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nim-eth/eth/p2p/discoveryv5/enr.nim

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import strutils, macros, algorithm
import eth/[rlp, keys], nimcrypto, stew/base64
type
Record* = object
sequenceNumber*: uint64
# signature: seq[byte]
raw*: seq[byte] # RLP encoded record
pairs: seq[(string, Field)] # sorted list of all key/value pairs
FieldKind = enum
kString,
kNum,
kBytes
Field = object
case kind: FieldKind
of kString:
str: string
of kNum:
num: int
of kBytes:
bytes: seq[byte]
template toField[T](v: T): Field =
when T is string:
Field(kind: kString, str: v)
elif T is seq[byte]:
Field(kind: kBytes, bytes: v)
elif T is SomeInteger:
Field(kind: kNum, num: v.int)
else:
{.error: "Unsupported field type".}
proc makeEnrAux(sequenceNumber: uint64, pk: PrivateKey, pairs: openarray[(string, Field)]): Record =
result.pairs = @pairs
result.sequenceNumber = sequenceNumber
let pubkey = pk.getPublicKey()
result.pairs.add(("id", Field(kind: kString, str: "v4")))
result.pairs.add(("secp256k1", Field(kind: kBytes, bytes: @(pubkey.getRawCompressed()))))
# Sort by key
result.pairs.sort() do(a, b: (string, Field)) -> int:
cmp(a[0], b[0])
proc append(w: var RlpWriter, sequenceNumber: uint64, pairs: openarray[(string, Field)]): seq[byte] =
w.append(sequenceNumber)
for (k, v) in pairs:
w.append(k)
case v.kind
of kString: w.append(v.str)
of kNum: w.append(v.num)
of kBytes: w.append(v.bytes)
w.finish()
let toSign = block:
var w = initRlpList(result.pairs.len * 2 + 1)
w.append(sequenceNumber, result.pairs)
var sig: SignatureNR
if signRawMessage(keccak256.digest(toSign).data, pk, sig) != EthKeysStatus.Success:
raise newException(Exception, "Could not sign ENR (internal error)")
result.raw = block:
var w = initRlpList(result.pairs.len * 2 + 2)
w.append(sig.getRaw())
w.append(sequenceNumber, result.pairs)
macro initRecord*(sequenceNumber: uint64, pk: PrivateKey, pairs: untyped{nkTableConstr}): untyped =
for c in pairs:
c.expectKind(nnkExprColonExpr)
c[1] = newCall(bindSym"toField", c[1])
result = quote do:
makeEnrAux(`sequenceNumber`, `pk`, `pairs`)
proc getField(r: Record, name: string, field: var Field): bool =
# It might be more correct to do binary search,
# as the fields are sorted, but it's unlikely to
# make any difference in reality.
for (k, v) in r.pairs:
if k == name:
field = v
return true
proc requireKind(f: Field, kind: FieldKind) =
if f.kind != kind:
raise newException(ValueError, "Wrong field kind")
proc get*[T: seq[byte] | string | SomeInteger](r: Record, key: string, typ: typedesc[T]): typ =
var f: Field
if r.getField(key, f):
when typ is SomeInteger:
requireKind(f, kNum)
return f.num
elif typ is seq[byte]:
requireKind(f, kBytes)
return f.bytes
elif typ is string:
requireKind(f, kString)
return f.str
proc get*(r: Record, pubKey: var PublicKey): bool =
var pubkeyField: Field
if r.getField("secp256k1", pubkeyField) and pubkeyField.kind == kBytes:
result = recoverPublicKey(pubkeyField.bytes, pubKey) == EthKeysStatus.Success
proc verifySignatureV4(r: Record, sigData: openarray[byte], content: seq[byte]): bool =
var publicKey: PublicKey
if r.get(publicKey):
var sig: SignatureNR
if sig.parseCompact(sigData) == EthKeysStatus.Success:
var h = keccak256.digest(content)
if verifySignatureRaw(sig, h.data, publicKey) == EthKeysStatus.Success:
return true
proc verifySignature(r: Record): bool =
var rlp = rlpFromBytes(r.raw.toRange)
let sz = rlp.listLen
rlp.enterList()
let sigData = rlp.read(seq[byte])
let content = block:
var writer = initRlpList(sz - 1)
var reader = rlp
for i in 1 ..< sz:
writer.appendRawBytes(reader.rawData)
reader.skipElem
writer.finish()
var id: Field
if r.getField("id", id) and id.kind == kString:
case id.str
of "v4":
result = verifySignatureV4(r, sigData, content)
else:
# Unknown Identity Scheme
discard
proc fromBytesAux(r: var Record): bool =
var rlp = rlpFromBytes(r.raw.toRange)
let sz = rlp.listLen
if sz < 5 or sz mod 2 != 0:
# Wrong rlp object
return false
rlp.enterList()
rlp.skipElem() # Skip signature
r.sequenceNumber = rlp.read(uint64)
let numPairs = (sz - 2) div 2
var
id: string
pubkeyData: seq[byte]
for i in 0 ..< numPairs:
let k = rlp.read(string)
case k
of "id":
id = rlp.read(string)
r.pairs.add((k, Field(kind: kString, str: id)))
of "secp256k1":
pubkeyData = rlp.read(seq[byte])
r.pairs.add((k, Field(kind: kBytes, bytes: pubkeyData)))
of "tcp", "udp", "tcp6", "udp6", "ip":
let v = rlp.read(int)
r.pairs.add((k, Field(kind: kNum, num: v)))
else:
r.pairs.add((k, Field(kind: kBytes, bytes: rlp.rawData.toSeq)))
rlp.skipElem
verifySignature(r)
proc fromBytes*(r: var Record, s: openarray[byte]): bool =
# Loads ENR from rlp-encoded bytes, and validated the signature.
r.raw = @s
try:
result = fromBytesAux(r)
except CatchableError:
discard
proc fromBase64*(r: var Record, s: string): bool =
# Loads ENR from base64-encoded rlp-encoded bytes, and validated the signature.
try:
r.raw = Base64Url.decode(s)
result = fromBytesAux(r)
except CatchableError:
discard
proc fromURI*(r: var Record, s: string): bool =
# Loads ENR from its text encoding: base64-encoded rlp-encoded bytes, prefixed with "enr:".
const prefix = "enr:"
if s.startsWith(prefix):
result = r.fromBase64(s[prefix.len .. ^1])
proc toBase64*(r: Record): string =
result = Base64Url.encode(r.raw)
proc toURI*(r: Record): string = "enr:" & r.toBase64
proc `$`(f: Field): string =
case f.kind
of kNum:
$f.num
of kBytes:
"0x" & f.bytes.toHex
of kString:
"\"" & f.str & "\""
proc `$`*(r: Record): string =
result = "("
var first = true
for (k, v) in r.pairs:
if first:
first = false
else:
result &= ", "
result &= k
result &= ": "
result &= $v
result &= ')'
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