blob: 184c8778d23f7643cea57b011cb63379392b6958 [file] [log] [blame]
#
# SPDX-License-Identifier: MIT
#
from oeqa.selftest.case import OESelftestTestCase
from oeqa.utils.commands import runCmd, bitbake, get_bb_var, runqemu
import os
import json
import re
class FitImageTests(OESelftestTestCase):
def test_fit_image(self):
"""
Summary: Check if FIT image and Image Tree Source (its) are built
and the Image Tree Source has the correct fields.
Expected: 1. fitImage and fitImage-its can be built
2. The type, load address, entrypoint address and
default values of kernel and ramdisk are as expected
in the Image Tree Source. Not all the fields are tested,
only the key fields that wont vary between different
architectures.
Product: oe-core
Author: Usama Arif <usama.arif@arm.com>
"""
config = """
# Enable creation of fitImage
KERNEL_IMAGETYPE = "Image"
KERNEL_IMAGETYPES += " fitImage "
KERNEL_CLASSES = " kernel-fitimage "
# RAM disk variables including load address and entrypoint for kernel and RAM disk
IMAGE_FSTYPES += "cpio.gz"
INITRAMFS_IMAGE = "core-image-minimal"
UBOOT_RD_LOADADDRESS = "0x88000000"
UBOOT_RD_ENTRYPOINT = "0x88000000"
UBOOT_LOADADDRESS = "0x80080000"
UBOOT_ENTRYPOINT = "0x80080000"
FIT_DESC = "A model description"
"""
self.write_config(config)
# fitImage is created as part of linux recipe
bitbake("virtual/kernel")
image_type = "core-image-minimal"
deploy_dir_image = get_bb_var('DEPLOY_DIR_IMAGE')
machine = get_bb_var('MACHINE')
fitimage_its_path = os.path.join(deploy_dir_image,
"fitImage-its-%s-%s-%s" % (image_type, machine, machine))
fitimage_path = os.path.join(deploy_dir_image,
"fitImage-%s-%s-%s" % (image_type, machine, machine))
self.assertTrue(os.path.exists(fitimage_its_path),
"%s image tree source doesn't exist" % (fitimage_its_path))
self.assertTrue(os.path.exists(fitimage_path),
"%s FIT image doesn't exist" % (fitimage_path))
# Check that the type, load address, entrypoint address and default
# values for kernel and ramdisk in Image Tree Source are as expected.
# The order of fields in the below array is important. Not all the
# fields are tested, only the key fields that wont vary between
# different architectures.
its_field_check = [
'description = "A model description";',
'type = "kernel";',
'load = <0x80080000>;',
'entry = <0x80080000>;',
'type = "ramdisk";',
'load = <0x88000000>;',
'entry = <0x88000000>;',
'default = "conf-1";',
'kernel = "kernel-1";',
'ramdisk = "ramdisk-1";'
]
with open(fitimage_its_path) as its_file:
field_index = 0
for line in its_file:
if field_index == len(its_field_check):
break
if its_field_check[field_index] in line:
field_index +=1
if field_index != len(its_field_check): # if its equal, the test passed
self.assertTrue(field_index == len(its_field_check),
"Fields in Image Tree Source File %s did not match, error in finding %s"
% (fitimage_its_path, its_field_check[field_index]))
def test_sign_fit_image(self):
"""
Summary: Check if FIT image and Image Tree Source (its) are created
and signed correctly.
Expected: 1) its and FIT image are built successfully
2) Scanning the its file indicates signing is enabled
as requested by UBOOT_SIGN_ENABLE (using keys generated
via FIT_GENERATE_KEYS)
3) Dumping the FIT image indicates signature values
are present (including for images as enabled via
FIT_SIGN_INDIVIDUAL)
4) Examination of the do_assemble_fitimage runfile/logfile
indicate that UBOOT_MKIMAGE, UBOOT_MKIMAGE_SIGN and
UBOOT_MKIMAGE_SIGN_ARGS are working as expected.
