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InfiniTime/tools/mcuboot/imgtool/main.py

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#! /usr/bin/env python3
#
# Copyright 2017-2020 Linaro Limited
# Copyright 2019-2020 Arm Limited
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.
import re
import click
import getpass
import imgtool.keys as keys
import sys
from imgtool import image, imgtool_version
from imgtool.version import decode_version
from .keys import (
RSAUsageError, ECDSAUsageError, Ed25519UsageError, X25519UsageError)
MIN_PYTHON_VERSION = (3, 6)
if sys.version_info < MIN_PYTHON_VERSION:
sys.exit("Python %s.%s or newer is required by imgtool."
% MIN_PYTHON_VERSION)
def gen_rsa2048(keyfile, passwd):
keys.RSA.generate().export_private(path=keyfile, passwd=passwd)
def gen_rsa3072(keyfile, passwd):
keys.RSA.generate(key_size=3072).export_private(path=keyfile,
passwd=passwd)
def gen_ecdsa_p256(keyfile, passwd):
keys.ECDSA256P1.generate().export_private(keyfile, passwd=passwd)
def gen_ecdsa_p224(keyfile, passwd):
print("TODO: p-224 not yet implemented")
def gen_ed25519(keyfile, passwd):
keys.Ed25519.generate().export_private(path=keyfile, passwd=passwd)
def gen_x25519(keyfile, passwd):
keys.X25519.generate().export_private(path=keyfile, passwd=passwd)
valid_langs = ['c', 'rust']
keygens = {
'rsa-2048': gen_rsa2048,
'rsa-3072': gen_rsa3072,
'ecdsa-p256': gen_ecdsa_p256,
'ecdsa-p224': gen_ecdsa_p224,
'ed25519': gen_ed25519,
'x25519': gen_x25519,
}
def load_key(keyfile):
# TODO: better handling of invalid pass-phrase
key = keys.load(keyfile)
if key is not None:
return key
passwd = getpass.getpass("Enter key passphrase: ").encode('utf-8')
return keys.load(keyfile, passwd)
def get_password():
while True:
passwd = getpass.getpass("Enter key passphrase: ")
passwd2 = getpass.getpass("Reenter passphrase: ")
if passwd == passwd2:
break
print("Passwords do not match, try again")
# Password must be bytes, always use UTF-8 for consistent
# encoding.
return passwd.encode('utf-8')
@click.option('-p', '--password', is_flag=True,
help='Prompt for password to protect key')
@click.option('-t', '--type', metavar='type', required=True,
type=click.Choice(keygens.keys()), prompt=True,
help='{}'.format('One of: {}'.format(', '.join(keygens.keys()))))
@click.option('-k', '--key', metavar='filename', required=True)
@click.command(help='Generate pub/private keypair')
def keygen(type, key, password):
password = get_password() if password else None
keygens[type](key, password)
@click.option('-l', '--lang', metavar='lang', default=valid_langs[0],
type=click.Choice(valid_langs))
@click.option('-k', '--key', metavar='filename', required=True)
@click.command(help='Dump public key from keypair')
def getpub(key, lang):
key = load_key(key)
if key is None:
print("Invalid passphrase")
elif lang == 'c':
key.emit_c_public()
elif lang == 'rust':
key.emit_rust_public()
else:
raise ValueError("BUG: should never get here!")
@click.option('--minimal', default=False, is_flag=True,
help='Reduce the size of the dumped private key to include only '
'the minimum amount of data required to decrypt. This '
'might require changes to the build config. Check the docs!'
