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quay/image/docker/schema1.py
2018-11-28 12:56:16 +02:00

576 lines
18 KiB
Python

"""
schema1 implements pure data transformations according to the Docker Manifest v2.1 Specification.
https://github.com/docker/distribution/blob/master/docs/spec/manifest-v2-1.md
"""
import hashlib
import json
import logging
from collections import namedtuple, OrderedDict
from datetime import datetime
import dateutil.parser
from jsonschema import validate as validate_schema, ValidationError
from jwkest.jws import SIGNER_ALGS, keyrep
from jwt.utils import base64url_encode, base64url_decode
from digest import digest_tools
from image.docker import ManifestException
from image.docker.types import ManifestImageLayer
from image.docker.interfaces import ManifestInterface
from image.docker.v1 import DockerV1Metadata
logger = logging.getLogger(__name__)
# Content Types
DOCKER_SCHEMA1_MANIFEST_CONTENT_TYPE = 'application/vnd.docker.distribution.manifest.v1+json'
DOCKER_SCHEMA1_SIGNED_MANIFEST_CONTENT_TYPE = 'application/vnd.docker.distribution.manifest.v1+prettyjws'
DOCKER_SCHEMA1_CONTENT_TYPES = {DOCKER_SCHEMA1_MANIFEST_CONTENT_TYPE,
DOCKER_SCHEMA1_SIGNED_MANIFEST_CONTENT_TYPE}
# Keys for signature-related data
DOCKER_SCHEMA1_SIGNATURES_KEY = 'signatures'
DOCKER_SCHEMA1_HEADER_KEY = 'header'
DOCKER_SCHEMA1_SIGNATURE_KEY = 'signature'
DOCKER_SCHEMA1_PROTECTED_KEY = 'protected'
DOCKER_SCHEMA1_FORMAT_LENGTH_KEY = 'formatLength'
DOCKER_SCHEMA1_FORMAT_TAIL_KEY = 'formatTail'
# Keys for manifest-related data
DOCKER_SCHEMA1_REPO_NAME_KEY = 'name'
DOCKER_SCHEMA1_REPO_TAG_KEY = 'tag'
DOCKER_SCHEMA1_ARCH_KEY = 'architecture'
DOCKER_SCHEMA1_FS_LAYERS_KEY = 'fsLayers'
DOCKER_SCHEMA1_BLOB_SUM_KEY = 'blobSum'
DOCKER_SCHEMA1_HISTORY_KEY = 'history'
DOCKER_SCHEMA1_V1_COMPAT_KEY = 'v1Compatibility'
DOCKER_SCHEMA1_SCHEMA_VER_KEY = 'schemaVersion'
# Format for time used in the protected payload.
_ISO_DATETIME_FORMAT_ZULU = '%Y-%m-%dT%H:%M:%SZ'
# The algorithm we use to sign the JWS.
_JWS_SIGNING_ALGORITHM = 'RS256'
class MalformedSchema1Manifest(ManifestException):
"""
Raised when a manifest fails an assertion that should be true according to the Docker Manifest
v2.1 Specification.
"""
pass
class InvalidSchema1Signature(ManifestException):
"""
Raised when there is a failure verifying the signature of a signed Docker 2.1 Manifest.
"""
pass
class Schema1Layer(namedtuple('Schema1Layer', ['digest', 'v1_metadata', 'raw_v1_metadata',
'compressed_size', 'is_remote', 'urls'])):
"""
Represents all of the data about an individual layer in a given Manifest.
This is the union of the fsLayers (digest) and the history entries (v1_compatibility).
"""
class Schema1V1Metadata(namedtuple('Schema1V1Metadata', ['image_id', 'parent_image_id', 'created',
'comment', 'command', 'labels'])):
"""
Represents the necessary data extracted from the v1 compatibility string in a given layer of a
Manifest.
