nim-chronos/tests/testdatagram.nim

562 lines
19 KiB
Nim

# Chronos Test Suite
# (c) Copyright 2018-Present
# Status Research & Development GmbH
#
# Licensed under either of
# Apache License, version 2.0, (LICENSE-APACHEv2)
# MIT license (LICENSE-MIT)
import std/[strutils, net]
import unittest2
import ../chronos
{.used.}
suite "Datagram Transport test suite":
const
TestsCount = 2000
ClientsCount = 20
MessagesCount = 20
m1 = "sendTo(pointer) test (" & $TestsCount & " messages)"
m2 = "send(pointer) test (" & $TestsCount & " messages)"
m3 = "sendTo(string) test (" & $TestsCount & " messages)"
m4 = "send(string) test (" & $TestsCount & " messages)"
m5 = "sendTo(seq[byte]) test (" & $TestsCount & " messages)"
m6 = "send(seq[byte]) test (" & $TestsCount & " messages)"
m7 = "Unbounded multiple clients with messages (" & $ClientsCount &
" clients x " & $MessagesCount & " messages)"
m8 = "Bounded multiple clients with messages (" & $ClientsCount &
" clients x " & $MessagesCount & " messages)"
proc client1(transp: DatagramTransport,
raddr: TransportAddress): Future[void] {.async.} =
var pbytes = transp.getMessage()
var nbytes = len(pbytes)
if nbytes > 0:
var data = newString(nbytes + 1)
copyMem(addr data[0], addr pbytes[0], nbytes)
data.setLen(nbytes)
if data.startsWith("REQUEST"):
var numstr = data[7..^1]
var num = parseInt(numstr)
var ans = "ANSWER" & $num
await transp.sendTo(raddr, addr ans[0], len(ans))
else:
var err = "ERROR"
await transp.sendTo(raddr, addr err[0], len(err))
else:
var counterPtr = cast[ptr int](transp.udata)
counterPtr[] = -1
transp.close()
proc client2(transp: DatagramTransport,
raddr: TransportAddress): Future[void] {.async.} =
var pbytes = transp.getMessage()
var nbytes = len(pbytes)
if nbytes > 0:
var data = newString(nbytes + 1)
copyMem(addr data[0], addr pbytes[0], nbytes)
data.setLen(nbytes)
if data.startsWith("ANSWER"):
var counterPtr = cast[ptr int](transp.udata)
counterPtr[] = counterPtr[] + 1
if counterPtr[] == TestsCount:
transp.close()
else:
var ta = initTAddress("127.0.0.1:33336")
var req = "REQUEST" & $counterPtr[]
await transp.sendTo(ta, addr req[0], len(req))
else:
var counterPtr = cast[ptr int](transp.udata)
counterPtr[] = -1
transp.close()
else:
## Read operation failed with error
var counterPtr = cast[ptr int](transp.udata)
counterPtr[] = -1
transp.close()
proc client3(transp: DatagramTransport,
raddr: TransportAddress): Future[void] {.async.} =
var pbytes = transp.getMessage()
var nbytes = len(pbytes)
if nbytes > 0:
var data = newString(nbytes + 1)
copyMem(addr data[0], addr pbytes[0], nbytes)
data.setLen(nbytes)
if data.startsWith("ANSWER"):
var counterPtr = cast[ptr int](transp.udata)
counterPtr[] = counterPtr[] + 1
if counterPtr[] == TestsCount:
transp.close()
else:
var req = "REQUEST" & $counterPtr[]
await transp.send(addr req[0], len(req))
else:
var counterPtr = cast[ptr int](transp.udata)
counterPtr[] = -1
transp.close()
else:
## Read operation failed with error
var counterPtr = cast[ptr int](transp.udata)
counterPtr[] = -1
transp.close()
proc client4(transp: DatagramTransport,
raddr: TransportAddress): Future[void] {.async.} =
var pbytes = transp.getMessage()
var nbytes = len(pbytes)
if nbytes > 0:
