tools/releasetools/fsverity_metadata_generator.py - platform/build - Git at Google

 #!/usr/bin/env python
 #
 # Copyright 2021 Google Inc. All rights reserved.
 #
 # 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.

 """
 `fsverity_metadata_generator` generates fsverity metadata and signature to a
 container file

 This actually is a simple wrapper around the `fsverity` program. A file is
 signed by the program which produces the PKCS#7 signature file, merkle tree file
 , and the fsverity_descriptor file. Then the files are packed into a single
 output file so that the information about the signing stays together.

 Currently, the output of this script is used by `fd_server` which is the host-
 side backend of an authfs filesystem. `fd_server` uses this file in case when
 the underlying filesystem (ext4, etc.) on the device doesn't support the
 fsverity feature natively in which case the information is read directly from
 the filesystem using ioctl.
 """

 import argparse
 import os
 import re
 import shutil
 import subprocess
 import sys
 import tempfile
 from struct import *

 class TempDirectory(object):
   def __enter__(self):
     self.name = tempfile.mkdtemp()
     return self.name

   def __exit__(self, *unused):
     shutil.rmtree(self.name)

 class FSVerityMetadataGenerator:
   def __init__(self, fsverity_path):
     self._fsverity_path = fsverity_path

     # Default values for some properties
     self.set_hash_alg("sha256")
     self.set_signature('none')

   def set_key_format(self, key_format):
     self._key_format = key_format

   def set_key(self, key):
     self._key = key

   def set_cert(self, cert):
     self._cert = cert

   def set_hash_alg(self, hash_alg):
     self._hash_alg = hash_alg

   def set_signature(self, signature):
     self._signature = signature

   def _raw_signature(pkcs7_sig_file):
     """ Extracts raw signature from DER formatted PKCS#7 detached signature file

     Do that by parsing the ASN.1 tree to get the location of the signature
     in the file and then read the portion.
     """

     # Note: there seems to be no public python API (even in 3p modules) that
     # provides direct access to the raw signature at this moment. So, `openssl
     # asn1parse` commandline tool is used instead.
     cmd = ['openssl', 'asn1parse']
     cmd.extend(['-inform', 'DER'])
     cmd.extend(['-in', pkcs7_sig_file])
     out = subprocess.check_output(cmd, universal_newlines=True)

     # The signature is the last element in the tree
     last_line = out.splitlines()[-1]
     m = re.search('(\d+):.*hl=\s*(\d+)\s*l=\s*(\d+)\s*.*OCTET STRING', last_line)
     if not m:
       raise RuntimeError("Failed to parse asn1parse output: " + out)
     offset = int(m.group(1))
     header_len = int(m.group(2))
     size = int(m.group(3))
     with open(pkcs7_sig_file, 'rb') as f:
       f.seek(offset + header_len)
       return f.read(size)

   def digest(self, input_file):
     cmd = [self._fsverity_path, 'digest', input_file]
     cmd.extend(['--compact'])
     cmd.extend(['--hash-alg', self._hash_alg])
     out = subprocess.check_output(cmd, universal_newlines=True).strip()
     return bytes(bytearray.fromhex(out))

   def generate(self, input_file, output_file=None):
     if self._signature != 'none':
       if not self._key:
         raise RuntimeError("key must be specified.")
       if not self._cert:
         raise RuntimeError("cert must be specified.")

     if not output_file:
       output_file = input_file + '.fsv_meta'

     with TempDirectory() as temp_dir:
       self._do_generate(input_file, output_file, temp_dir)

   def _do_generate(self, input_file, output_file, work_dir):
     # temporary files
     desc_file = os.path.join(work_dir, 'desc')
     merkletree_file = os.path.join(work_dir, 'merkletree')
     sig_file = os.path.join(work_dir, 'signature')

