src/base/memory/shared_memory_handle.h - cobalt - Git at Google

 // Copyright 2015 The Chromium Authors. All rights reserved.
 // Use of this source code is governed by a BSD-style license that can be
 // found in the LICENSE file.

 #ifndef BASE_MEMORY_SHARED_MEMORY_HANDLE_H_
 #define BASE_MEMORY_SHARED_MEMORY_HANDLE_H_

 // Starboard doesn't curretly support multiple processes or shared memory.
 #if !defined(STARBOARD)

 #include "base/unguessable_token.h"
 #include "build/build_config.h"

 #if defined(OS_WIN)
 #include "base/process/process_handle.h"
 #include "base/win/windows_types.h"
 #elif defined(OS_MACOSX) && !defined(OS_IOS)
 #include <mach/mach.h>
 #include "base/base_export.h"
 #include "base/file_descriptor_posix.h"
 #include "base/macros.h"
 #include "base/process/process_handle.h"
 #elif defined(OS_POSIX)
 #include <sys/types.h>
 #include "base/file_descriptor_posix.h"
 #elif defined(OS_FUCHSIA)
 #include <zircon/types.h>

 #include "starboard/types.h"
 #endif

 namespace base {

 // SharedMemoryHandle is the smallest possible IPC-transportable "reference" to
 // a shared memory OS resource. A "reference" can be consumed exactly once [by
 // base::SharedMemory] to map the shared memory OS resource into the virtual
 // address space of the current process.
 // TODO(erikchen): This class should have strong ownership semantics to prevent
 // leaks of the underlying OS resource. https://crbug.com/640840.
 class BASE_EXPORT SharedMemoryHandle {
  public:
   // The default constructor returns an invalid SharedMemoryHandle.
   SharedMemoryHandle();

   // Standard copy constructor. The new instance shares the underlying OS
   // primitives.
   SharedMemoryHandle(const SharedMemoryHandle& handle);

   // Standard assignment operator. The updated instance shares the underlying
   // OS primitives.
   SharedMemoryHandle& operator=(const SharedMemoryHandle& handle);

   // Closes the underlying OS resource.
   // The fact that this method needs to be "const" is an artifact of the
   // original interface for base::SharedMemory::CloseHandle.
   // TODO(erikchen): This doesn't clear the underlying reference, which seems
   // like a bug, but is how this class has always worked. Fix this:
   // https://crbug.com/716072.
   void Close() const;

   // Whether ownership of the underlying OS resource is implicitly passed to
   // the IPC subsystem during serialization.
   void SetOwnershipPassesToIPC(bool ownership_passes);
   bool OwnershipPassesToIPC() const;

   // Whether the underlying OS resource is valid.
   bool IsValid() const;

   // Duplicates the underlying OS resource. Using the return value as a
   // parameter to an IPC message will cause the IPC subsystem to consume the OS
   // resource.
   SharedMemoryHandle Duplicate() const;

   // Uniques identifies the shared memory region that the underlying OS resource
   // points to. Multiple SharedMemoryHandles that point to the same shared
   // memory region will have the same GUID. Preserved across IPC.
   base::UnguessableToken GetGUID() const;

   // Returns the size of the memory region that SharedMemoryHandle points to.
   size_t GetSize() const;

 #if defined(OS_WIN)
   // Takes implicit ownership of |h|.
   // |guid| uniquely identifies the shared memory region pointed to by the
   // underlying OS resource. If the HANDLE is associated with another
   // SharedMemoryHandle, the caller must pass the |guid| of that
   // SharedMemoryHandle. Otherwise, the caller should generate a new
   // UnguessableToken.
   // Passing the wrong |size| has no immediate consequence, but may cause errors
   // when trying to map the SharedMemoryHandle at a later point in time.
   SharedMemoryHandle(HANDLE h, size_t size, const base::UnguessableToken& guid);
   HANDLE GetHandle() const;
 #elif defined(OS_FUCHSIA)
   // Takes implicit ownership of |h|.
   // |guid| uniquely identifies the shared memory region pointed to by the
   // underlying OS resource. If the zx_handle_t is associated with another
   // SharedMemoryHandle, the caller must pass the |guid| of that
   // SharedMemoryHandle. Otherwise, the caller should generate a new
   // UnguessableToken.
   // Passing the wrong |size| has no immediate consequence, but may cause errors
   // when trying to map the SharedMemoryHandle at a later point in time.
   SharedMemoryHandle(zx_handle_t h,
                      size_t size,
                      const base::UnguessableToken& guid);
   zx_handle_t GetHandle() const;
 #elif defined(OS_MACOSX) && !defined(OS_IOS)
   enum Type {
     // The SharedMemoryHandle is backed by a POSIX fd.
     POSIX,
     // The SharedMemoryHandle is backed by the Mach primitive "memory object".
     MACH,
   };

