| #!/usr/bin/env python |
| |
| # Copyright 2016, The Android Open Source Project |
| # |
| # Permission is hereby granted, free of charge, to any person |
| # obtaining a copy of this software and associated documentation |
| # files (the "Software"), to deal in the Software without |
| # restriction, including without limitation the rights to use, copy, |
| # modify, merge, publish, distribute, sublicense, and/or sell copies |
| # of the Software, and to permit persons to whom the Software is |
| # furnished to do so, subject to the following conditions: |
| # |
| # The above copyright notice and this permission notice shall be |
| # included in all copies or substantial portions of the Software. |
| # |
| # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, |
| # EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF |
| # MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND |
| # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS |
| # BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN |
| # ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN |
| # CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE |
| # SOFTWARE. |
| # |
| """Command-line tool for working with Android Verified Boot images.""" |
| |
| from __future__ import print_function |
| |
| import argparse |
| import binascii |
| import bisect |
| import hashlib |
| import math |
| import os |
| import struct |
| import subprocess |
| import sys |
| import tempfile |
| import time |
| |
| # Keep in sync with libavb/avb_version.h. |
| AVB_VERSION_MAJOR = 1 |
| AVB_VERSION_MINOR = 1 |
| AVB_VERSION_SUB = 0 |
| |
| # Keep in sync with libavb/avb_footer.h. |
| AVB_FOOTER_VERSION_MAJOR = 1 |
| AVB_FOOTER_VERSION_MINOR = 0 |
| |
| AVB_VBMETA_IMAGE_FLAGS_HASHTREE_DISABLED = 1 |
| |
| |
| class AvbError(Exception): |
| """Application-specific errors. |
| |
| These errors represent issues for which a stack-trace should not be |
| presented. |
| |
| Attributes: |
| message: Error message. |
| """ |
| |
| def __init__(self, message): |
| Exception.__init__(self, message) |
| |
| |
| class Algorithm(object): |
| """Contains details about an algorithm. |
| |
| See the avb_vbmeta_image.h file for more details about algorithms. |
| |
| The constant |ALGORITHMS| is a dictionary from human-readable |
| names (e.g 'SHA256_RSA2048') to instances of this class. |
| |
| Attributes: |
| algorithm_type: Integer code corresponding to |AvbAlgorithmType|. |
| hash_name: Empty or a name from |hashlib.algorithms|. |
| hash_num_bytes: Number of bytes used to store the hash. |
| signature_num_bytes: Number of bytes used to store the signature. |
| public_key_num_bytes: Number of bytes used to store the public key. |
| padding: Padding used for signature, if any. |
| """ |
| |
| def __init__(self, algorithm_type, hash_name, hash_num_bytes, |
| signature_num_bytes, public_key_num_bytes, padding): |
| self.algorithm_type = algorithm_type |
| self.hash_name = hash_name |
| self.hash_num_bytes = hash_num_bytes |
| self.signature_num_bytes = signature_num_bytes |
| self.public_key_num_bytes = public_key_num_bytes |
| self.padding = padding |
| |
| |
| # This must be kept in sync with the avb_crypto.h file. |
| # |
| # The PKC1-v1.5 padding is a blob of binary DER of ASN.1 and is |
| # obtained from section 5.2.2 of RFC 4880. |
| ALGORITHMS = { |
| 'NONE': Algorithm( |
| algorithm_type=0, # AVB_ALGORITHM_TYPE_NONE |
| hash_name='', |
| hash_num_bytes=0, |
| signature_num_bytes=0, |
| public_key_num_bytes=0, |
| padding=[]), |
| 'SHA256_RSA2048': Algorithm( |
| algorithm_type=1, # AVB_ALGORITHM_TYPE_SHA256_RSA2048 |
| hash_name='sha256', |
| hash_num_bytes=32, |
| signature_num_bytes=256, |
| public_key_num_bytes=8 + 2*2048//8, |
| padding=[ |
| # PKCS1-v1_5 padding |
| 0x00, 0x01] + [0xff]*202 + [0x00] + [ |
| # ASN.1 header |
| 0x30, 0x31, 0x30, 0x0d, 0x06, 0x09, 0x60, 0x86, |
| 0x48, 0x01, 0x65, 0x03, 0x04, 0x02, 0x01, 0x05, |
| 0x00, 0x04, 0x20, |
| ]), |
| 'SHA256_RSA4096': Algorithm( |
| algorithm_type=2, # AVB_ALGORITHM_TYPE_SHA256_RSA4096 |
| hash_name='sha256', |
| hash_num_bytes=32, |
| signature_num_bytes=512, |
| public_key_num_bytes=8 + 2*4096//8, |
| padding=[ |
| # PKCS1-v1_5 padding |
| 0x00, 0x01] + [0xff]*458 + [0x00] + [ |
| # ASN.1 header |
| 0x30, 0x31, 0x30, 0x0d, 0x06, 0x09, 0x60, 0x86, |
| 0x48, 0x01, 0x65, 0x03, 0x04, 0x02, 0x01, 0x05, |
| 0x00, 0x04, 0x20, |
| ]), |
| 'SHA256_RSA8192': Algorithm( |
| algorithm_type=3, # AVB_ALGORITHM_TYPE_SHA256_RSA8192 |
| hash_name='sha256', |
| hash_num_bytes=32, |
| signature_num_bytes=1024, |
| public_key_num_bytes=8 + 2*8192//8, |
| padding=[ |
| # PKCS1-v1_5 padding |
| 0x00, 0x01] + [0xff]*970 + [0x00] + [ |
| # ASN.1 header |
| 0x30, 0x31, 0x30, 0x0d, 0x06, 0x09, 0x60, 0x86, |
| 0x48, 0x01, 0x65, 0x03, 0x04, 0x02, 0x01, 0x05, |
| 0x00, 0x04, 0x20, |
| ]), |
| 'SHA512_RSA2048': Algorithm( |
| algorithm_type=4, # AVB_ALGORITHM_TYPE_SHA512_RSA2048 |
| hash_name='sha512', |
| hash_num_bytes=64, |
| signature_num_bytes=256, |
| public_key_num_bytes=8 + 2*2048//8, |
| padding=[ |
| # PKCS1-v1_5 padding |
| 0x00, 0x01] + [0xff]*170 + [0x00] + [ |
| # ASN.1 header |
| 0x30, 0x51, 0x30, 0x0d, 0x06, 0x09, 0x60, 0x86, |
| 0x48, 0x01, 0x65, 0x03, 0x04, 0x02, 0x03, 0x05, |
| 0x00, 0x04, 0x40 |
| ]), |
| 'SHA512_RSA4096': Algorithm( |
| algorithm_type=5, # AVB_ALGORITHM_TYPE_SHA512_RSA4096 |
| hash_name='sha512', |
| hash_num_bytes=64, |
| signature_num_bytes=512, |
| public_key_num_bytes=8 + 2*4096//8, |
| padding=[ |
| # PKCS1-v1_5 padding |
| 0x00, 0x01] + [0xff]*426 + [0x00] + [ |
| # ASN.1 header |
| 0x30, 0x51, 0x30, 0x0d, 0x06, 0x09, 0x60, 0x86, |
| 0x48, 0x01, 0x65, 0x03, 0x04, 0x02, 0x03, 0x05, |
| 0x00, 0x04, 0x40 |
| ]), |
| 'SHA512_RSA8192': Algorithm( |
| algorithm_type=6, # AVB_ALGORITHM_TYPE_SHA512_RSA8192 |
| hash_name='sha512', |
| hash_num_bytes=64, |
| signature_num_bytes=1024, |
| public_key_num_bytes=8 + 2*8192//8, |
| padding=[ |
| # PKCS1-v1_5 padding |
| 0x00, 0x01] + [0xff]*938 + [0x00] + [ |
| # ASN.1 header |
| 0x30, 0x51, 0x30, 0x0d, 0x06, 0x09, 0x60, 0x86, |
| 0x48, 0x01, 0x65, 0x03, 0x04, 0x02, 0x03, 0x05, |
| 0x00, 0x04, 0x40 |
| ]), |
| } |
| |
| |
| def get_release_string(): |
| """Calculates the release string to use in the VBMeta struct.""" |
| # Keep in sync with libavb/avb_version.c:avb_version_string(). |
| return 'avbtool {}.{}.{}'.format(AVB_VERSION_MAJOR, |
| AVB_VERSION_MINOR, |
| AVB_VERSION_SUB) |
| |
| |
| def round_to_multiple(number, size): |
| """Rounds a number up to nearest multiple of another number. |
| |
| Arguments: |
| number: The number to round up. |
| size: The multiple to round up to. |
| |
| Returns: |
| If |number| is a multiple of |size|, returns |number|, otherwise |
| returns |number| + |size|. |
| """ |
| remainder = number % size |
| if remainder == 0: |
| return number |
| return number + size - remainder |
| |
| |
| def round_to_pow2(number): |
| """Rounds a number up to the next power of 2. |
| |
| Arguments: |
| number: The number to round up. |
| |
| Returns: |
| If |number| is already a power of 2 then |number| is |
| returned. Otherwise the smallest power of 2 greater than |number| |
| is returned. |
| """ |
| return 2**((number - 1).bit_length()) |
| |
| |
| def encode_long(num_bits, value): |
| """Encodes a long to a bytearray() using a given amount of bits. |
| |
| This number is written big-endian, e.g. with the most significant |
| bit first. |
| |
| This is the reverse of decode_long(). |
| |
| Arguments: |
| num_bits: The number of bits to write, e.g. 2048. |
| value: The value to write. |
| |
| Returns: |
| A bytearray() with the encoded long. |
| """ |
| ret = bytearray() |
| for bit_pos in range(num_bits, 0, -8): |
| octet = (value >> (bit_pos - 8)) & 0xff |
| ret.extend(struct.pack('!B', octet)) |
| return ret |
| |
| |
| def decode_long(blob): |
| """Decodes a long from a bytearray() using a given amount of bits. |
| |
| This number is expected to be in big-endian, e.g. with the most |
| significant bit first. |
| |
| This is the reverse of encode_long(). |
| |
| Arguments: |
| blob: A bytearray() with the encoded long. |
| |
| Returns: |
| The decoded value. |
| """ |
| ret = 0 |
| for b in bytearray(blob): |
| ret *= 256 |
| ret += b |
| return ret |
| |
| |
| def egcd(a, b): |
| """Calculate greatest common divisor of two numbers. |
| |
| This implementation uses a recursive version of the extended |
| Euclidian algorithm. |
| |
| Arguments: |
| a: First number. |
| b: Second number. |
| |
| Returns: |
| A tuple (gcd, x, y) that where |gcd| is the greatest common |
| divisor of |a| and |b| and |a|*|x| + |b|*|y| = |gcd|. |
| """ |
| if a == 0: |
| return (b, 0, 1) |
| g, y, x = egcd(b % a, a) |
| return (g, x - (b // a) * y, y) |
| |
| |
| def modinv(a, m): |
| """Calculate modular multiplicative inverse of |a| modulo |m|. |
| |
| This calculates the number |x| such that |a| * |x| == 1 (modulo |
| |m|). This number only exists if |a| and |m| are co-prime - |None| |
| is returned if this isn't true. |
| |
| Arguments: |
| a: The number to calculate a modular inverse of. |
| m: The modulo to use. |
| |
| Returns: |
| The modular multiplicative inverse of |a| and |m| or |None| if |
| these numbers are not co-prime. |
| """ |
| gcd, x, _ = egcd(a, m) |
| if gcd != 1: |
| return None # modular inverse does not exist |
| return x % m |
| |
| |
| def parse_number(string): |
| """Parse a string as a number. |
| |
| This is just a short-hand for int(string, 0) suitable for use in the |
| |type| parameter of |ArgumentParser|'s add_argument() function. An |
| improvement to just using type=int is that this function supports |
| numbers in other bases, e.g. "0x1234". |
| |
| Arguments: |
| string: The string to parse. |
| |
| Returns: |
| The parsed integer. |
| |
| Raises: |
| ValueError: If the number could not be parsed. |
| """ |
| return int(string, 0) |
| |
| |
| class RSAPublicKey(object): |
| """Data structure used for a RSA public key. |
| |
| Attributes: |
| exponent: The key exponent. |
| modulus: The key modulus. |
| num_bits: The key size. |
| """ |
| |
| MODULUS_PREFIX = 'modulus=' |
| |
| def __init__(self, key_path): |
| """Loads and parses an RSA key from either a private or public key file. |
| |
| Arguments: |
| key_path: The path to a key file. |
| |
| Raises: |
| AvbError: If RSA key parameters could not be read from file. |
| """ |
| # We used to have something as simple as this: |
| # |
| # key = Crypto.PublicKey.RSA.importKey(open(key_path).read()) |
| # self.exponent = key.e |
| # self.modulus = key.n |
| # self.num_bits = key.size() + 1 |
| # |
| # but unfortunately PyCrypto is not available in the builder. So |
| # instead just parse openssl(1) output to get this |
| # information. It's ugly but... |
| args = ['openssl', 'rsa', '-in', key_path, '-modulus', '-noout'] |
| p = subprocess.Popen(args, |
| stdin=subprocess.PIPE, |
| stdout=subprocess.PIPE, |
| stderr=subprocess.PIPE) |
| (pout, perr) = p.communicate() |
| if p.wait() != 0: |
| # Could be just a public key is passed, try that. |
| args.append('-pubin') |
| p = subprocess.Popen(args, |
| stdin=subprocess.PIPE, |
| stdout=subprocess.PIPE, |
| stderr=subprocess.PIPE) |
| (pout, perr) = p.communicate() |
| if p.wait() != 0: |
| raise AvbError('Error getting public key: {}'.format(perr)) |
| |
| if not pout.lower().startswith(self.MODULUS_PREFIX): |
| raise AvbError('Unexpected modulus output') |
| |
| modulus_hexstr = pout[len(self.MODULUS_PREFIX):] |
| |
| # The exponent is assumed to always be 65537 and the number of |
| # bits can be derived from the modulus by rounding up to the |
| # nearest power of 2. |
| self.modulus = int(modulus_hexstr, 16) |
| self.num_bits = round_to_pow2(int(math.ceil(math.log(self.modulus, 2)))) |
| self.exponent = 65537 |
| |
| |
| def encode_rsa_key(key_path): |
| """Encodes a public RSA key in |AvbRSAPublicKeyHeader| format. |
| |
| This creates a |AvbRSAPublicKeyHeader| as well as the two large |
| numbers (|key_num_bits| bits long) following it. |
| |
| Arguments: |
| key_path: The path to a key file. |
| |
| Returns: |
| A bytearray() with the |AvbRSAPublicKeyHeader|. |
| |
| Raises: |
| AvbError: If given RSA key exponent is not 65537. |
| """ |
| key = RSAPublicKey(key_path) |
| if key.exponent != 65537: |
| raise AvbError('Only RSA keys with exponent 65537 are supported.') |
| ret = bytearray() |
| # Calculate n0inv = -1/n[0] (mod 2^32) |
| b = 2L**32 # pylint: disable=long-suffix |
| n0inv = b - modinv(key.modulus, b) |
| # Calculate rr = r^2 (mod N), where r = 2^(# of key bits) |
| r = 2L**key.modulus.bit_length() # pylint: disable=long-suffix |
| rrmodn = r * r % key.modulus |
| ret.extend(struct.pack('!II', key.num_bits, n0inv)) |
| ret.extend(encode_long(key.num_bits, key.modulus)) |
| ret.extend(encode_long(key.num_bits, rrmodn)) |
| return ret |
| |
| |
| def lookup_algorithm_by_type(alg_type): |
| """Looks up algorithm by type. |
| |
| Arguments: |
| alg_type: The integer representing the type. |
| |
| Returns: |
| A tuple with the algorithm name and an |Algorithm| instance. |
| |
| Raises: |
| Exception: If the algorithm cannot be found |
| """ |
| for alg_name in ALGORITHMS: |
| alg_data = ALGORITHMS[alg_name] |
| if alg_data.algorithm_type == alg_type: |
| return (alg_name, alg_data) |
| raise AvbError('Unknown algorithm type {}'.format(alg_type)) |
| |
| |
| def lookup_hash_size_by_type(alg_type): |
| """Looks up hash size by type. |
| |
| Arguments: |
| alg_type: The integer representing the type. |
| |
| Returns: |
| The corresponding hash size. |
| |
| Raises: |
| AvbError: If the algorithm cannot be found. |
| """ |
| for alg_name in ALGORITHMS: |
| alg_data = ALGORITHMS[alg_name] |
| if alg_data.algorithm_type == alg_type: |
| return alg_data.hash_num_bytes |
| raise AvbError('Unsupported algorithm type {}'.format(alg_type)) |
| |
| |
| def raw_sign(signing_helper, signing_helper_with_files, |
| algorithm_name, signature_num_bytes, key_path, |
| raw_data_to_sign): |
| """Computes a raw RSA signature using |signing_helper| or openssl. |
| |
| Arguments: |
| signing_helper: Program which signs a hash and returns the signature. |
| signing_helper_with_files: Same as signing_helper but uses files instead. |
| algorithm_name: The algorithm name as per the ALGORITHMS dict. |
| signature_num_bytes: Number of bytes used to store the signature. |
| key_path: Path to the private key file. Must be PEM format. |
| raw_data_to_sign: Data to sign (bytearray or str expected). |
| |
| Returns: |
| A bytearray containing the signature. |
| |
| Raises: |
| Exception: If an error occurs. |
| """ |
| p = None |
| if signing_helper_with_files is not None: |
| signing_file = tempfile.NamedTemporaryFile() |
| signing_file.write(str(raw_data_to_sign)) |
| signing_file.flush() |
| p = subprocess.Popen([ |
| signing_helper_with_files, algorithm_name, key_path, signing_file.name]) |
| retcode = p.wait() |
| if retcode != 0: |
| raise AvbError('Error signing') |
| signing_file.seek(0) |
| signature = bytearray(signing_file.read()) |
| else: |
| if signing_helper is not None: |
| p = subprocess.Popen( |
| [signing_helper, algorithm_name, key_path], |
| stdin=subprocess.PIPE, |
| stdout=subprocess.PIPE, |
| stderr=subprocess.PIPE) |
| else: |
| p = subprocess.Popen( |
| ['openssl', 'rsautl', '-sign', '-inkey', key_path, '-raw'], |
| stdin=subprocess.PIPE, |
| stdout=subprocess.PIPE, |
| stderr=subprocess.PIPE) |
| (pout, perr) = p.communicate(str(raw_data_to_sign)) |
| retcode = p.wait() |
| if retcode != 0: |
| raise AvbError('Error signing: {}'.format(perr)) |
| signature = bytearray(pout) |
| if len(signature) != signature_num_bytes: |
| raise AvbError('Error signing: Invalid length of signature') |
| return signature |
| |
| |
| def verify_vbmeta_signature(vbmeta_header, vbmeta_blob): |
| """Checks that signature in a vbmeta blob was made by the embedded public key. |
| |
| Arguments: |
| vbmeta_header: A AvbVBMetaHeader. |
| vbmeta_blob: The whole vbmeta blob, including the header. |
| |
| Returns: |
| True if the signature is valid and corresponds to the embedded |
| public key. Also returns True if the vbmeta blob is not signed. |
| |
| Raises: |
| AvbError: If there errors calling out to openssl command during |
| signature verification. |
| """ |
| (_, alg) = lookup_algorithm_by_type(vbmeta_header.algorithm_type) |
| if not alg.hash_name: |
| return True |
| header_blob = vbmeta_blob[0:256] |
| auth_offset = 256 |
| aux_offset = auth_offset + vbmeta_header.authentication_data_block_size |
| aux_size = vbmeta_header.auxiliary_data_block_size |
| aux_blob = vbmeta_blob[aux_offset:aux_offset + aux_size] |
| pubkey_offset = aux_offset + vbmeta_header.public_key_offset |
| pubkey_size = vbmeta_header.public_key_size |
| pubkey_blob = vbmeta_blob[pubkey_offset:pubkey_offset + pubkey_size] |
| |
| digest_offset = auth_offset + vbmeta_header.hash_offset |
| digest_size = vbmeta_header.hash_size |
| digest_blob = vbmeta_blob[digest_offset:digest_offset + digest_size] |
| |
| sig_offset = auth_offset + vbmeta_header.signature_offset |
| sig_size = vbmeta_header.signature_size |
| sig_blob = vbmeta_blob[sig_offset:sig_offset + sig_size] |
| |
| # Now that we've got the stored digest, public key, and signature |
| # all we need to do is to verify. This is the exactly the same |
| # steps as performed in the avb_vbmeta_image_verify() function in |
| # libavb/avb_vbmeta_image.c. |
| |
| ha = hashlib.new(alg.hash_name) |
| ha.update(header_blob) |
| ha.update(aux_blob) |
| computed_digest = ha.digest() |
| |
| if computed_digest != digest_blob: |
| return False |
| |
| padding_and_digest = bytearray(alg.padding) |
| padding_and_digest.extend(computed_digest) |
| |
| (num_bits,) = struct.unpack('!I', pubkey_blob[0:4]) |
| modulus_blob = pubkey_blob[8:8 + num_bits//8] |
| modulus = decode_long(modulus_blob) |
| exponent = 65537 |
| |
| # We used to have this: |
| # |
| # import Crypto.PublicKey.RSA |
| # key = Crypto.PublicKey.RSA.construct((modulus, long(exponent))) |
| # if not key.verify(decode_long(padding_and_digest), |
| # (decode_long(sig_blob), None)): |
| # return False |
| # return True |
| # |
| # but since 'avbtool verify_image' is used on the builders we don't want |
| # to rely on Crypto.PublicKey.RSA. Instead just use openssl(1) to verify. |
| asn1_str = ('asn1=SEQUENCE:pubkeyinfo\n' |
| '\n' |
| '[pubkeyinfo]\n' |
| 'algorithm=SEQUENCE:rsa_alg\n' |
| 'pubkey=BITWRAP,SEQUENCE:rsapubkey\n' |
| '\n' |
| '[rsa_alg]\n' |
| 'algorithm=OID:rsaEncryption\n' |
| 'parameter=NULL\n' |
| '\n' |
| '[rsapubkey]\n' |
| 'n=INTEGER:%s\n' |
| 'e=INTEGER:%s\n' % (hex(modulus).rstrip('L'), |
| hex(exponent).rstrip('L'))) |
| asn1_tmpfile = tempfile.NamedTemporaryFile() |
| asn1_tmpfile.write(asn1_str) |
| asn1_tmpfile.flush() |
| der_tmpfile = tempfile.NamedTemporaryFile() |
| p = subprocess.Popen( |
| ['openssl', 'asn1parse', '-genconf', asn1_tmpfile.name, '-out', |
| der_tmpfile.name, '-noout']) |
| retcode = p.wait() |
| if retcode != 0: |
| raise AvbError('Error generating DER file') |
| |
| p = subprocess.Popen( |
| ['openssl', 'rsautl', '-verify', '-pubin', '-inkey', der_tmpfile.name, |
| '-keyform', 'DER', '-raw'], |
| stdin=subprocess.PIPE, |
| stdout=subprocess.PIPE, |
| stderr=subprocess.PIPE) |
| (pout, perr) = p.communicate(str(sig_blob)) |
| retcode = p.wait() |
| if retcode != 0: |
| raise AvbError('Error verifying data: {}'.format(perr)) |
| recovered_data = bytearray(pout) |
| if recovered_data != padding_and_digest: |
| sys.stderr.write('Signature not correct\n') |
| return False |
| return True |
| |
| |
| class ImageChunk(object): |
| """Data structure used for representing chunks in Android sparse files. |
| |
| Attributes: |
| chunk_type: One of TYPE_RAW, TYPE_FILL, or TYPE_DONT_CARE. |
| chunk_offset: Offset in the sparse file where this chunk begins. |
| output_offset: Offset in de-sparsified file where output begins. |
| output_size: Number of bytes in output. |
| input_offset: Offset in sparse file for data if TYPE_RAW otherwise None. |
| fill_data: Blob with data to fill if TYPE_FILL otherwise None. |
| """ |
| |
| FORMAT = '<2H2I' |
| TYPE_RAW = 0xcac1 |
| TYPE_FILL = 0xcac2 |
| TYPE_DONT_CARE = 0xcac3 |
| TYPE_CRC32 = 0xcac4 |
| |
| def __init__(self, chunk_type, chunk_offset, output_offset, output_size, |
| input_offset, fill_data): |
| """Initializes an ImageChunk object. |
| |
| Arguments: |
| chunk_type: One of TYPE_RAW, TYPE_FILL, or TYPE_DONT_CARE. |
| chunk_offset: Offset in the sparse file where this chunk begins. |
| output_offset: Offset in de-sparsified file. |
| output_size: Number of bytes in output. |
| input_offset: Offset in sparse file if TYPE_RAW otherwise None. |
| fill_data: Blob with data to fill if TYPE_FILL otherwise None. |
| |
| Raises: |
| ValueError: If data is not well-formed. |
| """ |
| self.chunk_type = chunk_type |
| self.chunk_offset = chunk_offset |
| self.output_offset = output_offset |
