def confirm_remove_role_admins(txn_key, batch_key, proposal_id, role_id, user_id, reason): confirm_add_payload = role_transaction_pb2.ConfirmRemoveRoleAdmin( proposal_id=proposal_id, role_id=role_id, user_id=user_id, reason=reason) inputs = [ addresser.make_role_admins_address(role_id=role_id, user_id=txn_key.public_key) ] inputs.append(addresser.make_proposal_address(role_id, user_id)) outputs = [ addresser.make_proposal_address(role_id, user_id), addresser.make_role_admins_address(role_id, user_id) ] rbac_payload = rbac_payload_pb2.RBACPayload( content=confirm_add_payload.SerializeToString(), message_type=rbac_payload_pb2.RBACPayload.CONFIRM_REMOVE_ROLE_ADMINS) return make_header_and_batch(rbac_payload, inputs, outputs, txn_key, batch_key)
def create_role(txn_key, batch_key, role_name, role_id, metadata, admins, owners): """Create a BatchList with a CreateRole transaction in it. Args: txn_key (Key): The transaction signer's key pair. batch_key (Key): The batch signer's key pair. role_name (str): The name of the Role. role_id (str): A uuid that identifies this Role. metadata (str): Client supplied information that is not parsed. admins (list): A list of User ids of the Users who are admins of this Role. owners (list): A list of User ids of the Users who are owners of this Role. Returns: tuple BatchList, batch header_signature tuple """ create_role_payload = role_transaction_pb2.CreateRole(role_id=role_id, name=role_name, metadata=metadata, admins=admins, owners=owners) inputs = [ addresser.make_sysadmin_members_address(txn_key.public_key), addresser.make_role_attributes_address(role_id) ] inputs.extend([addresser.make_user_address(u) for u in admins]) inputs.extend([addresser.make_user_address(u) for u in owners]) inputs.extend([ addresser.make_role_admins_address(role_id=role_id, user_id=a) for a in admins ]) inputs.extend([ addresser.make_role_owners_address(role_id=role_id, user_id=o) for o in owners ]) outputs = [addresser.make_role_attributes_address(role_id)] outputs.extend([ addresser.make_role_admins_address(role_id=role_id, user_id=a) for a in admins ]) outputs.extend([ addresser.make_role_owners_address(role_id=role_id, user_id=o) for o in owners ]) rbac_payload = rbac_payload_pb2.RBACPayload( content=create_role_payload.SerializeToString(), message_type=rbac_payload_pb2.RBACPayload.CREATE_ROLE) return make_header_and_batch(rbac_payload, inputs, outputs, txn_key, batch_key)
def _handle_role_state_set(create_role, state): role_container = role_state_pb2.RoleAttributesContainer() role = role_container.role_attributes.add() role.role_id = create_role.role_id role.name = create_role.name role.metadata = create_role.metadata entries_to_set = [ StateEntry(address=addresser.make_role_attributes_address( create_role.role_id), data=role_container.SerializeToString()) ] pubkeys_by_address = {} for admin in list(create_role.admins): admin_address = addresser.make_role_admins_address( role_id=create_role.role_id, user_id=admin) if admin_address in pubkeys_by_address: pubkeys_by_address[admin_address].append(admin) else: pubkeys_by_address[admin_address] = [admin] for owner in list(create_role.owners): owner_address = addresser.make_role_owners_address( role_id=create_role.role_id, user_id=owner) if owner_address in pubkeys_by_address: pubkeys_by_address[owner_address].append(owner) else: pubkeys_by_address[owner_address] = [owner] state_returns = get_state(state, [ addresser.make_role_admins_address(role_id=create_role.role_id, user_id=a) for a in create_role.admins ] + [ addresser.make_role_owners_address(role_id=create_role.role_id, user_id=o) for o in create_role.owners ]) for addr, pubkeys in pubkeys_by_address.items(): try: state_entry = get_state_entry(state_returns, addr) container = role_state_pb2.RoleRelationshipContainer() container.ParseFromString(state_entry.data) except KeyError: container = role_state_pb2.RoleRelationshipContainer() _add_role_rel_to_container(container, create_role.role_id, pubkeys) entries_to_set.append( StateEntry(address=addr, data=container.SerializeToString())) set_state(state, entries_to_set)
def apply_propose_remove(header, payload, state): role_admins_payload = role_transaction_pb2.ProposeRemoveRoleAdmin() role_admins_payload.ParseFromString(payload.content) role_admins_address = addresser.make_role_admins_address( role_id=role_admins_payload.role_id, user_id=role_admins_payload.user_id) proposal_address = addresser.make_proposal_address( object_id=role_admins_payload.role_id, related_id=role_admins_payload.user_id) state_entries = validate_role_rel_proposal(header, role_admins_payload, role_admins_address, state) if not no_open_proposal( state_entries=state_entries, object_id=role_admins_payload.role_id, related_id=role_admins_payload.user_id, proposal_address=proposal_address, proposal_type=proposal_state_pb2.Proposal.REMOVE_ROLE_ADMINS): raise InvalidTransaction( "There is already an open proposal for REMOVE_ROLE_ADMINS " "with role id {} and user id {}".format( role_admins_payload.role_id, role_admins_payload.user_id)) handle_propose_state_set( state_entries=state_entries, header=header, payload=role_admins_payload, address=proposal_address, proposal_type=proposal_state_pb2.Proposal.REMOVE_ROLE_ADMINS, state=state)
def test_generated_role_admin_addr(self): """Tests the role admin address creation function as well as the address_is function. """ role_id = uuid4().hex admin_id = uuid4().hex address = addresser.make_role_admins_address(role_id, admin_id) self.assertEqual(len(address), addresser.ADDRESS_LENGTH, "The address is 70 characters") self.assertTrue(addresser.is_address(address), "The address is 70 character hexidecimal") self.assertTrue(addresser.namespace_ok(address), "The address has correct namespace prefix") self.assertTrue( addresser.is_family_address(address), "The address is 70 character hexidecimal with family prefix") self.assertEqual( addresser.address_is(address), AddressSpace.ROLES_ADMINS, "The address created must be a Role Attributes address.")
def test_determine_role_admin_addr(self): """Tests that a specific role_id and admin_id generates the expected role admin address, and thus is probably deterministic. """ role_id = '99968acb8f1a48b3a4bc21e2cd252e67' admin_id = '966ab67317234df489adb4bc1f517b88' expected_address = '9f444809326a1713a905b26359fc8d\ a2817c1a5f67de6f464701f0c10042da345d28f7' address = addresser.make_role_admins_address(role_id, admin_id) self.assertEqual(len(address), addresser.ADDRESS_LENGTH, "The address is 70 characters") self.assertTrue(addresser.is_address(address), "The address is 70 character hexidecimal") self.assertTrue(addresser.namespace_ok(address), "The address has correct namespace prefix") self.assertTrue( addresser.is_family_address(address), "The address is 70 character hexidecimal with family prefix") self.assertEqual(address, expected_address, "The address is the one we expected it to be") self.assertEqual( addresser.address_is(address), AddressSpace.ROLES_ADMINS, "The address created must be a Role Attributes address.")