   // Makes a Mach-based SharedMemoryHandle of the given size. On error,
   // subsequent calls to IsValid() return false.
   // Passing the wrong |size| has no immediate consequence, but may cause errors
   // when trying to map the SharedMemoryHandle at a later point in time.
   SharedMemoryHandle(mach_vm_size_t size, const base::UnguessableToken& guid);

   // Makes a Mach-based SharedMemoryHandle from |memory_object|, a named entry
   // in the current task. The memory region has size |size|.
   // Passing the wrong |size| has no immediate consequence, but may cause errors
   // when trying to map the SharedMemoryHandle at a later point in time.
   SharedMemoryHandle(mach_port_t memory_object,
                      mach_vm_size_t size,
                      const base::UnguessableToken& guid);

   Type GetType() const { return type_; }

   // Exposed so that the SharedMemoryHandle can be transported between
   // processes.
   mach_port_t GetMemoryObject() const;

   // The SharedMemoryHandle must be valid.
   // Returns whether the SharedMemoryHandle was successfully mapped into memory.
   // On success, |memory| is an output variable that contains the start of the
   // mapped memory.
   bool MapAt(off_t offset, size_t bytes, void** memory, bool read_only);
 #elif defined(OS_POSIX)
   // Creates a SharedMemoryHandle from an |fd| supplied from an external
   // service.
   // Passing the wrong |size| has no immediate consequence, but may cause errors
   // when trying to map the SharedMemoryHandle at a later point in time.
   static SharedMemoryHandle ImportHandle(int fd, size_t size);

   // Returns the underlying OS resource.
   int GetHandle() const;

   // Invalidates [but doesn't close] the underlying OS resource. This will leak
   // unless the caller is careful.
   int Release();
 #endif

 #if defined(OS_ANDROID)
   // Marks the current file descriptor as read-only, for the purpose of
   // mapping. This is independent of the region's read-only status.
   void SetReadOnly() { read_only_ = true; }

   // Returns true iff the descriptor is to be used for read-only
   // mappings.
   bool IsReadOnly() const { return read_only_; }

   // Returns true iff the corresponding region is read-only.
   bool IsRegionReadOnly() const;

   // Try to set the region read-only. This will fail any future attempt
   // at read-write mapping.
   bool SetRegionReadOnly() const;
 #endif

 #if defined(OS_POSIX)
   // Constructs a SharedMemoryHandle backed by a FileDescriptor. The newly
   // created instance has the same ownership semantics as base::FileDescriptor.
   // This typically means that the SharedMemoryHandle takes ownership of the
   // |fd| if |auto_close| is true. Unfortunately, it's common for existing code
   // to make shallow copies of SharedMemoryHandle, and the one that is finally
   // passed into a base::SharedMemory is the one that "consumes" the fd.
   //
   // |guid| uniquely identifies the shared memory region pointed to by the
   // underlying OS resource. If |file_descriptor| is associated with another
   // SharedMemoryHandle, the caller must pass the |guid| of that
   // SharedMemoryHandle. Otherwise, the caller should generate a new
   // UnguessableToken.
   // Passing the wrong |size| has no immediate consequence, but may cause errors
   // when trying to map the SharedMemoryHandle at a later point in time.
   SharedMemoryHandle(const base::FileDescriptor& file_descriptor,
                      size_t size,
                      const base::UnguessableToken& guid);
 #endif

  private:
 #if defined(OS_WIN)
   HANDLE handle_ = nullptr;