     # run the fsverity util to create the temporary files
     cmd = [self._fsverity_path]
     if self._signature == 'none':
       cmd.append('digest')
       cmd.append(input_file)
     else:
       cmd.append('sign')
       cmd.append(input_file)
       cmd.append(sig_file)

       # If key is DER, convert DER private key to PEM
       if self._key_format == 'der':
         pem_key = os.path.join(work_dir, 'key.pem')
         key_cmd = ['openssl', 'pkcs8']
         key_cmd.extend(['-inform', 'DER'])
         key_cmd.extend(['-in', self._key])
         key_cmd.extend(['-nocrypt'])
         key_cmd.extend(['-out', pem_key])
         subprocess.check_call(key_cmd)
       else:
         pem_key = self._key

       cmd.extend(['--key', pem_key])
       cmd.extend(['--cert', self._cert])
     cmd.extend(['--hash-alg', self._hash_alg])
     cmd.extend(['--block-size', '4096'])
     cmd.extend(['--out-merkle-tree', merkletree_file])
     cmd.extend(['--out-descriptor', desc_file])
     subprocess.check_call(cmd, stdout=open(os.devnull, 'w'))

     with open(output_file, 'wb') as out:
       # 1. version
       out.write(pack('<I', 1))

       # 2. fsverity_descriptor
       with open(desc_file, 'rb') as f:
         out.write(f.read())

       # 3. signature
       SIG_TYPE_NONE = 0
       SIG_TYPE_PKCS7 = 1
       SIG_TYPE_RAW = 2
       if self._signature == 'raw':
         out.write(pack('<I', SIG_TYPE_RAW))
         sig = self._raw_signature(sig_file)
         out.write(pack('<I', len(sig)))
         out.write(sig)
       elif self._signature == 'pkcs7':
         with open(sig_file, 'rb') as f:
           out.write(pack('<I', SIG_TYPE_PKCS7))
           sig = f.read()
           out.write(pack('<I', len(sig)))
           out.write(sig)
       else:
         out.write(pack('<I', SIG_TYPE_NONE))
         out.write(pack('<I', 0))

       # 4. merkle tree
       with open(merkletree_file, 'rb') as f:
         # merkle tree is placed at the next nearest page boundary to make
         # mmapping possible
         out.seek(next_page(out.tell()))
         out.write(f.read())

 def next_page(n):
   """ Returns the next nearest page boundary from `n` """
   PAGE_SIZE = 4096
   return (n + PAGE_SIZE - 1) // PAGE_SIZE * PAGE_SIZE

 if __name__ == '__main__':
   p = argparse.ArgumentParser()
   p.add_argument(
       '--output',
       help='output file. If omitted, print to <INPUT>.fsv_meta',
       metavar='output',
       default=None)
   p.add_argument(
       'input',
       help='input file to be signed')
   p.add_argument(
       '--key-format',
       choices=['pem', 'der'],
       default='der',
       help='format of the input key. Default is der')
   p.add_argument(
       '--key',
       help='PKCS#8 private key file')
   p.add_argument(
       '--cert',
       help='x509 certificate file in PEM format')
   p.add_argument(
       '--hash-alg',
       help='hash algorithm to use to build the merkle tree',
       choices=['sha256', 'sha512'],
       default='sha256')
   p.add_argument(
       '--signature',
       help='format for signature',
       choices=['none', 'raw', 'pkcs7'],
       default='none')
   p.add_argument(
       '--fsverity-path',
       help='path to the fsverity program',
       required=True)
   args = p.parse_args(sys.argv[1:])

   generator = FSVerityMetadataGenerator(args.fsverity_path)
   generator.set_signature(args.signature)
   if args.signature == 'none':
     if args.key or args.cert:
       raise ValueError("When signature is none, key and cert can't be set")
   else:
     if not args.key or not args.cert:
       raise ValueError("To generate signature, key and cert must be set")
     generator.set_key(args.key)
     generator.set_cert(args.cert)
   generator.set_key_format(args.key_format)
   generator.set_hash_alg(args.hash_alg)
   generator.generate(args.input, args.output)
	#!/usr/bin/env python
	#
	# Copyright 2021 Google Inc. All rights reserved.
	#
	# 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.

