Code source de flwr.common.message

# Copyright 2024 Flower Labs GmbH. All Rights Reserved.
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
#     http://www.apache.org/licenses/LICENSE-2.0
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# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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# ==============================================================================
"""Message."""


from __future__ import annotations

import time
from logging import WARNING
from typing import Optional, cast

from .constant import MESSAGE_TTL_TOLERANCE
from .logger import log
from .record import RecordSet

DEFAULT_TTL = 3600


[docs] class Metadata: # pylint: disable=too-many-instance-attributes """A dataclass holding metadata associated with the current message. Parameters ---------- run_id : int An identifier for the current run. message_id : str An identifier for the current message. src_node_id : int An identifier for the node sending this message. dst_node_id : int An identifier for the node receiving this message. reply_to_message : str An identifier for the message this message replies to. group_id : str An identifier for grouping messages. In some settings, this is used as the FL round. ttl : float Time-to-live for this message in seconds. message_type : str A string that encodes the action to be executed on the receiving end. """ def __init__( # pylint: disable=too-many-arguments,too-many-positional-arguments self, run_id: int, message_id: str, src_node_id: int, dst_node_id: int, reply_to_message: str, group_id: str, ttl: float, message_type: str, ) -> None: var_dict = { "_run_id": run_id, "_message_id": message_id, "_src_node_id": src_node_id, "_dst_node_id": dst_node_id, "_reply_to_message": reply_to_message, "_group_id": group_id, "_ttl": ttl, "_message_type": message_type, } self.__dict__.update(var_dict) @property def run_id(self) -> int: """An identifier for the current run.""" return cast(int, self.__dict__["_run_id"]) @property def message_id(self) -> str: """An identifier for the current message.""" return cast(str, self.__dict__["_message_id"]) @property def src_node_id(self) -> int: """An identifier for the node sending this message.""" return cast(int, self.__dict__["_src_node_id"]) @property def reply_to_message(self) -> str: """An identifier for the message this message replies to.""" return cast(str, self.__dict__["_reply_to_message"]) @property def dst_node_id(self) -> int: """An identifier for the node receiving this message.""" return cast(int, self.__dict__["_dst_node_id"]) @dst_node_id.setter def dst_node_id(self, value: int) -> None: """Set dst_node_id.""" self.__dict__["_dst_node_id"] = value @property def group_id(self) -> str: """An identifier for grouping messages.""" return cast(str, self.__dict__["_group_id"]) @group_id.setter def group_id(self, value: str) -> None: """Set group_id.""" self.__dict__["_group_id"] = value @property def created_at(self) -> float: """Unix timestamp when the message was created.""" return cast(float, self.__dict__["_created_at"]) @created_at.setter def created_at(self, value: float) -> None: """Set creation timestamp for this message.""" self.__dict__["_created_at"] = value @property def ttl(self) -> float: """Time-to-live for this message.""" return cast(float, self.__dict__["_ttl"]) @ttl.setter def ttl(self, value: float) -> None: """Set ttl.""" self.__dict__["_ttl"] = value @property def message_type(self) -> str: """A string that encodes the action to be executed on the receiving end.""" return cast(str, self.__dict__["_message_type"]) @message_type.setter def message_type(self, value: str) -> None: """Set message_type.""" self.__dict__["_message_type"] = value def __repr__(self) -> str: """Return a string representation of this instance.""" view = ", ".join([f"{k.lstrip('_')}={v!r}" for k, v in self.__dict__.items()]) return f"{self.__class__.__qualname__}({view})" def __eq__(self, other: object) -> bool: """Compare two instances of the class.""" if not isinstance(other, self.__class__): raise NotImplementedError return self.__dict__ == other.__dict__
[docs] class Error: """A dataclass that stores information about an error that occurred. Parameters ---------- code : int An identifier for the error. reason : Optional[str] A reason for why the error arose (e.g. an exception stack-trace) """ def __init__(self, code: int, reason: str | None = None) -> None: var_dict = { "_code": code, "_reason": reason, } self.__dict__.update(var_dict) @property def code(self) -> int: """Error code.""" return cast(int, self.__dict__["_code"]) @property def reason(self) -> str | None: """Reason reported about the error.""" return cast(Optional[str], self.__dict__["_reason"]) def __repr__(self) -> str: """Return a string representation of this instance.""" view = ", ".join([f"{k.lstrip('_')}={v!r}" for k, v in self.__dict__.items()]) return f"{self.__class__.__qualname__}({view})" def __eq__(self, other: object) -> bool: """Compare two instances of the class.""" if not isinstance(other, self.__class__): raise NotImplementedError return self.__dict__ == other.__dict__
