clang-r437112/include/lldb/Target/Memory.h - platform/prebuilts/clang/host/windows-x86 - Git at Google

 //===-- Memory.h ------------------------------------------------*- C++ -*-===//
 //
 // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
 // See https://llvm.org/LICENSE.txt for license information.
 // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
 //
 //===----------------------------------------------------------------------===//

 #ifndef LLDB_TARGET_MEMORY_H
 #define LLDB_TARGET_MEMORY_H

 #include "lldb/Utility/RangeMap.h"
 #include "lldb/lldb-private.h"
 #include <map>
 #include <mutex>
 #include <vector>

 namespace lldb_private {
 // A class to track memory that was read from a live process between
 // runs.
 class MemoryCache {
 public:
   // Constructors and Destructors
   MemoryCache(Process &process);

   ~MemoryCache();

   void Clear(bool clear_invalid_ranges = false);

   void Flush(lldb::addr_t addr, size_t size);

   size_t Read(lldb::addr_t addr, void *dst, size_t dst_len, Status &error);

   uint32_t GetMemoryCacheLineSize() const { return m_L2_cache_line_byte_size; }

   void AddInvalidRange(lldb::addr_t base_addr, lldb::addr_t byte_size);

   bool RemoveInvalidRange(lldb::addr_t base_addr, lldb::addr_t byte_size);

   // Allow external sources to populate data into the L1 memory cache
   void AddL1CacheData(lldb::addr_t addr, const void *src, size_t src_len);

   void AddL1CacheData(lldb::addr_t addr,
                       const lldb::DataBufferSP &data_buffer_sp);

 protected:
   typedef std::map<lldb::addr_t, lldb::DataBufferSP> BlockMap;
   typedef RangeVector<lldb::addr_t, lldb::addr_t, 4> InvalidRanges;
   typedef Range<lldb::addr_t, lldb::addr_t> AddrRange;
   // Classes that inherit from MemoryCache can see and modify these
   std::recursive_mutex m_mutex;
   BlockMap m_L1_cache; // A first level memory cache whose chunk sizes vary that
                        // will be used only if the memory read fits entirely in
                        // a chunk
   BlockMap m_L2_cache; // A memory cache of fixed size chinks
                        // (m_L2_cache_line_byte_size bytes in size each)
   InvalidRanges m_invalid_ranges;
   Process &m_process;
   uint32_t m_L2_cache_line_byte_size;

 private:
   MemoryCache(const MemoryCache &) = delete;
   const MemoryCache &operator=(const MemoryCache &) = delete;
 };


 class AllocatedBlock {
 public:
   AllocatedBlock(lldb::addr_t addr, uint32_t byte_size, uint32_t permissions,
                  uint32_t chunk_size);

   ~AllocatedBlock();

   lldb::addr_t ReserveBlock(uint32_t size);

   bool FreeBlock(lldb::addr_t addr);

   lldb::addr_t GetBaseAddress() const { return m_range.GetRangeBase(); }

   uint32_t GetByteSize() const { return m_range.GetByteSize(); }

   uint32_t GetPermissions() const { return m_permissions; }

   uint32_t GetChunkSize() const { return m_chunk_size; }

   bool Contains(lldb::addr_t addr) const {
     return m_range.Contains(addr);
   }

 protected:
   uint32_t TotalChunks() const { return GetByteSize() / GetChunkSize(); }

   uint32_t CalculateChunksNeededForSize(uint32_t size) const {
     return (size + m_chunk_size - 1) / m_chunk_size;
   }
   // Base address of this block of memory 4GB of chunk should be enough.
   Range<lldb::addr_t, uint32_t> m_range;
   // Permissions for this memory (logical OR of lldb::Permissions bits)
   const uint32_t m_permissions;
   // The size of chunks that the memory at m_addr is divied up into.
   const uint32_t m_chunk_size;
   // A sorted list of free address ranges.
   RangeVector<lldb::addr_t, uint32_t> m_free_blocks;
   // A sorted list of reserved address.
   RangeVector<lldb::addr_t, uint32_t> m_reserved_blocks;
 };

 // A class that can track allocated memory and give out allocated memory
 // without us having to make an allocate/deallocate call every time we need
 // some memory in a process that is being debugged.
 class AllocatedMemoryCache {
 public:
   // Constructors and Destructors
   AllocatedMemoryCache(Process &process);

   ~AllocatedMemoryCache();

   void Clear();

   lldb::addr_t AllocateMemory(size_t byte_size, uint32_t permissions,
                               Status &error);

   bool DeallocateMemory(lldb::addr_t ptr);

 protected:
   typedef std::shared_ptr<AllocatedBlock> AllocatedBlockSP;

   AllocatedBlockSP AllocatePage(uint32_t byte_size, uint32_t permissions,
                                 uint32_t chunk_size, Status &error);

   // Classes that inherit from MemoryCache can see and modify these
   Process &m_process;
   std::recursive_mutex m_mutex;
   typedef std::multimap<uint32_t, AllocatedBlockSP> PermissionsToBlockMap;
   PermissionsToBlockMap m_memory_map;

 private:
   AllocatedMemoryCache(const AllocatedMemoryCache &) = delete;
   const AllocatedMemoryCache &operator=(const AllocatedMemoryCache &) = delete;
 };

