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530 lines
20 KiB
530 lines
20 KiB
import { createSelector } from 'reselect';
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import {
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PRIORITY_STATUS_HASH,
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PENDING_STATUS_HASH,
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} from '../helpers/constants/transactions';
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import { hexToDecimal } from '../helpers/utils/conversions.util';
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import txHelper from '../helpers/utils/tx-helper';
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import {
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TRANSACTION_STATUSES,
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TRANSACTION_TYPES,
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SMART_TRANSACTION_STATUSES,
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} from '../../shared/constants/transaction';
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import { transactionMatchesNetwork } from '../../shared/modules/transaction.utils';
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import {
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getCurrentChainId,
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deprecatedGetCurrentNetworkId,
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getSelectedAddress,
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} from './selectors';
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const INVALID_INITIAL_TRANSACTION_TYPES = [
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TRANSACTION_TYPES.CANCEL,
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TRANSACTION_TYPES.RETRY,
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];
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export const incomingTxListSelector = (state) => {
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const { showIncomingTransactions } = state.metamask.featureFlags;
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if (!showIncomingTransactions) {
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return [];
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}
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const {
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network,
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provider: { chainId },
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} = state.metamask;
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const selectedAddress = getSelectedAddress(state);
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return Object.values(state.metamask.incomingTransactions).filter(
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(tx) =>
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tx.txParams.to === selectedAddress &&
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transactionMatchesNetwork(tx, chainId, network),
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);
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};
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export const unapprovedMsgsSelector = (state) => state.metamask.unapprovedMsgs;
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export const currentNetworkTxListSelector = (state) =>
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state.metamask.currentNetworkTxList;
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export const unapprovedPersonalMsgsSelector = (state) =>
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state.metamask.unapprovedPersonalMsgs;
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export const unapprovedDecryptMsgsSelector = (state) =>
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state.metamask.unapprovedDecryptMsgs;
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export const unapprovedEncryptionPublicKeyMsgsSelector = (state) =>
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state.metamask.unapprovedEncryptionPublicKeyMsgs;
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export const unapprovedTypedMessagesSelector = (state) =>
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state.metamask.unapprovedTypedMessages;
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export const smartTransactionsListSelector = (state) =>
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state.metamask.smartTransactionsState?.smartTransactions?.[
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getCurrentChainId(state)
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]
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?.filter((stx) => !stx.confirmed)
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.map((stx) => ({
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...stx,
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transactionType: TRANSACTION_TYPES.SMART,
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status: stx.status?.startsWith('cancelled')
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? SMART_TRANSACTION_STATUSES.CANCELLED
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: stx.status,
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}));
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export const selectedAddressTxListSelector = createSelector(
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getSelectedAddress,
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currentNetworkTxListSelector,
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smartTransactionsListSelector,
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(selectedAddress, transactions = [], smTransactions = []) => {
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return transactions
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.filter(({ txParams }) => txParams.from === selectedAddress)
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.concat(smTransactions);
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},
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);
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export const unapprovedMessagesSelector = createSelector(
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unapprovedMsgsSelector,
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unapprovedPersonalMsgsSelector,
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unapprovedDecryptMsgsSelector,
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unapprovedEncryptionPublicKeyMsgsSelector,
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unapprovedTypedMessagesSelector,
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deprecatedGetCurrentNetworkId,
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getCurrentChainId,
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(
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unapprovedMsgs = {},
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unapprovedPersonalMsgs = {},
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unapprovedDecryptMsgs = {},
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unapprovedEncryptionPublicKeyMsgs = {},
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unapprovedTypedMessages = {},
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network,
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chainId,
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) =>
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txHelper(
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{},
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unapprovedMsgs,
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unapprovedPersonalMsgs,
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unapprovedDecryptMsgs,
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unapprovedEncryptionPublicKeyMsgs,
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unapprovedTypedMessages,
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network,
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chainId,
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) || [],
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);
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export const transactionSubSelector = createSelector(
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unapprovedMessagesSelector,
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incomingTxListSelector,
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(unapprovedMessages = [], incomingTxList = []) => {
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return unapprovedMessages.concat(incomingTxList);
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},
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);
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export const transactionsSelector = createSelector(
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transactionSubSelector,
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selectedAddressTxListSelector,
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(subSelectorTxList = [], selectedAddressTxList = []) => {
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const txsToRender = selectedAddressTxList.concat(subSelectorTxList);
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return txsToRender.sort((a, b) => b.time - a.time);
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},
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);
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/**
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* @name insertOrderedNonce
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* @private
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* @description Inserts (mutates) a nonce into an array of ordered nonces, sorted in ascending
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* order.
