Co-authored-by: Ludovic Chenut <ludovic@status.im>
This commit is contained in:
Tanguy 2022-07-04 15:19:21 +02:00 committed by GitHub
parent 150fafbee8
commit 533e39ef94
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7 changed files with 1301 additions and 633 deletions

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@ -22,7 +22,7 @@ import
options, tables, chronos, chronicles,
switch, peerid, peerinfo, stream/connection, multiaddress,
crypto/crypto, transports/[transport, tcptransport],
muxers/[muxer, mplex/mplex],
muxers/[muxer, mplex/mplex, yamux/yamux],
protocols/[identify, secure/secure, secure/noise, relay],
connmanager, upgrademngrs/muxedupgrade,
nameresolving/nameresolver,
@ -38,15 +38,15 @@ type
Noise,
Secio {.deprecated.}
MplexOpts = object
enable: bool
MuxerBuilder = object
codec: string
newMuxer: MuxerConstructor
SwitchBuilder* = ref object
privKey: Option[PrivateKey]
addresses: seq[MultiAddress]
secureManagers: seq[SecureProtocol]
mplexOpts: MplexOpts
muxers: seq[MuxerBuilder]
transports: seq[TransportProvider]
rng: ref HmacDrbgContext
maxConnections: int
@ -119,11 +119,13 @@ proc withMplex*(
outTimeout,
maxChannCount)
b.mplexOpts = MplexOpts(
enable: true,
newMuxer: newMuxer,
)
b.muxers.add(MuxerBuilder(codec: MplexCodec, newMuxer: newMuxer))
b
proc withYamux*(b: SwitchBuilder): SwitchBuilder =
proc newMuxer(conn: Connection): Muxer = Yamux.new(conn)
b.muxers.add(MuxerBuilder(codec: YamuxCodec, newMuxer: newMuxer))
b
proc withNoise*(b: SwitchBuilder): SwitchBuilder {.public.} =
@ -213,8 +215,8 @@ proc build*(b: SwitchBuilder): Switch
let
muxers = block:
var muxers: Table[string, MuxerProvider]
if b.mplexOpts.enable:
muxers[MplexCodec] = MuxerProvider.new(b.mplexOpts.newMuxer, MplexCodec)
for m in b.muxers:
muxers[m.codec] = MuxerProvider.new(m.newMuxer, m.codec)
muxers
let

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@ -0,0 +1,468 @@
# 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.
{.push raises: [Defect].}
import sequtils, std/[tables]
import chronos, chronicles, stew/[endians2, byteutils, objects]
import ../muxer,
../../stream/connection
export muxer
logScope:
topics = "libp2p yamux"
const
YamuxCodec* = "/yamux/1.0.0"
YamuxVersion = 0.uint8
DefaultWindowSize = 256000
type
YamuxError* = object of CatchableError
MsgType = enum
Data = 0x0
WindowUpdate = 0x1
Ping = 0x2
GoAway = 0x3
MsgFlags {.size: 2.} = enum
Syn
Ack
Fin
Rst
GoAwayStatus = enum
NormalTermination = 0x0,
ProtocolError = 0x1,
InternalError = 0x2,
YamuxHeader = object
version: uint8
msgType: MsgType
flags: set[MsgFlags]
streamId: uint32
length: uint32
proc readHeader(conn: LPStream): Future[YamuxHeader] {.async, gcsafe.} =
var buffer: array[12, byte]
await conn.readExactly(addr buffer[0], 12)
result.version = buffer[0]
let flags = fromBytesBE(uint16, buffer[2..3])
if not result.msgType.checkedEnumAssign(buffer[1]) or flags notin 0'u16..15'u16:
raise newException(YamuxError, "Wrong header")
result.flags = cast[set[MsgFlags]](flags)
result.streamId = fromBytesBE(uint32, buffer[4..7])
result.length = fromBytesBE(uint32, buffer[8..11])
return result
proc `$`(header: YamuxHeader): string =
result = "{" & $header.msgType & ", "
result &= "{" & header.flags.foldl(if a != "": a & ", " & $b else: $b, "") & "}, "
result &= "streamId: " & $header.streamId & ", "
result &= "length: " & $header.length & "}"
proc encode(header: YamuxHeader): array[12, byte] =
result[0] = header.version
result[1] = uint8(header.msgType)
result[2..3] = toBytesBE(cast[uint16](header.flags))
result[4..7] = toBytesBE(header.streamId)
result[8..11] = toBytesBE(header.length)
proc write(conn: LPStream, header: YamuxHeader): Future[void] {.gcsafe.} =
trace "write directly on stream", h = $header
var buffer = header.encode()
return conn.write(@buffer)
proc ping(T: type[YamuxHeader], flag: MsgFlags, pingData: uint32): T =
T(
version: YamuxVersion,
msgType: MsgType.Ping,
flags: {flag},
length: pingData
)
proc goAway(T: type[YamuxHeader], status: GoAwayStatus): T =
T(
version: YamuxVersion,
msgType: MsgType.GoAway,
length: uint32(status)
)
proc data(
T: type[YamuxHeader],
streamId: uint32,
length: uint32 = 0,
flags: set[MsgFlags] = {},
): T =
T(
version: YamuxVersion,
msgType: MsgType.Data,
length: length,
flags: flags,
streamId: streamId
)
proc windowUpdate(
T: type[YamuxHeader],
streamId: uint32,
delta: uint32,
flags: set[MsgFlags] = {},
): T =
T(
version: YamuxVersion,
msgType: MsgType.WindowUpdate,
length: delta,
flags: flags,
streamId: streamId
)
type
ToSend = tuple
data: seq[byte]
sent: int
fut: Future[void]
YamuxChannel* = ref object of Connection
id: uint32
recvWindow: int
sendWindow: int
maxRecvWindow: int
conn: Connection
isSrc: bool
opened: bool
isSending: bool
sendQueue: seq[ToSend]
recvQueue: seq[byte]
isReset: bool
closedRemotely: Future[void]
closedLocally: bool
receivedData: AsyncEvent
returnedEof: bool
proc `$`(channel: YamuxChannel): string =
result = if channel.conn.dir == Out: "=> " else: "<= "
result &= $channel.id
var s: seq[string] = @[]
if channel.closedRemotely.done():
s.add("ClosedRemotely")
if channel.closedLocally:
s.add("ClosedLocally")
if channel.isReset:
s.add("Reset")
if s.len > 0:
result &= " {" & s.foldl(if a != "": a & ", " & b else: b, "") & "}"
proc sendQueueBytes(channel: YamuxChannel, limit: bool = false): int =
for (elem, sent, _) in channel.sendQueue:
result.inc(min(elem.len - sent, if limit: channel.maxRecvWindow div 3 else: elem.len - sent))
proc actuallyClose(channel: YamuxChannel) {.async.} =
if channel.closedLocally and channel.sendQueue.len == 0 and
channel.closedRemotely.done():
await procCall Connection(channel).closeImpl()
proc remoteClosed(channel: YamuxChannel) {.async.} =
if not channel.closedRemotely.done():
channel.closedRemotely.complete()
await channel.actuallyClose()
method closeImpl*(channel: YamuxChannel) {.async, gcsafe.} =
if not channel.closedLocally:
channel.closedLocally = true
if channel.isReset == false and channel.sendQueue.len == 0:
await channel.conn.write(YamuxHeader.data(channel.id, 0, {Fin}))
await channel.actuallyClose()
proc reset(channel: YamuxChannel, isLocal: bool = false) {.async.} =
if not channel.isReset:
trace "Reset channel"
channel.isReset = true
for (d, s, fut) in channel.sendQueue:
fut.fail(newLPStreamEOFError())
channel.sendQueue = @[]
channel.recvQueue = @[]
channel.sendWindow = 0
if not channel.closedLocally:
if isLocal:
try: await channel.conn.write(YamuxHeader.data(channel.id, 0, {Rst}))
except LPStreamEOFError as exc: discard
await channel.close()
if not channel.closedRemotely.done():
await channel.remoteClosed()
channel.receivedData.fire()
if not isLocal:
# If we reset locally, we want to flush up to a maximum of recvWindow
# bytes. We use the recvWindow in the proc cleanupChann.
channel.recvWindow = 0
proc updateRecvWindow(channel: YamuxChannel) {.async.} =
let inWindow = channel.recvWindow + channel.recvQueue.len
if inWindow > channel.maxRecvWindow div 2:
return
let delta = channel.maxRecvWindow - inWindow
channel.recvWindow.inc(delta)
await channel.conn.write(YamuxHeader.windowUpdate(
channel.id,
delta.uint32
))
trace "increasing the recvWindow", delta
method readOnce*(
channel: YamuxChannel,
pbytes: pointer,
nbytes: int):
Future[int] {.async.} =
if channel.returnedEof: raise newLPStreamEOFError()
if channel.recvQueue.len == 0:
channel.receivedData.clear()
await channel.closedRemotely or channel.receivedData.wait()
if channel.closedRemotely.done() and channel.recvQueue.len == 0:
channel.returnedEof = true
return 0
let toRead = min(channel.recvQueue.len, nbytes)
var p = cast[ptr UncheckedArray[byte]](pbytes)
toOpenArray(p, 0, nbytes - 1)[0..<toRead] = channel.recvQueue.toOpenArray(0, toRead - 1)
channel.recvQueue = channel.recvQueue[toRead..^1]
# We made some room in the recv buffer let the peer know
await channel.updateRecvWindow()
channel.activity = true
return toRead
proc gotDataFromRemote(channel: YamuxChannel, b: seq[byte]) {.async.} =
channel.recvWindow -= b.len
channel.recvQueue = channel.recvQueue.concat(b)
channel.receivedData.fire()
await channel.updateRecvWindow()
proc setMaxRecvWindow*(channel: YamuxChannel, maxRecvWindow: int) =
channel.maxRecvWindow = maxRecvWindow
proc trySend(channel: YamuxChannel) {.async.} =
if channel.isSending:
return
channel.isSending = true
defer: channel.isSending = false
while channel.sendQueue.len != 0:
channel.sendQueue.keepItIf(not (it.fut.cancelled() and it.sent == 0))
if channel.sendWindow == 0:
trace "send window empty"
if channel.sendQueueBytes(true) > channel.maxRecvWindow:
await channel.reset(true)
break
let
bytesAvailable = channel.sendQueueBytes()
toSend = min(channel.sendWindow, bytesAvailable)
var
sendBuffer = newSeqUninitialized[byte](toSend + 12)
header = YamuxHeader.data(channel.id, toSend.uint32)
inBuffer = 0
if toSend >= bytesAvailable and channel.closedLocally:
trace "last buffer we'll sent on this channel", toSend, bytesAvailable
header.flags.incl({Fin})
sendBuffer[0..<12] = header.encode()
var futures: seq[Future[void]]
while inBuffer < toSend:
let (data, sent, fut) = channel.sendQueue[0]
let bufferToSend = min(data.len - sent, toSend - inBuffer)
sendBuffer.toOpenArray(12, 12 + toSend - 1)[inBuffer..<(inBuffer+bufferToSend)] =
channel.sendQueue[0].data.toOpenArray(sent, sent + bufferToSend - 1)
channel.sendQueue[0].sent.inc(bufferToSend)
if channel.sendQueue[0].sent >= data.len:
futures.add(fut)
channel.sendQueue.delete(0)
inBuffer.inc(bufferToSend)
trace "build send buffer", h = $header, msg=string.fromBytes(sendBuffer[12..^1])
channel.sendWindow.dec(toSend)
try: await channel.conn.write(sendBuffer)
except LPStreamEOFError as exc:
for fut in futures.items():
fut.fail(exc)
await channel.reset()
break
for fut in futures.items():
fut.complete()
channel.activity = true
method write*(channel: YamuxChannel, msg: seq[byte]): Future[void] =
result = newFuture[void]("Yamux Send")
if channel.closedLocally or channel.isReset:
result.fail(newLPStreamEOFError())
return result
if msg.len == 0:
result.complete()
return result
channel.sendQueue.add((msg, 0, result))
asyncSpawn channel.trySend()
proc open*(channel: YamuxChannel) {.async, gcsafe.} =
if channel.opened:
trace "Try to open channel twice"
return
channel.opened = true
await channel.conn.write(YamuxHeader.data(channel.id, 0, {if channel.isSrc: Syn else: Ack}))
type
Yamux* = ref object of Muxer
channels: Table[uint32, YamuxChannel]
flushed: Table[uint32, int]
currentId: uint32
isClosed: bool
proc cleanupChann(m: Yamux, channel: YamuxChannel) {.async.} =
await channel.join()
m.channels.del(channel.id)
if channel.isReset and channel.recvWindow > 0:
m.flushed[channel.id] = channel.recvWindow
proc createStream(m: Yamux, id: uint32, isSrc: bool): YamuxChannel =
result = YamuxChannel(
id: id,
maxRecvWindow: DefaultWindowSize,
recvWindow: DefaultWindowSize,
sendWindow: DefaultWindowSize,
isSrc: isSrc,
conn: m.connection,
receivedData: newAsyncEvent(),
closedRemotely: newFuture[void]()
)
result.initStream()
result.peerId = m.connection.peerId
result.observedAddr = m.connection.observedAddr
result.transportDir = m.connection.transportDir
when defined(libp2p_agents_metrics):
result.shortAgent = m.connection.shortAgent
m.channels[id] = result
asyncSpawn m.cleanupChann(result)
trace "created channel", id, pid=m.connection.peerId
method close*(m: Yamux) {.async.} =
if m.isClosed == true:
trace "Already closed"
return
m.isClosed = true
trace "Closing yamux"
for channel in m.channels.values:
await channel.reset()
await m.connection.write(YamuxHeader.goAway(NormalTermination))
await m.connection.close()
trace "Closed yamux"
proc handleStream(m: Yamux, channel: YamuxChannel) {.async.} =
## call the muxer stream handler for this channel
##
try:
await m.streamHandler(channel)
trace "finished handling stream"
doAssert(channel.isClosed, "connection not closed by handler!")
except CatchableError as exc:
trace "Exception in yamux stream handler", msg = exc.msg
await channel.reset()
method handle*(m: Yamux) {.async, gcsafe.} =
trace "Starting yamux handler", pid=m.connection.peerId
try:
while not m.connection.atEof:
trace "waiting for header"
let header = await m.connection.readHeader()
trace "got message", h = $header
case header.msgType:
of Ping:
if MsgFlags.Syn in header.flags:
await m.connection.write(YamuxHeader.ping(MsgFlags.Ack, header.length))
of GoAway:
var status: GoAwayStatus
if status.checkedEnumAssign(header.length): trace "Received go away", status
else: trace "Received unexpected error go away"
break
of Data, WindowUpdate:
if MsgFlags.Syn in header.flags:
if header.streamId in m.channels:
debug "Trying to create an existing channel, skipping", id=header.streamId
else:
if header.streamId in m.flushed:
m.flushed.del(header.streamId)
if header.streamId mod 2 == m.currentId mod 2:
raise newException(YamuxError, "Peer used our reserved stream id")
let newStream = m.createStream(header.streamId, false)
await newStream.open()
asyncSpawn m.handleStream(newStream)
elif header.streamId notin m.channels:
if header.streamId notin m.flushed:
raise newException(YamuxError, "Unknown stream ID: " & $header.streamId)
elif header.msgType == Data:
# Flush the data
m.flushed[header.streamId].dec(int(header.length))
if m.flushed[header.streamId] < 0:
raise newException(YamuxError, "Peer exhausted the recvWindow after reset")
var buffer = newSeqUninitialized[byte](header.length)
await m.connection.readExactly(addr buffer[0], int(header.length))
continue
let channel = m.channels[header.streamId]
if header.msgType == WindowUpdate:
channel.sendWindow += int(header.length)
await channel.trySend()
else:
if header.length.int > channel.recvWindow.int:
# check before allocating the buffer
raise newException(YamuxError, "Peer exhausted the recvWindow")
if header.length > 0:
var buffer = newSeqUninitialized[byte](header.length)
await m.connection.readExactly(addr buffer[0], int(header.length))
trace "Msg Rcv", msg=string.fromBytes(buffer)
await channel.gotDataFromRemote(buffer)
if MsgFlags.Fin in header.flags:
trace "remote closed channel"
