def test_create_message(): addstuff() changestuff() session = Session() message = PushMessage() message.add_unversioned_operations() message.set_node(session.query(models.Node).first()) assert message.to_json() == PushMessage(message.to_json()).to_json()
def test_encode_message(): addstuff() changestuff() session = Session() message = PushMessage() message.add_unversioned_operations() message.set_node(session.query(models.Node).first()) assert message.to_json() == json.loads(json.dumps(message.to_json()))
def test_sign_message(): addstuff() changestuff() session = Session() message = PushMessage() message.set_node(session.query(models.Node).first()) message.add_unversioned_operations() assert message.islegit(session) message.key += "broken" assert not message.islegit(session)
def request_push( push_url, extra_data=None, encode=None, decode=None, headers=None, timeout=None, extensions=True, session=None ): message = PushMessage() message.latest_version_id = core.get_latest_version_id(session=session) compress(session=session) message.add_unversioned_operations(session=session, include_extensions=extensions) message.set_node(session.query(Node).order_by(Node.node_id.desc()).first()) data = message.to_json() data.update({"extra_data": extra_data or {}}) code, reason, response = post_request(push_url, data, encode, decode, headers, timeout) if (code // 100 != 2) or response is None: if suggests_pull is not None and suggests_pull(code, reason, response): raise PullSuggested(code, reason, response) raise PushRejected(code, reason, response) new_version_id = response.get("new_version_id") if new_version_id is None: raise PushRejected(code, reason, {"error": "server didn't respond with new version id", "response": response}) # Who should set the dates? Maybe send a complete Version from the # server. For now the field is ignored, so it doesn't matter. session.add(Version(version_id=new_version_id, created=datetime.datetime.now())) for op in message.operations: op.version_id = new_version_id # return the response for the programmer to do what she wants # afterwards return response
def create_push_message(self, session: Optional[ sqlalchemy.orm.session.Session] = None, extensions=True, do_compress=True) -> PushMessage: # TODO: mit do_compress=True muss noch getestet werden, welche Szenarien die referentielle Integritaet # verletzen koennen. Denn wenn die Tabellen in richtiger Reihenfolge synchronisiert werden # koennte man auf das Aussetzen der RI verzichten if not session: session = self.Session() # TODO: p # breakpoint() message = PushMessage() message.latest_version_id = core.get_latest_version_id(session=session) if do_compress: compress(session=session) message.add_unversioned_operations(session=session, include_extensions=extensions) return message
def request_push(push_url: str, extra_data=None, encode=None, decode=None, headers=None, timeout=None, extensions=True, session=None) -> Dict[str, Any]: message = PushMessage() message.latest_version_id = core.get_latest_version_id(session=session) compress(session=session) message.add_unversioned_operations(session=session, include_extensions=extensions) if not message.operations: return {} message.set_node(session.query(Node).order_by(Node.node_id.desc()).first()) data = message.to_json() data.update({'extra_data': extra_data or {}}) code, reason, response = post_request(push_url, data, encode, decode, headers, timeout) if (code // 100 != 2) or response is None: if suggests_pull is not None and suggests_pull(code, reason, response): raise PullSuggested(code, reason, response) raise PushRejected(code, reason, response) new_version_id = response.get('new_version_id') if new_version_id is None: raise PushRejected( code, reason, { 'error': "server didn't respond with new version id", 'response': response }) # Who should set the dates? Maybe send a complete Version from the # server. For now the field is ignored, so it doesn't matter. session.add( Version(version_id=new_version_id, created=datetime.datetime.now())) for op in message.operations: op.version_id = new_version_id # return the response for the programmer to do what she wants # afterwards return response