| self.output_size = output_size |
| self.input_offset = input_offset |
| self.fill_data = fill_data |
| # Check invariants. |
| if self.chunk_type == self.TYPE_RAW: |
| if self.fill_data is not None: |
| raise ValueError('RAW chunk cannot have fill_data set.') |
| if not self.input_offset: |
| raise ValueError('RAW chunk must have input_offset set.') |
| elif self.chunk_type == self.TYPE_FILL: |
| if self.fill_data is None: |
| raise ValueError('FILL chunk must have fill_data set.') |
| if self.input_offset: |
| raise ValueError('FILL chunk cannot have input_offset set.') |
| elif self.chunk_type == self.TYPE_DONT_CARE: |
| if self.fill_data is not None: |
| raise ValueError('DONT_CARE chunk cannot have fill_data set.') |
| if self.input_offset: |
| raise ValueError('DONT_CARE chunk cannot have input_offset set.') |
| else: |
| raise ValueError('Invalid chunk type') |
| |
| |
| class ImageHandler(object): |
| """Abstraction for image I/O with support for Android sparse images. |
| |
| This class provides an interface for working with image files that |
| may be using the Android Sparse Image format. When an instance is |
| constructed, we test whether it's an Android sparse file. If so, |
| operations will be on the sparse file by interpreting the sparse |
| format, otherwise they will be directly on the file. Either way the |
| operations do the same. |
| |
| For reading, this interface mimics a file object - it has seek(), |
| tell(), and read() methods. For writing, only truncation |
| (truncate()) and appending is supported (append_raw() and |
| append_dont_care()). Additionally, data can only be written in units |
| of the block size. |
| |
| Attributes: |
| filename: Name of file. |
| is_sparse: Whether the file being operated on is sparse. |
| block_size: The block size, typically 4096. |
| image_size: The size of the unsparsified file. |
| """ |
| # See system/core/libsparse/sparse_format.h for details. |
| MAGIC = 0xed26ff3a |
| HEADER_FORMAT = '<I4H4I' |
| |
| # These are formats and offset of just the |total_chunks| and |
| # |total_blocks| fields. |
| NUM_CHUNKS_AND_BLOCKS_FORMAT = '<II' |
| NUM_CHUNKS_AND_BLOCKS_OFFSET = 16 |
| |
| def __init__(self, image_filename): |
| """Initializes an image handler. |
| |
| Arguments: |
| image_filename: The name of the file to operate on. |
| |
| Raises: |
| ValueError: If data in the file is invalid. |
| """ |
| self.filename = image_filename |
| self._num_total_blocks = 0 |
| self._num_total_chunks = 0 |
| self._file_pos = 0 |
| self._read_header() |
| |
| def _read_header(self): |
| """Initializes internal data structures used for reading file. |
| |
| This may be called multiple times and is typically called after |
| modifying the file (e.g. appending, truncation). |
| |
| Raises: |
| ValueError: If data in the file is invalid. |
| """ |
| self.is_sparse = False |
| self.block_size = 4096 |
| self._file_pos = 0 |
| self._image = open(self.filename, 'r+b') |
| self._image.seek(0, os.SEEK_END) |
| self.image_size = self._image.tell() |
| |
| self._image.seek(0, os.SEEK_SET) |
| header_bin = self._image.read(struct.calcsize(self.HEADER_FORMAT)) |
| (magic, major_version, minor_version, file_hdr_sz, chunk_hdr_sz, |
| block_size, self._num_total_blocks, self._num_total_chunks, |
| _) = struct.unpack(self.HEADER_FORMAT, header_bin) |
| if magic != self.MAGIC: |
| # Not a sparse image, our job here is done. |
| return |
| if not (major_version == 1 and minor_version == 0): |
| raise ValueError('Encountered sparse image format version {}.{} but ' |
| 'only 1.0 is supported'.format(major_version, |
| minor_version)) |
| if file_hdr_sz != struct.calcsize(self.HEADER_FORMAT): |
| raise ValueError('Unexpected file_hdr_sz value {}.'. |
| format(file_hdr_sz)) |
| if chunk_hdr_sz != struct.calcsize(ImageChunk.FORMAT): |
| raise ValueError('Unexpected chunk_hdr_sz value {}.'. |
| format(chunk_hdr_sz)) |
| |
| self.block_size = block_size |
| |
| # Build an list of chunks by parsing the file. |
| self._chunks = [] |
| |
| # Find the smallest offset where only "Don't care" chunks |
| # follow. This will be the size of the content in the sparse |
| # image. |
| offset = 0 |
| output_offset = 0 |
| for _ in range(1, self._num_total_chunks + 1): |
| chunk_offset = self._image.tell() |
| |
| header_bin = self._image.read(struct.calcsize(ImageChunk.FORMAT)) |
| (chunk_type, _, chunk_sz, total_sz) = struct.unpack(ImageChunk.FORMAT, |
| header_bin) |
| data_sz = total_sz - struct.calcsize(ImageChunk.FORMAT) |
| |
| if chunk_type == ImageChunk.TYPE_RAW: |
| if data_sz != (chunk_sz * self.block_size): |
| raise ValueError('Raw chunk input size ({}) does not match output ' |
| 'size ({})'. |
| format(data_sz, chunk_sz*self.block_size)) |
| self._chunks.append(ImageChunk(ImageChunk.TYPE_RAW, |
| chunk_offset, |
| output_offset, |
| chunk_sz*self.block_size, |
| self._image.tell(), |
| None)) |
| self._image.seek(data_sz, os.SEEK_CUR) |
| |
| elif chunk_type == ImageChunk.TYPE_FILL: |
| if data_sz != 4: |
| raise ValueError('Fill chunk should have 4 bytes of fill, but this ' |
| 'has {}'.format(data_sz)) |
| fill_data = self._image.read(4) |
| self._chunks.append(ImageChunk(ImageChunk.TYPE_FILL, |
| chunk_offset, |
| output_offset, |
| chunk_sz*self.block_size, |
| None, |
| fill_data)) |
| elif chunk_type == ImageChunk.TYPE_DONT_CARE: |
| if data_sz != 0: |
| raise ValueError('Don\'t care chunk input size is non-zero ({})'. |
| format(data_sz)) |
| self._chunks.append(ImageChunk(ImageChunk.TYPE_DONT_CARE, |
| chunk_offset, |
| output_offset, |
| chunk_sz*self.block_size, |
| None, |
| None)) |
| elif chunk_type == ImageChunk.TYPE_CRC32: |
| if data_sz != 4: |
| raise ValueError('CRC32 chunk should have 4 bytes of CRC, but ' |
| 'this has {}'.format(data_sz)) |
| self._image.read(4) |
| else: |
| raise ValueError('Unknown chunk type {}'.format(chunk_type)) |
| |
| offset += chunk_sz |
| output_offset += chunk_sz*self.block_size |
| |
| # Record where sparse data end. |
| self._sparse_end = self._image.tell() |
| |
| # Now that we've traversed all chunks, sanity check. |
| if self._num_total_blocks != offset: |
| raise ValueError('The header said we should have {} output blocks, ' |
| 'but we saw {}'.format(self._num_total_blocks, offset)) |
| junk_len = len(self._image.read()) |
| if junk_len > 0: |
| raise ValueError('There were {} bytes of extra data at the end of the ' |
| 'file.'.format(junk_len)) |
| |
| # Assign |image_size|. |
| self.image_size = output_offset |
| |
| # This is used when bisecting in read() to find the initial slice. |
| self._chunk_output_offsets = [i.output_offset for i in self._chunks] |
| |
| self.is_sparse = True |
| |
| def _update_chunks_and_blocks(self): |
| """Helper function to update the image header. |
| |
| The the |total_chunks| and |total_blocks| fields in the header |
| will be set to value of the |_num_total_blocks| and |
| |_num_total_chunks| attributes. |
| |
| """ |
| self._image.seek(self.NUM_CHUNKS_AND_BLOCKS_OFFSET, os.SEEK_SET) |
| self._image.write(struct.pack(self.NUM_CHUNKS_AND_BLOCKS_FORMAT, |
| self._num_total_blocks, |
| self._num_total_chunks)) |
| |
| def append_dont_care(self, num_bytes): |
| """Appends a DONT_CARE chunk to the sparse file. |
| |
| The given number of bytes must be a multiple of the block size. |
| |
| Arguments: |
| num_bytes: Size in number of bytes of the DONT_CARE chunk. |
| """ |
| assert num_bytes % self.block_size == 0 |
| |
| if not self.is_sparse: |
| self._image.seek(0, os.SEEK_END) |
| # This is more efficient that writing NUL bytes since it'll add |
| # a hole on file systems that support sparse files (native |
| # sparse, not Android sparse). |
| self._image.truncate(self._image.tell() + num_bytes) |
| self._read_header() |
| return |
| |
| self._num_total_chunks += 1 |
| self._num_total_blocks += num_bytes // self.block_size |
| self._update_chunks_and_blocks() |
| |
| self._image.seek(self._sparse_end, os.SEEK_SET) |
| self._image.write(struct.pack(ImageChunk.FORMAT, |
| ImageChunk.TYPE_DONT_CARE, |
| 0, # Reserved |
| num_bytes // self.block_size, |
| struct.calcsize(ImageChunk.FORMAT))) |
| self._read_header() |
| |
| def append_raw(self, data): |
| """Appends a RAW chunk to the sparse file. |
| |
| The length of the given data must be a multiple of the block size. |
| |
| Arguments: |
| data: Data to append. |
| """ |
| assert len(data) % self.block_size == 0 |
| |
| if not self.is_sparse: |
| self._image.seek(0, os.SEEK_END) |
| self._image.write(data) |
| self._read_header() |
| return |
| |
| self._num_total_chunks += 1 |
| self._num_total_blocks += len(data) // self.block_size |
| self._update_chunks_and_blocks() |
| |
| self._image.seek(self._sparse_end, os.SEEK_SET) |
| self._image.write(struct.pack(ImageChunk.FORMAT, |
| ImageChunk.TYPE_RAW, |
| 0, # Reserved |
| len(data) // self.block_size, |
| len(data) + |
| struct.calcsize(ImageChunk.FORMAT))) |
| self._image.write(data) |
| self._read_header() |
| |
| def append_fill(self, fill_data, size): |
| """Appends a fill chunk to the sparse file. |
| |
| The total length of the fill data must be a multiple of the block size. |
| |
| Arguments: |
| fill_data: Fill data to append - must be four bytes. |
| size: Number of chunk - must be a multiple of four and the block size. |
| """ |
| assert len(fill_data) == 4 |
| assert size % 4 == 0 |
| assert size % self.block_size == 0 |
| |
| if not self.is_sparse: |
| self._image.seek(0, os.SEEK_END) |
| self._image.write(fill_data * (size//4)) |
| self._read_header() |
| return |
| |
| self._num_total_chunks += 1 |
| self._num_total_blocks += size // self.block_size |
| self._update_chunks_and_blocks() |
| |
| self._image.seek(self._sparse_end, os.SEEK_SET) |
| self._image.write(struct.pack(ImageChunk.FORMAT, |
| ImageChunk.TYPE_FILL, |
| 0, # Reserved |
| size // self.block_size, |
| 4 + struct.calcsize(ImageChunk.FORMAT))) |
| self._image.write(fill_data) |
| self._read_header() |
| |
| def seek(self, offset): |
| """Sets the cursor position for reading from unsparsified file. |
| |
| Arguments: |
| offset: Offset to seek to from the beginning of the file. |
| |
| Raises: |
| RuntimeError: If the given offset is negative. |
| """ |
| if offset < 0: |
| raise RuntimeError('Seeking with negative offset: %d' % offset) |
| self._file_pos = offset |
| |
| def read(self, size): |
| """Reads data from the unsparsified file. |
| |
| This method may return fewer than |size| bytes of data if the end |
| of the file was encountered. |
| |
| The file cursor for reading is advanced by the number of bytes |
| read. |
| |
| Arguments: |
| size: Number of bytes to read. |
| |
| Returns: |
| The data. |
| |
| """ |
| if not self.is_sparse: |
| self._image.seek(self._file_pos) |
| data = self._image.read(size) |
| self._file_pos += len(data) |
| return data |
| |
| # Iterate over all chunks. |
| chunk_idx = bisect.bisect_right(self._chunk_output_offsets, |
| self._file_pos) - 1 |
| data = bytearray() |
| to_go = size |
| while to_go > 0: |
| chunk = self._chunks[chunk_idx] |
| chunk_pos_offset = self._file_pos - chunk.output_offset |
| chunk_pos_to_go = min(chunk.output_size - chunk_pos_offset, to_go) |
| |
| if chunk.chunk_type == ImageChunk.TYPE_RAW: |
| self._image.seek(chunk.input_offset + chunk_pos_offset) |
| data.extend(self._image.read(chunk_pos_to_go)) |
| elif chunk.chunk_type == ImageChunk.TYPE_FILL: |
| all_data = chunk.fill_data*(chunk_pos_to_go // len(chunk.fill_data) + 2) |
| offset_mod = chunk_pos_offset % len(chunk.fill_data) |
| data.extend(all_data[offset_mod:(offset_mod + chunk_pos_to_go)]) |
| else: |
| assert chunk.chunk_type == ImageChunk.TYPE_DONT_CARE |
| data.extend('\0' * chunk_pos_to_go) |
| |
| to_go -= chunk_pos_to_go |
| self._file_pos += chunk_pos_to_go |
| chunk_idx += 1 |
| # Generate partial read in case of EOF. |
| if chunk_idx >= len(self._chunks): |
| break |
| |
| return data |
| |
| def tell(self): |
| """Returns the file cursor position for reading from unsparsified file. |
| |
| Returns: |
| The file cursor position for reading. |
| """ |
| return self._file_pos |
| |
| def truncate(self, size): |
| """Truncates the unsparsified file. |
| |
| Arguments: |
| size: Desired size of unsparsified file. |
| |
| Raises: |
| ValueError: If desired size isn't a multiple of the block size. |
| """ |
| if not self.is_sparse: |
| self._image.truncate(size) |
| self._read_header() |
| return |
| |
| if size % self.block_size != 0: |
| raise ValueError('Cannot truncate to a size which is not a multiple ' |
| 'of the block size') |
| |
| if size == self.image_size: |
| # Trivial where there's nothing to do. |
| return |
| elif size < self.image_size: |
| chunk_idx = bisect.bisect_right(self._chunk_output_offsets, size) - 1 |
| chunk = self._chunks[chunk_idx] |
| if chunk.output_offset != size: |
| # Truncation in the middle of a trunk - need to keep the chunk |
| # and modify it. |
| chunk_idx_for_update = chunk_idx + 1 |
| num_to_keep = size - chunk.output_offset |
| assert num_to_keep % self.block_size == 0 |
| if chunk.chunk_type == ImageChunk.TYPE_RAW: |
| truncate_at = (chunk.chunk_offset + |
| struct.calcsize(ImageChunk.FORMAT) + num_to_keep) |
| data_sz = num_to_keep |
| elif chunk.chunk_type == ImageChunk.TYPE_FILL: |
| truncate_at = (chunk.chunk_offset + |
| struct.calcsize(ImageChunk.FORMAT) + 4) |
| data_sz = 4 |
| else: |
| assert chunk.chunk_type == ImageChunk.TYPE_DONT_CARE |
| truncate_at = chunk.chunk_offset + struct.calcsize(ImageChunk.FORMAT) |
| data_sz = 0 |
| chunk_sz = num_to_keep // self.block_size |
| total_sz = data_sz + struct.calcsize(ImageChunk.FORMAT) |
| self._image.seek(chunk.chunk_offset) |
| self._image.write(struct.pack(ImageChunk.FORMAT, |
| chunk.chunk_type, |
| 0, # Reserved |
| chunk_sz, |
| total_sz)) |
| chunk.output_size = num_to_keep |
| else: |
| # Truncation at trunk boundary. |
| truncate_at = chunk.chunk_offset |
| chunk_idx_for_update = chunk_idx |
| |
| self._num_total_chunks = chunk_idx_for_update |
| self._num_total_blocks = 0 |
| for i in range(0, chunk_idx_for_update): |
| self._num_total_blocks += self._chunks[i].output_size // self.block_size |
| self._update_chunks_and_blocks() |
| self._image.truncate(truncate_at) |
| |
| # We've modified the file so re-read all data. |
| self._read_header() |
| else: |
| # Truncating to grow - just add a DONT_CARE section. |
| self.append_dont_care(size - self.image_size) |
| |
| |
| class AvbDescriptor(object): |
| """Class for AVB descriptor. |
| |
| See the |AvbDescriptor| C struct for more information. |
| |
| Attributes: |
| tag: The tag identifying what kind of descriptor this is. |
| data: The data in the descriptor. |
| """ |
| |
| SIZE = 16 |
| FORMAT_STRING = ('!QQ') # tag, num_bytes_following (descriptor header) |
| |
| def __init__(self, data): |
| """Initializes a new property descriptor. |
| |
| Arguments: |
| data: If not None, must be a bytearray(). |
| |
| Raises: |
| LookupError: If the given descriptor is malformed. |
| """ |
| assert struct.calcsize(self.FORMAT_STRING) == self.SIZE |
| |
| if data: |
| (self.tag, num_bytes_following) = ( |
| struct.unpack(self.FORMAT_STRING, data[0:self.SIZE])) |
| self.data = data[self.SIZE:self.SIZE + num_bytes_following] |
| else: |
| self.tag = None |
| self.data = None |
| |
| def print_desc(self, o): |
| """Print the descriptor. |
| |
| Arguments: |
| o: The object to write the output to. |
| """ |
| o.write(' Unknown descriptor:\n') |
| o.write(' Tag: {}\n'.format(self.tag)) |
| if len(self.data) < 256: |
| o.write(' Data: {} ({} bytes)\n'.format( |
| repr(str(self.data)), len(self.data))) |
| else: |
| o.write(' Data: {} bytes\n'.format(len(self.data))) |
| |
| def encode(self): |
| """Serializes the descriptor. |
| |
| Returns: |
| A bytearray() with the descriptor data. |
| """ |
| num_bytes_following = len(self.data) |
| nbf_with_padding = round_to_multiple(num_bytes_following, 8) |
| padding_size = nbf_with_padding - num_bytes_following |
| desc = struct.pack(self.FORMAT_STRING, self.tag, nbf_with_padding) |
| padding = struct.pack(str(padding_size) + 'x') |
| ret = desc + self.data + padding |
| return bytearray(ret) |
| |
| def verify(self, image_dir, image_ext, expected_chain_partitions_map, |
| image_containing_descriptor, accept_zeroed_hashtree): |
| """Verifies contents of the descriptor - used in verify_image sub-command. |
| |
| Arguments: |
| image_dir: The directory of the file being verified. |
| image_ext: The extension of the file being verified (e.g. '.img'). |
| expected_chain_partitions_map: A map from partition name to the |
| tuple (rollback_index_location, key_blob). |
| image_containing_descriptor: The image the descriptor is in. |
| accept_zeroed_hashtree: If True, don't fail if hashtree or FEC data is |
| zeroed out. |
| |
| Returns: |
| True if the descriptor verifies, False otherwise. |
| """ |
| # Deletes unused parameters to prevent pylint warning unused-argument. |
| del image_dir, image_ext, expected_chain_partitions_map |
| del image_containing_descriptor, accept_zeroed_hashtree |
| |
| # Nothing to do. |
| return True |
| |
| |
| class AvbPropertyDescriptor(AvbDescriptor): |
| """A class for property descriptors. |
| |
| See the |AvbPropertyDescriptor| C struct for more information. |
| |
| Attributes: |
| key: The key. |
| value: The key. |
| """ |
| |
| TAG = 0 |
| SIZE = 32 |
| FORMAT_STRING = ('!QQ' # tag, num_bytes_following (descriptor header) |
| 'Q' # key size (bytes) |
| 'Q') # value size (bytes) |
| |
| def __init__(self, data=None): |
| """Initializes a new property descriptor. |
| |
| Arguments: |
| data: If not None, must be a bytearray of size |SIZE|. |
| |
| Raises: |
| LookupError: If the given descriptor is malformed. |
| """ |
| AvbDescriptor.__init__(self, None) |
| assert struct.calcsize(self.FORMAT_STRING) == self.SIZE |
| |
| if data: |
| (tag, num_bytes_following, key_size, |
| value_size) = struct.unpack(self.FORMAT_STRING, data[0:self.SIZE]) |
| expected_size = round_to_multiple( |
| self.SIZE - 16 + key_size + 1 + value_size + 1, 8) |
| if tag != self.TAG or num_bytes_following != expected_size: |
| raise LookupError('Given data does not look like a property ' |
| 'descriptor.') |
| self.key = data[self.SIZE:(self.SIZE + key_size)] |
| self.value = data[(self.SIZE + key_size + 1):(self.SIZE + key_size + 1 + |
| value_size)] |
| else: |
| self.key = '' |
| self.value = '' |
| |
| def print_desc(self, o): |
| """Print the descriptor. |
| |
| Arguments: |
| o: The object to write the output to. |
| """ |
| if len(self.value) < 256: |
| o.write(' Prop: {} -> {}\n'.format(self.key, repr(str(self.value)))) |
| else: |
| o.write(' Prop: {} -> ({} bytes)\n'.format(self.key, len(self.value))) |
| |
| def encode(self): |
| """Serializes the descriptor. |
| |
| Returns: |
| A bytearray() with the descriptor data. |
| """ |
| num_bytes_following = self.SIZE + len(self.key) + len(self.value) + 2 - 16 |
| nbf_with_padding = round_to_multiple(num_bytes_following, 8) |
| padding_size = nbf_with_padding - num_bytes_following |
| desc = struct.pack(self.FORMAT_STRING, self.TAG, nbf_with_padding, |
| len(self.key), len(self.value)) |
| padding = struct.pack(str(padding_size) + 'x') |
| ret = desc + self.key + '\0' + self.value + '\0' + padding |
| return bytearray(ret) |
| |
| def verify(self, image_dir, image_ext, expected_chain_partitions_map, |
| image_containing_descriptor, accept_zeroed_hashtree): |
| """Verifies contents of the descriptor - used in verify_image sub-command. |
| |
| Arguments: |
| image_dir: The directory of the file being verified. |
| image_ext: The extension of the file being verified (e.g. '.img'). |
| expected_chain_partitions_map: A map from partition name to the |
| tuple (rollback_index_location, key_blob). |
| image_containing_descriptor: The image the descriptor is in. |
| accept_zeroed_hashtree: If True, don't fail if hashtree or FEC data is |
| zeroed out. |
| |
| Returns: |
| True if the descriptor verifies, False otherwise. |
| """ |
| # Nothing to do. |
| return True |
| |
| |
| class AvbHashtreeDescriptor(AvbDescriptor): |
| """A class for hashtree descriptors. |
| |
| See the |AvbHashtreeDescriptor| C struct for more information. |
| |
| Attributes: |
| dm_verity_version: dm-verity version used. |
| image_size: Size of the image, after rounding up to |block_size|. |
| tree_offset: Offset of the hash tree in the file. |
| tree_size: Size of the tree. |
| data_block_size: Data block size |
| hash_block_size: Hash block size |
| fec_num_roots: Number of roots used for FEC (0 if FEC is not used). |
| fec_offset: Offset of FEC data (0 if FEC is not used). |
| fec_size: Size of FEC data (0 if FEC is not used). |
| hash_algorithm: Hash algorithm used. |
| partition_name: Partition name. |
| salt: Salt used. |
| root_digest: Root digest. |
| flags: Descriptor flags (see avb_hashtree_descriptor.h). |
| """ |
| |
| TAG = 1 |
| RESERVED = 60 |
| SIZE = 120 + RESERVED |
