nim-eth/tests/p2p/test_enr.nim

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{.used.}
import
std/[unittest, options, sequtils],
nimcrypto/utils, stew/shims/net,
../../eth/p2p/discoveryv5/enr, ../../eth/[keys, rlp]
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let rng = newRng()
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suite "ENR":
test "Serialization":
var pk = PrivateKey.fromHex(
"5d2908f3f09ea1ff2e327c3f623159639b00af406e9009de5fd4b910fc34049d")[]
var r = initRecord(123, pk, {"udp": 1234'u, "ip": [byte 5, 6, 7, 8]})[]
check($r == """(123, id: "v4", ip: 5.6.7.8, secp256k1: 0x02E51EFA66628CE09F689BC2B82F165A75A9DDECBB6A804BE15AC3FDF41F3B34E7, udp: 1234)""")
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let uri = r.toURI()
var r2: Record
let sigValid = r2.fromURI(uri)
check(sigValid)
check($r2 == $r)
check(r2.raw == r.raw)
test "RLP serialisation":
var pk = PrivateKey.fromHex(
"5d2908f3f09ea1ff2e327c3f623159639b00af406e9009de5fd4b910fc34049d")[]
var r = initRecord(123, pk, {"udp": 1234'u, "ip": [byte 5, 6, 7, 8]})[]
check($r == """(123, id: "v4", ip: 5.6.7.8, secp256k1: 0x02E51EFA66628CE09F689BC2B82F165A75A9DDECBB6A804BE15AC3FDF41F3B34E7, udp: 1234)""")
let encoded = rlp.encode(r)
let decoded = rlp.decode(encoded, enr.Record)
check($decoded == $r)
check(decoded.raw == r.raw)
test "RLP deserialisation without data":
expect ValueError:
let decoded = rlp.decode([], enr.Record)
var r: Record
check not fromBytes(r, [])
test "Base64 deserialsation without data":
var r: Record
let sigValid = r.fromURI("enr:")
check(not sigValid)
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test "Parsing":
var r: Record
let sigValid = r.fromBase64("-IS4QHCYrYZbAKWCBRlAy5zzaDZXJBGkcnh4MHcBFZntXNFrdvJjX04jRzjzCBOonrkTfj499SZuOh8R33Ls8RRcy5wBgmlkgnY0gmlwhH8AAAGJc2VjcDI1NmsxoQPKY0yuDUmstAHYpMa2_oxVtw0RW_QAdpzBQA8yWM0xOIN1ZHCCdl8")
check(sigValid)
check($r == """(1, id: "v4", ip: 127.0.0.1, secp256k1: 0x03CA634CAE0D49ACB401D8A4C6B6FE8C55B70D115BF400769CC1400F3258CD3138, udp: 30303)""")
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test "Bad base64":
var r: Record
let sigValid = r.fromURI("enr:-IS4QHCYrYZbAKWCBRlAy5zzaDZXJBGkcnhMHcBFZntXNFrdv*jX04jRzjzCBOonrkTfj499SZuOh8R33Ls8RRcy5wBgmlkgnY0gmlwhH8AAAGJc2VjcDI1NmsxoQPKY0yuDUmstAHYpMa2_oxVtw0RW_QAdpzBQA8yWM0xOIN1ZHCCdl8")
check(not sigValid)
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test "Bad rlp":
var r: Record
let sigValid = r.fromBase64("-IS4QHCYrYZbAKWCBRlAy5zzaDZXJBGkcnh4MHcBFZntXNFrdvJjX04jRzjzCBOOnrkTfj499SZuOh8R33Ls8RRcy5wBgmlkgnY0gmlwhH8AAAGJc2VjcDI1NmsxoQPKY0yuDUmstAHYpMa2_oxVtw0RW_QAdpzBQA8yWM0xOIN1ZHCCdl8")
check(not sigValid)
test "Create from ENode address":
let
keypair = KeyPair.random(rng[])
ip = ValidIpAddress.init("10.20.30.40")
port = some(Port(9000))
enr = Record.init(
100, keypair.seckey, some(ip), port, port,@[])[]
typedEnr = get enr.toTypedRecord()
check:
typedEnr.secp256k1.isSome()
typedEnr.secp256k1.get == keypair.pubkey.toRawCompressed()
typedEnr.ip.isSome()
typedEnr.ip.get() == [byte 10, 20, 30, 40]
typedEnr.tcp.isSome()
typedEnr.tcp.get() == 9000
typedEnr.udp.isSome()
typedEnr.udp.get() == 9000
test "ENR without address":
let
keypair = KeyPair.random(rng[])
port = none(Port)
enr = Record.init(
100, keypair.seckey, none(ValidIpAddress), port, port)[]
typedEnr = get enr.toTypedRecord()
check:
typedEnr.secp256k1.isSome()
typedEnr.secp256k1.get() == keypair.pubkey.toRawCompressed()
typedEnr.ip.isNone()
typedEnr.tcp.isNone()
typedEnr.udp.isNone()
typedEnr.ip6.isNone()
typedEnr.tcp6.isNone()
typedEnr.udp6.isNone()
test "ENR init size too big":
let pk = PrivateKey.fromHex(
"5d2908f3f09ea1ff2e327c3f623159639b00af406e9009de5fd4b910fc34049d")[]
block: # This gives ENR of 300 bytes encoded
let r = initRecord(1, pk, {"maxvalue": repeat(byte 2, 169),})
check r.isOk()
block: # This gives ENR of 301 bytes encoded
let r = initRecord(1, pk, {"maxplus1": repeat(byte 2, 170),})
check r.isErr()
test "ENR update":
let
pk = PrivateKey.fromHex(
"5d2908f3f09ea1ff2e327c3f623159639b00af406e9009de5fd4b910fc34049d")[]
newField = toFieldPair("test", 123'u)
var r = Record.init(1, pk, none(ValidIpAddress), none(Port), none(Port))[]
block: # Insert new k:v pair, update of seqNum should occur.
