#!/usr/bin/env python """ developer_tool.py Santiago Torres Zane Fisher Based on the work done for 'repository_tool.py' by Vladimir Diaz. January 22, 2014. See LICENSE for licensing information. See 'tuf/README-developer-tools.md' for a complete guide on using 'developer_tool.py'. """ # Help with Python 3 compatibility, where the print statement is a function, an # implicit relative import is invalid, and the '/' operator performs true # division. Example: print 'hello world' raises a 'SyntaxError' exception. from __future__ import print_function from __future__ import absolute_import from __future__ import division import os import errno import sys import logging import shutil import tempfile import json import tuf import tuf.formats import tuf.util import tuf.keydb import tuf.roledb import tuf.keys import tuf.sig import tuf.log import tuf.conf import tuf.repository_tool import six # These imports provide the interface for 'developer_tool.py', since the imports # are made there. from tuf.keys import format_keyval_to_metadata from tuf.keys import format_metadata_to_key from tuf.repository_tool import Targets from tuf.repository_lib import get_metadata_fileinfo from tuf.repository_lib import get_metadata_filenames from tuf.repository_tool import generate_and_write_rsa_keypair from tuf.repository_tool import import_rsa_publickey_from_file from tuf.repository_tool import import_rsa_privatekey_from_file from tuf.repository_tool import generate_and_write_ed25519_keypair from tuf.repository_tool import import_ed25519_publickey_from_file from tuf.repository_tool import import_ed25519_privatekey_from_file from tuf.repository_lib import _remove_invalid_and_duplicate_signatures from tuf.repository_lib import disable_console_log_messages from tuf.repository_lib import _check_role_keys from tuf.repository_lib import _delete_obsolete_metadata from tuf.repository_lib import generate_targets_metadata from tuf.repository_lib import sign_metadata from tuf.repository_lib import write_metadata_file from tuf.repository_lib import _metadata_is_partially_loaded # See 'log.py' to learn how logging is handled in TUF. logger = logging.getLogger('tuf.developer_tool') # Recommended RSA key sizes: # http://www.emc.com/emc-plus/rsa-labs/historical/twirl-and-rsa-key-size.htm#table1 # According to the document above, revised May 6, 2003, RSA keys of size 3072 # provide security through 2031 and beyond. 2048-bit keys are the recommended # minimum and are good from the present through 2030. from tuf.repository_lib import DEFAULT_RSA_KEY_BITS as DEFAULT_RSA_KEY_BITS # The algorithm used by the developer tools to generate the hashes of the # target filepaths. from tuf.repository_tool import HASH_FUNCTION as HASH_FUNCTION # The extension of TUF metadata. from tuf.repository_lib import METADATA_EXTENSION as METADATA_EXTENSION # The metadata filename for the targets metadata information. from tuf.repository_lib import TARGETS_FILENAME as TARGETS_FILENAME # Project configuration filename. This file is intended to hold all of the # supporting information about the project that's not contained in a usual # TUF metadata file. 'project.cfg' consists of the following fields: # # targets_location: the location of the targets folder. # # prefix: the directory location to prepend to the metadata so it # matches the metadata signed in the repository. # # metadata_location: the location of the metadata files. # # threshold: the threshold for this project object, it is fixed to # one in the current version. # # public_keys: a list of the public keys used to verify the metadata # in this project. # # layout_type: a field describing the directory layout: # # repo-like: matches the layout of the repository tool. # the targets and metadata folders are # located under a common directory for the # project. # # flat: the targets directory and the # metadata directory are located in different # paths. # # project_name: The name of the current project, this value is used to # match the resulting filename with the one in upstream. PROJECT_FILENAME = 'project.cfg' # The targets and metadata directory names. Metadata files are written # to the staged metadata directory instead of the "live" one. from tuf.repository_tool import METADATA_STAGED_DIRECTORY_NAME from tuf.repository_tool import METADATA_DIRECTORY_NAME from tuf.repository_tool import TARGETS_DIRECTORY_NAME # The full list of supported TUF metadata extensions. from tuf.repository_lib import METADATA_EXTENSIONS # The recognized compression extensions. from tuf.repository_lib import SUPPORTED_COMPRESSION_EXTENSIONS # Supported key types. from tuf.repository_lib import SUPPORTED_KEY_TYPES class Project(Targets): """ Simplify the publishing process of third-party projects by handling all of the bookkeeping, signature handling, and integrity checks of delegated TUF metadata. 