| FORMAT_STRING = ('!QQ' # tag, num_bytes_following (descriptor header) |
| 'L' # dm-verity version used |
| 'Q' # image size (bytes) |
| 'Q' # tree offset (bytes) |
| 'Q' # tree size (bytes) |
| 'L' # data block size (bytes) |
| 'L' # hash block size (bytes) |
| 'L' # FEC number of roots |
| 'Q' # FEC offset (bytes) |
| 'Q' # FEC size (bytes) |
| '32s' # hash algorithm used |
| 'L' # partition name (bytes) |
| 'L' # salt length (bytes) |
| 'L' # root digest length (bytes) |
| 'L' + # flags |
| str(RESERVED) + 's') # reserved |
| |
| def __init__(self, data=None): |
| """Initializes a new hashtree descriptor. |
| |
| Arguments: |
| data: If not None, must be a bytearray of size |SIZE|. |
| |
| Raises: |
| LookupError: If the given descriptor is malformed. |
| """ |
| AvbDescriptor.__init__(self, None) |
| assert struct.calcsize(self.FORMAT_STRING) == self.SIZE |
| |
| if data: |
| (tag, num_bytes_following, self.dm_verity_version, self.image_size, |
| self.tree_offset, self.tree_size, self.data_block_size, |
| self.hash_block_size, self.fec_num_roots, self.fec_offset, self.fec_size, |
| self.hash_algorithm, partition_name_len, salt_len, |
| root_digest_len, self.flags, _) = struct.unpack(self.FORMAT_STRING, |
| data[0:self.SIZE]) |
| expected_size = round_to_multiple( |
| self.SIZE - 16 + partition_name_len + salt_len + root_digest_len, 8) |
| if tag != self.TAG or num_bytes_following != expected_size: |
| raise LookupError('Given data does not look like a hashtree ' |
| 'descriptor.') |
| # Nuke NUL-bytes at the end. |
| self.hash_algorithm = self.hash_algorithm.split('\0', 1)[0] |
| o = 0 |
| self.partition_name = str(data[(self.SIZE + o):(self.SIZE + o + |
| partition_name_len)]) |
| # Validate UTF-8 - decode() raises UnicodeDecodeError if not valid UTF-8. |
| self.partition_name.decode('utf-8') |
| o += partition_name_len |
| self.salt = data[(self.SIZE + o):(self.SIZE + o + salt_len)] |
| o += salt_len |
| self.root_digest = data[(self.SIZE + o):(self.SIZE + o + root_digest_len)] |
| if root_digest_len != len(hashlib.new(name=self.hash_algorithm).digest()): |
| if root_digest_len != 0: |
| raise LookupError('root_digest_len doesn\'t match hash algorithm') |
| |
| else: |
| self.dm_verity_version = 0 |
| self.image_size = 0 |
| self.tree_offset = 0 |
| self.tree_size = 0 |
| self.data_block_size = 0 |
| self.hash_block_size = 0 |
| self.fec_num_roots = 0 |
| self.fec_offset = 0 |
| self.fec_size = 0 |
| self.hash_algorithm = '' |
| self.partition_name = '' |
| self.salt = bytearray() |
| self.root_digest = bytearray() |
| self.flags = 0 |
| |
| def print_desc(self, o): |
| """Print the descriptor. |
| |
| Arguments: |
| o: The object to write the output to. |
| """ |
| o.write(' Hashtree descriptor:\n') |
| o.write(' Version of dm-verity: {}\n'.format(self.dm_verity_version)) |
| o.write(' Image Size: {} bytes\n'.format(self.image_size)) |
| o.write(' Tree Offset: {}\n'.format(self.tree_offset)) |
| o.write(' Tree Size: {} bytes\n'.format(self.tree_size)) |
| o.write(' Data Block Size: {} bytes\n'.format( |
| self.data_block_size)) |
| o.write(' Hash Block Size: {} bytes\n'.format( |
| self.hash_block_size)) |
| o.write(' FEC num roots: {}\n'.format(self.fec_num_roots)) |
| o.write(' FEC offset: {}\n'.format(self.fec_offset)) |
| o.write(' FEC size: {} bytes\n'.format(self.fec_size)) |
| o.write(' Hash Algorithm: {}\n'.format(self.hash_algorithm)) |
| o.write(' Partition Name: {}\n'.format(self.partition_name)) |
| o.write(' Salt: {}\n'.format(str(self.salt).encode( |
| 'hex'))) |
| o.write(' Root Digest: {}\n'.format(str( |
| self.root_digest).encode('hex'))) |
| o.write(' Flags: {}\n'.format(self.flags)) |
| |
| def encode(self): |
| """Serializes the descriptor. |
| |
| Returns: |
| A bytearray() with the descriptor data. |
| """ |
| encoded_name = self.partition_name.encode('utf-8') |
| num_bytes_following = (self.SIZE + len(encoded_name) + len(self.salt) + |
| len(self.root_digest) - 16) |
| nbf_with_padding = round_to_multiple(num_bytes_following, 8) |
| padding_size = nbf_with_padding - num_bytes_following |
| desc = struct.pack(self.FORMAT_STRING, self.TAG, nbf_with_padding, |
| self.dm_verity_version, self.image_size, |
| self.tree_offset, self.tree_size, self.data_block_size, |
| self.hash_block_size, self.fec_num_roots, |
| self.fec_offset, self.fec_size, self.hash_algorithm, |
| len(encoded_name), len(self.salt), len(self.root_digest), |
| self.flags, self.RESERVED*'\0') |
| padding = struct.pack(str(padding_size) + 'x') |
| ret = desc + encoded_name + self.salt + self.root_digest + padding |
| return bytearray(ret) |
| |
| def verify(self, image_dir, image_ext, expected_chain_partitions_map, |
| image_containing_descriptor, accept_zeroed_hashtree): |
| """Verifies contents of the descriptor - used in verify_image sub-command. |
| |
| Arguments: |
| image_dir: The directory of the file being verified. |
| image_ext: The extension of the file being verified (e.g. '.img'). |
| expected_chain_partitions_map: A map from partition name to the |
| tuple (rollback_index_location, key_blob). |
| image_containing_descriptor: The image the descriptor is in. |
| accept_zeroed_hashtree: If True, don't fail if hashtree or FEC data is |
| zeroed out. |
| |
| Returns: |
| True if the descriptor verifies, False otherwise. |
| """ |
| if not self.partition_name: |
| image_filename = image_containing_descriptor.filename |
| image = image_containing_descriptor |
| else: |
| image_filename = os.path.join(image_dir, self.partition_name + image_ext) |
| image = ImageHandler(image_filename) |
| # Generate the hashtree and checks that it matches what's in the file. |
| digest_size = len(hashlib.new(name=self.hash_algorithm).digest()) |
| digest_padding = round_to_pow2(digest_size) - digest_size |
| (hash_level_offsets, tree_size) = calc_hash_level_offsets( |
| self.image_size, self.data_block_size, digest_size + digest_padding) |
| root_digest, hash_tree = generate_hash_tree(image, self.image_size, |
| self.data_block_size, |
| self.hash_algorithm, self.salt, |
| digest_padding, |
| hash_level_offsets, |
| tree_size) |
| # The root digest must match unless it is not embedded in the descriptor. |
| if self.root_digest and root_digest != self.root_digest: |
| sys.stderr.write('hashtree of {} does not match descriptor\n'. |
| format(image_filename)) |
| return False |
| # ... also check that the on-disk hashtree matches |
| image.seek(self.tree_offset) |
| hash_tree_ondisk = image.read(self.tree_size) |
| is_zeroed = (self.tree_size == 0) or (hash_tree_ondisk[0:8] == 'ZeRoHaSH') |
| if is_zeroed and accept_zeroed_hashtree: |
| print('{}: skipping verification since hashtree is zeroed and ' |
| '--accept_zeroed_hashtree was given' |
| .format(self.partition_name)) |
| else: |
| if hash_tree != hash_tree_ondisk: |
| sys.stderr.write('hashtree of {} contains invalid data\n'. |
| format(image_filename)) |
| return False |
| print('{}: Successfully verified {} hashtree of {} for image of {} bytes' |
| .format(self.partition_name, self.hash_algorithm, image.filename, |
| self.image_size)) |
| # TODO(zeuthen): we could also verify that the FEC stored in the image is |
| # correct but this a) currently requires the 'fec' binary; and b) takes a |
| # long time; and c) is not strictly needed for verification purposes as |
| # we've already verified the root hash. |
| return True |
| |
| |
| class AvbHashDescriptor(AvbDescriptor): |
| """A class for hash descriptors. |
| |
| See the |AvbHashDescriptor| C struct for more information. |
| |
| Attributes: |
| image_size: Image size, in bytes. |
| hash_algorithm: Hash algorithm used. |
| partition_name: Partition name. |
| salt: Salt used. |
| digest: The hash value of salt and data combined. |
| flags: The descriptor flags (see avb_hash_descriptor.h). |
| """ |
| |
| TAG = 2 |
| RESERVED = 60 |
| SIZE = 72 + RESERVED |
| FORMAT_STRING = ('!QQ' # tag, num_bytes_following (descriptor header) |
| 'Q' # image size (bytes) |
| '32s' # hash algorithm used |
| 'L' # partition name (bytes) |
| 'L' # salt length (bytes) |
| 'L' # digest length (bytes) |
| 'L' + # flags |
| str(RESERVED) + 's') # reserved |
| |
| def __init__(self, data=None): |
| """Initializes a new hash descriptor. |
| |
| Arguments: |
| data: If not None, must be a bytearray of size |SIZE|. |
| |
| Raises: |
| LookupError: If the given descriptor is malformed. |
| """ |
| AvbDescriptor.__init__(self, None) |
| assert struct.calcsize(self.FORMAT_STRING) == self.SIZE |
| |
| if data: |
| (tag, num_bytes_following, self.image_size, self.hash_algorithm, |
| partition_name_len, salt_len, |
| digest_len, self.flags, _) = struct.unpack(self.FORMAT_STRING, |
| data[0:self.SIZE]) |
| expected_size = round_to_multiple( |
| self.SIZE - 16 + partition_name_len + salt_len + digest_len, 8) |
| if tag != self.TAG or num_bytes_following != expected_size: |
| raise LookupError('Given data does not look like a hash ' 'descriptor.') |
| # Nuke NUL-bytes at the end. |
| self.hash_algorithm = self.hash_algorithm.split('\0', 1)[0] |
| o = 0 |
| self.partition_name = str(data[(self.SIZE + o):(self.SIZE + o + |
| partition_name_len)]) |
| # Validate UTF-8 - decode() raises UnicodeDecodeError if not valid UTF-8. |
| self.partition_name.decode('utf-8') |
| o += partition_name_len |
| self.salt = data[(self.SIZE + o):(self.SIZE + o + salt_len)] |
| o += salt_len |
| self.digest = data[(self.SIZE + o):(self.SIZE + o + digest_len)] |
| if digest_len != len(hashlib.new(name=self.hash_algorithm).digest()): |
| if digest_len != 0: |
| raise LookupError('digest_len doesn\'t match hash algorithm') |
| |
| else: |
| self.image_size = 0 |
| self.hash_algorithm = '' |
| self.partition_name = '' |
| self.salt = bytearray() |
| self.digest = bytearray() |
| self.flags = 0 |
| |
| def print_desc(self, o): |
| """Print the descriptor. |
| |
| Arguments: |
| o: The object to write the output to. |
| """ |
| o.write(' Hash descriptor:\n') |
| o.write(' Image Size: {} bytes\n'.format(self.image_size)) |
| o.write(' Hash Algorithm: {}\n'.format(self.hash_algorithm)) |
| o.write(' Partition Name: {}\n'.format(self.partition_name)) |
| o.write(' Salt: {}\n'.format(str(self.salt).encode( |
| 'hex'))) |
| o.write(' Digest: {}\n'.format(str(self.digest).encode( |
| 'hex'))) |
| o.write(' Flags: {}\n'.format(self.flags)) |
| |
| def encode(self): |
| """Serializes the descriptor. |
| |
| Returns: |
| A bytearray() with the descriptor data. |
| """ |
| encoded_name = self.partition_name.encode('utf-8') |
| num_bytes_following = ( |
| self.SIZE + len(encoded_name) + len(self.salt) + len(self.digest) - 16) |
| nbf_with_padding = round_to_multiple(num_bytes_following, 8) |
| padding_size = nbf_with_padding - num_bytes_following |
| desc = struct.pack(self.FORMAT_STRING, self.TAG, nbf_with_padding, |
| self.image_size, self.hash_algorithm, len(encoded_name), |
| len(self.salt), len(self.digest), self.flags, |
| self.RESERVED*'\0') |
| padding = struct.pack(str(padding_size) + 'x') |
| ret = desc + encoded_name + self.salt + self.digest + padding |
| return bytearray(ret) |
| |
| def verify(self, image_dir, image_ext, expected_chain_partitions_map, |
| image_containing_descriptor, accept_zeroed_hashtree): |
| """Verifies contents of the descriptor - used in verify_image sub-command. |
| |
| Arguments: |
| image_dir: The directory of the file being verified. |
| image_ext: The extension of the file being verified (e.g. '.img'). |
| expected_chain_partitions_map: A map from partition name to the |
| tuple (rollback_index_location, key_blob). |
| image_containing_descriptor: The image the descriptor is in. |
| accept_zeroed_hashtree: If True, don't fail if hashtree or FEC data is |
| zeroed out. |
| |
| Returns: |
| True if the descriptor verifies, False otherwise. |
| """ |
| if not self.partition_name: |
| image_filename = image_containing_descriptor.filename |
| image = image_containing_descriptor |
| else: |
| image_filename = os.path.join(image_dir, self.partition_name + image_ext) |
| image = ImageHandler(image_filename) |
| data = image.read(self.image_size) |
| ha = hashlib.new(self.hash_algorithm) |
| ha.update(self.salt) |
| ha.update(data) |
| digest = ha.digest() |
| # The digest must match unless there is no digest in the descriptor. |
| if self.digest and digest != self.digest: |
| sys.stderr.write('{} digest of {} does not match digest in descriptor\n'. |
| format(self.hash_algorithm, image_filename)) |
| return False |
| print('{}: Successfully verified {} hash of {} for image of {} bytes' |
| .format(self.partition_name, self.hash_algorithm, image.filename, |
| self.image_size)) |
| return True |
| |
| |
| class AvbKernelCmdlineDescriptor(AvbDescriptor): |
| """A class for kernel command-line descriptors. |
| |
| See the |AvbKernelCmdlineDescriptor| C struct for more information. |
| |
| Attributes: |
| flags: Flags. |
| kernel_cmdline: The kernel command-line. |
| """ |
| |
| TAG = 3 |
| SIZE = 24 |
| FORMAT_STRING = ('!QQ' # tag, num_bytes_following (descriptor header) |
| 'L' # flags |
| 'L') # cmdline length (bytes) |
| |
| FLAGS_USE_ONLY_IF_HASHTREE_NOT_DISABLED = (1 << 0) |
| FLAGS_USE_ONLY_IF_HASHTREE_DISABLED = (1 << 1) |
| |
| def __init__(self, data=None): |
| """Initializes a new kernel cmdline descriptor. |
| |
| Arguments: |
| data: If not None, must be a bytearray of size |SIZE|. |
| |
| Raises: |
| LookupError: If the given descriptor is malformed. |
| """ |
| AvbDescriptor.__init__(self, None) |
| assert struct.calcsize(self.FORMAT_STRING) == self.SIZE |
| |
| if data: |
| (tag, num_bytes_following, self.flags, kernel_cmdline_length) = ( |
| struct.unpack(self.FORMAT_STRING, data[0:self.SIZE])) |
| expected_size = round_to_multiple(self.SIZE - 16 + kernel_cmdline_length, |
| 8) |
| if tag != self.TAG or num_bytes_following != expected_size: |
| raise LookupError('Given data does not look like a kernel cmdline ' |
| 'descriptor.') |
| # Nuke NUL-bytes at the end. |
| self.kernel_cmdline = str(data[self.SIZE:(self.SIZE + |
| kernel_cmdline_length)]) |
| # Validate UTF-8 - decode() raises UnicodeDecodeError if not valid UTF-8. |
| self.kernel_cmdline.decode('utf-8') |
| else: |
| self.flags = 0 |
| self.kernel_cmdline = '' |
| |
| def print_desc(self, o): |
| """Print the descriptor. |
| |
| Arguments: |
| o: The object to write the output to. |
| """ |
| o.write(' Kernel Cmdline descriptor:\n') |
| o.write(' Flags: {}\n'.format(self.flags)) |
| o.write(' Kernel Cmdline: {}\n'.format(repr( |
| self.kernel_cmdline))) |
| |
| def encode(self): |
| """Serializes the descriptor. |
| |
| Returns: |
| A bytearray() with the descriptor data. |
| """ |
| encoded_str = self.kernel_cmdline.encode('utf-8') |
| num_bytes_following = (self.SIZE + len(encoded_str) - 16) |
| nbf_with_padding = round_to_multiple(num_bytes_following, 8) |
| padding_size = nbf_with_padding - num_bytes_following |
| desc = struct.pack(self.FORMAT_STRING, self.TAG, nbf_with_padding, |
| self.flags, len(encoded_str)) |
| padding = struct.pack(str(padding_size) + 'x') |
| ret = desc + encoded_str + padding |
| return bytearray(ret) |
| |
| def verify(self, image_dir, image_ext, expected_chain_partitions_map, |
| image_containing_descriptor, accept_zeroed_hashtree): |
| """Verifies contents of the descriptor - used in verify_image sub-command. |
| |
| Arguments: |
| image_dir: The directory of the file being verified. |
| image_ext: The extension of the file being verified (e.g. '.img'). |
| expected_chain_partitions_map: A map from partition name to the |
| tuple (rollback_index_location, key_blob). |
| image_containing_descriptor: The image the descriptor is in. |
| accept_zeroed_hashtree: If True, don't fail if hashtree or FEC data is |
| zeroed out. |
| |
| Returns: |
| True if the descriptor verifies, False otherwise. |
| """ |
| # Nothing to verify. |
| return True |
| |
| |
| class AvbChainPartitionDescriptor(AvbDescriptor): |
| """A class for chained partition descriptors. |
| |
| See the |AvbChainPartitionDescriptor| C struct for more information. |
| |
| Attributes: |
| rollback_index_location: The rollback index location to use. |
| partition_name: Partition name. |
| public_key: Bytes for the public key. |
| """ |
| |
| TAG = 4 |
| RESERVED = 64 |
| SIZE = 28 + RESERVED |
| FORMAT_STRING = ('!QQ' # tag, num_bytes_following (descriptor header) |
| 'L' # rollback_index_location |
| 'L' # partition_name_size (bytes) |
| 'L' + # public_key_size (bytes) |
| str(RESERVED) + 's') # reserved |
| |
| def __init__(self, data=None): |
| """Initializes a new chain partition descriptor. |
| |
| Arguments: |
| data: If not None, must be a bytearray of size |SIZE|. |
| |
| Raises: |
| LookupError: If the given descriptor is malformed. |
| """ |
| AvbDescriptor.__init__(self, None) |
| assert struct.calcsize(self.FORMAT_STRING) == self.SIZE |
| |
| if data: |
| (tag, num_bytes_following, self.rollback_index_location, |
| partition_name_len, |
| public_key_len, _) = struct.unpack(self.FORMAT_STRING, data[0:self.SIZE]) |
| expected_size = round_to_multiple( |
| self.SIZE - 16 + partition_name_len + public_key_len, 8) |
| if tag != self.TAG or num_bytes_following != expected_size: |
| raise LookupError('Given data does not look like a chain partition ' |
| 'descriptor.') |
| o = 0 |
| self.partition_name = str(data[(self.SIZE + o):(self.SIZE + o + |
| partition_name_len)]) |
| # Validate UTF-8 - decode() raises UnicodeDecodeError if not valid UTF-8. |
| self.partition_name.decode('utf-8') |
| o += partition_name_len |
| self.public_key = data[(self.SIZE + o):(self.SIZE + o + public_key_len)] |
| |
| else: |
| self.rollback_index_location = 0 |
| self.partition_name = '' |
| self.public_key = bytearray() |
| |
| def print_desc(self, o): |
| """Print the descriptor. |
| |
| Arguments: |
| o: The object to write the output to. |
| """ |
| o.write(' Chain Partition descriptor:\n') |
| o.write(' Partition Name: {}\n'.format(self.partition_name)) |
| o.write(' Rollback Index Location: {}\n'.format( |
| self.rollback_index_location)) |
| # Just show the SHA1 of the key, for size reasons. |
| hexdig = hashlib.sha1(self.public_key).hexdigest() |
| o.write(' Public key (sha1): {}\n'.format(hexdig)) |
| |
| def encode(self): |
| """Serializes the descriptor. |
| |
| Returns: |
| A bytearray() with the descriptor data. |
| """ |
| encoded_name = self.partition_name.encode('utf-8') |
| num_bytes_following = ( |
| self.SIZE + len(encoded_name) + len(self.public_key) - 16) |
| nbf_with_padding = round_to_multiple(num_bytes_following, 8) |
| padding_size = nbf_with_padding - num_bytes_following |
| desc = struct.pack(self.FORMAT_STRING, self.TAG, nbf_with_padding, |
| self.rollback_index_location, len(encoded_name), |
| len(self.public_key), self.RESERVED*'\0') |
| padding = struct.pack(str(padding_size) + 'x') |
| ret = desc + encoded_name + self.public_key + padding |
| return bytearray(ret) |
| |
| def verify(self, image_dir, image_ext, expected_chain_partitions_map, |
| image_containing_descriptor, accept_zeroed_hashtree): |
| """Verifies contents of the descriptor - used in verify_image sub-command. |
| |
| Arguments: |
| image_dir: The directory of the file being verified. |
| image_ext: The extension of the file being verified (e.g. '.img'). |
| expected_chain_partitions_map: A map from partition name to the |
| tuple (rollback_index_location, key_blob). |
| image_containing_descriptor: The image the descriptor is in. |
| accept_zeroed_hashtree: If True, don't fail if hashtree or FEC data is |
| zeroed out. |
| |
| Returns: |
| True if the descriptor verifies, False otherwise. |
| """ |
| value = expected_chain_partitions_map.get(self.partition_name) |
| if not value: |
| sys.stderr.write('No expected chain partition for partition {}. Use ' |
| '--expected_chain_partition to specify expected ' |
| 'contents or --follow_chain_partitions.\n'. |
| format(self.partition_name)) |
| return False |
| rollback_index_location, pk_blob = value |
| |
| if self.rollback_index_location != rollback_index_location: |
| sys.stderr.write('Expected rollback_index_location {} does not ' |
| 'match {} in descriptor for partition {}\n'. |
| format(rollback_index_location, |
| self.rollback_index_location, |
| self.partition_name)) |
| return False |
| |
| if self.public_key != pk_blob: |
| sys.stderr.write('Expected public key blob does not match public ' |
| 'key blob in descriptor for partition {}\n'. |
| format(self.partition_name)) |
| return False |
| |
| print('{}: Successfully verified chain partition descriptor matches ' |
| 'expected data'.format(self.partition_name)) |
| |
| return True |
| |
| DESCRIPTOR_CLASSES = [ |
| AvbPropertyDescriptor, AvbHashtreeDescriptor, AvbHashDescriptor, |
| AvbKernelCmdlineDescriptor, AvbChainPartitionDescriptor |
| ] |
| |
| |
| def parse_descriptors(data): |
| """Parses a blob of data into descriptors. |
| |
| Arguments: |
| data: A bytearray() with encoded descriptors. |
| |
| Returns: |