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* @param {string[]} nonces - Array of nonce strings in hex
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* @param {string} nonceToInsert - Nonce string in hex to be inserted into the array of nonces.
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*/
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const insertOrderedNonce = (nonces, nonceToInsert) => {
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let insertIndex = nonces.length;
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for (let i = 0; i < nonces.length; i++) {
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const nonce = nonces[i];
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if (Number(hexToDecimal(nonce)) > Number(hexToDecimal(nonceToInsert))) {
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insertIndex = i;
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break;
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}
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}
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nonces.splice(insertIndex, 0, nonceToInsert);
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};
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/**
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* @name insertTransactionByTime
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* @private
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* @description Inserts (mutates) a transaction object into an array of ordered transactions, sorted
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* in ascending order by time.
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* @param {Object[]} transactions - Array of transaction objects.
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* @param {Object} transaction - Transaction object to be inserted into the array of transactions.
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*/
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const insertTransactionByTime = (transactions, transaction) => {
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const { time } = transaction;
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let insertIndex = transactions.length;
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for (let i = 0; i < transactions.length; i++) {
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const tx = transactions[i];
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if (tx.time > time) {
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insertIndex = i;
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break;
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}
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}
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transactions.splice(insertIndex, 0, transaction);
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};
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/**
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* Contains transactions and properties associated with those transactions of the same nonce.
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*
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* @typedef {Object} transactionGroup
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* @property {string} nonce - The nonce that the transactions within this transactionGroup share.
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* @property {Object[]} transactions - An array of transaction (txMeta) objects.
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* @property {Object} initialTransaction - The transaction (txMeta) with the lowest "time".
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* @property {Object} primaryTransaction - Either the latest transaction or the confirmed
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* transaction.
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* @property {boolean} hasRetried - True if a transaction in the group was a retry transaction.
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* @property {boolean} hasCancelled - True if a transaction in the group was a cancel transaction.
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*/
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/**
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* @name insertTransactionGroupByTime
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* @private
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* @description Inserts (mutates) a transactionGroup object into an array of ordered
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* transactionGroups, sorted in ascending order by nonce.
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* @param {transactionGroup[]} transactionGroups - Array of transactionGroup objects.
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* @param {transactionGroup} transactionGroup - transactionGroup object to be inserted into the
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* array of transactionGroups.
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*/
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const insertTransactionGroupByTime = (transactionGroups, transactionGroup) => {
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const {
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primaryTransaction: { time: groupToInsertTime } = {},
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} = transactionGroup;
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let insertIndex = transactionGroups.length;
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for (let i = 0; i < transactionGroups.length; i++) {
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const txGroup = transactionGroups[i];
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const { primaryTransaction: { time } = {} } = txGroup;
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if (time > groupToInsertTime) {
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insertIndex = i;
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break;
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}
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}
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transactionGroups.splice(insertIndex, 0, transactionGroup);
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};
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/**
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* @name mergeNonNonceTransactionGroups
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* @private
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* @description Inserts (mutates) transactionGroups that are not to be ordered by nonce into an array
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* of nonce-ordered transactionGroups by time.
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* @param {transactionGroup[]} orderedTransactionGroups - Array of transactionGroups ordered by
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* nonce.