var data = newString(nbytes + 1)
copyMem(addr data[0], addr pbytes[0], nbytes)
data.setLen(nbytes)
if data.startsWith("ANSWER"):
var counterPtr = cast[ptr int](transp.udata)
counterPtr[] = counterPtr[] + 1
if counterPtr[] == MessagesCount:
transp.close()
else:
var req = "REQUEST" & $counterPtr[]
await transp.send(addr req[0], len(req))
else:
var counterPtr = cast[ptr int](transp.udata)
counterPtr[] = -1
transp.close()
else:
## Read operation failed with error
var counterPtr = cast[ptr int](transp.udata)
counterPtr[] = -1
transp.close()
proc client5(transp: DatagramTransport,
raddr: TransportAddress): Future[void] {.async.} =
var pbytes = transp.getMessage()
var nbytes = len(pbytes)
if nbytes > 0:
var data = newString(nbytes + 1)
copyMem(addr data[0], addr pbytes[0], nbytes)
data.setLen(nbytes)
if data.startsWith("ANSWER"):
var counterPtr = cast[ptr int](transp.udata)
counterPtr[] = counterPtr[] + 1
if counterPtr[] == MessagesCount:
transp.close()
else:
var req = "REQUEST" & $counterPtr[]
await transp.sendTo(raddr, addr req[0], len(req))
else:
var counterPtr = cast[ptr int](transp.udata)
counterPtr[] = -1
transp.close()
else:
## Read operation failed with error
var counterPtr = cast[ptr int](transp.udata)
counterPtr[] = -1
transp.close()
proc client6(transp: DatagramTransport,
raddr: TransportAddress): Future[void] {.async.} =
var pbytes = transp.getMessage()
var nbytes = len(pbytes)
if nbytes > 0:
var data = newString(nbytes + 1)
copyMem(addr data[0], addr pbytes[0], nbytes)
data.setLen(nbytes)
if data.startsWith("REQUEST"):
var numstr = data[7..^1]
var num = parseInt(numstr)
var ans = "ANSWER" & $num
await transp.sendTo(raddr, ans)
else:
var err = "ERROR"
await transp.sendTo(raddr, err)
else:
## Read operation failed with error
var counterPtr = cast[ptr int](transp.udata)
counterPtr[] = -1
transp.close()
proc client7(transp: DatagramTransport,
raddr: TransportAddress): Future[void] {.async.} =
var pbytes = transp.getMessage()
var nbytes = len(pbytes)
if nbytes > 0:
var data = newString(nbytes + 1)
copyMem(addr data[0], addr pbytes[0], nbytes)
data.setLen(nbytes)
if data.startsWith("ANSWER"):
var counterPtr = cast[ptr int](transp.udata)
counterPtr[] = counterPtr[] + 1
if counterPtr[] == TestsCount:
transp.close()
else:
var req = "REQUEST" & $counterPtr[]
await transp.sendTo(raddr, req)
else:
var counterPtr = cast[ptr int](transp.udata)
counterPtr[] = -1
transp.close()
else:
## Read operation failed with error
var counterPtr = cast[ptr int](transp.udata)
counterPtr[] = -1
transp.close()
proc client8(transp: DatagramTransport,
raddr: TransportAddress): Future[void] {.async.} =
var pbytes = transp.getMessage()
var nbytes = len(pbytes)
if nbytes > 0:
var data = newString(nbytes + 1)
copyMem(addr data[0], addr pbytes[0], nbytes)
data.setLen(nbytes)
if data.startsWith("ANSWER"):
var counterPtr = cast[ptr int](transp.udata)
counterPtr[] = counterPtr[] + 1
if counterPtr[] == TestsCount:
transp.close()
else:
var req = "REQUEST" & $counterPtr[]
await transp.send(req)
else:
var counterPtr = cast[ptr int](transp.udata)
counterPtr[] = -1
transp.close()
else:
## Read operation failed with error
var counterPtr = cast[ptr int](transp.udata)