Product: oe-core
Author: Paul Eggleton <paul.eggleton@microsoft.com> based upon
work by Usama Arif <usama.arif@arm.com>
"""
config = """
# Enable creation of fitImage
MACHINE = "beaglebone-yocto"
KERNEL_IMAGETYPES += " fitImage "
KERNEL_CLASSES = " kernel-fitimage test-mkimage-wrapper "
UBOOT_SIGN_ENABLE = "1"
FIT_GENERATE_KEYS = "1"
UBOOT_SIGN_KEYDIR = "${TOPDIR}/signing-keys"
UBOOT_SIGN_IMG_KEYNAME = "img-oe-selftest"
UBOOT_SIGN_KEYNAME = "cfg-oe-selftest"
FIT_SIGN_INDIVIDUAL = "1"
UBOOT_MKIMAGE_SIGN_ARGS = "-c 'a smart comment'"
"""
self.write_config(config)
# fitImage is created as part of linux recipe
bitbake("virtual/kernel")
image_type = "core-image-minimal"
deploy_dir_image = get_bb_var('DEPLOY_DIR_IMAGE')
machine = get_bb_var('MACHINE')
fitimage_its_path = os.path.join(deploy_dir_image,
"fitImage-its-%s" % (machine,))
fitimage_path = os.path.join(deploy_dir_image,
"fitImage-%s.bin" % (machine,))
self.assertTrue(os.path.exists(fitimage_its_path),
"%s image tree source doesn't exist" % (fitimage_its_path))
self.assertTrue(os.path.exists(fitimage_path),
"%s FIT image doesn't exist" % (fitimage_path))
req_itspaths = [
['/', 'images', 'kernel-1'],
['/', 'images', 'kernel-1', 'signature-1'],
['/', 'images', 'fdt-am335x-boneblack.dtb'],
['/', 'images', 'fdt-am335x-boneblack.dtb', 'signature-1'],
['/', 'configurations', 'conf-am335x-boneblack.dtb'],
['/', 'configurations', 'conf-am335x-boneblack.dtb', 'signature-1'],
]
itspath = []
itspaths = []
linect = 0
sigs = {}
with open(fitimage_its_path) as its_file:
linect += 1
for line in its_file:
line = line.strip()
if line.endswith('};'):
itspath.pop()
elif line.endswith('{'):
itspath.append(line[:-1].strip())
itspaths.append(itspath[:])
elif itspath and itspath[-1] == 'signature-1':
itsdotpath = '.'.join(itspath)
if not itsdotpath in sigs:
sigs[itsdotpath] = {}
if not '=' in line or not line.endswith(';'):
self.fail('Unexpected formatting in %s sigs section line %d:%s' % (fitimage_its_path, linect, line))
key, value = line.split('=', 1)
sigs[itsdotpath][key.rstrip()] = value.lstrip().rstrip(';')
for reqpath in req_itspaths:
if not reqpath in itspaths:
self.fail('Missing section in its file: %s' % reqpath)
reqsigvalues_image = {
'algo': '"sha256,rsa2048"',
'key-name-hint': '"img-oe-selftest"',
}
reqsigvalues_config = {
'algo': '"sha256,rsa2048"',
'key-name-hint': '"cfg-oe-selftest"',
'sign-images': '"kernel", "fdt"',
}
for itspath, values in sigs.items():
if 'conf-' in itspath:
reqsigvalues = reqsigvalues_config
else:
reqsigvalues = reqsigvalues_image
for reqkey, reqvalue in reqsigvalues.items():
value = values.get(reqkey, None)
if value is None:
self.fail('Missing key "%s" in its file signature section %s' % (reqkey, itspath))
self.assertEqual(value, reqvalue)
# Dump the image to see if it really got signed
bitbake("u-boot-tools-native -c addto_recipe_sysroot")
result = runCmd('bitbake -e u-boot-tools-native | grep ^RECIPE_SYSROOT_NATIVE=')
recipe_sysroot_native = result.output.split('=')[1].strip('"')
dumpimage_path = os.path.join(recipe_sysroot_native, 'usr', 'bin', 'dumpimage')
result = runCmd('%s -l %s' % (dumpimage_path, fitimage_path))
in_signed = None
signed_sections = {}
for line in result.output.splitlines():
if line.startswith((' Configuration', ' Image')):
in_signed = re.search('\((.*)\)', line).groups()[0]
elif re.match('^ *', line) in (' ', ''):
in_signed = None
elif in_signed:
if not in_signed in signed_sections:
signed_sections[in_signed] = {}
key, value = line.split(':', 1)
signed_sections[in_signed][key.strip()] = value.strip()
self.assertIn('kernel-1', signed_sections)
self.assertIn('fdt-am335x-boneblack.dtb', signed_sections)
self.assertIn('conf-am335x-boneblack.dtb', signed_sections)
for signed_section, values in signed_sections.items():
value = values.get('Sign algo', None)
if signed_section.startswith("conf"):
self.assertEqual(value, 'sha256,rsa2048:cfg-oe-selftest', 'Signature algorithm for %s not expected value' % signed_section)
else:
self.assertEqual(value, 'sha256,rsa2048:img-oe-selftest', 'Signature algorithm for %s not expected value' % signed_section)
value = values.get('Sign value', None)
self.assertEqual(len(value), 512, 'Signature value for section %s not expected length' % signed_section)
# Check for UBOOT_MKIMAGE_SIGN_ARGS
result = runCmd('bitbake -e virtual/kernel | grep ^T=')
tempdir = result.output.split('=', 1)[1].strip().strip('')
result = runCmd('grep "a smart comment" %s/run.do_assemble_fitimage' % tempdir, ignore_status=True)
self.assertEqual(result.status, 0, 'UBOOT_MKIMAGE_SIGN_ARGS value did not get used')
# Check for evidence of test-mkimage-wrapper class
result = runCmd('grep "### uboot-mkimage wrapper message" %s/log.do_assemble_fitimage' % tempdir, ignore_status=True)
self.assertEqual(result.status, 0, 'UBOOT_MKIMAGE did not work')
result = runCmd('grep "### uboot-mkimage signing wrapper message" %s/log.do_assemble_fitimage' % tempdir, ignore_status=True)
self.assertEqual(result.status, 0, 'UBOOT_MKIMAGE_SIGN did not work')
def test_uboot_fit_image(self):
"""
Summary: Check if Uboot FIT image and Image Tree Source
(its) are built and the Image Tree Source has the
correct fields.