)
@click.option('-k', '--key', metavar='filename', required=True)
@click.command(help='Dump private key from keypair')
def getpriv(key, minimal):
key = load_key(key)
if key is None:
print("Invalid passphrase")
try:
key.emit_private(minimal)
except (RSAUsageError, ECDSAUsageError, Ed25519UsageError,
X25519UsageError) as e:
raise click.UsageError(e)
@click.argument('imgfile')
@click.option('-k', '--key', metavar='filename')
@click.command(help="Check that signed image can be verified by given key")
def verify(key, imgfile):
key = load_key(key) if key else None
ret, version = image.Image.verify(imgfile, key)
if ret == image.VerifyResult.OK:
print("Image was correctly validated")
print("Image version: {}.{}.{}+{}".format(*version))
return
elif ret == image.VerifyResult.INVALID_MAGIC:
print("Invalid image magic; is this an MCUboot image?")
elif ret == image.VerifyResult.INVALID_TLV_INFO_MAGIC:
print("Invalid TLV info magic; is this an MCUboot image?")
elif ret == image.VerifyResult.INVALID_HASH:
print("Image has an invalid sha256 digest")
elif ret == image.VerifyResult.INVALID_SIGNATURE:
print("No signature found for the given key")
else:
print("Unknown return code: {}".format(ret))
sys.exit(1)
def validate_version(ctx, param, value):
try:
decode_version(value)
return value
except ValueError as e:
raise click.BadParameter("{}".format(e))
def validate_security_counter(ctx, param, value):
if value is not None:
if value.lower() == 'auto':
return 'auto'
else:
try:
return int(value, 0)
except ValueError:
raise click.BadParameter(
"{} is not a valid integer. Please use code literals "
"prefixed with 0b/0B, 0o/0O, or 0x/0X as necessary."
.format(value))
def validate_header_size(ctx, param, value):
min_hdr_size = image.IMAGE_HEADER_SIZE
if value < min_hdr_size:
raise click.BadParameter(
"Minimum value for -H/--header-size is {}".format(min_hdr_size))
return value
def get_dependencies(ctx, param, value):
if value is not None:
versions = []
images = re.findall(r"\((\d+)", value)
if len(images) == 0:
raise click.BadParameter(
"Image dependency format is invalid: {}".format(value))
raw_versions = re.findall(r",\s*([0-9.+]+)\)", value)
if len(images) != len(raw_versions):
raise click.BadParameter(
'''There's a mismatch between the number of dependency images
and versions in: {}'''.format(value))
for raw_version in raw_versions:
try:
versions.append(decode_version(raw_version))
except ValueError as e:
raise click.BadParameter("{}".format(e))
dependencies = dict()
dependencies[image.DEP_IMAGES_KEY] = images
dependencies[image.DEP_VERSIONS_KEY] = versions
return dependencies
class BasedIntParamType(click.ParamType):
name = 'integer'
def convert(self, value, param, ctx):
try:
return int(value, 0)
except ValueError:
self.fail('%s is not a valid integer. Please use code literals '
'prefixed with 0b/0B, 0o/0O, or 0x/0X as necessary.'
% value, param, ctx)
@click.argument('outfile')
@click.argument('infile')
@click.option('-R', '--erased-val', type=click.Choice(['0', '0xff']),
required=False,
help='The value that is read back from erased flash.')
@click.option('-x', '--hex-addr', type=BasedIntParamType(), required=False,
help='Adjust address in hex output file.')
@click.option('-L', '--load-addr', type=BasedIntParamType(), required=False,
help='Load address for image when it should run from RAM.')
@click.option('--save-enctlv', default=False, is_flag=True,
help='When upgrading, save encrypted key TLVs instead of plain '
'keys. Enable when BOOT_SWAP_SAVE_ENCTLV config option '
'was set.')
