sandbox/win/src/resolver.h - chromium/src - Git at Google

 // Copyright (c) 2010 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.

 // Defines ResolverThunk, the interface for classes that perform interceptions.
 // For more details see
 // http://dev.chromium.org/developers/design-documents/sandbox .

 #include "base/basictypes.h"
 #include "sandbox/win/src/nt_internals.h"

 #ifndef SANDBOX_SRC_RESOLVER_H__
 #define SANDBOX_SRC_RESOLVER_H__

 namespace sandbox {

 // A resolver is the object in charge of performing the actual interception of
 // a function. There should be a concrete implementation of a resolver roughly
 // per type of interception.
 class ResolverThunk {
  public:
   ResolverThunk() {}
   virtual ~ResolverThunk() {}

   // Performs the actual interception of a function.
   // target_name is an exported function from the module loaded at
   // target_module, and must be replaced by interceptor_name, exported from
   // interceptor_module. interceptor_entry_point can be provided instead of
   // interceptor_name / interceptor_module.
   // thunk_storage must point to a buffer on the child's address space, to hold
   // the patch thunk, and related data. If provided, storage_used will receive
   // the number of bytes used from thunk_storage.
   //
   // Example: (without error checking)
   //
   // size_t size = resolver.GetThunkSize();
   // char* buffer = ::VirtualAllocEx(child_process, NULL, size,
   //                                 MEM_COMMIT, PAGE_READWRITE);
   // resolver.Setup(ntdll_module, NULL, L"NtCreateFile", NULL,
   //                &MyReplacementFunction, buffer, size, NULL);
   //
   // In general, the idea is to allocate a single big buffer for all
   // interceptions on the same dll, and call Setup n times.
   // WARNING: This means that any data member that is specific to a single
   // interception must be reset within this method.
   virtual NTSTATUS Setup(const void* target_module,
                          const void* interceptor_module,
                          const char* target_name,
                          const char* interceptor_name,
                          const void* interceptor_entry_point,
                          void* thunk_storage,
                          size_t storage_bytes,
                          size_t* storage_used) = 0;

   // Gets the address of function_name inside module (main exe).
   virtual NTSTATUS ResolveInterceptor(const void* module,
                                       const char* function_name,
                                       const void** address);

   // Gets the address of an exported function_name inside module.
   virtual NTSTATUS ResolveTarget(const void* module,
                                  const char* function_name,
                                  void** address);

   // Gets the required buffer size for this type of thunk.
   virtual size_t GetThunkSize() const = 0;

  protected:
   // Performs basic initialization on behalf of a concrete instance of a
   // resolver. That is, parameter validation and resolution of the target
   // and the interceptor into the member variables.
   //
   // target_name is an exported function from the module loaded at
   // target_module, and must be replaced by interceptor_name, exported from
   // interceptor_module. interceptor_entry_point can be provided instead of
   // interceptor_name / interceptor_module.
   // thunk_storage must point to a buffer on the child's address space, to hold
   // the patch thunk, and related data.
   virtual NTSTATUS Init(const void* target_module,
                         const void* interceptor_module,
                         const char* target_name,
                         const char* interceptor_name,
                         const void* interceptor_entry_point,
                         void* thunk_storage,
                         size_t storage_bytes);

   // Gets the required buffer size for the internal part of the thunk.
   size_t GetInternalThunkSize() const;

   // Initializes the internal part of the thunk.
   // interceptor is the function to be called instead of original_function.
   bool SetInternalThunk(void* storage, size_t storage_bytes,
                         const void* original_function, const void* interceptor);

   // Holds the resolved interception target.
   void* target_;
   // Holds the resolved interception interceptor.
   const void* interceptor_;

   DISALLOW_COPY_AND_ASSIGN(ResolverThunk);
 };

 }  // namespace sandbox

 #endif  // SANDBOX_SRC_RESOLVER_H__
	// Copyright (c) 2010 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.

	// Defines ResolverThunk, the interface for classes that perform interceptions.
	// For more details see
	// http://dev.chromium.org/developers/design-documents/sandbox .

	#include "base/basictypes.h"
	#include "sandbox/win/src/nt_internals.h"

	#ifndef SANDBOX_SRC_RESOLVER_H__
	#define SANDBOX_SRC_RESOLVER_H__

	namespace sandbox {

	// A resolver is the object in charge of performing the actual interception of
	// a function. There should be a concrete implementation of a resolver roughly
	// per type of interception.
	class ResolverThunk {
	public:
	ResolverThunk() {}
	virtual ~ResolverThunk() {}

	// Performs the actual interception of a function.
	// target_name is an exported function from the module loaded at
	// target_module, and must be replaced by interceptor_name, exported from
	// interceptor_module. interceptor_entry_point can be provided instead of
	// interceptor_name / interceptor_module.
	// thunk_storage must point to a buffer on the child's address space, to hold
	// the patch thunk, and related data. If provided, storage_used will receive
	// the number of bytes used from thunk_storage.
	//
	// Example: (without error checking)
	//
	// size_t size = resolver.GetThunkSize();
	// char* buffer = ::VirtualAllocEx(child_process, NULL, size,
	// MEM_COMMIT, PAGE_READWRITE);
	// resolver.Setup(ntdll_module, NULL, L"NtCreateFile", NULL,
	// &MyReplacementFunction, buffer, size, NULL);
	//
	// In general, the idea is to allocate a single big buffer for all
	// interceptions on the same dll, and call Setup n times.
	// WARNING: This means that any data member that is specific to a single
	// interception must be reset within this method.
	virtual NTSTATUS Setup(const void* target_module,
	const void* interceptor_module,
	const char* target_name,
	const char* interceptor_name,
	const void* interceptor_entry_point,
	void* thunk_storage,
	size_t storage_bytes,
	size_t* storage_used) = 0;

	// Gets the address of function_name inside module (main exe).
	virtual NTSTATUS ResolveInterceptor(const void* module,
	const char* function_name,
	const void** address);

	// Gets the address of an exported function_name inside module.
	virtual NTSTATUS ResolveTarget(const void* module,
	const char* function_name,
	void** address);

	// Gets the required buffer size for this type of thunk.
	virtual size_t GetThunkSize() const = 0;

	protected:
	// Performs basic initialization on behalf of a concrete instance of a
	// resolver. That is, parameter validation and resolution of the target
	// and the interceptor into the member variables.
	//
	// target_name is an exported function from the module loaded at
	// target_module, and must be replaced by interceptor_name, exported from
	// interceptor_module. interceptor_entry_point can be provided instead of
	// interceptor_name / interceptor_module.
	// thunk_storage must point to a buffer on the child's address space, to hold
	// the patch thunk, and related data.
	virtual NTSTATUS Init(const void* target_module,
	const void* interceptor_module,
	const char* target_name,
	const char* interceptor_name,
	const void* interceptor_entry_point,
	void* thunk_storage,
	size_t storage_bytes);

	// Gets the required buffer size for the internal part of the thunk.
	size_t GetInternalThunkSize() const;

	// Initializes the internal part of the thunk.
	// interceptor is the function to be called instead of original_function.
	bool SetInternalThunk(void* storage, size_t storage_bytes,
	const void* original_function, const void* interceptor);

	// Holds the resolved interception target.
	void* target_;
	// Holds the resolved interception interceptor.
	const void* interceptor_;

	DISALLOW_COPY_AND_ASSIGN(ResolverThunk);
	};

	} // namespace sandbox

	#endif // SANDBOX_SRC_RESOLVER_H__