import std/[os, strutils, terminal, wordwrap, unicode], chronicles, chronos, web3, stint, json_serialization, zxcvbn, serialization, blscurve, eth/common/eth_types, eth/keys, confutils, bearssl, ../spec/[datatypes, digest, crypto, keystore], stew/io2, libp2p/crypto/crypto as lcrypto, nimcrypto/utils as ncrutils, ".."/[conf, ssz/merkleization, network_metadata, filepath] export keystore when defined(windows): import stew/[windows/acl] {.push raises: [Defect].} {.localPassC: "-fno-lto".} # no LTO for crypto const keystoreFileName* = "keystore.json" netKeystoreFileName* = "network_keystore.json" type WalletPathPair* = object wallet*: Wallet path*: string CreatedWallet* = object walletPath*: WalletPathPair seed*: KeySeed const minPasswordLen = 12 minPasswordEntropy = 60.0 mostCommonPasswords = wordListArray( currentSourcePath.parentDir / "../../vendor/nimbus-security-resources/passwords/10-million-password-list-top-100000.txt", minWordLen = minPasswordLen) proc echoP*(msg: string) = ## Prints a paragraph aligned to 80 columns echo "" echo wrapWords(msg, 80) proc checkAndCreateDataDir*(dataDir: string): bool = when defined(posix): let requiredPerms = 0o700 if isDir(dataDir): let currPermsRes = getPermissions(dataDir) if currPermsRes.isErr(): fatal "Could not check data directory permissions", data_dir = dataDir, errorCode = $currPermsRes.error, errorMsg = ioErrorMsg(currPermsRes.error) return false else: let currPerms = currPermsRes.get() if currPerms != requiredPerms: warn "Data directory has insecure permissions. Correcting them.", data_dir = dataDir, current_permissions = currPerms.toOct(4), required_permissions = requiredPerms.toOct(4) let newPermsRes = setPermissions(dataDir, requiredPerms) if newPermsRes.isErr(): fatal "Could not set data directory permissions", data_dir = dataDir, errorCode = $newPermsRes.error, errorMsg = ioErrorMsg(newPermsRes.error), old_permissions = currPerms.toOct(4), new_permissions = requiredPerms.toOct(4) return false else: let res = secureCreatePath(dataDir) if res.isErr(): fatal "Could not create data directory", data_dir = dataDir, errorMsg = ioErrorMsg(res.error), errorCode = $res.error return false elif defined(windows): let amask = {AccessFlags.Read, AccessFlags.Write, AccessFlags.Execute} if fileAccessible(dataDir, amask): let cres = checkCurrentUserOnlyACL(dataDir) if cres.isErr(): fatal "Could not check data folder's ACL", data_dir = dataDir, errorCode = $cres.error, errorMsg = ioErrorMsg(cres.error) return false else: if cres.get() == false: fatal "Data folder has insecure ACL", data_dir = dataDir return false else: let res = secureCreatePath(dataDir) if res.isErr(): fatal "Could not create data folder", data_dir = dataDir, errorMsg = ioErrorMsg(res.error), errorCode = $res.error return false else: fatal "Unsupported operation system" return false return true proc checkSensitiveFilePermissions*(filePath: string): bool = ## Check if ``filePath`` has only "(600) rw-------" permissions. ## Procedure returns ``false`` if permissions are different and we can't ## correct them. when defined(windows): let cres = checkCurrentUserOnlyACL(filePath) if cres.isErr(): fatal "Could not check file's ACL", key_path = filePath, errorCode = $cres.error, errorMsg = ioErrorMsg(cres.error) return false else: if cres.get() == false: fatal "File has insecure permissions", key_path = filePath return false else: let requiredPerms = 0o600 let currPermsRes = getPermissions(filePath) if currPermsRes.isErr(): error "Could not check file permissions", key_path = filePath, errorCode = $currPermsRes.error, errorMsg = ioErrorMsg(currPermsRes.error) return false else: let currPerms = currPermsRes.get() if currPerms != requiredPerms: warn "File has insecure permissions. Correcting them.", key_path = filePath, current_permissions = currPerms.toOct(4), required_permissions = requiredPerms.toOct(4) let newPermsRes = setPermissions(filePath, requiredPerms) if newPermsRes.isErr(): fatal "Could not set data directory permissions", key_path = filePath, errorCode = $newPermsRes.error, errorMsg = ioErrorMsg(newPermsRes.error), old_permissions = currPerms.toOct(4), new_permissions = requiredPerms.toOct(4) return false return true proc keyboardCreatePassword(prompt: string, confirm: string, allowEmpty = false): KsResult[string] = while true: let password = try: readPasswordFromStdin(prompt) except IOError: error "Could not read password from stdin" return err("Could not read password from stdin") if password.len == 0 and allowEmpty: return ok("") # We treat `password` as UTF-8 encoded string. if validateUtf8(password) == -1: if runeLen(password) < minPasswordLen: echoP "The entered password should be at least " & $minPasswordLen & " characters." echo "" continue elif passwordEntropy(password) < minPasswordEntropy: echoP "The entered password has low entropy and may be easy to " & "brute-force with automated tools. Please increase the " & "variety of the user characters." continue elif password in mostCommonPasswords: echoP "The entered password is too commonly used and it would be " & "easy to brute-force with automated tools." echo "" continue else: echoP "Entered password is not valid UTF-8 string" echo "" continue let confirmedPassword = try: readPasswordFromStdin(confirm) except IOError: error "Could not read password from stdin" return err("Could not read password from stdin") if password != confirmedPassword: echo "Passwords don't match, please try again\n" continue return ok(password) proc keyboardGetPassword[T](prompt: string, attempts: int, pred: proc(p: string): KsResult[T] {.closure.}): KsResult[T] = var remainingAttempts = attempts counter = 1 while remainingAttempts > 0: let passphrase = try: readPasswordFromStdin(prompt) except IOError: error "Could not read password from stdin" return os.sleep(1000 * counter) let res = pred(passphrase) if res.isOk(): return res else: inc(counter) dec(remainingAttempts) err("Failed to decrypt keystore") proc loadKeystore*(validatorsDir, secretsDir, keyName: string, nonInteractive: bool): Option[ValidatorPrivKey] = let keystorePath = validatorsDir / keyName / keystoreFileName keystore = try: Json.loadFile(keystorePath, Keystore) except IOError as err: error "Failed to read keystore", err = err.msg, path = keystorePath return except SerializationError as err: error "Invalid keystore", err = err.formatMsg(keystorePath) return let passphrasePath = secretsDir / keyName if fileExists(passphrasePath): if not(checkSensitiveFilePermissions(passphrasePath)): error "Password file has insecure permissions", key_path = keyStorePath return let passphrase = KeystorePass.init: try: readFile(passphrasePath) except IOError as err: error "Failed to read passphrase file", err = err.msg, path = passphrasePath return let res = decryptKeystore(keystore, passphrase) if res.isOk: return res.get.some else: error "Failed to decrypt keystore", keystorePath, passphrasePath return if nonInteractive: error "Unable to load validator key store. Please ensure matching passphrase exists in the secrets dir", keyName, validatorsDir, secretsDir = secretsDir return let prompt = "Please enter passphrase for key \"" & (validatorsDir / keyName) & "\": " let res = keyboardGetPassword[ValidatorPrivKey](prompt, 3, proc (password: string): KsResult[ValidatorPrivKey] = let decrypted = decryptKeystore(keystore, KeystorePass.init password) if decrypted.isErr(): error "Keystore decryption failed. Please try again", keystorePath decrypted ) if res.isOk(): some(res.get()) else: return iterator validatorKeysFromDirs*(validatorsDir, secretsDir: string): ValidatorPrivKey = try: for kind, file in walkDir(validatorsDir): if kind == pcDir: let keyName = splitFile(file).name let key = loadKeystore(validatorsDir, secretsDir, keyName, true) if key.isSome: yield key.get else: quit 1 except OSError: quit 1 iterator validatorKeys*(config: BeaconNodeConf|ValidatorClientConf): ValidatorPrivKey = let validatorsDir = config.validatorsDir try: for kind, file in walkDir(validatorsDir): if kind == pcDir: let keyName = splitFile(file).name let key = loadKeystore(validatorsDir, config.secretsDir, keyName, config.nonInteractive) if key.isSome: yield key.get else: quit 1 except OSError as err: error "Validator keystores directory not accessible", path = validatorsDir, err = err.msg quit 1 type KeystoreGenerationError = enum RandomSourceDepleted, FailedToCreateValidatorDir FailedToCreateSecretsDir FailedToCreateSecretFile FailedToCreateKeystoreFile proc loadNetKeystore*(keyStorePath: string, insecurePwd: Option[string]): Option[lcrypto.PrivateKey] = if not(checkSensitiveFilePermissions(keystorePath)): error "Network keystorage file has insecure permissions", key_path = keyStorePath return let keyStore = try: Json.loadFile(keystorePath, NetKeystore) except IOError as err: error "Failed to read network keystore", err = err.msg, path = keystorePath return except SerializationError as err: error "Invalid network keystore", err = err.formatMsg(keystorePath) return if insecurePwd.isSome(): warn "Using insecure password to unlock networking key" let decrypted = decryptNetKeystore(keystore, KeystorePass.init insecurePwd.get) if decrypted.isOk: return some(decrypted.get()) else: error "Network keystore decryption failed", key_store = keyStorePath return else: let prompt = "Please enter passphrase to unlock networking key: " let res = keyboardGetPassword[lcrypto.PrivateKey](prompt, 3, proc (password: string): KsResult[lcrypto.PrivateKey] = let decrypted = decryptNetKeystore(keystore, KeystorePass.init password) if decrypted.isErr(): error "Keystore decryption failed. Please try again", keystorePath decrypted ) if res.isOk(): some(res.get()) else: return proc saveNetKeystore*(rng: var BrHmacDrbgContext, keyStorePath: string, netKey: lcrypto.PrivateKey, insecurePwd: Option[string] ): Result[void, KeystoreGenerationError] = let password = if insecurePwd.isSome(): warn "Using insecure password to lock networking key", key_path = keyStorePath insecurePwd.get() else: let prompt = "Please enter NEW password to lock network key storage: " let confirm = "Please confirm, network key storage password: " let res = keyboardCreatePassword(prompt, confirm) if res.isErr(): return err(FailedToCreateKeystoreFile) res.get() let keyStore = createNetKeystore(kdfScrypt, rng, netKey, KeystorePass.init password) var encodedStorage: string try: encodedStorage = Json.encode(keyStore) except SerializationError: error "Could not serialize network key storage", key_path = keyStorePath return err(FailedToCreateKeystoreFile) let res = secureWriteFile(keyStorePath, encodedStorage) if res.isOk(): ok() else: error "Could not write to network key storage file", key_path = keyStorePath err(FailedToCreateKeystoreFile) proc saveKeystore(rng: var BrHmacDrbgContext, validatorsDir, secretsDir: string, signingKey: ValidatorPrivKey, signingPubKey: ValidatorPubKey, signingKeyPath: KeyPath): Result[void, KeystoreGenerationError] = let keyName = "0x" & $signingPubKey validatorDir = validatorsDir / keyName if not existsDir(validatorDir): var password = KeystorePass.init ncrutils.toHex(getRandomBytes(rng, 32)) defer: burnMem(password) let keyStore = createKeystore(kdfPbkdf2, rng, signingKey, password, signingKeyPath) keystoreFile = validatorDir / keystoreFileName var encodedStorage: string try: encodedStorage = Json.encode(keyStore) except SerializationError: error "Could not serialize keystorage", key_path = keystoreFile return err(FailedToCreateKeystoreFile) let vres = secureCreatePath(validatorDir) if vres.isErr(): return err(FailedToCreateValidatorDir) let sres = secureCreatePath(secretsDir) if sres.isErr(): return err(FailedToCreateSecretsDir) let swres = secureWriteFile(secretsDir / keyName, password.str) if swres.isErr(): return err(FailedToCreateSecretFile) let kwres = secureWriteFile(keystoreFile, encodedStorage) if kwres.isErr(): return err(FailedToCreateKeystoreFile) ok() proc generateDeposits*(preset: RuntimePreset, rng: var BrHmacDrbgContext, seed: KeySeed, firstValidatorIdx, totalNewValidators: int, validatorsDir: string, secretsDir: string): Result[seq[DepositData], KeystoreGenerationError] = var deposits: seq[DepositData] notice "Generating deposits", totalNewValidators, validatorsDir, secretsDir # We'll reuse a single variable here to make the secret # scrubbing (burnMem) easier to handle: var baseKey = deriveMasterKey(seed) defer: burnMem(baseKey) baseKey = deriveChildKey(baseKey, baseKeyPath) for i in 0 ..< totalNewValidators: let validatorIdx = firstValidatorIdx + i # We'll reuse a single variable here to make the secret # scrubbing (burnMem) easier to handle: var derivedKey = baseKey defer: burnMem(derivedKey) derivedKey = deriveChildKey(derivedKey, validatorIdx) derivedKey = deriveChildKey(derivedKey, 0) # This is witdrawal key let withdrawalPubKey = derivedKey.toPubKey derivedKey = deriveChildKey(derivedKey, 0) # This is the signing key let signingPubKey = derivedKey.toPubKey ? saveKeystore(rng, validatorsDir, secretsDir, derivedKey, signingPubKey, makeKeyPath(validatorIdx, signingKeyKind)) deposits.add preset.prepareDeposit(withdrawalPubKey, derivedKey, signingPubKey) ok