mirror of https://github.com/waku-org/nwaku.git
375 lines
13 KiB
Nim
375 lines
13 KiB
Nim
{.used.}
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import
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std/[json, os],
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stew/byteutils,
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testutils/unittests, chronos,
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eth/keys
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import
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../../waku/waku_keystore,
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./testlib/common
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from ../../waku/waku_noise/noise_utils import randomSeqByte
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suite "KeyFile test suite":
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test "Create/Save/Load single keyfile":
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# The password we use to encrypt our secret
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let password = "randompassword"
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# The filepath were the keyfile will be stored
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let filepath = "./test.keyfile"
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defer: removeFile(filepath)
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# The secret
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var secret = randomSeqByte(rng[], 300)
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# We create a keyfile encrypting the secret with password
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let keyfile = createKeyFileJson(secret, password)
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check:
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keyfile.isOk()
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# We save to disk the keyfile
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saveKeyFile(filepath, keyfile.get()).isOk()
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# We load from the file all the decrypted keyfiles encrypted under password
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var decodedKeyfiles = loadKeyFiles(filepath, password)
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check:
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decodedKeyfiles.isOk()
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# Since only one secret was stored in file, we expect only one keyfile being decrypted
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decodedKeyfiles.get().len == 1
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# We check if the decrypted secret is the same as the original secret
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let decodedSecret = decodedKeyfiles.get()[0]
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check:
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secret == decodedSecret.get()
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test "Create/Save/Load multiple keyfiles in same file":
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# We set different passwords for different keyfiles that will be stored in same file
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let password1 = string.fromBytes(randomSeqByte(rng[], 20))
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let password2 = ""
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let password3 = string.fromBytes(randomSeqByte(rng[], 20))
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var keyfile: KfResult[JsonNode]
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let filepath = "./test.keyfile"
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defer: removeFile(filepath)
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# We generate 6 different secrets and we encrypt them using 3 different passwords, and we store the obtained keystore
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let secret1 = randomSeqByte(rng[], 300)
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keyfile = createKeyFileJson(secret1, password1)
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check:
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keyfile.isOk()
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saveKeyFile(filepath, keyfile.get()).isOk()
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let secret2 = randomSeqByte(rng[], 300)
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keyfile = createKeyFileJson(secret2, password2)
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check:
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keyfile.isOk()
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saveKeyFile(filepath, keyfile.get()).isOk()
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let secret3 = randomSeqByte(rng[], 300)
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keyfile = createKeyFileJson(secret3, password3)
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check:
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keyfile.isOk()
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saveKeyFile(filepath, keyfile.get()).isOk()
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# We encrypt secret4 with password3
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let secret4 = randomSeqByte(rng[], 300)
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keyfile = createKeyFileJson(secret4, password3)
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check:
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keyfile.isOk()
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saveKeyFile(filepath, keyfile.get()).isOk()
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# We encrypt secret5 with password1
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let secret5 = randomSeqByte(rng[], 300)
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keyfile = createKeyFileJson(secret5, password1)
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check:
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keyfile.isOk()
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saveKeyFile(filepath, keyfile.get()).isOk()
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# We encrypt secret6 with password1
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let secret6 = randomSeqByte(rng[], 300)
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keyfile = createKeyFileJson(secret6, password1)
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check:
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keyfile.isOk()
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saveKeyFile(filepath, keyfile.get()).isOk()
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# Now there are 6 keyfiles stored in filepath encrypted with 3 different passwords
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# We decrypt the keyfiles using the respective passwords and we check that the number of
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# successful decryptions corresponds to the number of secrets encrypted under that password
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var decodedKeyfilesPassword1 = loadKeyFiles(filepath, password1)
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check:
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decodedKeyfilesPassword1.isOk()
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decodedKeyfilesPassword1.get().len == 3
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var decodedSecretsPassword1 = decodedKeyfilesPassword1.get()
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var decodedKeyfilesPassword2 = loadKeyFiles(filepath, password2)
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check:
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decodedKeyfilesPassword2.isOk()
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decodedKeyfilesPassword2.get().len == 1
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var decodedSecretsPassword2 = decodedKeyfilesPassword2.get()
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var decodedKeyfilesPassword3 = loadKeyFiles(filepath, password3)
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check:
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decodedKeyfilesPassword3.isOk()
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decodedKeyfilesPassword3.get().len == 2
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var decodedSecretsPassword3 = decodedKeyfilesPassword3.get()
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# We check if the corresponding secrets are correct
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check:
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# Secrets encrypted with password 1
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secret1 == decodedSecretsPassword1[0].get()
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secret5 == decodedSecretsPassword1[1].get()
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secret6 == decodedSecretsPassword1[2].get()
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# Secrets encrypted with password 2
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secret2 == decodedSecretsPassword2[0].get()
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# Secrets encrypted with password 3
