nim-eth/tests/p2p/test_shh_connect.nim

386 lines
13 KiB
Nim

#
# Ethereum P2P
# (c) Copyright 2018
# Status Research & Development GmbH
#
# Licensed under either of
# Apache License, version 2.0, (LICENSE-APACHEv2)
# MIT license (LICENSE-MIT)
import
sequtils, options, unittest, tables, chronos, eth/[rlp, keys, p2p],
eth/p2p/rlpx_protocols/[whisper_protocol], eth/p2p/[discovery, enode]
const
useCompression = defined(useSnappy)
var nextPort = 30303
proc localAddress(port: int): Address =
let port = Port(port)
result = Address(udpPort: port, tcpPort: port, ip: parseIpAddress("127.0.0.1"))
proc startDiscoveryNode(privKey: PrivateKey, address: Address,
bootnodes: seq[ENode]): Future[DiscoveryProtocol] {.async.} =
result = newDiscoveryProtocol(privKey, address, bootnodes)
result.open()
await result.bootstrap()
proc setupBootNode(): Future[ENode] {.async.} =
let
bootNodeKey = newPrivateKey()
bootNodeAddr = localAddress(30301)
bootNode = await startDiscoveryNode(bootNodeKey, bootNodeAddr, @[])
result = initENode(bootNodeKey.getPublicKey, bootNodeAddr)
template asyncTest(name, body: untyped) =
test name:
proc scenario {.async.} = body
waitFor scenario()
proc resetMessageQueues(nodes: varargs[EthereumNode]) =
for node in nodes:
node.resetMessageQueue()
proc prepTestNode(): EthereumNode =
let keys1 = newKeyPair()
result = newEthereumNode(keys1, localAddress(nextPort), 1, nil,
addAllCapabilities = false,
useCompression = useCompression)
nextPort.inc
result.addCapability Whisper
let bootENode = waitFor setupBootNode()
var node1 = prepTestNode()
var node2 = prepTestNode()
# node2 listening and node1 not, to avoid many incoming vs outgoing
var node1Connected = node1.connectToNetwork(@[bootENode], false, true)
var node2Connected = node2.connectToNetwork(@[bootENode], true, true)
waitFor node1Connected
waitFor node2Connected
suite "Whisper connections":
asyncTest "Two peers connected":
check:
node1.peerPool.connectedNodes.len() == 1
node2.peerPool.connectedNodes.len() == 1
asyncTest "Filters with encryption and signing":
let encryptKeyPair = newKeyPair()
let signKeyPair = newKeyPair()
var symKey: SymKey
let topic = [byte 0x12, 0, 0, 0]
var filters: seq[string] = @[]
var payloads = [repeat(byte 1, 10), repeat(byte 2, 10),
repeat(byte 3, 10), repeat(byte 4, 10)]
var futures = [newFuture[int](), newFuture[int](),
newFuture[int](), newFuture[int]()]
proc handler1(msg: ReceivedMessage) =
var count {.global.}: int
check msg.decoded.payload == payloads[0] or msg.decoded.payload == payloads[1]
count += 1
if count == 2: futures[0].complete(1)
proc handler2(msg: ReceivedMessage) =
check msg.decoded.payload == payloads[1]
futures[1].complete(1)
proc handler3(msg: ReceivedMessage) =
var count {.global.}: int
check msg.decoded.payload == payloads[2] or msg.decoded.payload == payloads[3]
count += 1
if count == 2: futures[2].complete(1)
proc handler4(msg: ReceivedMessage) =
check msg.decoded.payload == payloads[3]
futures[3].complete(1)
# Filters
# filter for encrypted asym
filters.add(node1.subscribeFilter(newFilter(privateKey = some(encryptKeyPair.seckey),
topics = @[topic]), handler1))
# filter for encrypted asym + signed
filters.add(node1.subscribeFilter(newFilter(some(signKeyPair.pubkey),
privateKey = some(encryptKeyPair.seckey),
topics = @[topic]), handler2))
# filter for encrypted sym
filters.add(node1.subscribeFilter(newFilter(symKey = some(symKey),
topics = @[topic]), handler3))
# filter for encrypted sym + signed
filters.add(node1.subscribeFilter(newFilter(some(signKeyPair.pubkey),
symKey = some(symKey),
topics = @[topic]), handler4))
var safeTTL = 5'u32
# Messages
check:
# encrypted asym
node2.postMessage(some(encryptKeyPair.pubkey), ttl = safeTTL,
topic = topic, payload = payloads[0]) == true
# encrypted asym + signed
node2.postMessage(some(encryptKeyPair.pubkey),