'repository_tool.py' is responsible for publishing and maintaining metadata of the top-level roles, and 'developer_tool.py' is used by projects that have been delegated responsibility for a delegated projects role. Metadata created by this module may then be added to other metadata available in a TUF repository. Project() is the representation of a project's metadata file(s), with the ability to modify this data in an OOP manner. Project owners do not have to manually verify that metadata files are properly formatted or that they contain valid data. project_name: The name of the metadata file as it should be named in the upstream repository. metadata_directory: The metadata sub-directory contains the metadata file(s) of this project, including any of its delegated roles. targets_directory: The targets sub-directory contains the project's target files that are downloaded by clients and are referenced in its metadata. The hashes and file lengths are listed in Metadata files so that they are securely downloaded. Metadata files are similarly referenced in the top-level metadata. file_prefix: The path string that will be prepended to the generated metadata (e.g., targets/foo -> targets/prefix/foo) so that it matches the actual targets location in the upstream repository. tuf.FormatError, if the arguments are improperly formatted. Creates a project Targets role object, with the same object attributes of the top-level targets role. None. """ def __init__(self, project_name, metadata_directory, targets_directory, file_prefix): # Do the arguments have the correct format? # Ensure the arguments have the appropriate number of objects and object # types, and that all dict keys are properly named. # Raise 'tuf.FormatError' if any are improperly formatted. tuf.formats.NAME_SCHEMA.check_match(project_name) tuf.formats.PATH_SCHEMA.check_match(metadata_directory) tuf.formats.PATH_SCHEMA.check_match(targets_directory) tuf.formats.PATH_SCHEMA.check_match(file_prefix) self._metadata_directory = metadata_directory self._targets_directory = targets_directory self._project_name = project_name self._prefix = file_prefix # Layout type defaults to "flat" unless explicitly specified in # create_new_project(). self.layout_type = 'flat' # Set the top-level Targets object. Set the rolename to be the project's # name. super(Project, self).__init__(self._targets_directory, project_name) def write(self, write_partial=False): """ Write all the JSON Metadata objects to their corresponding files. write() raises an exception if any of the role metadata to be written to disk is invalid, such as an insufficient threshold of signatures, missing private keys, etc. write_partial: A boolean indicating whether partial metadata should be written to disk. Partial metadata may be written to allow multiple maintainters to independently sign and update role metadata. write() raises an exception if a metadata role cannot be written due to not having enough signatures. tuf.Error, if any of the project roles do not have a minimum threshold of signatures. Creates metadata files in the project's metadata directory. None. """ # Does 'write_partial' have the correct format? # Ensure the arguments have the appropriate number of objects and object # types, and that all dict keys are properly named. # Raise 'tuf.FormatError' if any are improperly formatted. tuf.formats.BOOLEAN_SCHEMA.check_match(write_partial) # At this point the tuf.keydb and tuf.roledb stores must be fully # populated, otherwise write() throwns a 'tuf.Repository' exception if # any of the project roles are missing signatures, keys, etc. # Write the metadata files of all the delegated roles of the project. delegated_rolenames = \ tuf.roledb.get_delegated_rolenames(self._project_name) for delegated_rolename in delegated_rolenames: roleinfo = tuf.roledb.get_roleinfo(delegated_rolename) delegated_filename = os.path.join(self._metadata_directory, delegated_rolename + METADATA_EXTENSION) # Ensure the parent directories of 'metadata_filepath' exist, otherwise an # IO exception is raised if 'metadata_filepath' is written to a # sub-directory. tuf.util.ensure_parent_dir(delegated_filename) _generate_and_write_metadata(delegated_rolename, delegated_filename, write_partial, self._targets_directory, self._metadata_directory, prefix=self._prefix) # Generate the 'project_name' metadata file. targets_filename = self._project_name + METADATA_EXTENSION targets_filename = os.path.join(self._metadata_directory, targets_filename) project_signable, targets_filename = \ _generate_and_write_metadata(self._project_name, targets_filename, write_partial, self._targets_directory, self._metadata_directory, prefix=self._prefix) # Save configuration information that is not stored in the project's # metadata _save_project_configuration(self._metadata_directory, self._targets_directory, self.keys, self._prefix, self.threshold, self.layout_type, self._project_name) def add_verification_key(self, key): """ Function as a thin wrapper call for the project._targets call with the same name. This wrapper is only for usability purposes. key: The role key to be added, conformant to 'tuf.formats.ANYKEY_SCHEMA'. Adding a public key to a role means that its corresponding private key must generate and add its signture to the role. tuf.FormatError, if the 'key' argument is improperly formatted. tuf.Error, if the project already contains a key. The role's entries in 'tuf.keydb.py' and 'tuf.roledb.py' are updated. None """ # Verify that this role does not already contain a key. The parent project # role is restricted to one key. Any of its delegated roles may have # more than one key. # TODO: Add condition check for the requirement stated above. if len(self.keys) > 0: raise tuf.Error("This project already contains a key.") try: super(Project, self).add_verification_key(key) except tuf.FormatError: raise def status(self): """ Determine the status of the project, including its delegated roles. status() checks if each role provides sufficient public keys, signatures, and that a valid metadata file is generated if write() were to be called. Metadata files are temporarily written to check that proper metadata files is written, where file hashes and lengths are calculated and referenced by the project. status() does not do a simple check for number of threshold keys and signatures. None. tuf.Error, if the project, or any of its delegated roles, do not have a minimum threshold of signatures. Generates and writes temporary metadata files. None. """ temp_project_directory = None try: temp_project_directory = tempfile.mkdtemp() metadata_directory = os.path.join(temp_project_directory, self._metadata_directory[1:]) targets_directory = self._targets_directory os.makedirs(metadata_directory) # TODO: We should do the schema check. filenames = {} filenames['targets'] = os.path.join(metadata_directory, self._project_name) # Delegated roles. delegated_roles = tuf.roledb.get_delegated_rolenames(self._project_name) insufficient_keys = [] insufficient_signatures = [] for delegated_role in delegated_roles: try: _check_role_keys(delegated_role) except tuf.InsufficientKeysError: insufficient_keys.append(delegated_role) continue roleinfo = tuf.roledb.get_roleinfo(delegated_role) try: signable = _generate_and_write_metadata(delegated_role, filenames['targets'], False, targets_directory, metadata_directory, False) self._log_status(delegated_role, signable[0]) except tuf.Error: insufficient_signatures.append(delegated_role) if len(insufficient_keys): message = 'Delegated roles with insufficient keys: ' +\ repr(insufficient_keys) logger.info(message) return if len(insufficient_signatures): message = 'Delegated roles with insufficient signatures: ' +\ repr(insufficient_signatures) logger.info(message) return # Targets role. try: _check_role_keys(self.rolename) except tuf.InsufficientKeysError as e: logger.info(str(e)) return try: signable, filename = _generate_and_write_metadata(self._project_name, filenames['targets'], False, targets_directory, metadata_directory, False) self._log_status(self._project_name, signable) except tuf.Error as e: signable = e[1] self._log_status(self._project_name, signable) return finally: shutil.rmtree(temp_project_directory, ignore_errors=True) def _log_status(self, rolename, signable): """ Non-public function prints the number of (good/threshold) signatures of 'rolename'. """ status = tuf.sig.get_signature_status(signable, rolename) message = repr(rolename) + ' role contains ' +\ repr(len(status['good_sigs'])) + ' / ' + repr(status['threshold']) +\ ' signatures.' logger.info(message) def _generate_and_write_metadata(rolename, metadata_filename, write_partial, targets_directory, metadata_directory, filenames=None, prefix=''): """ Non-public function that can generate and write the metadata of the specified 'rolename'. It also increments version numbers if: 1. write_partial==True and the metadata is the first to be written. 