test/py/tests/test_fit.py - u-boot - Git at Google

 # SPDX-License-Identifier:	GPL-2.0+
 # Copyright (c) 2013, Google Inc.
 #
 # Sanity check of the FIT handling in U-Boot

 import os
 import pytest
 import struct
 import u_boot_utils as util
 import fit_util

 # 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 = "%(compression)s";
                         load = <0x40000>;
                         entry = <0x8>;
                 };
                 kernel-2 {
                         data = /incbin/("%(loadables1)s");
                         type = "kernel";
                         arch = "sandbox";
                         os = "linux";
                         compression = "none";
                         %(loadables1_load)s
                         entry = <0x0>;
                 };
                 fdt-1 {
                         description = "snow";
                         data = /incbin/("%(fdt)s");
                         type = "flat_dt";
                         arch = "sandbox";
                         %(fdt_load)s
                         compression = "%(compression)s";
                         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 = "%(compression)s";
                 };
                 ramdisk-2 {
                         description = "snow";
                         data = /incbin/("%(loadables2)s");
                         type = "ramdisk";
                         arch = "sandbox";
                         os = "linux";
                         %(loadables2_load)s
                         compression = "none";
                 };
         };
         configurations {
                 default = "conf-1";
                 conf-1 {
                         kernel = "kernel-1";
                         fdt = "fdt-1";
                         %(ramdisk_config)s
                         %(loadables_config)s
                 };
         };
 };
 '''

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

 / {
 	#address-cells = <1>;
 	#size-cells = <0>;

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

 	binman {
 	};

 	reset@0 {
 		compatible = "sandbox,reset";
 		reg = <0>;
 	};
 };
 '''

 # This is the U-Boot script that is run for each test. First load the FIT,
 # then run the 'bootm' command, then save out memory from the places where
 # we expect 'bootm' to write things. Then quit.
 base_script = '''
 host load hostfs 0 %(fit_addr)x %(fit)s
 fdt addr %(fit_addr)x
 bootm start %(fit_addr)x
 bootm loados
 host save hostfs 0 %(kernel_addr)x %(kernel_out)s %(kernel_size)x
 host save hostfs 0 %(fdt_addr)x %(fdt_out)s %(fdt_size)x
 host save hostfs 0 %(ramdisk_addr)x %(ramdisk_out)s %(ramdisk_size)x
 host save hostfs 0 %(loadables1_addr)x %(loadables1_out)s %(loadables1_size)x
 host save hostfs 0 %(loadables2_addr)x %(loadables2_out)s %(loadables2_size)x
 '''

 @pytest.mark.boardspec('sandbox')
 @pytest.mark.buildconfigspec('fit_signature')
 @pytest.mark.requiredtool('dtc')
 def test_fit(u_boot_console):
     def make_fname(leaf):
         """Make a temporary filename

         Args:
             leaf: Leaf name of file to create (within temporary directory)
         Return:
             Temporary filename
         """
         return os.path.join(cons.config.build_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, 'rb') as fd:
             return fd.read()

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

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

     def make_compressed(filename):
         util.run_and_log(cons, ['gzip', '-f', '-k', filename])
         return filename + '.gz'

     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 (list of strings, one for each command issued)
             match: String to search for
         Return:
             String containing unmatched portion of line
         Exceptions:
             ValueError: If match is not found

         >>> find_matching(['first line:10', 'second_line:20'], 'first line:')
         '10'
         >>> find_matching(['first line:10', 'second_line:20'], 'second line')
         Traceback (most recent call last):
           ...
         ValueError: Test aborted
         >>> find_matching('first line:10\', 'second_line:20'], 'second_line:')
         '20'
         >>> find_matching('first line:10\', 'second_line:20\nthird_line:30'],
                           'third_line:')
         '30'
         """
         __tracebackhide__ = True
         for line in '\n'.join(text).splitlines():
             pos = line.find(match)
             if pos != -1:
                 return line[:pos] + line[pos + len(match):]

         pytest.fail("Expected '%s' but not found in output")

     def check_equal(expected_fname, actual_fname, failure_msg):
         """Check that a file matches its expected contents

         This is always used on out-buffers whose size is decided by the test
         script anyway, which in some cases may be larger than what we're
         actually looking for. So it's safe to truncate it to the size of the
         expected data.

