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metamask-extension/ui/ducks/send/helpers.js

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import { addHexPrefix } from 'ethereumjs-util';
import abi from 'human-standard-token-abi';
import BigNumber from 'bignumber.js';
import { GAS_LIMITS, MIN_GAS_LIMIT_HEX } from '../../../shared/constants/gas';
import { calcTokenAmount } from '../../../shared/lib/transactions-controller-utils';
import { CHAIN_ID_TO_GAS_LIMIT_BUFFER_MAP } from '../../../shared/constants/network';
import {
AssetType,
TransactionEnvelopeType,
} from '../../../shared/constants/transaction';
import { readAddressAsContract } from '../../../shared/modules/contract-utils';
import {
addGasBuffer,
generateERC20TransferData,
generateERC721TransferData,
getAssetTransferData,
} from '../../pages/send/send.utils';
import { getGasPriceInHexWei } from '../../selectors';
import { estimateGas } from '../../store/actions';
import { Numeric } from '../../../shared/modules/Numeric';
export async function estimateGasLimitForSend({
selectedAddress,
value,
gasPrice,
sendToken,
to,
data,
isNonStandardEthChain,
chainId,
gasLimit,
...options
}) {
let isSimpleSendOnNonStandardNetwork = false;
// blockGasLimit may be a falsy, but defined, value when we receive it from
// state, so we use logical or to fall back to MIN_GAS_LIMIT_HEX. Some
// network implementations check the gas parameter supplied to
// eth_estimateGas for validity. For this reason, we set token sends
// blockGasLimit default to a higher number. Note that the current gasLimit
// on a BLOCK is 15,000,000 and will be 30,000,000 on mainnet after London.
// Meanwhile, MIN_GAS_LIMIT_HEX is 0x5208.
let blockGasLimit = MIN_GAS_LIMIT_HEX;
if (options.blockGasLimit) {
blockGasLimit = options.blockGasLimit;
} else if (sendToken) {
blockGasLimit = GAS_LIMITS.BASE_TOKEN_ESTIMATE;
}
// The parameters below will be sent to our background process to estimate
// how much gas will be used for a transaction. That background process is
// located in tx-gas-utils.js in the transaction controller folder.
const paramsForGasEstimate = { from: selectedAddress, value, gasPrice };
if (sendToken) {
if (!to) {
// If no to address is provided, we cannot generate the token transfer
// hexData. hexData in a transaction largely dictates how much gas will
// be consumed by a transaction. We must use our best guess, which is
// represented in the gas shared constants.
return GAS_LIMITS.BASE_TOKEN_ESTIMATE;
}
paramsForGasEstimate.value = '0x0';
// We have to generate the erc20/erc721 contract call to transfer tokens in
// order to get a proper estimate for gasLimit.
paramsForGasEstimate.data = getAssetTransferData({
sendToken,
fromAddress: selectedAddress,
toAddress: to,
amount: value,
});
paramsForGasEstimate.to = sendToken.address;
} else {
if (!data) {
// eth.getCode will return the compiled smart contract code at the
// address. If this returns 0x, 0x0 or a nullish value then the address
// is an externally owned account (NOT a contract account). For these
// types of transactions the gasLimit will always be 21,000 or 0x5208
const { isContractAddress } = to
? await readAddressAsContract(global.eth, to)
: {};
if (!isContractAddress && !isNonStandardEthChain) {
return GAS_LIMITS.SIMPLE;
} else if (!isContractAddress && isNonStandardEthChain) {
isSimpleSendOnNonStandardNetwork = true;
}
}
paramsForGasEstimate.data = data;
if (to) {
paramsForGasEstimate.to = to;
}
if (!value || value === '0') {
// TODO: Figure out what's going on here. According to eth_estimateGas
// docs this value can be zero, or undefined, yet we are setting it to a
// value here when the value is undefined or zero. For more context:
// https://github.com/MetaMask/metamask-extension/pull/6195
paramsForGasEstimate.value = '0xff';
}
}
if (!isSimpleSendOnNonStandardNetwork) {
// If we do not yet have a gasLimit, we must call into our background
// process to get an estimate for gasLimit based on known parameters.
paramsForGasEstimate.gas = new Numeric(blockGasLimit, 16)
.times(new Numeric(0.95, 10))
.round(0, BigNumber.ROUND_DOWN)
.toPrefixedHexString();
}
// The buffer multipler reduces transaction failures by ensuring that the
// estimated gas is always sufficient. Without the multiplier, estimates
// for contract interactions can become inaccurate over time. This is because
// gas estimation is non-deterministic. The gas required for the exact same
// transaction call can change based on state of a contract or changes in the
// contracts environment (blockchain data or contracts it interacts with).
// Applying the 1.5 buffer has proven to be a useful guard against this non-
// deterministic behaviour.