2. write_partial=False (i.e., write()), the metadata was not loaded as partially written, and a write_partial is not needed. """ metadata = None # Retrieve the roleinfo of 'rolename' to extract the needed metadata # attributes, such as version number, expiration, etc. roleinfo = tuf.roledb.get_roleinfo(rolename) metadata = generate_targets_metadata(targets_directory, roleinfo['paths'], roleinfo['version'], roleinfo['expires'], roleinfo['delegations'], False) # Prepend the prefix to the project's filepath to avoid signature errors in # upstream. target_filepaths = metadata['targets'].items() for element in list(metadata['targets']): junk_path, relative_target = os.path.split(element) prefixed_path = os.path.join(prefix,relative_target) metadata['targets'][prefixed_path] = metadata['targets'][element] if prefix != '': del(metadata['targets'][element]) signable = sign_metadata(metadata, roleinfo['signing_keyids'], metadata_filename) # Check if the version number of 'rolename' may be automatically incremented, # depending on whether if partial metadata is loaded or if the metadata is # written with write() / write_partial(). # Increment the version number if this is the first partial write. if write_partial: temp_signable = sign_metadata(metadata, [], metadata_filename) temp_signable['signatures'].extend(roleinfo['signatures']) status = tuf.sig.get_signature_status(temp_signable, rolename) if len(status['good_sigs']) == 0: metadata['version'] = metadata['version'] + 1 signable = sign_metadata(metadata, roleinfo['signing_keyids'], metadata_filename) # non-partial write() else: if tuf.sig.verify(signable, rolename): #and not roleinfo['partial_loaded']: metadata['version'] = metadata['version'] + 1 signable = sign_metadata(metadata, roleinfo['signing_keyids'], metadata_filename) # Write the metadata to file if contains a threshold of signatures. signable['signatures'].extend(roleinfo['signatures']) if tuf.sig.verify(signable, rolename) or write_partial: _remove_invalid_and_duplicate_signatures(signable) compressions = roleinfo['compressions'] filename = write_metadata_file(signable, metadata_filename, metadata['version'], compressions, False) # 'signable' contains an invalid threshold of signatures. else: message = 'Not enough signatures for ' + repr(metadata_filename) raise tuf.Error(message, signable) return signable, filename def create_new_project(project_name, metadata_directory, location_in_repository = '', targets_directory=None, key=None): """ Create a new project object, instantiate barebones metadata for the targets, and return a blank project object. On disk, create_new_project() only creates the directories needed to hold the metadata and targets files. The project object returned can be directly modified to meet the designer's criteria and then written using the method project.write(). The project name provided is the one that will be added to the resulting metadata file as it should be named in upstream. project_name: The name of the project as it should be called in upstream. For example, targets/unclaimed/django should have its project_name set to "django" metadata_directory: The directory that will eventually hold the metadata and target files of the project. location_in_repository: An optional argument to hold the "prefix" or the expected location for the project files in the "upstream" respository. This value is only used to sign metadata in a way that it matches the future location of the files. For example, targets/unclaimed/django should have its project name set to "targets/unclaimed" targets_directory: An optional argument to point the targets directory somewhere else than the metadata directory if, for example, a project structure already exists and the user does not want to move it. key: The public key to verify the project's metadata. Projects can only handle one key with a threshold of one. If a project were to modify it's key it should be removed and updated. tuf.FormatError, if the arguments are improperly formatted or if the public key is not a valid one (if it's not none.) OSError, if the filepaths provided do not have write permissions. The 'metadata_directory' and 'targets_directory' directories are created if they do not exist. A 