"""
class DockerSchema1Manifest(ManifestInterface):
METASCHEMA = {
'type': 'object',
'properties': {
DOCKER_SCHEMA1_SIGNATURES_KEY: {
'type': 'array',
'items': {
'type': 'object',
'properties': {
DOCKER_SCHEMA1_PROTECTED_KEY: {
'type': 'string',
},
DOCKER_SCHEMA1_HEADER_KEY: {
'type': 'object',
'properties': {
'alg': {
'type': 'string',
},
'jwk': {
'type': 'object',
},
},
'required': ['alg', 'jwk'],
},
DOCKER_SCHEMA1_SIGNATURE_KEY: {
'type': 'string',
},
},
'required': [DOCKER_SCHEMA1_PROTECTED_KEY, DOCKER_SCHEMA1_HEADER_KEY,
DOCKER_SCHEMA1_SIGNATURE_KEY],
},
},
DOCKER_SCHEMA1_REPO_TAG_KEY: {
'type': 'string',
},
DOCKER_SCHEMA1_REPO_NAME_KEY: {
'type': 'string',
},
DOCKER_SCHEMA1_HISTORY_KEY: {
'type': 'array',
'items': {
'type': 'object',
'properties': {
DOCKER_SCHEMA1_V1_COMPAT_KEY: {
'type': 'string',
},
},
'required': [DOCKER_SCHEMA1_V1_COMPAT_KEY],
},
},
DOCKER_SCHEMA1_FS_LAYERS_KEY: {
'type': 'array',
'items': {
'type': 'object',
'properties': {
DOCKER_SCHEMA1_BLOB_SUM_KEY: {
'type': 'string',
},
},
'required': [DOCKER_SCHEMA1_BLOB_SUM_KEY],
},
},
},
'required': [DOCKER_SCHEMA1_REPO_TAG_KEY,
DOCKER_SCHEMA1_REPO_NAME_KEY, DOCKER_SCHEMA1_FS_LAYERS_KEY,
DOCKER_SCHEMA1_HISTORY_KEY],
}
def __init__(self, manifest_bytes, validate=True):
self._layers = None
self._bytes = manifest_bytes
try:
self._parsed = json.loads(manifest_bytes)
except ValueError as ve:
raise MalformedSchema1Manifest('malformed manifest data: %s' % ve)
try:
validate_schema(self._parsed, DockerSchema1Manifest.METASCHEMA)
except ValidationError as ve:
raise MalformedSchema1Manifest('manifest data does not match schema: %s' % ve)
self._signatures = self._parsed.get(DOCKER_SCHEMA1_SIGNATURES_KEY)
self._architecture = self._parsed.get(DOCKER_SCHEMA1_ARCH_KEY)
self._tag = self._parsed[DOCKER_SCHEMA1_REPO_TAG_KEY]
repo_name = self._parsed[DOCKER_SCHEMA1_REPO_NAME_KEY]
repo_name_tuple = repo_name.split('/')
if len(repo_name_tuple) > 1:
self._namespace, self._repo_name = repo_name_tuple
elif len(repo_name_tuple) == 1:
self._namespace = ''
self._repo_name = repo_name_tuple[0]
else:
raise MalformedSchema1Manifest('malformed repository name: %s' % repo_name)
if validate:
self._validate()
@classmethod
def for_latin1_bytes(cls, encoded_bytes, validate=True):
return DockerSchema1Manifest(encoded_bytes.encode('utf-8'), validate)
def _validate(self):
if not self._signatures:
return
for signature in self._signatures:
bytes_to_verify = '{0}.{1}'.format(signature['protected'],
base64url_encode(self._payload))
signer = SIGNER_ALGS[signature['header']['alg']]
key = keyrep(signature['header']['jwk'])
gk = key.get_key()
sig = base64url_decode(signature['signature'].encode('utf-8'))
verified = signer.verify(bytes_to_verify, sig, gk)
if not verified:
raise InvalidSchema1Signature()
@property
def is_manifest_list(self):
return False
@property
def schema_version(self):
return 1
@property
def content_type(self):
return (DOCKER_SCHEMA1_SIGNED_MANIFEST_CONTENT_TYPE