 } // namespace lldb_private

 #endif // LLDB_TARGET_MEMORY_H
	//===-- Memory.h ------------------------------------------------- C++ --===//
	//
	// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
	// See https://llvm.org/LICENSE.txt for license information.
	// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
	//
	//===----------------------------------------------------------------------===//

	#ifndef LLDB_TARGET_MEMORY_H
	#define LLDB_TARGET_MEMORY_H

	#include "lldb/Utility/RangeMap.h"
	#include "lldb/lldb-private.h"
	#include <map>
	#include <mutex>
	#include <vector>

	namespace lldb_private {
	// A class to track memory that was read from a live process between
	// runs.
	class MemoryCache {
	public:
	// Constructors and Destructors
	MemoryCache(Process &process);

	~MemoryCache();

	void Clear(bool clear_invalid_ranges = false);

	void Flush(lldb::addr_t addr, size_t size);

	size_t Read(lldb::addr_t addr, void *dst, size_t dst_len, Status &error);

	uint32_t GetMemoryCacheLineSize() const { return m_L2_cache_line_byte_size; }

	void AddInvalidRange(lldb::addr_t base_addr, lldb::addr_t byte_size);

	bool RemoveInvalidRange(lldb::addr_t base_addr, lldb::addr_t byte_size);

	// Allow external sources to populate data into the L1 memory cache
	void AddL1CacheData(lldb::addr_t addr, const void *src, size_t src_len);

	void AddL1CacheData(lldb::addr_t addr,
	const lldb::DataBufferSP &data_buffer_sp);

	protected:
	typedef std::map<lldb::addr_t, lldb::DataBufferSP> BlockMap;
	typedef RangeVector<lldb::addr_t, lldb::addr_t, 4> InvalidRanges;
	typedef Range<lldb::addr_t, lldb::addr_t> AddrRange;
	// Classes that inherit from MemoryCache can see and modify these
	std::recursive_mutex m_mutex;
	BlockMap m_L1_cache; // A first level memory cache whose chunk sizes vary that
	// will be used only if the memory read fits entirely in
	// a chunk
	BlockMap m_L2_cache; // A memory cache of fixed size chinks
	// (m_L2_cache_line_byte_size bytes in size each)
	InvalidRanges m_invalid_ranges;
	Process &m_process;
	uint32_t m_L2_cache_line_byte_size;

	private:
	MemoryCache(const MemoryCache &) = delete;
	const MemoryCache &operator=(const MemoryCache &) = delete;
	};



	class AllocatedBlock {
	public:
	AllocatedBlock(lldb::addr_t addr, uint32_t byte_size, uint32_t permissions,
	uint32_t chunk_size);

	~AllocatedBlock();

	lldb::addr_t ReserveBlock(uint32_t size);

	bool FreeBlock(lldb::addr_t addr);

	lldb::addr_t GetBaseAddress() const { return m_range.GetRangeBase(); }

	uint32_t GetByteSize() const { return m_range.GetByteSize(); }

	uint32_t GetPermissions() const { return m_permissions; }

	uint32_t GetChunkSize() const { return m_chunk_size; }

	bool Contains(lldb::addr_t addr) const {
	return m_range.Contains(addr);
	}

	protected:
	uint32_t TotalChunks() const { return GetByteSize() / GetChunkSize(); }

	uint32_t CalculateChunksNeededForSize(uint32_t size) const {
	return (size + m_chunk_size - 1) / m_chunk_size;
	}
	// Base address of this block of memory 4GB of chunk should be enough.
	Range<lldb::addr_t, uint32_t> m_range;
	// Permissions for this memory (logical OR of lldb::Permissions bits)
	const uint32_t m_permissions;
	// The size of chunks that the memory at m_addr is divied up into.
	const uint32_t m_chunk_size;
	// A sorted list of free address ranges.
	RangeVector<lldb::addr_t, uint32_t> m_free_blocks;
	// A sorted list of reserved address.
	RangeVector<lldb::addr_t, uint32_t> m_reserved_blocks;
	};

	// A class that can track allocated memory and give out allocated memory
	// without us having to make an allocate/deallocate call every time we need
	// some memory in a process that is being debugged.
	class AllocatedMemoryCache {
	public:
	// Constructors and Destructors
	AllocatedMemoryCache(Process &process);

	~AllocatedMemoryCache();

	void Clear();

	lldb::addr_t AllocateMemory(size_t byte_size, uint32_t permissions,
	Status &error);

	bool DeallocateMemory(lldb::addr_t ptr);

	protected:
	typedef std::shared_ptr<AllocatedBlock> AllocatedBlockSP;

	AllocatedBlockSP AllocatePage(uint32_t byte_size, uint32_t permissions,
	uint32_t chunk_size, Status &error);

	// Classes that inherit from MemoryCache can see and modify these
	Process &m_process;
	std::recursive_mutex m_mutex;
	typedef std::multimap<uint32_t, AllocatedBlockSP> PermissionsToBlockMap;
	PermissionsToBlockMap m_memory_map;

	private:
	AllocatedMemoryCache(const AllocatedMemoryCache &) = delete;
	const AllocatedMemoryCache &operator=(const AllocatedMemoryCache &) = delete;
	};

	} // namespace lldb_private

	#endif // LLDB_TARGET_MEMORY_H