def confirm_add_role_owners(txn_key, batch_key, proposal_id, role_id, user_id, reason): confirm_payload = role_transaction_pb2.ConfirmAddRoleOwner( proposal_id=proposal_id, role_id=role_id, user_id=user_id, reason=reason) inputs = [ addresser.make_proposal_address(role_id, user_id), addresser.make_role_admins_address(role_id, txn_key.public_key) ] outputs = [ addresser.make_proposal_address(role_id, user_id), addresser.make_role_owners_address(role_id, user_id) ] rbac_payload = rbac_payload_pb2.RBACPayload( content=confirm_payload.SerializeToString(), message_type=rbac_payload_pb2.RBACPayload.CONFIRM_ADD_ROLE_OWNERS) return make_header_and_batch(rbac_payload, inputs, outputs, txn_key, batch_key)
def apply_confirm(header, payload, state): confirm_payload = role_transaction_pb2.ConfirmAddRoleAdmin() confirm_payload.ParseFromString(payload.content) role_admin_address = addresser.make_role_admins_address( role_id=confirm_payload.role_id, user_id=confirm_payload.user_id) txn_signer_admin_address = addresser.make_role_admins_address( role_id=confirm_payload.role_id, user_id=header.signer_public_key) state_entries = validate_role_admin_or_owner( header=header, confirm=confirm_payload, txn_signer_rel_address=txn_signer_admin_address, state=state) handle_confirm_add(state_entries=state_entries, header=header, confirm=confirm_payload, role_rel_address=role_admin_address, state=state)
def confirm_add_role_admins(txn_key, batch_key, proposal_id, role_id, user_id, reason): """Creates a BatchList with a ConfirmAddRoleAdmin transaction in it. Args: txn_key (Key): The txn signer key pair. batch_key (Key): The batch signer key pair. proposal_id (str): The proposal's identifier. role_id (str): The role's identifier. user_id (str): The user's signer public key. reason (str): The client supplied reason to confirm. Returns: tuple BatchList, batch header_signature tuple """ confirm_add_payload = role_transaction_pb2.ConfirmAddRoleAdmin( proposal_id=proposal_id, role_id=role_id, user_id=user_id, reason=reason) inputs = [ addresser.make_role_admins_address(role_id=role_id, user_id=txn_key.public_key) ] inputs.append(addresser.make_proposal_address(role_id, user_id)) outputs = [ addresser.make_proposal_address(role_id, user_id), addresser.make_role_admins_address(role_id, user_id) ] rbac_payload = rbac_payload_pb2.RBACPayload( content=confirm_add_payload.SerializeToString(), message_type=rbac_payload_pb2.RBACPayload.CONFIRM_ADD_ROLE_ADMINS) return make_header_and_batch(rbac_payload, inputs, outputs, txn_key, batch_key)
def apply_reject(header, payload, state): reject_payload = role_transaction_pb2.RejectAddRoleAdmin() reject_payload.ParseFromString(payload.content) txn_signer_admin_address = addresser.make_role_admins_address( role_id=reject_payload.role_id, user_id=header.signer_public_key) state_entries = validate_role_admin_or_owner( header=header, confirm=reject_payload, txn_signer_rel_address=txn_signer_admin_address, state=state) handle_reject(state_entries, header, reject=reject_payload, state=state)
def reject_remove_role_owners(txn_key, batch_key, proposal_id, role_id, user_id, reason): reject_payload = role_transaction_pb2.RejectRemoveRoleOwner( proposal_id=proposal_id, role_id=role_id, user_id=user_id, reason=reason) inputs = [ addresser.make_proposal_address(role_id, user_id), addresser.make_role_admins_address(role_id, txn_key.public_key) ] outputs = [addresser.make_proposal_address(role_id, user_id)] rbac_payload = rbac_payload_pb2.RBACPayload( content=reject_payload.SerializeToString(), message_type=rbac_payload_pb2.RBACPayload.REJECT_REMOVE_ROLE_OWNERS) return make_header_and_batch(rbac_payload, inputs, outputs, txn_key, batch_key)
