diff --git a/eth/keyfile/keyfile.nim b/eth/keyfile/keyfile.nim index 72270f3..991c048 100644 --- a/eth/keyfile/keyfile.nim +++ b/eth/keyfile/keyfile.nim @@ -297,7 +297,7 @@ proc createKeyFileJson*(seckey: PrivateKey, ok(%* { - "address": (? seckey.toPublicKey().mapErrTo(IncorrectPrivateKey)).toAddress(false), + "address": seckey.toPublicKey().toAddress(false), "crypto": { "cipher": $cryptkind, "cipherparams": { diff --git a/eth/keys.nim b/eth/keys.nim index 7e1f706..95943a1 100644 --- a/eth/keys.nim +++ b/eth/keys.nim @@ -53,22 +53,20 @@ type proc random*(T: type PrivateKey): SkResult[T] = SkSecretKey.random().mapConvert(T) -proc fromRaw*(T: type PrivateKey, data: openArray[byte]): SkResult[T] = +func fromRaw*(T: type PrivateKey, data: openArray[byte]): SkResult[T] = SkSecretKey.fromRaw(data).mapConvert(T) -proc fromHex*(T: type PrivateKey, data: string): SkResult[T] = +func fromHex*(T: type PrivateKey, data: string): SkResult[T] = SkSecretKey.fromHex(data).mapConvert(T) -proc toRaw*(seckey: PrivateKey): array[SkRawSecretKeySize, byte] {.borrow.} +func toRaw*(seckey: PrivateKey): array[SkRawSecretKeySize, byte] = + SkSecretKey(seckey).toRaw() -proc toPublicKey*(seckey: PrivateKey): SkResult[PublicKey] = - SkSecretKey(seckey).toPublicKey().mapConvert(PublicKey) +func toPublicKey*(seckey: PrivateKey): PublicKey {.borrow.} -proc verify*(seckey: PrivateKey): bool {.borrow.} - -proc fromRaw*(T: type PublicKey, data: openArray[byte]): SkResult[T] = +func fromRaw*(T: type PublicKey, data: openArray[byte]): SkResult[T] = if data.len() == SkRawCompressedPublicKeySize: - return SkPublicKey.fromRaw(data).mapConvert(PublicKey) + return SkPublicKey.fromRaw(data).mapConvert(T) if len(data) < SkRawPublicKeySize - 1: return err(static( @@ -78,46 +76,44 @@ proc fromRaw*(T: type PublicKey, data: openArray[byte]): SkResult[T] = d[0] = 0x04'u8 copyMem(addr d[1], unsafeAddr data[0], 64) - SkPublicKey.fromRaw(d).mapConvert(PublicKey) + SkPublicKey.fromRaw(d).mapConvert(T) -proc fromHex*(T: type PublicKey, data: string): SkResult[T] = +func fromHex*(T: type PublicKey, data: string): SkResult[T] = T.fromRaw(? seq[byte].fromHex(data)) -proc toRaw*(pubkey: PublicKey): array[RawPublicKeySize, byte] = +func toRaw*(pubkey: PublicKey): array[RawPublicKeySize, byte] = let tmp = SkPublicKey(pubkey).toRaw() copyMem(addr result[0], unsafeAddr tmp[1], 64) -proc toRawCompressed*(pubkey: PublicKey): array[33, byte] {.borrow.} +func toRawCompressed*(pubkey: PublicKey): array[33, byte] {.borrow.} proc random*(T: type KeyPair): SkResult[T] = - let tmp = ?SkKeypair.random() + let tmp = ? SkKeypair.random() ok(T(seckey: PrivateKey(tmp.seckey), pubkey: PublicKey(tmp.pubkey))) -proc toKeyPair*(seckey: PrivateKey): SkResult[KeyPair] = - let - pubkey = seckey.toPublicKey() - pubkey and ok(KeyPair(seckey: seckey, pubkey: pubkey[])) +func toKeyPair*(seckey: PrivateKey): KeyPair = + KeyPair(seckey: seckey, pubkey: seckey.toPublicKey()) -proc fromRaw*(T: type Signature, data: openArray[byte]): SkResult[T] = - SkRecoverableSignature.fromRaw(data).mapConvert(Signature) +func fromRaw*(T: type Signature, data: openArray[byte]): SkResult[T] = + SkRecoverableSignature.fromRaw(data).mapConvert(T) -proc fromHex*(T: type Signature, data: string): SkResult[T] = +func fromHex*(T: type Signature, data: string): SkResult[T] = T.fromRaw(? seq[byte].fromHex(data)) -proc toRaw*(sig: Signature): array[RawSignatureSize, byte] {.borrow.} +func toRaw*(sig: Signature): array[RawSignatureSize, byte] {.borrow.} -proc fromRaw*(T: type SignatureNR, data: openArray[byte]): SkResult[T] = - SkSignature.fromRaw(data).mapConvert(SignatureNR) +func fromRaw*(T: type SignatureNR, data: openArray[byte]): SkResult[T] = + SkSignature.fromRaw(data).mapConvert(T) -proc toRaw*(sig: SignatureNR): array[RawSignatureNRSize, byte] {.borrow.} +func toRaw*(sig: SignatureNR): array[RawSignatureNRSize, byte] {.borrow.