastmemMode();
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void UpdateFastmemViews(CPUFastmemMode mode, bool isolate_cache);
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u8* GetFastmemBase();
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void UpdateFastmemViews(CPUFastmemMode mode);
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bool CanUseFastmemForAddress(VirtualMemoryAddress address);
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void SetExpansionROM(std::vector<u8> data);
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@ -784,14 +784,14 @@ bool InitializeFastmem()
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return false;
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}
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Bus::UpdateFastmemViews(mode, g_state.cop0_regs.sr.Isc);
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Bus::UpdateFastmemViews(mode);
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return true;
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}
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void ShutdownFastmem()
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{
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Common::PageFaultHandler::RemoveHandler(&s_host_code_map);
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Bus::UpdateFastmemViews(CPUFastmemMode::Disabled, false);
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Bus::UpdateFastmemViews(CPUFastmemMode::Disabled);
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}
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#ifdef WITH_MMAP_FASTMEM
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@ -1975,7 +1975,10 @@ bool InterpretInstructionPGXP()
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void UpdateFastmemMapping()
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{
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Bus::UpdateFastmemViews(Bus::GetFastmemMode(), g_state.cop0_regs.sr.Isc);
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if (g_state.cop0_regs.sr.Isc)
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g_state.fastmem_base = nullptr;
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else
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g_state.fastmem_base = Bus::GetFastmemBase();
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}
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} // namespace Recompiler::Thunks
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@ -2476,6 +2476,7 @@ bool CodeGenerator::Compile_cop0(const CodeBlockInstruction& cbi)
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EmitBranchIfBitClear(old_value.host_reg, RegSize_32, 16, &skip_fastmem_update);
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m_register_cache.InhibitAllocation();
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EmitFunctionCall(nullptr, &Thunks::UpdateFastmemMapping, m_register_cache.GetCPUPtr());
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EmitUpdateMembasePointer();
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EmitBindLabel(&skip_fastmem_update);
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m_register_cache.UninhibitAllocation();
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}
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@ -93,6 +93,7 @@ public:
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void EmitStoreGuestMemoryFastmem(const CodeBlockInstruction& cbi, const Value& address, const Value& value);
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void EmitStoreGuestMemorySlowmem(const CodeBlockInstruction& cbi, const Value& address, const Value& value,
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bool in_far_code);
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void EmitUpdateMembasePointer();
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// Unconditional branch to pointer. May allocate a scratch register.
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void EmitBranch(const void* address, bool allow_scratch = true);
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@ -1170,6 +1170,22 @@ Value CodeGenerator::GetFastmemStoreBase()
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return val;
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}
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void CodeGenerator::EmitUpdateMembasePointer()
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{
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if (m_fastmem_load_base_in_register)
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{
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Value val = Value::FromHostReg(&m_register_cache, RARG4, RegSize_32);
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m_emit->ldr(GetHostReg32(val), a32::MemOperand(GetCPUPtrReg(), offsetof(CPU::State, fastmem_base)));
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}
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if (m_fastmem_store_base_in_register)
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{
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Value val = Value::FromHostReg(&m_register_cache, RARG3, RegSize_32);
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m_emit->ldr(GetHostReg32(val), a32::MemOperand(GetCPUPtrReg(), offsetof(CPU::State, fastmem_base)));
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m_emit->add(GetHostReg32(val), GetHostReg32(val), sizeof(u32*) * Bus::FASTMEM_LUT_NUM_PAGES);
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}
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}
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void CodeGenerator::EmitLoadGuestRAMFastmem(const Value& address, RegSize size, Value& result)
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{
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Value fastmem_base = GetFastmemLoadBase();
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@ -1728,6 +1728,11 @@ void CodeGenerator::EmitStoreGuestMemorySlowmem(const CodeBlockInstruction& cbi,
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}
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}
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void CodeGenerator::EmitUpdateMembasePointer()
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{
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m_emit->Ldr(GetFastmemBasePtrReg(), a64::MemOperand(GetCPUPtrReg(), offsetof(State, fastmem_base)));
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}
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bool CodeGenerator::BackpatchLoadStore(const LoadStoreBackpatchInfo& lbi)
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{
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Log_DevPrintf("Backpatching %p (guest PC 0x%08X) to slowmem at %p", lbi.host_pc, lbi.guest_pc, lbi.host_slowmem_pc);
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@ -2313,6 +2313,11 @@ void CodeGenerator::EmitStoreGuestMemorySlowmem(const CodeBlockInstruction& cbi,
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}
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}
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void CodeGenerator::EmitUpdateMembasePointer()
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{
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m_emit->mov(GetFastmemBasePtrReg(), m_emit->qword[GetCPUPtrReg() + offsetof(CPU::State, fastmem_base)]);
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}
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bool CodeGenerator::BackpatchLoadStore(const LoadStoreBackpatchInfo& lbi)
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{
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Log_DevPrintf("Backpatching %p (guest PC 0x%08X) to slowmem", lbi.host_pc, lbi.guest_pc);
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@ -801,9 +801,6 @@ void HostInterface::CheckForSettingsChanges(const Settings& old_settings)
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g_settings.rewind_enable != old_settings.rewind_enable ||
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g_settings.runahead_frames != old_settings.runahead_frames)
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{
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if (g_settings.IsUsingCodeCache())
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CPU::CodeCache::Reinitialize();
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g_gpu->UpdateSettings();
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}
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@ -679,9 +679,6 @@ bool RecreateGPU(GPURenderer renderer, bool update_display /* = true*/)
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return false;
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}
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// reinitialize the code cache because the address space could change
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CPU::CodeCache::Reinitialize();
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if (state_valid)
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{
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state_stream->SeekAbsolute(0);
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@ -1940,10 +1937,6 @@ bool InsertMedia(const char* path)
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UpdateMemoryCards();
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}
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// reinitialize recompiler, because especially with preloading this might overlap the fastmem area
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if (g_settings.IsUsingCodeCache())
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CPU::CodeCache::Reinitialize();
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||||
|
||||
ClearMemorySaveStates();
|
||||
return true;
|
||||
}
|
||||
|
|
@ -2069,10 +2062,6 @@ bool SwitchMediaSubImage(u32 index)
|
|||
image->GetSubImageMetadata(index, "title").c_str(), index + 1u, image->GetMetadata("title").c_str());
|
||||
g_cdrom.InsertMedia(std::move(image));
|
||||
|
||||
// reinitialize recompiler, because especially with preloading this might overlap the fastmem area
|
||||
if (g_settings.IsUsingCodeCache())
|
||||
CPU::CodeCache::Reinitialize();
|
||||
|
||||
ClearMemorySaveStates();
|
||||
return true;
|
||||
}
|
||||
|
|
|
|||
Loading…
Reference in New Issue