let updated = r.update(pk, [newField])
check updated.isOk()
check:
r.get("test", uint) == 123
r.seqNum == 2
block: # Insert same k:v pair, no update of seqNum should occur.
let updated = r.update(pk, [newField])
check updated.isOk()
check:
r.get("test", uint) == 123
r.seqNum == 2
block: # Insert k:v pair with changed value, update of seqNum should occur.
let updatedField = toFieldPair("test", 1234'u)
let updated = r.update(pk, [updatedField])
check updated.isOk()
check:
r.get("test", uint) == 1234
r.seqNum == 3
test "ENR update sorted":
let pk = PrivateKey.fromHex(
"5d2908f3f09ea1ff2e327c3f623159639b00af406e9009de5fd4b910fc34049d")[]
var r = initRecord(123, pk, {"abc": 1234'u,
"z": [byte 0],
"123": "abc",
"a12": 1'u})[]
check $r == """(123, 123: "abc", a12: 1, abc: 1234, id: "v4", secp256k1: 0x02E51EFA66628CE09F689BC2B82F165A75A9DDECBB6A804BE15AC3FDF41F3B34E7, z: 0x00)"""
let newField = toFieldPair("test", 123'u)
let newField2 = toFieldPair("zzz", 123'u)
let updated = r.update(pk, [newField, newField2])
check updated.isOk()
check $r == """(124, 123: "abc", a12: 1, abc: 1234, id: "v4", secp256k1: 0x02E51EFA66628CE09F689BC2B82F165A75A9DDECBB6A804BE15AC3FDF41F3B34E7, test: 123, z: 0x00, zzz: 123)"""
test "ENR update size too big":
let pk = PrivateKey.fromHex(
"5d2908f3f09ea1ff2e327c3f623159639b00af406e9009de5fd4b910fc34049d")[]
var r = initRecord(1, pk, {"maxvalue": repeat(byte 2, 169),})
check r.isOk()
let newField = toFieldPair("test", 123'u)
let updated = r[].update(pk, [newField])
check updated.isErr()
test "ENR update invalid key":
let pk = PrivateKey.fromHex(
"5d2908f3f09ea1ff2e327c3f623159639b00af406e9009de5fd4b910fc34049d")[]
var r = initRecord(1, pk, {"abc": 1'u,})
check r.isOk()
let
wrongPk = PrivateKey.random(rng[])
newField = toFieldPair("test", 123'u)
updated = r[].update(wrongPk, [newField])
check updated.isErr()
test "ENR update address":
let
pk = PrivateKey.fromHex(
"5d2908f3f09ea1ff2e327c3f623159639b00af406e9009de5fd4b910fc34049d")[]
var r = Record.init(1, pk, none(ValidIpAddress),
some(Port(9000)), some(Port(9000)))[]
block:
let updated = r.update(pk, none(ValidIpAddress),
some(Port(9000)), some(Port(9000)))
check updated.isOk()
check:
r.tryGet("ip", uint).isNone()
r.tryGet("tcp", uint).isSome()
r.tryGet("udp", uint).isSome()
r.seqNum == 1
block:
let updated = r.update(pk, none(ValidIpAddress),
some(Port(9001)), some(Port(9002)))
check updated.isOk()
check:
r.tryGet("ip", uint).isNone()
r.tryGet("tcp", uint).isSome()
r.tryGet("udp", uint).isSome()
r.seqNum == 2
block:
let updated = r.update(pk, some(ValidIpAddress.init("10.20.30.40")),
some(Port(9000)), some(Port(9000)))
check updated.isOk()
let typedEnr = r.toTypedRecord().get()
check:
typedEnr.ip.isSome()
typedEnr.ip.get() == [byte 10, 20, 30, 40]
typedEnr.tcp.isSome()
typedEnr.tcp.get() == 9000
typedEnr.udp.isSome()
typedEnr.udp.get() == 9000