| A list of instances of objects derived from AvbDescriptor. For |
| unknown descriptors, the class AvbDescriptor is used. |
| """ |
| o = 0 |
| ret = [] |
| while o < len(data): |
| tag, nb_following = struct.unpack('!2Q', data[o:o + 16]) |
| if tag < len(DESCRIPTOR_CLASSES): |
| c = DESCRIPTOR_CLASSES[tag] |
| else: |
| c = AvbDescriptor |
| ret.append(c(bytearray(data[o:o + 16 + nb_following]))) |
| o += 16 + nb_following |
| return ret |
| |
| |
| class AvbFooter(object): |
| """A class for parsing and writing footers. |
| |
| Footers are stored at the end of partitions and point to where the |
| AvbVBMeta blob is located. They also contain the original size of |
| the image before AVB information was added. |
| |
| Attributes: |
| magic: Magic for identifying the footer, see |MAGIC|. |
| version_major: The major version of avbtool that wrote the footer. |
| version_minor: The minor version of avbtool that wrote the footer. |
| original_image_size: Original image size. |
| vbmeta_offset: Offset of where the AvbVBMeta blob is stored. |
| vbmeta_size: Size of the AvbVBMeta blob. |
| """ |
| |
| MAGIC = 'AVBf' |
| SIZE = 64 |
| RESERVED = 28 |
| FOOTER_VERSION_MAJOR = AVB_FOOTER_VERSION_MAJOR |
| FOOTER_VERSION_MINOR = AVB_FOOTER_VERSION_MINOR |
| FORMAT_STRING = ('!4s2L' # magic, 2 x version. |
| 'Q' # Original image size. |
| 'Q' # Offset of VBMeta blob. |
| 'Q' + # Size of VBMeta blob. |
| str(RESERVED) + 'x') # padding for reserved bytes |
| |
| def __init__(self, data=None): |
| """Initializes a new footer object. |
| |
| Arguments: |
| data: If not None, must be a bytearray of size 4096. |
| |
| Raises: |
| LookupError: If the given footer is malformed. |
| struct.error: If the given data has no footer. |
| """ |
| assert struct.calcsize(self.FORMAT_STRING) == self.SIZE |
| |
| if data: |
| (self.magic, self.version_major, self.version_minor, |
| self.original_image_size, self.vbmeta_offset, |
| self.vbmeta_size) = struct.unpack(self.FORMAT_STRING, data) |
| if self.magic != self.MAGIC: |
| raise LookupError('Given data does not look like a AVB footer.') |
| else: |
| self.magic = self.MAGIC |
| self.version_major = self.FOOTER_VERSION_MAJOR |
| self.version_minor = self.FOOTER_VERSION_MINOR |
| self.original_image_size = 0 |
| self.vbmeta_offset = 0 |
| self.vbmeta_size = 0 |
| |
| def encode(self): |
| """Gets a string representing the binary encoding of the footer. |
| |
| Returns: |
| A bytearray() with a binary representation of the footer. |
| """ |
| return struct.pack(self.FORMAT_STRING, self.magic, self.version_major, |
| self.version_minor, self.original_image_size, |
| self.vbmeta_offset, self.vbmeta_size) |
| |
| |
| class AvbVBMetaHeader(object): |
| """A class for parsing and writing AVB vbmeta images. |
| |
| The attributes correspond to the |AvbVBMetaImageHeader| struct defined in |
| avb_vbmeta_image.h. |
| |
| Attributes: |
| magic: Four bytes equal to "AVB0" (AVB_MAGIC). |
| required_libavb_version_major: The major version of libavb required for this |
| header. |
| required_libavb_version_minor: The minor version of libavb required for this |
| header. |
| authentication_data_block_size: The size of the signature block. |
| auxiliary_data_block_size: The size of the auxiliary data block. |
| algorithm_type: The verification algorithm used, see |AvbAlgorithmType| |
| enum. |
| hash_offset: Offset into the "Authentication data" block of hash data. |
| hash_size: Length of the hash data. |
| signature_offset: Offset into the "Authentication data" block of signature |
| data. |
| signature_size: Length of the signature data. |
| public_key_offset: Offset into the "Auxiliary data" block of public key |
| data. |
| public_key_size: Length of the public key data. |
| public_key_metadata_offset: Offset into the "Auxiliary data" block of public |
| key metadata. |
| public_key_metadata_size: Length of the public key metadata. Must be set to |
| zero if there is no public key metadata. |
| descriptors_offset: Offset into the "Auxiliary data" block of descriptor |
| data. |
| descriptors_size: Length of descriptor data. |
| rollback_index: The rollback index which can be used to prevent rollback to |
| older versions. |
| flags: Flags from the AvbVBMetaImageFlags enumeration. This must be set to |
| zero if the vbmeta image is not a top-level image. |
| release_string: The release string from avbtool, e.g. "avbtool 1.0.0" or |
| "avbtool 1.0.0 xyz_board Git-234abde89". Is guaranteed to be NUL |
| terminated. Applications must not make assumptions about how this |
| string is formatted. |
| """ |
| |
| SIZE = 256 |
| |
| # Keep in sync with |reserved0| and |reserved| field of |
| # |AvbVBMetaImageHeader|. |
| RESERVED0 = 4 |
| RESERVED = 80 |
| |
| # Keep in sync with |AvbVBMetaImageHeader|. |
| FORMAT_STRING = ('!4s2L' # magic, 2 x version |
| '2Q' # 2 x block size |
| 'L' # algorithm type |
| '2Q' # offset, size (hash) |
| '2Q' # offset, size (signature) |
| '2Q' # offset, size (public key) |
| '2Q' # offset, size (public key metadata) |
| '2Q' # offset, size (descriptors) |
| 'Q' # rollback_index |
| 'L' + # flags |
| str(RESERVED0) + 'x' + # padding for reserved bytes |
| '47sx' + # NUL-terminated release string |
| str(RESERVED) + 'x') # padding for reserved bytes |
| |
| def __init__(self, data=None): |
| """Initializes a new header object. |
| |
| Arguments: |
| data: If not None, must be a bytearray of size 8192. |
| |
| Raises: |
| Exception: If the given data is malformed. |
| """ |
| assert struct.calcsize(self.FORMAT_STRING) == self.SIZE |
| |
| if data: |
| (self.magic, self.required_libavb_version_major, |
| self.required_libavb_version_minor, |
| self.authentication_data_block_size, self.auxiliary_data_block_size, |
| self.algorithm_type, self.hash_offset, self.hash_size, |
| self.signature_offset, self.signature_size, self.public_key_offset, |
| self.public_key_size, self.public_key_metadata_offset, |
| self.public_key_metadata_size, self.descriptors_offset, |
| self.descriptors_size, |
| self.rollback_index, |
| self.flags, |
| self.release_string) = struct.unpack(self.FORMAT_STRING, data) |
| # Nuke NUL-bytes at the end of the string. |
| if self.magic != 'AVB0': |
| raise AvbError('Given image does not look like a vbmeta image.') |
| else: |
| self.magic = 'AVB0' |
| # Start by just requiring version 1.0. Code that adds features |
| # in a future version can use bump_required_libavb_version_minor() to |
| # bump the minor. |
| self.required_libavb_version_major = AVB_VERSION_MAJOR |
| self.required_libavb_version_minor = 0 |
| self.authentication_data_block_size = 0 |
| self.auxiliary_data_block_size = 0 |
| self.algorithm_type = 0 |
| self.hash_offset = 0 |
| self.hash_size = 0 |
| self.signature_offset = 0 |
| self.signature_size = 0 |
| self.public_key_offset = 0 |
| self.public_key_size = 0 |
| self.public_key_metadata_offset = 0 |
| self.public_key_metadata_size = 0 |
| self.descriptors_offset = 0 |
| self.descriptors_size = 0 |
| self.rollback_index = 0 |
| self.flags = 0 |
| self.release_string = get_release_string() |
| |
| def bump_required_libavb_version_minor(self, minor): |
| """Function to bump required_libavb_version_minor. |
| |
| Call this when writing data that requires a specific libavb |
| version to parse it. |
| |
| Arguments: |
| minor: The minor version of libavb that has support for the feature. |
| """ |
| self.required_libavb_version_minor = ( |
| max(self.required_libavb_version_minor, minor)) |
| |
| def save(self, output): |
| """Serializes the header (256 bytes) to disk. |
| |
| Arguments: |
| output: The object to write the output to. |
| """ |
| output.write(struct.pack( |
| self.FORMAT_STRING, self.magic, self.required_libavb_version_major, |
| self.required_libavb_version_minor, self.authentication_data_block_size, |
| self.auxiliary_data_block_size, self.algorithm_type, self.hash_offset, |
| self.hash_size, self.signature_offset, self.signature_size, |
| self.public_key_offset, self.public_key_size, |
| self.public_key_metadata_offset, self.public_key_metadata_size, |
| self.descriptors_offset, self.descriptors_size, self.rollback_index, |
| self.flags, self.release_string)) |
| |
| def encode(self): |
| """Serializes the header (256) to a bytearray(). |
| |
| Returns: |
| A bytearray() with the encoded header. |
| """ |
| return struct.pack(self.FORMAT_STRING, self.magic, |
| self.required_libavb_version_major, |
| self.required_libavb_version_minor, |
| self.authentication_data_block_size, |
| self.auxiliary_data_block_size, self.algorithm_type, |
| self.hash_offset, self.hash_size, self.signature_offset, |
| self.signature_size, self.public_key_offset, |
| self.public_key_size, self.public_key_metadata_offset, |
| self.public_key_metadata_size, self.descriptors_offset, |
| self.descriptors_size, self.rollback_index, self.flags, |
| self.release_string) |
| |
| |
| class Avb(object): |
| """Business logic for avbtool command-line tool.""" |
| |
| # Keep in sync with avb_ab_flow.h. |
| AB_FORMAT_NO_CRC = '!4sBB2xBBBxBBBx12x' |
| AB_MAGIC = '\0AB0' |
| AB_MAJOR_VERSION = 1 |
| AB_MINOR_VERSION = 0 |
| AB_MISC_METADATA_OFFSET = 2048 |
| |
| # Constants for maximum metadata size. These are used to give |
| # meaningful errors if the value passed in via --partition_size is |
| # too small and when --calc_max_image_size is used. We use |
| # conservative figures. |
| MAX_VBMETA_SIZE = 64 * 1024 |
| MAX_FOOTER_SIZE = 4096 |
| |
| def extract_vbmeta_image(self, output, image_filename, padding_size): |
| """Implements the 'extract_vbmeta_image' command. |
| |
| Arguments: |
| output: Write vbmeta struct to this file. |
| image_filename: File to extract vbmeta data from (with a footer). |
| padding_size: If not 0, pads output so size is a multiple of the number. |
| |
| Raises: |
| AvbError: If there's no footer in the image. |
| """ |
| image = ImageHandler(image_filename) |
| |
| (footer, _, _, _) = self._parse_image(image) |
| |
| if not footer: |
| raise AvbError('Given image does not have a footer.') |
| |
| image.seek(footer.vbmeta_offset) |
| vbmeta_blob = image.read(footer.vbmeta_size) |
| output.write(vbmeta_blob) |
| |
| if padding_size > 0: |
| padded_size = round_to_multiple(len(vbmeta_blob), padding_size) |
| padding_needed = padded_size - len(vbmeta_blob) |
| output.write('\0' * padding_needed) |
| |
| def erase_footer(self, image_filename, keep_hashtree): |
| """Implements the 'erase_footer' command. |
| |
| Arguments: |
| image_filename: File to erase a footer from. |
| keep_hashtree: If True, keep the hashtree and FEC around. |
| |
| Raises: |
| AvbError: If there's no footer in the image. |
| """ |
| |
| image = ImageHandler(image_filename) |
| |
| (footer, _, descriptors, _) = self._parse_image(image) |
| |
| if not footer: |
| raise AvbError('Given image does not have a footer.') |
| |
| new_image_size = None |
| if not keep_hashtree: |
| new_image_size = footer.original_image_size |
| else: |
| # If requested to keep the hashtree, search for a hashtree |
| # descriptor to figure out the location and size of the hashtree |
| # and FEC. |
| for desc in descriptors: |
| if isinstance(desc, AvbHashtreeDescriptor): |
| # The hashtree is always just following the main data so the |
| # new size is easily derived. |
| new_image_size = desc.tree_offset + desc.tree_size |
| # If the image has FEC codes, also keep those. |
| if desc.fec_offset > 0: |
| fec_end = desc.fec_offset + desc.fec_size |
| new_image_size = max(new_image_size, fec_end) |
| break |
| if not new_image_size: |
| raise AvbError('Requested to keep hashtree but no hashtree ' |
| 'descriptor was found.') |
| |
| # And cut... |
| image.truncate(new_image_size) |
| |
| def zero_hashtree(self, image_filename): |
| """Implements the 'zero_hashtree' command. |
| |
| Arguments: |
| image_filename: File to zero hashtree and FEC data from. |
| |
| Raises: |
| AvbError: If there's no footer in the image. |
| """ |
| |
| image = ImageHandler(image_filename) |
| |
| (footer, _, descriptors, _) = self._parse_image(image) |
| |
| if not footer: |
| raise AvbError('Given image does not have a footer.') |
| |
| # Search for a hashtree descriptor to figure out the location and |
| # size of the hashtree and FEC. |
| ht_desc = None |
| for desc in descriptors: |
| if isinstance(desc, AvbHashtreeDescriptor): |
| ht_desc = desc |
| break |
| |
| if not ht_desc: |
| raise AvbError('No hashtree descriptor was found.') |
| |
| zero_ht_start_offset = ht_desc.tree_offset |
| zero_ht_num_bytes = ht_desc.tree_size |
| zero_fec_start_offset = None |
| zero_fec_num_bytes = 0 |
| if ht_desc.fec_offset > 0: |
| if ht_desc.fec_offset != ht_desc.tree_offset + ht_desc.tree_size: |
| raise AvbError('Hash-tree and FEC data must be adjacent.') |
| zero_fec_start_offset = ht_desc.fec_offset |
| zero_fec_num_bytes = ht_desc.fec_size |
| zero_end_offset = (zero_ht_start_offset + zero_ht_num_bytes |
| + zero_fec_num_bytes) |
| image.seek(zero_end_offset) |
| data = image.read(image.image_size - zero_end_offset) |
| |
| # Write zeroes all over hashtree and FEC, except for the first eight bytes |
| # where a magic marker - ZeroHaSH - is placed. Place these markers in the |
| # beginning of both hashtree and FEC. (That way, in the future we can add |
| # options to 'avbtool zero_hashtree' so as to zero out only either/or.) |
| # |
| # Applications can use these markers to detect that the hashtree and/or |
| # FEC needs to be recomputed. |
| image.truncate(zero_ht_start_offset) |
| data_zeroed_firstblock = 'ZeRoHaSH' + '\0'*(image.block_size - 8) |
| image.append_raw(data_zeroed_firstblock) |
| image.append_fill('\0\0\0\0', zero_ht_num_bytes - image.block_size) |
| if zero_fec_start_offset: |
| image.append_raw(data_zeroed_firstblock) |
| image.append_fill('\0\0\0\0', zero_fec_num_bytes - image.block_size) |
| image.append_raw(data) |
| |
| def resize_image(self, image_filename, partition_size): |
| """Implements the 'resize_image' command. |
| |
| Arguments: |
| image_filename: File with footer to resize. |
| partition_size: The new size of the image. |
| |
| Raises: |
| AvbError: If there's no footer in the image. |
| """ |
| |
| image = ImageHandler(image_filename) |
| |
| if partition_size % image.block_size != 0: |
| raise AvbError('Partition size of {} is not a multiple of the image ' |
| 'block size {}.'.format(partition_size, |
| image.block_size)) |
| |
| (footer, _, _, _) = self._parse_image(image) |
| |
| if not footer: |
| raise AvbError('Given image does not have a footer.') |
| |
| # The vbmeta blob is always at the end of the data so resizing an |
| # image amounts to just moving the footer around. |
| |
| vbmeta_end_offset = footer.vbmeta_offset + footer.vbmeta_size |
| if vbmeta_end_offset % image.block_size != 0: |
| vbmeta_end_offset += image.block_size - (vbmeta_end_offset |
| % image.block_size) |
| |
| if partition_size < vbmeta_end_offset + 1*image.block_size: |
| raise AvbError('Requested size of {} is too small for an image ' |
| 'of size {}.' |
| .format(partition_size, |
| vbmeta_end_offset + 1*image.block_size)) |
| |
| # Cut at the end of the vbmeta blob and insert a DONT_CARE chunk |
| # with enough bytes such that the final Footer block is at the end |
| # of partition_size. |
| image.truncate(vbmeta_end_offset) |
| image.append_dont_care(partition_size - vbmeta_end_offset - |
| 1*image.block_size) |
| |
| # Just reuse the same footer - only difference is that we're |
| # writing it in a different place. |
| footer_blob = footer.encode() |
| footer_blob_with_padding = ('\0'*(image.block_size - AvbFooter.SIZE) + |
| footer_blob) |
| image.append_raw(footer_blob_with_padding) |
| |
| def set_ab_metadata(self, misc_image, slot_data): |
| """Implements the 'set_ab_metadata' command. |
| |
| The |slot_data| argument must be of the form 'A_priority:A_tries_remaining: |
| A_successful_boot:B_priority:B_tries_remaining:B_successful_boot'. |
| |
| Arguments: |
| misc_image: The misc image to write to. |
| slot_data: Slot data as a string |
| |
| Raises: |
| AvbError: If slot data is malformed. |
| """ |
| tokens = slot_data.split(':') |
| if len(tokens) != 6: |
| raise AvbError('Malformed slot data "{}".'.format(slot_data)) |
| a_priority = int(tokens[0]) |
| a_tries_remaining = int(tokens[1]) |
| a_success = True if int(tokens[2]) != 0 else False |
| b_priority = int(tokens[3]) |
| b_tries_remaining = int(tokens[4]) |
| b_success = True if int(tokens[5]) != 0 else False |
| |
| ab_data_no_crc = struct.pack(self.AB_FORMAT_NO_CRC, |
| self.AB_MAGIC, |
| self.AB_MAJOR_VERSION, self.AB_MINOR_VERSION, |
| a_priority, a_tries_remaining, a_success, |
| b_priority, b_tries_remaining, b_success) |
| # Force CRC to be unsigned, see https://bugs.python.org/issue4903 for why. |
| crc_value = binascii.crc32(ab_data_no_crc) & 0xffffffff |
| ab_data = ab_data_no_crc + struct.pack('!I', crc_value) |
| misc_image.seek(self.AB_MISC_METADATA_OFFSET) |
| misc_image.write(ab_data) |
| |
| def info_image(self, image_filename, output): |
| """Implements the 'info_image' command. |
| |
| Arguments: |
| image_filename: Image file to get information from (file object). |
| output: Output file to write human-readable information to (file object). |
| """ |
| |
| image = ImageHandler(image_filename) |
| |
| o = output |
| |
| (footer, header, descriptors, image_size) = self._parse_image(image) |
| |
| if footer: |
| o.write('Footer version: {}.{}\n'.format(footer.version_major, |
| footer.version_minor)) |
| o.write('Image size: {} bytes\n'.format(image_size)) |
| o.write('Original image size: {} bytes\n'.format( |
| footer.original_image_size)) |
| o.write('VBMeta offset: {}\n'.format(footer.vbmeta_offset)) |
| o.write('VBMeta size: {} bytes\n'.format(footer.vbmeta_size)) |
| o.write('--\n') |
| |
| (alg_name, _) = lookup_algorithm_by_type(header.algorithm_type) |
| |
| o.write('Minimum libavb version: {}.{}{}\n'.format( |
| header.required_libavb_version_major, |
| header.required_libavb_version_minor, |
| ' (Sparse)' if image.is_sparse else '')) |
| o.write('Header Block: {} bytes\n'.format(AvbVBMetaHeader.SIZE)) |
| o.write('Authentication Block: {} bytes\n'.format( |
| header.authentication_data_block_size)) |
| o.write('Auxiliary Block: {} bytes\n'.format( |
| header.auxiliary_data_block_size)) |
| o.write('Algorithm: {}\n'.format(alg_name)) |
| o.write('Rollback Index: {}\n'.format(header.rollback_index)) |
| o.write('Flags: {}\n'.format(header.flags)) |
| o.write('Release String: \'{}\'\n'.format( |
| header.release_string.rstrip('\0'))) |
| |
| # Print descriptors. |
| num_printed = 0 |
| o.write('Descriptors:\n') |
| for desc in descriptors: |
| desc.print_desc(o) |
| num_printed += 1 |
| if num_printed == 0: |
| o.write(' (none)\n') |
| |
| def verify_image(self, image_filename, key_path, expected_chain_partitions, |
| follow_chain_partitions, accept_zeroed_hashtree): |
| """Implements the 'verify_image' command. |
| |
| Arguments: |
| image_filename: Image file to get information from (file object). |
| key_path: None or check that embedded public key matches key at given |
| path. |
| expected_chain_partitions: List of chain partitions to check or None. |
| follow_chain_partitions: |
| If True, will follows chain partitions even when not specified with |
| the --expected_chain_partition option |
| accept_zeroed_hashtree: If True, don't fail if hashtree or FEC data is |
| zeroed out. |
| |
| Raises: |
| AvbError: If verification of the image fails. |
| """ |
| expected_chain_partitions_map = {} |
| if expected_chain_partitions: |
| for cp in expected_chain_partitions: |
| cp_tokens = cp.split(':') |
| if len(cp_tokens) != 3: |
| raise AvbError('Malformed chained partition "{}".'.format(cp)) |
| partition_name = cp_tokens[0] |
| rollback_index_location = int(cp_tokens[1]) |
| file_path = cp_tokens[2] |
| pk_blob = open(file_path).read() |
| expected_chain_partitions_map[partition_name] = ( |
| rollback_index_location, pk_blob) |
| |
| image_dir = os.path.dirname(image_filename) |
| image_ext = os.path.splitext(image_filename)[1] |
| |
| key_blob = None |
| if key_path: |
| print('Verifying image {} using key at {}'.format(image_filename, |
| key_path)) |
| key_blob = encode_rsa_key(key_path) |
| else: |
| print('Verifying image {} using embedded public key'.format( |
| image_filename)) |
| |
| image = ImageHandler(image_filename) |
| (footer, header, descriptors, _) = self._parse_image(image) |
| offset = 0 |
| if footer: |
| offset = footer.vbmeta_offset |
| |
| image.seek(offset) |
| vbmeta_blob = image.read(header.SIZE |
| + header.authentication_data_block_size |
| + header.auxiliary_data_block_size) |
| |
| alg_name, _ = lookup_algorithm_by_type(header.algorithm_type) |
| if not verify_vbmeta_signature(header, vbmeta_blob): |
| raise AvbError('Signature check failed for {} vbmeta struct {}' |
| .format(alg_name, image_filename)) |
| |
| if key_blob: |
| # The embedded public key is in the auxiliary block at an offset. |
