libvtv/vtv_fail.cc - gcc - Git at Google

 /* Copyright (C) 2012-2021 Free Software Foundation, Inc.

  This file is part of GCC.

  GCC is free software; you can redistribute it and/or modify
  it under the terms of the GNU General Public License as published by
  the Free Software Foundation; either version 3, or (at your option)
  any later version.

  GCC is distributed in the hope that it will be useful,
  but WITHOUT ANY WARRANTY; without even the implied warranty of
  MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
  GNU General Public License for more details.

  Under Section 7 of GPL version 3, you are granted additional
  permissions described in the GCC Runtime Library Exception, version
  3.1, as published by the Free Software Foundation.

  You should have received a copy of the GNU General Public License and
  a copy of the GCC Runtime Library Exception along with this program;
  see the files COPYING3 and COPYING.RUNTIME respectively.  If not, see
  <http://www.gnu.org/licenses/>.  */

 /* This file is part of the vtable security feature implementation.
    The vtable security feature is designed to detect when a virtual
    call is about to be made through an invalid vtable pointer
    (possibly due to data corruption or malicious attacks).

    This file also contains the failure functions that get called when
    a vtable pointer is not found in the data set.  Two particularly
    important functions are __vtv_verify_fail and __vtv_really_fail.
    They are both externally visible.  __vtv_verify_fail is defined in
    such a way that it can be replaced by a programmer, if desired.  It
    is the function that __VLTVerifyVtablePointer calls if it can't
    find the pointer in the data set.  Allowing the programmer to
    overwrite this function means that he/she can do some alternate
    verification, including NOT failing in certain specific cases, if
    desired.  This may be the case if the programmer has to deal wtih
    unverified third party software, for example.  __vtv_really_fail is
    available for the programmer to call from his version of
    __vtv_verify_fail, if he decides the failure is real.

 */

 #include <stdlib.h>
 #include <stdio.h>
 #include <string.h>

 #if !defined (__CYGWIN__) && !defined (__MINGW32__)
 #include <execinfo.h>
 #endif

 #include <unistd.h>

 #include "vtv_utils.h"
 #include "vtv_fail.h"

 /* This is used to disable aborts for debugging purposes.  */
 bool vtv_no_abort = false;


 extern "C" {

   /* __fortify_fail is a function in glibc that calls __libc_message,
      causing it to print out a program termination error message
      (including the name of the binary being terminated), a stack
      trace where the error occurred, and a memory map dump.  Ideally
      we would have called __libc_message directly, but that function
      does not appear to be accessible to functions outside glibc,
      whereas __fortify_fail is.  We call __fortify_fail from
      __vtv_really_fail.  We looked at calling __libc_fatal, which is
      externally accessible, but it does not do the back trace and
      memory dump.  */

   extern void __fortify_fail (const char *) __attribute__((noreturn));

 } /* extern "C" */

 const unsigned long SET_HANDLE_HANDLE_BIT = 0x2;

 /* Instantiate the template classes (in vtv_set.h) for our particular
    hash table needs.  */
 typedef void * vtv_set_handle;
 typedef vtv_set_handle * vtv_set_handle_handle;

 static int vtv_failures_log_fd = -1;

 /* Open error logging file, if not already open, and write vtable
    verification failure messages (LOG_MSG) to the log file.  Also
    generate a backtrace in the log file, if GENERATE_BACKTRACE is
    set.  */

 static void
 log_error_message (const char *log_msg, bool generate_backtrace)
 {
   if (vtv_failures_log_fd == -1)
     vtv_failures_log_fd = vtv_open_log ("vtable_verification_failures.log");

   if (vtv_failures_log_fd == -1)
     return;

   vtv_add_to_log (vtv_failures_log_fd, "%s", log_msg);

   if (generate_backtrace)
     {
 #define STACK_DEPTH 20
       void *callers[STACK_DEPTH];
 #if !defined (__CYGWIN__) && !defined (__MINGW32__)
       int actual_depth = backtrace (callers, STACK_DEPTH);
       backtrace_symbols_fd (callers, actual_depth, vtv_failures_log_fd);
 #endif
     }
 }