         Args:
             expected_fname: Filename containing expected contents
             actual_fname: Filename containing actual contents
             failure_msg: Message to print on failure
         """
         expected_data = read_file(expected_fname)
         actual_data = read_file(actual_fname)
         if len(expected_data) < len(actual_data):
             actual_data = actual_data[:len(expected_data)]
         assert expected_data == actual_data, failure_msg

     def check_not_equal(expected_fname, actual_fname, failure_msg):
         """Check that a file does not match its expected contents

         Args:
             expected_fname: Filename containing expected contents
             actual_fname: Filename containing actual contents
             failure_msg: Message to print on failure
         """
         expected_data = read_file(expected_fname)
         actual_data = read_file(actual_fname)
         assert expected_data != actual_data, failure_msg

     def run_fit_test(mkimage):
         """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
         """
         # Set up invariant files
         control_dtb = fit_util.make_dtb(cons, base_fdt, 'u-boot')
         kernel = fit_util.make_kernel(cons, 'test-kernel.bin', 'kernel')
         ramdisk = make_ramdisk('test-ramdisk.bin', 'ramdisk')
         loadables1 = fit_util.make_kernel(cons, 'test-loadables1.bin', 'lenrek')
         loadables2 = make_ramdisk('test-loadables2.bin', 'ksidmar')
         kernel_out = make_fname('kernel-out.bin')
         fdt = make_fname('u-boot.dtb')
         fdt_out = make_fname('fdt-out.dtb')
         ramdisk_out = make_fname('ramdisk-out.bin')
         loadables1_out = make_fname('loadables1-out.bin')
         loadables2_out = make_fname('loadables2-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' : fdt,
             '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' : '',

             'loadables1' : loadables1,
             'loadables1_out' : loadables1_out,
             'loadables1_addr' : 0x100000,
             'loadables1_size' : filesize(loadables1),
             'loadables1_load' : '',

             'loadables2' : loadables2,
             'loadables2_out' : loadables2_out,
             'loadables2_addr' : 0x140000,
             'loadables2_size' : filesize(loadables2),
             'loadables2_load' : '',

             'loadables_config' : '',
             'compression' : 'none',
         }

         # Make a basic FIT and a script to load it
         fit = fit_util.make_fit(cons, mkimage, base_its, 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
         cons.config.dtb = control_dtb
         cons.restart_uboot()
         with cons.log.section('Kernel load'):
             output = cons.run_command_list(cmd.splitlines())
             check_equal(kernel, kernel_out, 'Kernel not loaded')
             check_not_equal(control_dtb, fdt_out,
                             'FDT loaded but should be ignored')
             check_not_equal(ramdisk, ramdisk_out,
                             'Ramdisk loaded but should not be')

             # Find out the offset in the FIT where U-Boot has found the FDT
             line = find_matching(output, '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)
             assert fit_offset == real_fit_offset, (
                   'U-Boot loaded FDT from offset %#x, FDT is actually at %#x' %
                   (fit_offset, real_fit_offset))

             # Check if bootargs strings substitution works
             output = cons.run_command_list([
                 'env set bootargs \\\"\'my_boot_var=${foo}\'\\\"',
                 'env set foo bar',
                 'bootm prep',
                 'env print bootargs'])
             assert 'bootargs="my_boot_var=bar"' in output, "Bootargs strings not substituted"

         # Now a kernel and an FDT
         with cons.log.section('Kernel + FDT load'):
             params['fdt_load'] = 'load = <%#x>;' % params['fdt_addr']
             fit = fit_util.make_fit(cons, mkimage, base_its, params)
             cons.restart_uboot()
             output = cons.run_command_list(cmd.splitlines())
             check_equal(kernel, kernel_out, 'Kernel not loaded')
             check_equal(control_dtb, fdt_out, 'FDT not loaded')
             check_not_equal(ramdisk, ramdisk_out,
                             'Ramdisk loaded but should not be')

         # Try a ramdisk
         with cons.log.section('Kernel + FDT + Ramdisk load'):
             params['ramdisk_config'] = 'ramdisk = "ramdisk-1";'
             params['ramdisk_load'] = 'load = <%#x>;' % params['ramdisk_addr']
             fit = fit_util.make_fit(cons, mkimage, base_its, params)
             cons.restart_uboot()
             output = cons.run_command_list(cmd.splitlines())
             check_equal(ramdisk, ramdisk_out, 'Ramdisk not loaded')

