2019-02-05 10:32:22 +00:00
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# Nim Ethereum Keys (nim-eth-keys)
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# Copyright (c) 2020 Status Research & Development GmbH
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# Licensed under either of
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# - Apache License, version 2.0, (LICENSE-APACHEv2)
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# - MIT license (LICENSE-MIT)
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#
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# This module contains adaptations of the general secp interface to help make
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# working with keys and signatures as they appear in Ethereum in particular:
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#
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# * Public keys as serialized in uncompressed format without the initial byte
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# * Shared secrets are serialized in raw format without the intial byte
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# * distinct types are used to avoid confusion with the "standard" secp types
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{.push raises: [Defect].}
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import
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std/strformat,
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secp256k1, bearssl/hash as bhash, bearssl/rand,
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stew/[byteutils, objects, results],
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nimcrypto/[hash, keccak]
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2020-04-04 09:40:47 +00:00
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from nimcrypto/utils import burnMem
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2022-06-17 20:45:37 +00:00
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export secp256k1, results, rand
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const
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KeyLength* = SkEcdhRawSecretSize - 1
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## Shared secret key length without format marker
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RawPublicKeySize* = SkRawPublicKeySize - 1
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## Size of uncompressed public key without format marker (0x04)
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RawSignatureSize* = SkRawRecoverableSignatureSize
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RawSignatureNRSize* = SkRawSignatureSize
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type
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PrivateKey* = distinct SkSecretKey
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PublicKey* = distinct SkPublicKey
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## Public key that's serialized to raw format without 0x04 marker
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Signature* = distinct SkRecoverableSignature
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## Ethereum uses recoverable signatures allowing some space savings
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SignatureNR* = distinct SkSignature
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## ...but ENR uses non-recoverable signatures!
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SharedSecretFull* = SkEcdhRawSecret
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SharedSecret* = object
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data*: array[KeyLength, byte]
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KeyPair* = distinct SkKeyPair
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template pubkey*(v: KeyPair): PublicKey = PublicKey(SkKeyPair(v).pubkey)
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template seckey*(v: KeyPair): PrivateKey = PrivateKey(SkKeyPair(v).seckey)
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proc newRng*(): ref HmacDrbgContext =
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# You should only create one instance of the RNG per application / library
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# Ref is used so that it can be shared between components
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HmacDrbgContext.new()
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proc random*(T: type PrivateKey, rng: var HmacDrbgContext): T =
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let rngPtr = unsafeAddr rng # doesn't escape
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proc callRng(data: var openArray[byte]) =
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generate(rngPtr[], data)
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T(SkSecretKey.random(callRng))
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func fromRaw*(T: type PrivateKey, data: openArray[byte]): SkResult[T] =
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SkSecretKey.fromRaw(data).mapConvert(T)
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func fromHex*(T: type PrivateKey, data: string): SkResult[T] =
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SkSecretKey.fromHex(data).mapConvert(T)
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func toRaw*(seckey: PrivateKey): array[SkRawSecretKeySize, byte] =
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SkSecretKey(seckey).toRaw()
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func toPublicKey*(seckey: PrivateKey): PublicKey {.borrow.}
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func fromRaw*(T: type PublicKey, data: openArray[byte]): SkResult[T] =
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if data.len() == SkRawCompressedPublicKeySize:
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return SkPublicKey.fromRaw(data).mapConvert(T)
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if len(data) < SkRawPublicKeySize - 1:
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return err(static(
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&"keys: raw eth public key should be {SkRawPublicKeySize - 1} bytes"))
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var d: array[SkRawPublicKeySize, byte]
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d[0] = 0x04'u8
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copyMem(addr d[1], unsafeAddr data[0], 64)
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SkPublicKey.fromRaw(d).mapConvert(T)
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func fromHex*(T: type PublicKey, data: string): SkResult[T] =
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T.fromRaw(? seq[byte].fromHex(data))
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func toRaw*(pubkey: PublicKey): array[RawPublicKeySize, byte] =
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let tmp = SkPublicKey(pubkey).toRaw()
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copyMem(addr result[0], unsafeAddr tmp[1], 64)
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func toRawCompressed*(pubkey: PublicKey): array[33, byte] {.borrow.}
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proc random*(T: type KeyPair, rng: var HmacDrbgContext): T =
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let seckey = SkSecretKey(PrivateKey.random(rng))
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KeyPair(SkKeyPair(
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seckey: seckey,
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pubkey: seckey.toPublicKey()
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))
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func toKeyPair*(seckey: PrivateKey): KeyPair =
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KeyPair(SkKeyPair(
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seckey: SkSecretKey(seckey), pubkey: SkSecretKey(seckey).toPublicKey()))
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func fromRaw*(T: type Signature, data: openArray[byte]): SkResult[T] =
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SkRecoverableSignature.fromRaw(data).mapConvert(T)
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func fromHex*(T: type Signature, data: string): SkResult[T] =
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T.fromRaw(? seq[byte].fromHex(data))
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func toRaw*(sig: Signature): array[RawSignatureSize, byte] {.borrow.}
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func fromRaw*(T: type SignatureNR, data: openArray[byte]): SkResult[T] =
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SkSignature.fromRaw(data).mapConvert(T)
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func toRaw*(sig: SignatureNR): array[RawSignatureNRSize, byte] {.borrow.}
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func toAddress*(pubkey: PublicKey, with0x = true): string =
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## Convert public key to hexadecimal string address.