await channel.remoteClosed()
if MsgFlags.Rst in header.flags:
trace "remote reset channel"
await channel.reset()
except LPStreamEOFError as exc:
trace "Stream EOF", msg = exc.msg
except YamuxError as exc:
trace "Closing yamux connection", error=exc.msg
await m.connection.write(YamuxHeader.goAway(ProtocolError))
finally:
await m.close()
trace "Stopped yamux handler"
method newStream*(
m: Yamux,
name: string = "",
lazy: bool = false): Future[Connection] {.async, gcsafe.} =
let stream = m.createStream(m.currentId, true)
m.currentId += 2
if not lazy:
await stream.open()
return stream
proc new*(T: type[Yamux], conn: Connection): T =
T(
connection: conn,
currentId: if conn.dir == Out: 1 else: 2
)

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@ -466,6 +466,7 @@ proc dial*(self: RelayTransport, ma: MultiAddress): Future[Connection] {.async,
trace "Dial", relayPeerId, relayAddrs, dstPeerId
let conn = await self.relay.switch.dial(relayPeerId, @[ relayAddrs ], RelayCodec)
conn.dir = Direction.Out
result = await self.relay.dialPeer(conn, dstPeerId, @[])
method dial*(

596
tests/commoninterop.nim Normal file
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@ -0,0 +1,596 @@
import options, tables
import chronos, chronicles, stew/byteutils
import helpers
import ../libp2p
import ../libp2p/[daemon/daemonapi, varint, transports/wstransport, crypto/crypto, protocols/relay ]
type
SwitchCreator = proc(
isRelay: bool = false,
ma: MultiAddress = MultiAddress.init("/ip4/127.0.0.1/tcp/0").tryGet(),
prov: TransportProvider = proc(upgr: Upgrade): Transport = TcpTransport.new({}, upgr)):
Switch {.gcsafe, raises: [Defect, LPError].}
DaemonPeerInfo = daemonapi.PeerInfo
proc writeLp(s: StreamTransport, msg: string | seq[byte]): Future[int] {.gcsafe.} =
## write lenght prefixed
var buf = initVBuffer()
buf.writeSeq(msg)
buf.finish()
result = s.write(buf.buffer)
proc readLp(s: StreamTransport): Future[seq[byte]] {.async, gcsafe.} =
## read length prefixed msg
var
size: uint
length: int
res: VarintResult[void]
result = newSeq[byte](10)
for i in 0..<len(result):
await s.readExactly(addr result[i], 1)
res = LP.getUVarint(result.toOpenArray(0, i), length, size)
if res.isOk():
break
res.expect("Valid varint")
result.setLen(size)
if size > 0.uint:
await s.readExactly(addr result[0], int(size))
proc testPubSubDaemonPublish(
gossip: bool = false,
count: int = 1,
swCreator: SwitchCreator) {.async.} =
var pubsubData = "TEST MESSAGE"
var testTopic = "test-topic"
var msgData = pubsubData.toBytes()
var flags = {PSFloodSub}
if gossip:
flags = {PSGossipSub}
let daemonNode = await newDaemonApi(flags)
let daemonPeer = await daemonNode.identity()
let nativeNode = swCreator()
let pubsub = if gossip:
GossipSub.init(
switch = nativeNode).PubSub
else:
FloodSub.init(
switch = nativeNode).PubSub
nativeNode.mount(pubsub)
await nativeNode.start()
await pubsub.start()
let nativePeer = nativeNode.peerInfo
var finished = false
var times = 0
proc nativeHandler(topic: string, data: seq[byte]) {.async.} =
let smsg = string.fromBytes(data)
check smsg == pubsubData
times.inc()
if times >= count and not finished:
finished = true
await nativeNode.connect(daemonPeer.peer, daemonPeer.addresses)
await sleepAsync(1.seconds)
await daemonNode.connect(nativePeer.peerId, nativePeer.addrs)
proc pubsubHandler(api: DaemonAPI,
ticket: PubsubTicket,
message: PubSubMessage): Future[bool] {.async.} =
result = true # don't cancel subscription
asyncDiscard daemonNode.pubsubSubscribe(testTopic, pubsubHandler)
pubsub.subscribe(testTopic, nativeHandler)
await sleepAsync(5.seconds)
proc publisher() {.async.} =
while not finished:
await daemonNode.pubsubPublish(testTopic, msgData)
await sleepAsync(500.millis)
await wait(publisher(), 5.minutes) # should be plenty of time
await nativeNode.stop()
await pubsub.stop()
await daemonNode.close()
proc testPubSubNodePublish(
gossip: bool = false,
count: int = 1,
swCreator: SwitchCreator) {.async.} =
var pubsubData = "TEST MESSAGE"
var testTopic = "test-topic"
var msgData = pubsubData.toBytes()
var flags = {PSFloodSub}
if gossip:
flags = {PSGossipSub}
let daemonNode = await newDaemonApi(flags)
let daemonPeer = await daemonNode.identity()
let nativeNode = swCreator()
let pubsub = if gossip:
GossipSub.init(
switch = nativeNode).PubSub
else:
FloodSub.init(
switch = nativeNode).PubSub
nativeNode.mount(pubsub)
await nativeNode.start()
await pubsub.start()
let nativePeer = nativeNode.peerInfo
await nativeNode.connect(daemonPeer.peer, daemonPeer.addresses)
await sleepAsync(1.seconds)
await daemonNode.connect(nativePeer.peerId, nativePeer.addrs)
var times = 0
var finished = false
proc pubsubHandler(api: DaemonAPI,
ticket: PubsubTicket,
message: PubSubMessage): Future[bool] {.async.} =
let smsg = string.fromBytes(message.data)
check smsg == pubsubData
times.inc()
if times >= count and not finished:
finished = true
result = true # don't cancel subscription
discard await daemonNode.pubsubSubscribe(testTopic, pubsubHandler)
proc nativeHandler(topic: string, data: seq[byte]) {.async.} = discard
pubsub.subscribe(testTopic, nativeHandler)
await sleepAsync(5.seconds)
proc publisher() {.async.} =
while not finished:
discard await pubsub.publish(testTopic, msgData)
await sleepAsync(500.millis)
await wait(publisher(), 5.minutes) # should be plenty of time
check finished
await nativeNode.stop()
await pubsub.stop()
await daemonNode.close()
proc commonInteropTests*(name: string, swCreator: SwitchCreator) =
suite "Interop using " & name:
# TODO: chronos transports are leaking,
# but those are tracked for both the daemon
# and libp2p, so not sure which one it is,
# need to investigate more
# teardown:
# checkTrackers()
# TODO: this test is failing sometimes on windows
# For some reason we receive EOF before test 4 sometimes
asyncTest "native -> daemon multiple reads and writes":
var protos = @["/test-stream"]
let nativeNode = swCreator()
await nativeNode.start()
let daemonNode = await newDaemonApi()
let daemonPeer = await daemonNode.identity()
var testFuture = newFuture[void]("test.future")
proc daemonHandler(api: DaemonAPI, stream: P2PStream) {.async.} =
check string.fromBytes(await stream.transp.readLp()) == "test 1"
discard await stream.transp.writeLp("test 2")
check string.fromBytes(await stream.transp.readLp()) == "test 3"
discard await stream.transp.writeLp("test 4")
testFuture.complete()
await daemonNode.addHandler(protos, daemonHandler)
let conn = await nativeNode.dial(daemonPeer.peer, daemonPeer.addresses, protos[0])
await conn.writeLp("test 1")
check "test 2" == string.fromBytes((await conn.readLp(1024)))
await conn.writeLp("test 3")
check "test 4" == string.fromBytes((await conn.readLp(1024)))
await wait(testFuture, 10.secs)
await nativeNode.stop()
await daemonNode.close()
await sleepAsync(1.seconds)
asyncTest "native -> daemon connection":
var protos = @["/test-stream"]
var test = "TEST STRING"
# We are preparing expect string, which should be prefixed with varint
# length and do not have `\r\n` suffix, because we going to use
# readLine().
var buffer = initVBuffer()
buffer.writeSeq(test & "\r\n")
buffer.finish()
var expect = newString(len(buffer) - 2)
copyMem(addr expect[0], addr buffer.buffer[0], len(expect))
let nativeNode = swCreator()
await nativeNode.start()
let daemonNode = await newDaemonApi()
let daemonPeer = await daemonNode.identity()
var testFuture = newFuture[string]("test.future")