Expected: 1. u-boot-fitImage and u-boot-its can be built
2. The type, load address, entrypoint address and
default values of U-boot image are correct in the
Image Tree Source. Not all the fields are tested,
only the key fields that wont vary between
different architectures.
Product: oe-core
Author: Klaus Heinrich Kiwi <klaus@linux.vnet.ibm.com>
based on work by Usama Arif <usama.arif@arm.com>
"""
config = """
# We need at least CONFIG_SPL_LOAD_FIT and CONFIG_SPL_OF_CONTROL set
MACHINE = "qemuarm"
UBOOT_MACHINE = "am57xx_evm_defconfig"
SPL_BINARY = "MLO"
# Enable creation of the U-Boot fitImage
UBOOT_FITIMAGE_ENABLE = "1"
# (U-boot) fitImage properties
UBOOT_LOADADDRESS = "0x80080000"
UBOOT_ENTRYPOINT = "0x80080000"
UBOOT_FIT_DESC = "A model description"
# Enable creation of Kernel fitImage
KERNEL_IMAGETYPES += " fitImage "
KERNEL_CLASSES = " kernel-fitimage"
UBOOT_SIGN_ENABLE = "1"
FIT_GENERATE_KEYS = "1"
UBOOT_SIGN_KEYDIR = "${TOPDIR}/signing-keys"
UBOOT_SIGN_IMG_KEYNAME = "img-oe-selftest"
UBOOT_SIGN_KEYNAME = "cfg-oe-selftest"
FIT_SIGN_INDIVIDUAL = "1"
"""
self.write_config(config)
# The U-Boot fitImage is created as part of linux recipe
bitbake("virtual/kernel")
deploy_dir_image = get_bb_var('DEPLOY_DIR_IMAGE')
machine = get_bb_var('MACHINE')
fitimage_its_path = os.path.join(deploy_dir_image,
"u-boot-its-%s" % (machine,))
fitimage_path = os.path.join(deploy_dir_image,
"u-boot-fitImage-%s" % (machine,))
self.assertTrue(os.path.exists(fitimage_its_path),
"%s image tree source doesn't exist" % (fitimage_its_path))
self.assertTrue(os.path.exists(fitimage_path),
"%s FIT image doesn't exist" % (fitimage_path))
# Check that the type, load address, entrypoint address and default
# values for kernel and ramdisk in Image Tree Source are as expected.
# The order of fields in the below array is important. Not all the
# fields are tested, only the key fields that wont vary between
# different architectures.
its_field_check = [
'description = "A model description";',
'type = "standalone";',
'load = <0x80080000>;',
'entry = <0x80080000>;',
'default = "conf";',
'loadables = "uboot";',
'fdt = "fdt";'
]
with open(fitimage_its_path) as its_file:
field_index = 0
for line in its_file:
if field_index == len(its_field_check):
break
if its_field_check[field_index] in line:
field_index +=1
if field_index != len(its_field_check): # if its equal, the test passed
self.assertTrue(field_index == len(its_field_check),
"Fields in Image Tree Source File %s did not match, error in finding %s"
% (fitimage_its_path, its_field_check[field_index]))
def test_uboot_sign_fit_image(self):
"""
Summary: Check if Uboot FIT image and Image Tree Source
(its) are built and the Image Tree Source has the
correct fields, in the scenario where the Kernel
is also creating/signing it's fitImage.
Expected: 1. u-boot-fitImage and u-boot-its can be built
2. The type, load address, entrypoint address and
default values of U-boot image are correct in the
Image Tree Source. Not all the fields are tested,
only the key fields that wont vary between
different architectures.