| key_offset = AvbVBMetaHeader.SIZE |
| key_offset += header.authentication_data_block_size |
| key_offset += header.public_key_offset |
| key_blob_in_vbmeta = vbmeta_blob[key_offset:key_offset |
| + header.public_key_size] |
| if key_blob != key_blob_in_vbmeta: |
| raise AvbError('Embedded public key does not match given key.') |
| |
| if footer: |
| print('vbmeta: Successfully verified footer and {} vbmeta struct in {}' |
| .format(alg_name, image.filename)) |
| else: |
| print('vbmeta: Successfully verified {} vbmeta struct in {}' |
| .format(alg_name, image.filename)) |
| |
| for desc in descriptors: |
| if (isinstance(desc, AvbChainPartitionDescriptor) |
| and follow_chain_partitions |
| and expected_chain_partitions_map.get(desc.partition_name) is None): |
| # In this case we're processing a chain descriptor but don't have a |
| # --expect_chain_partition ... however --follow_chain_partitions was |
| # specified so we shouldn't error out in desc.verify(). |
| print('{}: Chained but ROLLBACK_SLOT (which is {}) ' |
| 'and KEY (which has sha1 {}) not specified' |
| .format(desc.partition_name, desc.rollback_index_location, |
| hashlib.sha1(desc.public_key).hexdigest())) |
| elif not desc.verify(image_dir, image_ext, expected_chain_partitions_map, |
| image, accept_zeroed_hashtree): |
| raise AvbError('Error verifying descriptor.') |
| # Honor --follow_chain_partitions - add '--' to make the output more |
| # readable. |
| if (isinstance(desc, AvbChainPartitionDescriptor) |
| and follow_chain_partitions): |
| print('--') |
| chained_image_filename = os.path.join(image_dir, |
| desc.partition_name + image_ext) |
| self.verify_image(chained_image_filename, key_path, None, False, |
| accept_zeroed_hashtree) |
| |
| def calculate_vbmeta_digest(self, image_filename, hash_algorithm, output): |
| """Implements the 'calculate_vbmeta_digest' command. |
| |
| Arguments: |
| image_filename: Image file to get information from (file object). |
| hash_algorithm: Hash algorithm used. |
| output: Output file to write human-readable information to (file object). |
| """ |
| |
| image_dir = os.path.dirname(image_filename) |
| image_ext = os.path.splitext(image_filename)[1] |
| |
| image = ImageHandler(image_filename) |
| (footer, header, descriptors, _) = self._parse_image(image) |
| offset = 0 |
| if footer: |
| offset = footer.vbmeta_offset |
| size = (header.SIZE + header.authentication_data_block_size + |
| header.auxiliary_data_block_size) |
| image.seek(offset) |
| vbmeta_blob = image.read(size) |
| |
| hasher = hashlib.new(name=hash_algorithm) |
| hasher.update(vbmeta_blob) |
| |
| for desc in descriptors: |
| if isinstance(desc, AvbChainPartitionDescriptor): |
| ch_image_filename = os.path.join(image_dir, |
| desc.partition_name + image_ext) |
| ch_image = ImageHandler(ch_image_filename) |
| (ch_footer, ch_header, _, _) = self._parse_image(ch_image) |
| ch_offset = 0 |
| ch_size = (ch_header.SIZE + ch_header.authentication_data_block_size + |
| ch_header.auxiliary_data_block_size) |
| if ch_footer: |
| ch_offset = ch_footer.vbmeta_offset |
| ch_image.seek(ch_offset) |
| ch_vbmeta_blob = ch_image.read(ch_size) |
| hasher.update(ch_vbmeta_blob) |
| |
| digest = hasher.digest() |
| output.write('{}\n'.format(binascii.hexlify(digest))) |
| |
| def calculate_kernel_cmdline(self, image_filename, hashtree_disabled, output): |
| """Implements the 'calculate_kernel_cmdline' command. |
| |
| Arguments: |
| image_filename: Image file to get information from (file object). |
| hashtree_disabled: If True, returns the cmdline for hashtree disabled. |
| output: Output file to write human-readable information to (file object). |
| """ |
| |
| image = ImageHandler(image_filename) |
| _, _, descriptors, _ = self._parse_image(image) |
| |
| image_dir = os.path.dirname(image_filename) |
| image_ext = os.path.splitext(image_filename)[1] |
| |
| cmdline_descriptors = [] |
| for desc in descriptors: |
| if isinstance(desc, AvbChainPartitionDescriptor): |
| ch_image_filename = os.path.join(image_dir, |
| desc.partition_name + image_ext) |
| ch_image = ImageHandler(ch_image_filename) |
| _, _, ch_descriptors, _ = self._parse_image(ch_image) |
| for ch_desc in ch_descriptors: |
| if isinstance(ch_desc, AvbKernelCmdlineDescriptor): |
| cmdline_descriptors.append(ch_desc) |
| elif isinstance(desc, AvbKernelCmdlineDescriptor): |
| cmdline_descriptors.append(desc) |
| |
| kernel_cmdline_snippets = [] |
| for desc in cmdline_descriptors: |
| use_cmdline = True |
| if ((desc.flags & |
| AvbKernelCmdlineDescriptor.FLAGS_USE_ONLY_IF_HASHTREE_NOT_DISABLED) |
| != 0): |
| if hashtree_disabled: |
| use_cmdline = False |
| if (desc.flags & |
| AvbKernelCmdlineDescriptor.FLAGS_USE_ONLY_IF_HASHTREE_DISABLED) != 0: |
| if not hashtree_disabled: |
| use_cmdline = False |
| if use_cmdline: |
| kernel_cmdline_snippets.append(desc.kernel_cmdline) |
| output.write(' '.join(kernel_cmdline_snippets)) |
| |
| def _parse_image(self, image): |
| """Gets information about an image. |
| |
| The image can either be a vbmeta or an image with a footer. |
| |
| Arguments: |
| image: An ImageHandler (vbmeta or footer) with a hashtree descriptor. |
| |
| Returns: |
| A tuple where the first argument is a AvbFooter (None if there |
| is no footer on the image), the second argument is a |
| AvbVBMetaHeader, the third argument is a list of |
| AvbDescriptor-derived instances, and the fourth argument is the |
| size of |image|. |
| |
| Raises: |
| AvbError: In case the image cannot be parsed. |
| """ |
| assert isinstance(image, ImageHandler) |
| footer = None |
| image.seek(image.image_size - AvbFooter.SIZE) |
| try: |
| footer = AvbFooter(image.read(AvbFooter.SIZE)) |
| except (LookupError, struct.error): |
| # Nope, just seek back to the start. |
| image.seek(0) |
| |
| vbmeta_offset = 0 |
| if footer: |
| vbmeta_offset = footer.vbmeta_offset |
| |
| image.seek(vbmeta_offset) |
| h = AvbVBMetaHeader(image.read(AvbVBMetaHeader.SIZE)) |
| |
| auth_block_offset = vbmeta_offset + AvbVBMetaHeader.SIZE |
| aux_block_offset = auth_block_offset + h.authentication_data_block_size |
| desc_start_offset = aux_block_offset + h.descriptors_offset |
| image.seek(desc_start_offset) |
| descriptors = parse_descriptors(image.read(h.descriptors_size)) |
| |
| return footer, h, descriptors, image.image_size |
| |
| def _load_vbmeta_blob(self, image): |
| """Gets the vbmeta struct and associated sections. |
| |
| The image can either be a vbmeta.img or an image with a footer. |
| |
| Arguments: |
| image: An ImageHandler (vbmeta or footer). |
| |
| Returns: |
| A blob with the vbmeta struct and other sections. |
| """ |
| assert isinstance(image, ImageHandler) |
| footer = None |
| image.seek(image.image_size - AvbFooter.SIZE) |
| try: |
| footer = AvbFooter(image.read(AvbFooter.SIZE)) |
| except (LookupError, struct.error): |
| # Nope, just seek back to the start. |
| image.seek(0) |
| |
| vbmeta_offset = 0 |
| if footer: |
| vbmeta_offset = footer.vbmeta_offset |
| |
| image.seek(vbmeta_offset) |
| h = AvbVBMetaHeader(image.read(AvbVBMetaHeader.SIZE)) |
| |
| image.seek(vbmeta_offset) |
| data_size = AvbVBMetaHeader.SIZE |
| data_size += h.authentication_data_block_size |
| data_size += h.auxiliary_data_block_size |
| return image.read(data_size) |
| |
| def _get_cmdline_descriptors_for_hashtree_descriptor(self, ht): |
| """Generate kernel cmdline descriptors for dm-verity. |
| |
| Arguments: |
| ht: A AvbHashtreeDescriptor |
| |
| Returns: |
| A list with two AvbKernelCmdlineDescriptor with dm-verity kernel cmdline |
| instructions. There is one for when hashtree is not disabled and one for |
| when it is. |
| |
| """ |
| |
| c = 'dm="1 vroot none ro 1,' |
| c += '0' # start |
| c += ' {}'.format((ht.image_size // 512)) # size (# sectors) |
| c += ' verity {}'.format(ht.dm_verity_version) # type and version |
| c += ' PARTUUID=$(ANDROID_SYSTEM_PARTUUID)' # data_dev |
| c += ' PARTUUID=$(ANDROID_SYSTEM_PARTUUID)' # hash_dev |
| c += ' {}'.format(ht.data_block_size) # data_block |
| c += ' {}'.format(ht.hash_block_size) # hash_block |
| c += ' {}'.format(ht.image_size // ht.data_block_size) # #blocks |
| c += ' {}'.format(ht.image_size // ht.data_block_size) # hash_offset |
| c += ' {}'.format(ht.hash_algorithm) # hash_alg |
| c += ' {}'.format(str(ht.root_digest).encode('hex')) # root_digest |
| c += ' {}'.format(str(ht.salt).encode('hex')) # salt |
| if ht.fec_num_roots > 0: |
| c += ' 10' # number of optional args |
| c += ' $(ANDROID_VERITY_MODE)' |
| c += ' ignore_zero_blocks' |
| c += ' use_fec_from_device PARTUUID=$(ANDROID_SYSTEM_PARTUUID)' |
| c += ' fec_roots {}'.format(ht.fec_num_roots) |
| # Note that fec_blocks is the size that FEC covers, *not* the |
| # size of the FEC data. Since we use FEC for everything up until |
| # the FEC data, it's the same as the offset. |
| c += ' fec_blocks {}'.format(ht.fec_offset // ht.data_block_size) |
| c += ' fec_start {}'.format(ht.fec_offset // ht.data_block_size) |
| else: |
| c += ' 2' # number of optional args |
| c += ' $(ANDROID_VERITY_MODE)' |
| c += ' ignore_zero_blocks' |
| c += '" root=/dev/dm-0' |
| |
| # Now that we have the command-line, generate the descriptor. |
| desc = AvbKernelCmdlineDescriptor() |
| desc.kernel_cmdline = c |
| desc.flags = ( |
| AvbKernelCmdlineDescriptor.FLAGS_USE_ONLY_IF_HASHTREE_NOT_DISABLED) |
| |
| # The descriptor for when hashtree verification is disabled is a lot |
| # simpler - we just set the root to the partition. |
| desc_no_ht = AvbKernelCmdlineDescriptor() |
| desc_no_ht.kernel_cmdline = 'root=PARTUUID=$(ANDROID_SYSTEM_PARTUUID)' |
| desc_no_ht.flags = ( |
| AvbKernelCmdlineDescriptor.FLAGS_USE_ONLY_IF_HASHTREE_DISABLED) |
| |
| return [desc, desc_no_ht] |
| |
| def _get_cmdline_descriptors_for_dm_verity(self, image): |
| """Generate kernel cmdline descriptors for dm-verity. |
| |
| Arguments: |
| image: An ImageHandler (vbmeta or footer) with a hashtree descriptor. |
| |
| Returns: |
| A list with two AvbKernelCmdlineDescriptor with dm-verity kernel cmdline |
| instructions. There is one for when hashtree is not disabled and one for |
| when it is. |
| |
| Raises: |
| AvbError: If |image| doesn't have a hashtree descriptor. |
| |
| """ |
| |
| (_, _, descriptors, _) = self._parse_image(image) |
| |
| ht = None |
| for desc in descriptors: |
| if isinstance(desc, AvbHashtreeDescriptor): |
| ht = desc |
| break |
| |
| if not ht: |
| raise AvbError('No hashtree descriptor in given image') |
| |
| return self._get_cmdline_descriptors_for_hashtree_descriptor(ht) |
| |
| def make_vbmeta_image(self, output, chain_partitions, algorithm_name, |
| key_path, public_key_metadata_path, rollback_index, |
| flags, props, props_from_file, kernel_cmdlines, |
| setup_rootfs_from_kernel, |
| include_descriptors_from_image, |
| signing_helper, |
| signing_helper_with_files, |
| release_string, |
| append_to_release_string, |
| print_required_libavb_version, |
| padding_size): |
| """Implements the 'make_vbmeta_image' command. |
| |
| Arguments: |
| output: File to write the image to. |
| chain_partitions: List of partitions to chain or None. |
| algorithm_name: Name of algorithm to use. |
| key_path: Path to key to use or None. |
| public_key_metadata_path: Path to public key metadata or None. |
| rollback_index: The rollback index to use. |
| flags: Flags value to use in the image. |
| props: Properties to insert (list of strings of the form 'key:value'). |
| props_from_file: Properties to insert (list of strings 'key:<path>'). |
| kernel_cmdlines: Kernel cmdlines to insert (list of strings). |
| setup_rootfs_from_kernel: None or file to generate from. |
| include_descriptors_from_image: List of file objects with descriptors. |
| signing_helper: Program which signs a hash and return signature. |
| signing_helper_with_files: Same as signing_helper but uses files instead. |
| release_string: None or avbtool release string to use instead of default. |
| append_to_release_string: None or string to append. |
| print_required_libavb_version: True to only print required libavb version. |
| padding_size: If not 0, pads output so size is a multiple of the number. |
| |
| Raises: |
| AvbError: If a chained partition is malformed. |
| """ |
| |
| # If we're asked to calculate minimum required libavb version, we're done. |
| if print_required_libavb_version: |
| if include_descriptors_from_image: |
| # Use the bump logic in AvbVBMetaHeader to calculate the max required |
| # version of all included descriptors. |
| tmp_header = AvbVBMetaHeader() |
| for image in include_descriptors_from_image: |
| (_, image_header, _, _) = self._parse_image(ImageHandler(image.name)) |
| tmp_header.bump_required_libavb_version_minor( |
| image_header.required_libavb_version_minor) |
| print('1.{}'.format(tmp_header.required_libavb_version_minor)) |
| else: |
| # Descriptors aside, all vbmeta features are supported in 1.0. |
| print('1.0') |
| return |
| |
| if not output: |
| raise AvbError('No output file given') |
| |
| descriptors = [] |
| ht_desc_to_setup = None |
| vbmeta_blob = self._generate_vbmeta_blob( |
| algorithm_name, key_path, public_key_metadata_path, descriptors, |
| chain_partitions, rollback_index, flags, props, props_from_file, |
| kernel_cmdlines, setup_rootfs_from_kernel, ht_desc_to_setup, |
| include_descriptors_from_image, signing_helper, |
| signing_helper_with_files, release_string, |
| append_to_release_string, 0) |
| |
| # Write entire vbmeta blob (header, authentication, auxiliary). |
| output.seek(0) |
| output.write(vbmeta_blob) |
| |
| if padding_size > 0: |
| padded_size = round_to_multiple(len(vbmeta_blob), padding_size) |
| padding_needed = padded_size - len(vbmeta_blob) |
| output.write('\0' * padding_needed) |
| |
| def _generate_vbmeta_blob(self, algorithm_name, key_path, |
| public_key_metadata_path, descriptors, |
| chain_partitions, |
| rollback_index, flags, props, props_from_file, |
| kernel_cmdlines, |
| setup_rootfs_from_kernel, |
| ht_desc_to_setup, |
| include_descriptors_from_image, signing_helper, |
| signing_helper_with_files, |
| release_string, append_to_release_string, |
| required_libavb_version_minor): |
| """Generates a VBMeta blob. |
| |
| This blob contains the header (struct AvbVBMetaHeader), the |
| authentication data block (which contains the hash and signature |
| for the header and auxiliary block), and the auxiliary block |
| (which contains descriptors, the public key used, and other data). |
| |
| The |key| parameter can |None| only if the |algorithm_name| is |
| 'NONE'. |
| |
| Arguments: |
| algorithm_name: The algorithm name as per the ALGORITHMS dict. |
| key_path: The path to the .pem file used to sign the blob. |
| public_key_metadata_path: Path to public key metadata or None. |
| descriptors: A list of descriptors to insert or None. |
| chain_partitions: List of partitions to chain or None. |
| rollback_index: The rollback index to use. |
| flags: Flags to use in the image. |
| props: Properties to insert (List of strings of the form 'key:value'). |
| props_from_file: Properties to insert (List of strings 'key:<path>'). |
| kernel_cmdlines: Kernel cmdlines to insert (list of strings). |
| setup_rootfs_from_kernel: None or file to generate |
| dm-verity kernel cmdline from. |
| ht_desc_to_setup: If not None, an AvbHashtreeDescriptor to |
| generate dm-verity kernel cmdline descriptors from. |
| include_descriptors_from_image: List of file objects for which |
| to insert descriptors from. |
| signing_helper: Program which signs a hash and return signature. |
| signing_helper_with_files: Same as signing_helper but uses files instead. |
| release_string: None or avbtool release string. |
| append_to_release_string: None or string to append. |
| required_libavb_version_minor: Use at least this required minor version. |
| |
| Returns: |
| A bytearray() with the VBMeta blob. |
| |
| Raises: |
| Exception: If the |algorithm_name| is not found, if no key has |
| been given and the given algorithm requires one, or the key is |
| of the wrong size. |
| |
| """ |
| try: |
| alg = ALGORITHMS[algorithm_name] |
| except KeyError: |
| raise AvbError('Unknown algorithm with name {}'.format(algorithm_name)) |
| |
| if not descriptors: |
| descriptors = [] |
| |
| h = AvbVBMetaHeader() |
| h.bump_required_libavb_version_minor(required_libavb_version_minor) |
| |
| # Insert chained partition descriptors, if any |
| if chain_partitions: |
| used_locations = {} |
| for cp in chain_partitions: |
| cp_tokens = cp.split(':') |
| if len(cp_tokens) != 3: |
| raise AvbError('Malformed chained partition "{}".'.format(cp)) |
| partition_name = cp_tokens[0] |
| rollback_index_location = int(cp_tokens[1]) |
| file_path = cp_tokens[2] |
| # Check that the same rollback location isn't being used by |
| # multiple chained partitions. |
| if used_locations.get(rollback_index_location): |
| raise AvbError('Rollback Index Location {} is already in use.'.format( |
| rollback_index_location)) |
| used_locations[rollback_index_location] = True |
| desc = AvbChainPartitionDescriptor() |
| desc.partition_name = partition_name |
| desc.rollback_index_location = rollback_index_location |
| if desc.rollback_index_location < 1: |
| raise AvbError('Rollback index location must be 1 or larger.') |
| desc.public_key = open(file_path, 'rb').read() |
| descriptors.append(desc) |
| |
| # Descriptors. |
| encoded_descriptors = bytearray() |
| for desc in descriptors: |
| encoded_descriptors.extend(desc.encode()) |
| |
| # Add properties. |
| if props: |
| for prop in props: |
| idx = prop.find(':') |
| if idx == -1: |
| raise AvbError('Malformed property "{}".'.format(prop)) |
| # pylint: disable=redefined-variable-type |
| desc = AvbPropertyDescriptor() |
| desc.key = prop[0:idx] |
| desc.value = prop[(idx + 1):] |
| encoded_descriptors.extend(desc.encode()) |
| if props_from_file: |
| for prop in props_from_file: |
| idx = prop.find(':') |
| if idx == -1: |
| raise AvbError('Malformed property "{}".'.format(prop)) |
| desc = AvbPropertyDescriptor() |
| desc.key = prop[0:idx] |
| desc.value = prop[(idx + 1):] |
| file_path = prop[(idx + 1):] |
| desc.value = open(file_path, 'rb').read() |
| encoded_descriptors.extend(desc.encode()) |
| |
| # Add AvbKernelCmdline descriptor for dm-verity from an image, if requested. |
| if setup_rootfs_from_kernel: |
| image_handler = ImageHandler( |
| setup_rootfs_from_kernel.name) |
| cmdline_desc = self._get_cmdline_descriptors_for_dm_verity(image_handler) |
| encoded_descriptors.extend(cmdline_desc[0].encode()) |
| encoded_descriptors.extend(cmdline_desc[1].encode()) |
| |
| # Add AvbKernelCmdline descriptor for dm-verity from desc, if requested. |
| if ht_desc_to_setup: |
| cmdline_desc = self._get_cmdline_descriptors_for_hashtree_descriptor( |
| ht_desc_to_setup) |
| encoded_descriptors.extend(cmdline_desc[0].encode()) |
| encoded_descriptors.extend(cmdline_desc[1].encode()) |
| |
| # Add kernel command-lines. |
| if kernel_cmdlines: |
| for i in kernel_cmdlines: |
| desc = AvbKernelCmdlineDescriptor() |
| desc.kernel_cmdline = i |
| encoded_descriptors.extend(desc.encode()) |
| |
| # Add descriptors from other images. |
| if include_descriptors_from_image: |
| descriptors_dict = dict() |
| for image in include_descriptors_from_image: |
| image_handler = ImageHandler(image.name) |
| (_, image_vbmeta_header, image_descriptors, _) = self._parse_image( |
| image_handler) |
| # Bump the required libavb version to support all included descriptors. |
| h.bump_required_libavb_version_minor( |
| image_vbmeta_header.required_libavb_version_minor) |
| for desc in image_descriptors: |
| # The --include_descriptors_from_image option is used in some setups |
| # with images A and B where both A and B contain a descriptor |
| # for a partition with the same name. Since it's not meaningful |
| # to include both descriptors, only include the last seen descriptor. |
| # See bug 76386656 for details. |
| if hasattr(desc, 'partition_name'): |
| key = type(desc).__name__ + '_' + desc.partition_name |
| descriptors_dict[key] = desc.encode() |
| else: |
| encoded_descriptors.extend(desc.encode()) |
| for key in sorted(descriptors_dict): |
| encoded_descriptors.extend(descriptors_dict[key]) |
| |
| # Load public key metadata blob, if requested. |
| pkmd_blob = [] |
| if public_key_metadata_path: |
| with open(public_key_metadata_path) as f: |
| pkmd_blob = f.read() |
| |
| key = None |
| encoded_key = bytearray() |
| if alg.public_key_num_bytes > 0: |
| if not key_path: |
| raise AvbError('Key is required for algorithm {}'.format( |
| algorithm_name)) |
| encoded_key = encode_rsa_key(key_path) |
| if len(encoded_key) != alg.public_key_num_bytes: |
| raise AvbError('Key is wrong size for algorithm {}'.format( |
| algorithm_name)) |
| |
| # Override release string, if requested. |
| # pylint: disable=unicode-builtin |
| if isinstance(release_string, (str, unicode)): |
| h.release_string = release_string |
| |