 /* In the case where a vtable map variable is the only instance of the
    variable we have seen, it points directly to the set of valid
    vtable pointers.  All subsequent instances of the 'same' vtable map
    variable point to the first vtable map variable.  This function,
    given a vtable map variable PTR, checks a bit to see whether it's
    pointing directly to the data set or to the first vtable map
    variable.  */

 static inline bool
 is_set_handle_handle (void * ptr)
 {
   return ((unsigned long) ptr & SET_HANDLE_HANDLE_BIT)
                                                       == SET_HANDLE_HANDLE_BIT;
 }

 /* Returns the actual pointer value of a vtable map variable, PTR (see
    comments for is_set_handle_handle for more details).  */

 static inline vtv_set_handle *
 ptr_from_set_handle_handle (void * ptr)
 {
   return (vtv_set_handle *) ((unsigned long) ptr & ~SET_HANDLE_HANDLE_BIT);
 }

 /* Given a vtable map variable, PTR, this function sets the bit that
    says this is the second (or later) instance of a vtable map
    variable.  */

 static inline vtv_set_handle_handle
 set_handle_handle (vtv_set_handle * ptr)
 {
   return (vtv_set_handle_handle) ((unsigned long) ptr | SET_HANDLE_HANDLE_BIT);
 }

 /* This function is called from __VLTVerifyVtablePointerDebug; it
    sends as much debugging information as it can to the error log
    file, then calls __vtv_verify_fail.  SET_HANDLE_PTR is the pointer
    to the set of valid vtable pointers, VTBL_PTR is the pointer that
    was not found in the set, and DEBUG_MSG is the message to be
    written to the log file before failing. n */

 void
 __vtv_verify_fail_debug (void **set_handle_ptr, const void *vtbl_ptr,
                          const char *debug_msg)
 {
   log_error_message (debug_msg, false);

   /* Call the public interface in case it has been overwritten by
      user.  */
   __vtv_verify_fail (set_handle_ptr, vtbl_ptr);

   log_error_message ("Returned from __vtv_verify_fail."
                      " Secondary verification succeeded.\n", false);
 }

 /* This function calls __fortify_fail with a FAILURE_MSG and then
    calls abort.  */

 void
 __vtv_really_fail (const char *failure_msg)
 {
   __fortify_fail (failure_msg);

   /* We should never get this far; __fortify_fail calls __libc_message
      which prints out a back trace and a memory dump and then is
      supposed to call abort, but let's play it safe anyway and call abort
      ourselves.  */
   abort ();
 }

 /* This function takes an error MSG, a vtable map variable
    (DATA_SET_PTR) and a vtable pointer (VTBL_PTR).  It is called when
    an attempt to verify VTBL_PTR with the set pointed to by
    DATA_SET_PTR failed.  It outputs a failure message with the
    addresses involved, and calls __vtv_really_fail.  */

 static void
 vtv_fail (const char *msg, void **data_set_ptr, const void *vtbl_ptr)
 {
   char buffer[128];
   int buf_len;
   const char *format_str =
                  "*** Unable to verify vtable pointer (%p) in set (%p) *** \n";

   snprintf (buffer, sizeof (buffer), format_str, vtbl_ptr,
             is_set_handle_handle(*data_set_ptr) ?
               ptr_from_set_handle_handle (*data_set_ptr) :
 	      *data_set_ptr);
   buf_len = strlen (buffer);
   /*  Send this to to stderr.  */
   write (2, buffer, buf_len);

   if (!vtv_no_abort)
     __vtv_really_fail (msg);
 }

 /* Send information about what we were trying to do when verification
    failed to the error log, then call vtv_fail.  This function can be
    overwritten/replaced by the user, to implement a secondary
    verification function instead.  DATA_SET_PTR is the vtable map
    variable used for the failed verification, and VTBL_PTR is the
    vtable pointer that was not found in the set.  */

 void
 __vtv_verify_fail (void **data_set_ptr, const void *vtbl_ptr)
 {
   char log_msg[256];
   snprintf (log_msg, sizeof (log_msg), "Looking for vtable %p in set %p.\n",
             vtbl_ptr,
             is_set_handle_handle (*data_set_ptr) ?
               ptr_from_set_handle_handle (*data_set_ptr) :
               *data_set_ptr);
   log_error_message (log_msg, false);

   const char *format_str =
             "*** Unable to verify vtable pointer (%p) in set (%p) *** \n";
   snprintf (log_msg, sizeof (log_msg), format_str, vtbl_ptr, *data_set_ptr);
   log_error_message (log_msg, false);
   log_error_message ("  Backtrace: \n", true);

   const char *fail_msg = "Potential vtable pointer corruption detected!!\n";
   vtv_fail (fail_msg, data_set_ptr, vtbl_ptr);
 }
	/* Copyright (C) 2012-2021 Free Software Foundation, Inc.

