# beacon_chain # Copyright (c) 2018-2024 Status Research & Development GmbH # Licensed and distributed under either of # * MIT license (license terms in the root directory or at https://opensource.org/licenses/MIT). # * Apache v2 license (license terms in the root directory or at https://www.apache.org/licenses/LICENSE-2.0). # at your option. This file may not be copied, modified, or distributed except according to those terms. {.push raises: [].} import std/[os, sequtils, strutils, options, json, terminal], chronos, chronicles, confutils, stint, json_serialization, ../filepath, ../networking/network_metadata, web3, web3/confutils_defs, eth/keys, eth/p2p/discoveryv5/random2, stew/[io2, byteutils], ../spec/eth2_merkleization, ../spec/datatypes/base, ../validators/keystore_management # Compiled version of /scripts/depositContract.v.py in this repo # The contract was compiled in Remix (https://remix.ethereum.org/) with vyper (remote) compiler. const contractCode = hexToSeqByte staticRead "deposit_contract_code.txt" type Eth1Address = web3.Address StartUpCommand {.pure.} = enum deploy sendEth generateSimulationDeposits sendDeposits CliConfig = object web3Url* {. defaultValue: "", desc: "URL of the Web3 server to observe Eth1" name: "web3-url" }: string privateKey* {. defaultValue: "" desc: "Private key of the controlling account" name: "private-key" }: string askForKey {. defaultValue: false desc: "Ask for an Eth1 private key interactively" name: "ask-for-key" }: bool eth2Network* {. desc: "The Eth2 network preset to use" name: "network" }: Option[string] case cmd* {.command.}: StartUpCommand of deploy: discard of sendEth: toAddress {.name: "to".}: Eth1Address valueEth {.name: "eth".}: string of generateSimulationDeposits: simulationDepositsCount {. desc: "The number of validator keystores to generate" name: "count" }: Natural outValidatorsDir {. desc: "A directory to store the generated validator keystores" name: "out-validators-dir" }: OutDir outSecretsDir {. desc: "A directory to store the generated keystore password files" name: "out-secrets-dir" }: OutDir outDepositsFile {. desc: "A LaunchPad deposits file to write" name: "out-deposits-file" }: OutFile threshold {. defaultValue: 1 desc: "Used to generate distributed keys" name: "threshold" }: uint32 remoteValidatorsCount {. defaultValue: 0 desc: "The number of distributed validators validator" name: "remote-validators-count" }: uint32 remoteSignersUrls {. desc: "URLs of the remote signers" name: "remote-signer" }: seq[string] of sendDeposits: depositsFile {. desc: "A LaunchPad deposits file" name: "deposits-file" }: InputFile depositContractAddress {. desc: "Address of the deposit contract" name: "deposit-contract" }: Eth1Address minDelay {. defaultValue: 0.0 desc: "Minimum possible delay between making two deposits (in seconds)" name: "min-delay" }: float maxDelay {. defaultValue: 0.0 desc: "Maximum possible delay between making two deposits (in seconds)" name: "max-delay" }: float type PubKeyBytes = DynamicBytes[48, 48] WithdrawalCredentialsBytes = DynamicBytes[32, 32] SignatureBytes = DynamicBytes[96, 96] contract(DepositContract): proc deposit(pubkey: PubKeyBytes, withdrawalCredentials: WithdrawalCredentialsBytes, signature: SignatureBytes, deposit_data_root: FixedBytes[32]) proc deployContract*(web3: Web3, code: seq[byte]): Future[ReceiptObject] {.async.} = let tr = TransactionArgs( `from`: web3.defaultAccount.some, data: code.some, gas: Quantity(3000000).some, gasPrice: Quantity(1).some) let r = await web3.send(tr) result = await web3.getMinedTransactionReceipt(r) proc sendEth(web3: Web3, to: Eth1Address, valueEth: int): Future[TxHash] = let tr = TransactionArgs( `from`: web3.defaultAccount.some, # TODO: Force json-rpc to generate 'data' field # should not be needed anymore, new execution-api schema # is using `input` field data: some(newSeq[byte]()), gas: Quantity(3000000).some, gasPrice: Quantity(1).some, value: some(valueEth.u256 * 1000000000000000000.u256), to: some(to)) web3.send(tr) type DelayGenerator* = proc(): chronos.Duration {.gcsafe, raises: [].} proc ethToWei(eth: UInt256): UInt256 = eth * 1000000000000000000.u256 proc initWeb3(web3Url, privateKey: string): Future[Web3] {.async.