async def handle_push(connection: Connection, session: sqlalchemy.orm.Session) -> Optional[int]: msgs_got = 0 version: Optional[Version] = None async for msg in connection.socket: msgs_got += 1 msg_json = json.loads(msg) pushmsg = PushMessage(msg_json) # print(f"pushmsg: {msg}") if not pushmsg.operations: logger.warn("empty operations list in client PushMessage") for op in pushmsg.operations: logger.info(f"operation: {op}") # await connection.socket.send(f"answer is:{msg}") logger.info(f"message key={pushmsg.key}") latest_version_id = core.get_latest_version_id(session=session) logger.info( f"** version on server:{latest_version_id}, version in pushmsg:{pushmsg.latest_version_id}" ) if latest_version_id != pushmsg.latest_version_id: exc = f"version identifier isn't the latest one; " \ f"incoming: {pushmsg.latest_version_id}, on server:{latest_version_id}" if latest_version_id is None: logger.warn(exc) raise PushRejected(exc) if pushmsg.latest_version_id is None: logger.warn(exc) raise PullSuggested(exc) if pushmsg.latest_version_id < latest_version_id: logger.warn(exc) raise PullSuggested(exc) raise PushRejected(exc) if not pushmsg.islegit(session): raise PushRejected("message isn't properly signed") for listener in before_push: listener(session, pushmsg) # I) detect unique constraint conflicts and resolve them if possible unique_conflicts = find_unique_conflicts(pushmsg, session) conflicting_objects = set() for uc in unique_conflicts: obj = uc['object'] conflicting_objects.add(obj) for key, value in zip(uc['columns'], uc['new_values']): setattr(obj, key, value) for obj in conflicting_objects: make_transient(obj) # remove from session for model in set(type(obj) for obj in conflicting_objects): pk_name = get_pk(model) pks = [ getattr(obj, pk_name) for obj in conflicting_objects if type(obj) is model ] session.query(model).filter(getattr(model, pk_name).in_(pks)). \ delete(synchronize_session=False) # remove from the database session.add_all(conflicting_objects) # reinsert session.flush() # II) perform the operations operations = [ o for o in pushmsg.operations if o.tracked_model is not None ] post_operations: List[Tuple[Operation, SQLClass, Optional[SQLClass]]] = [] try: op: Operation for op in operations: (obj, old_obj) = await op.perform_async(pushmsg, session, pushmsg.node_id, connection.socket) if obj is not None: # if the op has been skipped, it wont be appended for post_operation handling post_operations.append((op, obj, old_obj)) resp = dict(type="info", op=dict( row_id=op.row_id, version=op.version, command=op.command, content_type_id=op.content_type_id, )) call_after_tracking_fn(session, op, obj) await connection.socket.send(json.dumps(resp)) except OperationError as e: logger.exception( "Couldn't perform operation in push from node %s.", pushmsg.node_id) raise PushRejected("at least one operation couldn't be performed", *e.args) # III) insert a new version if post_operations: # only if operations have been done -> create the new version version = Version(created=datetime.datetime.now(), node_id=pushmsg.node_id) session.add(version) # IV) insert the operations, discarding the 'order' column accomplished_operations = [ op for (op, obj, old_obj) in post_operations ] for op in sorted(accomplished_operations, key=attr('order')): new_op = Operation() for k in [k for k in properties_dict(op) if k != 'order']: setattr(new_op, k, getattr(op, k)) session.add(new_op) new_op.version = version session.flush() for op, obj, old_obj in post_operations: op.call_after_operation_fn(session, obj, old_obj) # from woodmaster.model.sql.model import WoodPile, Measurement # orphans = session.query(Measurement).filter(Measurement.woodpile_id == None).all() # print(f"orphans:{orphans}") for listener in after_push: listener(session, pushmsg) # return the new version id back to the client logger.info(f"version is: {version}") if version: await connection.socket.send( json.dumps( dict(type="result", new_version_id=version.version_id))) return {'new_version_id': version.version_id} else: await connection.socket.send( json.dumps(dict(type="result", new_version_id=None))) logger.info("sent nothing message") await connection.socket.close() logger.info("push ready")
def handle_push(data: Dict[str, Any], session: Optional[Session] = None) -> Dict[str, int]: """ Handle the push request and return a dictionary object to be sent back to the node. If the push is rejected, this procedure will raise a dbsync.server.handlers.PushRejected exception. *data* must be a dictionary-like object, usually the product of parsing a JSON string. """ message: PushMessage try: message = PushMessage(data) except KeyError: raise PushRejected("request object isn't a valid PushMessage", data) latest_version_id = core.get_latest_version_id(session=session) if latest_version_id != message.latest_version_id: exc = "version identifier isn't the latest one; "\ "given: %s" % message.latest_version_id if latest_version_id is None: raise PushRejected(exc) if message.latest_version_id is None: raise PullSuggested(exc) if message.latest_version_id < latest_version_id: raise PullSuggested(exc) raise PushRejected(exc) if not