when (NimMajor, NimMinor) < (1, 4): {.push raises: [Defect].} else: {.push raises: [].} import chronos import algorithm import ../libp2p/transports/tcptransport import ../libp2p/stream/bufferstream import ../libp2p/crypto/crypto import ../libp2p/stream/lpstream import ../libp2p/stream/chronosstream import ../libp2p/muxers/mplex/lpchannel import ../libp2p/protocols/secure/secure import ./asyncunit export asyncunit const StreamTransportTrackerName = "stream.transport" StreamServerTrackerName = "stream.server" DgramTransportTrackerName = "datagram.transport" trackerNames = [ LPStreamTrackerName, ConnectionTrackerName, LPChannelTrackerName, SecureConnTrackerName, BufferStreamTrackerName, TcpTransportTrackerName, StreamTransportTrackerName, StreamServerTrackerName, DgramTransportTrackerName, ChronosStreamTrackerName ] iterator testTrackers*(extras: openArray[string] = []): TrackerBase = for name in trackerNames: let t = getTracker(name) if not isNil(t): yield t for name in extras: let t = getTracker(name) if not isNil(t): yield t template checkTracker*(name: string) = var tracker = getTracker(name) if tracker.isLeaked(): checkpoint tracker.dump() fail() template checkTrackers*() = for tracker in testTrackers(): if tracker.isLeaked(): checkpoint tracker.dump() fail() # Also test the GC is not fooling with us when defined(nimHasWarnBareExcept): {.push warning[BareExcept]:off.} try: GC_fullCollect() except: discard when defined(nimHasWarnBareExcept): {.pop.} type RngWrap = object rng: ref HmacDrbgContext var rngVar: RngWrap proc getRng(): ref HmacDrbgContext = # TODO if `rngVar` is a threadvar like it should be, there are random and # spurious compile failures on mac - this is not gcsafe but for the # purpose of the tests, it's ok as long as we only use a single thread {.gcsafe.}: if rngVar.rng.isNil: rngVar.rng = newRng() rngVar.rng template rng*(): ref HmacDrbgContext = getRng() type WriteHandler* = proc(data: seq[byte]): Future[void] {.gcsafe, raises: [Defect].} TestBufferStream* = ref object of BufferStream writeHandler*: WriteHandler method write*(s: TestBufferStream, msg: seq[byte]): Future[void] = s.writeHandler(msg) method getWrapped*(s: TestBufferStream): Connection = nil proc new*(T: typedesc[TestBufferStream], writeHandler: WriteHandler): T = let testBufferStream = T(writeHandler: writeHandler) 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], gcsafe.} ): Future[bool] {.async, gcsafe.} = let start = Moment.now() while true: if Moment.now() > (start + chronos.seconds(5)): return false elif cond(): return true else: await sleepAsync(1.millis) template checkExpiring*(code: untyped): untyped = check await checkExpiringInternal(proc(): bool = code) proc unorderedCompare*[T](a, b: seq[T]): bool = if a == b: return true if a.len != b.len: return false var aSorted = a var bSorted = b aSorted.sort() bSorted.sort() if aSorted == bSorted: return true return false