if self._signatures else DOCKER_SCHEMA1_MANIFEST_CONTENT_TYPE)
@property
def media_type(self):
return self.content_type
@property
def signatures(self):
return self._signatures
@property
def namespace(self):
return self._namespace
@property
def repo_name(self):
return self._repo_name
@property
def tag(self):
return self._tag
@property
def json(self):
return self._bytes
@property
def bytes(self):
return self._bytes
@property
def manifest_json(self):
return self._parsed
@property
def manifest_dict(self):
return self._parsed
@property
def layers_compressed_size(self):
return None
@property
def digest(self):
return digest_tools.sha256_digest(self._payload)
@property
def image_ids(self):
return {mdata.v1_metadata.image_id for mdata in self.layers}
@property
def parent_image_ids(self):
return {mdata.v1_metadata.parent_image_id for mdata in self.layers
if mdata.v1_metadata.parent_image_id}
@property
def checksums(self):
return list({str(mdata.digest) for mdata in self.layers})
@property
def leaf_layer(self):
return self.layers[-1]
@property
def created_datetime(self):
created_datetime_str = self.leaf_layer.v1_metadata.created
if created_datetime_str is None:
return None
try:
return dateutil.parser.parse(created_datetime_str).replace(tzinfo=None)
except:
# parse raises different exceptions, so we cannot use a specific kind of handler here.
return None
@property
def layers(self):
if self._layers is None:
self._layers = list(self._generate_layers())
return self._layers
def get_layers(self, content_retriever):
""" Returns the layers of this manifest, from base to leaf or None if this kind of manifest
does not support layers. """
for layer in self.layers:
created_datetime = None
try:
created_datetime = dateutil.parser.parse(layer.v1_metadata.created).replace(tzinfo=None)
except:
pass
yield ManifestImageLayer(layer_id=layer.v1_metadata.image_id,
compressed_size=layer.compressed_size,
is_remote=False,
urls=None,
command=layer.v1_metadata.command,
blob_digest=layer.digest,
created_datetime=created_datetime,
internal_layer=layer)
@property
def blob_digests(self):
return [str(layer.digest) for layer in self.layers]
@property
def local_blob_digests(self):
return self.blob_digests
def child_manifests(self, content_retriever):
return None
def get_manifest_labels(self, content_retriever):
return self.layers[-1].v1_metadata.labels
def get_requires_empty_layer_blob(self, content_retriever):
return False
def unsigned(self):
if self.media_type == DOCKER_SCHEMA1_MANIFEST_CONTENT_TYPE:
return self
# Create an unsigned version of the manifest.
builder = DockerSchema1ManifestBuilder(self._namespace, self._repo_name, self._tag,
self._architecture)
for layer in reversed(self.layers):
builder.add_layer(str(layer.digest), layer.raw_v1_metadata)
return builder.build()
def _generate_layers(self):
"""
Returns a generator of objects that have the blobSum and v1Compatibility keys in them,
starting from the base image and working toward the leaf node.
