src/third_party/llvm-project/lldb/include/lldb/Expression/IRMemoryMap.h - cobalt - Git at Google

 //===-- IRExecutionUnit.h ---------------------------------------*- C++ -*-===//
 //
 //                     The LLVM Compiler Infrastructure
 //
 // This file is distributed under the University of Illinois Open Source
 // License. See LICENSE.TXT for details.
 //
 //===----------------------------------------------------------------------===//

 #ifndef lldb_IRMemoryMap_h_
 #define lldb_IRMemoryMap_h_

 #include "lldb/Utility/DataBufferHeap.h"
 #include "lldb/Utility/UserID.h"
 #include "lldb/lldb-public.h"

 #include <map>

 namespace lldb_private {

 //----------------------------------------------------------------------
 /// @class IRMemoryMap IRMemoryMap.h "lldb/Expression/IRMemoryMap.h"
 /// Encapsulates memory that may exist in the process but must
 ///     also be available in the host process.
 ///
 /// This class encapsulates a group of memory objects that must be readable or
 /// writable from the host process regardless of whether the process exists.
 /// This allows the IR interpreter as well as JITted code to access the same
 /// memory.  All allocations made by this class are represented as disjoint
 /// intervals.
 ///
 /// Point queries against this group of memory objects can be made by the
 /// address in the tar at which they reside.  If the inferior does not exist,
 /// allocations still get made-up addresses.  If an inferior appears at some
 /// point, then those addresses need to be re-mapped.
 //----------------------------------------------------------------------
 class IRMemoryMap {
 public:
   IRMemoryMap(lldb::TargetSP target_sp);
   ~IRMemoryMap();

   enum AllocationPolicy {
     eAllocationPolicyInvalid =
         0, ///< It is an error for an allocation to have this policy.
     eAllocationPolicyHostOnly, ///< This allocation was created in the host and
                                ///will never make it into the process.
     ///< It is an error to create other types of allocations while such
     ///allocations exist.
     eAllocationPolicyMirror, ///< The intent is that this allocation exist both
                              ///in the host and the process and have
                              ///< the same content in both.
     eAllocationPolicyProcessOnly ///< The intent is that this allocation exist
                                  ///only in the process.
   };

   lldb::addr_t Malloc(size_t size, uint8_t alignment, uint32_t permissions,
                       AllocationPolicy policy, bool zero_memory, Status &error);
   void Leak(lldb::addr_t process_address, Status &error);
   void Free(lldb::addr_t process_address, Status &error);

   void WriteMemory(lldb::addr_t process_address, const uint8_t *bytes,
                    size_t size, Status &error);
   void WriteScalarToMemory(lldb::addr_t process_address, Scalar &scalar,
                            size_t size, Status &error);
   void WritePointerToMemory(lldb::addr_t process_address, lldb::addr_t address,
                             Status &error);
   void ReadMemory(uint8_t *bytes, lldb::addr_t process_address, size_t size,
                   Status &error);
   void ReadScalarFromMemory(Scalar &scalar, lldb::addr_t process_address,
                             size_t size, Status &error);
   void ReadPointerFromMemory(lldb::addr_t *address,
                              lldb::addr_t process_address, Status &error);
   bool GetAllocSize(lldb::addr_t address, size_t &size);
   void GetMemoryData(DataExtractor &extractor, lldb::addr_t process_address,
                      size_t size, Status &error);

   lldb::ByteOrder GetByteOrder();
   uint32_t GetAddressByteSize();

   // This function can return NULL.
   ExecutionContextScope *GetBestExecutionContextScope() const;

   lldb::TargetSP GetTarget() { return m_target_wp.lock(); }

 protected:
   // This function should only be used if you know you are using the JIT. Any
   // other cases should use GetBestExecutionContextScope().

   lldb::ProcessWP &GetProcessWP() { return m_process_wp; }

 private:
   struct Allocation {
     lldb::addr_t
         m_process_alloc; ///< The (unaligned) base for the remote allocation
     lldb::addr_t
         m_process_start; ///< The base address of the allocation in the process
     size_t m_size;       ///< The size of the requested allocation
     uint32_t m_permissions; ///< The access permissions on the memory in the
                             ///process.  In the host, the memory is always
                             ///read/write.
     uint8_t m_alignment;    ///< The alignment of the requested allocation
     DataBufferHeap m_data;

     ///< Flags
     AllocationPolicy m_policy;
     bool m_leak;

   public:
     Allocation(lldb::addr_t process_alloc, lldb::addr_t process_start,
                size_t size, uint32_t permissions, uint8_t alignment,
                AllocationPolicy m_policy);

     Allocation()
         : m_process_alloc(LLDB_INVALID_ADDRESS),
           m_process_start(LLDB_INVALID_ADDRESS), m_size(0), m_permissions(0),
           m_alignment(0), m_data(), m_policy(eAllocationPolicyInvalid),
           m_leak(false) {}
   };

   lldb::ProcessWP m_process_wp;
   lldb::TargetWP m_target_wp;
   typedef std::map<lldb::addr_t, Allocation> AllocationMap;
   AllocationMap m_allocations;

   lldb::addr_t FindSpace(size_t size);
   bool ContainsHostOnlyAllocations();
   AllocationMap::iterator FindAllocation(lldb::addr_t addr, size_t size);

   // Returns true if the given allocation intersects any allocation in the
   // memory map.
   bool IntersectsAllocation(lldb::addr_t addr, size_t size) const;

   // Returns true if the two given allocations intersect each other.
   static bool AllocationsIntersect(lldb::addr_t addr1, size_t size1,
                                    lldb::addr_t addr2, size_t size2);
 };
 }