   // Whether passing this object as a parameter to an IPC message passes
   // ownership of |handle_| to the IPC stack. This is meant to mimic the
   // behavior of the |auto_close| parameter of FileDescriptor. This member only
   // affects attachment-brokered SharedMemoryHandles.
   // Defaults to |false|.
   bool ownership_passes_to_ipc_ = false;
 #elif defined(OS_FUCHSIA)
   zx_handle_t handle_ = ZX_HANDLE_INVALID;
   bool ownership_passes_to_ipc_ = false;
 #elif defined(OS_MACOSX) && !defined(OS_IOS)
   friend class SharedMemory;
   friend bool CheckReadOnlySharedMemoryHandleForTesting(
       SharedMemoryHandle handle);

   Type type_ = MACH;

   // Each instance of a SharedMemoryHandle is backed either by a POSIX fd or a
   // mach port. |type_| determines the backing member.
   union {
     FileDescriptor file_descriptor_;

     struct {
       mach_port_t memory_object_ = MACH_PORT_NULL;

       // Whether passing this object as a parameter to an IPC message passes
       // ownership of |memory_object_| to the IPC stack. This is meant to mimic
       // the behavior of the |auto_close| parameter of FileDescriptor.
       // Defaults to |false|.
       bool ownership_passes_to_ipc_ = false;
     };
   };
 #elif defined(OS_ANDROID)
   friend class SharedMemory;

   FileDescriptor file_descriptor_;
   bool read_only_ = false;
 #elif defined(OS_POSIX)
   FileDescriptor file_descriptor_;
 #endif

   base::UnguessableToken guid_;

   // The size of the region referenced by the SharedMemoryHandle.
   size_t size_ = 0;
 };

 }  // namespace base

 #endif  // !defined(STARBOARD)
 #endif  // BASE_MEMORY_SHARED_MEMORY_HANDLE_H_
	// Copyright 2015 The Chromium Authors. All rights reserved.
	// Use of this source code is governed by a BSD-style license that can be
	// found in the LICENSE file.

	#ifndef BASE_MEMORY_SHARED_MEMORY_HANDLE_H_
	#define BASE_MEMORY_SHARED_MEMORY_HANDLE_H_

	// Starboard doesn't curretly support multiple processes or shared memory.
	#if !defined(STARBOARD)

	#include "base/unguessable_token.h"
	#include "build/build_config.h"

	#if defined(OS_WIN)
	#include "base/process/process_handle.h"
	#include "base/win/windows_types.h"
	#elif defined(OS_MACOSX) && !defined(OS_IOS)
	#include <mach/mach.h>
	#include "base/base_export.h"
	#include "base/file_descriptor_posix.h"
	#include "base/macros.h"
	#include "base/process/process_handle.h"
	#elif defined(OS_POSIX)
	#include <sys/types.h>
	#include "base/file_descriptor_posix.h"
	#elif defined(OS_FUCHSIA)
	#include <zircon/types.h>

	#include "starboard/types.h"
	#endif

	namespace base {

	// SharedMemoryHandle is the smallest possible IPC-transportable "reference" to
	// a shared memory OS resource. A "reference" can be consumed exactly once [by
	// base::SharedMemory] to map the shared memory OS resource into the virtual
	// address space of the current process.
	// TODO(erikchen): This class should have strong ownership semantics to prevent
	// leaks of the underlying OS resource. https://crbug.com/640840.
	class BASE_EXPORT SharedMemoryHandle {
	public:
	// The default constructor returns an invalid SharedMemoryHandle.
	SharedMemoryHandle();

	// Standard copy constructor. The new instance shares the underlying OS
	// primitives.
	SharedMemoryHandle(const SharedMemoryHandle& handle);

	// Standard assignment operator. The updated instance shares the underlying
	// OS primitives.
	SharedMemoryHandle& operator=(const SharedMemoryHandle& handle);

