test/image/test-fit.py - u-boot - Git at Google

 #!/usr/bin/python
 #
 # Copyright (c) 2013, Google Inc.
 #
 # Sanity check of the FIT handling in U-Boot
 #
 # SPDX-License-Identifier:	GPL-2.0+
 #
 # To run this:
 #
 # make O=sandbox sandbox_config
 # make O=sandbox
 # ./test/image/test-fit.py -u sandbox/u-boot

 import doctest
 from optparse import OptionParser
 import os
 import shutil
 import struct
 import sys
 import tempfile

 # The 'command' library in patman is convenient for running commands
 base_path = os.path.dirname(sys.argv[0])
 patman = os.path.join(base_path, '../../tools/patman')
 sys.path.append(patman)

 import command

 # Define a base ITS which we can adjust using % and a dictionary
 base_its = '''
 /dts-v1/;

 / {
         description = "Chrome OS kernel image with one or more FDT blobs";
         #address-cells = <1>;

         images {
                 kernel@1 {
                         data = /incbin/("%(kernel)s");
                         type = "kernel";
                         arch = "sandbox";
                         os = "linux";
                         compression = "none";
                         load = <0x40000>;
                         entry = <0x8>;
                 };
                 fdt@1 {
                         description = "snow";
                         data = /incbin/("u-boot.dtb");
                         type = "flat_dt";
                         arch = "sandbox";
                         %(fdt_load)s
                         compression = "none";
                         signature@1 {
                                 algo = "sha1,rsa2048";
                                 key-name-hint = "dev";
                         };
                 };
                 ramdisk@1 {
                         description = "snow";
                         data = /incbin/("%(ramdisk)s");
                         type = "ramdisk";
                         arch = "sandbox";
                         os = "linux";
                         %(ramdisk_load)s
                         compression = "none";
                 };
         };
         configurations {
                 default = "conf@1";
                 conf@1 {
                         kernel = "kernel@1";
                         fdt = "fdt@1";
                         %(ramdisk_config)s
                 };
         };
 };
 '''

 # Define a base FDT - currently we don't use anything in this
 base_fdt = '''
 /dts-v1/;

 / {
         model = "Sandbox Verified Boot Test";
         compatible = "sandbox";

 };
 '''

 # This is the U-Boot script that is run for each test. First load the fit,
 # then do the 'bootm' command, then save out memory from the places where
 # we expect 'bootm' to write things. Then quit.
 base_script = '''
 sb load hostfs 0 %(fit_addr)x %(fit)s
 fdt addr %(fit_addr)x
 bootm start %(fit_addr)x
 bootm loados
 sb save hostfs 0 %(kernel_out)s %(kernel_addr)x %(kernel_size)x
 sb save hostfs 0 %(fdt_out)s %(fdt_addr)x %(fdt_size)x
 sb save hostfs 0 %(ramdisk_out)s %(ramdisk_addr)x %(ramdisk_size)x
 reset
 '''

 def make_fname(leaf):
     """Make a temporary filename

     Args:
         leaf: Leaf name of file to create (within temporary directory)
     Return:
         Temporary filename
     """
     global base_dir

     return os.path.join(base_dir, leaf)

 def filesize(fname):
     """Get the size of a file

     Args:
         fname: Filename to check
     Return:
         Size of file in bytes
     """
     return os.stat(fname).st_size

 def read_file(fname):
     """Read the contents of a file

     Args:
         fname: Filename to read
     Returns:
         Contents of file as a string
     """
     with open(fname, 'r') as fd:
         return fd.read()

 def make_dtb():
     """Make a sample .dts file and compile it to a .dtb

     Returns:
         Filename of .dtb file created
     """
     src = make_fname('u-boot.dts')
     dtb = make_fname('u-boot.dtb')
     with open(src, 'w') as fd:
         print >>fd, base_fdt
     command.Output('dtc', src, '-O', 'dtb', '-o', dtb)
     return dtb

 def make_its(params):
     """Make a sample .its file with parameters embedded

     Args:
         params: Dictionary containing parameters to embed in the %() strings
     Returns:
         Filename of .its file created
     """
     its = make_fname('test.its')
     with open(its, 'w') as fd:
         print >>fd, base_its % params
     return its

 def make_fit(mkimage, params):
     """Make a sample .fit file ready for loading

     This creates a .its script with the selected parameters and uses mkimage to
     turn this into a .fit image.