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* @param {transactionGroup[]} nonNonceTransactionGroups - Array of transactionGroups not intended to be ordered by nonce,
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* but intended to be ordered by timestamp
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*/
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const mergeNonNonceTransactionGroups = (
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orderedTransactionGroups,
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nonNonceTransactionGroups,
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) => {
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nonNonceTransactionGroups.forEach((transactionGroup) => {
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insertTransactionGroupByTime(orderedTransactionGroups, transactionGroup);
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});
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};
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/**
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* @name nonceSortedTransactionsSelector
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* @description Returns an array of transactionGroups sorted by nonce in ascending order.
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* @returns {transactionGroup[]}
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*/
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export const nonceSortedTransactionsSelector = createSelector(
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transactionsSelector,
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(transactions = []) => {
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const unapprovedTransactionGroups = [];
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const incomingTransactionGroups = [];
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const orderedNonces = [];
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const nonceToTransactionsMap = {};
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transactions.forEach((transaction) => {
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const {
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txParams: { nonce } = {},
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status,
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type,
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time: txTime,
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txReceipt,
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} = transaction;
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if (typeof nonce === 'undefined' || type === TRANSACTION_TYPES.INCOMING) {
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const transactionGroup = {
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transactions: [transaction],
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initialTransaction: transaction,
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primaryTransaction: transaction,
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hasRetried: false,
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hasCancelled: false,
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nonce,
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};
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if (type === TRANSACTION_TYPES.INCOMING) {
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incomingTransactionGroups.push(transactionGroup);
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} else {
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insertTransactionGroupByTime(
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unapprovedTransactionGroups,
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transactionGroup,
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);
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}
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} else if (nonce in nonceToTransactionsMap) {
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const nonceProps = nonceToTransactionsMap[nonce];
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insertTransactionByTime(nonceProps.transactions, transaction);
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const {
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primaryTransaction: { time: primaryTxTime = 0 } = {},
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initialTransaction: { time: initialTxTime = 0 } = {},
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} = nonceProps;
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// Current Transaction Logic Cases
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// --------------------------------------------------------------------
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// Current transaction: The transaction we are examining in this loop.
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// Each iteration should be in time order, but that is not guaranteed.
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// --------------------------------------------------------------------
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const currentTransaction = {
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// A on chain failure means the current transaction was submitted and
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// considered for inclusion in a block but something prevented it
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// from being included, such as slippage on gas prices and conversion
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// when doing a swap. These transactions will have a '0x0' value in
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// the txReceipt.status field.
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isOnChainFailure: txReceipt?.status === '0x0',
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// Another type of failure is a "off chain" or "network" failure,
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// where the error occurs on the JSON RPC call to the network client
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// (Like Infura). These transactions are never broadcast for
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// inclusion and the nonce associated with them is not consumed. When
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// this occurs the next transaction will have the same nonce as the
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// current, failed transaction. A failed on chain transaction will
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// not have the FAILED status although it should (future TODO: add a
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// new FAILED_ON_CHAIN) status. I use the word "Ephemeral" here
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// because a failed transaction that does not get broadcast is not
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// known outside of the user's local MetaMask and the nonce
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// associated will be applied to the next.
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isEphemeral:
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status === TRANSACTION_STATUSES.FAILED &&
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txReceipt?.status !== '0x0',
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// We never want to use a speed up (retry) or cancel as the initial
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// transaction in a group, regardless of time order. This is because
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// useTransactionDisplayData cannot parse a retry or cancel because
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// it lacks information on whether its a simple send, token transfer,
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// etc.
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isRetryOrCancel: INVALID_INITIAL_TRANSACTION_TYPES.includes(type),
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// Primary transactions usually are the latest transaction by time,
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// but not always. This value shows whether this transaction occurred
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// after the current primary.
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occurredAfterPrimary: txTime > primaryTxTime,
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// Priority Statuses are those that are ones either already confirmed
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// on chain, submitted to the network, or waiting for user approval.
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// These statuses typically indicate a transaction that needs to have
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// its status reflected in the UI.