	// Closes the underlying OS resource.
	// The fact that this method needs to be "const" is an artifact of the
	// original interface for base::SharedMemory::CloseHandle.
	// TODO(erikchen): This doesn't clear the underlying reference, which seems
	// like a bug, but is how this class has always worked. Fix this:
	// https://crbug.com/716072.
	void Close() const;

	// Whether ownership of the underlying OS resource is implicitly passed to
	// the IPC subsystem during serialization.
	void SetOwnershipPassesToIPC(bool ownership_passes);
	bool OwnershipPassesToIPC() const;

	// Whether the underlying OS resource is valid.
	bool IsValid() const;

	// Duplicates the underlying OS resource. Using the return value as a
	// parameter to an IPC message will cause the IPC subsystem to consume the OS
	// resource.
	SharedMemoryHandle Duplicate() const;

	// Uniques identifies the shared memory region that the underlying OS resource
	// points to. Multiple SharedMemoryHandles that point to the same shared
	// memory region will have the same GUID. Preserved across IPC.
	base::UnguessableToken GetGUID() const;

	// Returns the size of the memory region that SharedMemoryHandle points to.
	size_t GetSize() const;

	#if defined(OS_WIN)
	// Takes implicit ownership of \|h\|.
	// \|guid\| uniquely identifies the shared memory region pointed to by the
	// underlying OS resource. If the HANDLE is associated with another
	// SharedMemoryHandle, the caller must pass the \|guid\| of that
	// SharedMemoryHandle. Otherwise, the caller should generate a new
	// UnguessableToken.
	// Passing the wrong \|size\| has no immediate consequence, but may cause errors
	// when trying to map the SharedMemoryHandle at a later point in time.
	SharedMemoryHandle(HANDLE h, size_t size, const base::UnguessableToken& guid);
	HANDLE GetHandle() const;
	#elif defined(OS_FUCHSIA)
	// Takes implicit ownership of \|h\|.
	// \|guid\| uniquely identifies the shared memory region pointed to by the
	// underlying OS resource. If the zx_handle_t is associated with another
	// SharedMemoryHandle, the caller must pass the \|guid\| of that
	// SharedMemoryHandle. Otherwise, the caller should generate a new
	// UnguessableToken.
	// Passing the wrong \|size\| has no immediate consequence, but may cause errors
	// when trying to map the SharedMemoryHandle at a later point in time.
	SharedMemoryHandle(zx_handle_t h,
	size_t size,
	const base::UnguessableToken& guid);
	zx_handle_t GetHandle() const;
	#elif defined(OS_MACOSX) && !defined(OS_IOS)
	enum Type {
	// The SharedMemoryHandle is backed by a POSIX fd.
	POSIX,
	// The SharedMemoryHandle is backed by the Mach primitive "memory object".
	MACH,
	};

	// Makes a Mach-based SharedMemoryHandle of the given size. On error,
	// subsequent calls to IsValid() return false.
	// Passing the wrong \|size\| has no immediate consequence, but may cause errors
	// when trying to map the SharedMemoryHandle at a later point in time.
	SharedMemoryHandle(mach_vm_size_t size, const base::UnguessableToken& guid);

	// Makes a Mach-based SharedMemoryHandle from \|memory_object\|, a named entry
	// in the current task. The memory region has size \|size\|.
	// Passing the wrong \|size\| has no immediate consequence, but may cause errors
	// when trying to map the SharedMemoryHandle at a later point in time.
	SharedMemoryHandle(mach_port_t memory_object,
	mach_vm_size_t size,
	const base::UnguessableToken& guid);

	Type GetType() const { return type_; }

	// Exposed so that the SharedMemoryHandle can be transported between
	// processes.
	mach_port_t GetMemoryObject() const;

	// The SharedMemoryHandle must be valid.
	// Returns whether the SharedMemoryHandle was successfully mapped into memory.
	// On success, \|memory\| is an output variable that contains the start of the
	// mapped memory.
	bool MapAt(off_t offset, size_t bytes, void** memory, bool read_only);
	#elif defined(OS_POSIX)
	// Creates a SharedMemoryHandle from an \|fd\| supplied from an external
	// service.
	// Passing the wrong \|size\| has no immediate consequence, but may cause errors
	// when trying to map the SharedMemoryHandle at a later point in time.
	static SharedMemoryHandle ImportHandle(int fd, size_t size);