| # Append to release string, if requested. Also insert a space before. |
| if isinstance(append_to_release_string, (str, unicode)): |
| h.release_string += ' ' + append_to_release_string |
| |
| # For the Auxiliary data block, descriptors are stored at offset 0, |
| # followed by the public key, followed by the public key metadata blob. |
| h.auxiliary_data_block_size = round_to_multiple( |
| len(encoded_descriptors) + len(encoded_key) + len(pkmd_blob), 64) |
| h.descriptors_offset = 0 |
| h.descriptors_size = len(encoded_descriptors) |
| h.public_key_offset = h.descriptors_size |
| h.public_key_size = len(encoded_key) |
| h.public_key_metadata_offset = h.public_key_offset + h.public_key_size |
| h.public_key_metadata_size = len(pkmd_blob) |
| |
| # For the Authentication data block, the hash is first and then |
| # the signature. |
| h.authentication_data_block_size = round_to_multiple( |
| alg.hash_num_bytes + alg.signature_num_bytes, 64) |
| h.algorithm_type = alg.algorithm_type |
| h.hash_offset = 0 |
| h.hash_size = alg.hash_num_bytes |
| # Signature offset and size - it's stored right after the hash |
| # (in Authentication data block). |
| h.signature_offset = alg.hash_num_bytes |
| h.signature_size = alg.signature_num_bytes |
| |
| h.rollback_index = rollback_index |
| h.flags = flags |
| |
| # Generate Header data block. |
| header_data_blob = h.encode() |
| |
| # Generate Auxiliary data block. |
| aux_data_blob = bytearray() |
| aux_data_blob.extend(encoded_descriptors) |
| aux_data_blob.extend(encoded_key) |
| aux_data_blob.extend(pkmd_blob) |
| padding_bytes = h.auxiliary_data_block_size - len(aux_data_blob) |
| aux_data_blob.extend('\0' * padding_bytes) |
| |
| # Calculate the hash. |
| binary_hash = bytearray() |
| binary_signature = bytearray() |
| if algorithm_name != 'NONE': |
| ha = hashlib.new(alg.hash_name) |
| ha.update(header_data_blob) |
| ha.update(aux_data_blob) |
| binary_hash.extend(ha.digest()) |
| |
| # Calculate the signature. |
| padding_and_hash = str(bytearray(alg.padding)) + binary_hash |
| binary_signature.extend(raw_sign(signing_helper, |
| signing_helper_with_files, |
| algorithm_name, |
| alg.signature_num_bytes, key_path, |
| padding_and_hash)) |
| |
| # Generate Authentication data block. |
| auth_data_blob = bytearray() |
| auth_data_blob.extend(binary_hash) |
| auth_data_blob.extend(binary_signature) |
| padding_bytes = h.authentication_data_block_size - len(auth_data_blob) |
| auth_data_blob.extend('\0' * padding_bytes) |
| |
| return header_data_blob + auth_data_blob + aux_data_blob |
| |
| def extract_public_key(self, key_path, output): |
| """Implements the 'extract_public_key' command. |
| |
| Arguments: |
| key_path: The path to a RSA private key file. |
| output: The file to write to. |
| """ |
| output.write(encode_rsa_key(key_path)) |
| |
| def append_vbmeta_image(self, image_filename, vbmeta_image_filename, |
| partition_size): |
| """Implementation of the append_vbmeta_image command. |
| |
| Arguments: |
| image_filename: File to add the footer to. |
| vbmeta_image_filename: File to get vbmeta struct from. |
| partition_size: Size of partition. |
| |
| Raises: |
| AvbError: If an argument is incorrect. |
| """ |
| image = ImageHandler(image_filename) |
| |
| if partition_size % image.block_size != 0: |
| raise AvbError('Partition size of {} is not a multiple of the image ' |
| 'block size {}.'.format(partition_size, |
| image.block_size)) |
| |
| # If there's already a footer, truncate the image to its original |
| # size. This way 'avbtool append_vbmeta_image' is idempotent. |
| if image.image_size >= AvbFooter.SIZE: |
| image.seek(image.image_size - AvbFooter.SIZE) |
| try: |
| footer = AvbFooter(image.read(AvbFooter.SIZE)) |
| # Existing footer found. Just truncate. |
| original_image_size = footer.original_image_size |
| image.truncate(footer.original_image_size) |
| except (LookupError, struct.error): |
| original_image_size = image.image_size |
| else: |
| # Image size is too small to possibly contain a footer. |
| original_image_size = image.image_size |
| |
| # If anything goes wrong from here-on, restore the image back to |
| # its original size. |
| try: |
| vbmeta_image_handler = ImageHandler(vbmeta_image_filename) |
| vbmeta_blob = self._load_vbmeta_blob(vbmeta_image_handler) |
| |
| # If the image isn't sparse, its size might not be a multiple of |
| # the block size. This will screw up padding later so just grow it. |
| if image.image_size % image.block_size != 0: |
| assert not image.is_sparse |
| padding_needed = image.block_size - (image.image_size%image.block_size) |
| image.truncate(image.image_size + padding_needed) |
| |
| # The append_raw() method requires content with size being a |
| # multiple of |block_size| so add padding as needed. Also record |
| # where this is written to since we'll need to put that in the |
| # footer. |
| vbmeta_offset = image.image_size |
| padding_needed = (round_to_multiple(len(vbmeta_blob), image.block_size) - |
| len(vbmeta_blob)) |
| vbmeta_blob_with_padding = vbmeta_blob + '\0'*padding_needed |
| |
| # Append vbmeta blob and footer |
| image.append_raw(vbmeta_blob_with_padding) |
| vbmeta_end_offset = vbmeta_offset + len(vbmeta_blob_with_padding) |
| |
| # Now insert a DONT_CARE chunk with enough bytes such that the |
| # final Footer block is at the end of partition_size.. |
| image.append_dont_care(partition_size - vbmeta_end_offset - |
| 1*image.block_size) |
| |
| # Generate the Footer that tells where the VBMeta footer |
| # is. Also put enough padding in the front of the footer since |
| # we'll write out an entire block. |
| footer = AvbFooter() |
| footer.original_image_size = original_image_size |
| footer.vbmeta_offset = vbmeta_offset |
| footer.vbmeta_size = len(vbmeta_blob) |
| footer_blob = footer.encode() |
| footer_blob_with_padding = ('\0'*(image.block_size - AvbFooter.SIZE) + |
| footer_blob) |
| image.append_raw(footer_blob_with_padding) |
| |
| except: |
| # Truncate back to original size, then re-raise |
| image.truncate(original_image_size) |
| raise |
| |
| def add_hash_footer(self, image_filename, partition_size, partition_name, |
| hash_algorithm, salt, chain_partitions, algorithm_name, |
| key_path, |
| public_key_metadata_path, rollback_index, flags, props, |
| props_from_file, kernel_cmdlines, |
| setup_rootfs_from_kernel, |
| include_descriptors_from_image, calc_max_image_size, |
| signing_helper, signing_helper_with_files, |
| release_string, append_to_release_string, |
| output_vbmeta_image, do_not_append_vbmeta_image, |
| print_required_libavb_version, use_persistent_digest, |
| do_not_use_ab): |
| """Implementation of the add_hash_footer on unsparse images. |
| |
| Arguments: |
| image_filename: File to add the footer to. |
| partition_size: Size of partition. |
| partition_name: Name of partition (without A/B suffix). |
| hash_algorithm: Hash algorithm to use. |
| salt: Salt to use as a hexadecimal string or None to use /dev/urandom. |
| chain_partitions: List of partitions to chain. |
| algorithm_name: Name of algorithm to use. |
| key_path: Path to key to use or None. |
| public_key_metadata_path: Path to public key metadata or None. |
| rollback_index: Rollback index. |
| flags: Flags value to use in the image. |
| props: Properties to insert (List of strings of the form 'key:value'). |
| props_from_file: Properties to insert (List of strings 'key:<path>'). |
| kernel_cmdlines: Kernel cmdlines to insert (list of strings). |
| setup_rootfs_from_kernel: None or file to generate |
| dm-verity kernel cmdline from. |
| include_descriptors_from_image: List of file objects for which |
| to insert descriptors from. |
| calc_max_image_size: Don't store the footer - instead calculate the |
| maximum image size leaving enough room for metadata with the |
| given |partition_size|. |
| signing_helper: Program which signs a hash and return signature. |
| signing_helper_with_files: Same as signing_helper but uses files instead. |
| release_string: None or avbtool release string. |
| append_to_release_string: None or string to append. |
| output_vbmeta_image: If not None, also write vbmeta struct to this file. |
| do_not_append_vbmeta_image: If True, don't append vbmeta struct. |
| print_required_libavb_version: True to only print required libavb version. |
| use_persistent_digest: Use a persistent digest on device. |
| do_not_use_ab: This partition does not use A/B. |
| |
| Raises: |
| AvbError: If an argument is incorrect. |
| """ |
| |
| required_libavb_version_minor = 0 |
| if use_persistent_digest or do_not_use_ab: |
| required_libavb_version_minor = 1 |
| |
| # If we're asked to calculate minimum required libavb version, we're done. |
| if print_required_libavb_version: |
| print('1.{}'.format(required_libavb_version_minor)) |
| return |
| |
| # First, calculate the maximum image size such that an image |
| # this size + metadata (footer + vbmeta struct) fits in |
| # |partition_size|. |
| max_metadata_size = self.MAX_VBMETA_SIZE + self.MAX_FOOTER_SIZE |
| if partition_size < max_metadata_size: |
| raise AvbError('Parition size of {} is too small. ' |
| 'Needs to be at least {}'.format( |
| partition_size, max_metadata_size)) |
| max_image_size = partition_size - max_metadata_size |
| |
| # If we're asked to only calculate the maximum image size, we're done. |
| if calc_max_image_size: |
| print('{}'.format(max_image_size)) |
| return |
| |
| image = ImageHandler(image_filename) |
| |
| if partition_size % image.block_size != 0: |
| raise AvbError('Partition size of {} is not a multiple of the image ' |
| 'block size {}.'.format(partition_size, |
| image.block_size)) |
| |
| # If there's already a footer, truncate the image to its original |
| # size. This way 'avbtool add_hash_footer' is idempotent (modulo |
| # salts). |
| if image.image_size >= AvbFooter.SIZE: |
| image.seek(image.image_size - AvbFooter.SIZE) |
| try: |
| footer = AvbFooter(image.read(AvbFooter.SIZE)) |
| # Existing footer found. Just truncate. |
| original_image_size = footer.original_image_size |
| image.truncate(footer.original_image_size) |
| except (LookupError, struct.error): |
| original_image_size = image.image_size |
| else: |
| # Image size is too small to possibly contain a footer. |
| original_image_size = image.image_size |
| |
| # If anything goes wrong from here-on, restore the image back to |
| # its original size. |
| try: |
| # If image size exceeds the maximum image size, fail. |
| if image.image_size > max_image_size: |
| raise AvbError('Image size of {} exceeds maximum image ' |
| 'size of {} in order to fit in a partition ' |
| 'size of {}.'.format(image.image_size, max_image_size, |
| partition_size)) |
| |
| digest_size = len(hashlib.new(name=hash_algorithm).digest()) |
| if salt: |
| salt = binascii.unhexlify(salt) |
| elif salt is None and not use_persistent_digest: |
| # If salt is not explicitly specified, choose a hash that's the same |
| # size as the hash size. Don't populate a random salt if this |
| # descriptor is being created to use a persistent digest on device. |
| hash_size = digest_size |
| salt = open('/dev/urandom').read(hash_size) |
| else: |
| salt = '' |
| |
| hasher = hashlib.new(name=hash_algorithm, string=salt) |
| # TODO(zeuthen): might want to read this in chunks to avoid |
| # memory pressure, then again, this is only supposed to be used |
| # on kernel/initramfs partitions. Possible optimization. |
| image.seek(0) |
| hasher.update(image.read(image.image_size)) |
| digest = hasher.digest() |
| |
| h_desc = AvbHashDescriptor() |
| h_desc.image_size = image.image_size |
| h_desc.hash_algorithm = hash_algorithm |
| h_desc.partition_name = partition_name |
| h_desc.salt = salt |
| h_desc.flags = 0 |
| if do_not_use_ab: |
| h_desc.flags |= 1 # AVB_HASH_DESCRIPTOR_FLAGS_DO_NOT_USE_AB |
| if not use_persistent_digest: |
| h_desc.digest = digest |
| |
| # Generate the VBMeta footer. |
| ht_desc_to_setup = None |
| vbmeta_blob = self._generate_vbmeta_blob( |
| algorithm_name, key_path, public_key_metadata_path, [h_desc], |
| chain_partitions, rollback_index, flags, props, props_from_file, |
| kernel_cmdlines, setup_rootfs_from_kernel, ht_desc_to_setup, |
| include_descriptors_from_image, signing_helper, |
| signing_helper_with_files, release_string, |
| append_to_release_string, required_libavb_version_minor) |
| |
| # Write vbmeta blob, if requested. |
| if output_vbmeta_image: |
| output_vbmeta_image.write(vbmeta_blob) |
| |
| # Append vbmeta blob and footer, unless requested not to. |
| if not do_not_append_vbmeta_image: |
| # If the image isn't sparse, its size might not be a multiple of |
| # the block size. This will screw up padding later so just grow it. |
| if image.image_size % image.block_size != 0: |
| assert not image.is_sparse |
| padding_needed = image.block_size - ( |
| image.image_size % image.block_size) |
| image.truncate(image.image_size + padding_needed) |
| |
| # The append_raw() method requires content with size being a |
| # multiple of |block_size| so add padding as needed. Also record |
| # where this is written to since we'll need to put that in the |
| # footer. |
| vbmeta_offset = image.image_size |
| padding_needed = ( |
| round_to_multiple(len(vbmeta_blob), image.block_size) - |
| len(vbmeta_blob)) |
| vbmeta_blob_with_padding = vbmeta_blob + '\0' * padding_needed |
| |
| image.append_raw(vbmeta_blob_with_padding) |
| vbmeta_end_offset = vbmeta_offset + len(vbmeta_blob_with_padding) |
| |
| # Now insert a DONT_CARE chunk with enough bytes such that the |
| # final Footer block is at the end of partition_size.. |
| image.append_dont_care(partition_size - vbmeta_end_offset - |
| 1*image.block_size) |
| |
| # Generate the Footer that tells where the VBMeta footer |
| # is. Also put enough padding in the front of the footer since |
| # we'll write out an entire block. |
| footer = AvbFooter() |
| footer.original_image_size = original_image_size |
| footer.vbmeta_offset = vbmeta_offset |
| footer.vbmeta_size = len(vbmeta_blob) |
| footer_blob = footer.encode() |
| footer_blob_with_padding = ('\0'*(image.block_size - AvbFooter.SIZE) + |
| footer_blob) |
| image.append_raw(footer_blob_with_padding) |
| |
| except: |
| # Truncate back to original size, then re-raise |
| image.truncate(original_image_size) |
| raise |
| |
| def add_hashtree_footer(self, image_filename, partition_size, partition_name, |
| generate_fec, fec_num_roots, hash_algorithm, |
| block_size, salt, chain_partitions, algorithm_name, |
| key_path, |
| public_key_metadata_path, rollback_index, flags, |
| props, props_from_file, kernel_cmdlines, |
| setup_rootfs_from_kernel, |
| setup_as_rootfs_from_kernel, |
| include_descriptors_from_image, |
| calc_max_image_size, signing_helper, |
| signing_helper_with_files, |
| release_string, append_to_release_string, |
| output_vbmeta_image, do_not_append_vbmeta_image, |
| print_required_libavb_version, |
| use_persistent_root_digest, do_not_use_ab, |
| no_hashtree): |
| """Implements the 'add_hashtree_footer' command. |
| |
| See https://gitlab.com/cryptsetup/cryptsetup/wikis/DMVerity for |
| more information about dm-verity and these hashes. |
| |
| Arguments: |
| image_filename: File to add the footer to. |
| partition_size: Size of partition or 0 to put it right at the end. |
| partition_name: Name of partition (without A/B suffix). |
| generate_fec: If True, generate FEC codes. |
| fec_num_roots: Number of roots for FEC. |
| hash_algorithm: Hash algorithm to use. |
| block_size: Block size to use. |
| salt: Salt to use as a hexadecimal string or None to use /dev/urandom. |
| chain_partitions: List of partitions to chain. |
| algorithm_name: Name of algorithm to use. |
| key_path: Path to key to use or None. |
| public_key_metadata_path: Path to public key metadata or None. |
| rollback_index: Rollback index. |
| flags: Flags value to use in the image. |
| props: Properties to insert (List of strings of the form 'key:value'). |
| props_from_file: Properties to insert (List of strings 'key:<path>'). |
| kernel_cmdlines: Kernel cmdlines to insert (list of strings). |
| setup_rootfs_from_kernel: None or file to generate |
| dm-verity kernel cmdline from. |
| setup_as_rootfs_from_kernel: If True, generate dm-verity kernel |
| cmdline to set up rootfs. |
| include_descriptors_from_image: List of file objects for which |
| to insert descriptors from. |
| calc_max_image_size: Don't store the hashtree or footer - instead |
| calculate the maximum image size leaving enough room for hashtree |
| and metadata with the given |partition_size|. |
| signing_helper: Program which signs a hash and return signature. |
| signing_helper_with_files: Same as signing_helper but uses files instead. |
| release_string: None or avbtool release string. |
| append_to_release_string: None or string to append. |
| output_vbmeta_image: If not None, also write vbmeta struct to this file. |
| do_not_append_vbmeta_image: If True, don't append vbmeta struct. |
| print_required_libavb_version: True to only print required libavb version. |
| use_persistent_root_digest: Use a persistent root digest on device. |
| do_not_use_ab: The partition does not use A/B. |
| no_hashtree: Do not append hashtree. Set size in descriptor as zero. |
| |
| Raises: |
| AvbError: If an argument is incorrect. |
| """ |
| |
| required_libavb_version_minor = 0 |
| if use_persistent_root_digest or do_not_use_ab: |
| required_libavb_version_minor = 1 |
| |
| # If we're asked to calculate minimum required libavb version, we're done. |
| if print_required_libavb_version: |
| print('1.{}'.format(required_libavb_version_minor)) |
| return |
| |
| digest_size = len(hashlib.new(name=hash_algorithm).digest()) |
| digest_padding = round_to_pow2(digest_size) - digest_size |
| |
| # If |partition_size| is given (e.g. not 0), calculate the maximum image |
| # size such that an image this size + the hashtree + metadata (footer + |
| # vbmeta struct) fits in |partition_size|. We use very conservative figures |
| # for metadata. |
| if partition_size > 0: |
| max_tree_size = 0 |
| max_fec_size = 0 |
| if not no_hashtree: |
| (_, max_tree_size) = calc_hash_level_offsets( |
| partition_size, block_size, digest_size + digest_padding) |
| if generate_fec: |
| max_fec_size = calc_fec_data_size(partition_size, fec_num_roots) |
| max_metadata_size = (max_fec_size + max_tree_size + |
| self.MAX_VBMETA_SIZE + |
| self.MAX_FOOTER_SIZE) |
| max_image_size = partition_size - max_metadata_size |
| else: |
| max_image_size = 0 |
| |
| # If we're asked to only calculate the maximum image size, we're done. |
| if calc_max_image_size: |
| print('{}'.format(max_image_size)) |
| return |
| |
| image = ImageHandler(image_filename) |
| |
| if partition_size > 0: |
| if partition_size % image.block_size != 0: |
| raise AvbError('Partition size of {} is not a multiple of the image ' |
| 'block size {}.'.format(partition_size, |
| image.block_size)) |
| elif image.image_size % image.block_size != 0: |
| raise AvbError('File size of {} is not a multiple of the image ' |
| 'block size {}.'.format(image.image_size, |
| image.block_size)) |
| |
| # If there's already a footer, truncate the image to its original |
| # size. This way 'avbtool add_hashtree_footer' is idempotent |
| # (modulo salts). |
| if image.image_size >= AvbFooter.SIZE: |
| image.seek(image.image_size - AvbFooter.SIZE) |
| try: |
| footer = AvbFooter(image.read(AvbFooter.SIZE)) |
| # Existing footer found. Just truncate. |
| original_image_size = footer.original_image_size |
| image.truncate(footer.original_image_size) |
| except (LookupError, struct.error): |
| original_image_size = image.image_size |
| else: |
| # Image size is too small to possibly contain a footer. |
| original_image_size = image.image_size |
| |
| # If anything goes wrong from here-on, restore the image back to |
| # its original size. |
| try: |
| # Ensure image is multiple of block_size. |
| rounded_image_size = round_to_multiple(image.image_size, block_size) |
| if rounded_image_size > image.image_size: |
| image.append_raw('\0' * (rounded_image_size - image.image_size)) |
| |
| # If image size exceeds the maximum image size, fail. |
| if partition_size > 0: |
| if image.image_size > max_image_size: |
| raise AvbError('Image size of {} exceeds maximum image ' |
| 'size of {} in order to fit in a partition ' |
| 'size of {}.'.format(image.image_size, max_image_size, |
| partition_size)) |
| |
| if salt: |
| salt = binascii.unhexlify(salt) |
| elif salt is None and not use_persistent_root_digest: |
| # If salt is not explicitly specified, choose a hash that's the same |
| # size as the hash size. Don't populate a random salt if this |
| # descriptor is being created to use a persistent digest on device. |
| hash_size = digest_size |
| salt = open('/dev/urandom').read(hash_size) |
| else: |
| salt = '' |
| |
| # Hashes are stored upside down so we need to calculate hash |
| # offsets in advance. |