def propose_add_role_admins(txn_key, batch_key, proposal_id, role_id, user_id, reason, metadata): """Create a BatchList with a ProposeAddRoleAdmins transaction in it. Args: txn_key (Key): The txn signer key pair. batch_key (Key): The batch signer key pair. role_id (str): The role's id. user_id (str): The user that is being proposed to be an admin. reason (str): The client supplied reason for the proposal. metadata (str): The client supplied metadata. Returns: tuple BatchList, batch header_signature tuple """ propose_add_payload = role_transaction_pb2.ProposeAddRoleAdmin( proposal_id=proposal_id, role_id=role_id, user_id=user_id, reason=reason, metadata=metadata) inputs = [ addresser.make_user_address(user_id=user_id), addresser.make_proposal_address(role_id, user_id), addresser.make_role_admins_address(role_id, user_id), addresser.make_role_attributes_address(role_id=role_id) ] outputs = [addresser.make_proposal_address(role_id, user_id)] rbac_payload = rbac_payload_pb2.RBACPayload( content=propose_add_payload.SerializeToString(), message_type=rbac_payload_pb2.RBACPayload.PROPOSE_ADD_ROLE_ADMINS) return make_header_and_batch(rbac_payload, inputs, outputs, txn_key, batch_key)
def reject_add_role_admins(txn_key, batch_key, proposal_id, role_id, user_id, reason): reject_add_payload = role_transaction_pb2.RejectAddRoleAdmin( proposal_id=proposal_id, role_id=role_id, user_id=user_id, reason=reason) inputs = [ addresser.make_role_admins_address(role_id=role_id, user_id=txn_key.public_key) ] inputs.append(addresser.make_proposal_address(role_id, user_id)) outputs = [addresser.make_proposal_address(role_id, user_id)] rbac_payload = rbac_payload_pb2.RBACPayload( content=reject_add_payload.SerializeToString(), message_type=rbac_payload_pb2.RBACPayload.REJECT_ADD_ROLE_ADMINS) return make_header_and_batch(rbac_payload, inputs, outputs, txn_key, batch_key)
def propose_remove_role_admins(txn_key, batch_key, proposal_id, role_id, user_id, reason, metadata): propose = role_transaction_pb2.ProposeRemoveRoleAdmin( proposal_id=proposal_id, role_id=role_id, user_id=user_id, reason=reason, metadata=metadata) inputs = [ addresser.make_user_address(user_id=user_id), addresser.make_proposal_address(role_id, user_id), addresser.make_role_admins_address(role_id, user_id), addresser.make_role_attributes_address(role_id=role_id) ] outputs = [addresser.make_proposal_address(role_id, user_id)] rbac_payload = rbac_payload_pb2.RBACPayload( content=propose.SerializeToString(), message_type=rbac_payload_pb2.RBACPayload.PROPOSE_REMOVE_ROLE_ADMINS) return make_header_and_batch(rbac_payload, inputs, outputs, txn_key, batch_key)
def test_role_addresses(self): """Tests the Role address creation functions as well as the address_is function. Notes: 1. Create an address of a particular type: - Role Attributes - Role Members - Role Owners - Role Admins - Role Tasks 2. Assert that address_is returns the correct address type. """ role_address = addresser.make_role_attributes_address( role_id=uuid4().hex) self.assertEqual(len(role_address), 70, "The address is a well-formed address.") self.assertEqual( addresser.address_is(role_address), AddressSpace.ROLES_ATTRIBUTES, "The Role Attributes address created must " "be found to be a Role Attributes address.") role_members_address = addresser.make_role_members_address( role_id=uuid4().hex, user_id=uuid4().hex) self.assertEqual(len(role_members_address), 70, "The address is a well-formed address.") self.assertEqual( addresser.address_is(role_members_address), AddressSpace.ROLES_MEMBERS, "The Role Members address created must be " "found to be a Role Members address.") role_owners_address = addresser.make_role_owners_address( role_id=uuid4().hex, user_id=uuid4().hex) self.assertEqual(len(role_owners_address), 70, "The address is a well-formed address.") self.assertEqual( addresser.address_is(role_owners_address), AddressSpace.ROLES_OWNERS, "The Role Owners address created must be found to be " "a Role Members address.") role_admins_address = addresser.make_role_admins_address( role_id=uuid4().hex, user_id=uuid4().hex) self.assertEqual(len(role_admins_address), 70, "The address is a well-formed address.") self.assertEqual( addresser.address_is(role_admins_address), AddressSpace.ROLES_ADMINS, "The Role Admins address created must be " "found to be a Role Admins address.") role_tasks_address = addresser.make_role_tasks_address( role_id=uuid4().hex, task_id=uuid4().hex) self.assertEqual(len(role_tasks_address), 70, "The address is a well-formed address.") self.assertEqual( addresser.address_is(role_tasks_address), AddressSpace.ROLES_TASKS, "The Role Tasks address created must be " "found to be a Role Tasks address.")