	// Returns the underlying OS resource.
	int GetHandle() const;

	// Invalidates [but doesn't close] the underlying OS resource. This will leak
	// unless the caller is careful.
	int Release();
	#endif

	#if defined(OS_ANDROID)
	// Marks the current file descriptor as read-only, for the purpose of
	// mapping. This is independent of the region's read-only status.
	void SetReadOnly() { read_only_ = true; }

	// Returns true iff the descriptor is to be used for read-only
	// mappings.
	bool IsReadOnly() const { return read_only_; }

	// Returns true iff the corresponding region is read-only.
	bool IsRegionReadOnly() const;

	// Try to set the region read-only. This will fail any future attempt
	// at read-write mapping.
	bool SetRegionReadOnly() const;
	#endif

	#if defined(OS_POSIX)
	// Constructs a SharedMemoryHandle backed by a FileDescriptor. The newly
	// created instance has the same ownership semantics as base::FileDescriptor.
	// This typically means that the SharedMemoryHandle takes ownership of the
	// \|fd\| if \|auto_close\| is true. Unfortunately, it's common for existing code
	// to make shallow copies of SharedMemoryHandle, and the one that is finally
	// passed into a base::SharedMemory is the one that "consumes" the fd.
	//
	// \|guid\| uniquely identifies the shared memory region pointed to by the
	// underlying OS resource. If \|file_descriptor\| is associated with another
	// SharedMemoryHandle, the caller must pass the \|guid\| of that
	// SharedMemoryHandle. Otherwise, the caller should generate a new
	// UnguessableToken.
	// Passing the wrong \|size\| has no immediate consequence, but may cause errors
	// when trying to map the SharedMemoryHandle at a later point in time.
	SharedMemoryHandle(const base::FileDescriptor& file_descriptor,
	size_t size,
	const base::UnguessableToken& guid);
	#endif

	private:
	#if defined(OS_WIN)
	HANDLE handle_ = nullptr;

	// Whether passing this object as a parameter to an IPC message passes
	// ownership of \|handle_\| to the IPC stack. This is meant to mimic the
	// behavior of the \|auto_close\| parameter of FileDescriptor. This member only
	// affects attachment-brokered SharedMemoryHandles.
	// Defaults to \|false\|.
	bool ownership_passes_to_ipc_ = false;
	#elif defined(OS_FUCHSIA)
	zx_handle_t handle_ = ZX_HANDLE_INVALID;
	bool ownership_passes_to_ipc_ = false;
	#elif defined(OS_MACOSX) && !defined(OS_IOS)
	friend class SharedMemory;
	friend bool CheckReadOnlySharedMemoryHandleForTesting(
	SharedMemoryHandle handle);

	Type type_ = MACH;

	// Each instance of a SharedMemoryHandle is backed either by a POSIX fd or a
	// mach port. \|type_\| determines the backing member.
	union {
	FileDescriptor file_descriptor_;

	struct {
	mach_port_t memory_object_ = MACH_PORT_NULL;

	// Whether passing this object as a parameter to an IPC message passes
	// ownership of \|memory_object_\| to the IPC stack. This is meant to mimic
	// the behavior of the \|auto_close\| parameter of FileDescriptor.
	// Defaults to \|false\|.
	bool ownership_passes_to_ipc_ = false;
	};
	};
	#elif defined(OS_ANDROID)
	friend class SharedMemory;

	FileDescriptor file_descriptor_;
	bool read_only_ = false;
	#elif defined(OS_POSIX)
	FileDescriptor file_descriptor_;
	#endif

	base::UnguessableToken guid_;

	// The size of the region referenced by the SharedMemoryHandle.
	size_t size_ = 0;
	};

	} // namespace base

	#endif // !defined(STARBOARD)
	#endif // BASE_MEMORY_SHARED_MEMORY_HANDLE_H_