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secret3 == decodedSecretsPassword3[0].get()
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secret4 == decodedSecretsPassword3[1].get()
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# The following tests are originally from the nim-eth keyfile tests module https://github.com/status-im/nim-eth/blob/master/tests/keyfile/test_keyfile.nim
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# and are slightly adapted to test backwards compatibility with nim-eth implementation of our customized version of the utils/keyfile module
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# Note: the original nim-eth "Create/Save/Load test" is redefined and expanded above in "KeyFile test suite"
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suite "KeyFile test suite (adapted from nim-eth keyfile tests)":
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# Testvectors originally from https://github.com/status-im/nim-eth/blob/fef47331c37ee8abb8608037222658737ff498a6/tests/keyfile/test_keyfile.nim#L22-L168
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let TestVectors = [
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%*{
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"keyfile": {
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"crypto" : {
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"cipher" : "aes-128-ctr",
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"cipherparams" : {"iv" : "6087dab2f9fdbbfaddc31a909735c1e6"},
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"ciphertext" : "5318b4d5bcd28de64ee5559e671353e16f075ecae9f99c7a79a38af5f869aa46",
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"kdf" : "pbkdf2",
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"kdfparams" : {
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"c" : 262144,
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"dklen" : 32,
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"prf" : "hmac-sha256",
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"salt" : "ae3cd4e7013836a3df6bd7241b12db061dbe2c6785853cce422d148a624ce0bd"
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},
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"mac" : "517ead924a9d0dc3124507e3393d175ce3ff7c1e96529c6c555ce9e51205e9b2"
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},
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"id" : "3198bc9c-6672-5ab3-d995-4942343ae5b6",
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"version" : 3
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},
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"name": "test1",
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"password": "testpassword",
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"priv": "7a28b5ba57c53603b0b07b56bba752f7784bf506fa95edc395f5cf6c7514fe9d"
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},
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%*{
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"keyfile": {
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"version": 3,
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"crypto": {
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"ciphertext": "ee75456c006b1e468133c5d2a916bacd3cf515ced4d9b021b5c59978007d1e87",
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"version": 1,
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"kdf": "pbkdf2",
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"kdfparams": {
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"dklen": 32,
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"c": 262144,
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"prf": "hmac-sha256",
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"salt": "504490577620f64f43d73f29479c2cf0"
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},
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"mac": "196815708465de9af7504144a1360d08874fc3c30bb0e648ce88fbc36830d35d",
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"cipherparams": {"iv": "514ccc8c4fb3e60e5538e0cf1e27c233"},
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"cipher": "aes-128-ctr"
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},
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"id": "98d193c7-5174-4c7c-5345-c1daf95477b5"
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},
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"name": "python_generated_test_with_odd_iv",
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"password": "foo",
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"priv": "0101010101010101010101010101010101010101010101010101010101010101"
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},
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%*{
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"keyfile": {
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"version": 3,
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"crypto": {
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"ciphertext": "d69313b6470ac1942f75d72ebf8818a0d484ac78478a132ee081cd954d6bd7a9",
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"cipherparams": {"iv": "ffffffffffffffffffffffffffffffff"},
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"kdf": "pbkdf2",
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"kdfparams": {
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"dklen": 32,
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"c": 262144,
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"prf": "hmac-sha256",
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"salt": "c82ef14476014cbf438081a42709e2ed"
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},
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"mac": "cf6bfbcc77142a22c4a908784b4a16f1023a1d0e2aff404c20158fa4f1587177",
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"cipher": "aes-128-ctr",
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"version": 1
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},
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"id": "abb67040-8dbe-0dad-fc39-2b082ef0ee5f"
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},
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"name": "evilnonce",
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"password": "bar",
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"priv": "0202020202020202020202020202020202020202020202020202020202020202"
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},
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%*{
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"keyfile": {
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"version" : 3,
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"crypto" : {
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"cipher" : "aes-128-ctr",
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"cipherparams" : {
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"iv" : "83dbcc02d8ccb40e466191a123791e0e"
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},
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"ciphertext" : "d172bf743a674da9cdad04534d56926ef8358534d458fffccd4e6ad2fbde479c",
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"kdf" : "scrypt",
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"kdfparams" : {
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"dklen" : 32,
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"n" : 262144,
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"r" : 1,
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"p" : 8,
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"salt" : "ab0c7876052600dd703518d6fc3fe8984592145b591fc8fb5c6d43190334ba19"
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},
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"mac" : "2103ac29920d71da29f15d75b4a16dbe95cfd7ff8faea1056c33131d846e3097"
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},
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"id" : "3198bc9c-6672-5ab3-d995-4942343ae5b6"
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},
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"name" : "test2",
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"password": "testpassword",
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"priv": "7a28b5ba57c53603b0b07b56bba752f7784bf506fa95edc395f5cf6c7514fe9d"
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},
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%*{
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"keyfile": {
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"version": 3,
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"address": "460121576cc7df020759730751f92bd62fd78dd6",
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"crypto": {
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"ciphertext": "54ae683c6287fa3d58321f09d56e26d94e58a00d4f90bdd95782ae0e4aab618b",
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"cipherparams": {
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"iv": "681679cdb125bba9495d068b002816a4"
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},
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"cipher": "aes-128-ctr",
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"kdf": "scrypt",