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hasPriorityStatus: status in PRIORITY_STATUS_HASH,
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// A confirmed transaction is the most valid transaction status to
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// display because no other transaction of the same nonce can have a
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// more valid status.
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isConfirmed: status === TRANSACTION_STATUSES.CONFIRMED,
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// Initial transactions usually are the earliest transaction by time,
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// but not always. THis value shows whether this transaction occurred
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// before the current initial.
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occurredBeforeInitial: txTime < initialTxTime,
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// We only allow users to retry the transaction in certain scenarios
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// to help shield from expensive operations and other unwanted side
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// effects. This value is used to determine if the entire transaction
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// group should be marked as having had a retry.
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isValidRetry:
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type === TRANSACTION_TYPES.RETRY &&
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(status in PRIORITY_STATUS_HASH ||
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status === TRANSACTION_STATUSES.DROPPED),
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// We only allow users to cancel the transaction in certain scenarios
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// to help shield from expensive operations and other unwanted side
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// effects. This value is used to determine if the entire transaction
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// group should be marked as having had a cancel.
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isValidCancel:
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type === TRANSACTION_TYPES.CANCEL &&
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(status in PRIORITY_STATUS_HASH ||
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status === TRANSACTION_STATUSES.DROPPED),
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};
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// We should never assign a retry or cancel transaction as the initial,
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// likewise an ephemeral transaction should not be initial.
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currentTransaction.eligibleForInitial =
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!currentTransaction.isRetryOrCancel &&
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!currentTransaction.isEphemeral;
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// If a transaction failed on chain or was confirmed then it should
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// always be the primary because no other transaction is more valid.
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currentTransaction.shouldBePrimary =
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currentTransaction.isConfirmed || currentTransaction.isOnChainFailure;
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// Primary Transaction Logic Cases
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// --------------------------------------------------------------------
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// Primary transaction: The transaction for any given nonce which has
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// the most valid status on the network.
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// Example:
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// 1. Submit transaction A
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// 2. Speed up Transaction A.
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// 3. This creates a new Transaction (B) with higher gas params.
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// 4. Transaction A and Transaction B are both submitted.
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// 5. We expect Transaction B to be the most valid transaction to use
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// for the status of the transaction group because it has higher
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// gas params and should be included first.
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// The following logic variables are used for edge cases that protect
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// against UI bugs when this breaks down.
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const previousPrimaryTransaction = {
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// As we loop through the transactions in state we may temporarily
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// assign a primaryTransaction that is an "Ephemeral" transaction,
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// which is one that failed before being broadcast for inclusion in a
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// block. When this happens, and we have another transaction to
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// consider in a nonce group, we should use the new transaction.
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isEphemeral:
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nonceProps.primaryTransaction.status ===
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TRANSACTION_STATUSES.FAILED &&
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nonceProps.primaryTransaction?.txReceipt?.status !== '0x0',
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};
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// Initial Transaction Logic Cases
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// --------------------------------------------------------------------
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// Initial Transaction: The transaciton that most likely represents the
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// user's intent when creating/approving the transaction. In most cases
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// this is the first transaction of a nonce group, by time, but this
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// breaks down in the case of users with the advanced setting enabled
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// to set their own nonces manually. In that case a user may submit two
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// completely different transactions of the same nonce and they will be
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// bundled together by this selector as the same activity entry.
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const previousInitialTransaction = {
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// As we loop through the transactions in state we may temporarily
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// assign a initialTransaction that is an "Ephemeral" transaction,
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// which is one that failed before being broadcast for inclusion in a
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// block. When this happens, and we have another transaction to
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// consider in a nonce group, we should use the new transaction.
