dolphin/Source/Core/Common/MemArena.h

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// Copyright 2008 Dolphin Emulator Project
// SPDX-License-Identifier: GPL-2.0-or-later
#pragma once
#include <cstddef>
#include <string_view>
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#include <vector>
#include "Common/CommonTypes.h"
#include "Common/DynamicLibrary.h"
namespace Common
{
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#ifdef _WIN32
struct WindowsMemoryRegion;
struct WindowsMemoryFunctions
{
Common::DynamicLibrary m_kernel32_handle;
Common::DynamicLibrary m_api_ms_win_core_memory_l1_1_6_handle;
void* m_address_UnmapViewOfFileEx = nullptr;
void* m_address_VirtualAlloc2 = nullptr;
void* m_address_MapViewOfFile3 = nullptr;
};
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#endif
// This class lets you create a block of anonymous RAM, and then arbitrarily map views into it.
// Multiple views can mirror the same section of the block, which makes it very convenient for
// emulating memory mirrors.
class MemArena final
{
public:
MemArena();
~MemArena();
MemArena(const MemArena&) = delete;
MemArena(MemArena&&) = delete;
MemArena& operator=(const MemArena&) = delete;
MemArena& operator=(MemArena&&) = delete;
///
/// Allocate the singular memory segment handled by this MemArena. This will be the actual
/// 'physical' available memory for this arena. After allocation, it can be interacted with using
/// CreateView() and ReleaseView(). Used to make a mappable region for emulated memory.
///
/// @param size The amount of bytes that should be allocated in this region.
/// @param base_name A base name for the shared memory region, if applicable for this platform.
/// Will be extended with the process ID.
///
void GrabSHMSegment(size_t size, std::string_view base_name);
///
/// Release the memory segment previously allocated with GrabSHMSegment().
/// Should not be called before all views have been released.
///
void ReleaseSHMSegment();
///
/// Map a memory region in the memory segment previously allocated with GrabSHMSegment().
///
/// @param offset Offset within the memory segment to map at.
/// @param size Size of the region to map.
///
/// @return Pointer to the memory region, or nullptr on failure.
///
void* CreateView(s64 offset, size_t size);
///
/// Unmap a memory region previously mapped with CreateView().
/// Should not be called on a view that is still mapped into the virtual memory region.
///
/// @param view Pointer returned by CreateView().
/// @param size Size passed to the corresponding CreateView() call.
///
void ReleaseView(void* view, size_t size);
///
/// Reserve the singular 'virtual' memory region handled by this MemArena. This is used to create
/// our 'fastmem' memory area for the emulated game code to access directly.
///
/// @param memory_size Size in bytes of the memory region to reserve.
///
/// @return Pointer to the memory region, or nullptr on failure.
///
u8* ReserveMemoryRegion(size_t memory_size);
///
/// Release the memory region previously reserved with ReserveMemoryRegion().
/// Should not be called while any memory region is still mapped.
///
void ReleaseMemoryRegion();
///
/// Map a section from the memory segment previously allocated with GrabSHMSegment()
/// into the region previously reserved with ReserveMemoryRegion().
///
/// @param offset Offset within the memory segment previous allocated by GrabSHMSegment() to map
/// from.
/// @param size Size of the region to map.
/// @param base Address within the memory region from ReserveMemoryRegion() where to map it.
///
/// @return The address we actually ended up mapping, which should be the given 'base'.
///
void* MapInMemoryRegion(s64 offset, size_t size, void* base);
///
/// Unmap a memory region previously mapped with MapInMemoryRegion().
///
/// @param view Pointer returned by MapInMemoryRegion().
/// @param size Size passed to the corresponding MapInMemoryRegion() call.
///
void UnmapFromMemoryRegion(void* view, size_t size);
private:
#ifdef _WIN32
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WindowsMemoryRegion* EnsureSplitRegionForMapping(void* address, size_t size);
bool JoinRegionsAfterUnmap(void* address, size_t size);
std::vector<WindowsMemoryRegion> m_regions;
void* m_reserved_region = nullptr;
void* m_memory_handle = nullptr;
WindowsMemoryFunctions m_memory_functions;
#else
int m_shm_fd = 0;
void* m_reserved_region = nullptr;
std::size_t m_reserved_region_size = 0;
#endif
};
// This class represents a single fixed-size memory region where the individual memory pages are
// only actually allocated on first access. The memory will be zero on first access.
class LazyMemoryRegion final
{
public:
LazyMemoryRegion();
~LazyMemoryRegion();
LazyMemoryRegion(const LazyMemoryRegion&) = delete;
LazyMemoryRegion(LazyMemoryRegion&&) = delete;
LazyMemoryRegion& operator=(const LazyMemoryRegion&) = delete;
LazyMemoryRegion& operator=(LazyMemoryRegion&&) = delete;
///
/// Reserve a memory region.
///
/// @param size The size of the region.
///
/// @return The address the region was mapped at. Returns nullptr on failure.
///
void* Create(size_t size);
///
/// Reset the memory region back to zero, throwing away any mapped pages.
/// This can only be called after a successful call to Create().
///
void Clear();
///
/// Release the memory previously reserved with Create(). After this call the pointer that was
/// returned by Create() will become invalid.
///
void Release();
///
/// Ensure that the memory page at the given byte offset from the start of the memory region is
/// writable. We use this on Windows as a workaround to only actually commit pages as they are
/// written to. On other OSes this does nothing.
///
/// @param offset The offset into the memory region that should be made writable if it isn't.
///
void EnsureMemoryPageWritable(size_t offset)
{
#ifdef _WIN32
const size_t block_index = offset / BLOCK_SIZE;
if (m_writable_block_handles[block_index] == nullptr)
MakeMemoryBlockWritable(block_index);
#endif
}
private:
void* m_memory = nullptr;
size_t m_size = 0;
#ifdef _WIN32
void* m_zero_block = nullptr;
constexpr static size_t BLOCK_SIZE = 8 * 1024 * 1024; // size of allocated memory blocks
WindowsMemoryFunctions m_memory_functions;
std::vector<void*> m_writable_block_handles;
void MakeMemoryBlockWritable(size_t offset);
#endif
};
} // namespace Common