     Args:
         mkimage: Filename of 'mkimage' utility
         params: Dictionary containing parameters to embed in the %() strings
     Return:
         Filename of .fit file created
     """
     fit = make_fname('test.fit')
     its = make_its(params)
     command.Output(mkimage, '-f', its, fit)
     with open(make_fname('u-boot.dts'), 'w') as fd:
         print >>fd, base_fdt
     return fit

 def make_kernel():
     """Make a sample kernel with test data

     Returns:
         Filename of kernel created
     """
     fname = make_fname('test-kernel.bin')
     data = ''
     for i in range(100):
         data += 'this kernel %d is unlikely to boot\n' % i
     with open(fname, 'w') as fd:
         print >>fd, data
     return fname

 def make_ramdisk():
     """Make a sample ramdisk with test data

     Returns:
         Filename of ramdisk created
     """
     fname = make_fname('test-ramdisk.bin')
     data = ''
     for i in range(100):
         data += 'ramdisk %d was seldom used in the middle ages\n' % i
     with open(fname, 'w') as fd:
         print >>fd, data
     return fname

 def find_matching(text, match):
     """Find a match in a line of text, and return the unmatched line portion

     This is used to extract a part of a line from some text. The match string
     is used to locate the line - we use the first line that contains that
     match text.

     Once we find a match, we discard the match string itself from the line,
     and return what remains.

     TODO: If this function becomes more generally useful, we could change it
     to use regex and return groups.

     Args:
         text: Text to check (each line separated by \n)
         match: String to search for
     Return:
         String containing unmatched portion of line
     Exceptions:
         ValueError: If match is not found

     >>> find_matching('first line:10\\nsecond_line:20', 'first line:')
     '10'
     >>> find_matching('first line:10\\nsecond_line:20', 'second linex')
     Traceback (most recent call last):
       ...
     ValueError: Test aborted
     >>> find_matching('first line:10\\nsecond_line:20', 'second_line:')
     '20'
     """
     for line in text.splitlines():
         pos = line.find(match)
         if pos != -1:
             return line[:pos] + line[pos + len(match):]

     print "Expected '%s' but not found in output:"
     print text
     raise ValueError('Test aborted')

 def set_test(name):
     """Set the name of the current test and print a message

     Args:
         name: Name of test
     """
     global test_name

     test_name = name
     print name

 def fail(msg, stdout):
     """Raise an error with a helpful failure message

     Args:
         msg: Message to display
     """
     print stdout
     raise ValueError("Test '%s' failed: %s" % (test_name, msg))

 def run_fit_test(mkimage, u_boot):
     """Basic sanity check of FIT loading in U-Boot

     TODO: Almost everything:
        - hash algorithms - invalid hash/contents should be detected
        - signature algorithms - invalid sig/contents should be detected
        - compression
        - checking that errors are detected like:
             - image overwriting
             - missing images
             - invalid configurations
             - incorrect os/arch/type fields
             - empty data
             - images too large/small
             - invalid FDT (e.g. putting a random binary in instead)
        - default configuration selection
        - bootm command line parameters should have desired effect
        - run code coverage to make sure we are testing all the code
     """
     global test_name

     # Set up invariant files
     control_dtb = make_dtb()
     kernel = make_kernel()
     ramdisk = make_ramdisk()
     kernel_out = make_fname('kernel-out.bin')
     fdt_out = make_fname('fdt-out.dtb')
     ramdisk_out = make_fname('ramdisk-out.bin')

     # Set up basic parameters with default values
     params = {
         'fit_addr' : 0x1000,

         'kernel' : kernel,
         'kernel_out' : kernel_out,
         'kernel_addr' : 0x40000,
         'kernel_size' : filesize(kernel),

