353 lines
13 KiB
Nim
353 lines
13 KiB
Nim
# beacon_chain
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# Copyright (c) 2018-2022 Status Research & Development GmbH
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# Licensed and distributed under either of
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# * MIT license (license terms in the root directory or at https://opensource.org/licenses/MIT).
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# * Apache v2 license (license terms in the root directory or at https://www.apache.org/licenses/LICENSE-2.0).
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# at your option. This file may not be copied, modified, or distributed except according to those terms.
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{.used.}
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import
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std/[json, typetraits],
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unittest2,
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stew/byteutils, blscurve, eth/keys, json_serialization,
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libp2p/crypto/crypto as lcrypto,
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nimcrypto/utils as ncrutils,
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../beacon_chain/spec/[crypto, keystore],
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./testutil
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from strutils import replace
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func isEqual(a, b: ValidatorPrivKey): bool =
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# `==` on secret keys is not allowed
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let pa = cast[ptr UncheckedArray[byte]](a.unsafeAddr)
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let pb = cast[ptr UncheckedArray[byte]](b.unsafeAddr)
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result = true
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for i in 0 ..< sizeof(a):
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result = result and pa[i] == pb[i]
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const
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scryptVector = """{
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"crypto": {
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"kdf": {
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"function": "scrypt",
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"params": {
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"dklen": 32,
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"n": 262144,
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"p": 1,
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"r": 8,
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"salt": "d4e56740f876aef8c010b86a40d5f56745a118d0906a34e69aec8c0db1cb8fa3"
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},
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"message": ""
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},
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"checksum": {
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"function": "sha256",
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"params": {},
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"message": "d2217fe5f3e9a1e34581ef8a78f7c9928e436d36dacc5e846690a5581e8ea484"
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},
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"cipher": {
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"function": "aes-128-ctr",
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"params": {
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"iv": "264daa3f303d7259501c93d997d84fe6"
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},
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"message": "06ae90d55fe0a6e9c5c3bc5b170827b2e5cce3929ed3f116c2811e6366dfe20f"
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}
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},
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"description": "This is a test keystore that uses scrypt to secure the secret.",
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"pubkey": "9612d7a727c9d0a22e185a1c768478dfe919cada9266988cb32359c11f2b7b27f4ae4040902382ae2910c15e2b420d07",
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"path": "m/12381/60/3141592653/589793238",
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"uuid": "1d85ae20-35c5-4611-98e8-aa14a633906f",
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"version": 4
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}"""
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pbkdf2Vector = """{
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"crypto": {
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"kdf": {
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"function": "pbkdf2",
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"params": {
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"dklen": 32,
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"c": 262144,
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"prf": "hmac-sha256",
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"salt": "d4e56740f876aef8c010b86a40d5f56745a118d0906a34e69aec8c0db1cb8fa3"
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},
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"message": ""
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},
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"checksum": {
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"function": "sha256",
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"params": {},
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"message": "8a9f5d9912ed7e75ea794bc5a89bca5f193721d30868ade6f73043c6ea6febf1"
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},
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"cipher": {
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"function": "aes-128-ctr",
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"params": {
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"iv": "264daa3f303d7259501c93d997d84fe6"
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},
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"message": "cee03fde2af33149775b7223e7845e4fb2c8ae1792e5f99fe9ecf474cc8c16ad"
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}
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},
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"description": "This is a test keystore that uses PBKDF2 to secure the secret.",
