nim-libp2p-experimental/libp2p/peerstore.nim

226 lines
6.3 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.
## Stores generic informations about peers.
runnableExamples:
# Will keep info of all connected peers +
# last 50 disconnected peers
let peerStore = PeerStore.new(capacity = 50)
# Create a custom book type
type MoodBook = ref object of PeerBook[string]
var somePeerId = PeerId.random().expect("get random key")
peerStore[MoodBook][somePeerId] = "Happy"
doAssert peerStore[MoodBook][somePeerId] == "Happy"
{.push raises: [].}
import
std/[tables, sets, options, macros],
chronos,
./crypto/crypto,
./protocols/identify,
./protocols/protocol,
./peerid, ./peerinfo,
./routing_record,
./multiaddress,
./stream/connection,
./multistream,
./muxers/muxer,
utility
type
#################
# Handler types #
#################
PeerBookChangeHandler* = proc(peerId: PeerId) {.gcsafe, raises: [].}
#########
# Books #
#########
# Each book contains a book (map) and event handler(s)
BasePeerBook = ref object of RootObj
changeHandlers: seq[PeerBookChangeHandler]
deletor: PeerBookChangeHandler
PeerBook*[T] {.public.} = ref object of BasePeerBook
book*: Table[PeerId, T]
SeqPeerBook*[T] = ref object of PeerBook[seq[T]]
AddressBook* {.public.} = ref object of SeqPeerBook[MultiAddress]
ProtoBook* {.public.} = ref object of SeqPeerBook[string]
KeyBook* {.public.} = ref object of PeerBook[PublicKey]
AgentBook* {.public.} = ref object of PeerBook[string]
ProtoVersionBook* {.public.} = ref object of PeerBook[string]
SPRBook* {.public.} = ref object of PeerBook[Envelope]
####################
# Peer store types #
####################
PeerStore* {.public.} = ref object
books: Table[string, BasePeerBook]
identify: Identify
capacity*: int
toClean*: seq[PeerId]
proc new*(T: type PeerStore, identify: Identify, capacity = 1000): PeerStore {.public.} =
T(
identify: identify,
capacity: capacity
)
#########################
# Generic Peer Book API #
#########################
proc `[]`*[T](peerBook: PeerBook[T],
peerId: PeerId): T {.public.} =
## Get all known metadata of a provided peer, or default(T) if missing
peerBook.book.getOrDefault(peerId)
proc `[]=`*[T](peerBook: PeerBook[T],
peerId: PeerId,
entry: T) {.public.} =
## Set metadata for a given peerId.
peerBook.book[peerId] = entry
# Notify clients
for handler in peerBook.changeHandlers:
handler(peerId)
proc del*[T](peerBook: PeerBook[T],
peerId: PeerId): bool {.public.} =
## Delete the provided peer from the book. Returns whether the peer was in the book
if peerId notin peerBook.book:
return false
else:
peerBook.book.del(peerId)
# Notify clients
for handler in peerBook.changeHandlers:
handler(peerId)
return true
proc contains*[T](peerBook: PeerBook[T], peerId: PeerId): bool {.public.} =
peerId in peerBook.book
proc addHandler*[T](peerBook: PeerBook[T], handler: PeerBookChangeHandler) {.public.} =
## Adds a callback that will be called everytime the book changes
peerBook.changeHandlers.add(handler)
proc len*[T](peerBook: PeerBook[T]): int {.public.} = peerBook.book.len
##################
# Peer Store API #
##################
macro getTypeName(t: type): untyped =
# Generate unique name in form of Module.Type
let typ = getTypeImpl(t)[1]
newLit(repr(typ.owner()) & "." & repr(typ))
proc `[]`*[T](p: PeerStore, typ: type[T]): T {.public.} =
## Get a book from the PeerStore (ex: peerStore[AddressBook])
let name = getTypeName(T)
result = T(p.books.getOrDefault(name))
if result.isNil:
result = T.new()
result.deletor = proc(pid: PeerId) =
# Manual method because generic method
# don't work
discard T(p.books.getOrDefault(name)).del(pid)
p.books[name] = result
return result
proc del*(peerStore: PeerStore,
peerId: PeerId) {.public.} =
## Delete the provided peer from every book.
for _, book in peerStore.books:
book.deletor(peerId)
proc updatePeerInfo*(
peerStore: PeerStore,
info: IdentifyInfo) =
if info.addrs.len > 0:
peerStore[AddressBook][info.peerId] = info.addrs
info.pubkey.withValue(pubkey):
peerStore[KeyBook][info.peerId] = pubkey
info.agentVersion.withValue(agentVersion):
peerStore[AgentBook][info.peerId] = agentVersion.string
info.protoVersion.withValue(protoVersion):
peerStore[ProtoVersionBook][info.peerId] = protoVersion.string
if info.protos.len > 0:
peerStore[ProtoBook][info.peerId] = info.protos
info.signedPeerRecord.withValue(signedPeerRecord):
peerStore[SPRBook][info.peerId] = signedPeerRecord
let cleanupPos = peerStore.toClean.find(info.peerId)
if cleanupPos >= 0:
peerStore.toClean.delete(cleanupPos)
proc cleanup*(
peerStore: PeerStore,
peerId: PeerId) =
if peerStore.capacity == 0:
peerStore.del(peerId)
return
elif peerStore.capacity < 0:
#infinite capacity
return
peerStore.toClean.add(peerId)
while peerStore.toClean.len > peerStore.capacity:
peerStore.del(peerStore.toClean[0])
peerStore.toClean.delete(0)
proc identify*(
peerStore: PeerStore,
muxer: Muxer) {.async.} =
# new stream for identify
var stream = await muxer.newStream()
if stream == nil:
return
try:
if (await MultistreamSelect.select(stream, peerStore.identify.codec())):
let info = await peerStore.identify.identify(stream, stream.peerId)
when defined(libp2p_agents_metrics):
var
knownAgent = "unknown"
shortAgent = info.agentVersion.get("").split("/")[0].safeToLowerAscii().get("")
if KnownLibP2PAgentsSeq.contains(shortAgent):
knownAgent = shortAgent
muxer.connection.setShortAgent(knownAgent)
peerStore.updatePeerInfo(info)
finally:
await stream.closeWithEOF()
proc getMostObservedProtosAndPorts*(self: PeerStore): seq[MultiAddress] =
return self.identify.observedAddrManager.getMostObservedProtosAndPorts()
proc guessDialableAddr*(self: PeerStore, ma: MultiAddress): MultiAddress =
return self.identify.observedAddrManager.guessDialableAddr(ma)