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metamask-extension/shared/modules/transaction.utils.js
Alex Donesky 8d20c2834f Add setApprovalForAll confirmation view (#15010)
* enhance setApprovalForAll confirmation flow

* cleanup

* address feedback
2022-07-11 22:02:56 -02:30

267 lines
9.5 KiB
JavaScript

import { isHexString } from 'ethereumjs-util';
import { ethers } from 'ethers';
import { abiERC721, abiERC20, abiERC1155 } from '@metamask/metamask-eth-abis';
import log from 'loglevel';
import { TOKEN_STANDARDS } from '../../ui/helpers/constants/common';
import { ASSET_TYPES, TRANSACTION_TYPES } from '../constants/transaction';
import { readAddressAsContract } from './contract-utils';
import { isEqualCaseInsensitive } from './string-utils';
/**
* @typedef { 'transfer' | 'approve' | 'setapprovalforall' | 'transferfrom' | 'contractInteraction'| 'simpleSend' } InferrableTransactionTypes
*/
/**
* @typedef {Object} InferTransactionTypeResult
* @property {InferrableTransactionTypes} type - The type of transaction
* @property {string} getCodeResponse - The contract code, in hex format if
* it exists. '0x0' or '0x' are also indicators of non-existent contract
* code
*/
/**
* @typedef EthersContractCall
* @type object
* @property {any[]} args - The args/params to the function call.
* An array-like object with numerical and string indices.
* @property {string} name - The name of the function.
* @property {string} signature - The function signature.
* @property {string} sighash - The function signature hash.
* @property {EthersBigNumber} value - The ETH value associated with the call.
* @property {FunctionFragment} functionFragment - The Ethers function fragment
* representation of the function.
*/
const erc20Interface = new ethers.utils.Interface(abiERC20);
const erc721Interface = new ethers.utils.Interface(abiERC721);
const erc1155Interface = new ethers.utils.Interface(abiERC1155);
export function transactionMatchesNetwork(transaction, chainId, networkId) {
if (typeof transaction.chainId !== 'undefined') {
return transaction.chainId === chainId;
}
return transaction.metamaskNetworkId === networkId;
}
/**
* Determines if the maxFeePerGas and maxPriorityFeePerGas fields are supplied
* and valid inputs. This will return false for non hex string inputs.
*
* @param {import("../constants/transaction").TransactionMeta} transaction -
* the transaction to check
* @returns {boolean} true if transaction uses valid EIP1559 fields
*/
export function isEIP1559Transaction(transaction) {
return (
isHexString(transaction?.txParams?.maxFeePerGas) &&
isHexString(transaction?.txParams?.maxPriorityFeePerGas)
);
}
/**
* Determine if the maxFeePerGas and maxPriorityFeePerGas fields are not
* supplied and that the gasPrice field is valid if it is provided. This will
* return false if gasPrice is a non hex string.
*
* @param {import("../constants/transaction").TransactionMeta} transaction -
* the transaction to check
* @returns {boolean} true if transaction uses valid Legacy fields OR lacks
* EIP1559 fields
*/
export function isLegacyTransaction(transaction) {
return (
typeof transaction.txParams.maxFeePerGas === 'undefined' &&
typeof transaction.txParams.maxPriorityFeePerGas === 'undefined' &&
(typeof transaction.txParams.gasPrice === 'undefined' ||
isHexString(transaction.txParams.gasPrice))
);
}
/**
* Determine if a transactions gas fees in txParams match those in its dappSuggestedGasFees property
*
* @param {import("../constants/transaction").TransactionMeta} transaction -
* the transaction to check
* @returns {boolean} true if both the txParams and dappSuggestedGasFees are objects with truthy gas fee properties,
* and those properties are strictly equal
*/
export function txParamsAreDappSuggested(transaction) {
const { gasPrice, maxPriorityFeePerGas, maxFeePerGas } =
transaction?.txParams || {};
return (
(gasPrice && gasPrice === transaction?.dappSuggestedGasFees?.gasPrice) ||
(maxPriorityFeePerGas &&
maxFeePerGas &&
transaction?.dappSuggestedGasFees?.maxPriorityFeePerGas ===
maxPriorityFeePerGas &&
transaction?.dappSuggestedGasFees?.maxFeePerGas === maxFeePerGas)
);
}
/**
* Attempts to decode transaction data using ABIs for three different token standards: ERC20, ERC721, ERC1155.
* The data will decode correctly if the transaction is an interaction with a contract that matches one of these
* contract standards
*
* @param data - encoded transaction data
* @returns {EthersContractCall | undefined}
*/
export function parseStandardTokenTransactionData(data) {
try {
return erc20Interface.parseTransaction({ data });
} catch {
// ignore and next try to parse with erc721 ABI
}
try {
return erc721Interface.parseTransaction({ data });