         # Configuration with some Loadables
         with cons.log.section('Kernel + FDT + Ramdisk load + Loadables'):
             params['loadables_config'] = 'loadables = "kernel-2", "ramdisk-2";'
             params['loadables1_load'] = ('load = <%#x>;' %
                                          params['loadables1_addr'])
             params['loadables2_load'] = ('load = <%#x>;' %
                                          params['loadables2_addr'])
             fit = fit_util.make_fit(cons, mkimage, base_its, params)
             cons.restart_uboot()
             output = cons.run_command_list(cmd.splitlines())
             check_equal(loadables1, loadables1_out,
                         'Loadables1 (kernel) not loaded')
             check_equal(loadables2, loadables2_out,
                         'Loadables2 (ramdisk) not loaded')

         # Kernel, FDT and Ramdisk all compressed
         with cons.log.section('(Kernel + FDT + Ramdisk) compressed'):
             params['compression'] = 'gzip'
             params['kernel'] = make_compressed(kernel)
             params['fdt'] = make_compressed(fdt)
             params['ramdisk'] = make_compressed(ramdisk)
             fit = fit_util.make_fit(cons, mkimage, base_its, params)
             cons.restart_uboot()
             output = cons.run_command_list(cmd.splitlines())
             check_equal(kernel, kernel_out, 'Kernel not loaded')
             check_equal(control_dtb, fdt_out, 'FDT not loaded')
             check_not_equal(ramdisk, ramdisk_out, 'Ramdisk got decompressed?')
             check_equal(ramdisk + '.gz', ramdisk_out, 'Ramdist not loaded')


     cons = u_boot_console
     # We need to use our own device tree file. Remember to restore it
     # afterwards.
     old_dtb = cons.config.dtb
     try:
         mkimage = cons.config.build_dir + '/tools/mkimage'
         run_fit_test(mkimage)
     finally:
         # Go back to the original U-Boot with the correct dtb.
         cons.config.dtb = old_dtb
         cons.restart_uboot()
	# SPDX-License-Identifier: GPL-2.0+
	# Copyright (c) 2013, Google Inc.
	#
	# Sanity check of the FIT handling in U-Boot

	import os
	import pytest
	import struct
	import u_boot_utils as util
	import fit_util

	# 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 = "%(compression)s";
	load = <0x40000>;
	entry = <0x8>;
	};
	kernel-2 {
	data = /incbin/("%(loadables1)s");
	type = "kernel";
	arch = "sandbox";
	os = "linux";
	compression = "none";
	%(loadables1_load)s
	entry = <0x0>;
	};
	fdt-1 {
	description = "snow";
	data = /incbin/("%(fdt)s");
	type = "flat_dt";
	arch = "sandbox";
	%(fdt_load)s
	compression = "%(compression)s";
	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 = "%(compression)s";
	};
	ramdisk-2 {
	description = "snow";
	data = /incbin/("%(loadables2)s");
	type = "ramdisk";
	arch = "sandbox";
	os = "linux";
	%(loadables2_load)s
	compression = "none";
	};
	};
	configurations {
	default = "conf-1";
	conf-1 {
	kernel = "kernel-1";
	fdt = "fdt-1";
	%(ramdisk_config)s
	%(loadables_config)s
	};
	};
	};
	'''

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

	/ {
	#address-cells = <1>;
	#size-cells = <0>;

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

	binman {
	};

	reset@0 {
	compatible = "sandbox,reset";
	reg = <0>;
	};
	};
	'''

	# This is the U-Boot script that is run for each test. First load the FIT,
	# then run the 'bootm' command, then save out memory from the places where
	# we expect 'bootm' to write things. Then quit.
	base_script = '''
	host load hostfs 0 %(fit_addr)x %(fit)s
	fdt addr %(fit_addr)x
	bootm start %(fit_addr)x
	bootm loados
	host save hostfs 0 %(kernel_addr)x %(kernel_out)s %(kernel_size)x
	host save hostfs 0 %(fdt_addr)x %(fdt_out)s %(fdt_size)x
	host save hostfs 0 %(ramdisk_addr)x %(ramdisk_out)s %(ramdisk_size)x
	host save hostfs 0 %(loadables1_addr)x %(loadables1_out)s %(loadables1_size)x
	host save hostfs 0 %(loadables2_addr)x %(loadables2_out)s %(loadables2_size)x
	'''