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var hash = keccak256.digest(pubkey.toRaw())
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result = if with0x: "0x" else: ""
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result.add(toHex(toOpenArray(hash.data, 12, len(hash.data) - 1)))
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func toChecksumAddress*(pubkey: PublicKey, with0x = true): string =
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## Convert public key to checksumable mixed-case address (EIP-55).
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result = if with0x: "0x" else: ""
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var hash1 = keccak256.digest(pubkey.toRaw())
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var hhash1 = toHex(toOpenArray(hash1.data, 12, len(hash1.data) - 1))
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var hash2 = keccak256.digest(hhash1)
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var hhash2 = toHex(hash2.data)
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for i in 0..<len(hhash1):
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if hhash2[i] >= '0' and hhash2[i] <= '7':
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result.add(hhash1[i])
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else:
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if hhash1[i] >= '0' and hhash1[i] <= '9':
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result.add(hhash1[i])
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else:
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let ch = chr(ord(hhash1[i]) - ord('a') + ord('A'))
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result.add(ch)
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func validateChecksumAddress*(a: string): bool =
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## Validate checksumable mixed-case address (EIP-55).
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var address = ""
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var check = "0x"
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if len(a) != 42:
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return false
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if a[0] != '0' and a[1] != 'x':
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return false
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for i in 2..41:
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let ch = a[i]
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if ch in {'0'..'9'} or ch in {'a'..'f'}:
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address &= ch
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elif ch in {'A'..'F'}:
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address &= chr(ord(ch) - ord('A') + ord('a'))
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else:
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return false
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var hash = keccak256.digest(address)
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var hexhash = toHex(hash.data)
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for i in 0..<len(address):
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if hexhash[i] >= '0' and hexhash[i] <= '7':
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check.add(address[i])
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else:
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if address[i] >= '0' and address[i] <= '9':
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check.add(address[i])
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else:
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let ch = chr(ord(address[i]) - ord('a') + ord('A'))
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check.add(ch)
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result = (check == a)
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func toCanonicalAddress*(pubkey: PublicKey): array[20, byte] =
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## Convert public key to canonical address.
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var hash = keccak256.digest(pubkey.toRaw())
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copyMem(addr result[0], addr hash.data[12], 20)
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func `$`*(pubkey: PublicKey): string =
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## Convert public key to hexadecimal string representation.
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toHex(pubkey.toRaw())
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func `$`*(sig: Signature): string =
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## Convert signature to hexadecimal string representation.
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toHex(sig.toRaw())
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func `$`*(seckey: PrivateKey): string =
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## Convert private key to hexadecimal string representation
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toHex(seckey.toRaw())
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func `==`*(lhs, rhs: PublicKey): bool {.borrow.}
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func `==`*(lhs, rhs: Signature): bool {.borrow.}
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func `==`*(lhs, rhs: SignatureNR): bool {.borrow.}
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func clear*(v: var PrivateKey) {.borrow.}
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func clear*(v: var KeyPair) =
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v.seckey.clear()
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func clear*(v: var SharedSecret) = burnMem(v.data)
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func clear*(v: var SharedSecretFull) = burnMem(v.data)
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func sign*(seckey: PrivateKey, msg: SkMessage): Signature =
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Signature(signRecoverable(SkSecretKey(seckey), msg))
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func sign*(seckey: PrivateKey, msg: openArray[byte]): Signature =
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let hash = keccak256.digest(msg)
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sign(seckey, SkMessage(hash.data))
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func signNR*(seckey: PrivateKey, msg: SkMessage): SignatureNR =
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SignatureNR(sign(SkSecretKey(seckey), msg))
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func signNR*(seckey: PrivateKey, msg: openArray[byte]): SignatureNR =
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let hash = keccak256.digest(msg)
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signNR(seckey, SkMessage(hash.data))
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func recover*(sig: Signature, msg: SkMessage): SkResult[PublicKey] =
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recover(SkRecoverableSignature(sig), msg).mapConvert(PublicKey)
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func recover*(sig: Signature, msg: openArray[byte]): SkResult[PublicKey] =
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let hash = keccak256.digest(msg)
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recover(sig, SkMessage(hash.data))
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func verify*(sig: SignatureNR, msg: SkMessage, key: PublicKey): bool =
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verify(SkSignature(sig), msg, SkPublicKey(key))
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func verify*(sig: SignatureNR, msg: openArray[byte], key: PublicKey): bool =
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let hash = keccak256.digest(msg)
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verify(sig, SkMessage(hash.data), key)
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func ecdhRaw*(seckey: PrivateKey, pubkey: PublicKey): SharedSecret =
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let tmp = ecdhRaw(SkSecretKey(seckey), SkPublicKey(pubkey))
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# Remove first byte!
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copyMem(addr result.data[0], unsafeAddr(tmp.data[1]), sizeof(result))
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func ecdhRawFull*(seckey: PrivateKey, pubkey: PublicKey): SharedSecretFull =
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SharedSecretFull(ecdhRaw(SkSecretKey(seckey), SkPublicKey(pubkey)))
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