	This file is part of GCC.

	GCC is free software; you can redistribute it and/or modify
	it under the terms of the GNU General Public License as published by
	the Free Software Foundation; either version 3, or (at your option)
	any later version.

	GCC is distributed in the hope that it will be useful,
	but WITHOUT ANY WARRANTY; without even the implied warranty of
	MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
	GNU General Public License for more details.

	Under Section 7 of GPL version 3, you are granted additional
	permissions described in the GCC Runtime Library Exception, version
	3.1, as published by the Free Software Foundation.

	You should have received a copy of the GNU General Public License and
	a copy of the GCC Runtime Library Exception along with this program;
	see the files COPYING3 and COPYING.RUNTIME respectively. If not, see
	<http://www.gnu.org/licenses/>. */

	/* This file is part of the vtable security feature implementation.
	The vtable security feature is designed to detect when a virtual
	call is about to be made through an invalid vtable pointer
	(possibly due to data corruption or malicious attacks).

	This file also contains the failure functions that get called when
	a vtable pointer is not found in the data set. Two particularly
	important functions are __vtv_verify_fail and __vtv_really_fail.
	They are both externally visible. __vtv_verify_fail is defined in
	such a way that it can be replaced by a programmer, if desired. It
	is the function that __VLTVerifyVtablePointer calls if it can't
	find the pointer in the data set. Allowing the programmer to
	overwrite this function means that he/she can do some alternate
	verification, including NOT failing in certain specific cases, if
	desired. This may be the case if the programmer has to deal wtih
	unverified third party software, for example. __vtv_really_fail is
	available for the programmer to call from his version of
	__vtv_verify_fail, if he decides the failure is real.

	*/

	#include <stdlib.h>
	#include <stdio.h>
	#include <string.h>

	#if !defined (__CYGWIN__) && !defined (__MINGW32__)
	#include <execinfo.h>
	#endif

	#include <unistd.h>

	#include "vtv_utils.h"
	#include "vtv_fail.h"

	/* This is used to disable aborts for debugging purposes. */
	bool vtv_no_abort = false;


	extern "C" {

	/* __fortify_fail is a function in glibc that calls __libc_message,
	causing it to print out a program termination error message
	(including the name of the binary being terminated), a stack
	trace where the error occurred, and a memory map dump. Ideally
	we would have called __libc_message directly, but that function
	does not appear to be accessible to functions outside glibc,
	whereas __fortify_fail is. We call __fortify_fail from
	__vtv_really_fail. We looked at calling __libc_fatal, which is
	externally accessible, but it does not do the back trace and
	memory dump. */

	extern void __fortify_fail (const char *) __attribute__((noreturn));

	} /* extern "C" */

	const unsigned long SET_HANDLE_HANDLE_BIT = 0x2;

	/* Instantiate the template classes (in vtv_set.h) for our particular
	hash table needs. */
	typedef void * vtv_set_handle;
	typedef vtv_set_handle * vtv_set_handle_handle;

	static int vtv_failures_log_fd = -1;

	/* Open error logging file, if not already open, and write vtable
	verification failure messages (LOG_MSG) to the log file. Also
	generate a backtrace in the log file, if GENERATE_BACKTRACE is
	set. */

	static void
	log_error_message (const char *log_msg, bool generate_backtrace)
	{
	if (vtv_failures_log_fd == -1)
	vtv_failures_log_fd = vtv_open_log ("vtable_verification_failures.log");

	if (vtv_failures_log_fd == -1)
	return;

	vtv_add_to_log (vtv_failures_log_fd, "%s", log_msg);

	if (generate_backtrace)
	{
	#define STACK_DEPTH 20
	void *callers[STACK_DEPTH];
	#if !defined (__CYGWIN__) && !defined (__MINGW32__)
	int actual_depth = backtrace (callers, STACK_DEPTH);
	backtrace_symbols_fd (callers, actual_depth, vtv_failures_log_fd);
	#endif
	}
	}

	/* In the case where a vtable map variable is the only instance of the
	variable we have seen, it points directly to the set of valid
	vtable pointers. All subsequent instances of the 'same' vtable map
	variable point to the first vtable map variable. This function,
	given a vtable map variable PTR, checks a bit to see whether it's
	pointing directly to the data set or to the first vtable map
	variable. */

	static inline bool
	is_set_handle_handle (void * ptr)
	{
	return ((unsigned long) ptr & SET_HANDLE_HANDLE_BIT)
	== SET_HANDLE_HANDLE_BIT;
	}

