chrome_frame/function_stub.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.


 #ifndef CHROME_FRAME_FUNCTION_STUB_H_
 #define CHROME_FRAME_FUNCTION_STUB_H_

 #include <windows.h>

 #include "base/basictypes.h"

 // IMPORTANT: The struct below must be byte aligned.
 #pragma pack(push)
 #pragma pack(1)

 struct FunctionStubAsm {
   // The stub always starts with an indirect jump, which starts out jumping
   // to the remainder of the stub. This means we can bypass the stub by
   // rewriting the jump destination, which is data, in a manner that does
   // not involve writing code, only writing data at a natural word boundary.
   uint16 jump_to_bypass_;        // indirect jump
   uintptr_t bypass_target_addr_; // to the bypass target.
   uint8 pop_return_addr_;        // pop eax
   uint16 push_;                  // push [arg]   ; push...
   uintptr_t arg_addr_;           //              ; extra argument
   uint8 push_return_addr_;       // push eax     ; push the return address
   uint16 jump_to_target;         // jmp [target] ; jump...
   uintptr_t target_addr_;        //              ; to the hook function
 };

 #pragma pack(pop)


 #ifndef _M_IX86
 #error Only x86 supported right now.
 #endif

 // This struct is assembly code + signature.  The purpose of the struct is to be
 // able to hook an existing function with our own and store information such
 // as the original function pointer with the code stub.  Typically this is used
 // for patching entries of a vtable or e.g. a globally registered wndproc
 // for a class as opposed to a window.
 // When unhooking, you can just call the BypassStub() function and leave the
 // stub in memory.  This unhooks your function while leaving the (potential)
 // chain of patches intact.
 //
 // @note: This class is meant for __stdcall calling convention and
 //        it uses eax as a temporary variable.  The struct can
 //        be improved in the future to save eax before the
 //        operation and then restore it.
 //
 // For instance if the function prototype is:
 //
 // @code
 //   LRESULT WndProc(HWND hwnd, UINT msg, WPARAM wparam, LPARAM lparam);
 // @endcode
 //
 // and we would like to add one static argument to make it, say:
 //
 // @code
 //   LRESULT MyNewWndProc(WNDPROC original, HWND hwnd, UINT msg,
 //                        WPARAM wparam, LPARAM lparam);
 // @endcode
 //
 // That can be achieved by wrapping the function up with a FunctionStub:
 //
 // @code
 //   FunctionStub* stub = FunctionStub::Create(original_wndproc, MyNewWndProc);
 //   SetClassLongPtr(wnd, GCLP_WNDPROC, stub->code());
 // @endcode
 struct FunctionStub {
  public:
   // Neutralizes this stub and converts it to a direct jump to a new target.
   void BypassStub(void* new_target);

   inline bool is_bypassed() const {
     return bypass_address_ !=
         reinterpret_cast<uintptr_t>(&stub_.pop_return_addr_);
   }

   // Returns true if the stub is valid and enabled.
   // Don't call this method after bypassing the stub.
   bool is_valid() const;

   inline PROC code() const {
     return reinterpret_cast<PROC>(const_cast<FunctionStubAsm*>(&stub_));
   }

   // Use to create a new function stub as shown above.
   // @param extra_argument The static argument to pass to the function.
   // @param dest Target function to which the stub applies.
   // @returns NULL if an error occurs, otherwise a pointer to the
   //    function stub.
   static FunctionStub* Create(uintptr_t extra_argument, void* dest);

   // Test whether address (likely) points to an existing function stub.
   // @returns NULL if address does not point to a function stub.
   // @note likely means approximately 1/2^48 here.
   static FunctionStub* FromCode(void* address);

   // Deallocates a FunctionStub.
   // The stub must not be in use on any thread!
   static bool Destroy(FunctionStub* stub);

   // Accessors.
   uintptr_t argument() const { return argument_; }
   void set_argument(uintptr_t argument) { argument_ = argument; }

   uintptr_t bypass_address() const { return bypass_address_; }
   void set_bypass_address(uintptr_t bypass_address) {
     bypass_address_ = bypass_address;
   }

   uintptr_t destination_function() const { return destination_function_; }
   void set_destination_function(uintptr_t destination_function) {
     destination_function_ = destination_function;
   }

  protected:
   // Protected for testing only.
   FunctionStub(uintptr_t extra_argument, void* dest);
   ~FunctionStub();

   void Init(FunctionStubAsm* stub);

   FunctionStubAsm stub_;

   // Used to identify function stubs that belong to this module.
   HMODULE signature_;

   // This is the argument value that gets passed to the destination_function_.
   uintptr_t argument_;
   // Bypass address, if this is the address of the pop_return_addr_, the
   // function stub is not bypassed.
   uintptr_t bypass_address_;
   // The destination function we dispatch to, not used if the stub
   // is bypassed.
   uintptr_t destination_function_;
 };

 #endif  // CHROME_FRAME_FUNCTION_STUB_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.