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isEphemeral:
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nonceProps.initialTransaction.status ===
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TRANSACTION_STATUSES.FAILED &&
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nonceProps.initialTransaction.txReceipt?.status !== '0x0',
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};
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// Check the above logic cases and assign a new primaryTransaction if
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// appropriate
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if (
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currentTransaction.shouldBePrimary ||
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previousPrimaryTransaction.isEphemeral ||
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(currentTransaction.occurredAfterPrimary &&
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currentTransaction.hasPriorityStatus)
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) {
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nonceProps.primaryTransaction = transaction;
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}
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// Check the above logic cases and assign a new initialTransaction if
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// appropriate
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if (
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(currentTransaction.occurredBeforeInitial &&
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currentTransaction.eligibleForInitial) ||
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(previousInitialTransaction.isEphemeral &&
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currentTransaction.eligibleForInitial)
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) {
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nonceProps.initialTransaction = transaction;
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}
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if (currentTransaction.isValidRetry) {
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nonceProps.hasRetried = true;
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}
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if (currentTransaction.isValidCancel) {
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nonceProps.hasCancelled = true;
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}
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} else {
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nonceToTransactionsMap[nonce] = {
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nonce,
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transactions: [transaction],
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initialTransaction: transaction,
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primaryTransaction: transaction,
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hasRetried:
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transaction.type === TRANSACTION_TYPES.RETRY &&
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(transaction.status in PRIORITY_STATUS_HASH ||
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transaction.status === TRANSACTION_STATUSES.DROPPED),
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hasCancelled:
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transaction.type === TRANSACTION_TYPES.CANCEL &&
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(transaction.status in PRIORITY_STATUS_HASH ||
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transaction.status === TRANSACTION_STATUSES.DROPPED),
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};
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insertOrderedNonce(orderedNonces, nonce);
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}
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});
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const orderedTransactionGroups = orderedNonces.map(
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(nonce) => nonceToTransactionsMap[nonce],
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);
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mergeNonNonceTransactionGroups(
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orderedTransactionGroups,
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incomingTransactionGroups,
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);
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return unapprovedTransactionGroups
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.concat(orderedTransactionGroups)
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.map((txGroup) => {
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// In the case that we have a cancel or retry as initial transaction
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// and there is a valid transaction in the group, we should reassign
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// the other valid transaction as initial. In this case validity of the
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// transaction is expanded to include off-chain failures because it is
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// valid to retry those with higher gas prices.
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if (
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INVALID_INITIAL_TRANSACTION_TYPES.includes(
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txGroup.initialTransaction?.type,
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)
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) {
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const nonRetryOrCancel = txGroup.transactions.find(
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(tx) => !INVALID_INITIAL_TRANSACTION_TYPES.includes(tx.type),
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);
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if (nonRetryOrCancel) {
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return {
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...txGroup,
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initialTransaction: nonRetryOrCancel,
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};
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}
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}
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return txGroup;
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});
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},
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);
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|
|
/**
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|
* @name nonceSortedPendingTransactionsSelector
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|
* @description Returns an array of transactionGroups where transactions are still pending sorted by
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* nonce in descending order.
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* @returns {transactionGroup[]}
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*/
|
|
export const nonceSortedPendingTransactionsSelector = createSelector(
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|
nonceSortedTransactionsSelector,
|
|
(transactions = []) =>
|
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transactions.filter(
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({ primaryTransaction }) =>
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primaryTransaction.status in PENDING_STATUS_HASH,
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),
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);
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|
|
/**
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* @name nonceSortedCompletedTransactionsSelector
|
|
* @description Returns an array of transactionGroups where transactions are confirmed sorted by
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* nonce in descending order.
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* @returns {transactionGroup[]}
|
|
*/
|
|
export const nonceSortedCompletedTransactionsSelector = createSelector(
|
|
nonceSortedTransactionsSelector,
|
|
(transactions = []) =>
|
|
transactions
|
|
.filter(
|
|
({ primaryTransaction }) =>
|
|
!(primaryTransaction.status in PENDING_STATUS_HASH),
|
|
)
|
|
.reverse(),
|
|
);
|
|
|
|
export const submittedPendingTransactionsSelector = createSelector(
|
|
transactionsSelector,
|
|
(transactions = []) =>
|
|
transactions.filter(
|
|
(transaction) => transaction.status === TRANSACTION_STATUSES.SUBMITTED,
|
|
),
|
|
);
|
|
|