proc daemonHandler(api: DaemonAPI, stream: P2PStream) {.async.} =
# We should perform `readLp()` instead of `readLine()`. `readLine()`
# here reads actually length prefixed string.
var line = await stream.transp.readLine()
check line == expect
testFuture.complete(line)
await stream.close()
await daemonNode.addHandler(protos, daemonHandler)
let conn = await nativeNode.dial(daemonPeer.peer, daemonPeer.addresses, protos[0])
await conn.writeLp(test & "\r\n")
check expect == (await wait(testFuture, 10.secs))
await conn.close()
await nativeNode.stop()
await daemonNode.close()
asyncTest "daemon -> native connection":
var protos = @["/test-stream"]
var test = "TEST STRING"
var testFuture = newFuture[string]("test.future")
proc nativeHandler(conn: Connection, proto: string) {.async.} =
var line = string.fromBytes(await conn.readLp(1024))
check line == test
testFuture.complete(line)
await conn.close()
# custom proto
var proto = new LPProtocol
proto.handler = nativeHandler
proto.codec = protos[0] # codec
let nativeNode = swCreator()
nativeNode.mount(proto)
await nativeNode.start()
let nativePeer = nativeNode.peerInfo
let daemonNode = await newDaemonApi()
await daemonNode.connect(nativePeer.peerId, nativePeer.addrs)
var stream = await daemonNode.openStream(nativePeer.peerId, protos)
discard await stream.transp.writeLp(test)
check test == (await wait(testFuture, 10.secs))
await stream.close()
await nativeNode.stop()
await daemonNode.close()
await sleepAsync(1.seconds)
asyncTest "native -> daemon websocket connection":
var protos = @["/test-stream"]
var test = "TEST STRING"
var testFuture = newFuture[string]("test.future")
proc nativeHandler(conn: Connection, proto: string) {.async.} =
var line = string.fromBytes(await conn.readLp(1024))
check line == test
testFuture.complete(line)
await conn.close()
# custom proto
var proto = new LPProtocol
proto.handler = nativeHandler
proto.codec = protos[0] # codec
let wsAddress = MultiAddress.init("/ip4/127.0.0.1/tcp/0/ws").tryGet()
let nativeNode = swCreator(
ma = wsAddress,
prov = proc (upgr: Upgrade): Transport = WsTransport.new(upgr)
)
nativeNode.mount(proto)
await nativeNode.start()
let nativePeer = nativeNode.peerInfo
let daemonNode = await newDaemonApi(hostAddresses = @[wsAddress])
await daemonNode.connect(nativePeer.peerId, nativePeer.addrs)
var stream = await daemonNode.openStream(nativePeer.peerId, protos)
discard await stream.transp.writeLp(test)
check test == (await wait(testFuture, 10.secs))
await stream.close()
await nativeNode.stop()
await daemonNode.close()
await sleepAsync(1.seconds)
asyncTest "daemon -> native websocket connection":
var protos = @["/test-stream"]
var test = "TEST STRING"
# We are preparing expect string, which should be prefixed with varint
# length and do not have `\r\n` suffix, because we going to use
# readLine().
var buffer = initVBuffer()
buffer.writeSeq(test & "\r\n")
buffer.finish()
var expect = newString(len(buffer) - 2)
copyMem(addr expect[0], addr buffer.buffer[0], len(expect))
let wsAddress = MultiAddress.init("/ip4/127.0.0.1/tcp/0/ws").tryGet()
let nativeNode = SwitchBuilder
.new()
.withAddress(wsAddress)
.withRng(crypto.newRng())
.withMplex()
.withTransport(proc (upgr: Upgrade): Transport = WsTransport.new(upgr))
.withNoise()
.build()
await nativeNode.start()
let daemonNode = await newDaemonApi(hostAddresses = @[wsAddress])
let daemonPeer = await daemonNode.identity()
var testFuture = newFuture[string]("test.future")
proc daemonHandler(api: DaemonAPI, stream: P2PStream) {.async.} =
# We should perform `readLp()` instead of `readLine()`. `readLine()`
# here reads actually length prefixed string.
var line = await stream.transp.readLine()
check line == expect
testFuture.complete(line)
await stream.close()
await daemonNode.addHandler(protos, daemonHandler)
let conn = await nativeNode.dial(daemonPeer.peer, daemonPeer.addresses, protos[0])
await conn.writeLp(test & "\r\n")
check expect == (await wait(testFuture, 10.secs))
await conn.close()
await nativeNode.stop()
await daemonNode.close()
asyncTest "daemon -> multiple reads and writes":
var protos = @["/test-stream"]
var testFuture = newFuture[void]("test.future")
proc nativeHandler(conn: Connection, proto: string) {.async.} =
check "test 1" == string.fromBytes(await conn.readLp(1024))
await conn.writeLp("test 2".toBytes())
check "test 3" == string.fromBytes(await conn.readLp(1024))
await conn.writeLp("test 4".toBytes())
testFuture.complete()
await conn.close()
# custom proto
var proto = new LPProtocol
proto.handler = nativeHandler
proto.codec = protos[0] # codec
let nativeNode = swCreator()
nativeNode.mount(proto)
await nativeNode.start()
let nativePeer = nativeNode.peerInfo
let daemonNode = await newDaemonApi()
await daemonNode.connect(nativePeer.peerId, nativePeer.addrs)
var stream = await daemonNode.openStream(nativePeer.peerId, protos)
asyncDiscard stream.transp.writeLp("test 1")
check "test 2" == string.fromBytes(await stream.transp.readLp())
asyncDiscard stream.transp.writeLp("test 3")
check "test 4" == string.fromBytes(await stream.transp.readLp())
await wait(testFuture, 10.secs)
await stream.close()
await nativeNode.stop()
await daemonNode.close()
asyncTest "read write multiple":
var protos = @["/test-stream"]
var test = "TEST STRING"
var count = 0
var testFuture = newFuture[int]("test.future")
proc nativeHandler(conn: Connection, proto: string) {.async.} =
while count < 10:
var line = string.fromBytes(await conn.readLp(1024))
check line == test
await conn.writeLp(test.toBytes())
count.inc()
testFuture.complete(count)
await conn.close()
# custom proto
var proto = new LPProtocol
proto.handler = nativeHandler
proto.codec = protos[0] # codec
let nativeNode = swCreator()
nativeNode.mount(proto)
await nativeNode.start()
let nativePeer = nativeNode.peerInfo
let daemonNode = await newDaemonApi()
await daemonNode.connect(nativePeer.peerId, nativePeer.addrs)
var stream = await daemonNode.openStream(nativePeer.peerId, protos)
var count2 = 0
while count2 < 10:
discard await stream.transp.writeLp(test)
let line = await stream.transp.readLp()
check test == string.fromBytes(line)
inc(count2)
check 10 == (await wait(testFuture, 1.minutes))
await stream.close()
await nativeNode.stop()
await daemonNode.close()
asyncTest "floodsub: daemon publish one":
await testPubSubDaemonPublish(swCreator = swCreator)
asyncTest "floodsub: daemon publish many":
await testPubSubDaemonPublish(count = 10, swCreator = swCreator)
asyncTest "gossipsub: daemon publish one":
await testPubSubDaemonPublish(gossip = true, swCreator = swCreator)
asyncTest "gossipsub: daemon publish many":
await testPubSubDaemonPublish(gossip = true, count = 10, swCreator = swCreator)
asyncTest "floodsub: node publish one":
await testPubSubNodePublish(swCreator = swCreator)
asyncTest "floodsub: node publish many":
await testPubSubNodePublish(count = 10, swCreator = swCreator)
asyncTest "gossipsub: node publish one":
await testPubSubNodePublish(gossip = true, swCreator = swCreator)
asyncTest "gossipsub: node publish many":
await testPubSubNodePublish(gossip = true, count = 10, swCreator = swCreator)
proc relayInteropTests*(name: string, relayCreator: SwitchCreator) =
suite "Interop relay using " & name:
asyncTest "NativeSrc -> NativeRelay -> DaemonDst":
let closeBlocker = newFuture[void]()
