# Nim-LibP2P # Copyright (c) 2022 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. when (NimMajor, NimMinor) < (1, 4): {.push raises: [Defect].} else: {.push raises: [].} import std/[strutils, sequtils, tables] import chronos, chronicles, stew/byteutils import stream/connection, protocols/protocol logScope: topics = "libp2p multistream" const MsgSize* = 1024 Codec* = "/multistream/1.0.0" MSCodec* = "\x13" & Codec & "\n" Na* = "\x03na\n" Ls* = "\x03ls\n" type Matcher* = proc (proto: string): bool {.gcsafe, raises: [Defect].} MultiStreamError* = object of LPError HandlerHolder* = ref object protos*: seq[string] protocol*: LPProtocol match*: Matcher openedStreams: CountTable[PeerId] MultistreamSelect* = ref object of RootObj handlers*: seq[HandlerHolder] codec*: string proc new*(T: typedesc[MultistreamSelect]): T = T( codec: MSCodec, ) template validateSuffix(str: string): untyped = if str.endsWith("\n"): str.removeSuffix("\n") else: raise newException(MultiStreamError, "MultistreamSelect failed, malformed message") proc select*(m: MultistreamSelect, conn: Connection, proto: seq[string]): Future[string] {.async.} = trace "initiating handshake", conn, codec = m.codec ## select a remote protocol await conn.write(m.codec) # write handshake if proto.len() > 0: trace "selecting proto", conn, proto = proto[0] await conn.writeLp((proto[0] & "\n")) # select proto var s = string.fromBytes((await conn.readLp(MsgSize))) # read ms header validateSuffix(s) if s != Codec: notice "handshake failed", conn, codec = s raise newException(MultiStreamError, "MultistreamSelect handshake failed") else: trace "multistream handshake success", conn if proto.len() == 0: # no protocols, must be a handshake call return Codec else: s = string.fromBytes(await conn.readLp(MsgSize)) # read the first proto validateSuffix(s) trace "reading first requested proto", conn if s == proto[0]: trace "successfully selected ", conn, proto = proto[0] conn.protocol = proto[0] return proto[0] elif proto.len > 1: # Try to negotiate alternatives let protos = proto[1.. 0: return (await m.select(conn, @[proto])) == proto else: return (await m.select(conn, @[])) == Codec proc select*(m: MultistreamSelect, conn: Connection): Future[bool] = m.select(conn, "") proc list*(m: MultistreamSelect, conn: Connection): Future[seq[string]] {.async.} = ## list remote protos requests on connection if not await m.select(conn): return await conn.write(Ls) # send ls var list = newSeq[string]() let ms = string.fromBytes(await conn.readLp(MsgSize)) for s in ms.split("\n"): if s.len() > 0: list.add(s) result = list proc handle*(m: MultistreamSelect, conn: Connection, active: bool = false) {.async, gcsafe.} = trace "Starting multistream handler", conn, handshaked = active var handshaked = active try: while not conn.atEof: var ms = string.fromBytes(await conn.readLp(MsgSize)) validateSuffix(ms) if not handshaked and ms != Codec: notice "expected handshake message", conn, instead=ms raise newException(CatchableError, "MultistreamSelect handling failed, invalid first message") trace "handle: got request", conn, ms if ms.len() <= 0: trace "handle: invalid proto", conn await conn.write(Na) if m.handlers.len() == 0: trace "handle: sending `na` for protocol", conn, protocol = ms await conn.write(Na) continue case ms: of "ls": trace "handle: listing protos", conn var protos = "" for h in m.handlers: for proto in h.protos: protos &= (proto & "\n") await conn.writeLp(protos) of Codec: if not handshaked: await conn.write(m.codec) handshaked = true else: trace "handle: sending `na` for duplicate handshake while handshaked", conn await conn.write(Na) else: for h in m.handlers: if (not isNil(h.match) and h.match(ms)) or h.protos.contains(ms): trace "found handler", conn, protocol = ms var protocolHolder = h let maxIncomingStreams = protocolHolder.protocol.maxIncomingStreams if protocolHolder.openedStreams.getOrDefault(conn.peerId) >= maxIncomingStreams: debug "Max streams for protocol reached, blocking new stream", conn, protocol = ms, maxIncomingStreams return protocolHolder.openedStreams.inc(conn.peerId) try: await conn.writeLp(ms & "\n") conn.protocol = ms await protocolHolder.protocol.handler(conn, ms) finally: protocolHolder.openedStreams.inc(conn.peerId, -1) if protocolHolder.openedStreams[conn.peerId] == 0: protocolHolder.openedStreams.del(conn.peerId) return debug "no handlers", conn, protocol = ms await conn.write(Na) except CancelledError as exc: raise exc except CatchableError as exc: trace "Exception in multistream", conn, msg = exc.msg finally: await conn.close() trace "Stopped multistream handler", conn proc addHandler*(m: MultistreamSelect, codecs: seq[string], protocol: LPProtocol, matcher: Matcher = nil) = trace "registering protocols", protos = codecs m.handlers.add(HandlerHolder(protos: codecs, protocol: protocol, match: matcher)) proc addHandler*(m: MultistreamSelect, codec: string, protocol: LPProtocol, matcher: Matcher = nil) = addHandler(m, @[codec], protocol, matcher) proc addHandler*(m: MultistreamSelect, codec: string, handler: LPProtoHandler, matcher: Matcher = nil) = ## helper to allow registering pure handlers trace "registering proto handler", proto = codec let protocol = new LPProtocol protocol.codec = codec protocol.handler = handler m.handlers.add(HandlerHolder(protos: @[codec], protocol: protocol, match: matcher)) proc start*(m: MultistreamSelect) {.async.} = await allFutures(m.handlers.mapIt(it.protocol.start())) proc stop*(m: MultistreamSelect) {.async.} = await allFutures(m.handlers.mapIt(it.protocol.stop()))