deposits proc saveWallet*(wallet: Wallet, outWalletPath: string): Result[void, string] = let walletDir = splitFile(outWalletPath).dir var encodedWallet: string try: encodedWallet = Json.encode(wallet, pretty = true) except SerializationError: return err("Could not serialize wallet") let pres = secureCreatePath(walletDir) if pres.isErr(): return err("Could not create wallet directory [" & walletDir & "]") let wres = secureWriteFile(outWalletPath, encodedWallet) if wres.isErr(): return err("Could not write wallet to file [" & outWalletPath & "]") ok() proc saveWallet*(wallet: WalletPathPair): Result[void, string] = saveWallet(wallet.wallet, wallet.path) proc readPasswordInput(prompt: string, password: var TaintedString): bool = try: when defined(windows): # readPasswordFromStdin() on Windows always returns `false`. # https://github.com/nim-lang/Nim/issues/15207 discard readPasswordFromStdin(prompt, password) true else: readPasswordFromStdin(prompt, password) except IOError: false proc setStyleNoError(styles: set[Style]) = when defined(windows): try: stdout.setStyle(styles) except: discard else: try: stdout.setStyle(styles) except IOError, ValueError: discard proc setForegroundColorNoError(color: ForegroundColor) = when defined(windows): try: stdout.setForegroundColor(color) except: discard else: try: stdout.setForegroundColor(color) except IOError, ValueError: discard proc resetAttributesNoError() = when defined(windows): try: stdout.resetAttributes() except: discard else: try: stdout.resetAttributes() except IOError: discard proc importKeystoresFromDir*(rng: var BrHmacDrbgContext, importedDir, validatorsDir, secretsDir: string) = var password: TaintedString defer: burnMem(password) try: for file in walkDirRec(importedDir): let filenameParts = splitFile(file) if toLowerAscii(filenameParts.ext) != ".json": continue # In case we are importing from eth2.0-deposits-cli, the imported # validator_keys directory will also include a "deposit_data" file # intended for uploading to the launchpad. We'll skip it to avoid # the "Invalid keystore" warning that it will trigger. if filenameParts.name.startsWith("deposit_data"): continue let keystore = try: Json.loadFile(file, Keystore) except SerializationError as e: warn "Invalid keystore", err = e.formatMsg(file) continue except IOError as e: warn "Failed to read keystore file", file, err = e.msg continue var firstDecryptionAttempt = true while true: var secret: seq[byte] let status = decryptCryptoField(keystore.crypto, KeystorePass.init password, secret) case status of Success: let privKey = ValidatorPrivKey.fromRaw(secret) if privKey.isOk: let pubKey = privKey.value.toPubKey let status = saveKeystore(rng, validatorsDir, secretsDir, privKey.value, pubKey, keystore.path) if status.isOk: notice "Keystore imported", file else: error "Failed to import keystore", file, err = status.error else: error "Imported keystore holds invalid key", file, err = privKey.error break of InvalidKeystore: warn "Invalid keystore", file break of InvalidPassword: if firstDecryptionAttempt: try: const msg = "Please enter the password for decrypting '$1' " & "or press ENTER to skip importing this keystore" echo msg % [file] except ValueError: raiseAssert "The format string above is correct" else: echo "The entered password was incorrect. Please try again." firstDecryptionAttempt = false if not readPasswordInput("Password: ", password): echo "System error while entering password. Please try again." if password.len == 0: break except OSError: fatal "Failed to access the imported deposits directory" quit 1 template ask(prompt: string): string = try: stdout.write prompt, ": " stdin.readLine() except IOError: return err "failure to read data from stdin" proc pickPasswordAndSaveWallet(rng: var BrHmacDrbgContext, config: BeaconNodeConf, seed: KeySeed): Result[WalletPathPair, string] = echoP "When you perform operations with your wallet such as withdrawals " & "and additional deposits, you'll be asked to enter a signing " & "password. Please note that this password is local to the current " & "machine and you can change it at any time." echo "" var password = block: let prompt = "Please enter a password: " let confirm = "Please repeat the password: " let res = keyboardCreatePassword(prompt, confirm) if res.isErr(): return err($res.error) res.get() defer: burnMem(password) var name: WalletName let outWalletName = config.outWalletName if outWalletName.isSome: name = outWalletName.get else: echoP "For your convenience, the wallet can be identified with a name " & "of your choice. Please enter a wallet name below or press ENTER " & "to continue with a machine-generated name." echo "" while true: var enteredName = ask "Wallet name" if enteredName.len > 0: name = try: WalletName.parseCmdArg(enteredName) except CatchableError as err: echo err.msg & ". Please try again." continue break let nextAccount = if config.cmd == wallets and config.walletsCmd == WalletsCmd.restore: config.restoredDepositsCount else: none Natural let wallet = createWallet(kdfPbkdf2, rng, seed, name = name, nextAccount = nextAccount, password = KeystorePass.init password) let outWalletFileFlag = config.outWalletFile let outWalletFile = if outWalletFileFlag.isSome: string outWalletFileFlag.get else: config.walletsDir / addFileExt(string wallet.name, "json") let status = saveWallet(wallet, outWalletFile) if status.isErr: return err("failure to create wallet file due to " & status.error) echo "\nWallet file successfully written to \"", outWalletFile, "\"" return ok WalletPathPair(wallet: wallet, path: outWalletFile) when defined(windows): proc clearScreen = discard execShellCmd("cls") else: template clearScreen = echo "\e[1;1H\e[2J\e[3J" proc createWalletInteractively*( rng: var BrHmacDrbgContext, config: BeaconNodeConf): Result[CreatedWallet, string] = if config.nonInteractive: return err "not running in interactive mode" echoP "The generated wallet is uniquely identified by a seed phrase " & "consisting of 24 words. In case you lose your wallet and you " & "need to restore it on a different machine, you can use the " & "seed phrase to re-generate your signing and withdrawal keys." echoP "The seed phrase should be kept secret in a safe location as if " & "you are protecting a sensitive password. It can be used to withdraw " & "funds from your wallet." echoP "We will display the seed phrase on the next screen. Please make sure " & "you are in a safe environment and there are no cameras or potentially " & "unwanted eye witnesses around you. Please prepare everything necessary " & "to copy the seed phrase to a safe location and type 'continue' in " & "the prompt below to proceed to the next screen or 'q' to exit now." echo "" while true: let answer = ask "Action" if answer.len > 0 and answer[0] == 'q': quit 1 if answer == "continue": break echoP "To proceed to your seed phrase, please type 'continue' (without the quotes). " & "Type 'q' to exit now." echo "" var mnemonic = generateMnemonic(rng) defer: burnMem(mnemonic) try: echoP "Your seed phrase is:" setStyleNoError({styleBright}) setForegroundColorNoError fgCyan echoP $mnemonic resetAttributesNoError() except IOError, ValueError: return err "failure to write to the standard output" echoP "Press any key to continue." try: discard getch() except IOError as err: fatal "Failed to read a key from stdin", err = err.msg quit 1 clearScreen() echoP "To confirm that you've saved the seed phrase, please enter the " & "first and the last three words of it. In case you've saved the " & "seek phrase in your clipboard, we strongly advice clearing the " & "clipboard now." echo "" for i in countdown(2, 0): let answer = ask "Answer" let parts = answer.split(' ', maxsplit = 1) if parts.len == 2: if count(parts[1], ' ') == 2 and mnemonic.string.startsWith(parts[0]) and mnemonic.string.endsWith(parts[1]): break else: doAssert parts.len == 1 if i > 0: echo "\nYour answer was not correct. You have ", i, " more attempts" echoP "Please enter 4 words separated with a single space " & "(the first word from the seed phrase, followed by the last 3)" echo "" else: quit 1 clearScreen() var mnenomicPassword = KeystorePass.init "" defer: burnMem(mnenomicPassword) echoP "The recovery of your wallet can be additionally protected by a" & "recovery password. Since the seed phrase itself can be considered " & "a password, setting such an additional password is optional. " & "To ensure the strongest possible security, we recommend writing " & "down your seed phrase and remembering your recovery password. " & "If you don'n want to set a recovery password, just press ENTER." var recoveryPassword = keyboardCreatePassword( "Recovery password: ", "Confirm password: ", allowEmpty = true) defer: if