message.operations: return {} # raise PushRejected("message doesn't contain operations") if not message.islegit(session): raise PushRejected("message isn't properly signed") for listener in before_push: listener(session, message) # I) detect unique constraint conflicts and resolve them if possible unique_conflicts = find_unique_conflicts(message, session) conflicting_objects = set() for uc in unique_conflicts: obj = uc['object'] conflicting_objects.add(obj) for key, value in zip(uc['columns'], uc['new_values']): setattr(obj, key, value) for obj in conflicting_objects: make_transient(obj) # remove from session for model in set(type(obj) for obj in conflicting_objects): pk_name = get_pk(model) pks = [ getattr(obj, pk_name) for obj in conflicting_objects if type(obj) is model ] session.query(model).filter(getattr(model, pk_name).in_(pks)).\ delete(synchronize_session=False) # remove from the database session.add_all(conflicting_objects) # reinsert session.flush() # II) perform the operations operations = [o for o in message.operations if o.tracked_model is not None] try: for op in operations: op.perform(message, session, message.node_id) except OperationError as e: logger.exception("Couldn't perform operation in push from node %s.", message.node_id) raise PushRejected("at least one operation couldn't be performed", *e.args) # III) insert a new version version = Version(created=datetime.datetime.now(), node_id=message.node_id) session.add(version) # IV) insert the operations, discarding the 'order' column for op in sorted(operations, key=attr('order')): new_op = Operation() for k in [k for k in properties_dict(op) if k != 'order']: setattr(new_op, k, getattr(op, k)) session.add(new_op) new_op.version = version session.flush() for listener in after_push: listener(session, message) # return the new version id back to the node return {'new_version_id': version.version_id}
def handle_push(data, session=None): """ Handle the push request and return a dictionary object to be sent back to the node. If the push is rejected, this procedure will raise a dbsync.server.handlers.PushRejected exception. *data* must be a dictionary-like object, usually the product of parsing a JSON string. """ message = None try: message = PushMessage(data) except KeyError: raise PushRejected("request object isn't a valid PushMessage", data) latest_version_id = core.get_latest_version_id(session=session) if latest_version_id != message.latest_version_id: exc = "version identifier isn't the latest one; "\ "given: %s" % message.latest_version_id if latest_version_id is None: raise PushRejected(exc) if message.latest_version_id is None: raise PullSuggested(exc) if message.latest_version_id < latest_version_id: raise PullSuggested(exc) raise PushRejected(exc) if not message.operations: raise PushRejected("message doesn't contain operations") if not message.islegit(session): raise PushRejected("message isn't properly signed") for listener in before_push: listener(session, message) # I) detect unique constraint conflicts and resolve them if possible unique_conflicts = find_unique_conflicts(message, session) conflicting_objects = set() for uc in unique_conflicts: obj = uc['object'] conflicting_objects.add(obj) for key, value in izip(uc['columns'], uc['new_values']): setattr(obj, key, value) for obj in conflicting_objects: make_transient(obj) # remove from session for model in set(type(obj) for obj in conflicting_objects): pk_name = get_pk(model) pks = [getattr(obj, pk_name) for obj in conflicting_objects if type(obj) is model] session.query(model).filter(getattr(model, pk_name).in_(pks)).\ delete(synchronize_session=False) # remove from the database session.add_all(conflicting_objects) # reinsert session.flush() # II) perform the operations operations = filter(lambda o: o.tracked_model is not None, message.operations) try: for op in operations: op.perform(message, session, message.node_id) except OperationError as e: logger.exception(u"Couldn't perform operation in push from node %s.", message.node_id) raise PushRejected("at least one operation couldn't be performed", *e.args) # III) insert a new version version = Version(created=datetime.datetime.now(), node_id=message.node_id) session.add(version) # IV) insert the operations, discarding the 'order' column for op in sorted(operations, key=attr('order')): new_op = Operation() for k in ifilter(lambda k: k != 'order', properties_dict(op)): setattr(new_op, k, getattr(op, k)) session.add(new_op) new_op.version = version session.flush() for listener in after_push: listener(session, message) # return the new version id back to the node return {'new_version_id': version.version_id}