counterPtr[] = -1
transp.close()
proc client9(transp: DatagramTransport,
raddr: TransportAddress): Future[void] {.async.} =
var pbytes = transp.getMessage()
var nbytes = len(pbytes)
if nbytes > 0:
var data = newString(nbytes + 1)
copyMem(addr data[0], addr pbytes[0], nbytes)
data.setLen(nbytes)
if data.startsWith("REQUEST"):
var numstr = data[7..^1]
var num = parseInt(numstr)
var ans = "ANSWER" & $num
var ansseq = newSeq[byte](len(ans))
copyMem(addr ansseq[0], addr ans[0], len(ans))
await transp.sendTo(raddr, ansseq)
else:
var err = "ERROR"
var errseq = newSeq[byte](len(err))
copyMem(addr errseq[0], addr err[0], len(err))
await transp.sendTo(raddr, errseq)
else:
## Read operation failed with error
var counterPtr = cast[ptr int](transp.udata)
counterPtr[] = -1
transp.close()
proc client10(transp: DatagramTransport,
raddr: TransportAddress): Future[void] {.async.} =
var pbytes = transp.getMessage()
var nbytes = len(pbytes)
if nbytes > 0:
var data = newString(nbytes + 1)
copyMem(addr data[0], addr pbytes[0], nbytes)
data.setLen(nbytes)
if data.startsWith("ANSWER"):
var counterPtr = cast[ptr int](transp.udata)
counterPtr[] = counterPtr[] + 1
if counterPtr[] == TestsCount:
transp.close()
else:
var req = "REQUEST" & $counterPtr[]
var reqseq = newSeq[byte](len(req))
copyMem(addr reqseq[0], addr req[0], len(req))
await transp.sendTo(raddr, reqseq)
else:
var counterPtr = cast[ptr int](transp.udata)
counterPtr[] = -1
transp.close()
else:
## Read operation failed with error
var counterPtr = cast[ptr int](transp.udata)
counterPtr[] = -1
transp.close()
proc client11(transp: DatagramTransport,
raddr: TransportAddress): Future[void] {.async.} =
var pbytes = transp.getMessage()
var nbytes = len(pbytes)
if nbytes > 0:
var data = newString(nbytes + 1)
copyMem(addr data[0], addr pbytes[0], nbytes)
data.setLen(nbytes)
if data.startsWith("ANSWER"):
var counterPtr = cast[ptr int](transp.udata)
counterPtr[] = counterPtr[] + 1
if counterPtr[] == TestsCount:
transp.close()
else:
var req = "REQUEST" & $counterPtr[]
var reqseq = newSeq[byte](len(req))
copyMem(addr reqseq[0], addr req[0], len(req))
await transp.send(reqseq)
else:
var counterPtr = cast[ptr int](transp.udata)
counterPtr[] = -1
transp.close()
else:
## Read operation failed with error
var counterPtr = cast[ptr int](transp.udata)
counterPtr[] = -1
transp.close()
proc testPointerSendTo(): Future[int] {.async.} =
## sendTo(pointer) test
var ta = initTAddress("127.0.0.1:33336")
var counter = 0
var dgram1 = newDatagramTransport(client1, udata = addr counter, local = ta)
var dgram2 = newDatagramTransport(client2, udata = addr counter)
var data = "REQUEST0"
await dgram2.sendTo(ta, addr data[0], len(data))
await dgram2.join()
dgram1.close()
await dgram1.join()
result = counter
proc testPointerSend(): Future[int] {.async.} =
## send(pointer) test
var ta = initTAddress("127.0.0.1:33337")
var counter = 0
var dgram1 = newDatagramTransport(client1, udata = addr counter, local = ta)
var dgram2 = newDatagramTransport(client3, udata = addr counter, remote = ta)
var data = "REQUEST0"
await dgram2.send(addr data[0], len(data))
await dgram2.join()
dgram1.close()
await dgram1.join()
result = counter
proc testStringSendTo(): Future[int] {.async.} =