} -proc toAddress*(pubkey: PublicKey, with0x = true): string = +func toAddress*(pubkey: PublicKey, with0x = true): string = ## Convert public key to hexadecimal string address. var hash = keccak256.digest(pubkey.toRaw()) result = if with0x: "0x" else: "" result.add(toHex(toOpenArray(hash.data, 12, len(hash.data) - 1))) -proc toChecksumAddress*(pubkey: PublicKey, with0x = true): string = +func toChecksumAddress*(pubkey: PublicKey, with0x = true): string = ## Convert public key to checksumable mixed-case address (EIP-55). result = if with0x: "0x" else: "" var hash1 = keccak256.digest(pubkey.toRaw()) @@ -134,7 +130,7 @@ proc toChecksumAddress*(pubkey: PublicKey, with0x = true): string = let ch = chr(ord(hhash1[i]) - ord('a') + ord('A')) result.add(ch) -proc validateChecksumAddress*(a: string): bool = +func validateChecksumAddress*(a: string): bool = ## Validate checksumable mixed-case address (EIP-55). var address = "" var check = "0x" @@ -180,54 +176,50 @@ func `$`*(seckey: PrivateKey): string = ## Convert private key to hexadecimal string representation toHex(seckey.toRaw()) -proc `==`*(lhs, rhs: PublicKey): bool {.borrow.} -proc `==`*(lhs, rhs: Signature): bool {.borrow.} -proc `==`*(lhs, rhs: SignatureNR): bool {.borrow.} +func `==`*(lhs, rhs: PublicKey): bool {.borrow.} +func `==`*(lhs, rhs: Signature): bool {.borrow.} +func `==`*(lhs, rhs: SignatureNR): bool {.borrow.} -proc clear*(v: var PrivateKey) {.borrow.} -proc clear*(v: var PublicKey) {.borrow.} -proc clear*(v: var Signature) {.borrow.} -proc clear*(v: var SignatureNR) {.borrow.} -proc clear*(v: var KeyPair) = +func clear*(v: var PrivateKey) {.borrow.} +func clear*(v: var KeyPair) = v.seckey.clear() - v.pubkey.clear() -proc clear*(v: var SharedSecret) = burnMem(v.data) -proc clear*(v: var SharedSecretFull) = burnMem(v.data) +func clear*(v: var SharedSecret) = burnMem(v.data) +func clear*(v: var SharedSecretFull) = burnMem(v.data) -proc sign*(seckey: PrivateKey, msg: SkMessage): SkResult[Signature] = - signRecoverable(SkSecretKey(seckey), msg).mapConvert(Signature) +func sign*(seckey: PrivateKey, msg: SkMessage): Signature = + Signature(signRecoverable(SkSecretKey(seckey), msg)) -proc sign*(seckey: PrivateKey, msg: openArray[byte]): SkResult[Signature] = +func sign*(seckey: PrivateKey, msg: openArray[byte]): Signature = let hash = keccak256.digest(msg) sign(seckey, hash) -proc signNR*(seckey: PrivateKey, msg: SkMessage): SkResult[SignatureNR] = - sign(SkSecretKey(seckey), msg).mapConvert(SignatureNR) +func signNR*(seckey: PrivateKey, msg: SkMessage): SignatureNR = + SignatureNR(sign(SkSecretKey(seckey), msg)) -proc signNR*(seckey: PrivateKey, msg: openArray[byte]): SkResult[SignatureNR] = +func signNR*(seckey: PrivateKey, msg: openArray[byte]): SignatureNR = let hash = keccak256.digest(msg) signNR(seckey, hash) -proc recover*(sig: Signature, msg: SkMessage): SkResult[PublicKey] = +func recover*(sig: Signature, msg: SkMessage): SkResult[PublicKey] = recover(SkRecoverableSignature(sig), msg).mapConvert(PublicKey) -proc recover*(sig: Signature, msg: openArray[byte]): SkResult[PublicKey] = +func recover*(sig: Signature, msg: openArray[byte]): SkResult[PublicKey] = let hash = keccak256.digest(msg) recover(sig, hash) -proc verify*(sig: SignatureNR, msg: SkMessage, key: PublicKey): bool = +func verify*(sig: SignatureNR, msg: SkMessage, key: PublicKey): bool = verify(SkSignature(sig), msg, SkPublicKey(key)) -proc verify*(sig: SignatureNR, msg: openArray[byte], key: PublicKey): bool = +func verify*(sig: SignatureNR, msg: openArray[byte], key: PublicKey): bool = let hash = keccak256.digest(msg) verify(sig, hash, key) -proc ecdhRaw*(seckey: PrivateKey, pubkey: PublicKey): SkResult[SharedSecret] = - ecdhRaw( - SkSecretKey(seckey), SkPublicKey(pubkey)).map proc(v: auto): SharedSecret = - # Remove first byte! - copyMem(addr result.data[0], unsafeAddr(v.data[1]), sizeof(result)) +func ecdhRaw*(seckey: PrivateKey, pubkey: PublicKey): SharedSecret = + let tmp = ecdhRaw(SkSecretKey(seckey), SkPublicKey(pubkey)) -proc ecdhRawFull*(seckey: PrivateKey, pubkey: PublicKey): SkResult[SharedSecretFull] = - ecdhRaw(SkSecretKey(seckey), SkPublicKey(pubkey)).mapconvert(SharedSecretFull) + # Remove first byte! + copyMem(addr result.data[0], unsafeAddr(tmp.data[1]), sizeof(result)) + +func