recoveryPassword.isOk: burnMem(recoveryPassword.get) if recoveryPassword.isErr: fatal "Failed to read password from stdin" quit 1 var keystorePass = KeystorePass.init recoveryPassword.get defer: burnMem(keystorePass) var seed = getSeed(mnemonic, keystorePass) defer: burnMem(seed) let walletPath = ? pickPasswordAndSaveWallet(rng, config, seed) return ok CreatedWallet(walletPath: walletPath, seed: seed) proc restoreWalletInteractively*(rng: var BrHmacDrbgContext, config: BeaconNodeConf) = var enteredMnemonic: TaintedString validatedMnemonic: Mnemonic defer: burnMem enteredMnemonic burnMem validatedMnemonic echo "To restore your wallet, please enter your backed-up seed phrase." while true: if not readPasswordInput("Seedphrase: ", enteredMnemonic): fatal "failure to read password from stdin" quit 1 if validateMnemonic(enteredMnemonic, validatedMnemonic): break else: echo "The entered mnemonic was not valid. Please try again." echoP "If your seed phrase was protected with a recovery password, " & "please enter it below. Please ENTER to attempt to restore " & "the wallet without a recovery password." var recoveryPassword = keyboardCreatePassword( "Recovery password: ", "Confirm password: ", allowEmpty = true) defer: if recoveryPassword.isOk: burnMem(recoveryPassword.get) if recoveryPassword.isErr: fatal "Failed to read password from stdin" quit 1 var keystorePass = KeystorePass.init recoveryPassword.get defer: burnMem(keystorePass) var seed = getSeed(validatedMnemonic, keystorePass) defer: burnMem(seed) discard pickPasswordAndSaveWallet(rng, config, seed) proc unlockWalletInteractively*(wallet: Wallet): Result[KeySeed, string] = echo "Please enter the password for unlocking the wallet" let res = keyboardGetPassword[KeySeed]("Password: ", 3, proc (password: string): KsResult[KeySeed] = var secret: seq[byte] defer: burnMem(secret) let status = decryptCryptoField(wallet.crypto, KeystorePass.init password, secret) case status of Success: ok(KeySeed secret) else: # TODO Handle InvalidKeystore in a special way here let failed = "Unlocking of the wallet failed. Please try again" echo failed err(failed) ) if res.isOk(): ok(res.get()) else: err "Unlocking of the wallet failed." proc loadWallet*(fileName: string): Result[Wallet, string] = try: ok Json.loadFile(fileName, Wallet) except SerializationError as err: err "Invalid wallet syntax: " & err.formatMsg(fileName) except IOError as err: err "Error accessing wallet file \"" & fileName & "\": " & err.msg proc findWallet*(config: BeaconNodeConf, name: WalletName): Result[Option[WalletPathPair], string] = var walletFiles = newSeq[string]() try: for kind, walletFile in walkDir(config.walletsDir): if kind != pcFile: continue let walletId = splitFile(walletFile).name if cmpIgnoreCase(walletId, name.string) == 0: let wallet = ? loadWallet(walletFile) return ok some WalletPathPair(wallet: wallet, path: walletFile) walletFiles.add walletFile except OSError as err: return err("Error accessing the wallets directory \"" & config.walletsDir & "\": " & err.msg) for walletFile in walletFiles: let wallet = ? loadWallet(walletFile) if cmpIgnoreCase(wallet.name.string, name.string) == 0 or cmpIgnoreCase(wallet.uuid.string, name.string) == 0: return ok some WalletPathPair(wallet: wallet, path: walletFile) return ok none(WalletPathPair) type # This is not particularly well-standardized yet. # Some relevant code for generating (1) and validating (2) the data can be found below: # 1) https://github.com/ethereum/eth2.0-deposit-cli/blob/dev/eth2deposit/credentials.py # 2) https://github.com/ethereum/eth2.0-deposit/blob/dev/src/pages/UploadValidator/validateDepositKey.ts LaunchPadDeposit* = object pubkey*: ValidatorPubKey withdrawal_credentials*: Eth2Digest amount*: Gwei signature*: ValidatorSig deposit_message_root*: Eth2Digest deposit_data_root*: Eth2Digest fork_version*: Version func init*(T: type LaunchPadDeposit, preset: RuntimePreset, d: DepositData): T = T(pubkey: d.pubkey, withdrawal_credentials: d.withdrawal_credentials, amount: d.amount, signature: d.signature, deposit_message_root: hash_tree_root(d as DepositMessage), deposit_data_root: hash_tree_root(d), fork_version: preset.GENESIS_FORK_VERSION) func `as`*(copied: LaunchPadDeposit, T: type DepositData): T = T(pubkey: copied.pubkey, withdrawal_credentials: copied.withdrawal_credentials, amount: copied.amount, signature: copied.signature)