{.used.} import chronos, stew/[byteutils, results] import ../libp2p/[stream/connection, transports/transport, upgrademngrs/upgrade, multiaddress, errors] import ./helpers type TransportProvider* = proc(): Transport {.gcsafe, raises: [].} template commonTransportTest*(prov: TransportProvider, ma1: string, ma2: string = "") = block: let transpProvider = prov asyncTest "can handle local address": let ma = @[MultiAddress.init(ma1).tryGet()] let transport1 = transpProvider() await transport1.start(ma) check transport1.handles(transport1.addrs[0]) await transport1.stop() asyncTest "e2e: handle observedAddr": let ma = @[MultiAddress.init(ma1).tryGet()] let transport1 = transpProvider() await transport1.start(ma) let transport2 = transpProvider() proc acceptHandler() {.async.} = let conn = await transport1.accept() if conn.observedAddr.isSome(): check transport1.handles(conn.observedAddr.get()) await conn.close() let handlerWait = acceptHandler() let conn = await transport2.dial(transport1.addrs[0]) if conn.observedAddr.isSome(): check transport2.handles(conn.observedAddr.get()) await conn.close() #for some protocols, closing requires actively reading, so we must close here await allFuturesThrowing( allFinished( transport1.stop(), transport2.stop())) await handlerWait.wait(1.seconds) # when no issues will not wait that long! asyncTest "e2e: handle write": let ma = @[MultiAddress.init(ma1).tryGet()] let transport1 = transpProvider() await transport1.start(ma) proc acceptHandler() {.async.} = let conn = await transport1.accept() await conn.write("Hello!") await conn.close() let handlerWait = acceptHandler() let transport2 = transpProvider() let conn = await transport2.dial(transport1.addrs[0]) var msg = newSeq[byte](6) await conn.readExactly(addr msg[0], 6) await conn.close() #for some protocols, closing requires actively reading, so we must close here await allFuturesThrowing( allFinished( transport1.stop(), transport2.stop())) check string.fromBytes(msg) == "Hello!" await handlerWait.wait(1.seconds) # when no issues will not wait that long! asyncTest "e2e: handle read": let ma = @[MultiAddress.init(ma1).tryGet()] let transport1 = transpProvider() await transport1.start(ma) proc acceptHandler() {.async.} = let conn = await transport1.accept() var msg = newSeq[byte](6) await conn.readExactly(addr msg[0], 6) check string.fromBytes(msg) == "Hello!" await conn.close() let handlerWait = acceptHandler() let transport2 = transpProvider() let conn = await transport2.dial(transport1.addrs[0]) await conn.write("Hello!") await conn.close() #for some protocols, closing requires actively reading, so we must close here await handlerWait.wait(1.seconds) # when no issues will not wait that long! await allFuturesThrowing( allFinished( transport1.stop(), transport2.stop())) asyncTest "e2e: handle dial cancellation": let ma = @[MultiAddress.init(ma1).tryGet()] let transport1 = transpProvider() await transport1.start(ma) let transport2 = transpProvider() let cancellation = transport2.dial(transport1.addrs[0]) await cancellation.cancelAndWait() check cancellation.cancelled await allFuturesThrowing( allFinished( transport1.stop(), transport2.stop())) asyncTest "e2e: handle accept cancellation": let ma = @[MultiAddress.init(ma1).tryGet()] let transport1 = transpProvider() await transport1.start(ma) let acceptHandler = transport1.accept() await acceptHandler.cancelAndWait() check acceptHandler.cancelled await transport1.stop() asyncTest "e2e should allow multiple local addresses": when defined(windows): # this randomly locks the Windows CI job skip() return let addrs = @[MultiAddress.init(ma1).tryGet(), MultiAddress.init(if ma2 == "": ma1 else: ma2).tryGet()] let transport1 = transpProvider() await transport1.start(addrs) proc acceptHandler() {.async.} = while true: let conn = await transport1.accept() await conn.write(newSeq[byte](0)) await conn.write("Hello!") await conn.close() let handlerWait = acceptHandler() check transport1.addrs.len == 2 check transport1.addrs[0] != transport1.addrs[1] var msg = newSeq[byte](6) proc client(ma: MultiAddress) {.async.} = let conn1 = await transport1.dial(ma) await conn1.readExactly(addr msg[0], 6) check string.fromBytes(msg) == "Hello!" await conn1.close() #Dial the same server multiple time in a row await client(transport1.addrs[0]) await client(transport1.addrs[0]) await client(transport1.addrs[0]) #Dial the same server on different addresses await client(transport1.addrs[1]) await client(transport1.addrs[0]) await client(transport1.addrs[1]) #Cancel a dial #TODO add back once chronos fixes cancellation #let # dial1 = transport1.dial(transport1.addrs[1]) # dial2 = transport1.dial(transport1.addrs[0]) #await dial1.cancelAndWait() #await dial2.cancelAndWait() await handlerWait.cancelAndWait() await transport1.stop() asyncTest "e2e: stopping transport kills connections": let ma = @[MultiAddress.init(ma1).tryGet()] let transport1 = transpProvider() await transport1.start(ma) let transport2 = transpProvider() let acceptHandler = transport1.accept() let conn = await transport2.dial(transport1.addrs[0]) let serverConn = await acceptHandler await allFuturesThrowing( allFinished( transport1.stop(), transport2.stop())) check serverConn.closed() check conn.closed() asyncTest "read or write on closed connection": let ma = @[MultiAddress.init(ma1).tryGet()] let transport1 = transpProvider() await transport1.start(ma) proc acceptHandler() {.async.} = let conn = await transport1.accept() await conn.close() let handlerWait = acceptHandler() let conn = await transport1.dial(transport1.addrs[0]) var msg = newSeq[byte](6) try: await conn.readExactly(addr msg[0], 6) check false except CatchableError as exc: check true # we don't HAVE to throw on write on EOF # (at least TCP doesn't) try: await conn.write(msg) except CatchableError as exc: check true await conn.close() #for some protocols, closing requires actively reading, so we must close here await handlerWait.wait(1.seconds) # when no issues will not wait that long! await transport1.stop()