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"kdfparams": {
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"dklen": 32,
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"salt": "c3407f363fce02a66e3c4bf4a8f6b7da1c1f54266cef66381f0625c251c32785",
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"n": 8192,
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"r": 8,
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"p": 1
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},
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"mac": "dea6bdf22a2f522166ed82808c22a6311e84c355f4bbe100d4260483ff675a46"
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},
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"id": "0eb785e0-340a-4290-9c42-90a11973ee47"
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},
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"name": "mycrypto",
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"password": "foobartest121",
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"priv": "05a4d3eb46c742cb8850440145ce70cbc80b59f891cf5f50fd3e9c280b50c4e4"
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},
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%*{
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"keyfile": {
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"crypto": {
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"cipher": "aes-128-ctr",
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"cipherparams": {
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"iv": "7e7b02d2b4ef45d6c98cb885e75f48d5",
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},
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"ciphertext": "a7a5743a6c7eb3fa52396bd3fd94043b79075aac3ccbae8e62d3af94db00397c",
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"kdf": "scrypt",
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"kdfparams": {
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"dklen": 32,
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"n": 8192,
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"p": 1,
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"r": 8,
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"salt": "247797c7a357b707a3bdbfaa55f4c553756bca09fec20ddc938e7636d21e4a20",
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},
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"mac": "5a3ba5bebfda2c384586eda5fcda9c8397d37c9b0cc347fea86525cf2ea3a468",
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},
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"address": "0b6f2de3dee015a95d3330dcb7baf8e08aa0112d",
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"id": "3c8efdd6-d538-47ec-b241-36783d3418b9",
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"version": 3
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},
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"password": "moomoocow",
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"priv": "21eac69b9a52f466bfe9047f0f21c9caf3a5cdaadf84e2750a9b3265d450d481",
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"name": "eth-keyfile-conftest"
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}
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]
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test "Testing nim-eth test vectors":
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var secret: KfResult[seq[byte]]
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var expectedSecret: seq[byte]
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for i in 0..<TestVectors.len:
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# Decryption with correct password
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expectedSecret = decodeHex(TestVectors[i].getOrDefault("priv").getStr())
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secret =
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decodeKeyFileJson(TestVectors[i].getOrDefault("keyfile"),
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TestVectors[i].getOrDefault("password").getStr())
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check:
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secret.isOk()
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secret.get() == expectedSecret
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# Decryption with wrong password
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secret = decodeKeyFileJson(TestVectors[i].getOrDefault("keyfile"), "wrongpassword")
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check:
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secret.isErr()
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secret.error == KeyFileError.KeyfileIncorrectMac
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test "Wrong mac in keyfile":
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# This keyfile is the same as the first one in TestVectors,
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# but the last byte of mac is changed to 00.
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# While ciphertext is the correct encryption of priv under password,
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# mac verfication should fail and nothing will be decrypted
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let keyfileWrongMac = %*{
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"keyfile": {
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"crypto" : {
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"cipher" : "aes-128-ctr",
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"cipherparams" : {"iv" : "6087dab2f9fdbbfaddc31a909735c1e6"},
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"ciphertext" : "5318b4d5bcd28de64ee5559e671353e16f075ecae9f99c7a79a38af5f869aa46",
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"kdf" : "pbkdf2",
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"kdfparams" : {
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"c" : 262144,
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"dklen" : 32,
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"prf" : "hmac-sha256",
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"salt" : "ae3cd4e7013836a3df6bd7241b12db061dbe2c6785853cce422d148a624ce0bd"
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},
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"mac" : "517ead924a9d0dc3124507e3393d175ce3ff7c1e96529c6c555ce9e51205e900"
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},
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"id" : "3198bc9c-6672-5ab3-d995-4942343ae5b6",
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"version" : 3
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},
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"name": "test1",
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"password": "testpassword",
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"priv": "7a28b5ba57c53603b0b07b56bba752f7784bf506fa95edc395f5cf6c7514fe9d"
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}
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# Decryption with correct password
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let expectedSecret = decodeHex(keyfileWrongMac.getOrDefault("priv").getStr())
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let secret =
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decodeKeyFileJson(keyfileWrongMac.getOrDefault("keyfile"),
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keyfileWrongMac.getOrDefault("password").getStr())
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check:
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secret.isErr()
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secret.error == KeyFileError.KeyFileIncorrectMac
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test "Scrypt keyfiles":
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let
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expectedSecret = randomSeqByte(rng[], 300)
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password = "miawmiawcat"
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# By default, keyfiles' encryption key is derived from password using PBKDF2.
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# Here we test keyfiles encypted with a key derived from password using scrypt
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jsonKeyfile = createKeyFileJson(expectedSecret, password, 3, AES128CTR, SCRYPT)
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check:
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jsonKeyfile.isOk()
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let secret = decodeKeyFileJson(jsonKeyfile.get(), password)
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check:
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secret.isOk()
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secret.get() == expectedSecret
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test "Load non-existent keyfile test":
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check:
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loadKeyFiles("nonexistant.keyfile", "password").error ==
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KeyFileError.KeyfileDoesNotExist
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