# TODO: This Future blocks the daemonHandler after sending the last message.
# It exists because there's a strange behavior where stream.close sends
# a Rst instead of Fin. We should investigate this at some point.
proc daemonHandler(api: DaemonAPI, stream: P2PStream) {.async.} =
check "line1" == string.fromBytes(await stream.transp.readLp())
discard await stream.transp.writeLp("line2")
check "line3" == string.fromBytes(await stream.transp.readLp())
discard await stream.transp.writeLp("line4")
await closeBlocker
await stream.close()
let
maSrc = MultiAddress.init("/ip4/0.0.0.0/tcp/0").tryGet()
maRel = MultiAddress.init("/ip4/0.0.0.0/tcp/0").tryGet()
src = relayCreator(false, maSrc)
rel = relayCreator(true, maRel)
await src.start()
await rel.start()
let daemonNode = await newDaemonApi()
let daemonPeer = await daemonNode.identity()
let maStr = $rel.peerInfo.addrs[0] & "/p2p/" & $rel.peerInfo.peerId & "/p2p-circuit/p2p/" & $daemonPeer.peer
let maddr = MultiAddress.init(maStr).tryGet()
await src.connect(rel.peerInfo.peerId, rel.peerInfo.addrs)
await rel.connect(daemonPeer.peer, daemonPeer.addresses)
await daemonNode.addHandler(@[ "/testCustom" ], daemonHandler)
let conn = await src.dial(daemonPeer.peer, @[ maddr ], @[ "/testCustom" ])
await conn.writeLp("line1")
check string.fromBytes(await conn.readLp(1024)) == "line2"
await conn.writeLp("line3")
check string.fromBytes(await conn.readLp(1024)) == "line4"
closeBlocker.complete()
await allFutures(src.stop(), rel.stop())
await daemonNode.close()
asyncTest "DaemonSrc -> NativeRelay -> NativeDst":
proc customHandler(conn: Connection, proto: string) {.async.} =
check "line1" == string.fromBytes(await conn.readLp(1024))
await conn.writeLp("line2")
check "line3" == string.fromBytes(await conn.readLp(1024))
await conn.writeLp("line4")
await conn.close()
let
protos = @[ "/customProto", RelayCodec ]
var
customProto = new LPProtocol
customProto.handler = customHandler
customProto.codec = protos[0]
let
maRel = MultiAddress.init("/ip4/0.0.0.0/tcp/0").tryGet()
maDst = MultiAddress.init("/ip4/0.0.0.0/tcp/0").tryGet()
rel = relayCreator(true, maRel)
dst = relayCreator(false, maDst)
dst.mount(customProto)
await rel.start()
await dst.start()
let daemonNode = await newDaemonApi()
let daemonPeer = await daemonNode.identity()
let maStr = $rel.peerInfo.addrs[0] & "/p2p/" & $rel.peerInfo.peerId & "/p2p-circuit/p2p/" & $dst.peerInfo.peerId
let maddr = MultiAddress.init(maStr).tryGet()
await daemonNode.connect(rel.peerInfo.peerId, rel.peerInfo.addrs)
await rel.connect(dst.peerInfo.peerId, dst.peerInfo.addrs)
await daemonNode.connect(dst.peerInfo.peerId, @[ maddr ])
var stream = await daemonNode.openStream(dst.peerInfo.peerId, protos)
discard await stream.transp.writeLp("line1")
check string.fromBytes(await stream.transp.readLp()) == "line2"
discard await stream.transp.writeLp("line3")
check string.fromBytes(await stream.transp.readLp()) == "line4"
await allFutures(dst.stop(), rel.stop())
await daemonNode.close()
asyncTest "NativeSrc -> DaemonRelay -> NativeDst":
proc customHandler(conn: Connection, proto: string) {.async.} =
check "line1" == string.fromBytes(await conn.readLp(1024))
await conn.writeLp("line2")
check "line3" == string.fromBytes(await conn.readLp(1024))
await conn.writeLp("line4")
await conn.close()
let
protos = @[ "/customProto", RelayCodec ]
var
customProto = new LPProtocol
customProto.handler = customHandler
customProto.codec = protos[0]
let
maSrc = MultiAddress.init("/ip4/0.0.0.0/tcp/0").tryGet()
maDst = MultiAddress.init("/ip4/0.0.0.0/tcp/0").tryGet()
src = relayCreator(false, maSrc)
dst = relayCreator(false, maDst)
dst.mount(customProto)
await src.start()
await dst.start()
let daemonNode = await newDaemonApi({RelayHop})
let daemonPeer = await daemonNode.identity()
let maStr = $daemonPeer.addresses[0] & "/p2p/" & $daemonPeer.peer & "/p2p-circuit/p2p/" & $dst.peerInfo.peerId
let maddr = MultiAddress.init(maStr).tryGet()
await src.connect(daemonPeer.peer, daemonPeer.addresses)
await daemonNode.connect(dst.peerInfo.peerId, dst.peerInfo.addrs)
let conn = await src.dial(dst.peerInfo.peerId, @[ maddr ], protos[0])
await conn.writeLp("line1")
check string.fromBytes(await conn.readLp(1024)) == "line2"
await conn.writeLp("line3")
check string.fromBytes(await conn.readLp(1024)) == "line4"
await allFutures(src.stop(), dst.stop())
await daemonNode.close()

View File

@ -87,6 +87,22 @@ proc new*(T: typedesc[TestBufferStream], writeHandler: WriteHandler): T =
testBufferStream.initStream()
testBufferStream
proc bridgedConnections*: (Connection, Connection) =
let
connA = TestBufferStream()
connB = TestBufferStream()
connA.dir = Direction.Out
connB.dir = Direction.In
connA.initStream()
connB.initStream()
connA.writeHandler = proc(data: seq[byte]) {.async.} =
await connB.pushData(data)
connB.writeHandler = proc(data: seq[byte]) {.async.} =
await connA.pushData(data)
return (connA, connB)
proc checkExpiringInternal(cond: proc(): bool {.raises: [Defect].} ): Future[bool] {.async, gcsafe.} =
{.gcsafe.}:
let start = Moment.now()

View File

@ -1,624 +1,55 @@
import options, tables, stublogger
import chronos, chronicles, stew/byteutils
import helpers
import helpers, commoninterop
import ../libp2p
import ../libp2p/[daemon/daemonapi, varint, transports/wstransport, crypto/crypto, protocols/relay ]
type
DaemonPeerInfo = daemonapi.PeerInfo
proc writeLp*(s: StreamTransport, msg: string | seq[byte]): Future[int] {.gcsafe.} =
## write lenght prefixed
var buf = initVBuffer()
buf.writeSeq(msg)
buf.finish()
result = s.write(buf.buffer)
proc readLp*(s: StreamTransport): Future[seq[byte]] {.async, gcsafe.} =
## read length prefixed msg
var
size: uint
length: int
res: VarintResult[void]
result = newSeq[byte](10)
for i in 0..<len(result):
await s.readExactly(addr result[i], 1)
res = LP.getUVarint(result.toOpenArray(0, i), length, size)
if res.isOk():
break
res.expect("Valid varint")
result.setLen(size)
if size > 0.uint:
await s.readExactly(addr result[0], int(size))
proc testPubSubDaemonPublish(gossip: bool = false, count: int = 1) {.async.} =
var pubsubData = "TEST MESSAGE"
var testTopic = "test-topic"
var msgData = pubsubData.toBytes()
var flags = {PSFloodSub}
if gossip:
flags = {PSGossipSub}
let daemonNode = await newDaemonApi(flags)
let daemonPeer = await daemonNode.identity()
let nativeNode = newStandardSwitch(outTimeout = 5.minutes)
let pubsub = if gossip:
GossipSub.init(
switch = nativeNode).PubSub
else:
FloodSub.init(
switch = nativeNode).PubSub
nativeNode.mount(pubsub)
await nativeNode.start()
let nativePeer = nativeNode.peerInfo
var finished = false
var times = 0
proc nativeHandler(topic: string, data: seq[byte]) {.async.} =
let smsg = string.fromBytes(data)
check smsg == pubsubData
times.inc()
if times >= count and not finished:
finished = true
await nativeNode.connect(daemonPeer.peer, daemonPeer.addresses)
await sleepAsync(1.seconds)
await daemonNode.connect(nativePeer.peerId, nativePeer.addrs)
proc pubsubHandler(api: DaemonAPI,
ticket: PubsubTicket,
message: PubSubMessage): Future[bool] {.async.} =
result = true # don't cancel subscription
asyncDiscard daemonNode.pubsubSubscribe(testTopic, pubsubHandler)
pubsub.subscribe(testTopic, nativeHandler)
await sleepAsync(5.seconds)
proc publisher() {.async.} =
while not finished:
await daemonNode.pubsubPublish(testTopic, msgData)