	@pytest.mark.boardspec('sandbox')
	@pytest.mark.buildconfigspec('fit_signature')
	@pytest.mark.requiredtool('dtc')
	def test_fit(u_boot_console):
	def make_fname(leaf):
	"""Make a temporary filename

	Args:
	leaf: Leaf name of file to create (within temporary directory)
	Return:
	Temporary filename
	"""
	return os.path.join(cons.config.build_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, 'rb') as fd:
	return fd.read()

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

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

	def make_compressed(filename):
	util.run_and_log(cons, ['gzip', '-f', '-k', filename])
	return filename + '.gz'

	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 (list of strings, one for each command issued)
	match: String to search for
	Return:
	String containing unmatched portion of line
	Exceptions:
	ValueError: If match is not found

	>>> find_matching(['first line:10', 'second_line:20'], 'first line:')
	'10'
	>>> find_matching(['first line:10', 'second_line:20'], 'second line')
	Traceback (most recent call last):
	...
	ValueError: Test aborted
	>>> find_matching('first line:10\', 'second_line:20'], 'second_line:')
	'20'
	>>> find_matching('first line:10\', 'second_line:20\nthird_line:30'],
	'third_line:')
	'30'
	"""
	__tracebackhide__ = True
	for line in '\n'.join(text).splitlines():
	pos = line.find(match)
	if pos != -1:
	return line[:pos] + line[pos + len(match):]

	pytest.fail("Expected '%s' but not found in output")

	def check_equal(expected_fname, actual_fname, failure_msg):
	"""Check that a file matches its expected contents

	This is always used on out-buffers whose size is decided by the test
	script anyway, which in some cases may be larger than what we're
	actually looking for. So it's safe to truncate it to the size of the
	expected data.

	Args:
	expected_fname: Filename containing expected contents
	actual_fname: Filename containing actual contents
	failure_msg: Message to print on failure
	"""
	expected_data = read_file(expected_fname)
	actual_data = read_file(actual_fname)
	if len(expected_data) < len(actual_data):
	actual_data = actual_data[:len(expected_data)]
	assert expected_data == actual_data, failure_msg

	def check_not_equal(expected_fname, actual_fname, failure_msg):
	"""Check that a file does not match its expected contents

	Args:
	expected_fname: Filename containing expected contents
	actual_fname: Filename containing actual contents
	failure_msg: Message to print on failure
	"""
	expected_data = read_file(expected_fname)
	actual_data = read_file(actual_fname)
	assert expected_data != actual_data, failure_msg

	def run_fit_test(mkimage):
	"""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
	"""
	# Set up invariant files
	control_dtb = fit_util.make_dtb(cons, base_fdt, 'u-boot')
	kernel = fit_util.make_kernel(cons, 'test-kernel.bin', 'kernel')
	ramdisk = make_ramdisk('test-ramdisk.bin', 'ramdisk')
	loadables1 = fit_util.make_kernel(cons, 'test-loadables1.bin', 'lenrek')
	loadables2 = make_ramdisk('test-loadables2.bin', 'ksidmar')
	kernel_out = make_fname('kernel-out.bin')
	fdt = make_fname('u-boot.dtb')
	fdt_out = make_fname('fdt-out.dtb')
	ramdisk_out = make_fname('ramdisk-out.bin')
	loadables1_out = make_fname('loadables1-out.bin')
	loadables2_out = make_fname('loadables2-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' : fdt,
	'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' : '',

	'loadables1' : loadables1,
	'loadables1_out' : loadables1_out,
	'loadables1_addr' : 0x100000,
	'loadables1_size' : filesize(loadables1),
	'loadables1_load' : '',

	'loadables2' : loadables2,
	'loadables2_out' : loadables2_out,
	'loadables2_addr' : 0x140000,
	'loadables2_size' : filesize(loadables2),
	'loadables2_load' : '',