src = some(signKeyPair.seckey), ttl = safeTTL,
topic = topic, payload = payloads[1]) == true
# encrypted sym
node2.postMessage(symKey = some(symKey), ttl = safeTTL, topic = topic,
payload = payloads[2]) == true
# encrypted sym + signed
node2.postMessage(symKey = some(symKey),
src = some(signKeyPair.seckey),
ttl = safeTTL, topic = topic,
payload = payloads[3]) == true
node2.protocolState(Whisper).queue.items.len == 4
var f = all(futures)
await f or sleepAsync(messageInterval)
check:
f.finished == true
node1.protocolState(Whisper).queue.items.len == 4
for filter in filters:
check node1.unsubscribeFilter(filter) == true
resetMessageQueues(node1, node2)
asyncTest "Filters with topics":
let topic1 = [byte 0x12, 0, 0, 0]
let topic2 = [byte 0x34, 0, 0, 0]
var payloads = [repeat(byte 0, 10), repeat(byte 1, 10)]
var futures = [newFuture[int](), newFuture[int]()]
proc handler1(msg: ReceivedMessage) =
check msg.decoded.payload == payloads[0]
futures[0].complete(1)
proc handler2(msg: ReceivedMessage) =
check msg.decoded.payload == payloads[1]
futures[1].complete(1)
var filter1 = node1.subscribeFilter(newFilter(topics = @[topic1]), handler1)
var filter2 = node1.subscribeFilter(newFilter(topics = @[topic2]), handler2)
var safeTTL = 3'u32
check:
node2.postMessage(ttl = safeTTL + 1, topic = topic1,
payload = payloads[0]) == true
node2.postMessage(ttl = safeTTL, topic = topic2,
payload = payloads[1]) == true
node2.protocolState(Whisper).queue.items.len == 2
var f = all(futures)
await f or sleepAsync(messageInterval)
check:
f.finished == true
node1.protocolState(Whisper).queue.items.len == 2
node1.unsubscribeFilter(filter1) == true
node1.unsubscribeFilter(filter2) == true
resetMessageQueues(node1, node2)
asyncTest "Filters with PoW":
let topic = [byte 0x12, 0, 0, 0]
var payload = repeat(byte 0, 10)
var futures = [newFuture[int](), newFuture[int]()]
proc handler1(msg: ReceivedMessage) =
check msg.decoded.payload == payload
futures[0].complete(1)
proc handler2(msg: ReceivedMessage) =
check msg.decoded.payload == payload
futures[1].complete(1)
var filter1 = node1.subscribeFilter(newFilter(topics = @[topic], powReq = 0),
handler1)
var filter2 = node1.subscribeFilter(newFilter(topics = @[topic],
powReq = 1_000_000), handler2)
let safeTTL = 2'u32
check:
node2.postMessage(ttl = safeTTL, topic = topic, payload = payload) == true
await futures[0] or sleepAsync(messageInterval)
await futures[1] or sleepAsync(messageInterval)
check:
futures[0].finished == true
futures[1].finished == false
node1.protocolState(Whisper).queue.items.len == 1
node1.unsubscribeFilter(filter1) == true
node1.unsubscribeFilter(filter2) == true
resetMessageQueues(node1, node2)
asyncTest "Filters with queues":
let topic = [byte 0, 0, 0, 0]
let payload = repeat(byte 0, 10)
var filter = node1.subscribeFilter(newFilter(topics = @[topic]))
for i in countdown(10, 1):
check node2.postMessage(ttl = i.uint32, topic = topic,
payload = payload) == true
await sleepAsync(messageInterval)
check:
node1.getFilterMessages(filter).len() == 10
node1.getFilterMessages(filter).len() == 0
node1.unsubscribeFilter(filter) == true
resetMessageQueues(node1, node2)
asyncTest "Local filter notify":
let topic = [byte 0, 0, 0, 0]
var filter = node1.subscribeFilter(newFilter(topics = @[topic]))
let safeTTL = 2'u32
check:
node1.postMessage(ttl = safeTTL, topic = topic,
payload = repeat(byte 4, 10)) == true
node1.getFilterMessages(filter).len() == 1
node1.unsubscribeFilter(filter) == true
await sleepAsync(messageInterval)
resetMessageQueues(node1, node2)
asyncTest "Bloomfilter blocking":
let sendTopic1 = [byte 0x12, 0, 0, 0]
let sendTopic2 = [byte 0x34, 0, 0, 0]
let filterTopics = @[[byte 0x34, 0, 0, 0],[byte 0x56, 0, 0, 0]]
let payload = repeat(byte 0, 10)
var f: Future[int] = newFuture[int]()
proc handler(msg: ReceivedMessage) =
check msg.decoded.payload == payload
