nimbus-eth1/fluffy/network/wire/messages.nim

194 lines
5.7 KiB
Nim

# Nimbus - Portal Network- Message types
# Copyright (c) 2021-2024 Status Research & Development GmbH
# Licensed and distributed under either of
# * MIT license (license terms in the root directory or at https://opensource.org/licenses/MIT).
# * Apache v2 license (license terms in the root directory or at https://www.apache.org/licenses/LICENSE-2.0).
# at your option. This file may not be copied, modified, or distributed except according to those terms.
## Definitions and encoding of the messages of the Portal wire protocol:
## https://github.com/ethereum/portal-network-specs/blob/master/portal-wire-protocol.md#request---response-messages
{.push raises: [].}
import
stint, stew/[objects, endians2], ssz_serialization, ../../common/common_types, results
export ssz_serialization, stint, common_types
const
contentKeysLimit* = 64
# overhead of content message is a result of 1byte for kind enum, and
# 4 bytes for offset in ssz serialization
offerMessageOverhead* = 5
# each key in ContentKeysList has uint32 offset which results in 4 bytes per
# key overhead when serialized
perContentKeyOverhead* = 4
type
ContentKeysList* = List[ByteList, contentKeysLimit]
ContentKeysBitList* = BitList[contentKeysLimit]
# TODO: should become part of the specific networks, considering it is custom.
CustomPayload* = object
dataRadius*: UInt256
MessageKind* = enum
ping = 0x00
pong = 0x01
findNodes = 0x02
nodes = 0x03
findContent = 0x04
content = 0x05
offer = 0x06
accept = 0x07
ContentMessageType* = enum
connectionIdType = 0x00
contentType = 0x01
enrsType = 0x02
PingMessage* = object
enrSeq*: uint64
customPayload*: ByteList
PongMessage* = object
enrSeq*: uint64
customPayload*: ByteList
FindNodesMessage* = object
distances*: List[uint16, 256]
NodesMessage* = object
total*: uint8
enrs*: List[ByteList, 32] # ByteList here is the rlp encoded ENR. This could
# also be limited to ~300 bytes instead of 2048
FindContentMessage* = object
contentKey*: ByteList
ContentMessage* = object
case contentMessageType*: ContentMessageType
of connectionIdType:
connectionId*: Bytes2
of contentType:
content*: ByteList
of enrsType:
enrs*: List[ByteList, 32]
OfferMessage* = object
contentKeys*: ContentKeysList
AcceptMessage* = object
connectionId*: Bytes2
contentKeys*: ContentKeysBitList
Message* = object
case kind*: MessageKind
of ping:
ping*: PingMessage
of pong:
pong*: PongMessage
of findNodes:
findNodes*: FindNodesMessage
of nodes:
nodes*: NodesMessage
of findContent:
findContent*: FindContentMessage
of content:
content*: ContentMessage
of offer:
offer*: OfferMessage
of accept:
accept*: AcceptMessage
SomeMessage* =
PingMessage or PongMessage or FindNodesMessage or NodesMessage or FindContentMessage or
ContentMessage or OfferMessage or AcceptMessage
template messageKind*(T: typedesc[SomeMessage]): MessageKind =
when T is PingMessage:
ping
elif T is PongMessage:
pong
elif T is FindNodesMessage:
findNodes
elif T is NodesMessage:
nodes
elif T is FindContentMessage:
findContent
elif T is ContentMessage:
content
elif T is OfferMessage:
offer
elif T is AcceptMessage:
accept
template toSszType*(x: UInt256): array[32, byte] =
toBytesLE(x)
func fromSszBytes*(
T: type UInt256, data: openArray[byte]
): T {.raises: [MalformedSszError].} =
if data.len != sizeof(result):
raiseIncorrectSize T
T.fromBytesLE(data)
func encodeMessage*[T: SomeMessage](m: T): seq[byte] =
# TODO: Could/should be macro'd away,
# or we just use SSZ.encode(Message) directly
when T is PingMessage:
SSZ.encode(Message(kind: ping, ping: m))
elif T is PongMessage:
SSZ.encode(Message(kind: pong, pong: m))
elif T is FindNodesMessage:
SSZ.encode(Message(kind: findNodes, findNodes: m))
elif T is NodesMessage:
SSZ.encode(Message(kind: nodes, nodes: m))
elif T is FindContentMessage:
SSZ.encode(Message(kind: findContent, findContent: m))
elif T is ContentMessage:
SSZ.encode(Message(kind: content, content: m))
elif T is OfferMessage:
SSZ.encode(Message(kind: offer, offer: m))
elif T is AcceptMessage:
SSZ.encode(Message(kind: accept, accept: m))
func decodeMessage*(body: openArray[byte]): Result[Message, string] =
try:
if body.len < 1: # TODO: This check should probably move a layer down
return err("No message data, peer might not support this talk protocol")
ok(SSZ.decode(body, Message))
except SerializationError as e:
err("Invalid message encoding: " & e.msg)
template innerMessage[T: SomeMessage](
message: Message, expected: MessageKind
): Result[T, string] =
if (message.kind == expected):
ok(message.expected)
else:
err("Invalid message response")
# Each `Message` variants corresponds to an MessageKind. Therefore, the inner
# message can be extracted when providing the expected message type T.
# If the message does not hold the expacted variant, return error.
func getInnerMessage*[T: SomeMessage](m: Message): Result[T, string] =
innerMessage[T](m, messageKind(T))
func getTalkReqOverhead*(protocolIdLen: int): int =
return (
16 + # IV size
55 + # header size
1 + # talkReq msg id
3 + # rlp encoding outer list, max length will be encoded in 2 bytes
9 + # request id (max = 8) + 1 byte from rlp encoding byte string
protocolIdLen + 1 + # + 1 is necessary due to rlp encoding of byte string
3 + # rlp encoding response byte string, max length in 2 bytes
16 # HMAC
)
func getTalkReqOverhead*(protocolId: openArray[byte]): int =
return getTalkReqOverhead(len(protocolId))