"""
for blob_sum_obj, history_obj in reversed(zip(self._parsed[DOCKER_SCHEMA1_FS_LAYERS_KEY],
self._parsed[DOCKER_SCHEMA1_HISTORY_KEY])):
try:
image_digest = digest_tools.Digest.parse_digest(blob_sum_obj[DOCKER_SCHEMA1_BLOB_SUM_KEY])
except digest_tools.InvalidDigestException:
raise MalformedSchema1Manifest('could not parse manifest digest: %s' %
blob_sum_obj[DOCKER_SCHEMA1_BLOB_SUM_KEY])
metadata_string = history_obj[DOCKER_SCHEMA1_V1_COMPAT_KEY]
v1_metadata = json.loads(metadata_string)
command_list = v1_metadata.get('container_config', {}).get('Cmd', None)
command = json.dumps(command_list) if command_list else None
if not 'id' in v1_metadata:
raise MalformedSchema1Manifest('id field missing from v1Compatibility JSON')
labels = v1_metadata.get('config', {}).get('Labels', {}) or {}
extracted = Schema1V1Metadata(v1_metadata['id'], v1_metadata.get('parent'),
v1_metadata.get('created'), v1_metadata.get('comment'),
command, labels)
compressed_size = v1_metadata.get('Size')
yield Schema1Layer(image_digest, extracted, metadata_string, compressed_size, False, None)
@property
def _payload(self):
if self._signatures is None:
return self._bytes
protected = str(self._signatures[0][DOCKER_SCHEMA1_PROTECTED_KEY])
parsed_protected = json.loads(base64url_decode(protected))
signed_content_head = self._bytes[:parsed_protected[DOCKER_SCHEMA1_FORMAT_LENGTH_KEY]]
signed_content_tail = base64url_decode(str(parsed_protected[DOCKER_SCHEMA1_FORMAT_TAIL_KEY]))
return signed_content_head + signed_content_tail
def generate_legacy_layers(self, images_map, content_retriever):
return self.rewrite_invalid_image_ids(images_map)
def get_legacy_image_ids(self, content_retriever):
return self.legacy_image_ids
@property
def legacy_image_ids(self):
return {mdata.v1_metadata.image_id for mdata in self.layers}
@property
def has_legacy_image(self):
return True
@property
def leaf_layer_v1_image_id(self):
return self.layers[-1].v1_metadata.image_id
def get_leaf_layer_v1_image_id(self, content_retriever):
return self.layers[-1].v1_metadata.image_id
def get_schema1_manifest(self, namespace_name, repo_name, tag_name, content_retriever):
""" Returns the manifest that is compatible with V1, by virtue of being `amd64` and `linux`.
If none, returns None.
"""
# Note: schema1 *technically* supports non-amd64 architectures, but in practice these were never
# used, so to ensure full backwards compatibility, we just always return the schema.
return self
def rewrite_invalid_image_ids(self, images_map):
"""
Rewrites Docker v1 image IDs and returns a generator of DockerV1Metadata.
If Docker gives us a layer with a v1 image ID that already points to existing
content, but the checksums don't match, then we need to rewrite the image ID
to something new in order to ensure consistency.
"""
# Used to synthesize a new "content addressable" image id
digest_history = hashlib.sha256()
has_rewritten_ids = False
updated_id_map = {}
for layer in self.layers:
digest_str = str(layer.digest)
extracted_v1_metadata = layer.v1_metadata
working_image_id = extracted_v1_metadata.image_id
# Update our digest_history hash for the new layer data.
digest_history.update(digest_str)
digest_history.update("@")
digest_history.update(layer.raw_v1_metadata.encode('utf-8'))
digest_history.update("|")
# Ensure that the v1 image's storage matches the V2 blob. If not, we've
# found a data inconsistency and need to create a new layer ID for the V1
# image, and all images that follow it in the ancestry chain.
digest_mismatch = (extracted_v1_metadata.image_id in images_map and
images_map[extracted_v1_metadata.image_id].content_checksum != digest_str)
if digest_mismatch or has_rewritten_ids:
working_image_id = digest_history.hexdigest()
has_rewritten_ids = True
# Store the new docker id in the map
updated_id_map[extracted_v1_metadata.image_id] = working_image_id
# Lookup the parent image for the layer, if any.
parent_image_id = extracted_v1_metadata.parent_image_id
if parent_image_id is not None:
parent_image_id = updated_id_map.get(parent_image_id, parent_image_id)
# Synthesize and store the v1 metadata in the db.
v1_metadata_json = layer.raw_v1_metadata
if has_rewritten_ids:
v1_metadata_json = _updated_v1_metadata(v1_metadata_json, updated_id_map)
updated_image = DockerV1Metadata(
namespace_name=self.namespace,
repo_name=self.repo_name,
image_id=working_image_id,
created=extracted_v1_metadata.created,
comment=extracted_v1_metadata.comment,
command=extracted_v1_metadata.command,
compat_json=v1_metadata_json,
parent_image_id=parent_image_id,
checksum=None, # TODO: Check if we need this.
content_checksum=digest_str,
)
yield updated_image
class DockerSchema1ManifestBuilder(object):
"""
A convenient abstraction around creating new DockerSchema1Manifests.