@click.option('-E', '--encrypt', metavar='filename',
help='Encrypt image using the provided public key')
@click.option('-e', '--endian', type=click.Choice(['little', 'big']),
default='little', help="Select little or big endian")
@click.option('--overwrite-only', default=False, is_flag=True,
help='Use overwrite-only instead of swap upgrades')
@click.option('--boot-record', metavar='sw_type', help='Create CBOR encoded '
'boot record TLV. The sw_type represents the role of the '
'software component (e.g. CoFM for coprocessor firmware). '
'[max. 12 characters]')
@click.option('-M', '--max-sectors', type=int,
help='When padding allow for this amount of sectors (defaults '
'to 128)')
@click.option('--confirm', default=False, is_flag=True,
help='When padding the image, mark it as confirmed')
@click.option('--pad', default=False, is_flag=True,
help='Pad image to --slot-size bytes, adding trailer magic')
@click.option('-S', '--slot-size', type=BasedIntParamType(), required=True,
help='Size of the slot where the image will be written')
@click.option('--pad-header', default=False, is_flag=True,
help='Add --header-size zeroed bytes at the beginning of the '
'image')
@click.option('-H', '--header-size', callback=validate_header_size,
type=BasedIntParamType(), required=True)
@click.option('--pad-sig', default=False, is_flag=True,
help='Add 0-2 bytes of padding to ECDSA signature '
'(for mcuboot <1.5)')
@click.option('-d', '--dependencies', callback=get_dependencies,
required=False, help='''Add dependence on another image, format:
"(<image_ID>,<image_version>), ... "''')
@click.option('-s', '--security-counter', callback=validate_security_counter,
help='Specify the value of security counter. Use the `auto` '
'keyword to automatically generate it from the image version.')
@click.option('-v', '--version', callback=validate_version, required=True)
@click.option('--align', type=click.Choice(['1', '2', '4', '8']),
required=True)
@click.option('--public-key-format', type=click.Choice(['hash', 'full']),
default='hash', help='In what format to add the public key to '
'the image manifest: full key or hash of the key.')
@click.option('-k', '--key', metavar='filename')
@click.command(help='''Create a signed or unsigned image\n
INFILE and OUTFILE are parsed as Intel HEX if the params have
.hex extension, otherwise binary format is used''')
def sign(key, public_key_format, align, version, pad_sig, header_size,
pad_header, slot_size, pad, confirm, max_sectors, overwrite_only,
endian, encrypt, infile, outfile, dependencies, load_addr, hex_addr,
erased_val, save_enctlv, security_counter, boot_record):
img = image.Image(version=decode_version(version), header_size=header_size,
pad_header=pad_header, pad=pad, confirm=confirm,
align=int(align), slot_size=slot_size,
max_sectors=max_sectors, overwrite_only=overwrite_only,
endian=endian, load_addr=load_addr, erased_val=erased_val,
save_enctlv=save_enctlv,
security_counter=security_counter)
img.load(infile)
key = load_key(key) if key else None
enckey = load_key(encrypt) if encrypt else None
if enckey and key:
if ((isinstance(key, keys.ECDSA256P1) and
not isinstance(enckey, keys.ECDSA256P1Public))
or (isinstance(key, keys.RSA) and
not isinstance(enckey, keys.RSAPublic))):
# FIXME
raise click.UsageError("Signing and encryption must use the same "
"type of key")
if pad_sig and hasattr(key, 'pad_sig'):
key.pad_sig = True
img.create(key, public_key_format, enckey, dependencies, boot_record)
img.save(outfile, hex_addr)
class AliasesGroup(click.Group):
_aliases = {
"create": "sign",
}
def list_commands(self, ctx):
cmds = [k for k in self.commands]
aliases = [k for k in self._aliases]
return sorted(cmds + aliases)
def get_command(self, ctx, cmd_name):
rv = click.Group.get_command(self, ctx, cmd_name)
if rv is not None:
return rv
if cmd_name in self._aliases:
return click.Group.get_command(self, ctx, self._aliases[cmd_name])
return None
@click.command(help='Print imgtool version information')
def version():
print(imgtool_version)
@click.command(cls=AliasesGroup,
context_settings=dict(help_option_names=['-h', '--help']))
def imgtool():
pass
imgtool.add_command(keygen)
imgtool.add_command(getpub)
imgtool.add_command(getpriv)
imgtool.add_command(verify)
imgtool.add_command(sign)
imgtool.add_command(version)
if __name__ == '__main__':
imgtool()