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"pubkey": "9612d7a727c9d0a22e185a1c768478dfe919cada9266988cb32359c11f2b7b27f4ae4040902382ae2910c15e2b420d07",
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"path": "m/12381/60/0/0",
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"uuid": "64625def-3331-4eea-ab6f-782f3ed16a83",
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"version": 4
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}"""
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pbkdf2NetVector = """{
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"crypto":{
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"kdf":{
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"function":"pbkdf2",
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"params":{
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"dklen":32,
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"c":262144,
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"prf":"hmac-sha256",
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"salt":"d4e56740f876aef8c010b86a40d5f56745a118d0906a34e69aec8c0db1cb8fa3"
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},
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"message":""
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},
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"checksum":{
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"function":"sha256",
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"params":{
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},
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"message":"3aaebceb5e81cce464d62287414befaa03522eb8f56cad4296c0dc9301e5f091"
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},
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"cipher":{
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"function":"aes-128-ctr",
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"params":{
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"iv":"264daa3f303d7259501c93d997d84fe6"
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},
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"message":"c6e22dfed4aec458af6e46efff72937972a9360a8b4dc32c8c266de73a90b421d8892db3"
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}
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},
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"description":"PBKDF2 Network private key storage",
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"pubkey":"08021221031873e6f4e1bf837b93493d570653cb219743d4fab0ff468d4e005e1679730b0b",
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"uuid":"7a053160-1cdf-4faf-a2bb-331e1bc2eb5f",
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"version":1
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}"""
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scryptNetVector = """{
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"crypto":{
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"kdf":{
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"function":"scrypt",
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"params":{
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"dklen":32,
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"n":262144,
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"p":1,
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"r":8,
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"salt":"d4e56740f876aef8c010b86a40d5f56745a118d0906a34e69aec8c0db1cb8fa3"
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},
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"message":""
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},
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"checksum":{
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"function":"sha256",
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"params":{
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},
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"message":"9a7d03a3f2107a11b6e34a081fb13d551012ff081efb81fc94ec114381fa707f"
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},
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"cipher":{
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"function":"aes-128-ctr",
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"params":{
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"iv":"264daa3f303d7259501c93d997d84fe6"
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},
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"message":"0eac82f5a1bd53f81df688970ffeea8425ad7b8f877bcba5a74b87f090c340836cd52095"
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}
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},
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"description":"SCRYPT Network private key storage",
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"pubkey":"08021221031873e6f4e1bf837b93493d570653cb219743d4fab0ff468d4e005e1679730b0b",
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"uuid":"83d77fa3-86cb-466a-af11-eeb338b0e258",
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"version":1
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}"""
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password = string.fromBytes hexToSeqByte("7465737470617373776f7264f09f9491")
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secretBytes = hexToSeqByte "000000000019d6689c085ae165831e934ff763ae46a2a6c172b3f1b60a8ce26f"
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secretNetBytes = hexToSeqByte "08021220fe442379443d6e2d7d75d3a58f96fbb35f0a9c7217796825fc9040e3b89c5736"
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salt = hexToSeqByte "d4e56740f876aef8c010b86a40d5f56745a118d0906a34e69aec8c0db1cb8fa3"
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iv = hexToSeqByte "264daa3f303d7259501c93d997d84fe6"
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let
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rng = keys.newRng()
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suite "KeyStorage testing suite":
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setup:
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let secret = ValidatorPrivKey.fromRaw(secretBytes).get
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let nsecret = init(lcrypto.PrivateKey, secretNetBytes).get
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test "[PBKDF2] Keystore decryption":
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let
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keystore = Json.decode(pbkdf2Vector, Keystore)