} catch {
// ignore and next try to parse with erc1155 ABI
}
try {
return erc1155Interface.parseTransaction({ data });
} catch {
// ignore and return undefined
}
return undefined;
}
/**
* Determines the type of the transaction by analyzing the txParams.
* This method will return one of the types defined in shared/constants/transactions
* It will never return TRANSACTION_TYPE_CANCEL or TRANSACTION_TYPE_RETRY as these
* represent specific events that we control from the extension and are added manually
* at transaction creation.
*
* @param {Object} txParams - Parameters for the transaction
* @param {EthQuery} query - EthQuery instance
* @returns {InferTransactionTypeResult}
*/
export async function determineTransactionType(txParams, query) {
const { data, to } = txParams;
let name;
try {
({ name } = data && parseStandardTokenTransactionData(data));
} catch (error) {
log.debug('Failed to parse transaction data.', error, data);
}
const tokenMethodName = [
TRANSACTION_TYPES.TOKEN_METHOD_APPROVE,
TRANSACTION_TYPES.TOKEN_METHOD_SET_APPROVAL_FOR_ALL,
TRANSACTION_TYPES.TOKEN_METHOD_TRANSFER,
TRANSACTION_TYPES.TOKEN_METHOD_TRANSFER_FROM,
TRANSACTION_TYPES.TOKEN_METHOD_SAFE_TRANSFER_FROM,
].find((methodName) => isEqualCaseInsensitive(methodName, name));
let result;
if (data && tokenMethodName) {
result = tokenMethodName;
} else if (data && !to) {
result = TRANSACTION_TYPES.DEPLOY_CONTRACT;
}
let contractCode;
if (!result) {
const {
contractCode: resultCode,
isContractAddress,
} = await readAddressAsContract(query, to);
contractCode = resultCode;
result = isContractAddress
? TRANSACTION_TYPES.CONTRACT_INTERACTION
: TRANSACTION_TYPES.SIMPLE_SEND;
}
return { type: result, getCodeResponse: contractCode };
}
const INFERRABLE_TRANSACTION_TYPES = [
TRANSACTION_TYPES.TOKEN_METHOD_APPROVE,
TRANSACTION_TYPES.TOKEN_METHOD_SET_APPROVAL_FOR_ALL,
TRANSACTION_TYPES.TOKEN_METHOD_TRANSFER,
TRANSACTION_TYPES.TOKEN_METHOD_TRANSFER_FROM,
TRANSACTION_TYPES.CONTRACT_INTERACTION,
TRANSACTION_TYPES.SIMPLE_SEND,
];
/**
* Given a transaction meta object, determine the asset type that the
* transaction is dealing with, as well as the standard for the token if it
* is a token transaction.
*
* @param {import('../constants/transaction').TransactionMeta} txMeta -
* transaction meta object
* @param {EthQuery} query - EthQuery instance
* @param {Function} getTokenStandardAndDetails - function to get token
* standards and details.
* @returns {{ assetType: string, tokenStandard: string}}
*/
export async function determineTransactionAssetType(
txMeta,
query,
getTokenStandardAndDetails,
) {
// If the transaction type is already one of the inferrable types, then we do
// not need to re-establish the type.
let inferrableType = txMeta.type;
if (INFERRABLE_TRANSACTION_TYPES.includes(txMeta.type) === false) {
// Because we will deal with all types of transactions (including swaps)
// we want to get an inferrable type of transaction that isn't special cased
// that way we can narrow the number of logic gates required.
const result = await determineTransactionType(txMeta.txParams, query);
inferrableType = result.type;
}
// If the inferred type of the transaction is one of those that are part of
// the token contract standards, we can use the getTokenStandardAndDetails
// method to get the asset type.
const isTokenMethod = [
TRANSACTION_TYPES.TOKEN_METHOD_APPROVE,
TRANSACTION_TYPES.TOKEN_METHOD_SET_APPROVAL_FOR_ALL,
TRANSACTION_TYPES.TOKEN_METHOD_TRANSFER,
TRANSACTION_TYPES.TOKEN_METHOD_TRANSFER_FROM,
].find((methodName) => methodName === inferrableType);
if (
isTokenMethod ||
// We can also check any contract interaction type to see if the to address
// is a token contract. If it isn't, then the method will throw and we can
// fall through to the other checks.
inferrableType === TRANSACTION_TYPES.CONTRACT_INTERACTION
) {
try {
// We don't need a balance check, so the second parameter to
// getTokenStandardAndDetails is omitted.
const details = await getTokenStandardAndDetails(txMeta.txParams.to);
if (details.standard) {
return {
assetType:
details.standard === TOKEN_STANDARDS.ERC20
? ASSET_TYPES.TOKEN
: ASSET_TYPES.COLLECTIBLE,
tokenStandard: details.standard,
};
}
} catch {
// noop, We expect errors here but we don't need to report them or do
// anything in response.
}
}
// If the transaction is interacting with a contract but isn't a token method
// we use the 'UNKNOWN' value to show that it isn't a transaction sending any
// particular asset.
if (inferrableType === TRANSACTION_TYPES.CONTRACT_INTERACTION) {
return {
assetType: ASSET_TYPES.UNKNOWN,
tokenStandard: TOKEN_STANDARDS.NONE,
};
}
return { assetType: ASSET_TYPES.NATIVE, tokenStandard: TOKEN_STANDARDS.NONE };
}