'tuf.developer_tool.Project' object. """ # Does 'metadata_directory' have the correct format? # Ensure the arguments have the appropriate number of objects and object # types, and that all dict keys are properly named. # Raise 'tuf.FormatError' if there is a mismatch. tuf.formats.PATH_SCHEMA.check_match(metadata_directory) # Do the same for the location in the repo and the project name, we must # ensure they are valid pathnames. tuf.formats.NAME_SCHEMA.check_match(project_name) tuf.formats.PATH_SCHEMA.check_match(location_in_repository) # for the targets directory we do the same, but first, let's find out what # layout the user needs, layout_type is a variable that is usually set to # 1, which means "flat" (i.e. the cfg file is where the metadata folder is # located), with a two, the cfg file goes to the "metadata" folder, and a # new metadata folder is created inside the tree, to separate targets and # metadata. layout_type = 'flat' if targets_directory is None: targets_directory = os.path.join(metadata_directory, TARGETS_DIRECTORY_NAME) metadata_directory = \ os.path.join(metadata_directory, METADATA_DIRECTORY_NAME) layout_type = 'repo-like' if targets_directory is not None: tuf.formats.PATH_SCHEMA.check_match(targets_directory); if key is not None: tuf.formats.KEY_SCHEMA.check_match(key) # Set the metadata and targets directories. These directories # are created if they do not exist. metadata_directory = os.path.abspath(metadata_directory) targets_directory = os.path.abspath(targets_directory) # Try to create the metadata directory that will hold all of the metadata # files, such as 'root.txt' and 'release.txt'. try: message = 'Creating ' + repr(metadata_directory) logger.info(message) os.makedirs(metadata_directory) # 'OSError' raised if the leaf directory already exists or cannot be created. # Check for case where 'repository_directory' has already been created. except OSError as e: if e.errno == errno.EEXIST: # Should check if we have write permissions here. pass else: raise # Try to create the targets directory that will hold all of the target files. try: message = 'Creating ' + repr(targets_directory) logger.info(message) os.mkdir(targets_directory) except OSError as e: if e.errno == errno.EEXIST: pass else: raise # Create the bare bones project object, where project role contains default # values (e.g., threshold of 1, expires 1 year into the future, etc.) project = Project(project_name, metadata_directory, targets_directory, location_in_repository) # Add 'key' to the project. # TODO: Add check for expected number of keys for the project (must be 1) and # its delegated roles (may be greater than one.) if key is not None: project.add_verification_key(key); # Save the layout information. project.layout_type = layout_type return project def _save_project_configuration(metadata_directory, targets_directory, public_keys, prefix, threshold, layout_type, project_name): """ Persist the project's information to a file. The saved project information can later be loaded with Project.load_project(). metadata_directory: Where the project's metadata is located. targets_directory: The location of the target files for this project. public_keys: A list containing the public keys for the project role. prefix: The project's prefix (if any.) threshold: The threshold value for the project role. layout_type: The layout type being used by the project, "flat" stands for separated targets and metadata directories, "repo-like" emulates the layout used by the repository tools project_name: The name given to the project, this sets the metadata filename so it matches the one stored in upstream. tuf.FormatError are also expected if any of the arguments are malformed. OSError may rise if the metadata_directory/project.cfg file exists and is non-writeable A 'project.cfg' configuration file is created or overwritten. None. """ # Schema check for the arguments. tuf.formats.PATH_SCHEMA.check_match(metadata_directory) tuf.formats.PATH_SCHEMA.check_match(prefix) tuf.formats.PATH_SCHEMA.check_match(targets_directory) tuf.formats.RELPATH_SCHEMA.check_match(project_name) cfg_file_directory = metadata_directory # Check whether the layout type is 'flat' or 'repo-like'. # If it is, the .cfg file should be saved in the previous directory. if layout_type == 'repo-like': cfg_file_directory = os.path.dirname(metadata_directory) absolute_location, targets_directory = os.path.split(targets_directory) absolute_location, metadata_directory = os.path.split(metadata_directory) # Can