nim-libp2p/libp2p/protocols/identify.nim

241 lines
8.0 KiB
Nim

# Nim-LibP2P
# Copyright (c) 2023 Status Research & Development GmbH
# Licensed under either of
# * Apache License, version 2.0, ([LICENSE-APACHE](LICENSE-APACHE))
# * MIT license ([LICENSE-MIT](LICENSE-MIT))
# at your option.
# This file may not be copied, modified, or distributed except according to
# those terms.
## `Identify <https://docs.libp2p.io/concepts/protocols/#identify>`_ and
## `Push Identify <https://docs.libp2p.io/concepts/protocols/#identify-push>`_ implementation
{.push raises: [].}
import std/[sequtils, options, strutils, sugar]
import stew/results
import chronos, chronicles
import
../protobuf/minprotobuf,
../peerinfo,
../stream/connection,
../peerid,
../crypto/crypto,
../multiaddress,
../multicodec,
../protocols/protocol,
../utility,
../errors,
../observedaddrmanager
export observedaddrmanager
logScope:
topics = "libp2p identify"
const
IdentifyCodec* = "/ipfs/id/1.0.0"
IdentifyPushCodec* = "/ipfs/id/push/1.0.0"
ProtoVersion* = "ipfs/0.1.0"
AgentVersion* = "nim-libp2p/0.0.1"
type
IdentifyError* = object of LPError
IdentityNoMatchError* = object of IdentifyError
IdentityInvalidMsgError* = object of IdentifyError
IdentifyNoPubKeyError* = object of IdentifyError
IdentifyInfo* {.public.} = object
pubkey*: Option[PublicKey]
peerId*: PeerId
addrs*: seq[MultiAddress]
observedAddr*: Option[MultiAddress]
protoVersion*: Option[string]
agentVersion*: Option[string]
protos*: seq[string]
signedPeerRecord*: Option[Envelope]
Identify* = ref object of LPProtocol
peerInfo*: PeerInfo
sendSignedPeerRecord*: bool
observedAddrManager*: ObservedAddrManager
IdentifyPushHandler* = proc(peer: PeerId, newInfo: IdentifyInfo): Future[void] {.
gcsafe, raises: [], public
.}
IdentifyPush* = ref object of LPProtocol
identifyHandler: IdentifyPushHandler
chronicles.expandIt(IdentifyInfo):
pubkey = ($it.pubkey).shortLog
addresses = it.addrs.map(x => $x).join(",")
protocols = it.protos.map(x => $x).join(",")
observable_address = $it.observedAddr
proto_version = it.protoVersion.get("None")
agent_version = it.agentVersion.get("None")
signedPeerRecord =
# The SPR contains the same data as the identify message
# would be cumbersome to log
if it.signedPeerRecord.isSome(): "Some" else: "None"
proc encodeMsg(
peerInfo: PeerInfo, observedAddr: Opt[MultiAddress], sendSpr: bool
): ProtoBuffer {.raises: [].} =
result = initProtoBuffer()
let pkey = peerInfo.publicKey
result.write(1, pkey.getBytes().expect("valid key"))
for ma in peerInfo.addrs:
result.write(2, ma.data.buffer)
for proto in peerInfo.protocols:
result.write(3, proto)
observedAddr.withValue(observed):
result.write(4, observed.data.buffer)
let protoVersion = ProtoVersion
result.write(5, protoVersion)
let agentVersion =
if peerInfo.agentVersion.len <= 0: AgentVersion else: peerInfo.agentVersion
result.write(6, agentVersion)
## Optionally populate signedPeerRecord field.
## See https://github.com/libp2p/go-libp2p/blob/ddf96ce1cfa9e19564feb9bd3e8269958bbc0aba/p2p/protocol/identify/pb/identify.proto for reference.