ecdhRawFull*(seckey: PrivateKey, pubkey: PublicKey): SharedSecretFull = + SharedSecretFull(ecdhRaw(SkSecretKey(seckey), SkPublicKey(pubkey))) diff --git a/eth/p2p/auth.nim b/eth/p2p/auth.nim index 1dea3b5..b93b747 100644 --- a/eth/p2p/auth.nim +++ b/eth/p2p/auth.nim @@ -136,13 +136,12 @@ proc authMessagePreEIP8(h: var Handshake, outlen = 0 let header = cast[ptr AuthMessageV4](addr buffer[0]) - var secret = ? ecdhRaw(h.host.seckey, pubkey).mapErrTo(EcdhError) + var secret = ecdhRaw(h.host.seckey, pubkey) let xornonce = secret.data xor h.initiatorNonce secret.clear() - let signature = ? sign( - h.ephemeral.seckey, SkMessage(data: xornonce)).mapErrTo(SignatureError) + let signature = sign(h.ephemeral.seckey, SkMessage(data: xornonce)) h.remoteHPubkey = pubkey header.signature = signature.toRaw() @@ -178,13 +177,12 @@ proc authMessageEIP8(h: var Handshake, doAssert(EIP8 in h.flags) outlen = 0 var - secret = ? ecdhRaw(h.host.seckey, pubkey).mapErrTo(EcdhError) + secret = ecdhRaw(h.host.seckey, pubkey) xornonce = secret.data xor h.initiatorNonce secret.clear() - let signature = ? sign( - h.ephemeral.seckey, SkMessage(data: xornonce)).mapErrTo(SignatureError) + let signature = sign(h.ephemeral.seckey, SkMessage(data: xornonce)) h.remoteHPubkey = pubkey var payload = rlp.encodeList(signature.toRaw(), @@ -348,7 +346,7 @@ proc decodeAuthMessageV4(h: var Handshake, m: openarray[byte]): AuthResult[void] pubkey = ? PublicKey.fromRaw(header.pubkey).mapErrTo(InvalidPubKey) signature = ? Signature.fromRaw(header.signature).mapErrTo(SignatureError) - var secret = ? ecdhRaw(h.host.seckey, pubkey).mapErrTo(EcdhError) + var secret = ecdhRaw(h.host.seckey, pubkey) let xornonce = secret.data xor header.nonce secret.clear() @@ -393,7 +391,7 @@ proc decodeAuthMessageEip8(h: var Handshake, m: openarray[byte]): AuthResult[voi pubkey = ? PublicKey.fromRaw(pubkeyBr).mapErrTo(InvalidPubKey) nonce = toArray(KeyLength, nonceBr) - var secret = ? ecdhRaw(h.host.seckey, pubkey).mapErrTo(EcdhError) + var secret = ecdhRaw(h.host.seckey, pubkey) let xornonce = nonce xor secret.data secret.clear() @@ -495,7 +493,7 @@ proc getSecrets*( secret: ConnectionSecret # ecdhe-secret = ecdh.agree(ephemeral-privkey, remote-ephemeral-pubk) - var shsec = ? ecdhRaw(h.ephemeral.seckey, h.remoteEPubkey).mapErrTo(EcdhError) + var shsec = ecdhRaw(h.ephemeral.seckey, h.remoteEPubkey) # shared-secret = keccak(ecdhe-secret || keccak(nonce || initiator-nonce)) ctx0.init() diff --git a/eth/p2p/discovery.nim b/eth/p2p/discovery.nim index 29029f2..9a12abf 100644 --- a/eth/p2p/discovery.nim +++ b/eth/p2p/discovery.nim @@ -69,7 +69,7 @@ proc pack(cmdId: CommandId, payload: openArray[byte], pk: PrivateKey): seq[byte] # TODO: There is a lot of unneeded allocations here let encodedData = @[cmdId.byte] & @payload - let signature = @(pk.sign(encodedData).tryGet().toRaw()) + let signature = @(pk.sign(encodedData).toRaw()) let msgHash = keccak256.digest(signature & encodedData) result = @(msgHash.data) & signature & encodedData @@ -162,7 +162,7 @@ proc newDiscoveryProtocol*(privKey: PrivateKey, address: Address, result.address = address result.bootstrapNodes = newSeqOfCap[Node](bootstrapNodes.len) for n in bootstrapNodes: result.bootstrapNodes.add(newNode(n)) - result.thisNode = newNode(privKey.toPublicKey().tryGet(), address) + result.thisNode = newNode(privKey.toPublicKey(), address) result.kademlia = newKademliaProtocol(result.thisNode, result) proc recvPing(d: DiscoveryProtocol, node: Node, diff --git a/eth/p2p/discoveryv5/encoding.nim b/eth/p2p/discoveryv5/encoding.nim index 80d4244..0d30226 100644 --- a/eth/p2p/discoveryv5/encoding.nim +++ b/eth/p2p/discoveryv5/encoding.nim @@ -63,12 +63,12 @@ proc idNonceHash(nonce, ephkey: openarray[byte]): MDigest[256] = ctx.finish() proc signIDNonce*(privKey: PrivateKey, idNonce, ephKey: openarray[byte]): - Result[SignatureNR, cstring] = + SignatureNR = signNR(privKey, idNonceHash(idNonce, ephKey)) proc deriveKeys(n1, n2: NodeID, priv: PrivateKey, pub: PublicKey, - idNonce: openarray[byte]): Result[HandshakeSecrets, cstring] = - let eph = ? ecdhRawFull(priv, pub) + idNonce: openarray[byte]): HandshakeSecrets = + let eph = ecdhRawFull(priv, pub) var info = newSeqOfCap[byte](idNoncePrefix.len + 32 * 2) for i, c in keyAgreementPrefix: info.add(byte(c)) @@ -79,7 +79,7 @@ proc deriveKeys(n1, n2: NodeID, priv: PrivateKey, pub: PublicKey, static: assert(sizeof(secrets) == aesKeySize * 3) var res = cast[ptr UncheckedArray[byte]](addr secrets) hkdf(sha256, eph.data, idNonce, info, toOpenArray(res, 0, sizeof(secrets) - 1)) - ok(secrets) + secrets proc encryptGCM*(key, nonce, pt, authData: openarray[byte]): seq[byte] = var ectx: GCM[aes128] @@ -102,11 +102,11 @@ proc encodeAuthHeader*(c: Codec, resp.record = ln.record let ephKeys = ? KeyPair.random() - let signature = ? signIDNonce(c.privKey, challenge.idNonce, + let signature = signIDNonce(c.privKey, challenge.idNonce, ephKeys.pubkey.toRaw) resp.signature = signature.toRaw - let secrets = ? deriveKeys(ln.id, toId, ephKeys.seckey, challenge.pubKey, + let secrets = deriveKeys(ln.id, toId, ephKeys.seckey, challenge.pubKey, challenge.idNonce) let respRlp = rlp.encode(resp) @@ -234,8 +234,8 @@ proc decodeAuthResp*(c: Codec, fromId: NodeId, head: AuthHeader, let ephKey = ? PublicKey.fromRaw(head.ephemeralKey).mapErrTo(HandshakeError) - let secrets = ? deriveKeys(fromId, c.localNode.id, c.privKey, ephKey, - challenge.idNonce).mapErrTo(HandshakeError) + let secrets = + deriveKeys(fromId, c.localNode.id, c.privKey, ephKey, challenge.idNonce) var zeroNonce: array[gcmNonceSize, byte] let respData = decryptGCM(secrets.authRespKey, zeroNonce, head.response, []) diff --git a/eth/p2p/discoveryv5/enr.nim b/eth/p2p/discoveryv5/enr.nim index 92c6ce8..3c54252 100644 --- a/eth/p2p/discoveryv5/enr.nim +++ b/eth/p2p/discoveryv5/enr.nim @@ -69,7 +69,7 @@ proc makeEnrAux(seqNum: uint64, pk: PrivateKey, record.pairs = @pairs record.seqNum = seqNum - let pubkey = ? pk.toPublicKey() + let pubkey = pk.toPublicKey() record.pairs.add(("id", Field(kind: kString, str: "v4"))) record.pairs.add(("secp256k1", @@ -94,7 +94,7 @@ proc makeEnrAux(seqNum: uint64, pk: PrivateKey, var w = initRlpList(record.pairs.len * 2 + 1) w.append(seqNum, record.pairs) - let sig = ? signNR(pk, toSign) + let sig = signNR(pk, toSign) record.raw = block: var w = initRlpList(record.pairs.len * 2 + 2) diff --git a/eth/p2p/ecies.nim b/eth/p2p/ecies.nim index 1544d59..4caed1e 100644 --- a/eth/p2p/ecies.nim +++ b/eth/p2p/ecies.nim @@ -115,7 +115,7 @@ proc eciesEncrypt*(input: openarray[byte], output: var openarray[byte], var ephemeral = ? KeyPair.random().mapErrTo(RandomError) - secret = ? ecdhRaw(ephemeral.seckey, pubkey).mapErrTo(EcdhError) + secret = ecdhRaw(ephemeral.seckey, pubkey) material = kdf(secret.data) clear(secret) @@ -184,7 +184,7 @@ proc eciesDecrypt*(input: openarray[byte], var pubkey = ? PublicKey.fromRaw(header.pubkey).mapErrTo(IncorrectKey) - secret = ? ecdhRaw(seckey, pubkey).mapErrTo(EcdhError) + secret = ecdhRaw(seckey, pubkey) var material = kdf(secret.data) burnMem(secret) diff --git a/eth/p2p/rlpx_protocols/whisper/whisper_types.nim b/eth/p2p/rlpx_protocols/whisper/whisper_types.nim index 063fdcb..6bb068b 100644 --- a/eth/p2p/rlpx_protocols/whisper/whisper_types.nim +++ b/eth/p2p/rlpx_protocols/whisper/whisper_types.nim @@ -292,11 +292,8 @@ proc encode*(self: Payload): Option[seq[byte]] = if self.src.isSome(): # Private key present - signature requested let sig = sign(self.src.get(), plain) - if sig.isErr: - notice "Signing message failed", err = sig.error - return - plain.add sig[].toRaw() + plain.add sig.toRaw() if self.dst.isSome(): # Asymmetric key present - encryption requested var res = newSeq[byte](eciesEncryptedLength(plain.len)) @@ -626,7 +623,7 @@ proc notify*(filters: var Filters, msg: Message) {.gcsafe.