	"""
	`fsverity_metadata_generator` generates fsverity metadata and signature to a
	container file

	This actually is a simple wrapper around the `fsverity` program. A file is
	signed by the program which produces the PKCS#7 signature file, merkle tree file
	, and the fsverity_descriptor file. Then the files are packed into a single
	output file so that the information about the signing stays together.

	Currently, the output of this script is used by `fd_server` which is the host-
	side backend of an authfs filesystem. `fd_server` uses this file in case when
	the underlying filesystem (ext4, etc.) on the device doesn't support the
	fsverity feature natively in which case the information is read directly from
	the filesystem using ioctl.
	"""

	import argparse
	import os
	import re
	import shutil
	import subprocess
	import sys
	import tempfile
	from struct import *

	class TempDirectory(object):
	def __enter__(self):
	self.name = tempfile.mkdtemp()
	return self.name

	def __exit__(self, *unused):
	shutil.rmtree(self.name)

	class FSVerityMetadataGenerator:
	def __init__(self, fsverity_path):
	self._fsverity_path = fsverity_path

	# Default values for some properties
	self.set_hash_alg("sha256")
	self.set_signature('none')

	def set_key_format(self, key_format):
	self._key_format = key_format

	def set_key(self, key):
	self._key = key

	def set_cert(self, cert):
	self._cert = cert

	def set_hash_alg(self, hash_alg):
	self._hash_alg = hash_alg

	def set_signature(self, signature):
	self._signature = signature

	def _raw_signature(pkcs7_sig_file):
	""" Extracts raw signature from DER formatted PKCS#7 detached signature file

	Do that by parsing the ASN.1 tree to get the location of the signature
	in the file and then read the portion.
	"""

	# Note: there seems to be no public python API (even in 3p modules) that
	# provides direct access to the raw signature at this moment. So, `openssl
	# asn1parse` commandline tool is used instead.
	cmd = ['openssl', 'asn1parse']
	cmd.extend(['-inform', 'DER'])
	cmd.extend(['-in', pkcs7_sig_file])
	out = subprocess.check_output(cmd, universal_newlines=True)

	# The signature is the last element in the tree
	last_line = out.splitlines()[-1]
	m = re.search('(\d+):.hl=\s(\d+)\sl=\s(\d+)\s.OCTET STRING', last_line)
	if not m:
	raise RuntimeError("Failed to parse asn1parse output: " + out)
	offset = int(m.group(1))
	header_len = int(m.group(2))
	size = int(m.group(3))
	with open(pkcs7_sig_file, 'rb') as f:
	f.seek(offset + header_len)
	return f.read(size)

	def digest(self, input_file):
	cmd = [self._fsverity_path, 'digest', input_file]
	cmd.extend(['--compact'])
	cmd.extend(['--hash-alg', self._hash_alg])
	out = subprocess.check_output(cmd, universal_newlines=True).strip()
	return bytes(bytearray.fromhex(out))

	def generate(self, input_file, output_file=None):
	if self._signature != 'none':
	if not self._key:
	raise RuntimeError("key must be specified.")
	if not self._cert:
	raise RuntimeError("cert must be specified.")

	if not output_file:
	output_file = input_file + '.fsv_meta'

	with TempDirectory() as temp_dir:
	self._do_generate(input_file, output_file, temp_dir)

	def _do_generate(self, input_file, output_file, work_dir):
	# temporary files
	desc_file = os.path.join(work_dir, 'desc')
	merkletree_file = os.path.join(work_dir, 'merkletree')
	sig_file = os.path.join(work_dir, 'signature')

	# run the fsverity util to create the temporary files
	cmd = [self._fsverity_path]
	if self._signature == 'none':
	cmd.append('digest')
	cmd.append(input_file)
	else:
	cmd.append('sign')
	cmd.append(input_file)
	cmd.append(sig_file)