if sendSpr:
peerInfo.signedPeerRecord.envelope.encode().toOpt().withValue(sprBuff):
result.write(8, sprBuff)
result.finish()
proc decodeMsg*(buf: seq[byte]): Opt[IdentifyInfo] =
var
iinfo: IdentifyInfo
pubkey: PublicKey
oaddr: MultiAddress
protoVersion: string
agentVersion: string
signedPeerRecord: SignedPeerRecord
var pb = initProtoBuffer(buf)
if ?pb.getField(1, pubkey).toOpt():
iinfo.pubkey = some(pubkey)
if ?pb.getField(8, signedPeerRecord).toOpt() and
pubkey == signedPeerRecord.envelope.publicKey:
iinfo.signedPeerRecord = some(signedPeerRecord.envelope)
discard ?pb.getRepeatedField(2, iinfo.addrs).toOpt()
discard ?pb.getRepeatedField(3, iinfo.protos).toOpt()
if ?pb.getField(4, oaddr).toOpt():
iinfo.observedAddr = some(oaddr)
if ?pb.getField(5, protoVersion).toOpt():
iinfo.protoVersion = some(protoVersion)
if ?pb.getField(6, agentVersion).toOpt():
iinfo.agentVersion = some(agentVersion)
Opt.some(iinfo)
proc new*(
T: typedesc[Identify],
peerInfo: PeerInfo,
sendSignedPeerRecord = false,
observedAddrManager = ObservedAddrManager.new(),
): T =
let identify = T(
peerInfo: peerInfo,
sendSignedPeerRecord: sendSignedPeerRecord,
observedAddrManager: observedAddrManager,
)
identify.init()
identify
method init*(p: Identify) =
proc handle(conn: Connection, proto: string) {.async.} =
try:
trace "handling identify request", conn
var pb = encodeMsg(p.peerInfo, conn.observedAddr, p.sendSignedPeerRecord)
await conn.writeLp(pb.buffer)
except CancelledError as exc:
raise exc
except CatchableError as exc:
trace "exception in identify handler", exc = exc.msg, conn
finally:
trace "exiting identify handler", conn
await conn.closeWithEOF()
p.handler = handle
p.codec = IdentifyCodec
proc identify*(
self: Identify, conn: Connection, remotePeerId: PeerId
): Future[IdentifyInfo] {.async.} =
trace "initiating identify", conn
var message = await conn.readLp(64 * 1024)
if len(message) == 0:
trace "identify: Empty message received!", conn
raise newException(IdentityInvalidMsgError, "Empty message received!")
var info = decodeMsg(message).valueOr:
raise newException(IdentityInvalidMsgError, "Incorrect message received!")
debug "identify: decoded message", conn, info
let
pubkey = info.pubkey.valueOr:
raise newException(IdentityInvalidMsgError, "No pubkey in identify")
peer = PeerId.init(pubkey).valueOr:
raise newException(IdentityInvalidMsgError, $error)
if peer != remotePeerId:
trace "Peer ids don't match", remote = peer, local = remotePeerId
raise newException(IdentityNoMatchError, "Peer ids don't match")
info.peerId = peer
info.observedAddr.withValue(observed):
# Currently, we use the ObservedAddrManager only to find our dialable external NAT address. Therefore, addresses
# like "...\p2p-circuit\p2p\..." and "\p2p\..." are not useful to us.
if observed.contains(multiCodec("p2p-circuit")).get(false) or
P2PPattern.matchPartial(observed):
trace "Not adding address to ObservedAddrManager.", observed
elif not self.observedAddrManager.addObservation(observed):
trace "Observed address is not valid.", observedAddr = observed
return info
proc new*(T: typedesc[IdentifyPush], handler: IdentifyPushHandler = nil): T {.public.} =
## Create a IdentifyPush protocol. `handler` will be called every time
## a peer sends us new `PeerInfo`
let identifypush = T(identifyHandler: handler)
identifypush.init()
identifypush
proc init*(p: IdentifyPush) =
proc handle(conn: Connection, proto: string) {.async.} =
trace "handling identify push", conn
try:
var message = await conn.readLp(64 * 1024)
var identInfo = decodeMsg(message).valueOr:
raise newException(IdentityInvalidMsgError, "Incorrect message received!")
debug "identify push: decoded message", conn, identInfo
identInfo.pubkey.withValue(pubkey):
let receivedPeerId = PeerId.init(pubkey).tryGet()
if receivedPeerId != conn.peerId:
raise newException(IdentityNoMatchError, "Peer ids don't match")
identInfo.peerId = receivedPeerId
trace "triggering peer event", peerInfo = conn.peerId
if not isNil(p.identifyHandler):
await p.identifyHandler(conn.peerId, identInfo)
except CancelledError as exc:
raise exc
except CatchableError as exc:
info "exception in identify push handler", exc = exc.msg, conn
finally:
trace "exiting identify push handler", conn
await conn.closeWithEOF()
p.handler = handle
p.codec = IdentifyPushCodec
proc push*(p: IdentifyPush, peerInfo: PeerInfo, conn: Connection) {.async, public.} =
## Send new `peerInfo`s to a connection
var pb = encodeMsg(peerInfo, conn.observedAddr, true)
await conn.writeLp(pb.buffer)