await sleepAsync(500.millis)
await wait(publisher(), 5.minutes) # should be plenty of time
await nativeNode.stop()
await daemonNode.close()
proc testPubSubNodePublish(gossip: bool = false, count: int = 1) {.async.} =
var pubsubData = "TEST MESSAGE"
var testTopic = "test-topic"
var msgData = pubsubData.toBytes()
var flags = {PSFloodSub}
if gossip:
flags = {PSGossipSub}
let daemonNode = await newDaemonApi(flags)
let daemonPeer = await daemonNode.identity()
let nativeNode = newStandardSwitch(outTimeout = 5.minutes)
let pubsub = if gossip:
GossipSub.init(
switch = nativeNode).PubSub
else:
FloodSub.init(
switch = nativeNode).PubSub
nativeNode.mount(pubsub)
await nativeNode.start()
let nativePeer = nativeNode.peerInfo
await nativeNode.connect(daemonPeer.peer, daemonPeer.addresses)
await sleepAsync(1.seconds)
await daemonNode.connect(nativePeer.peerId, nativePeer.addrs)
var times = 0
var finished = false
proc pubsubHandler(api: DaemonAPI,
ticket: PubsubTicket,
message: PubSubMessage): Future[bool] {.async.} =
let smsg = string.fromBytes(message.data)
check smsg == pubsubData
times.inc()
if times >= count and not finished:
finished = true
result = true # don't cancel subscription
discard await daemonNode.pubsubSubscribe(testTopic, pubsubHandler)
proc nativeHandler(topic: string, data: seq[byte]) {.async.} = discard
pubsub.subscribe(testTopic, nativeHandler)
await sleepAsync(5.seconds)
proc publisher() {.async.} =
while not finished:
discard await pubsub.publish(testTopic, msgData)
await sleepAsync(500.millis)
await wait(publisher(), 5.minutes) # should be plenty of time
check finished
await nativeNode.stop()
await daemonNode.close()
suite "Interop":
# TODO: chronos transports are leaking,
# but those are tracked for both the daemon
# and libp2p, so not sure which one it is,
# need to investigate more
# teardown:
# checkTrackers()
# TODO: this test is failing sometimes on windows
# For some reason we receive EOF before test 4 sometimes
asyncTest "native -> daemon multiple reads and writes":
var protos = @["/test-stream"]
let nativeNode = newStandardSwitch(
secureManagers = [SecureProtocol.Noise],
outTimeout = 5.minutes)
await nativeNode.start()
let daemonNode = await newDaemonApi()
let daemonPeer = await daemonNode.identity()
var testFuture = newFuture[void]("test.future")
proc daemonHandler(api: DaemonAPI, stream: P2PStream) {.async.} =
check string.fromBytes(await stream.transp.readLp()) == "test 1"
discard await stream.transp.writeLp("test 2")
check string.fromBytes(await stream.transp.readLp()) == "test 3"
discard await stream.transp.writeLp("test 4")
testFuture.complete()
await daemonNode.addHandler(protos, daemonHandler)
let conn = await nativeNode.dial(daemonPeer.peer, daemonPeer.addresses, protos[0])
await conn.writeLp("test 1")
check "test 2" == string.fromBytes((await conn.readLp(1024)))
await conn.writeLp("test 3")
check "test 4" == string.fromBytes((await conn.readLp(1024)))
await wait(testFuture, 10.secs)
await nativeNode.stop()
await daemonNode.close()
await sleepAsync(1.seconds)
asyncTest "native -> daemon connection":
var protos = @["/test-stream"]
var test = "TEST STRING"
# We are preparing expect string, which should be prefixed with varint
# length and do not have `\r\n` suffix, because we going to use
# readLine().
var buffer = initVBuffer()
buffer.writeSeq(test & "\r\n")
buffer.finish()
var expect = newString(len(buffer) - 2)
copyMem(addr expect[0], addr buffer.buffer[0], len(expect))
let nativeNode = newStandardSwitch(
secureManagers = [SecureProtocol.Noise],
outTimeout = 5.minutes)
await nativeNode.start()
let daemonNode = await newDaemonApi()
let daemonPeer = await daemonNode.identity()
var testFuture = newFuture[string]("test.future")
proc daemonHandler(api: DaemonAPI, stream: P2PStream) {.async.} =
# We should perform `readLp()` instead of `readLine()`. `readLine()`
# here reads actually length prefixed string.
var line = await stream.transp.readLine()
check line == expect
testFuture.complete(line)
await stream.close()
await daemonNode.addHandler(protos, daemonHandler)
let conn = await nativeNode.dial(daemonPeer.peer, daemonPeer.addresses, protos[0])
await conn.writeLp(test & "\r\n")
check expect == (await wait(testFuture, 10.secs))
await conn.close()
await nativeNode.stop()
await daemonNode.close()
asyncTest "daemon -> native connection":
var protos = @["/test-stream"]
var test = "TEST STRING"
var testFuture = newFuture[string]("test.future")
proc nativeHandler(conn: Connection, proto: string) {.async.} =
var line = string.fromBytes(await conn.readLp(1024))
check line == test
testFuture.complete(line)
await conn.close()
# custom proto
var proto = new LPProtocol
proto.handler = nativeHandler
proto.codec = protos[0] # codec
let nativeNode = newStandardSwitch(
secureManagers = [SecureProtocol.Noise], outTimeout = 5.minutes)
nativeNode.mount(proto)
await nativeNode.start()
let nativePeer = nativeNode.peerInfo
let daemonNode = await newDaemonApi()
await daemonNode.connect(nativePeer.peerId, nativePeer.addrs)
var stream = await daemonNode.openStream(nativePeer.peerId, protos)
discard await stream.transp.writeLp(test)
check test == (await wait(testFuture, 10.secs))
await stream.close()
await nativeNode.stop()
await daemonNode.close()
await sleepAsync(1.seconds)
asyncTest "native -> daemon websocket connection":
var protos = @["/test-stream"]
var test = "TEST STRING"
var testFuture = newFuture[string]("test.future")
proc nativeHandler(conn: Connection, proto: string) {.async.} =
var line = string.fromBytes(await conn.readLp(1024))
check line == test
testFuture.complete(line)
await conn.close()
# custom proto
var proto = new LPProtocol
proto.handler = nativeHandler
proto.codec = protos[0] # codec
let wsAddress = MultiAddress.init("/ip4/127.0.0.1/tcp/0/ws").tryGet()
let nativeNode = SwitchBuilder
.new()
.withAddress(wsAddress)
.withRng(crypto.newRng())
.withMplex()
.withTransport(proc (upgr: Upgrade): Transport = WsTransport.new(upgr))
.withNoise()
.build()
nativeNode.mount(proto)
await nativeNode.start()
let nativePeer = nativeNode.peerInfo
let daemonNode = await newDaemonApi(hostAddresses = @[wsAddress])
await daemonNode.connect(nativePeer.peerId, nativePeer.addrs)
var stream = await daemonNode.openStream(nativePeer.peerId, protos)
discard await stream.transp.writeLp(test)
check test == (await wait(testFuture, 10.secs))
await stream.close()
await nativeNode.stop()
await daemonNode.close()
await sleepAsync(1.seconds)
asyncTest "daemon -> native websocket connection":
var protos = @["/test-stream"]
var test = "TEST STRING"
# We are preparing expect string, which should be prefixed with varint
# length and do not have `\r\n` suffix, because we going to use
# readLine().
var buffer = initVBuffer()
buffer.writeSeq(test & "\r\n")
buffer.finish()
var expect = newString(len(buffer) - 2)
copyMem(addr expect[0], addr buffer.buffer[0], len(expect))
let wsAddress = MultiAddress.init("/ip4/127.0.0.1/tcp/0/ws").tryGet()
let nativeNode = SwitchBuilder
.new()
.withAddress(wsAddress)
.withRng(crypto.newRng())
.withMplex()
.withTransport(proc (upgr: Upgrade): Transport = WsTransport.new(upgr))
.withNoise()
.build()
await nativeNode.start()
let daemonNode = await newDaemonApi(hostAddresses = @[wsAddress])
let daemonPeer = await daemonNode.identity()
var testFuture = newFuture[string]("test.future")