} = if filter.privateKey.isSome(): keyHash = keccak256.digest(filter.privateKey.get().toRaw()) # TODO: Get rid of the hash and just use pubkey to compare? - dst = some(toPublicKey(filter.privateKey.get()).tryGet()) + dst = some(toPublicKey(filter.privateKey.get())) elif filter.symKey.isSome(): keyHash = keccak256.digest(filter.symKey.get()) # else: diff --git a/tests/keys/test_keys.nim b/tests/keys/test_keys.nim index 6f8add3..d4cfa67 100644 --- a/tests/keys/test_keys.nim +++ b/tests/keys/test_keys.nim @@ -56,22 +56,22 @@ suite "ECC/ECDSA/ECDHE tests suite": test "Known private to known public keys (test data from Ethereum eth-keys)": for person in [alice, bob, eve]: let privkey = PrivateKey.fromHex(person[0])[] - var pubkeyHex = $privkey.toPublicKey()[] + var pubkeyHex = $privkey.toPublicKey() check: pubkeyHex == stripSpaces(person[1]) test "Recover public key from message": for person in [alice, bob, eve]: let privkey = PrivateKey.fromHex(person[0])[] - let signature = privkey.sign(message)[] + let signature = privkey.sign(message) let recoveredKey = signature.recover(message)[] check: - $privkey.toPublicKey()[] == $recoveredKey + $privkey.toPublicKey() == $recoveredKey test "Signature serialization and deserialization": for person in [alice, bob, eve]: let privkey = PrivateKey.fromHex(person[0])[] - let signature = privkey.sign(message)[] + let signature = privkey.sign(message) let expectSignature = Signature.fromHex(stripSpaces(person[2]))[] check: $signature == $expectSignature @@ -79,26 +79,26 @@ suite "ECC/ECDSA/ECDHE tests suite": test "test_recover_from_signature_obj": var s = PrivateKey.fromHex(pkbytes)[] var mhash = keccak256.digest(message) - var signature = s.sign(message)[] - var p = recover(signature, mhash) + var signature = s.sign(message) + var p = recover(signature, mhash)[] check: s.toPublicKey() == p test "test_to_address_from_public_key": var s = PrivateKey.fromHex(pkbytes)[] - var chk = s.toPublicKey()[].toAddress() + var chk = s.toPublicKey().toAddress() var expect = "0x" & address check chk == expect test "test_to_canonical_address_from_public_key": var s = PrivateKey.fromHex(pkbytes)[] - var chk = s.toPublicKey()[].toCanonicalAddress() + var chk = s.toPublicKey().toCanonicalAddress() var expect = fromHex(stripSpaces(address)) check compare(chk, expect) == true test "test_to_checksum_address_from_public_key": var s = PrivateKey.fromHex(pkbytes)[] - var chk = s.toPublicKey()[].toChecksumAddress() + var chk = s.toPublicKey().toChecksumAddress() var expect = "0x" & address check: chk.toLowerAscii() == expect @@ -159,7 +159,7 @@ suite "ECC/ECDSA/ECDHE tests suite": var s = PrivateKey.fromHex(privateKeys[i])[] var p = PublicKey.fromHex(stripSpaces(publicKeys[i]))[] let expect = fromHex(stripSpaces(sharedSecrets[i])) - let secret = ecdhRaw(s, p)[] + let secret = ecdhRaw(s, p) check: expect == secret.data @@ -169,9 +169,9 @@ suite "ECC/ECDSA/ECDHE tests suite": var expectm = """ 8ac7e464348b85d9fdfc0a81f2fdc0bbbb8ee5fb3840de6ed60ad9372e718977""" var s = PrivateKey.fromRaw(keccak256.digest("ecdhAgree").data)[] - var p = s.toPublicKey()[] + var p = s.toPublicKey() let expect = fromHex(stripSpaces(expectm)) - let secret = ecdhRaw(s, p)[] + let secret = ecdhRaw(s, p) check: expect == secret.data @@ -188,7 +188,7 @@ suite "ECC/ECDSA/ECDHE tests suite": var s = PrivateKey.fromHex(stripSpaces(s0))[] var p = PublicKey.fromHex(stripSpaces(p0))[] let expect = fromHex(stripSpaces(e0)) - let secret = ecdhRaw(s, p)[] + let secret = ecdhRaw(s, p) check: compare(expect, secret.data) == true @@ -206,7 +206,7 @@ suite "ECC/ECDSA/ECDHE tests suite": var s = PrivateKey.fromRaw(keccak256.digest("sec").data)[] var m = keccak256.digest("msg") - var sig = sign(s, m)[] + var sig = sign(s, m) var sersig = sig.toRaw() var key = recover(sig, m)[] var serkey = key.toRaw() @@ -219,8 +219,8 @@ suite "ECC/ECDSA/ECDHE tests suite": for i in 1..100: var m = PrivateKey.random()[].toRaw var s = PrivateKey.random()[] - var key = s.toPublicKey()[] - let sig = sign(s, m)[] + var key = s.toPublicKey() + let sig = sign(s, m) let rkey = recover(sig, m)[] check: key == rkey @@ -229,7 +229,7 @@ suite "ECC/ECDSA/ECDHE tests suite": # key create/recovery test for i in 1..100: var s = PrivateKey.random()[] - var key = s.toPublicKey()[] + var key = s.toPublicKey() let rkey = PublicKey.fromRaw(key.toRaw())[] check: key == rkey @@ -238,22 +238,14 @@ suite "ECC/ECDSA/ECDHE tests suite": # ECDHE shared