	/* Returns the actual pointer value of a vtable map variable, PTR (see
	comments for is_set_handle_handle for more details). */

	static inline vtv_set_handle *
	ptr_from_set_handle_handle (void * ptr)
	{
	return (vtv_set_handle *) ((unsigned long) ptr & ~SET_HANDLE_HANDLE_BIT);
	}

	/* Given a vtable map variable, PTR, this function sets the bit that
	says this is the second (or later) instance of a vtable map
	variable. */

	static inline vtv_set_handle_handle
	set_handle_handle (vtv_set_handle * ptr)
	{
	return (vtv_set_handle_handle) ((unsigned long) ptr \| SET_HANDLE_HANDLE_BIT);
	}

	/* This function is called from __VLTVerifyVtablePointerDebug; it
	sends as much debugging information as it can to the error log
	file, then calls __vtv_verify_fail. SET_HANDLE_PTR is the pointer
	to the set of valid vtable pointers, VTBL_PTR is the pointer that
	was not found in the set, and DEBUG_MSG is the message to be
	written to the log file before failing. n */

	void
	__vtv_verify_fail_debug (void *set_handle_ptr, const void vtbl_ptr,
	const char *debug_msg)
	{
	log_error_message (debug_msg, false);

	/* Call the public interface in case it has been overwritten by
	user. */
	__vtv_verify_fail (set_handle_ptr, vtbl_ptr);

	log_error_message ("Returned from __vtv_verify_fail."
	" Secondary verification succeeded.\n", false);
	}

	/* This function calls __fortify_fail with a FAILURE_MSG and then
	calls abort. */

	void
	__vtv_really_fail (const char *failure_msg)
	{
	__fortify_fail (failure_msg);

	/* We should never get this far; __fortify_fail calls __libc_message
	which prints out a back trace and a memory dump and then is
	supposed to call abort, but let's play it safe anyway and call abort
	ourselves. */
	abort ();
	}

	/* This function takes an error MSG, a vtable map variable
	(DATA_SET_PTR) and a vtable pointer (VTBL_PTR). It is called when
	an attempt to verify VTBL_PTR with the set pointed to by
	DATA_SET_PTR failed. It outputs a failure message with the
	addresses involved, and calls __vtv_really_fail. */

	static void
	vtv_fail (const char msg, void data_set_ptr, const void vtbl_ptr)
	{
	char buffer[128];
	int buf_len;
	const char *format_str =
	"* Unable to verify vtable pointer (%p) in set (%p) * \n";

	snprintf (buffer, sizeof (buffer), format_str, vtbl_ptr,
	is_set_handle_handle(*data_set_ptr) ?
	ptr_from_set_handle_handle (*data_set_ptr) :
	*data_set_ptr);
	buf_len = strlen (buffer);
	/* Send this to to stderr. */
	write (2, buffer, buf_len);

	if (!vtv_no_abort)
	__vtv_really_fail (msg);
	}

	/* Send information about what we were trying to do when verification
	failed to the error log, then call vtv_fail. This function can be
	overwritten/replaced by the user, to implement a secondary
	verification function instead. DATA_SET_PTR is the vtable map
	variable used for the failed verification, and VTBL_PTR is the
	vtable pointer that was not found in the set. */

	void
	__vtv_verify_fail (void *data_set_ptr, const void vtbl_ptr)
	{
	char log_msg[256];
	snprintf (log_msg, sizeof (log_msg), "Looking for vtable %p in set %p.\n",
	vtbl_ptr,
	is_set_handle_handle (*data_set_ptr) ?
	ptr_from_set_handle_handle (*data_set_ptr) :
	*data_set_ptr);
	log_error_message (log_msg, false);

	const char *format_str =
	"* Unable to verify vtable pointer (%p) in set (%p) * \n";
	snprintf (log_msg, sizeof (log_msg), format_str, vtbl_ptr, *data_set_ptr);
	log_error_message (log_msg, false);
	log_error_message (" Backtrace: \n", true);

	const char *fail_msg = "Potential vtable pointer corruption detected!!\n";
	vtv_fail (fail_msg, data_set_ptr, vtbl_ptr);
	}