proc daemonHandler(api: DaemonAPI, stream: P2PStream) {.async.} =
# We should perform `readLp()` instead of `readLine()`. `readLine()`
# here reads actually length prefixed string.
var line = await stream.transp.readLine()
check line == expect
testFuture.complete(line)
await stream.close()
await daemonNode.addHandler(protos, daemonHandler)
let conn = await nativeNode.dial(daemonPeer.peer, daemonPeer.addresses, protos[0])
await conn.writeLp(test & "\r\n")
check expect == (await wait(testFuture, 10.secs))
await conn.close()
await nativeNode.stop()
await daemonNode.close()
asyncTest "daemon -> multiple reads and writes":
var protos = @["/test-stream"]
var testFuture = newFuture[void]("test.future")
proc nativeHandler(conn: Connection, proto: string) {.async.} =
check "test 1" == string.fromBytes(await conn.readLp(1024))
await conn.writeLp("test 2".toBytes())
check "test 3" == string.fromBytes(await conn.readLp(1024))
await conn.writeLp("test 4".toBytes())
testFuture.complete()
await conn.close()
# custom proto
var proto = new LPProtocol
proto.handler = nativeHandler
proto.codec = protos[0] # codec
let nativeNode = newStandardSwitch(
secureManagers = [SecureProtocol.Noise], outTimeout = 5.minutes)
nativeNode.mount(proto)
await nativeNode.start()
let nativePeer = nativeNode.peerInfo
let daemonNode = await newDaemonApi()
await daemonNode.connect(nativePeer.peerId, nativePeer.addrs)
var stream = await daemonNode.openStream(nativePeer.peerId, protos)
asyncDiscard stream.transp.writeLp("test 1")
check "test 2" == string.fromBytes(await stream.transp.readLp())
asyncDiscard stream.transp.writeLp("test 3")
check "test 4" == string.fromBytes(await stream.transp.readLp())
await wait(testFuture, 10.secs)
await stream.close()
await nativeNode.stop()
await daemonNode.close()
asyncTest "read write multiple":
var protos = @["/test-stream"]
var test = "TEST STRING"
var count = 0
var testFuture = newFuture[int]("test.future")
proc nativeHandler(conn: Connection, proto: string) {.async.} =
while count < 10:
var line = string.fromBytes(await conn.readLp(1024))
check line == test
await conn.writeLp(test.toBytes())
count.inc()
testFuture.complete(count)
await conn.close()
# custom proto
var proto = new LPProtocol
proto.handler = nativeHandler
proto.codec = protos[0] # codec
let nativeNode = newStandardSwitch(
secureManagers = [SecureProtocol.Noise], outTimeout = 5.minutes)
nativeNode.mount(proto)
await nativeNode.start()
let nativePeer = nativeNode.peerInfo
let daemonNode = await newDaemonApi()
await daemonNode.connect(nativePeer.peerId, nativePeer.addrs)
var stream = await daemonNode.openStream(nativePeer.peerId, protos)
var count2 = 0
while count2 < 10:
discard await stream.transp.writeLp(test)
let line = await stream.transp.readLp()
check test == string.fromBytes(line)
inc(count2)
check 10 == (await wait(testFuture, 1.minutes))
await stream.close()
await nativeNode.stop()
await daemonNode.close()
asyncTest "floodsub: daemon publish one":
await testPubSubDaemonPublish()
asyncTest "floodsub: daemon publish many":
await testPubSubDaemonPublish(count = 10)
asyncTest "gossipsub: daemon publish one":
await testPubSubDaemonPublish(gossip = true)
asyncTest "gossipsub: daemon publish many":
await testPubSubDaemonPublish(gossip = true, count = 10)
asyncTest "floodsub: node publish one":
await testPubSubNodePublish()
asyncTest "floodsub: node publish many":
await testPubSubNodePublish(count = 10)
asyncTest "gossipsub: node publish one":
await testPubSubNodePublish(gossip = true)
asyncTest "gossipsub: node publish many":
await testPubSubNodePublish(gossip = true, count = 10)
asyncTest "NativeSrc -> NativeRelay -> DaemonDst":
proc daemonHandler(api: DaemonAPI, stream: P2PStream) {.async.} =
check "line1" == string.fromBytes(await stream.transp.readLp())
discard await stream.transp.writeLp("line2")
check "line3" == string.fromBytes(await stream.transp.readLp())
discard await stream.transp.writeLp("line4")
await stream.close()
let
maSrc = MultiAddress.init("/ip4/0.0.0.0/tcp/0").tryGet()
maRel = MultiAddress.init("/ip4/0.0.0.0/tcp/0").tryGet()
src = SwitchBuilder.new()
.withRng(crypto.newRng())
.withAddresses(@[ maSrc ])
.withTcpTransport()
.withMplex()
.withNoise()
.withRelayTransport(false)
.build()
rel = SwitchBuilder.new()
.withRng(crypto.newRng())
.withAddresses(@[ maRel ])
.withTcpTransport()
.withMplex()
.withNoise()
.withRelayTransport(true)
.build()
await src.start()
await rel.start()
let daemonNode = await newDaemonApi()
let daemonPeer = await daemonNode.identity()
let maStr = $rel.peerInfo.addrs[0] & "/p2p/" & $rel.peerInfo.peerId & "/p2p-circuit/p2p/" & $daemonPeer.peer
let maddr = MultiAddress.init(maStr).tryGet()
await src.connect(rel.peerInfo.peerId, rel.peerInfo.addrs)
await rel.connect(daemonPeer.peer, daemonPeer.addresses)
await daemonNode.addHandler(@[ "/testCustom" ], daemonHandler)
let conn = await src.dial(daemonPeer.peer, @[ maddr ], @[ "/testCustom" ])
await conn.writeLp("line1")
check string.fromBytes(await conn.readLp(1024)) == "line2"
await conn.writeLp("line3")
check string.fromBytes(await conn.readLp(1024)) == "line4"
await allFutures(src.stop(), rel.stop())
await daemonNode.close()
asyncTest "DaemonSrc -> NativeRelay -> NativeDst":
proc customHandler(conn: Connection, proto: string) {.async.} =
check "line1" == string.fromBytes(await conn.readLp(1024))
await conn.writeLp("line2")
check "line3" == string.fromBytes(await conn.readLp(1024))
await conn.writeLp("line4")
await conn.close()
let
protos = @[ "/customProto", RelayCodec ]
var
customProto = new LPProtocol
customProto.handler = customHandler
customProto.codec = protos[0]
let
maRel = MultiAddress.init("/ip4/0.0.0.0/tcp/0").tryGet()
maDst = MultiAddress.init("/ip4/0.0.0.0/tcp/0").tryGet()
rel = SwitchBuilder.new()
.withRng(crypto.newRng())
.withAddresses(@[ maRel ])
.withTcpTransport()
.withMplex()
.withNoise()
.withRelayTransport(true)
.build()
dst = SwitchBuilder.new()
.withRng(crypto.newRng())
.withAddresses(@[ maDst ])
.withTcpTransport()
.withMplex()
.withNoise()
.withRelayTransport(false)
.build()
dst.mount(customProto)
await rel.start()
await dst.start()
let daemonNode = await newDaemonApi()
let daemonPeer = await daemonNode.identity()
let maStr = $rel.peerInfo.addrs[0] & "/p2p/" & $rel.peerInfo.peerId & "/p2p-circuit/p2p/" & $dst.peerInfo.peerId
let maddr = MultiAddress.init(maStr).tryGet()
await daemonNode.connect(rel.peerInfo.peerId, rel.peerInfo.addrs)
await rel.connect(dst.peerInfo.peerId, dst.peerInfo.addrs)
await daemonNode.connect(dst.peerInfo.peerId, @[ maddr ])
var stream = await daemonNode.openStream(dst.peerInfo.peerId, protos)
discard await stream.transp.writeLp("line1")
check string.fromBytes(await stream.transp.readLp()) == "line2"
discard await stream.transp.writeLp("line3")
check string.fromBytes(await stream.transp.readLp()) == "line4"
await allFutures(dst.stop(), rel.stop())
await daemonNode.close()
asyncTest "NativeSrc -> DaemonRelay -> NativeDst":
proc customHandler(conn: Connection, proto: string) {.async.} =
check "line1" == string.fromBytes(await conn.readLp(1024))
await conn.writeLp("line2")
check "line3" == string.fromBytes(await conn.readLp(1024))