	# If key is DER, convert DER private key to PEM
	if self._key_format == 'der':
	pem_key = os.path.join(work_dir, 'key.pem')
	key_cmd = ['openssl', 'pkcs8']
	key_cmd.extend(['-inform', 'DER'])
	key_cmd.extend(['-in', self._key])
	key_cmd.extend(['-nocrypt'])
	key_cmd.extend(['-out', pem_key])
	subprocess.check_call(key_cmd)
	else:
	pem_key = self._key

	cmd.extend(['--key', pem_key])
	cmd.extend(['--cert', self._cert])
	cmd.extend(['--hash-alg', self._hash_alg])
	cmd.extend(['--block-size', '4096'])
	cmd.extend(['--out-merkle-tree', merkletree_file])
	cmd.extend(['--out-descriptor', desc_file])
	subprocess.check_call(cmd, stdout=open(os.devnull, 'w'))

	with open(output_file, 'wb') as out:
	# 1. version
	out.write(pack('<I', 1))

	# 2. fsverity_descriptor
	with open(desc_file, 'rb') as f:
	out.write(f.read())

	# 3. signature
	SIG_TYPE_NONE = 0
	SIG_TYPE_PKCS7 = 1
	SIG_TYPE_RAW = 2
	if self._signature == 'raw':
	out.write(pack('<I', SIG_TYPE_RAW))
	sig = self._raw_signature(sig_file)
	out.write(pack('<I', len(sig)))
	out.write(sig)
	elif self._signature == 'pkcs7':
	with open(sig_file, 'rb') as f:
	out.write(pack('<I', SIG_TYPE_PKCS7))
	sig = f.read()
	out.write(pack('<I', len(sig)))
	out.write(sig)
	else:
	out.write(pack('<I', SIG_TYPE_NONE))
	out.write(pack('<I', 0))

	# 4. merkle tree
	with open(merkletree_file, 'rb') as f:
	# merkle tree is placed at the next nearest page boundary to make
	# mmapping possible
	out.seek(next_page(out.tell()))
	out.write(f.read())

	def next_page(n):
	""" Returns the next nearest page boundary from `n` """
	PAGE_SIZE = 4096
	return (n + PAGE_SIZE - 1) // PAGE_SIZE * PAGE_SIZE

	if __name__ == '__main__':
	p = argparse.ArgumentParser()
	p.add_argument(
	'--output',
	help='output file. If omitted, print to <INPUT>.fsv_meta',
	metavar='output',
	default=None)
	p.add_argument(
	'input',
	help='input file to be signed')
	p.add_argument(
	'--key-format',
	choices=['pem', 'der'],
	default='der',
	help='format of the input key. Default is der')
	p.add_argument(
	'--key',
	help='PKCS#8 private key file')
	p.add_argument(
	'--cert',
	help='x509 certificate file in PEM format')
	p.add_argument(
	'--hash-alg',
	help='hash algorithm to use to build the merkle tree',
	choices=['sha256', 'sha512'],
	default='sha256')
	p.add_argument(
	'--signature',
	help='format for signature',
	choices=['none', 'raw', 'pkcs7'],
	default='none')
	p.add_argument(
	'--fsverity-path',
	help='path to the fsverity program',
	required=True)
	args = p.parse_args(sys.argv[1:])

	generator = FSVerityMetadataGenerator(args.fsverity_path)
	generator.set_signature(args.signature)
	if args.signature == 'none':
	if args.key or args.cert:
	raise ValueError("When signature is none, key and cert can't be set")
	else:
	if not args.key or not args.cert:
	raise ValueError("To generate signature, key and cert must be set")
	generator.set_key(args.key)
	generator.set_cert(args.cert)
	generator.set_key_format(args.key_format)
	generator.set_hash_alg(args.hash_alg)
	generator.generate(args.input, args.output)