	#ifndef CHROME_FRAME_FUNCTION_STUB_H_
	#define CHROME_FRAME_FUNCTION_STUB_H_

	#include <windows.h>

	#include "base/basictypes.h"

	// IMPORTANT: The struct below must be byte aligned.
	#pragma pack(push)
	#pragma pack(1)

	struct FunctionStubAsm {
	// The stub always starts with an indirect jump, which starts out jumping
	// to the remainder of the stub. This means we can bypass the stub by
	// rewriting the jump destination, which is data, in a manner that does
	// not involve writing code, only writing data at a natural word boundary.
	uint16 jump_to_bypass_; // indirect jump
	uintptr_t bypass_target_addr_; // to the bypass target.
	uint8 pop_return_addr_; // pop eax
	uint16 push_; // push [arg] ; push...
	uintptr_t arg_addr_; // ; extra argument
	uint8 push_return_addr_; // push eax ; push the return address
	uint16 jump_to_target; // jmp [target] ; jump...
	uintptr_t target_addr_; // ; to the hook function
	};

	#pragma pack(pop)


	#ifndef _M_IX86
	#error Only x86 supported right now.
	#endif

	// This struct is assembly code + signature. The purpose of the struct is to be
	// able to hook an existing function with our own and store information such
	// as the original function pointer with the code stub. Typically this is used
	// for patching entries of a vtable or e.g. a globally registered wndproc
	// for a class as opposed to a window.
	// When unhooking, you can just call the BypassStub() function and leave the
	// stub in memory. This unhooks your function while leaving the (potential)
	// chain of patches intact.
	//
	// @note: This class is meant for __stdcall calling convention and
	// it uses eax as a temporary variable. The struct can
	// be improved in the future to save eax before the
	// operation and then restore it.
	//
	// For instance if the function prototype is:
	//
	// @code
	// LRESULT WndProc(HWND hwnd, UINT msg, WPARAM wparam, LPARAM lparam);
	// @endcode
	//
	// and we would like to add one static argument to make it, say:
	//
	// @code
	// LRESULT MyNewWndProc(WNDPROC original, HWND hwnd, UINT msg,
	// WPARAM wparam, LPARAM lparam);
	// @endcode
	//
	// That can be achieved by wrapping the function up with a FunctionStub:
	//
	// @code
	// FunctionStub* stub = FunctionStub::Create(original_wndproc, MyNewWndProc);
	// SetClassLongPtr(wnd, GCLP_WNDPROC, stub->code());
	// @endcode
	struct FunctionStub {
	public:
	// Neutralizes this stub and converts it to a direct jump to a new target.
	void BypassStub(void* new_target);

	inline bool is_bypassed() const {
	return bypass_address_ !=
	reinterpret_cast<uintptr_t>(&stub_.pop_return_addr_);
	}

	// Returns true if the stub is valid and enabled.
	// Don't call this method after bypassing the stub.
	bool is_valid() const;

	inline PROC code() const {
	return reinterpret_cast<PROC>(const_cast<FunctionStubAsm*>(&stub_));
	}

	// Use to create a new function stub as shown above.
	// @param extra_argument The static argument to pass to the function.
	// @param dest Target function to which the stub applies.
	// @returns NULL if an error occurs, otherwise a pointer to the
	// function stub.
	static FunctionStub* Create(uintptr_t extra_argument, void* dest);

	// Test whether address (likely) points to an existing function stub.
	// @returns NULL if address does not point to a function stub.
	// @note likely means approximately 1/2^48 here.
	static FunctionStub* FromCode(void* address);

	// Deallocates a FunctionStub.
	// The stub must not be in use on any thread!
	static bool Destroy(FunctionStub* stub);

	// Accessors.
	uintptr_t argument() const { return argument_; }
	void set_argument(uintptr_t argument) { argument_ = argument; }

	uintptr_t bypass_address() const { return bypass_address_; }
	void set_bypass_address(uintptr_t bypass_address) {
	bypass_address_ = bypass_address;
	}

	uintptr_t destination_function() const { return destination_function_; }
	void set_destination_function(uintptr_t destination_function) {
	destination_function_ = destination_function;
	}

	protected:
	// Protected for testing only.
	FunctionStub(uintptr_t extra_argument, void* dest);
	~FunctionStub();

	void Init(FunctionStubAsm* stub);

	FunctionStubAsm stub_;

	// Used to identify function stubs that belong to this module.
	HMODULE signature_;

	// This is the argument value that gets passed to the destination_function_.
	uintptr_t argument_;
	// Bypass address, if this is the address of the pop_return_addr_, the
	// function stub is not bypassed.
	uintptr_t bypass_address_;
	// The destination function we dispatch to, not used if the stub
	// is bypassed.
	uintptr_t destination_function_;
	};

	#endif // CHROME_FRAME_FUNCTION_STUB_H_