await conn.writeLp("line4")
await conn.close()
let
protos = @[ "/customProto", RelayCodec ]
var
customProto = new LPProtocol
customProto.handler = customHandler
customProto.codec = protos[0]
let
maSrc = MultiAddress.init("/ip4/0.0.0.0/tcp/0").tryGet()
maDst = MultiAddress.init("/ip4/0.0.0.0/tcp/0").tryGet()
src = SwitchBuilder.new()
.withRng(crypto.newRng())
.withAddresses(@[ maSrc ])
.withTcpTransport()
.withMplex()
.withNoise()
.withRelayTransport(false)
.build()
dst = SwitchBuilder.new()
.withRng(crypto.newRng())
.withAddresses(@[ maDst ])
.withTcpTransport()
.withMplex()
.withNoise()
.withRelayTransport(false)
.build()
dst.mount(customProto)
await src.start()
await dst.start()
let daemonNode = await newDaemonApi({RelayHop})
let daemonPeer = await daemonNode.identity()
let maStr = $daemonPeer.addresses[0] & "/p2p/" & $daemonPeer.peer & "/p2p-circuit/p2p/" & $dst.peerInfo.peerId
let maddr = MultiAddress.init(maStr).tryGet()
await src.connect(daemonPeer.peer, daemonPeer.addresses)
await daemonNode.connect(dst.peerInfo.peerId, dst.peerInfo.addrs)
let conn = await src.dial(dst.peerInfo.peerId, @[ maddr ], protos[0])
await conn.writeLp("line1")
check string.fromBytes(await conn.readLp(1024)) == "line2"
await conn.writeLp("line3")
check string.fromBytes(await conn.readLp(1024)) == "line4"
await allFutures(src.stop(), dst.stop())
await daemonNode.close()
import ../libp2p/crypto/crypto
proc switchMplexCreator(
isRelay: bool = false,
ma: MultiAddress = MultiAddress.init("/ip4/127.0.0.1/tcp/0").tryGet(),
prov: TransportProvider = proc(upgr: Upgrade): Transport = TcpTransport.new({}, upgr)):
Switch {.raises: [Defect, LPError].} =
SwitchBuilder.new()
.withSignedPeerRecord(false)
.withMaxConnections(MaxConnections)
.withRng(crypto.newRng())
.withAddresses(@[ ma ])
.withMaxIn(-1)
.withMaxOut(-1)
.withTransport(prov)
.withMplex()
.withMaxConnsPerPeer(MaxConnectionsPerPeer)
.withPeerStore(capacity=1000)
.withNoise()
.withRelayTransport(isRelay)
.withNameResolver(nil)
.build()
proc switchYamuxCreator(
isRelay: bool = false,
ma: MultiAddress = MultiAddress.init("/ip4/127.0.0.1/tcp/0").tryGet(),
prov: TransportProvider = proc(upgr: Upgrade): Transport = TcpTransport.new({}, upgr)):
Switch {.raises: [Defect, LPError].} =
SwitchBuilder.new()
.withSignedPeerRecord(false)
.withMaxConnections(MaxConnections)
.withRng(crypto.newRng())
.withAddresses(@[ ma ])
.withMaxIn(-1)
.withMaxOut(-1)
.withTransport(prov)
.withYamux()
.withMaxConnsPerPeer(MaxConnectionsPerPeer)
.withPeerStore(capacity=1000)
.withNoise()
.withRelayTransport(isRelay)
.withNameResolver(nil)
.build()
suite "Tests interop":
commonInteropTests("mplex", switchMplexCreator)
relayInteropTests("mplex", switchMplexCreator)
commonInteropTests("yamux", switchYamuxCreator)
relayInteropTests("yamux", switchYamuxCreator)

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import sugar
import chronos
import
../libp2p/[
stream/connection,
muxers/yamux/yamux
],
./helpers
suite "Yamux":
teardown:
checkTrackers()
template mSetup {.inject.} =
#TODO in a template to avoid threadvar
let
(conna {.inject.}, connb {.inject.}) = bridgedConnections()
(yamuxa {.inject.}, yamuxb {.inject.}) = (Yamux.new(conna), Yamux.new(connb))
(handlera, handlerb) = (yamuxa.handle(), yamuxb.handle())
defer:
await allFutures(
conna.close(), connb.close(),
yamuxa.close(), yamuxb.close(),
handlera, handlerb)
suite "Basic":
asyncTest "Simple test":
mSetup()
yamuxb.streamHandler = proc(conn: Connection) {.async.} =
check (await conn.readLp(100)) == fromHex("1234")
await conn.writeLp(fromHex("5678"))
await conn.close()
let streamA = await yamuxa.newStream()
await streamA.writeLp(fromHex("1234"))
check (await streamA.readLp(100)) == fromHex("5678")
await streamA.close()
asyncTest "Continuing read after close":
mSetup()
let
readerBlocker = newFuture[void]()
handlerBlocker = newFuture[void]()
var numberOfRead = 0
yamuxb.streamHandler = proc(conn: Connection) {.async.} =
await readerBlocker
var buffer: array[25600, byte]
while (await conn.readOnce(addr buffer[0], 25600)) > 0:
numberOfRead.inc()
await conn.close()
handlerBlocker.complete()
let streamA = await yamuxa.newStream()
await wait(streamA.write(newSeq[byte](256000)), 1.seconds) # shouldn't block
await streamA.close()
readerBlocker.complete()
await handlerBlocker
check: numberOfRead == 10
suite "Window exhaustion":
asyncTest "Basic exhaustion blocking":
mSetup()
let readerBlocker = newFuture[void]()
yamuxb.streamHandler = proc(conn: Connection) {.async.} =
await readerBlocker
var buffer: array[160000, byte]
discard await conn.readOnce(addr buffer[0], 160000)
await conn.close()
let streamA = await yamuxa.newStream()
await wait(streamA.write(newSeq[byte](256000)), 1.seconds) # shouldn't block
let secondWriter = streamA.write(newSeq[byte](20))
await sleepAsync(10.milliseconds)
check: not secondWriter.finished()
readerBlocker.complete()
await wait(secondWriter, 1.seconds)
await streamA.close()
asyncTest "Exhaustion doesn't block other channels":
mSetup()
let readerBlocker = newFuture[void]()
yamuxb.streamHandler = proc(conn: Connection) {.async.} =
await readerBlocker
var buffer: array[160000, byte]
discard await conn.readOnce(addr buffer[0], 160000)
await conn.close()
let streamA = await yamuxa.newStream()
await wait(streamA.write(newSeq[byte](256000)), 1.seconds) # shouldn't block
let secondWriter = streamA.write(newSeq[byte](20))
await sleepAsync(10.milliseconds)
# Now that the secondWriter is stuck, create a second stream
# and exchange some data
yamuxb.streamHandler = proc(conn: Connection) {.async.} =
check (await conn.readLp(100)) == fromHex("1234")
await conn.writeLp(fromHex("5678"))
await conn.close()
let streamB = await yamuxa.newStream()
await streamB.writeLp(fromHex("1234"))
check (await streamB.readLp(100)) == fromHex("5678")
check: not secondWriter.finished()
readerBlocker.complete()
await wait(secondWriter, 1.seconds)
await streamA.close()
await streamB.close()
asyncTest "Can set custom window size":
mSetup()
let writerBlocker = newFuture[void]()
var numberOfRead = 0
yamuxb.streamHandler = proc(conn: Connection) {.async.} =
YamuxChannel(conn).setMaxRecvWindow(20)
var buffer: array[256000, byte]
while (await conn.readOnce(addr buffer[0], 256000)) > 0:
numberOfRead.inc()
writerBlocker.complete()
await conn.close()
let streamA = await yamuxa.newStream()
# Need to exhaust initial window first
await wait(streamA.write(newSeq[byte](256000)), 1.seconds) # shouldn't block
await streamA.write(newSeq[byte](142))
await streamA.close()
await writerBlocker
# 1 for initial exhaustion + (142 / 20) = 9
check numberOfRead == 9
asyncTest "Saturate until reset":
mSetup()
let writerBlocker = newFuture[void]()
yamuxb.streamHandler = proc(conn: Connection) {.async.} =
await writerBlocker
var buffer: array[256, byte]
check: (await conn.readOnce(addr buffer[0], 256)) == 0
await conn.close()
let streamA = await yamuxa.newStream()
await streamA.write(newSeq[byte](256000))
let wrFut = collect(newSeq):
for _ in 0..3:
streamA.write(newSeq[byte](100000))
for i in 0..3:
expect(LPStreamEOFError): await wrFut[i]
writerBlocker.complete()
await streamA.close()