nim-libp2p/libp2p/multistream.nim

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## Nim-LibP2P
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## Copyright (c) 2019 Status Research & Development GmbH
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## 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.
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import strutils, tables
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import chronos, chronicles, stew/byteutils
import stream/connection,
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vbuffer,
PubSub (Gossip & Flood) Implementation (#36) This adds gossipsub and floodsub, as well as basic interop testing with the go libp2p daemon. * add close event * wip: gossipsub * splitting rpc message * making message handling more consistent * initial gossipsub implementation * feat: nim 1.0 cleanup * wip: gossipsub protobuf * adding encoding/decoding of gossipsub messages * add disconnect handler * add proper gossipsub msg handling * misc: cleanup for nim 1.0 * splitting floodsub and gossipsub tests * feat: add mesh rebalansing * test pubsub * add mesh rebalansing tests * testing mesh maintenance * finishing mcache implementatin * wip: commenting out broken tests * wip: don't run heartbeat for now * switchout debug for trace logging * testing gossip peer selection algorithm * test stream piping * more work around message amplification * get the peerid from message * use timed cache as backing store * allow setting timeout in constructor * several changes to improve performance * more through testing of msg amplification * prevent gc issues * allow piping to self and prevent deadlocks * improove floodsub * allow running hook on cache eviction * prevent race conditions * prevent race conditions and improove tests * use hashes as cache keys * removing useless file * don't create a new seq * re-enable pubsub tests * fix imports * reduce number of runs to speed up tests * break out control message processing * normalize sleeps between steps * implement proper transport filtering * initial interop testing * clean up floodsub publish logic * allow dialing without a protocol * adding multiple reads/writes * use protobuf varint in mplex * don't loose conn's peerInfo * initial interop pubsub tests * don't duplicate connections/peers * bring back interop tests * wip: interop * re-enable interop and daemon tests * add multiple read write tests from handlers * don't cleanup channel prematurely * use correct channel to send/receive msgs * adjust tests with latest changes * include interop tests * remove temp logging output * fix ci * use correct public key serialization * additional tests for pubsub interop
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protocols/protocol
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logScope:
topics = "multistream"
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const
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MsgSize* = 64*1024
Codec* = "/multistream/1.0.0"
MSCodec* = "\x13" & Codec & "\n"
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Na* = "\x03na\n"
Ls* = "\x03ls\n"
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type
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Matcher* = proc (proto: string): bool {.gcsafe.}
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HandlerHolder* = object
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protos*: seq[string]
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protocol*: LPProtocol
match*: Matcher
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MultistreamSelect* = ref object of RootObj
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handlers*: seq[HandlerHolder]
codec*: string
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proc newMultistream*(): MultistreamSelect =
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new result
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result.codec = MSCodec
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template validateSuffix(str: string): untyped =
if str.endsWith("\n"):
str.removeSuffix("\n")
else:
raise newException(CatchableError, "MultistreamSelect failed, malformed message")
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proc select*(m: MultistreamSelect,
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conn: Connection,
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proto: seq[string]):
Future[string] {.async.} =
trace "initiating handshake", codec = m.codec
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## select a remote protocol
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await conn.write(m.codec) # write handshake
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if proto.len() > 0:
trace "selecting proto", proto = proto[0]
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await conn.writeLp((proto[0] & "\n")) # select proto
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var s = string.fromBytes((await conn.readLp(1024))) # read ms header
validateSuffix(s)
if s != Codec:
notice "handshake failed", codec = s
raise newException(CatchableError, "MultistreamSelect handshake failed")
else:
trace "multistream handshake success"
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if proto.len() == 0: # no protocols, must be a handshake call
return Codec
else:
s = string.fromBytes(await conn.readLp(1024)) # read the first proto
validateSuffix(s)
trace "reading first requested proto"
if s == proto[0]:
trace "successfully selected ", proto = proto[0]
return proto[0]
elif proto.len > 1:
# Try to negotiate alternatives
let protos = proto[1..<proto.len()]
trace "selecting one of several protos", protos = protos
for p in protos:
trace "selecting proto", proto = p
await conn.writeLp((p & "\n")) # select proto
s = string.fromBytes(await conn.readLp(1024)) # read the first proto
validateSuffix(s)
if s == p:
trace "selected protocol", protocol = s
return s
return ""
else:
# No alternatives, fail
return ""
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proc select*(m: MultistreamSelect,
conn: Connection,
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proto: string): Future[bool] {.async.} =
if proto.len > 0:
return (await m.select(conn, @[proto])) == proto
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else:
return (await m.select(conn, @[])) == Codec
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proc select*(m: MultistreamSelect, conn: Connection): Future[bool] =
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m.select(conn, "")
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proc list*(m: MultistreamSelect,
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conn: Connection): Future[seq[string]] {.async.} =
## list remote protos requests on connection
if not await m.select(conn):
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return
await conn.write(Ls) # send ls
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var list = newSeq[string]()
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let ms = string.fromBytes(await conn.readLp(1024))
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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 "handle: starting multistream handling", handshaked = active
var handshaked = active
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try:
while not conn.atEof:
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var ms = string.fromBytes(await conn.readLp(1024))
validateSuffix(ms)
if not handshaked and ms != Codec:
error "expected handshake message", instead=ms
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raise newException(CatchableError,
"MultistreamSelect handling failed, invalid first message")
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trace "handle: got request", ms
if ms.len() <= 0:
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trace "handle: invalid proto"
await conn.write(Na)
if m.handlers.len() == 0:
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trace "handle: sending `na` for protocol", protocol = ms
await conn.write(Na)
continue
case ms:
of "ls":
trace "handle: listing protos"
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"
await conn.write(Na)
else:
for h in m.handlers:
if (not isNil(h.match) and h.match(ms)) or h.protos.contains(ms):
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trace "found handler", protocol = ms
await conn.writeLp(ms & "\n")
await h.protocol.handler(conn, ms)
return
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debug "no handlers", protocol = ms
await conn.write(Na)
except CancelledError as exc:
await conn.close()
raise exc
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except CatchableError as exc:
trace "exception in multistream", exc = exc.msg
await conn.close()
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finally:
trace "leaving multistream loop"
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proc addHandler*[T: LPProtocol](m: MultistreamSelect,
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codecs: seq[string],
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protocol: T,
matcher: Matcher = nil) =
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# trace "registering protocol", protos = codecs
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m.handlers.add(HandlerHolder(protos: codecs,
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protocol: protocol,
match: matcher))
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proc addHandler*[T: LPProtocol](m: MultistreamSelect,
codec: string,
protocol: T,
matcher: Matcher = nil) =
addHandler(m, @[codec], protocol, matcher)
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proc addHandler*[T: LPProtoHandler](m: MultistreamSelect,
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codec: string,
handler: T,
matcher: Matcher = nil) =
## helper to allow registering pure handlers
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trace "registering proto handler", proto = codec
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let protocol = new LPProtocol
protocol.codec = codec
protocol.handler = handler
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m.handlers.add(HandlerHolder(protos: @[codec],
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protocol: protocol,
match: matcher))