Product: oe-core
Author: Klaus Heinrich Kiwi <klaus@linux.vnet.ibm.com>
based on work by Usama Arif <usama.arif@arm.com>
"""
config = """
# We need at least CONFIG_SPL_LOAD_FIT and CONFIG_SPL_OF_CONTROL set
MACHINE = "qemuarm"
UBOOT_MACHINE = "am57xx_evm_defconfig"
SPL_BINARY = "MLO"
# Enable creation of the U-Boot fitImage
UBOOT_FITIMAGE_ENABLE = "1"
# (U-boot) fitImage properties
UBOOT_LOADADDRESS = "0x80080000"
UBOOT_ENTRYPOINT = "0x80080000"
UBOOT_FIT_DESC = "A model description"
KERNEL_IMAGETYPES += " fitImage "
KERNEL_CLASSES = " kernel-fitimage test-mkimage-wrapper "
UBOOT_SIGN_ENABLE = "1"
FIT_GENERATE_KEYS = "1"
UBOOT_SIGN_KEYDIR = "${TOPDIR}/signing-keys"
UBOOT_SIGN_IMG_KEYNAME = "img-oe-selftest"
UBOOT_SIGN_KEYNAME = "cfg-oe-selftest"
FIT_SIGN_INDIVIDUAL = "1"
UBOOT_MKIMAGE_SIGN_ARGS = "-c 'a smart U-Boot comment'"
"""
self.write_config(config)
# The U-Boot fitImage is created as part of linux recipe
bitbake("virtual/kernel")
deploy_dir_image = get_bb_var('DEPLOY_DIR_IMAGE')
machine = get_bb_var('MACHINE')
fitimage_its_path = os.path.join(deploy_dir_image,
"u-boot-its-%s" % (machine,))
fitimage_path = os.path.join(deploy_dir_image,
"u-boot-fitImage-%s" % (machine,))
self.assertTrue(os.path.exists(fitimage_its_path),
"%s image tree source doesn't exist" % (fitimage_its_path))
self.assertTrue(os.path.exists(fitimage_path),
"%s FIT image doesn't exist" % (fitimage_path))
# Check that the type, load address, entrypoint address and default
# values for kernel and ramdisk in Image Tree Source are as expected.
# The order of fields in the below array is important. Not all the
# fields are tested, only the key fields that wont vary between
# different architectures.
its_field_check = [
'description = "A model description";',
'type = "standalone";',
'load = <0x80080000>;',
'entry = <0x80080000>;',
'default = "conf";',
'loadables = "uboot";',
'fdt = "fdt";'
]
with open(fitimage_its_path) as its_file:
field_index = 0
for line in its_file:
if field_index == len(its_field_check):
break
if its_field_check[field_index] in line:
field_index +=1
if field_index != len(its_field_check): # if its equal, the test passed
self.assertTrue(field_index == len(its_field_check),
"Fields in Image Tree Source File %s did not match, error in finding %s"
% (fitimage_its_path, its_field_check[field_index]))
def test_sign_standalone_uboot_fit_image(self):
"""
Summary: Check if U-Boot FIT image and Image Tree Source (its) are
created and signed correctly for the scenario where only
the U-Boot proper fitImage is being created and signed.
Expected: 1) U-Boot its and FIT image are built successfully
2) Scanning the its file indicates signing is enabled
as requested by SPL_SIGN_ENABLE (using keys generated
via UBOOT_FIT_GENERATE_KEYS)
3) Dumping the FIT image indicates signature values
are present
4) Examination of the do_uboot_assemble_fitimage
runfile/logfile indicate that UBOOT_MKIMAGE, UBOOT_MKIMAGE_SIGN
and SPL_MKIMAGE_SIGN_ARGS are working as expected.