} = result = await newWeb3(web3Url) if privateKey.len != 0: result.privateKey = some(PrivateKey.fromHex(privateKey)[]) else: let accounts = await result.provider.eth_accounts() doAssert(accounts.len > 0) result.defaultAccount = accounts[0] # TODO: async functions should note take `seq` inputs because # this leads to full copies. proc sendDeposits*(deposits: seq[LaunchPadDeposit], web3Url, privateKey: string, depositContractAddress: Eth1Address, delayGenerator: DelayGenerator = nil) {.async.} = notice "Sending deposits", web3 = web3Url, depositContract = depositContractAddress var web3 = await initWeb3(web3Url, privateKey) let gasPrice = int(await web3.provider.eth_gasPrice()) * 2 let depositContract = web3.contractSender(DepositContract, Address depositContractAddress) for i in 4200 ..< deposits.len: let dp = deposits[i] as DepositData while true: try: let tx = depositContract.deposit( PubKeyBytes(@(dp.pubkey.toRaw())), WithdrawalCredentialsBytes(@(dp.withdrawal_credentials.data)), SignatureBytes(@(dp.signature.toRaw())), FixedBytes[32](hash_tree_root(dp).data)) let status = await tx.send(value = 32.u256.ethToWei, gasPrice = gasPrice) info "Deposit sent", tx = $status if delayGenerator != nil: await sleepAsync(delayGenerator()) break except CatchableError: await sleepAsync(60.seconds) web3 = await initWeb3(web3Url, privateKey) {.pop.} # TODO confutils.nim(775, 17) Error: can raise an unlisted exception: ref IOError proc main() {.async.} = var conf = try: CliConfig.load() except CatchableError as exc: raise exc except Exception as exc: # TODO fix confutils raiseAssert exc.msg let rng = HmacDrbgContext.new() if conf.cmd == StartUpCommand.generateSimulationDeposits: let mnemonic = generateMnemonic(rng[]) seed = getSeed(mnemonic, KeystorePass.init "") cfg = getRuntimeConfig(conf.eth2Network) threshold = if conf.remoteSignersUrls.len > 0: conf.threshold else: 0 if conf.remoteValidatorsCount > 0 and conf.remoteSignersUrls.len == 0: fatal "Please specify at least one remote signer URL" quit 1 if (let res = secureCreatePath(string conf.outValidatorsDir); res.isErr): warn "Could not create validators folder", path = string conf.outValidatorsDir, err = ioErrorMsg(res.error) if (let res = secureCreatePath(string conf.outSecretsDir); res.isErr): warn "Could not create secrets folder", path = string conf.outSecretsDir, err = ioErrorMsg(res.error) let deposits = generateDeposits( cfg, rng[], seed, 0, conf.simulationDepositsCount, string conf.outValidatorsDir, string conf.outSecretsDir, conf.remoteSignersUrls, threshold, conf.remoteValidatorsCount, KeystoreMode.Fast) if deposits.isErr: fatal "Failed to generate deposits", err = deposits.error quit 1 let launchPadDeposits = mapIt(deposits.value, LaunchPadDeposit.init(cfg, it)) Json.saveFile(string conf.outDepositsFile, launchPadDeposits) notice "Deposit data written", filename = conf.outDepositsFile quit 0 var deposits: seq[LaunchPadDeposit] if conf.cmd == StartUpCommand.sendDeposits: deposits = Json.loadFile(string conf.depositsFile, seq[LaunchPadDeposit]) if conf.askForKey: var privateKey: string # TODO consider using a SecretString type reasonForKey = "" if conf.cmd == StartUpCommand.sendDeposits: let depositsWord = if deposits.len > 1: "deposits" else: "deposit" totalEthNeeded = 32 * deposits.len reasonForKey = " in order to make your $1 (you'll need access to $2 ETH)" % [depositsWord, $totalEthNeeded] echo "Please enter your Goerli Eth1 private key in hex form (e.g. 0x1a2...f3c)" & reasonForKey if not readPasswordFromStdin("> ", privateKey): error "Failed to read an Eth1 private key from standard input" if privateKey.len > 0: conf.privateKey = privateKey.string let web3 = await initWeb3(conf.web3Url, conf.privateKey) case conf.cmd of StartUpCommand.deploy: let receipt = await web3.deployContract(contractCode) echo receipt.contractAddress.get, ";", receipt.blockHash of StartUpCommand.sendEth: echo await sendEth(web3, conf.toAddress, conf.valueEth.parseInt) of StartUpCommand.sendDeposits: var delayGenerator: DelayGenerator if not (conf.maxDelay > 0.0): conf.maxDelay = conf.minDelay elif conf.minDelay > conf.maxDelay: echo "The minimum delay should not be larger than the maximum delay" quit 1 if conf.maxDelay > 0.0: delayGenerator = proc (): chronos.Duration = let minDelay = (conf.minDelay*1000).int64 maxDelay = (conf.maxDelay*1000).int64 chronos.milliseconds (rng[].rand(maxDelay - minDelay) + minDelay) await sendDeposits(deposits, conf.web3Url, conf.privateKey, conf.depositContractAddress, delayGenerator) of StartUpCommand.generateSimulationDeposits: # This is handled above before the case statement discard when isMainModule: waitFor main()