## sendTo(string) test
var ta = initTAddress("127.0.0.1:33338")
var counter = 0
var dgram1 = newDatagramTransport(client6, udata = addr counter, local = ta)
var dgram2 = newDatagramTransport(client7, udata = addr counter)
var data = "REQUEST0"
await dgram2.sendTo(ta, data)
await dgram2.join()
dgram1.close()
await dgram1.join()
result = counter
proc testStringSend(): Future[int] {.async.} =
## send(string) test
var ta = initTAddress("127.0.0.1:33339")
var counter = 0
var dgram1 = newDatagramTransport(client6, udata = addr counter, local = ta)
var dgram2 = newDatagramTransport(client8, udata = addr counter, remote = ta)
var data = "REQUEST0"
await dgram2.send(data)
await dgram2.join()
dgram1.close()
await dgram1.join()
result = counter
proc testSeqSendTo(): Future[int] {.async.} =
## sendTo(string) test
var ta = initTAddress("127.0.0.1:33340")
var counter = 0
var dgram1 = newDatagramTransport(client9, udata = addr counter, local = ta)
var dgram2 = newDatagramTransport(client10, udata = addr counter)
var data = "REQUEST0"
var dataseq = newSeq[byte](len(data))
copyMem(addr dataseq[0], addr data[0], len(data))
await dgram2.sendTo(ta, dataseq)
await dgram2.join()
dgram1.close()
await dgram1.join()
result = counter
proc testSeqSend(): Future[int] {.async.} =
## send(seq) test
var ta = initTAddress("127.0.0.1:33341")
var counter = 0
var dgram1 = newDatagramTransport(client9, udata = addr counter, local = ta)
var dgram2 = newDatagramTransport(client11, udata = addr counter, remote = ta)
var data = "REQUEST0"
var dataseq = newSeq[byte](len(data))
copyMem(addr dataseq[0], addr data[0], len(data))
await dgram2.send(data)
await dgram2.join()
dgram1.close()
await dgram1.join()
result = counter
#
proc waitAll(futs: seq[Future[void]]): Future[void] =
var counter = len(futs)
var retFuture = newFuture[void]("waitAll")
proc cb(udata: pointer) =
dec(counter)
if counter == 0:
retFuture.complete()
for fut in futs:
fut.addCallback(cb)
return retFuture
proc test3(bounded: bool): Future[int] {.async.} =
var ta: TransportAddress
if bounded:
ta = initTAddress("127.0.0.1:33240")
else:
ta = initTAddress("127.0.0.1:33241")
var counter = 0
var dgram1 = newDatagramTransport(client1, udata = addr counter, local = ta)
var clients = newSeq[Future[void]](ClientsCount)
var grams = newSeq[DatagramTransport](ClientsCount)
var counters = newSeq[int](ClientsCount)
for i in 0..<ClientsCount:
var data = "REQUEST0"
if bounded:
grams[i] = newDatagramTransport(client4, udata = addr counters[i],
remote = ta)
await grams[i].send(addr data[0], len(data))
else:
grams[i] = newDatagramTransport(client5, udata = addr counters[i])
await grams[i].sendTo(ta, addr data[0], len(data))
clients[i] = grams[i].join()
await waitAll(clients)
dgram1.close()
await dgram1.join()
result = 0
for i in 0..<ClientsCount:
result += counters[i]
proc testConnReset(): Future[bool] {.async.} =
var ta = initTAddress("127.0.0.1:0")
var counter = 0
proc clientMark(transp: DatagramTransport,
raddr: TransportAddress): Future[void] {.async.} =
counter = 1
transp.close()
var dgram1 = newDatagramTransport(client1, local = ta)
var localta = dgram1.localAddress()
dgram1.close()
await dgram1.join()