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decrypt = decryptKeystore(keystore, KeystorePass.init password)
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check decrypt.isOk
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check secret.isEqual(decrypt.get())
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test "[SCRYPT] Keystore decryption":
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let
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keystore = Json.decode(scryptVector, Keystore)
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decrypt = decryptKeystore(keystore, KeystorePass.init password)
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check decrypt.isOk
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check secret.isEqual(decrypt.get())
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test "[PBKDF2] Network Keystore decryption":
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let
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keystore = Json.decode(pbkdf2NetVector, NetKeystore)
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decrypt = decryptNetKeystore(keystore, KeystorePass.init password)
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check decrypt.isOk
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check nsecret == decrypt.get()
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test "[SCRYPT] Network Keystore decryption":
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let
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keystore = Json.decode(scryptNetVector, NetKeystore)
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decrypt = decryptNetKeystore(keystore, KeystorePass.init password)
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check decrypt.isOk
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check nsecret == decrypt.get()
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test "[PBKDF2] Keystore encryption":
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let keystore = createKeystore(kdfPbkdf2, rng[], secret,
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KeystorePass.init password,
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salt=salt, iv=iv,
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description = "This is a test keystore that uses PBKDF2 to secure the secret.",
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path = validateKeyPath("m/12381/60/0/0").expect("Valid Keypath"))
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var
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encryptJson = parseJson Json.encode(keystore)
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pbkdf2Json = parseJson(pbkdf2Vector)
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encryptJson{"uuid"} = %""
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pbkdf2Json{"uuid"} = %""
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check encryptJson == pbkdf2Json
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test "[PBKDF2] Network Keystore encryption":
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let nkeystore = createNetKeystore(kdfPbkdf2, rng[], nsecret,
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KeystorePass.init password,
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salt = salt, iv = iv,
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description =
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"PBKDF2 Network private key storage")
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var
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encryptJson = parseJson Json.encode(nkeystore)
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pbkdf2Json = parseJson(pbkdf2NetVector)
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encryptJson{"uuid"} = %""
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pbkdf2Json{"uuid"} = %""
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check encryptJson == pbkdf2Json
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test "[SCRYPT] Keystore encryption":
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let keystore = createKeystore(kdfScrypt, rng[], secret,
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KeystorePass.init password,
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salt=salt, iv=iv,
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description = "This is a test keystore that uses scrypt to secure the secret.",
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path = validateKeyPath("m/12381/60/3141592653/589793238").expect("Valid keypath"))
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var
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encryptJson = parseJson Json.encode(keystore)
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scryptJson = parseJson(scryptVector)
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encryptJson{"uuid"} = %""
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scryptJson{"uuid"} = %""
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check encryptJson == scryptJson
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test "[SCRYPT] Network Keystore encryption":
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let nkeystore = createNetKeystore(kdfScrypt, rng[], nsecret,
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KeystorePass.init password,
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salt = salt, iv = iv,
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description =
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"SCRYPT Network private key storage")
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var
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encryptJson = parseJson Json.encode(nkeystore)
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pbkdf2Json = parseJson(scryptNetVector)
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encryptJson{"uuid"} = %""
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pbkdf2Json{"uuid"} = %""
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check encryptJson == pbkdf2Json
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test "Pbkdf2 errors":
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expect Defect:
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echo createKeystore(kdfPbkdf2, rng[], secret, salt = [byte 1])
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expect Defect:
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echo createKeystore(kdfPbkdf2, rng[], secret, iv = [byte 1])
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check decryptKeystore(JsonString pbkdf2Vector,
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KeystorePass.init "wrong pass").isErr