r.seqNum == 3
block:
let updated = r.update(pk, some(ValidIpAddress.init("10.20.30.40")),
some(Port(9001)), some(Port(9001)))
check updated.isOk()
let typedEnr = r.toTypedRecord().get()
check:
typedEnr.ip.isSome()
typedEnr.ip.get() == [byte 10, 20, 30, 40]
typedEnr.tcp.isSome()
typedEnr.tcp.get() == 9001
typedEnr.udp.isSome()
typedEnr.udp.get() == 9001
r.seqNum == 4
test "ENR with RLP list value":
type
RlpTestList = object
number: uint16
data: seq[byte]
text: string
let rlpList =
RlpTestList(number: 72, data: @[byte 0x0, 0x1, 0x2], text: "Hi there")
let pk = PrivateKey.fromHex(
"5d2908f3f09ea1ff2e327c3f623159639b00af406e9009de5fd4b910fc34049d")[]
var r = initRecord(123, pk, {"udp": 1234'u, "ip": [byte 5, 6, 7, 8],
"some_list": rlpList})[]
check($r == """(123, id: "v4", ip: 5.6.7.8, secp256k1: 0x02E51EFA66628CE09F689BC2B82F165A75A9DDECBB6A804BE15AC3FDF41F3B34E7, some_list: (Raw RLP list) 0xCE4883000102884869207468657265, udp: 1234)""")
let encoded = rlp.encode(r)
let decoded = rlp.decode(encoded, enr.Record)
check($decoded == $r)
check(decoded.raw == r.raw)
test "ENR IP addresses ":
let pk = PrivateKey.fromHex(
"5d2908f3f09ea1ff2e327c3f623159639b00af406e9009de5fd4b910fc34049d")[]
block: # valid ipv4
var r = initRecord(123, pk, {"udp": 1234'u, "ip": [byte 5, 6, 7, 8]})[]
check($r == """(123, id: "v4", ip: 5.6.7.8, secp256k1: 0x02E51EFA66628CE09F689BC2B82F165A75A9DDECBB6A804BE15AC3FDF41F3B34E7, udp: 1234)""")
let encoded = rlp.encode(r)
let decoded = rlp.decode(encoded, enr.Record)
check($decoded == $r)
check(decoded.raw == r.raw)
block: # invalid ipv4
var r = initRecord(123, pk, {"udp": 1234'u, "ip": [byte 5, 6, 7]})[]
check($r == """(123, id: "v4", ip: (Invalid) 0x050607, secp256k1: 0x02E51EFA66628CE09F689BC2B82F165A75A9DDECBB6A804BE15AC3FDF41F3B34E7, udp: 1234)""")
let encoded = rlp.encode(r)
let decoded = rlp.decode(encoded, enr.Record)
check($decoded == $r)
check(decoded.raw == r.raw)
block: # valid ipv4 + ipv6
var r = initRecord(123, pk, {"udp": 1234'u, "ip": [byte 5, 6, 7, 8],
"ip6": [byte 1, 2, 0, 0, 0, 0, 0, 0, 0, 0, 1, 2, 3, 4, 5, 6]})[]
check($r == """(123, id: "v4", ip: 5.6.7.8, ip6: 102::102:304:506, secp256k1: 0x02E51EFA66628CE09F689BC2B82F165A75A9DDECBB6A804BE15AC3FDF41F3B34E7, udp: 1234)""")
let encoded = rlp.encode(r)
let decoded = rlp.decode(encoded, enr.Record)
check($decoded == $r)
check(decoded.raw == r.raw)
block: # invalid ipv4 + ipv6
var r = initRecord(123, pk, {"udp": 1234'u, "ip": [byte 5, 6, 7, 8, 9],
"ip6": [byte 1, 2, 0, 0, 0, 0, 0, 0, 0, 0, 1, 2, 3, 4, 5]})[]
check($r == """(123, id: "v4", ip: (Invalid) 0x0506070809, ip6: (Invalid) 0x010200000000000000000102030405, secp256k1: 0x02E51EFA66628CE09F689BC2B82F165A75A9DDECBB6A804BE15AC3FDF41F3B34E7, udp: 1234)""")
let encoded = rlp.encode(r)
let decoded = rlp.decode(encoded, enr.Record)
check($decoded == $r)
check(decoded.raw == r.raw)