"""
def __init__(self, namespace_name, repo_name, tag, architecture='amd64'):
repo_name_key = '{0}/{1}'.format(namespace_name, repo_name)
if namespace_name == '':
repo_name_key = repo_name
self._base_payload = {
DOCKER_SCHEMA1_REPO_TAG_KEY: tag,
DOCKER_SCHEMA1_REPO_NAME_KEY: repo_name_key,
DOCKER_SCHEMA1_ARCH_KEY: architecture,
DOCKER_SCHEMA1_SCHEMA_VER_KEY: 1,
}
self._fs_layer_digests = []
self._history = []
def add_layer(self, layer_digest, v1_json_metadata):
self._fs_layer_digests.append({
DOCKER_SCHEMA1_BLOB_SUM_KEY: layer_digest,
})
self._history.append({
DOCKER_SCHEMA1_V1_COMPAT_KEY: v1_json_metadata,
})
return self
def build(self, json_web_key=None):
"""
Builds a DockerSchema1Manifest object, with optional signature.
"""
payload = OrderedDict(self._base_payload)
payload.update({
DOCKER_SCHEMA1_HISTORY_KEY: self._history,
DOCKER_SCHEMA1_FS_LAYERS_KEY: self._fs_layer_digests,
})
payload_str = json.dumps(payload, indent=3)
if json_web_key is None:
return DockerSchema1Manifest(payload_str)
split_point = payload_str.rfind('\n}')
protected_payload = {
'formatTail': base64url_encode(payload_str[split_point:]),
'formatLength': split_point,
'time': datetime.utcnow().strftime(_ISO_DATETIME_FORMAT_ZULU),
}
protected = base64url_encode(json.dumps(protected_payload))
logger.debug('Generated protected block: %s', protected)
bytes_to_sign = '{0}.{1}'.format(protected, base64url_encode(payload_str))
signer = SIGNER_ALGS[_JWS_SIGNING_ALGORITHM]
signature = base64url_encode(signer.sign(bytes_to_sign, json_web_key.get_key()))
logger.debug('Generated signature: %s', signature)
public_members = set(json_web_key.public_members)
public_key = {comp: value for comp, value in json_web_key.to_dict().items()
if comp in public_members}
signature_block = {
DOCKER_SCHEMA1_HEADER_KEY: {'jwk': public_key, 'alg': _JWS_SIGNING_ALGORITHM},
DOCKER_SCHEMA1_SIGNATURE_KEY: signature,
DOCKER_SCHEMA1_PROTECTED_KEY: protected,
}
logger.debug('Encoded signature block: %s', json.dumps(signature_block))
payload.update({DOCKER_SCHEMA1_SIGNATURES_KEY: [signature_block]})
return DockerSchema1Manifest(json.dumps(payload, indent=3))
def _updated_v1_metadata(v1_metadata_json, updated_id_map):
"""
Updates v1_metadata with new image IDs.
"""
parsed = json.loads(v1_metadata_json)
parsed['id'] = updated_id_map[parsed['id']]
if parsed.get('parent') and parsed['parent'] in updated_id_map:
parsed['parent'] = updated_id_map[parsed['parent']]
if parsed.get('container_config', {}).get('Image'):
existing_image = parsed['container_config']['Image']
if existing_image in updated_id_map:
parsed['container_config']['image'] = updated_id_map[existing_image]
return json.dumps(parsed)