         'fdt_out' : fdt_out,
         'fdt_addr' : 0x80000,
         'fdt_size' : filesize(control_dtb),
         'fdt_load' : '',

         'ramdisk' : ramdisk,
         'ramdisk_out' : ramdisk_out,
         'ramdisk_addr' : 0xc0000,
         'ramdisk_size' : filesize(ramdisk),
         'ramdisk_load' : '',
         'ramdisk_config' : '',
     }

     # Make a basic FIT and a script to load it
     fit = make_fit(mkimage, params)
     params['fit'] = fit
     cmd = base_script % params

     # First check that we can load a kernel
     # We could perhaps reduce duplication with some loss of readability
     set_test('Kernel load')
     stdout = command.Output(u_boot, '-d', control_dtb, '-c', cmd)
     if read_file(kernel) != read_file(kernel_out):
         fail('Kernel not loaded', stdout)
     if read_file(control_dtb) == read_file(fdt_out):
         fail('FDT loaded but should be ignored', stdout)
     if read_file(ramdisk) == read_file(ramdisk_out):
         fail('Ramdisk loaded but should not be', stdout)

     # Find out the offset in the FIT where U-Boot has found the FDT
     line = find_matching(stdout, 'Booting using the fdt blob at ')
     fit_offset = int(line, 16) - params['fit_addr']
     fdt_magic = struct.pack('>L', 0xd00dfeed)
     data = read_file(fit)

     # Now find where it actually is in the FIT (skip the first word)
     real_fit_offset = data.find(fdt_magic, 4)
     if fit_offset != real_fit_offset:
         fail('U-Boot loaded FDT from offset %#x, FDT is actually at %#x' %
                 (fit_offset, real_fit_offset), stdout)

     # Now a kernel and an FDT
     set_test('Kernel + FDT load')
     params['fdt_load'] = 'load = <%#x>;' % params['fdt_addr']
     fit = make_fit(mkimage, params)
     stdout = command.Output(u_boot, '-d', control_dtb, '-c', cmd)
     if read_file(kernel) != read_file(kernel_out):
         fail('Kernel not loaded', stdout)
     if read_file(control_dtb) != read_file(fdt_out):
         fail('FDT not loaded', stdout)
     if read_file(ramdisk) == read_file(ramdisk_out):
         fail('Ramdisk loaded but should not be', stdout)

     # Try a ramdisk
     set_test('Kernel + FDT + Ramdisk load')
     params['ramdisk_config'] = 'ramdisk = "ramdisk@1";'
     params['ramdisk_load'] = 'load = <%#x>;' % params['ramdisk_addr']
     fit = make_fit(mkimage, params)
     stdout = command.Output(u_boot, '-d', control_dtb, '-c', cmd)
     if read_file(ramdisk) != read_file(ramdisk_out):
         fail('Ramdisk not loaded', stdout)

 def run_tests():
     """Parse options, run the FIT tests and print the result"""
     global base_path, base_dir

     # Work in a temporary directory
     base_dir = tempfile.mkdtemp()
     parser = OptionParser()
     parser.add_option('-u', '--u-boot',
             default=os.path.join(base_path, 'u-boot'),
             help='Select U-Boot sandbox binary')
     parser.add_option('-k', '--keep', action='store_true',
             help="Don't delete temporary directory even when tests pass")
     parser.add_option('-t', '--selftest', action='store_true',
             help='Run internal self tests')
     (options, args) = parser.parse_args()

     # Find the path to U-Boot, and assume mkimage is in its tools/mkimage dir
     base_path = os.path.dirname(options.u_boot)
     mkimage = os.path.join(base_path, 'tools/mkimage')

     # There are a few doctests - handle these here
     if options.selftest:
         doctest.testmod()
         return

     title = 'FIT Tests'
     print title, '\n', '=' * len(title)

     run_fit_test(mkimage, options.u_boot)

     print '\nTests passed'
     print 'Caveat: this is only a sanity check - test coverage is poor'

