tests/scripts/test_zeroize.gdb - security/mbedtls - Rivoreo Source Code Repositories

 # test_zeroize.gdb
 #
 # This file is part of mbed TLS (https://tls.mbed.org)
 #
 # Copyright (c) 2017, ARM Limited, All Rights Reserved
 #
 # Purpose
 #
 # Run a test using the debugger to check that the mbedtls_zeroize() function in
 # utils.h is not being optimized out by the compiler. To do so, the script
 # loads the test program at programs/test/zeroize.c and sets a breakpoint at
 # the last return statement in the main(). When the breakpoint is hit, the
 # debugger manually checks the contents to be zeroized and checks that it is
 # actually cleared.
 #
 # The mbedtls_zeroize() test is debugger driven because there does not seem to
 # be a mechanism to reliably check whether the zeroize calls are being
 # eliminated by compiler optimizations from within the compiled program. The
 # problem is that a compiler would typically remove what it considers to be
 # "unecessary" assignments as part of redundant code elimination. To identify
 # such code, the compilar will create some form dependency graph between
 # reads and writes to variables (among other situations). It will then use this
 # data structure to remove redundant code that does not have an impact on the
 # program's observable behavior. In the case of mbedtls_zeroize(), an
 # intelligent compiler could determine that this function clears a block of
 # memory that is not accessed later in the program, so removing the call to
 # mbedtls_zeroize() does not have an observable behavior. However, inserting a
 # test after a call to mbedtls_zeroize() to check whether the block of
 # memory was correctly zeroed would force the compiler to not eliminate the
 # mbedtls_zeroize() call. If this does not occur, then the compiler potentially
 # has a bug.
 #
 # Note: This test requires that the test program is compiled with -g3.
 #
 # WARNING: There does not seem to be a mechanism in GDB scripts to set a
 # breakpoint at the end of a function (probably because there are a lot of
 # complications as function can have multiple exit points, etc). Therefore, it
 # was necessary to hard-code the line number of the breakpoint in the zeroize.c
 # test app. The assumption is that zeroize.c is a simple test app that does not
 # change often (as opposed to the actual library code), so the breakpoint line
 # number does not need to be updated often.

 set confirm off
 file ./programs/test/zeroize
 break zeroize.c:99

 set args ./programs/test/zeroize.c
 run

 set $i = 0
 set $len = sizeof(buf)
 set $buf = buf

 while $i < $len
     if $buf[$i++] != 0
         echo The buffer at was not zeroized\n
         quit 1
     end
 end

 echo The buffer was correctly zeroized\n

 continue

 if $_exitcode != 0
     echo The program did not terminate correctly\n
     quit 1
 end

 quit 0
	# test_zeroize.gdb
	#
	# This file is part of mbed TLS (https://tls.mbed.org)
	#
	# Copyright (c) 2017, ARM Limited, All Rights Reserved
	#
	# Purpose
	#
	# Run a test using the debugger to check that the mbedtls_zeroize() function in
	# utils.h is not being optimized out by the compiler. To do so, the script
	# loads the test program at programs/test/zeroize.c and sets a breakpoint at
	# the last return statement in the main(). When the breakpoint is hit, the
	# debugger manually checks the contents to be zeroized and checks that it is
	# actually cleared.
	#
	# The mbedtls_zeroize() test is debugger driven because there does not seem to
	# be a mechanism to reliably check whether the zeroize calls are being
	# eliminated by compiler optimizations from within the compiled program. The
	# problem is that a compiler would typically remove what it considers to be
	# "unecessary" assignments as part of redundant code elimination. To identify
	# such code, the compilar will create some form dependency graph between
	# reads and writes to variables (among other situations). It will then use this
	# data structure to remove redundant code that does not have an impact on the
	# program's observable behavior. In the case of mbedtls_zeroize(), an
	# intelligent compiler could determine that this function clears a block of
	# memory that is not accessed later in the program, so removing the call to
	# mbedtls_zeroize() does not have an observable behavior. However, inserting a
	# test after a call to mbedtls_zeroize() to check whether the block of
	# memory was correctly zeroed would force the compiler to not eliminate the
	# mbedtls_zeroize() call. If this does not occur, then the compiler potentially
	# has a bug.
	#
	# Note: This test requires that the test program is compiled with -g3.
	#
	# WARNING: There does not seem to be a mechanism in GDB scripts to set a
	# breakpoint at the end of a function (probably because there are a lot of
	# complications as function can have multiple exit points, etc). Therefore, it
	# was necessary to hard-code the line number of the breakpoint in the zeroize.c
	# test app. The assumption is that zeroize.c is a simple test app that does not
	# change often (as opposed to the actual library code), so the breakpoint line
	# number does not need to be updated often.

	set confirm off
	file ./programs/test/zeroize
	break zeroize.c:99

	set args ./programs/test/zeroize.c
	run

	set $i = 0
	set $len = sizeof(buf)
	set $buf = buf

	while $i < $len
	if $buf[$i++] != 0
	echo The buffer at was not zeroized\n
	quit 1
	end
	end

	echo The buffer was correctly zeroized\n

	continue

	if $_exitcode != 0
	echo The program did not terminate correctly\n
	quit 1
	end

	quit 0