//
// Gas estimation of simple sends should, however, be deterministic. As such
// no buffer is needed in those cases.
let bufferMultiplier = 1.5;
if (isSimpleSendOnNonStandardNetwork) {
bufferMultiplier = 1;
} else if (CHAIN_ID_TO_GAS_LIMIT_BUFFER_MAP[chainId]) {
bufferMultiplier = CHAIN_ID_TO_GAS_LIMIT_BUFFER_MAP[chainId];
}
try {
// Call into the background process that will simulate transaction
// execution on the node and return an estimate of gasLimit
const estimatedGasLimit = await estimateGas(paramsForGasEstimate);
const estimateWithBuffer = addGasBuffer(
estimatedGasLimit,
blockGasLimit,
bufferMultiplier,
);
return addHexPrefix(estimateWithBuffer);
} catch (error) {
const simulationFailed =
error.message.includes('Transaction execution error.') ||
error.message.includes(
'gas required exceeds allowance or always failing transaction',
) ||
(CHAIN_ID_TO_GAS_LIMIT_BUFFER_MAP[chainId] &&
error.message.includes('gas required exceeds allowance'));
if (simulationFailed) {
const estimateWithBuffer = addGasBuffer(
paramsForGasEstimate?.gas ?? gasLimit,
blockGasLimit,
bufferMultiplier,
);
return addHexPrefix(estimateWithBuffer);
}
throw error;
}
}
/**
* Generates a txParams from the send slice.
*
* @param {import('.').SendState} sendState - the state of the send slice
* @returns {import(
* '../../../shared/constants/transaction'
* ).TxParams} A txParams object that can be used to create a transaction or
* update an existing transaction.
*/
export function generateTransactionParams(sendState) {
const draftTransaction =
sendState.draftTransactions[sendState.currentTransactionUUID];
const txParams = {
// If the fromAccount has been specified we use that, if not we use the
// selected account.
from:
draftTransaction.fromAccount?.address ||
sendState.selectedAccount.address,
// gasLimit always needs to be set regardless of the asset being sent
// or the type of transaction.
gas: draftTransaction.gas.gasLimit,
};
switch (draftTransaction.asset.type) {
case AssetType.token:
// When sending a token the to address is the contract address of
// the token being sent. The value is set to '0x0' and the data
// is generated from the recipient address, token being sent and
// amount.
txParams.to = draftTransaction.asset.details.address;
txParams.value = '0x0';
txParams.data = generateERC20TransferData({
toAddress: draftTransaction.recipient.address,
amount: draftTransaction.amount.value,
sendToken: draftTransaction.asset.details,
});
break;
case AssetType.NFT:
// When sending a token the to address is the contract address of
// the token being sent. The value is set to '0x0' and the data
// is generated from the recipient address, token being sent and
// amount.
txParams.to = draftTransaction.asset.details.address;
txParams.value = '0x0';
txParams.data = generateERC721TransferData({
toAddress: draftTransaction.recipient.address,
fromAddress:
draftTransaction.fromAccount?.address ??
sendState.selectedAccount.address,
tokenId: draftTransaction.asset.details.tokenId,
});
break;
case AssetType.native:
default:
// When sending native currency the to and value fields use the
// recipient and amount values and the data key is either null or
// populated with the user input provided in hex field.
txParams.to = draftTransaction.recipient.address;
txParams.value = draftTransaction.amount.value;
txParams.data = draftTransaction.userInputHexData ?? undefined;
}
// We need to make sure that we only include the right gas fee fields
// based on the type of transaction the network supports. We will also set
// the type param here.
if (sendState.eip1559support) {
txParams.type = TransactionEnvelopeType.feeMarket;
txParams.maxFeePerGas = draftTransaction.gas.maxFeePerGas;
txParams.maxPriorityFeePerGas = draftTransaction.gas.maxPriorityFeePerGas;
if (!txParams.maxFeePerGas || txParams.maxFeePerGas === '0x0') {
txParams.maxFeePerGas = draftTransaction.gas.gasPrice;
}
if (
!txParams.maxPriorityFeePerGas ||
txParams.maxPriorityFeePerGas === '0x0'
) {
txParams.maxPriorityFeePerGas = txParams.maxFeePerGas;
}
} else {
txParams.gasPrice = draftTransaction.gas.gasPrice;
txParams.type = TransactionEnvelopeType.legacy;
}
return txParams;
}
/**
* This method is used to keep the original logic from the gas.duck.js file
* after receiving a gasPrice from eth_gasPrice. First, the returned gasPrice
* was converted to GWEI, then it was converted to a Number, then in the send
* duck (here) we would use getGasPriceInHexWei to get back to hexWei. Now that
* we receive a GWEI estimate from the controller, we still need to do this
* weird conversion to get the proper rounding.
*
* @param {string} gasPriceEstimate
* @returns {string}
*/
export function getRoundedGasPrice(gasPriceEstimate) {
const gasPriceInDecGwei = new Numeric(gasPriceEstimate, 10)
.round(9)
.toString();
const gasPriceAsNumber = Number(gasPriceInDecGwei);
return getGasPriceInHexWei(gasPriceAsNumber);
}
export async function getERC20Balance(token, accountAddress) {
const contract = global.eth.contract(abi).at(token.address);
const usersToken = (await contract.balanceOf(accountAddress)) ?? null;
if (!usersToken) {
return '0x0';
}
const amount = calcTokenAmount(
usersToken.balance.toString(),
token.decimals,
).toString(16);
return addHexPrefix(amount);
}