var dgram2 = newDatagramTransport(clientMark)
var data = "MESSAGE"
asyncSpawn dgram2.sendTo(localta, data)
await sleepAsync(2000.milliseconds)
result = (counter == 0)
dgram2.close()
await dgram2.join()
proc testTransportClose(): Future[bool] {.async.} =
var ta = initTAddress("127.0.0.1:45000")
proc clientMark(transp: DatagramTransport,
raddr: TransportAddress): Future[void] {.async.} =
discard
var dgram = newDatagramTransport(clientMark, local = ta)
dgram.close()
try:
await wait(dgram.join(), 1.seconds)
result = true
except CatchableError:
discard
proc testBroadcast(): Future[int] {.async.} =
const expectMessage = "BROADCAST MESSAGE"
var ta1 = initTAddress("0.0.0.0:45010")
var bta = initTAddress("255.255.255.255:45010")
var res = 0
proc clientMark(transp: DatagramTransport,
raddr: TransportAddress): Future[void] {.async.} =
var bmsg = transp.getMessage()
var smsg = cast[string](bmsg)
if smsg == expectMessage:
inc(res)
transp.close()
var dgram1 = newDatagramTransport(clientMark, local = ta1,
flags = {Broadcast}, ttl = 2)
await dgram1.sendTo(bta, expectMessage)
await wait(dgram1.join(), 5.seconds)
result = res
proc testAnyAddress(): Future[int] {.async.} =
var expectStr = "ANYADDRESS MESSAGE"
var expectSeq = cast[seq[byte]](expectStr)
let ta = initTAddress("0.0.0.0:0")
var res = 0
var event = newAsyncEvent()
proc clientMark1(transp: DatagramTransport,
raddr: TransportAddress): Future[void] {.async.} =
var bmsg = transp.getMessage()
var smsg = cast[string](bmsg)
if smsg == expectStr:
inc(res)
event.fire()
proc clientMark2(transp: DatagramTransport,
raddr: TransportAddress): Future[void] {.async.} =
discard
var dgram1 = newDatagramTransport(clientMark1, local = ta)
let la = dgram1.localAddress()
var dgram2 = newDatagramTransport(clientMark2)
var dgram3 = newDatagramTransport(clientMark2,
remote = la)
await dgram2.sendTo(la, addr expectStr[0], len(expectStr))
await event.wait()
event.clear()
await dgram2.sendTo(la, expectStr)
await event.wait()
event.clear()
await dgram2.sendTo(la, expectSeq)
await event.wait()
event.clear()
await dgram3.send(addr expectStr[0], len(expectStr))
await event.wait()
event.clear()
await dgram3.send(expectStr)
await event.wait()
event.clear()
await dgram3.send(expectSeq)
await event.wait()
event.clear()
await dgram1.closeWait()
await dgram2.closeWait()
await dgram3.closeWait()
result = res
test "close(transport) test":
check waitFor(testTransportClose()) == true
test m1:
check waitFor(testPointerSendTo()) == TestsCount
test m2:
check waitFor(testPointerSend()) == TestsCount
test m3:
check waitFor(testStringSendTo()) == TestsCount
test m4:
check waitFor(testStringSend()) == TestsCount
test m5:
check waitFor(testSeqSendTo()) == TestsCount
test m6:
check waitFor(testSeqSend()) == TestsCount
test m7:
check waitFor(test3(false)) == ClientsCount * MessagesCount
test m8:
check waitFor(test3(true)) == ClientsCount * MessagesCount
test "Datagram connection reset test":
check waitFor(testConnReset()) == true
test "Broadcast test":
check waitFor(testBroadcast()) == 1
test "0.0.0.0/::0 (INADDR_ANY) test":
check waitFor(testAnyAddress()) == 6
test "Transports leak test":
check getTracker("datagram.transport").isLeaked() == false