f.complete(1)
var filter = node1.subscribeFilter(newFilter(topics = filterTopics), handler)
await node1.setBloomFilter(node1.filtersToBloom())
let safeTTL = 2'u32
check:
node2.postMessage(ttl = safeTTL, topic = sendTopic1,
payload = payload) == true
node2.protocolState(Whisper).queue.items.len == 1
await f or sleepAsync(messageInterval)
check:
f.finished == false
node1.protocolState(Whisper).queue.items.len == 0
resetMessageQueues(node1, node2)
f = newFuture[int]()
check:
node2.postMessage(ttl = safeTTL, topic = sendTopic2,
payload = payload) == true
node2.protocolState(Whisper).queue.items.len == 1
await f or sleepAsync(messageInterval)
check:
f.finished == true
f.read() == 1
node1.protocolState(Whisper).queue.items.len == 1
node1.unsubscribeFilter(filter) == true
await node1.setBloomFilter(fullBloom())
resetMessageQueues(node1, node2)
asyncTest "PoW blocking":
let topic = [byte 0, 0, 0, 0]
let payload = repeat(byte 0, 10)
let safeTTL = 2'u32
await node1.setPowRequirement(1_000_000)
check:
node2.postMessage(ttl = safeTTL, topic = topic, payload = payload) == true
node2.protocolState(Whisper).queue.items.len == 1
await sleepAsync(messageInterval)
check:
node1.protocolState(Whisper).queue.items.len == 0
resetMessageQueues(node1, node2)
await node1.setPowRequirement(0.0)
check:
node2.postMessage(ttl = safeTTL, topic = topic, payload = payload) == true
node2.protocolState(Whisper).queue.items.len == 1
await sleepAsync(messageInterval)
check:
node1.protocolState(Whisper).queue.items.len == 1
resetMessageQueues(node1, node2)
asyncTest "Queue pruning":
let topic = [byte 0, 0, 0, 0]
let payload = repeat(byte 0, 10)
# We need a minimum TTL of 2 as when set to 1 there is a small chance that
# it is already expired after messageInterval due to rounding down of float
# to uint32 in postMessage()
let minTTL = 2'u32
for i in countdown(minTTL + 9, minTTL):
check node2.postMessage(ttl = i, topic = topic, payload = payload) == true
check node2.protocolState(Whisper).queue.items.len == 10
await sleepAsync(messageInterval)
check node1.protocolState(Whisper).queue.items.len == 10
await sleepAsync(int(minTTL*1000))
check node1.protocolState(Whisper).queue.items.len == 0
check node2.protocolState(Whisper).queue.items.len == 0
resetMessageQueues(node1, node2)
asyncTest "P2P post":
let topic = [byte 0, 0, 0, 0]
var f: Future[int] = newFuture[int]()
proc handler(msg: ReceivedMessage) =
check msg.decoded.payload == repeat(byte 4, 10)
f.complete(1)
var filter = node1.subscribeFilter(newFilter(topics = @[topic],
allowP2P = true), handler)
check:
node1.setPeerTrusted(toNodeId(node2.keys.pubkey)) == true
node2.postMessage(ttl = 10, topic = topic,
payload = repeat(byte 4, 10),
targetPeer = some(toNodeId(node1.keys.pubkey))) == true
await f or sleepAsync(messageInterval)
check:
f.finished == true
f.read() == 1
node1.protocolState(Whisper).queue.items.len == 0
node2.protocolState(Whisper).queue.items.len == 0
node1.unsubscribeFilter(filter) == true
test "Light node posting":
var ln1 = prepTestNode()
ln1.setLightNode(true)
# not listening, so will only connect to others that are listening (node2)
waitFor ln1.connectToNetwork(@[bootENode], false, true)
let topic = [byte 0, 0, 0, 0]
let safeTTL = 2'u32
check:
# normal post
ln1.postMessage(ttl = safeTTL, topic = topic,
payload = repeat(byte 0, 10)) == false
ln1.protocolState(Whisper).queue.items.len == 0
# P2P post
ln1.postMessage(ttl = safeTTL, topic = topic,
payload = repeat(byte 0, 10),
targetPeer = some(toNodeId(node2.keys.pubkey))) == true
ln1.protocolState(Whisper).queue.items.len == 0
test "Connect two light nodes":
var ln1 = prepTestNode()
var ln2 = prepTestNode()
ln1.setLightNode(true)
ln2.setLightNode(true)
ln2.startListening()
let peer = waitFor ln1.rlpxConnect(newNode(initENode(ln2.keys.pubKey,
ln2.address)))
check peer.isNil == true