     # Remove the tempoerary directory unless we are asked to keep it
     if options.keep:
         print "Output files are in '%s'" % base_dir
     else:
         shutil.rmtree(base_dir)

 run_tests()
	#!/usr/bin/python
	#
	# Copyright (c) 2013, Google Inc.
	#
	# Sanity check of the FIT handling in U-Boot
	#
	# SPDX-License-Identifier: GPL-2.0+
	#
	# To run this:
	#
	# make O=sandbox sandbox_config
	# make O=sandbox
	# ./test/image/test-fit.py -u sandbox/u-boot

	import doctest
	from optparse import OptionParser
	import os
	import shutil
	import struct
	import sys
	import tempfile

	# The 'command' library in patman is convenient for running commands
	base_path = os.path.dirname(sys.argv[0])
	patman = os.path.join(base_path, '../../tools/patman')
	sys.path.append(patman)

	import command

	# Define a base ITS which we can adjust using % and a dictionary
	base_its = '''
	/dts-v1/;

	/ {
	description = "Chrome OS kernel image with one or more FDT blobs";
	#address-cells = <1>;

	images {
	kernel@1 {
	data = /incbin/("%(kernel)s");
	type = "kernel";
	arch = "sandbox";
	os = "linux";
	compression = "none";
	load = <0x40000>;
	entry = <0x8>;
	};
	fdt@1 {
	description = "snow";
	data = /incbin/("u-boot.dtb");
	type = "flat_dt";
	arch = "sandbox";
	%(fdt_load)s
	compression = "none";
	signature@1 {
	algo = "sha1,rsa2048";
	key-name-hint = "dev";
	};
	};
	ramdisk@1 {
	description = "snow";
	data = /incbin/("%(ramdisk)s");
	type = "ramdisk";
	arch = "sandbox";
	os = "linux";
	%(ramdisk_load)s
	compression = "none";
	};
	};
	configurations {
	default = "conf@1";
	conf@1 {
	kernel = "kernel@1";
	fdt = "fdt@1";
	%(ramdisk_config)s
	};
	};
	};
	'''

	# Define a base FDT - currently we don't use anything in this
	base_fdt = '''
	/dts-v1/;

	/ {
	model = "Sandbox Verified Boot Test";
	compatible = "sandbox";

	};
	'''

	# This is the U-Boot script that is run for each test. First load the fit,
	# then do the 'bootm' command, then save out memory from the places where
	# we expect 'bootm' to write things. Then quit.
	base_script = '''
	sb load hostfs 0 %(fit_addr)x %(fit)s
	fdt addr %(fit_addr)x
	bootm start %(fit_addr)x
	bootm loados
	sb save hostfs 0 %(kernel_out)s %(kernel_addr)x %(kernel_size)x
	sb save hostfs 0 %(fdt_out)s %(fdt_addr)x %(fdt_size)x
	sb save hostfs 0 %(ramdisk_out)s %(ramdisk_addr)x %(ramdisk_size)x
	reset
	'''

	def make_fname(leaf):
	"""Make a temporary filename

	Args:
	leaf: Leaf name of file to create (within temporary directory)
	Return:
	Temporary filename
	"""
	global base_dir

	return os.path.join(base_dir, leaf)

	def filesize(fname):
	"""Get the size of a file

	Args:
	fname: Filename to check
	Return:
	Size of file in bytes
	"""
	return os.stat(fname).st_size

	def read_file(fname):
	"""Read the contents of a file

	Args:
	fname: Filename to read
	Returns:
	Contents of file as a string
	"""
	with open(fname, 'r') as fd:
	return fd.read()

	def make_dtb():
	"""Make a sample .dts file and compile it to a .dtb

	Returns:
	Filename of .dtb file created
	"""
	src = make_fname('u-boot.dts')
	dtb = make_fname('u-boot.dtb')
	with open(src, 'w') as fd:
	print >>fd, base_fdt
	command.Output('dtc', src, '-O', 'dtb', '-o', dtb)
	return dtb

	def make_its(params):
	"""Make a sample .its file with parameters embedded

	Args:
	params: Dictionary containing parameters to embed in the %() strings
	Returns:
	Filename of .its file created
	"""
	its = make_fname('test.its')
	with open(its, 'w') as fd:
	print >>fd, base_its % params
	return its

	def make_fit(mkimage, params):
	"""Make a sample .fit file ready for loading

	This creates a .its script with the selected parameters and uses mkimage to
	turn this into a .fit image.