| (hash_level_offsets, tree_size) = calc_hash_level_offsets( |
| image.image_size, block_size, digest_size + digest_padding) |
| |
| # If the image isn't sparse, its size might not be a multiple of |
| # the block size. This will screw up padding later so just grow it. |
| if image.image_size % image.block_size != 0: |
| assert not image.is_sparse |
| padding_needed = image.block_size - (image.image_size%image.block_size) |
| image.truncate(image.image_size + padding_needed) |
| |
| # Generate the tree and add padding as needed. |
| tree_offset = image.image_size |
| root_digest, hash_tree = generate_hash_tree(image, image.image_size, |
| block_size, |
| hash_algorithm, salt, |
| digest_padding, |
| hash_level_offsets, |
| tree_size) |
| |
| # Generate HashtreeDescriptor with details about the tree we |
| # just generated. |
| if no_hashtree: |
| tree_size = 0 |
| hash_tree = bytearray() |
| ht_desc = AvbHashtreeDescriptor() |
| ht_desc.dm_verity_version = 1 |
| ht_desc.image_size = image.image_size |
| ht_desc.tree_offset = tree_offset |
| ht_desc.tree_size = tree_size |
| ht_desc.data_block_size = block_size |
| ht_desc.hash_block_size = block_size |
| ht_desc.hash_algorithm = hash_algorithm |
| ht_desc.partition_name = partition_name |
| ht_desc.salt = salt |
| if do_not_use_ab: |
| ht_desc.flags |= 1 # AVB_HASHTREE_DESCRIPTOR_FLAGS_DO_NOT_USE_AB |
| if not use_persistent_root_digest: |
| ht_desc.root_digest = root_digest |
| |
| # Write the hash tree |
| padding_needed = (round_to_multiple(len(hash_tree), image.block_size) - |
| len(hash_tree)) |
| hash_tree_with_padding = hash_tree + '\0'*padding_needed |
| image.append_raw(hash_tree_with_padding) |
| len_hashtree_and_fec = len(hash_tree_with_padding) |
| |
| # Generate FEC codes, if requested. |
| if generate_fec: |
| if no_hashtree: |
| fec_data = bytearray() |
| else: |
| fec_data = generate_fec_data(image_filename, fec_num_roots) |
| padding_needed = (round_to_multiple(len(fec_data), image.block_size) - |
| len(fec_data)) |
| fec_data_with_padding = fec_data + '\0'*padding_needed |
| fec_offset = image.image_size |
| image.append_raw(fec_data_with_padding) |
| len_hashtree_and_fec += len(fec_data_with_padding) |
| # Update the hashtree descriptor. |
| ht_desc.fec_num_roots = fec_num_roots |
| ht_desc.fec_offset = fec_offset |
| ht_desc.fec_size = len(fec_data) |
| |
| ht_desc_to_setup = None |
| if setup_as_rootfs_from_kernel: |
| ht_desc_to_setup = ht_desc |
| |
| # Generate the VBMeta footer and add padding as needed. |
| vbmeta_offset = tree_offset + len_hashtree_and_fec |
| vbmeta_blob = self._generate_vbmeta_blob( |
| algorithm_name, key_path, public_key_metadata_path, [ht_desc], |
| chain_partitions, rollback_index, flags, props, props_from_file, |
| kernel_cmdlines, setup_rootfs_from_kernel, ht_desc_to_setup, |
| include_descriptors_from_image, signing_helper, |
| signing_helper_with_files, release_string, |
| append_to_release_string, required_libavb_version_minor) |
| padding_needed = (round_to_multiple(len(vbmeta_blob), image.block_size) - |
| len(vbmeta_blob)) |
| vbmeta_blob_with_padding = vbmeta_blob + '\0'*padding_needed |
| |
| # Write vbmeta blob, if requested. |
| if output_vbmeta_image: |
| output_vbmeta_image.write(vbmeta_blob) |
| |
| # Append vbmeta blob and footer, unless requested not to. |
| if not do_not_append_vbmeta_image: |
| image.append_raw(vbmeta_blob_with_padding) |
| |
| # Now insert a DONT_CARE chunk with enough bytes such that the |
| # final Footer block is at the end of partition_size.. |
| if partition_size > 0: |
| image.append_dont_care(partition_size - image.image_size - |
| 1*image.block_size) |
| |
| # Generate the Footer that tells where the VBMeta footer |
| # is. Also put enough padding in the front of the footer since |
| # we'll write out an entire block. |
| footer = AvbFooter() |
| footer.original_image_size = original_image_size |
| footer.vbmeta_offset = vbmeta_offset |
| footer.vbmeta_size = len(vbmeta_blob) |
| footer_blob = footer.encode() |
| footer_blob_with_padding = ('\0'*(image.block_size - AvbFooter.SIZE) + |
| footer_blob) |
| image.append_raw(footer_blob_with_padding) |
| |
| except: |
| # Truncate back to original size, then re-raise. |
| image.truncate(original_image_size) |
| raise |
| |
| def make_atx_certificate(self, output, authority_key_path, subject_key_path, |
| subject_key_version, subject, |
| is_intermediate_authority, usage, signing_helper, |
| signing_helper_with_files): |
| """Implements the 'make_atx_certificate' command. |
| |
| Android Things certificates are required for Android Things public key |
| metadata. They chain the vbmeta signing key for a particular product back to |
| a fused, permanent root key. These certificates are fixed-length and fixed- |
| format with the explicit goal of not parsing ASN.1 in bootloader code. |
| |
| Arguments: |
| output: Certificate will be written to this file on success. |
| authority_key_path: A PEM file path with the authority private key. |
| If None, then a certificate will be created without a |
| signature. The signature can be created out-of-band |
| and appended. |
| subject_key_path: Path to a PEM or DER subject public key. |
| subject_key_version: A 64-bit version value. If this is None, the number |
| of seconds since the epoch is used. |
| subject: A subject identifier. For Product Signing Key certificates this |
| should be the same Product ID found in the permanent attributes. |
| is_intermediate_authority: True if the certificate is for an intermediate |
| authority. |
| usage: If not empty, overrides the cert usage with a hash of this value. |
| signing_helper: Program which signs a hash and returns the signature. |
| signing_helper_with_files: Same as signing_helper but uses files instead. |
| """ |
| signed_data = bytearray() |
| signed_data.extend(struct.pack('<I', 1)) # Format Version |
| signed_data.extend(encode_rsa_key(subject_key_path)) |
| hasher = hashlib.sha256() |
| hasher.update(subject) |
| signed_data.extend(hasher.digest()) |
| if not usage: |
| usage = 'com.google.android.things.vboot' |
| if is_intermediate_authority: |
| usage += '.ca' |
| hasher = hashlib.sha256() |
| hasher.update(usage) |
| signed_data.extend(hasher.digest()) |
| if subject_key_version is None: |
| subject_key_version = int(time.time()) |
| signed_data.extend(struct.pack('<Q', subject_key_version)) |
| signature = bytearray() |
| if authority_key_path: |
| padding_and_hash = bytearray() |
| algorithm_name = 'SHA512_RSA4096' |
| alg = ALGORITHMS[algorithm_name] |
| hasher = hashlib.sha512() # pylint: disable=redefined-variable-type |
| padding_and_hash.extend(alg.padding) |
| hasher.update(signed_data) |
| padding_and_hash.extend(hasher.digest()) |
| signature.extend(raw_sign(signing_helper, signing_helper_with_files, |
| algorithm_name, |
| alg.signature_num_bytes, authority_key_path, |
| padding_and_hash)) |
| output.write(signed_data) |
| output.write(signature) |
| |
| def make_atx_permanent_attributes(self, output, root_authority_key_path, |
| product_id): |
| """Implements the 'make_atx_permanent_attributes' command. |
| |
| Android Things permanent attributes are designed to be permanent for a |
| particular product and a hash of these attributes should be fused into |
| hardware to enforce this. |
| |
| Arguments: |
| output: Attributes will be written to this file on success. |
| root_authority_key_path: Path to a PEM or DER public key for |
| the root authority. |
| product_id: A 16-byte Product ID. |
| |
| Raises: |
| AvbError: If an argument is incorrect. |
| """ |
| EXPECTED_PRODUCT_ID_SIZE = 16 # pylint: disable=invalid-name |
| if len(product_id) != EXPECTED_PRODUCT_ID_SIZE: |
| raise AvbError('Invalid Product ID length.') |
| output.write(struct.pack('<I', 1)) # Format Version |
| output.write(encode_rsa_key(root_authority_key_path)) |
| output.write(product_id) |
| |
| def make_atx_metadata(self, output, intermediate_key_certificate, |
| product_key_certificate): |
| """Implements the 'make_atx_metadata' command. |
| |
| Android Things metadata are included in vbmeta images to facilitate |
| verification. The output of this command can be used as the |
| public_key_metadata argument to other commands. |
| |
| Arguments: |
| output: Metadata will be written to this file on success. |
| intermediate_key_certificate: A certificate file as output by |
| make_atx_certificate with |
| is_intermediate_authority set to true. |
| product_key_certificate: A certificate file as output by |
| make_atx_certificate with |
| is_intermediate_authority set to false. |
| |
| Raises: |
| AvbError: If an argument is incorrect. |
| """ |
| EXPECTED_CERTIFICATE_SIZE = 1620 # pylint: disable=invalid-name |
| if len(intermediate_key_certificate) != EXPECTED_CERTIFICATE_SIZE: |
| raise AvbError('Invalid intermediate key certificate length.') |
| if len(product_key_certificate) != EXPECTED_CERTIFICATE_SIZE: |
| raise AvbError('Invalid product key certificate length.') |
| output.write(struct.pack('<I', 1)) # Format Version |
| output.write(intermediate_key_certificate) |
| output.write(product_key_certificate) |
| |
| def make_atx_unlock_credential(self, output, intermediate_key_certificate, |
| unlock_key_certificate, challenge_path, |
| unlock_key_path, signing_helper, |
| signing_helper_with_files): |
| """Implements the 'make_atx_unlock_credential' command. |
| |
| Android Things unlock credentials can be used to authorize the unlock of AVB |
| on a device. These credentials are presented to an Android Things bootloader |
| via the fastboot interface in response to a 16-byte challenge. This method |
| creates all fields of the credential except the challenge signature field |
| (which is the last field) and can optionally create the challenge signature |
| field as well if a challenge and the unlock_key_path is provided. |
| |
| Arguments: |
| output: The credential will be written to this file on success. |
| intermediate_key_certificate: A certificate file as output by |
| make_atx_certificate with |
| is_intermediate_authority set to true. |
| unlock_key_certificate: A certificate file as output by |
| make_atx_certificate with |
| is_intermediate_authority set to false and the |
| usage set to |
| 'com.google.android.things.vboot.unlock'. |
| challenge_path: [optional] A path to the challenge to sign. |
| unlock_key_path: [optional] A PEM file path with the unlock private key. |
| signing_helper: Program which signs a hash and returns the signature. |
| signing_helper_with_files: Same as signing_helper but uses files instead. |
| |
| Raises: |
| AvbError: If an argument is incorrect. |
| """ |
| EXPECTED_CERTIFICATE_SIZE = 1620 # pylint: disable=invalid-name |
| EXPECTED_CHALLENGE_SIZE = 16 # pylint: disable=invalid-name |
| if len(intermediate_key_certificate) != EXPECTED_CERTIFICATE_SIZE: |
| raise AvbError('Invalid intermediate key certificate length.') |
| if len(unlock_key_certificate) != EXPECTED_CERTIFICATE_SIZE: |
| raise AvbError('Invalid product key certificate length.') |
| challenge = bytearray() |
| if challenge_path: |
| with open(challenge_path, 'r') as f: |
| challenge = f.read() |
| if len(challenge) != EXPECTED_CHALLENGE_SIZE: |
| raise AvbError('Invalid unlock challenge length.') |
| output.write(struct.pack('<I', 1)) # Format Version |
| output.write(intermediate_key_certificate) |
| output.write(unlock_key_certificate) |
| if challenge_path and unlock_key_path: |
| signature = bytearray() |
| padding_and_hash = bytearray() |
| algorithm_name = 'SHA512_RSA4096' |
| alg = ALGORITHMS[algorithm_name] |
| hasher = hashlib.sha512() |
| padding_and_hash.extend(alg.padding) |
| hasher.update(challenge) |
| padding_and_hash.extend(hasher.digest()) |
| signature.extend(raw_sign(signing_helper, signing_helper_with_files, |
| algorithm_name, |
| alg.signature_num_bytes, unlock_key_path, |
| padding_and_hash)) |
| output.write(signature) |
| |
| |
| def calc_hash_level_offsets(image_size, block_size, digest_size): |
| """Calculate the offsets of all the hash-levels in a Merkle-tree. |
| |
| Arguments: |
| image_size: The size of the image to calculate a Merkle-tree for. |
| block_size: The block size, e.g. 4096. |
| digest_size: The size of each hash, e.g. 32 for SHA-256. |
| |
| Returns: |
| A tuple where the first argument is an array of offsets and the |
| second is size of the tree, in bytes. |
| """ |
| level_offsets = [] |
| level_sizes = [] |
| tree_size = 0 |
| |
| num_levels = 0 |
| size = image_size |
| while size > block_size: |
| num_blocks = (size + block_size - 1) // block_size |
| level_size = round_to_multiple(num_blocks * digest_size, block_size) |
| |
| level_sizes.append(level_size) |
| tree_size += level_size |
| num_levels += 1 |
| |
| size = level_size |
| |
| for n in range(0, num_levels): |
| offset = 0 |
| for m in range(n + 1, num_levels): |
| offset += level_sizes[m] |
| level_offsets.append(offset) |
| |
| return level_offsets, tree_size |
| |
| |
| # See system/extras/libfec/include/fec/io.h for these definitions. |
| FEC_FOOTER_FORMAT = '<LLLLLQ32s' |
| FEC_MAGIC = 0xfecfecfe |
| |
| |
| def calc_fec_data_size(image_size, num_roots): |
| """Calculates how much space FEC data will take. |
| |
| Arguments: |
| image_size: The size of the image. |
| num_roots: Number of roots. |
| |
| Returns: |
| The number of bytes needed for FEC for an image of the given size |
| and with the requested number of FEC roots. |
| |
| Raises: |
| ValueError: If output from the 'fec' tool is invalid. |
| |
| """ |
| p = subprocess.Popen( |
| ['fec', '--print-fec-size', str(image_size), '--roots', str(num_roots)], |
| stdout=subprocess.PIPE, |
| stderr=subprocess.PIPE) |
| (pout, perr) = p.communicate() |
| retcode = p.wait() |
| if retcode != 0: |
| raise ValueError('Error invoking fec: {}'.format(perr)) |
| return int(pout) |
| |
| |
| def generate_fec_data(image_filename, num_roots): |
| """Generate FEC codes for an image. |
| |
| Arguments: |
| image_filename: The filename of the image. |
| num_roots: Number of roots. |
| |
| Returns: |
| The FEC data blob. |
| |
| Raises: |
| ValueError: If output from the 'fec' tool is invalid. |
| """ |
| fec_tmpfile = tempfile.NamedTemporaryFile() |
| subprocess.check_call( |
| ['fec', '--encode', '--roots', str(num_roots), image_filename, |
| fec_tmpfile.name], |
| stderr=open(os.devnull)) |
| fec_data = fec_tmpfile.read() |
| footer_size = struct.calcsize(FEC_FOOTER_FORMAT) |
| footer_data = fec_data[-footer_size:] |
| (magic, _, _, num_roots, fec_size, _, _) = struct.unpack(FEC_FOOTER_FORMAT, |
| footer_data) |
| if magic != FEC_MAGIC: |
| raise ValueError('Unexpected magic in FEC footer') |
| return fec_data[0:fec_size] |
| |
| |
| def generate_hash_tree(image, image_size, block_size, hash_alg_name, salt, |
| digest_padding, hash_level_offsets, tree_size): |
| """Generates a Merkle-tree for a file. |
| |
| Arguments: |
| image: The image, as a file. |
| image_size: The size of the image. |
| block_size: The block size, e.g. 4096. |
| hash_alg_name: The hash algorithm, e.g. 'sha256' or 'sha1'. |
| salt: The salt to use. |
| digest_padding: The padding for each digest. |
| hash_level_offsets: The offsets from calc_hash_level_offsets(). |
| tree_size: The size of the tree, in number of bytes. |
| |
| Returns: |
| A tuple where the first element is the top-level hash and the |
| second element is the hash-tree. |
| """ |
| hash_ret = bytearray(tree_size) |
| hash_src_offset = 0 |
| hash_src_size = image_size |
| level_num = 0 |
| while hash_src_size > block_size: |
| level_output_list = [] |
| remaining = hash_src_size |
| while remaining > 0: |
| hasher = hashlib.new(name=hash_alg_name, string=salt) |
| # Only read from the file for the first level - for subsequent |
| # levels, access the array we're building. |
| if level_num == 0: |
| image.seek(hash_src_offset + hash_src_size - remaining) |
| data = image.read(min(remaining, block_size)) |
| else: |
| offset = hash_level_offsets[level_num - 1] + hash_src_size - remaining |
| data = hash_ret[offset:offset + block_size] |
| hasher.update(data) |
| |
| remaining -= len(data) |
| if len(data) < block_size: |
| hasher.update('\0' * (block_size - len(data))) |
| level_output_list.append(hasher.digest()) |
| if digest_padding > 0: |
| level_output_list.append('\0' * digest_padding) |
| |
| level_output = ''.join(level_output_list) |
| |
| padding_needed = (round_to_multiple( |
| len(level_output), block_size) - len(level_output)) |
| level_output += '\0' * padding_needed |
| |
| # Copy level-output into resulting tree. |
| offset = hash_level_offsets[level_num] |
| hash_ret[offset:offset + len(level_output)] = level_output |
| |
| # Continue on to the next level. |
| hash_src_size = len(level_output) |
| level_num += 1 |
| |
| hasher = hashlib.new(name=hash_alg_name, string=salt) |
| hasher.update(level_output) |
| return hasher.digest(), hash_ret |
| |
| |
| class AvbTool(object): |
| """Object for avbtool command-line tool.""" |
| |
| def __init__(self): |
| """Initializer method.""" |
| self.avb = Avb() |
| |
| def _add_common_args(self, sub_parser): |
| """Adds arguments used by several sub-commands. |
| |
| Arguments: |
| sub_parser: The parser to add arguments to. |
| """ |
| sub_parser.add_argument('--algorithm', |
| help='Algorithm to use (default: NONE)', |
| metavar='ALGORITHM', |
| default='NONE') |
| sub_parser.add_argument('--key', |
| help='Path to RSA private key file', |
| metavar='KEY', |
| required=False) |
| sub_parser.add_argument('--signing_helper', |
| help='Path to helper used for signing', |
| metavar='APP', |
| default=None, |
| required=False) |
| sub_parser.add_argument('--signing_helper_with_files', |
| help='Path to helper used for signing using files', |
| metavar='APP', |
| default=None, |
| required=False) |
| sub_parser.add_argument('--public_key_metadata', |
| help='Path to public key metadata file', |
| metavar='KEY_METADATA', |
| required=False) |
| sub_parser.add_argument('--rollback_index', |
| help='Rollback Index', |
| type=parse_number, |
| default=0) |
| # This is used internally for unit tests. Do not include in --help output. |
| sub_parser.add_argument('--internal_release_string', |
| help=argparse.SUPPRESS) |
| sub_parser.add_argument('--append_to_release_string', |
| help='Text to append to release string', |
| metavar='STR') |
| sub_parser.add_argument('--prop', |
| help='Add property', |
| metavar='KEY:VALUE', |
| action='append') |
| sub_parser.add_argument('--prop_from_file', |
| help='Add property from file', |
| metavar='KEY:PATH', |
| action='append') |
| sub_parser.add_argument('--kernel_cmdline', |
| help='Add kernel cmdline', |
| metavar='CMDLINE', |
| action='append') |
| # TODO(zeuthen): the --setup_rootfs_from_kernel option used to be called |
| # --generate_dm_verity_cmdline_from_hashtree. Remove support for the latter |
| # at some future point. |
| sub_parser.add_argument('--setup_rootfs_from_kernel', |
| '--generate_dm_verity_cmdline_from_hashtree', |
| metavar='IMAGE', |
| help='Adds kernel cmdline to set up IMAGE', |
| type=argparse.FileType('rb')) |
| sub_parser.add_argument('--include_descriptors_from_image', |
| help='Include descriptors from image', |
| metavar='IMAGE', |
| action='append', |
| type=argparse.FileType('rb')) |
| sub_parser.add_argument('--print_required_libavb_version', |
| help=('Don\'t store the footer - ' |
| 'instead calculate the required libavb ' |
| 'version for the given options.'), |
| action='store_true') |
| # These are only allowed from top-level vbmeta and boot-in-lieu-of-vbmeta. |
| sub_parser.add_argument('--chain_partition', |
| help='Allow signed integrity-data for partition', |
| metavar='PART_NAME:ROLLBACK_SLOT:KEY_PATH', |
| action='append') |
| sub_parser.add_argument('--flags', |
| help='VBMeta flags', |
| type=parse_number, |
| default=0) |
| sub_parser.add_argument('--set_hashtree_disabled_flag', |
| help='Set the HASHTREE_DISABLED flag', |
| action='store_true') |
| |
| def _add_common_footer_args(self, sub_parser): |
| """Adds arguments used by add_*_footer sub-commands. |
| |
| Arguments: |
| sub_parser: The parser to add arguments to. |
| """ |
| sub_parser.add_argument('--use_persistent_digest', |
| help='Use a persistent digest on device instead of ' |
| 'storing the digest in the descriptor. This ' |
| 'cannot be used with A/B so must be combined ' |
| 'with --do_not_use_ab when an A/B suffix is ' |
| 'expected at runtime.', |
| action='store_true') |
| sub_parser.add_argument('--do_not_use_ab', |
| help='The partition does not use A/B even when an ' |
| 'A/B suffix is present. This must not be used ' |
| 'for vbmeta or chained partitions.', |
| action='store_true') |
| |
| def _fixup_common_args(self, args): |
| """Common fixups needed by subcommands. |
| |
| Arguments: |
| args: Arguments to modify. |
| |
| Returns: |
| The modified arguments. |
| """ |
| if args.set_hashtree_disabled_flag: |
| args.flags |= AVB_VBMETA_IMAGE_FLAGS_HASHTREE_DISABLED |