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check decryptKeystore(JsonString pbkdf2Vector,
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KeystorePass.init "").isErr
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check decryptKeystore(JsonString "{\"a\": 0}",
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KeystorePass.init "").isErr
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check decryptKeystore(JsonString "",
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KeystorePass.init "").isErr
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check decryptKeystore(JsonString "{}",
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KeystorePass.init "").isErr
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template checkVariant(remove): untyped =
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check decryptKeystore(JsonString pbkdf2Vector.replace(remove, "1234"),
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KeystorePass.init password).isErr
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checkVariant "f876" # salt
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checkVariant "75ea" # checksum
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checkVariant "b722" # cipher
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let badKdf = parseJson(pbkdf2Vector)
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badKdf{"crypto", "kdf", "function"} = %"invalid"
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check decryptKeystore(JsonString $badKdf,
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KeystorePass.init password).isErr
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suite "eth2.0-deposits-cli compatibility":
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test "restoring mnemonic without password":
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let mnemonic = Mnemonic "camera dad smile sail injury warfare grid kiwi report minute fold slot before stem firm wet vague shove version medal one alley vibrant mushroom"
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let seed = getSeed(mnemonic, KeystorePass.init "")
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check byteutils.toHex(distinctBase seed) == "60043d6e1efe0eea2ef1c8e7d4bb2d79cb27d3403e992b6058998c27c373cfb6fe047b11405360bb224803726fd6b0ee9e3335ae7d9032e6cb49baf08697cf2a"
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let masterKey = deriveMasterKey(seed)
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check masterKey.toHex == "54aea900840c22ee821ca4f67ba57392d7c3e3d4fc54a6343940c12404226eb7"
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let
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v1SK = deriveChildKey(masterKey, makeKeyPath(0, signingKeyKind))
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v1WK = deriveChildKey(masterKey, makeKeyPath(0, withdrawalKeyKind))
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v2SK = deriveChildKey(masterKey, makeKeyPath(1, signingKeyKind))
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v2WK = deriveChildKey(masterKey, makeKeyPath(1, withdrawalKeyKind))
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v3SK = deriveChildKey(masterKey, makeKeyPath(2, signingKeyKind))
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v3WK = deriveChildKey(masterKey, makeKeyPath(2, withdrawalKeyKind))
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check:
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v1SK.toHex == "261610f7cb44fd17da74b1d0018db0bf311cfb0d30fd6bc7879d3db022a1ac7d"
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v1WK.toHex == "0924b5928633a6712a392a8172bd0b3ce6b591491ed4b448d51b460d293258e1"
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v2SK.toHex == "3ee523f969f9e0eed10ec62a4b816d94e28947fc1c55ba791555b83baef23b43"
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v2WK.toHex == "4925c51f41cd275c70ec878a35a6640e69d1d9360f3dcf6400692a670bda27c2"
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v3SK.toHex == "05935491479f8ad8887c4bf64e69fddf9c2d42848bb8a98170a5fe41e94c4122"
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v3WK.toHex == "56b158b3b170e9c339b94b895afc28964a0b6d7a0809a39b558ca8b6688487cd"
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test "restoring mnemonic with password":
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let mnemonic = Mnemonic "swear umbrella lesson couch void gentle rocket valley distance match floor rocket flag solve muscle common modify target city youth pottery predict flip ghost"
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let seed = getSeed(mnemonic, KeystorePass.init "abracadabra!@#$%^7890")
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check byteutils.toHex(distinctBase seed) == "f129c3ac003a07e54974d8dbeb08d20c2343fc516e0e3704570c500a4b6ed98bad2e6fec6a3b9a88076c17feaa0d01163855578cb08bae53860d0ae2558cf03e"
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let
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masterKey = deriveMasterKey(seed)
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v1SK = deriveChildKey(masterKey, makeKeyPath(0, signingKeyKind))
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v1WK = deriveChildKey(masterKey, makeKeyPath(0, withdrawalKeyKind))
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v2SK = deriveChildKey(masterKey, makeKeyPath(1, signingKeyKind))
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v2WK = deriveChildKey(masterKey, makeKeyPath(1, withdrawalKeyKind))
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v3SK = deriveChildKey(masterKey, makeKeyPath(2, signingKeyKind))
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v3WK = deriveChildKey(masterKey, makeKeyPath(2, withdrawalKeyKind))
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check:
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v1SK.toHex == "16059302897bc6ecdb9cdac9bb27f34cc996e04b75143c73742aa5975bfaeae7"
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v1WK.toHex == "1c28b8e41e5cb2f983780eabb77c927e804d1f7aaffcaaf5593538885a658e8a"
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v2SK.toHex == "49a5fa9536ebb96253d420a4a9e9f054dc872d2a49884d46995b39b8147fd5e3"
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v2WK.toHex == "70068f12a854370d18284884df62d3911af2f85d0be29cb071ec78c6ec564695"
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v3SK.toHex == "1445cec3861d7cbf80e409d79aeee131622dcb0c815ff97ceab2515e14c41a1a"
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v3WK.toHex == "1ccd5dce4c842bd3f65bbd59a382662e689fcf01ddc39aaaf2dcc7d073f11a93"
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