	'loadables_config' : '',
	'compression' : 'none',
	}

	# Make a basic FIT and a script to load it
	fit = fit_util.make_fit(cons, mkimage, base_its, 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
	cons.config.dtb = control_dtb
	cons.restart_uboot()
	with cons.log.section('Kernel load'):
	output = cons.run_command_list(cmd.splitlines())
	check_equal(kernel, kernel_out, 'Kernel not loaded')
	check_not_equal(control_dtb, fdt_out,
	'FDT loaded but should be ignored')
	check_not_equal(ramdisk, ramdisk_out,
	'Ramdisk loaded but should not be')

	# Find out the offset in the FIT where U-Boot has found the FDT
	line = find_matching(output, '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)
	assert fit_offset == real_fit_offset, (
	'U-Boot loaded FDT from offset %#x, FDT is actually at %#x' %
	(fit_offset, real_fit_offset))

	# Check if bootargs strings substitution works
	output = cons.run_command_list([
	'env set bootargs \\\"\'my_boot_var=${foo}\'\\\"',
	'env set foo bar',
	'bootm prep',
	'env print bootargs'])
	assert 'bootargs="my_boot_var=bar"' in output, "Bootargs strings not substituted"

	# Now a kernel and an FDT
	with cons.log.section('Kernel + FDT load'):
	params['fdt_load'] = 'load = <%#x>;' % params['fdt_addr']
	fit = fit_util.make_fit(cons, mkimage, base_its, params)
	cons.restart_uboot()
	output = cons.run_command_list(cmd.splitlines())
	check_equal(kernel, kernel_out, 'Kernel not loaded')
	check_equal(control_dtb, fdt_out, 'FDT not loaded')
	check_not_equal(ramdisk, ramdisk_out,
	'Ramdisk loaded but should not be')

	# Try a ramdisk
	with cons.log.section('Kernel + FDT + Ramdisk load'):
	params['ramdisk_config'] = 'ramdisk = "ramdisk-1";'
	params['ramdisk_load'] = 'load = <%#x>;' % params['ramdisk_addr']
	fit = fit_util.make_fit(cons, mkimage, base_its, params)
	cons.restart_uboot()
	output = cons.run_command_list(cmd.splitlines())
	check_equal(ramdisk, ramdisk_out, 'Ramdisk not loaded')

	# Configuration with some Loadables
	with cons.log.section('Kernel + FDT + Ramdisk load + Loadables'):
	params['loadables_config'] = 'loadables = "kernel-2", "ramdisk-2";'
	params['loadables1_load'] = ('load = <%#x>;' %
	params['loadables1_addr'])
	params['loadables2_load'] = ('load = <%#x>;' %
	params['loadables2_addr'])
	fit = fit_util.make_fit(cons, mkimage, base_its, params)
	cons.restart_uboot()
	output = cons.run_command_list(cmd.splitlines())
	check_equal(loadables1, loadables1_out,
	'Loadables1 (kernel) not loaded')
	check_equal(loadables2, loadables2_out,
	'Loadables2 (ramdisk) not loaded')

	# Kernel, FDT and Ramdisk all compressed
	with cons.log.section('(Kernel + FDT + Ramdisk) compressed'):
	params['compression'] = 'gzip'
	params['kernel'] = make_compressed(kernel)
	params['fdt'] = make_compressed(fdt)
	params['ramdisk'] = make_compressed(ramdisk)
	fit = fit_util.make_fit(cons, mkimage, base_its, params)
	cons.restart_uboot()
	output = cons.run_command_list(cmd.splitlines())
	check_equal(kernel, kernel_out, 'Kernel not loaded')
	check_equal(control_dtb, fdt_out, 'FDT not loaded')
	check_not_equal(ramdisk, ramdisk_out, 'Ramdisk got decompressed?')
	check_equal(ramdisk + '.gz', ramdisk_out, 'Ramdist not loaded')


	cons = u_boot_console
	# We need to use our own device tree file. Remember to restore it
	# afterwards.
	old_dtb = cons.config.dtb
	try:
	mkimage = cons.config.build_dir + '/tools/mkimage'
	run_fit_test(mkimage)
	finally:
	# Go back to the original U-Boot with the correct dtb.
	cons.config.dtb = old_dtb
	cons.restart_uboot()