Product: oe-core
Author: Klaus Heinrich Kiwi <klaus@linux.vnet.ibm.com> based upon
work by Paul Eggleton <paul.eggleton@microsoft.com> and
Usama Arif <usama.arif@arm.com>
"""
config = """
# There's no U-boot deconfig with CONFIG_FIT_SIGNATURE yet, so we need at
# least CONFIG_SPL_LOAD_FIT and CONFIG_SPL_OF_CONTROL set
MACHINE = "qemuarm"
UBOOT_MACHINE = "am57xx_evm_defconfig"
SPL_BINARY = "MLO"
# The kernel-fitimage class is a dependency even if we're only
# creating/signing the U-Boot fitImage
KERNEL_CLASSES = " kernel-fitimage test-mkimage-wrapper "
# Enable creation and signing of the U-Boot fitImage
UBOOT_FITIMAGE_ENABLE = "1"
SPL_SIGN_ENABLE = "1"
SPL_SIGN_KEYNAME = "spl-oe-selftest"
SPL_SIGN_KEYDIR = "${TOPDIR}/signing-keys"
UBOOT_DTB_BINARY = "u-boot.dtb"
UBOOT_ENTRYPOINT = "0x80000000"
UBOOT_LOADADDRESS = "0x80000000"
UBOOT_DTB_LOADADDRESS = "0x82000000"
UBOOT_ARCH = "arm"
SPL_MKIMAGE_DTCOPTS = "-I dts -O dtb -p 2000"
SPL_MKIMAGE_SIGN_ARGS = "-c 'a smart U-Boot comment'"
UBOOT_EXTLINUX = "0"
UBOOT_FIT_GENERATE_KEYS = "1"
UBOOT_FIT_HASH_ALG = "sha256"
"""
self.write_config(config)
# The U-Boot fitImage is created as part of linux recipe
bitbake("virtual/kernel")
image_type = "core-image-minimal"
deploy_dir_image = get_bb_var('DEPLOY_DIR_IMAGE')
machine = get_bb_var('MACHINE')
fitimage_its_path = os.path.join(deploy_dir_image,
"u-boot-its-%s" % (machine,))
fitimage_path = os.path.join(deploy_dir_image,
"u-boot-fitImage-%s" % (machine,))
self.assertTrue(os.path.exists(fitimage_its_path),
"%s image tree source doesn't exist" % (fitimage_its_path))
self.assertTrue(os.path.exists(fitimage_path),
"%s FIT image doesn't exist" % (fitimage_path))
req_itspaths = [
['/', 'images', 'uboot'],
['/', 'images', 'uboot', 'signature'],
['/', 'images', 'fdt'],
['/', 'images', 'fdt', 'signature'],
]
itspath = []
itspaths = []
linect = 0
sigs = {}
with open(fitimage_its_path) as its_file:
linect += 1
for line in its_file:
line = line.strip()
if line.endswith('};'):
itspath.pop()
elif line.endswith('{'):
itspath.append(line[:-1].strip())
itspaths.append(itspath[:])
elif itspath and itspath[-1] == 'signature':
itsdotpath = '.'.join(itspath)
if not itsdotpath in sigs:
sigs[itsdotpath] = {}
if not '=' in line or not line.endswith(';'):
self.fail('Unexpected formatting in %s sigs section line %d:%s' % (fitimage_its_path, linect, line))
key, value = line.split('=', 1)
sigs[itsdotpath][key.rstrip()] = value.lstrip().rstrip(';')
for reqpath in req_itspaths:
if not reqpath in itspaths:
self.fail('Missing section in its file: %s' % reqpath)
reqsigvalues_image = {
'algo': '"sha256,rsa2048"',
'key-name-hint': '"spl-oe-selftest"',
}
for itspath, values in sigs.items():
reqsigvalues = reqsigvalues_image
for reqkey, reqvalue in reqsigvalues.items():
value = values.get(reqkey, None)
if value is None:
self.fail('Missing key "%s" in its file signature section %s' % (reqkey, itspath))
self.assertEqual(value, reqvalue)
# Dump the image to see if it really got signed
bitbake("u-boot-tools-native -c addto_recipe_sysroot")
result = runCmd('bitbake -e u-boot-tools-native | grep ^RECIPE_SYSROOT_NATIVE=')
recipe_sysroot_native = result.output.split('=')[1].strip('"')
dumpimage_path = os.path.join(recipe_sysroot_native, 'usr', 'bin', 'dumpimage')
result = runCmd('%s -l %s' % (dumpimage_path, fitimage_path))
in_signed = None
signed_sections = {}
for line in result.output.splitlines():
if line.startswith((' Image')):
in_signed = re.search('\((.*)\)', line).groups()[0]
elif re.match(' \w', line):
in_signed = None
elif in_signed:
if not in_signed in signed_sections:
signed_sections[in_signed] = {}
key, value = line.split(':', 1)
signed_sections[in_signed][key.strip()] = value.strip()
self.assertIn('uboot', signed_sections)
self.assertIn('fdt', signed_sections)
for signed_section, values in signed_sections.items():
value = values.get('Sign algo', None)
self.assertEqual(value, 'sha256,rsa2048:spl-oe-selftest', 'Signature algorithm for %s not expected value' % signed_section)
value = values.get('Sign value', None)
self.assertEqual(len(value), 512, 'Signature value for section %s not expected length' % signed_section)
# Check for SPL_MKIMAGE_SIGN_ARGS
result = runCmd('bitbake -e virtual/kernel | grep ^T=')
tempdir = result.output.split('=', 1)[1].strip().strip('')
result = runCmd('grep "a smart U-Boot comment" %s/run.do_uboot_assemble_fitimage' % tempdir, ignore_status=True)
self.assertEqual(result.status, 0, 'SPL_MKIMAGE_SIGN_ARGS value did not get used')
# Check for evidence of test-mkimage-wrapper class
result = runCmd('grep "### uboot-mkimage wrapper message" %s/log.do_uboot_assemble_fitimage' % tempdir, ignore_status=True)
self.assertEqual(result.status, 0, 'UBOOT_MKIMAGE did not work')
result = runCmd('grep "### uboot-mkimage signing wrapper message" %s/log.do_uboot_assemble_fitimage' % tempdir, ignore_status=True)
self.assertEqual(result.status, 0, 'UBOOT_MKIMAGE_SIGN did not work')
def test_sign_cascaded_uboot_fit_image(self):
"""
Summary: Check if U-Boot FIT image and Image Tree Source (its) are
created and signed correctly for the scenario where both
U-Boot proper and Kernel fitImages are being created and
signed.