| return args |
| |
| def run(self, argv): |
| """Command-line processor. |
| |
| Arguments: |
| argv: Pass sys.argv from main. |
| """ |
| parser = argparse.ArgumentParser() |
| subparsers = parser.add_subparsers(title='subcommands') |
| |
| sub_parser = subparsers.add_parser('version', |
| help='Prints version of avbtool.') |
| sub_parser.set_defaults(func=self.version) |
| |
| sub_parser = subparsers.add_parser('extract_public_key', |
| help='Extract public key.') |
| sub_parser.add_argument('--key', |
| help='Path to RSA private key file', |
| required=True) |
| sub_parser.add_argument('--output', |
| help='Output file name', |
| type=argparse.FileType('wb'), |
| required=True) |
| sub_parser.set_defaults(func=self.extract_public_key) |
| |
| sub_parser = subparsers.add_parser('make_vbmeta_image', |
| help='Makes a vbmeta image.') |
| sub_parser.add_argument('--output', |
| help='Output file name', |
| type=argparse.FileType('wb')) |
| sub_parser.add_argument('--padding_size', |
| metavar='NUMBER', |
| help='If non-zero, pads output with NUL bytes so ' |
| 'its size is a multiple of NUMBER ' |
| '(default: 0)', |
| type=parse_number, |
| default=0) |
| self._add_common_args(sub_parser) |
| sub_parser.set_defaults(func=self.make_vbmeta_image) |
| |
| sub_parser = subparsers.add_parser('add_hash_footer', |
| help='Add hashes and footer to image.') |
| sub_parser.add_argument('--image', |
| help='Image to add hashes to', |
| type=argparse.FileType('rab+')) |
| sub_parser.add_argument('--partition_size', |
| help='Partition size', |
| type=parse_number) |
| sub_parser.add_argument('--partition_name', |
| help='Partition name', |
| default=None) |
| sub_parser.add_argument('--hash_algorithm', |
| help='Hash algorithm to use (default: sha256)', |
| default='sha256') |
| sub_parser.add_argument('--salt', |
| help='Salt in hex (default: /dev/urandom)') |
| sub_parser.add_argument('--calc_max_image_size', |
| help=('Don\'t store the footer - ' |
| 'instead calculate the maximum image size ' |
| 'leaving enough room for metadata with ' |
| 'the given partition size.'), |
| action='store_true') |
| sub_parser.add_argument('--output_vbmeta_image', |
| help='Also write vbmeta struct to file', |
| type=argparse.FileType('wb')) |
| sub_parser.add_argument('--do_not_append_vbmeta_image', |
| help=('Do not append vbmeta struct or footer ' |
| 'to the image'), |
| action='store_true') |
| self._add_common_args(sub_parser) |
| self._add_common_footer_args(sub_parser) |
| sub_parser.set_defaults(func=self.add_hash_footer) |
| |
| sub_parser = subparsers.add_parser('append_vbmeta_image', |
| help='Append vbmeta image to image.') |
| sub_parser.add_argument('--image', |
| help='Image to append vbmeta blob to', |
| type=argparse.FileType('rab+')) |
| sub_parser.add_argument('--partition_size', |
| help='Partition size', |
| type=parse_number, |
| required=True) |
| sub_parser.add_argument('--vbmeta_image', |
| help='Image with vbmeta blob to append', |
| type=argparse.FileType('rb')) |
| sub_parser.set_defaults(func=self.append_vbmeta_image) |
| |
| sub_parser = subparsers.add_parser( |
| 'add_hashtree_footer', |
| help='Add hashtree and footer to image.') |
| sub_parser.add_argument('--image', |
| help='Image to add hashtree to', |
| type=argparse.FileType('rab+')) |
| sub_parser.add_argument('--partition_size', |
| help='Partition size', |
| default=0, |
| type=parse_number) |
| sub_parser.add_argument('--partition_name', |
| help='Partition name', |
| default='') |
| sub_parser.add_argument('--hash_algorithm', |
| help='Hash algorithm to use (default: sha1)', |
| default='sha1') |
| sub_parser.add_argument('--salt', |
| help='Salt in hex (default: /dev/urandom)') |
| sub_parser.add_argument('--block_size', |
| help='Block size (default: 4096)', |
| type=parse_number, |
| default=4096) |
| # TODO(zeuthen): The --generate_fec option was removed when we |
| # moved to generating FEC by default. To avoid breaking existing |
| # users needing to transition we simply just print a warning below |
| # in add_hashtree_footer(). Remove this option and the warning at |
| # some point in the future. |
| sub_parser.add_argument('--generate_fec', |
| help=argparse.SUPPRESS, |
| action='store_true') |
| sub_parser.add_argument( |
| '--do_not_generate_fec', |
| help='Do not generate forward-error-correction codes', |
| action='store_true') |
| sub_parser.add_argument('--fec_num_roots', |
| help='Number of roots for FEC (default: 2)', |
| type=parse_number, |
| default=2) |
| sub_parser.add_argument('--calc_max_image_size', |
| help=('Don\'t store the hashtree or footer - ' |
| 'instead calculate the maximum image size ' |
| 'leaving enough room for hashtree ' |
| 'and metadata with the given partition ' |
| 'size.'), |
| action='store_true') |
| sub_parser.add_argument('--output_vbmeta_image', |
| help='Also write vbmeta struct to file', |
| type=argparse.FileType('wb')) |
| sub_parser.add_argument('--do_not_append_vbmeta_image', |
| help=('Do not append vbmeta struct or footer ' |
| 'to the image'), |
| action='store_true') |
| # This is different from --setup_rootfs_from_kernel insofar that |
| # it doesn't take an IMAGE, the generated cmdline will be for the |
| # hashtree we're adding. |
| sub_parser.add_argument('--setup_as_rootfs_from_kernel', |
| action='store_true', |
| help='Adds kernel cmdline for setting up rootfs') |
| sub_parser.add_argument('--no_hashtree', |
| action='store_true', |
| help='Do not append hashtree') |
| self._add_common_args(sub_parser) |
| self._add_common_footer_args(sub_parser) |
| sub_parser.set_defaults(func=self.add_hashtree_footer) |
| |
| sub_parser = subparsers.add_parser('erase_footer', |
| help='Erase footer from an image.') |
| sub_parser.add_argument('--image', |
| help='Image with a footer', |
| type=argparse.FileType('rwb+'), |
| required=True) |
| sub_parser.add_argument('--keep_hashtree', |
| help='Keep the hashtree and FEC in the image', |
| action='store_true') |
| sub_parser.set_defaults(func=self.erase_footer) |
| |
| sub_parser = subparsers.add_parser('zero_hashtree', |
| help='Zero out hashtree and FEC data.') |
| sub_parser.add_argument('--image', |
| help='Image with a footer', |
| type=argparse.FileType('rwb+'), |
| required=True) |
| sub_parser.set_defaults(func=self.zero_hashtree) |
| |
| sub_parser = subparsers.add_parser( |
| 'extract_vbmeta_image', |
| help='Extracts vbmeta from an image with a footer.') |
| sub_parser.add_argument('--image', |
| help='Image with footer', |
| type=argparse.FileType('rb'), |
| required=True) |
| sub_parser.add_argument('--output', |
| help='Output file name', |
| type=argparse.FileType('wb')) |
| sub_parser.add_argument('--padding_size', |
| metavar='NUMBER', |
| help='If non-zero, pads output with NUL bytes so ' |
| 'its size is a multiple of NUMBER ' |
| '(default: 0)', |
| type=parse_number, |
| default=0) |
| sub_parser.set_defaults(func=self.extract_vbmeta_image) |
| |
| sub_parser = subparsers.add_parser('resize_image', |
| help='Resize image with a footer.') |
| sub_parser.add_argument('--image', |
| help='Image with a footer', |
| type=argparse.FileType('rwb+'), |
| required=True) |
| sub_parser.add_argument('--partition_size', |
| help='New partition size', |
| type=parse_number) |
| sub_parser.set_defaults(func=self.resize_image) |
| |
| sub_parser = subparsers.add_parser( |
| 'info_image', |
| help='Show information about vbmeta or footer.') |
| sub_parser.add_argument('--image', |
| help='Image to show information about', |
| type=argparse.FileType('rb'), |
| required=True) |
| sub_parser.add_argument('--output', |
| help='Write info to file', |
| type=argparse.FileType('wt'), |
| default=sys.stdout) |
| sub_parser.set_defaults(func=self.info_image) |
| |
| sub_parser = subparsers.add_parser( |
| 'verify_image', |
| help='Verify an image.') |
| sub_parser.add_argument('--image', |
| help='Image to verify', |
| type=argparse.FileType('rb'), |
| required=True) |
| sub_parser.add_argument('--key', |
| help='Check embedded public key matches KEY', |
| metavar='KEY', |
| required=False) |
| sub_parser.add_argument('--expected_chain_partition', |
| help='Expected chain partition', |
| metavar='PART_NAME:ROLLBACK_SLOT:KEY_PATH', |
| action='append') |
| sub_parser.add_argument( |
| '--follow_chain_partitions', |
| help=('Follows chain partitions even when not ' |
| 'specified with the --expected_chain_partition option'), |
| action='store_true') |
| sub_parser.add_argument( |
| '--accept_zeroed_hashtree', |
| help=('Accept images where the hashtree or FEC data is zeroed out'), |
| action='store_true') |
| sub_parser.set_defaults(func=self.verify_image) |
| |
| sub_parser = subparsers.add_parser( |
| 'calculate_vbmeta_digest', |
| help='Calculate vbmeta digest.') |
| sub_parser.add_argument('--image', |
| help='Image to calculate digest for', |
| type=argparse.FileType('rb'), |
| required=True) |
| sub_parser.add_argument('--hash_algorithm', |
| help='Hash algorithm to use (default: sha256)', |
| default='sha256') |
| sub_parser.add_argument('--output', |
| help='Write hex digest to file (default: stdout)', |
| type=argparse.FileType('wt'), |
| default=sys.stdout) |
| sub_parser.set_defaults(func=self.calculate_vbmeta_digest) |
| |
| sub_parser = subparsers.add_parser( |
| 'calculate_kernel_cmdline', |
| help='Calculate kernel cmdline.') |
| sub_parser.add_argument('--image', |
| help='Image to calculate kernel cmdline for', |
| type=argparse.FileType('rb'), |
| required=True) |
| sub_parser.add_argument('--hashtree_disabled', |
| help='Return the cmdline for hashtree disabled', |
| action='store_true') |
| sub_parser.add_argument('--output', |
| help='Write cmdline to file (default: stdout)', |
| type=argparse.FileType('wt'), |
| default=sys.stdout) |
| sub_parser.set_defaults(func=self.calculate_kernel_cmdline) |
| |
| sub_parser = subparsers.add_parser('set_ab_metadata', |
| help='Set A/B metadata.') |
| sub_parser.add_argument('--misc_image', |
| help=('The misc image to modify. If the image does ' |
| 'not exist, it will be created.'), |
| type=argparse.FileType('r+b'), |
| required=True) |
| sub_parser.add_argument('--slot_data', |
| help=('Slot data of the form "priority", ' |
| '"tries_remaining", "sucessful_boot" for ' |
| 'slot A followed by the same for slot B, ' |
| 'separated by colons. The default value ' |
| 'is 15:7:0:14:7:0.'), |
| default='15:7:0:14:7:0') |
| sub_parser.set_defaults(func=self.set_ab_metadata) |
| |
| sub_parser = subparsers.add_parser( |
| 'make_atx_certificate', |
| help='Create an Android Things eXtension (ATX) certificate.') |
| sub_parser.add_argument('--output', |
| help='Write certificate to file', |
| type=argparse.FileType('wb'), |
| default=sys.stdout) |
| sub_parser.add_argument('--subject', |
| help=('Path to subject file'), |
| type=argparse.FileType('rb'), |
| required=True) |
| sub_parser.add_argument('--subject_key', |
| help=('Path to subject RSA public key file'), |
| type=argparse.FileType('rb'), |
| required=True) |
| sub_parser.add_argument('--subject_key_version', |
| help=('Version of the subject key'), |
| type=parse_number, |
| required=False) |
| sub_parser.add_argument('--subject_is_intermediate_authority', |
| help=('Generate an intermediate authority ' |
| 'certificate'), |
| action='store_true') |
| sub_parser.add_argument('--usage', |
| help=('Override usage with a hash of the provided ' |
| 'string'), |
| required=False) |
| sub_parser.add_argument('--authority_key', |
| help='Path to authority RSA private key file', |
| required=False) |
| sub_parser.add_argument('--signing_helper', |
| help='Path to helper used for signing', |
| metavar='APP', |
| default=None, |
| required=False) |
| sub_parser.add_argument('--signing_helper_with_files', |
| help='Path to helper used for signing using files', |
| metavar='APP', |
| default=None, |
| required=False) |
| sub_parser.set_defaults(func=self.make_atx_certificate) |
| |
| sub_parser = subparsers.add_parser( |
| 'make_atx_permanent_attributes', |
| help='Create Android Things eXtension (ATX) permanent attributes.') |
| sub_parser.add_argument('--output', |
| help='Write attributes to file', |
| type=argparse.FileType('wb'), |
| default=sys.stdout) |
| sub_parser.add_argument('--root_authority_key', |
| help='Path to authority RSA public key file', |
| type=argparse.FileType('rb'), |
| required=True) |
| sub_parser.add_argument('--product_id', |
| help=('Path to Product ID file'), |
| type=argparse.FileType('rb'), |
| required=True) |
| sub_parser.set_defaults(func=self.make_atx_permanent_attributes) |
| |
| sub_parser = subparsers.add_parser( |
| 'make_atx_metadata', |
| help='Create Android Things eXtension (ATX) metadata.') |
| sub_parser.add_argument('--output', |
| help='Write metadata to file', |
| type=argparse.FileType('wb'), |
| default=sys.stdout) |
| sub_parser.add_argument('--intermediate_key_certificate', |
| help='Path to intermediate key certificate file', |
| type=argparse.FileType('rb'), |
| required=True) |
| sub_parser.add_argument('--product_key_certificate', |
| help='Path to product key certificate file', |
| type=argparse.FileType('rb'), |
| required=True) |
| sub_parser.set_defaults(func=self.make_atx_metadata) |
| |
| sub_parser = subparsers.add_parser( |
| 'make_atx_unlock_credential', |
| help='Create an Android Things eXtension (ATX) unlock credential.') |
| sub_parser.add_argument('--output', |
| help='Write credential to file', |
| type=argparse.FileType('wb'), |
| default=sys.stdout) |
| sub_parser.add_argument('--intermediate_key_certificate', |
| help='Path to intermediate key certificate file', |
| type=argparse.FileType('rb'), |
| required=True) |
| sub_parser.add_argument('--unlock_key_certificate', |
| help='Path to unlock key certificate file', |
| type=argparse.FileType('rb'), |
| required=True) |
| sub_parser.add_argument('--challenge', |
| help='Path to the challenge to sign (optional). If ' |
| 'this is not provided the challenge signature ' |
| 'field is omitted and can be concatenated ' |
| 'later.', |
| required=False) |
| sub_parser.add_argument('--unlock_key', |
| help='Path to unlock key (optional). Must be ' |
| 'provided if using --challenge.', |
| required=False) |
| sub_parser.add_argument('--signing_helper', |
| help='Path to helper used for signing', |
| metavar='APP', |
| default=None, |
| required=False) |
| sub_parser.add_argument('--signing_helper_with_files', |
| help='Path to helper used for signing using files', |
| metavar='APP', |
| default=None, |
| required=False) |
| sub_parser.set_defaults(func=self.make_atx_unlock_credential) |
| |
| args = parser.parse_args(argv[1:]) |
| try: |
| args.func(args) |
| except AvbError as e: |
| sys.stderr.write('{}: {}\n'.format(argv[0], str(e))) |
| sys.exit(1) |
| |
| def version(self, _): |
| """Implements the 'version' sub-command.""" |
| print(get_release_string()) |
| |
| def extract_public_key(self, args): |
| """Implements the 'extract_public_key' sub-command.""" |
| self.avb.extract_public_key(args.key, args.output) |
| |
| def make_vbmeta_image(self, args): |
| """Implements the 'make_vbmeta_image' sub-command.""" |
| args = self._fixup_common_args(args) |
| self.avb.make_vbmeta_image(args.output, args.chain_partition, |
| args.algorithm, args.key, |
| args.public_key_metadata, args.rollback_index, |
| args.flags, args.prop, args.prop_from_file, |
| args.kernel_cmdline, |
| args.setup_rootfs_from_kernel, |
| args.include_descriptors_from_image, |
| args.signing_helper, |
| args.signing_helper_with_files, |
| args.internal_release_string, |
| args.append_to_release_string, |
| args.print_required_libavb_version, |
| args.padding_size) |
| |
| def append_vbmeta_image(self, args): |
| """Implements the 'append_vbmeta_image' sub-command.""" |
| self.avb.append_vbmeta_image(args.image.name, args.vbmeta_image.name, |
| args.partition_size) |
| |
| def add_hash_footer(self, args): |
| """Implements the 'add_hash_footer' sub-command.""" |
| args = self._fixup_common_args(args) |
| self.avb.add_hash_footer(args.image.name if args.image else None, |
| args.partition_size, |
| args.partition_name, args.hash_algorithm, |
| args.salt, args.chain_partition, args.algorithm, |
| args.key, |
| args.public_key_metadata, args.rollback_index, |
| args.flags, args.prop, args.prop_from_file, |
| args.kernel_cmdline, |
| args.setup_rootfs_from_kernel, |
| args.include_descriptors_from_image, |
| args.calc_max_image_size, |
| args.signing_helper, |
| args.signing_helper_with_files, |
| args.internal_release_string, |
| args.append_to_release_string, |
| args.output_vbmeta_image, |
| args.do_not_append_vbmeta_image, |
| args.print_required_libavb_version, |
| args.use_persistent_digest, |
| args.do_not_use_ab) |
| |
| def add_hashtree_footer(self, args): |
| """Implements the 'add_hashtree_footer' sub-command.""" |
| args = self._fixup_common_args(args) |
| # TODO(zeuthen): Remove when removing support for the |
| # '--generate_fec' option above. |
| if args.generate_fec: |
| sys.stderr.write('The --generate_fec option is deprecated since FEC ' |
| 'is now generated by default. Use the option ' |
| '--do_not_generate_fec to not generate FEC.\n') |
| self.avb.add_hashtree_footer( |
| args.image.name if args.image else None, |
| args.partition_size, |
| args.partition_name, |
| not args.do_not_generate_fec, args.fec_num_roots, |
| args.hash_algorithm, args.block_size, |
| args.salt, args.chain_partition, args.algorithm, |
| args.key, args.public_key_metadata, |
| args.rollback_index, args.flags, args.prop, |
| args.prop_from_file, |
| args.kernel_cmdline, |
| args.setup_rootfs_from_kernel, |
| args.setup_as_rootfs_from_kernel, |
| args.include_descriptors_from_image, |
| args.calc_max_image_size, |
| args.signing_helper, |
| args.signing_helper_with_files, |
| args.internal_release_string, |
| args.append_to_release_string, |
| args.output_vbmeta_image, |
| args.do_not_append_vbmeta_image, |
| args.print_required_libavb_version, |
| args.use_persistent_digest, |
| args.do_not_use_ab, |
| args.no_hashtree) |
| |
| def erase_footer(self, args): |
| """Implements the 'erase_footer' sub-command.""" |
| self.avb.erase_footer(args.image.name, args.keep_hashtree) |
| |
| def zero_hashtree(self, args): |
| """Implements the 'zero_hashtree' sub-command.""" |
| self.avb.zero_hashtree(args.image.name) |
| |
| def extract_vbmeta_image(self, args): |
| """Implements the 'extract_vbmeta_image' sub-command.""" |
| self.avb.extract_vbmeta_image(args.output, args.image.name, |
| args.padding_size) |
| |
| def resize_image(self, args): |
| """Implements the 'resize_image' sub-command.""" |
| self.avb.resize_image(args.image.name, args.partition_size) |
| |
| def set_ab_metadata(self, args): |
| """Implements the 'set_ab_metadata' sub-command.""" |
| self.avb.set_ab_metadata(args.misc_image, args.slot_data) |
| |
| def info_image(self, args): |
| """Implements the 'info_image' sub-command.""" |
| self.avb.info_image(args.image.name, args.output) |
| |
| def verify_image(self, args): |
| """Implements the 'verify_image' sub-command.""" |
| self.avb.verify_image(args.image.name, args.key, |
| args.expected_chain_partition, |
| args.follow_chain_partitions, |
| args.accept_zeroed_hashtree) |
| |
| def calculate_vbmeta_digest(self, args): |
| """Implements the 'calculate_vbmeta_digest' sub-command.""" |
| self.avb.calculate_vbmeta_digest(args.image.name, args.hash_algorithm, |
| args.output) |
| |
| def calculate_kernel_cmdline(self, args): |
| """Implements the 'calculate_kernel_cmdline' sub-command.""" |
| self.avb.calculate_kernel_cmdline(args.image.name, args.hashtree_disabled, |
| args.output) |
| |
| def make_atx_certificate(self, args): |
| """Implements the 'make_atx_certificate' sub-command.""" |
| self.avb.make_atx_certificate(args.output, args.authority_key, |
| args.subject_key.name, |
| args.subject_key_version, |
| args.subject.read(), |
| args.subject_is_intermediate_authority, |
| args.usage, |
| args.signing_helper, |
| args.signing_helper_with_files) |
| |
| def make_atx_permanent_attributes(self, args): |
| """Implements the 'make_atx_permanent_attributes' sub-command.""" |
| self.avb.make_atx_permanent_attributes(args.output, |
| args.root_authority_key.name, |
| args.product_id.read()) |
| |
| def make_atx_metadata(self, args): |
| """Implements the 'make_atx_metadata' sub-command.""" |
| self.avb.make_atx_metadata(args.output, |
| args.intermediate_key_certificate.read(), |
| args.product_key_certificate.read()) |
| |
| def make_atx_unlock_credential(self, args): |
| """Implements the 'make_atx_unlock_credential' sub-command.""" |
| self.avb.make_atx_unlock_credential( |
| args.output, |
| args.intermediate_key_certificate.read(), |
| args.unlock_key_certificate.read(), |
| args.challenge, |
| args.unlock_key, |
| args.signing_helper, |
| args.signing_helper_with_files) |
| |
| |
| if __name__ == '__main__': |
| tool = AvbTool() |
| tool.run(sys.argv) |