[docs] class Message: """State of your application from the viewpoint of the entity using it. Parameters ---------- metadata : Metadata A dataclass including information about the message to be executed. content : Optional[RecordSet] Holds records either sent by another entity (e.g. sent by the server-side logic to a client, or vice-versa) or that will be sent to it. error : Optional[Error] A dataclass that captures information about an error that took place when processing another message. """ def __init__( self, metadata: Metadata, content: RecordSet | None = None, error: Error | None = None, ) -> None: if not (content is None) ^ (error is None): raise ValueError("Either `content` or `error` must be set, but not both.") metadata.created_at = time.time() # Set the message creation timestamp var_dict = { "_metadata": metadata, "_content": content, "_error": error, } self.__dict__.update(var_dict) @property def metadata(self) -> Metadata: """A dataclass including information about the message to be executed.""" return cast(Metadata, self.__dict__["_metadata"]) @property def content(self) -> RecordSet: """The content of this message.""" if self.__dict__["_content"] is None: raise ValueError( "Message content is None. Use <message>.has_content() " "to check if a message has content." ) return cast(RecordSet, self.__dict__["_content"]) @content.setter def content(self, value: RecordSet) -> None: """Set content.""" if self.__dict__["_error"] is None: self.__dict__["_content"] = value else: raise ValueError("A message with an error set cannot have content.") @property def error(self) -> Error: """Error captured by this message.""" if self.__dict__["_error"] is None: raise ValueError( "Message error is None. Use <message>.has_error() " "to check first if a message carries an error." ) return cast(Error, self.__dict__["_error"]) @error.setter def error(self, value: Error) -> None: """Set error.""" if self.has_content(): raise ValueError("A message with content set cannot carry an error.") self.__dict__["_error"] = value
[docs] def has_content(self) -> bool: """Return True if message has content, else False.""" return self.__dict__["_content"] is not None
[docs] def has_error(self) -> bool: """Return True if message has an error, else False.""" return self.__dict__["_error"] is not None
[docs] def create_error_reply(self, error: Error, ttl: float | None = None) -> Message: """Construct a reply message indicating an error happened. Parameters ---------- error : Error The error that was encountered. ttl : Optional[float] (default: None) Time-to-live for this message in seconds. If unset, it will be set based on the remaining time for the received message before it expires. This follows the equation: ttl = msg.meta.ttl - (reply.meta.created_at - msg.meta.created_at) Returns ------- message : Message A Message containing only the relevant error and metadata. """ # If no TTL passed, use default for message creation (will update after # message creation) ttl_ = DEFAULT_TTL if ttl is None else ttl # Create reply with error message = Message(metadata=_create_reply_metadata(self, ttl_), error=error) if ttl is None: # Set TTL equal to the remaining time for the received message to expire ttl = self.metadata.ttl - ( message.metadata.created_at - self.metadata.created_at ) message.metadata.ttl = ttl self._limit_task_res_ttl(message) return message
[docs] def create_reply(self, content: RecordSet, ttl: float | None = None) -> Message: """Create a reply to this message with specified content and TTL. The method generates a new `Message` as a reply to this message. It inherits 'run_id', 'src_node_id', 'dst_node_id', and 'message_type' from this message and sets 'reply_to_message' to the ID of this message. Parameters ---------- content : RecordSet The content for the reply message. ttl : Optional[float] (default: None) Time-to-live for this message in seconds. If unset, it will be set based on the remaining time for the received message before it expires. This follows the equation: ttl = msg.meta.ttl - (reply.meta.created_at - msg.meta.created_at) Returns ------- Message A new `Message` instance representing the reply. """ # If no TTL passed, use default for message creation (will update after # message creation) ttl_ = DEFAULT_TTL if ttl is None else ttl message = Message( metadata=_create_reply_metadata(self, ttl_), content=content, ) if ttl is None: # Set TTL equal to the remaining time for the received message to expire ttl = self.metadata.ttl - ( message.metadata.created_at - self.metadata.created_at ) message.metadata.ttl = ttl self._limit_task_res_ttl(message) return message
def __repr__(self) -> str: """Return a string representation of this instance.""" view = ", ".join( [ f"{k.lstrip('_')}={v!r}" for k, v in self.__dict__.items() if v is not None ] ) return f"{self.__class__.__qualname__}({view})" def _limit_task_res_ttl(self, message: Message) -> None: """Limit the TaskRes TTL to not exceed the expiration time of the TaskIns it replies to. Parameters ---------- message : Message The message to which the TaskRes is replying. """ # Calculate the maximum allowed TTL max_allowed_ttl = ( self.metadata.created_at + self.metadata.ttl - message.metadata.created_at ) if message.metadata.ttl - max_allowed_ttl > MESSAGE_TTL_TOLERANCE: log( WARNING, "The reply TTL of %.2f seconds exceeded the " "allowed maximum of %.2f seconds. " "The TTL has been updated to the allowed maximum.", message.metadata.ttl, max_allowed_ttl, ) message.metadata.ttl = max_allowed_ttl
def _create_reply_metadata(msg: Message, ttl: float) -> Metadata: """Construct metadata for a reply message.""" return Metadata( run_id=msg.metadata.run_id, message_id="", src_node_id=msg.metadata.dst_node_id, dst_node_id=msg.metadata.src_node_id, reply_to_message=msg.metadata.message_id, group_id=msg.metadata.group_id, ttl=ttl, message_type=msg.metadata.message_type, )