secret test for i in 1..100: var aliceSecret = PrivateKey.random()[] - var alicePublic = aliceSecret.toPublicKey()[] + var alicePublic = aliceSecret.toPublicKey() var bobSecret = PrivateKey.random()[] - var bobPublic = bobSecret.toPublicKey()[] - var secret1 = ecdhRaw(aliceSecret, bobPublic)[] - var secret2 = ecdhRaw(bobSecret, alicePublic)[] + var bobPublic = bobSecret.toPublicKey() + var secret1 = ecdhRaw(aliceSecret, bobPublic) + var secret2 = ecdhRaw(bobSecret, alicePublic) check: secret1 == secret2 - test "verfiy() checks": - var seckey1: PrivateKey - var seckey2 = PrivateKey.random()[] - - check: - seckey1.verify() == false - seckey2.verify() == true - test "Compressed public keys": let pubkeyCompressed = "03CA634CAE0D49ACB401D8A4C6B6FE8C55B70D115BF400769CC1400F3258CD3138".toLowerAscii let s = PublicKey.fromHex(pubkeyCompressed)[] diff --git a/tests/keys/test_private_public_key_consistency.nim b/tests/keys/test_private_public_key_consistency.nim index 956674b..93f3d34 100644 --- a/tests/keys/test_private_public_key_consistency.nim +++ b/tests/keys/test_private_public_key_consistency.nim @@ -19,7 +19,7 @@ suite "Testing private -> public key conversion": for person in [alice, bob, eve]: let privKey = PrivateKey.fromHex(person.privkey)[] - pubKey = privKey.toPublicKey()[] + pubKey = privKey.toPublicKey() check: # Compare as strings diff --git a/tests/p2p/p2p_test_helper.nim b/tests/p2p/p2p_test_helper.nim index d58242c..68dbafe 100644 --- a/tests/p2p/p2p_test_helper.nim +++ b/tests/p2p/p2p_test_helper.nim @@ -45,7 +45,7 @@ template procSuite*(name, body: untyped) = proc packData*(payload: openArray[byte], pk: PrivateKey): seq[byte] = let payloadSeq = @payload - signature = @(pk.sign(payload).tryGet().toRaw()) + signature = @(pk.sign(payload).toRaw()) msgHash = keccak256.digest(signature & payloadSeq) result = @(msgHash.data) & signature & payloadSeq diff --git a/tests/p2p/test_auth.nim b/tests/p2p/test_auth.nim index 9e110ba..f7ddc75 100644 --- a/tests/p2p/test_auth.nim +++ b/tests/p2p/test_auth.nim @@ -217,21 +217,21 @@ suite "Ethereum P2P handshake test suite": proc newTestHandshake(flags: set[HandshakeFlag]): Handshake = if Initiator in flags: let pk = PrivateKey.fromHex(testValue("initiator_private_key"))[] - let kp = KeyPair(seckey: pk, pubkey: pk.toPublicKey()[]) + let kp = KeyPair(seckey: pk, pubkey: pk.toPublicKey()) result = Handshake.tryInit(kp, flags)[] let epki = testValue("initiator_ephemeral_private_key") result.ephemeral.seckey = PrivateKey.fromHex(epki)[] - result.ephemeral.pubkey = result.ephemeral.seckey.toPublicKey()[] + result.ephemeral.pubkey = result.ephemeral.seckey.toPublicKey() let nonce = fromHex(stripSpaces(testValue("initiator_nonce"))) result.initiatorNonce[0..^1] = nonce[0..^1] elif Responder in flags: let pk = PrivateKey.fromHex(testValue("receiver_private_key"))[] - let kp = KeyPair(seckey: pk, pubkey: pk.toPublicKey()[]) + let kp = KeyPair(seckey: pk, pubkey: pk.toPublicKey()) result = Handshake.tryInit(kp, flags)[] let epkr = testValue("receiver_ephemeral_private_key") result.ephemeral.seckey = PrivateKey.fromHex(epkr)[] - result.ephemeral.pubkey = result.ephemeral.seckey.toPublicKey()[] + result.ephemeral.pubkey = result.ephemeral.seckey.toPublicKey() let nonce = fromHex(stripSpaces(testValue("receiver_nonce"))) result.responderNonce[0..^1] = nonce[0..^1] @@ -333,23 +333,23 @@ suite "Ethereum P2P handshake test suite": proc newTestHandshake(flags: set[HandshakeFlag]): Handshake = if Initiator in flags: let pk = PrivateKey.fromHex(testE8Value("initiator_private_key"))[] - let kp = KeyPair(seckey: pk, pubkey: pk.toPublicKey()[]) + let kp = KeyPair(seckey: pk, pubkey: pk.toPublicKey()) result = Handshake.tryInit(kp, flags)[] - result.host.pubkey = result.host.seckey.toPublicKey()[] + result.host.pubkey = result.host.seckey.toPublicKey() let esec = testE8Value("initiator_ephemeral_private_key") result.ephemeral.seckey = PrivateKey.fromHex(esec)[] - result.ephemeral.pubkey = result.ephemeral.seckey.toPublicKey()[] + result.ephemeral.pubkey = result.ephemeral.seckey.toPublicKey() let nonce = fromHex(stripSpaces(testE8Value("initiator_nonce"))) result.initiatorNonce[0..