	Args:
	mkimage: Filename of 'mkimage' utility
	params: Dictionary containing parameters to embed in the %() strings
	Return:
	Filename of .fit file created
	"""
	fit = make_fname('test.fit')
	its = make_its(params)
	command.Output(mkimage, '-f', its, fit)
	with open(make_fname('u-boot.dts'), 'w') as fd:
	print >>fd, base_fdt
	return fit

	def make_kernel():
	"""Make a sample kernel with test data

	Returns:
	Filename of kernel created
	"""
	fname = make_fname('test-kernel.bin')
	data = ''
	for i in range(100):
	data += 'this kernel %d is unlikely to boot\n' % i
	with open(fname, 'w') as fd:
	print >>fd, data
	return fname

	def make_ramdisk():
	"""Make a sample ramdisk with test data

	Returns:
	Filename of ramdisk created
	"""
	fname = make_fname('test-ramdisk.bin')
	data = ''
	for i in range(100):
	data += 'ramdisk %d was seldom used in the middle ages\n' % i
	with open(fname, 'w') as fd:
	print >>fd, data
	return fname

	def find_matching(text, match):
	"""Find a match in a line of text, and return the unmatched line portion

	This is used to extract a part of a line from some text. The match string
	is used to locate the line - we use the first line that contains that
	match text.

	Once we find a match, we discard the match string itself from the line,
	and return what remains.

	TODO: If this function becomes more generally useful, we could change it
	to use regex and return groups.

	Args:
	text: Text to check (each line separated by \n)
	match: String to search for
	Return:
	String containing unmatched portion of line
	Exceptions:
	ValueError: If match is not found

	>>> find_matching('first line:10\\nsecond_line:20', 'first line:')
	'10'
	>>> find_matching('first line:10\\nsecond_line:20', 'second linex')
	Traceback (most recent call last):
	...
	ValueError: Test aborted
	>>> find_matching('first line:10\\nsecond_line:20', 'second_line:')
	'20'
	"""
	for line in text.splitlines():
	pos = line.find(match)
	if pos != -1:
	return line[:pos] + line[pos + len(match):]

	print "Expected '%s' but not found in output:"
	print text
	raise ValueError('Test aborted')

	def set_test(name):
	"""Set the name of the current test and print a message

	Args:
	name: Name of test
	"""
	global test_name

	test_name = name
	print name

	def fail(msg, stdout):
	"""Raise an error with a helpful failure message

	Args:
	msg: Message to display
	"""
	print stdout
	raise ValueError("Test '%s' failed: %s" % (test_name, msg))

	def run_fit_test(mkimage, u_boot):
	"""Basic sanity check of FIT loading in U-Boot

	TODO: Almost everything:
	- hash algorithms - invalid hash/contents should be detected
	- signature algorithms - invalid sig/contents should be detected
	- compression
	- checking that errors are detected like:
	- image overwriting
	- missing images
	- invalid configurations
	- incorrect os/arch/type fields
	- empty data
	- images too large/small
	- invalid FDT (e.g. putting a random binary in instead)
	- default configuration selection
	- bootm command line parameters should have desired effect
	- run code coverage to make sure we are testing all the code
	"""
	global test_name

	# Set up invariant files
	control_dtb = make_dtb()
	kernel = make_kernel()
	ramdisk = make_ramdisk()
	kernel_out = make_fname('kernel-out.bin')
	fdt_out = make_fname('fdt-out.dtb')
	ramdisk_out = make_fname('ramdisk-out.bin')

	# Set up basic parameters with default values
	params = {
	'fit_addr' : 0x1000,

	'kernel' : kernel,
	'kernel_out' : kernel_out,
	'kernel_addr' : 0x40000,
	'kernel_size' : filesize(kernel),

	'fdt_out' : fdt_out,
	'fdt_addr' : 0x80000,
	'fdt_size' : filesize(control_dtb),
	'fdt_load' : '',