Expected: 1) U-Boot its and FIT image are built successfully
2) Scanning the its file indicates signing is enabled
as requested by SPL_SIGN_ENABLE (using keys generated
via UBOOT_FIT_GENERATE_KEYS)
3) Dumping the FIT image indicates signature values
are present
4) Examination of the do_uboot_assemble_fitimage
runfile/logfile indicate that UBOOT_MKIMAGE, UBOOT_MKIMAGE_SIGN
and SPL_MKIMAGE_SIGN_ARGS are working as expected.
Product: oe-core
Author: Klaus Heinrich Kiwi <klaus@linux.vnet.ibm.com> based upon
work by Paul Eggleton <paul.eggleton@microsoft.com> and
Usama Arif <usama.arif@arm.com>
"""
config = """
# There's no U-boot deconfig with CONFIG_FIT_SIGNATURE yet, so we need at
# least CONFIG_SPL_LOAD_FIT and CONFIG_SPL_OF_CONTROL set
MACHINE = "qemuarm"
UBOOT_MACHINE = "am57xx_evm_defconfig"
SPL_BINARY = "MLO"
# Enable creation and signing of the U-Boot fitImage
UBOOT_FITIMAGE_ENABLE = "1"
SPL_SIGN_ENABLE = "1"
SPL_SIGN_KEYNAME = "spl-cascaded-oe-selftest"
SPL_SIGN_KEYDIR = "${TOPDIR}/signing-keys"
UBOOT_DTB_BINARY = "u-boot.dtb"
UBOOT_ENTRYPOINT = "0x80000000"
UBOOT_LOADADDRESS = "0x80000000"
UBOOT_MKIMAGE_DTCOPTS = "-I dts -O dtb -p 2000"
UBOOT_MKIMAGE_SIGN_ARGS = "-c 'a smart cascaded Kernel comment'"
UBOOT_DTB_LOADADDRESS = "0x82000000"
UBOOT_ARCH = "arm"
SPL_MKIMAGE_DTCOPTS = "-I dts -O dtb -p 2000"
SPL_MKIMAGE_SIGN_ARGS = "-c 'a smart cascaded U-Boot comment'"
UBOOT_EXTLINUX = "0"
UBOOT_FIT_GENERATE_KEYS = "1"
UBOOT_FIT_HASH_ALG = "sha256"
KERNEL_IMAGETYPES += " fitImage "
KERNEL_CLASSES = " kernel-fitimage test-mkimage-wrapper "
UBOOT_SIGN_ENABLE = "1"
FIT_GENERATE_KEYS = "1"
UBOOT_SIGN_KEYDIR = "${TOPDIR}/signing-keys"
UBOOT_SIGN_IMG_KEYNAME = "img-oe-selftest"
UBOOT_SIGN_KEYNAME = "cfg-oe-selftest"
FIT_SIGN_INDIVIDUAL = "1"
"""
self.write_config(config)
# The U-Boot fitImage is created as part of linux recipe
bitbake("virtual/kernel")
image_type = "core-image-minimal"
deploy_dir_image = get_bb_var('DEPLOY_DIR_IMAGE')
machine = get_bb_var('MACHINE')
fitimage_its_path = os.path.join(deploy_dir_image,
"u-boot-its-%s" % (machine,))
fitimage_path = os.path.join(deploy_dir_image,
"u-boot-fitImage-%s" % (machine,))
self.assertTrue(os.path.exists(fitimage_its_path),
"%s image tree source doesn't exist" % (fitimage_its_path))
self.assertTrue(os.path.exists(fitimage_path),
"%s FIT image doesn't exist" % (fitimage_path))
req_itspaths = [
['/', 'images', 'uboot'],
['/', 'images', 'uboot', 'signature'],
['/', 'images', 'fdt'],
['/', 'images', 'fdt', 'signature'],
]
itspath = []
itspaths = []
linect = 0
sigs = {}
with open(fitimage_its_path) as its_file:
linect += 1
for line in its_file:
line = line.strip()
if line.endswith('};'):
itspath.pop()
elif line.endswith('{'):
itspath.append(line[:-1].strip())
itspaths.append(itspath[:])
elif itspath and itspath[-1] == 'signature':
itsdotpath = '.'.join(itspath)
if not itsdotpath in sigs:
sigs[itsdotpath] = {}
if not '=' in line or not line.endswith(';'):