^1] = nonce[0..^1] elif Responder in flags: let pk = PrivateKey.fromHex(testE8Value("receiver_private_key"))[] - let kp = KeyPair(seckey: pk, pubkey: pk.toPublicKey()[]) + let kp = KeyPair(seckey: pk, pubkey: pk.toPublicKey()) result = Handshake.tryInit(kp, flags)[] let esec = testE8Value("receiver_ephemeral_private_key") result.ephemeral.seckey = PrivateKey.fromHex(esec)[] - result.ephemeral.pubkey = result.ephemeral.seckey.toPublicKey()[] + result.ephemeral.pubkey = result.ephemeral.seckey.toPublicKey() let nonce = fromHex(stripSpaces(testE8Value("receiver_nonce"))) result.responderNonce[0..^1] = nonce[0..^1] diff --git a/tests/p2p/test_crypt.nim b/tests/p2p/test_crypt.nim index 7bd6856..8e40f05 100644 --- a/tests/p2p/test_crypt.nim +++ b/tests/p2p/test_crypt.nim @@ -90,20 +90,20 @@ suite "Ethereum RLPx encryption/decryption test suite": proc newTestHandshake(flags: set[HandshakeFlag]): Handshake = if Initiator in flags: let pk = PrivateKey.fromHex(testValue("initiator_private_key"))[] - let kp = KeyPair(seckey: pk, pubkey: pk.toPublicKey()[]) + let kp = KeyPair(seckey: pk, pubkey: pk.toPublicKey()) result = Handshake.tryInit(kp, flags)[] let epki = testValue("initiator_ephemeral_private_key") result.ephemeral.seckey = PrivateKey.fromHex(epki)[] - result.ephemeral.pubkey = result.ephemeral.seckey.toPublicKey()[] + result.ephemeral.pubkey = result.ephemeral.seckey.toPublicKey() let nonce = fromHex(stripSpaces(testValue("initiator_nonce"))) result.initiatorNonce[0..^1] = nonce[0..^1] elif Responder in flags: let pk = PrivateKey.fromHex(testValue("receiver_private_key"))[] - let kp = KeyPair(seckey: pk, pubkey: pk.toPublicKey()[]) + let kp = KeyPair(seckey: pk, pubkey: pk.toPublicKey()) result = Handshake.tryInit(kp, flags)[] let epkr = testValue("receiver_ephemeral_private_key") result.ephemeral.seckey = PrivateKey.fromHex(epkr)[] - result.ephemeral.pubkey = result.ephemeral.seckey.toPublicKey()[] + result.ephemeral.pubkey = result.ephemeral.seckey.toPublicKey() let nonce = fromHex(stripSpaces(testValue("receiver_nonce"))) result.responderNonce[0..^1] = nonce[0..^1] diff --git a/tests/p2p/test_discovery.nim b/tests/p2p/test_discovery.nim index 1b1e73d..e5398c1 100644 --- a/tests/p2p/test_discovery.nim +++ b/tests/p2p/test_discovery.nim @@ -22,7 +22,7 @@ proc test() {.async.} = bootNodeKey = PrivateKey.fromHex( "a2b50376a79b1a8c8a3296485572bdfbf54708bb46d3c25d73d2723aaaf6a617")[] bootNodeAddr = localAddress(20301) - bootENode = ENode(pubkey: bootNodeKey.toPublicKey()[], address: bootNodeAddr) + bootENode = ENode(pubkey: bootNodeKey.toPublicKey(), address: bootNodeAddr) bootNode = await startDiscoveryNode(bootNodeKey, bootNodeAddr, @[]) test "Discover nodes": diff --git a/tests/p2p/test_discoveryv5.nim b/tests/p2p/test_discoveryv5.nim index d5f6203..eb2cdec 100644 --- a/tests/p2p/test_discoveryv5.nim +++ b/tests/p2p/test_discoveryv5.nim @@ -183,7 +183,7 @@ suite "Discovery v5 Tests": let targetId = toNodeId(PublicKey.fromHex(targetKey)[]) for (key, d) in testValues: - let id = toNodeId(PrivateKey.fromHex(key)[].toPublicKey()[]) + let id = toNodeId(PrivateKey.fromHex(key)[].toPublicKey()) check logDist(targetId, id) == d test "Distance to id check": diff --git a/tests/p2p/test_discv5_encoding.nim b/tests/p2p/test_discv5_encoding.nim index 9e6a303..b2c85e8 100644 --- a/tests/p2p/test_discv5_encoding.nim +++ b/tests/p2p/test_discv5_encoding.nim @@ -136,8 +136,7 @@ suite "Discovery v5 Cryptographic Primitives": priv = PrivateKey.fromHex(secretKey)[] let eph = ecdhRawFull(priv, pub) check: - eph.isOk() - eph[].data == hexToSeqByte(sharedSecret) + eph.data == hexToSeqByte(sharedSecret) test "Key Derivation": # const @@ -169,8 +168,7 @@ suite "Discovery v5 Cryptographic Primitives": privKey = PrivateKey.fromHex(localSecretKey)[] signature = signIDNonce(privKey, hexToByteArray[idNonceSize](idNonce), hexToByteArray[64](ephemeralKey)) - check signature.isOK() - check signature[].toRaw() == hexToByteArray[64](idNonceSig) + check signature.toRaw() == hexToByteArray[64](idNonceSig) test "Encryption/Decryption": const @@ -237,7 +235,7 @@ suite "Discovery v5 Additional": Port(9000)).expect("Properly intialized private key") node = newNode(enrRec).expect("Properly initialized record") nonce = hexToByteArray[authTagSize]("0x27b5af763c446acd2749fe8e") - pubKey = PrivateKey.random()[].toPublicKey()[] + pubKey = PrivateKey.random()[].toPublicKey() nodeId = pubKey.toNodeId() idNonce = hexToByteArray[idNonceSize]( "0xa77e3aa0c144ae7c0a3af73692b7d6e5b7a2fdc0eda16e8d5e6cb0d08e88dd04") @@ -248,7 +246,7 @@ suite "Discovery v5 Additional": var rlp = rlpFromBytes(auth) let authHeader = rlp.read(AuthHeader) var newNode: Node - let secrets = c.decodeAuthResp(privKey.toPublicKey()[].toNodeId(), + let secrets = c.decodeAuthResp(privKey.toPublicKey().toNodeId(), authHeader, whoareyou, newNode) # TODO: Test cases with invalid nodeId and invalid signature, the latter diff --git a/tests/p2p/test_ecies.nim b/tests/p2p/test_ecies.nim index 34b4725..c8ab996 100644 --- a/tests/p2p/test_ecies.nim +++ b/tests/p2p/test_ecies.nim @@ -70,7 +70,7 @@ suite "ECIES test suite": var decr = newSeq[byte](len(m)) var shmac = [0x13'u8, 0x13'u8] var s = PrivateKey.random()[] - var p = s.toPublicKey()[] + var p = s.toPublicKey() eciesEncrypt(plain, encr, p).expect("encryption should succeed") eciesDecrypt(encr, decr, s).expect("decryption should succeed") diff --git a/tests/p2p/test_shh.nim b/tests/p2p/test_shh.nim index e4df3b2..decb24c 100644 --- a/tests/p2p/test_shh.nim +++ b/tests/p2p/test_shh.nim @@ -45,13 +45,13 @@ suite "Whisper payload": check: decoded.isSome() payload.payload == decoded.get().payload - privKey.toPublicKey()[] == decoded.get().src.get() + privKey.toPublicKey() == decoded.get().src.get() decoded.get().padding.get().len == 186 # 256 -1 -1 -3 -65 test "should roundtrip with asymmetric encryption": let privKey = PrivateKey.random()[] - let payload = Payload(dst: some(privKey.toPublicKey()[]), + let payload = Payload(dst: some(privKey.toPublicKey()), payload: @[byte 0, 1, 2]) let encoded = whisper.encode(payload) @@ -93,7 +93,7 @@ suite "Whisper payload padding": check: decoded.isSome() payload.payload == decoded.get().payload - privKey.toPublicKey()[] == decoded.get().src.get() + privKey.toPublicKey() == decoded.get().src.get() decoded.get().padding.isSome() decoded.get().padding.get().len == 256 # as dataLen == 256 @@ -118,7 +118,7 @@ suite "Whisper payload padding": check: decoded.isSome() payload.payload == decoded.get().payload - privKey.toPublicKey()[] == decoded.get().src.get() + privKey.toPublicKey() == decoded.get().src.get() decoded.get().padding.isSome() decoded.get().padding.get().len == 1 # as dataLen == 255 @@ -156,7 +156,7 @@ suite "Whisper payload padding": check: decoded.isSome() payload.payload == decoded.get().payload - privKey.toPublicKey()[] == decoded.get().src.get() + privKey.toPublicKey() == decoded.get().src.get() decoded.get().padding.isSome() payload.padding.get() == decoded.get().padding.get() @@ -171,7 +171,7 @@ suite "Whisper payload padding": check: decoded.isSome() payload.payload == decoded.get().payload - privKey.toPublicKey()[] == decoded.get().src.get() + privKey.toPublicKey() == decoded.get().src.get() decoded.get().padding.isNone() # example from https://github.com/paritytech/parity-ethereum/blob/93e1040d07e385d1219d00af71c46c720b0a1acf/whisper/src/message.rs#L439 @@ -302,7 +302,7 @@ suite "Whisper filter": test "should notify filter on message with asymmetric encryption": let privKey = PrivateKey.random()[] let topic = [byte 0, 0, 0, 0] - let msg = prepFilterTestMsg(pubKey = some(privKey.toPublicKey()[]), + let msg = prepFilterTestMsg(pubKey = some(privKey.toPublicKey()), topic = topic) var filters = initTable[string, Filter]() @@ -323,7 +323,7 @@ suite "Whisper filter": let msg = prepFilterTestMsg(src = some(privKey), topic = topic) var filters = initTable[string, Filter]() - let filter = initFilter(src = some(privKey.toPublicKey()[]), + let filter = initFilter(src = some(privKey.toPublicKey()), topics = @[topic]) let filterId = filters.subscribeFilter(filter)