the file be opened? project_filename = os.path.join(cfg_file_directory, PROJECT_FILENAME) # Build the fields of the configuration file. project_config = {} project_config['prefix'] = prefix project_config['public_keys'] = {} project_config['metadata_location'] = metadata_directory project_config['targets_location'] = targets_directory project_config['threshold'] = threshold project_config['layout_type'] = layout_type project_config['project_name'] = project_name # Build a dictionary containing the actual keys. for key in public_keys: key_info = tuf.keydb.get_key(key) key_metadata = format_keyval_to_metadata(key_info['keytype'], key_info['keyval']) project_config['public_keys'][key] = key_metadata # Save the actual file. with open(project_filename, 'wt') as fp: json.dump(project_config, fp) def load_project(project_directory, prefix='', new_targets_location=None): """ Return a Project object initialized with the contents of the metadata files loaded from 'project_directory'. project_directory: The path to the project's metadata and configuration file. prefix: The prefix for the metadata, if defined. It will replace the current prefix, by first removing the existing one (saved). new_targets_location: For flat project configurations, project owner might want to reload the project with a new location for the target files. This overwrites the previous path to search for the target files. tuf.FormatError, if 'project_directory' or any of the metadata files are improperly formatted. All the metadata files found in the project are loaded and their contents stored in a libtuf.Repository object. A tuf.developer_tool.Project object. """ # Does 'repository_directory' have the correct format? # Raise 'tuf.FormatError' if there is a mismatch. tuf.formats.PATH_SCHEMA.check_match(project_directory) # Do the same for the prefix tuf.formats.PATH_SCHEMA.check_match(prefix) # Clear the role and key databases since we are loading in a new project. tuf.roledb.clear_roledb() tuf.keydb.clear_keydb() # Locate metadata filepaths and targets filepath. project_directory = os.path.abspath(project_directory) # Load the cfg file and the project. config_filename = os.path.join(project_directory, PROJECT_FILENAME) try: project_configuration = tuf.util.load_json_file(config_filename) tuf.formats.PROJECT_CFG_SCHEMA.check_match(project_configuration) except (OSError, IOError, tuf.FormatError): raise targets_directory = os.path.join(project_directory, project_configuration['targets_location']) if project_configuration['layout_type'] == 'flat': project_directory, relative_junk = os.path.split(project_directory) targets_directory = project_configuration['targets_location'] if new_targets_location is not None: targets_directory = new_targets_location metadata_directory = os.path.join(project_directory, project_configuration['metadata_location']) new_prefix = None if prefix != '': new_prefix = prefix prefix = project_configuration['prefix'] # Load the project's filename. project_name = project_configuration['project_name'] project_filename = project_name + METADATA_EXTENSION # Create a blank project on the target directory. project = Project(project_name, metadata_directory, targets_directory, prefix) project.threshold = project_configuration['threshold'] project._prefix = project_configuration['prefix'] project.layout_type = project_configuration['layout_type'] # Traverse the public keys and add them to the project. keydict = project_configuration['public_keys'] for keyid in keydict: key, junk = tuf.keys.format_metadata_to_key(keydict[keyid]) project.add_verification_key(key) # Load the project's metadata. targets_metadata_path = os.path.join(project_directory, metadata_directory, project_filename) signable = tuf.util.load_json_file(targets_metadata_path) tuf.formats.check_signable_object_format(signable) targets_metadata = signable['signed'] # Remove the prefix from the metadata. targets_metadata = _strip_prefix_from_targets_metadata(targets_metadata, prefix) for signature in signable['signatures']: project.add_signature(signature) # Update roledb.py containing the loaded project attributes. roleinfo = tuf.roledb.get_roleinfo(project_name) roleinfo['signatures'].extend(signable['signatures']) roleinfo['version'] = targets_metadata['version'] roleinfo['paths'] = targets_metadata['targets'] roleinfo['delegations'] = targets_metadata['delegations'] roleinfo['partial_loaded'] = False # Check if the loaded metadata was partially written and update the # flag in 'roledb.py'. if _metadata_is_partially_loaded(project_name, signable, roleinfo): roleinfo['partial_loaded'] = True tuf.roledb.update_roleinfo(project_name, roleinfo, mark_role_as_dirty=False) for key_metadata in targets_metadata['delegations']['keys'].values(): key_object, junk = tuf.keys.format_metadata_to_key(key_metadata) tuf.keydb.add_key(key_object) for role in targets_metadata['delegations']['roles']: rolename = role['name'] roleinfo = {'name': role['name'], 'keyids': role['keyids'], 'threshold': role['threshold'], 'compressions': [''], 'signing_keyids': [], 'signatures': [], 'partial_loaded':False, 'delegations': {'keys':{}, 'roles':[]} } tuf.roledb.add_role(rolename, roleinfo) # Load the delegated metadata and generate their fileinfo. targets_objects = {} loaded_metadata = [project_name] targets_objects[project_name] = project metadata_directory = os.path.join(project_directory, metadata_directory) if os.path.exists(metadata_directory) and \ os.path.isdir(metadata_directory): for metadata_role in os.listdir(metadata_directory): metadata_path = os.path.join(metadata_directory, metadata_role) metadata_name = \ metadata_path[len(metadata_directory):].lstrip(os.path.sep) # Strip the extension. The roledb does not include an appended '.json' # extension for each role. if metadata_name.endswith(METADATA_EXTENSION): extension_length = len(METADATA_EXTENSION) metadata_name = metadata_name[:-extension_length] else: continue if metadata_name in loaded_metadata: continue signable = None try: signable = tuf.util.load_json_file(metadata_path) except (ValueError, IOError, tuf.Error): raise # Strip the prefix from the local working copy, it will be added again # when the targets metadata is written to disk. metadata_object = signable['signed'] metadata_object = _strip_prefix_from_targets_metadata(metadata_object, prefix) roleinfo = tuf.roledb.get_roleinfo(metadata_name) roleinfo['signatures'].extend(signable['signatures']) roleinfo['version'] = metadata_object['version'] roleinfo['expires'] = metadata_object['expires'] roleinfo['paths'] = {} for filepath, fileinfo in six.iteritems(metadata_object['targets']): roleinfo['paths'].update({filepath: fileinfo.get('custom', {})}) roleinfo['delegations'] = metadata_object['delegations'] roleinfo['partial_loaded'] = False if os.path.exists(metadata_path+'.gz'): roleinfo['compressions'].append('gz') # If the metadata was partially loaded, update the roleinfo flag. if _metadata_is_partially_loaded(metadata_name, signable, roleinfo): roleinfo['partial_loaded'] = True tuf.roledb.update_roleinfo(metadata_name, roleinfo, mark_role_as_dirty=False) # Append to list of elements to avoid reloading repeated metadata. loaded_metadata.append(metadata_name) # Generate the Targets objects of the delegated roles. new_targets_object = Targets(targets_directory, metadata_name, roleinfo) targets_object = targets_objects[project_name] targets_object._delegated_roles[metadata_name] = new_targets_object # Add the keys specified in the delegations field of the Targets role. for key_metadata in metadata_object['delegations']['keys'].values(): key_object, junk = tuf.keys.format_metadata_to_key(key_metadata) try: tuf.keydb.add_key(key_object) except tuf.KeyAlreadyExistsError: pass for role in metadata_object['delegations']['roles']: rolename = role['name'] roleinfo = {'name': role['name'], 'keyids': role['keyids'], 'threshold': role['threshold'], 'compressions': [''], 'signing_keyids': [], 'signatures': [], 'partial_loaded': False, 'delegations': {'keys': {}, 'roles': []}} tuf.roledb.add_role(rolename, roleinfo) if new_prefix: project._prefix = new_prefix return project def _strip_prefix_from_targets_metadata(targets_metadata, prefix): """ Non-public method that removes the prefix from each of the target pahts in 'targets_metadata' so they can be used again in compliance with the local copies. The prefix is needed in metadata to match the layout of the remote repository. """ unprefixed_targets_metadata = {} for targets in targets_metadata['targets'].keys(): unprefixed_target = os.path.relpath(targets, prefix) unprefixed_target = '/' + unprefixed_target unprefixed_targets_metadata[unprefixed_target] = \ targets_metadata['targets'][targets] targets_metadata['targets'] = unprefixed_targets_metadata return targets_metadata if __name__ == '__main__': # The interactive sessions of the documentation strings can # be tested by running 'developer_tool.py' as a standalone module: # $ python developer_tool.py import doctest doctest.testmod()