self.fail('Unexpected formatting in %s sigs section line %d:%s' % (fitimage_its_path, linect, line))
key, value = line.split('=', 1)
sigs[itsdotpath][key.rstrip()] = value.lstrip().rstrip(';')
for reqpath in req_itspaths:
if not reqpath in itspaths:
self.fail('Missing section in its file: %s' % reqpath)
reqsigvalues_image = {
'algo': '"sha256,rsa2048"',
'key-name-hint': '"spl-cascaded-oe-selftest"',
}
for itspath, values in sigs.items():
reqsigvalues = reqsigvalues_image
for reqkey, reqvalue in reqsigvalues.items():
value = values.get(reqkey, None)
if value is None:
self.fail('Missing key "%s" in its file signature section %s' % (reqkey, itspath))
self.assertEqual(value, reqvalue)
# Dump the image to see if it really got signed
bitbake("u-boot-tools-native -c addto_recipe_sysroot")
result = runCmd('bitbake -e u-boot-tools-native | grep ^RECIPE_SYSROOT_NATIVE=')
recipe_sysroot_native = result.output.split('=')[1].strip('"')
dumpimage_path = os.path.join(recipe_sysroot_native, 'usr', 'bin', 'dumpimage')
result = runCmd('%s -l %s' % (dumpimage_path, fitimage_path))
in_signed = None
signed_sections = {}
for line in result.output.splitlines():
if line.startswith((' Image')):
in_signed = re.search('\((.*)\)', line).groups()[0]
elif re.match(' \w', line):
in_signed = None
elif in_signed:
if not in_signed in signed_sections:
signed_sections[in_signed] = {}
key, value = line.split(':', 1)
signed_sections[in_signed][key.strip()] = value.strip()
self.assertIn('uboot', signed_sections)
self.assertIn('fdt', signed_sections)
for signed_section, values in signed_sections.items():
value = values.get('Sign algo', None)
self.assertEqual(value, 'sha256,rsa2048:spl-cascaded-oe-selftest', 'Signature algorithm for %s not expected value' % signed_section)
value = values.get('Sign value', None)
self.assertEqual(len(value), 512, 'Signature value for section %s not expected length' % signed_section)
# Check for SPL_MKIMAGE_SIGN_ARGS
result = runCmd('bitbake -e virtual/kernel | grep ^T=')
tempdir = result.output.split('=', 1)[1].strip().strip('')
result = runCmd('grep "a smart cascaded U-Boot comment" %s/run.do_uboot_assemble_fitimage' % tempdir, ignore_status=True)
self.assertEqual(result.status, 0, 'SPL_MKIMAGE_SIGN_ARGS value did not get used')
# Check for evidence of test-mkimage-wrapper class
result = runCmd('grep "### uboot-mkimage wrapper message" %s/log.do_uboot_assemble_fitimage' % tempdir, ignore_status=True)
self.assertEqual(result.status, 0, 'UBOOT_MKIMAGE did not work')
result = runCmd('grep "### uboot-mkimage signing wrapper message" %s/log.do_uboot_assemble_fitimage' % tempdir, ignore_status=True)
self.assertEqual(result.status, 0, 'UBOOT_MKIMAGE_SIGN did not work')
def test_initramfs_bundle(self):
"""
Summary: Verifies the content of the initramfs bundle node in the FIT Image Tree Source (its)
The FIT settings are set by the test case.
The machine used is beaglebone-yocto.