 #endif
	//===-- IRExecutionUnit.h ---------------------------------------- C++ --===//
	//
	// The LLVM Compiler Infrastructure
	//
	// This file is distributed under the University of Illinois Open Source
	// License. See LICENSE.TXT for details.
	//
	//===----------------------------------------------------------------------===//

	#ifndef lldb_IRMemoryMap_h_
	#define lldb_IRMemoryMap_h_

	#include "lldb/Utility/DataBufferHeap.h"
	#include "lldb/Utility/UserID.h"
	#include "lldb/lldb-public.h"

	#include <map>

	namespace lldb_private {

	//----------------------------------------------------------------------
	/// @class IRMemoryMap IRMemoryMap.h "lldb/Expression/IRMemoryMap.h"
	/// Encapsulates memory that may exist in the process but must
	/// also be available in the host process.
	///
	/// This class encapsulates a group of memory objects that must be readable or
	/// writable from the host process regardless of whether the process exists.
	/// This allows the IR interpreter as well as JITted code to access the same
	/// memory. All allocations made by this class are represented as disjoint
	/// intervals.
	///
	/// Point queries against this group of memory objects can be made by the
	/// address in the tar at which they reside. If the inferior does not exist,
	/// allocations still get made-up addresses. If an inferior appears at some
	/// point, then those addresses need to be re-mapped.
	//----------------------------------------------------------------------
	class IRMemoryMap {
	public:
	IRMemoryMap(lldb::TargetSP target_sp);
	~IRMemoryMap();

	enum AllocationPolicy {
	eAllocationPolicyInvalid =
	0, ///< It is an error for an allocation to have this policy.
	eAllocationPolicyHostOnly, ///< This allocation was created in the host and
	///will never make it into the process.
	///< It is an error to create other types of allocations while such
	///allocations exist.
	eAllocationPolicyMirror, ///< The intent is that this allocation exist both
	///in the host and the process and have
	///< the same content in both.
	eAllocationPolicyProcessOnly ///< The intent is that this allocation exist
	///only in the process.
	};

	lldb::addr_t Malloc(size_t size, uint8_t alignment, uint32_t permissions,
	AllocationPolicy policy, bool zero_memory, Status &error);
	void Leak(lldb::addr_t process_address, Status &error);
	void Free(lldb::addr_t process_address, Status &error);

	void WriteMemory(lldb::addr_t process_address, const uint8_t *bytes,
	size_t size, Status &error);
	void WriteScalarToMemory(lldb::addr_t process_address, Scalar &scalar,
	size_t size, Status &error);
	void WritePointerToMemory(lldb::addr_t process_address, lldb::addr_t address,
	Status &error);
	void ReadMemory(uint8_t *bytes, lldb::addr_t process_address, size_t size,
	Status &error);
	void ReadScalarFromMemory(Scalar &scalar, lldb::addr_t process_address,
	size_t size, Status &error);
	void ReadPointerFromMemory(lldb::addr_t *address,
	lldb::addr_t process_address, Status &error);
	bool GetAllocSize(lldb::addr_t address, size_t &size);
	void GetMemoryData(DataExtractor &extractor, lldb::addr_t process_address,
	size_t size, Status &error);

	lldb::ByteOrder GetByteOrder();
	uint32_t GetAddressByteSize();

	// This function can return NULL.
	ExecutionContextScope *GetBestExecutionContextScope() const;

	lldb::TargetSP GetTarget() { return m_target_wp.lock(); }

	protected:
	// This function should only be used if you know you are using the JIT. Any
	// other cases should use GetBestExecutionContextScope().

	lldb::ProcessWP &GetProcessWP() { return m_process_wp; }

	private:
	struct Allocation {
	lldb::addr_t
	m_process_alloc; ///< The (unaligned) base for the remote allocation
	lldb::addr_t
	m_process_start; ///< The base address of the allocation in the process
	size_t m_size; ///< The size of the requested allocation
	uint32_t m_permissions; ///< The access permissions on the memory in the
	///process. In the host, the memory is always
	///read/write.
	uint8_t m_alignment; ///< The alignment of the requested allocation
	DataBufferHeap m_data;

	///< Flags
	AllocationPolicy m_policy;
	bool m_leak;

	public:
	Allocation(lldb::addr_t process_alloc, lldb::addr_t process_start,
	size_t size, uint32_t permissions, uint8_t alignment,
	AllocationPolicy m_policy);

	Allocation()
	: m_process_alloc(LLDB_INVALID_ADDRESS),
	m_process_start(LLDB_INVALID_ADDRESS), m_size(0), m_permissions(0),
	m_alignment(0), m_data(), m_policy(eAllocationPolicyInvalid),
	m_leak(false) {}
	};

	lldb::ProcessWP m_process_wp;
	lldb::TargetWP m_target_wp;
	typedef std::map<lldb::addr_t, Allocation> AllocationMap;
	AllocationMap m_allocations;

	lldb::addr_t FindSpace(size_t size);
	bool ContainsHostOnlyAllocations();
	AllocationMap::iterator FindAllocation(lldb::addr_t addr, size_t size);

	// Returns true if the given allocation intersects any allocation in the
	// memory map.
	bool IntersectsAllocation(lldb::addr_t addr, size_t size) const;

	// Returns true if the two given allocations intersect each other.
	static bool AllocationsIntersect(lldb::addr_t addr1, size_t size1,
	lldb::addr_t addr2, size_t size2);
	};
	}

	#endif