	'ramdisk' : ramdisk,
	'ramdisk_out' : ramdisk_out,
	'ramdisk_addr' : 0xc0000,
	'ramdisk_size' : filesize(ramdisk),
	'ramdisk_load' : '',
	'ramdisk_config' : '',
	}

	# Make a basic FIT and a script to load it
	fit = make_fit(mkimage, params)
	params['fit'] = fit
	cmd = base_script % params

	# First check that we can load a kernel
	# We could perhaps reduce duplication with some loss of readability
	set_test('Kernel load')
	stdout = command.Output(u_boot, '-d', control_dtb, '-c', cmd)
	if read_file(kernel) != read_file(kernel_out):
	fail('Kernel not loaded', stdout)
	if read_file(control_dtb) == read_file(fdt_out):
	fail('FDT loaded but should be ignored', stdout)
	if read_file(ramdisk) == read_file(ramdisk_out):
	fail('Ramdisk loaded but should not be', stdout)

	# Find out the offset in the FIT where U-Boot has found the FDT
	line = find_matching(stdout, 'Booting using the fdt blob at ')
	fit_offset = int(line, 16) - params['fit_addr']
	fdt_magic = struct.pack('>L', 0xd00dfeed)
	data = read_file(fit)

	# Now find where it actually is in the FIT (skip the first word)
	real_fit_offset = data.find(fdt_magic, 4)
	if fit_offset != real_fit_offset:
	fail('U-Boot loaded FDT from offset %#x, FDT is actually at %#x' %
	(fit_offset, real_fit_offset), stdout)

	# Now a kernel and an FDT
	set_test('Kernel + FDT load')
	params['fdt_load'] = 'load = <%#x>;' % params['fdt_addr']
	fit = make_fit(mkimage, params)
	stdout = command.Output(u_boot, '-d', control_dtb, '-c', cmd)
	if read_file(kernel) != read_file(kernel_out):
	fail('Kernel not loaded', stdout)
	if read_file(control_dtb) != read_file(fdt_out):
	fail('FDT not loaded', stdout)
	if read_file(ramdisk) == read_file(ramdisk_out):
	fail('Ramdisk loaded but should not be', stdout)

	# Try a ramdisk
	set_test('Kernel + FDT + Ramdisk load')
	params['ramdisk_config'] = 'ramdisk = "ramdisk@1";'
	params['ramdisk_load'] = 'load = <%#x>;' % params['ramdisk_addr']
	fit = make_fit(mkimage, params)
	stdout = command.Output(u_boot, '-d', control_dtb, '-c', cmd)
	if read_file(ramdisk) != read_file(ramdisk_out):
	fail('Ramdisk not loaded', stdout)

	def run_tests():
	"""Parse options, run the FIT tests and print the result"""
	global base_path, base_dir

	# Work in a temporary directory
	base_dir = tempfile.mkdtemp()
	parser = OptionParser()
	parser.add_option('-u', '--u-boot',
	default=os.path.join(base_path, 'u-boot'),
	help='Select U-Boot sandbox binary')
	parser.add_option('-k', '--keep', action='store_true',
	help="Don't delete temporary directory even when tests pass")
	parser.add_option('-t', '--selftest', action='store_true',
	help='Run internal self tests')
	(options, args) = parser.parse_args()

	# Find the path to U-Boot, and assume mkimage is in its tools/mkimage dir
	base_path = os.path.dirname(options.u_boot)
	mkimage = os.path.join(base_path, 'tools/mkimage')

	# There are a few doctests - handle these here
	if options.selftest:
	doctest.testmod()
	return

	title = 'FIT Tests'
	print title, '\n', '=' * len(title)

	run_fit_test(mkimage, options.u_boot)

	print '\nTests passed'
	print 'Caveat: this is only a sanity check - test coverage is poor'

	# Remove the tempoerary directory unless we are asked to keep it
	if options.keep:
	print "Output files are in '%s'" % base_dir
	else:
	shutil.rmtree(base_dir)

	run_tests()