Expected: 1. The ITS is generated with initramfs bundle support
2. All the fields in the kernel node are as expected (matching the
conf settings)
3. The kernel is included in all the available configurations and
its hash is included in the configuration signature
Product: oe-core
Author: Abdellatif El Khlifi <abdellatif.elkhlifi@arm.com>
"""
config = """
DISTRO="poky"
MACHINE = "beaglebone-yocto"
INITRAMFS_IMAGE_BUNDLE = "1"
INITRAMFS_IMAGE = "core-image-minimal-initramfs"
INITRAMFS_SCRIPTS = ""
UBOOT_MACHINE = "am335x_evm_defconfig"
KERNEL_CLASSES = " kernel-fitimage "
KERNEL_IMAGETYPES = "fitImage"
UBOOT_SIGN_ENABLE = "1"
UBOOT_SIGN_KEYNAME = "beaglebonekey"
UBOOT_SIGN_KEYDIR ?= "${DEPLOY_DIR_IMAGE}"
UBOOT_DTB_BINARY = "u-boot.dtb"
UBOOT_ENTRYPOINT = "0x80000000"
UBOOT_LOADADDRESS = "0x80000000"
UBOOT_DTB_LOADADDRESS = "0x82000000"
UBOOT_ARCH = "arm"
UBOOT_MKIMAGE_DTCOPTS = "-I dts -O dtb -p 2000"
UBOOT_EXTLINUX = "0"
FIT_GENERATE_KEYS = "1"
KERNEL_IMAGETYPE_REPLACEMENT = "zImage"
FIT_HASH_ALG = "sha256"
"""
self.write_config(config)
# fitImage is created as part of linux recipe
bitbake("virtual/kernel")
image_type = get_bb_var('INITRAMFS_IMAGE')
deploy_dir_image = get_bb_var('DEPLOY_DIR_IMAGE')
machine = get_bb_var('MACHINE')
fitimage_its_path = os.path.join(deploy_dir_image,
"fitImage-its-%s-%s-%s" % (image_type, machine, machine))
fitimage_path = os.path.join(deploy_dir_image,"fitImage")
self.assertTrue(os.path.exists(fitimage_its_path),
"%s image tree source doesn't exist" % (fitimage_its_path))
self.assertTrue(os.path.exists(fitimage_path),
"%s FIT image doesn't exist" % (fitimage_path))
kernel_load = str(get_bb_var('UBOOT_LOADADDRESS'))
kernel_entry = str(get_bb_var('UBOOT_ENTRYPOINT'))
initramfs_bundle_format = str(get_bb_var('KERNEL_IMAGETYPE_REPLACEMENT'))
uboot_arch = str(get_bb_var('UBOOT_ARCH'))
initramfs_bundle = "arch/" + uboot_arch + "/boot/" + initramfs_bundle_format + ".initramfs"
fit_hash_alg = str(get_bb_var('FIT_HASH_ALG'))
its_file = open(fitimage_its_path)
its_lines = [line.strip() for line in its_file.readlines()]
exp_node_lines = [
'kernel-1 {',
'description = "Linux kernel";',
'data = /incbin/("' + initramfs_bundle + '");',
'type = "kernel";',
'arch = "' + uboot_arch + '";',
'os = "linux";',
'compression = "none";',
'load = <' + kernel_load + '>;',
'entry = <' + kernel_entry + '>;',
'hash-1 {',
'algo = "' + fit_hash_alg +'";',
'};',
'};'
]
node_str = exp_node_lines[0]
test_passed = False
print ("checking kernel node\n")
if node_str in its_lines:
node_start_idx = its_lines.index(node_str)
node = its_lines[node_start_idx:(node_start_idx + len(exp_node_lines))]
if node == exp_node_lines:
print("kernel node verified")
else:
self.assertTrue(test_passed == True,"kernel node does not match expectation")
rx_configs = re.compile("^conf-.*")
its_configs = list(filter(rx_configs.match, its_lines))
for cfg_str in its_configs:
cfg_start_idx = its_lines.index(cfg_str)
line_idx = cfg_start_idx + 2
node_end = False
while node_end == False:
if its_lines[line_idx] == "};" and its_lines[line_idx-1] == "};" :
node_end = True
line_idx = line_idx + 1
node = its_lines[cfg_start_idx:line_idx]
print("checking configuration " + cfg_str.rstrip(" {"))
rx_desc_line = re.compile("^description.*1 Linux kernel.*")
if len(list(filter(rx_desc_line.match, node))) != 1:
self.assertTrue(test_passed == True,"kernel keyword not found in the description line")
break
else:
print("kernel keyword found in the description line")
if 'kernel = "kernel-1";' not in node:
self.assertTrue(test_passed == True,"kernel line not found")
break
else:
print("kernel line found")
rx_sign_line = re.compile("^sign-images.*kernel.*")
if len(list(filter(rx_sign_line.match, node))) != 1:
self.assertTrue(test_passed == True,"kernel hash not signed")
break
else:
print("kernel hash signed")
test_passed = True
self.assertTrue(test_passed == True,"Initramfs bundle test success")