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metamask-extension/ui/selectors/selectors.js

600 lines
17 KiB
JavaScript

import { stripHexPrefix } from 'ethereumjs-util';
import { createSelector } from 'reselect';
import { addHexPrefix } from '../../app/scripts/lib/util';
import {
MAINNET_CHAIN_ID,
BSC_CHAIN_ID,
TEST_CHAINS,
NETWORK_TYPE_RPC,
NATIVE_CURRENCY_TOKEN_IMAGE_MAP,
} from '../../shared/constants/network';
import {
SWAPS_CHAINID_DEFAULT_TOKEN_MAP,
ALLOWED_SWAPS_CHAIN_IDS,
} from '../../shared/constants/swaps';
import { shortenAddress, getAccountByAddress } from '../helpers/utils/util';
import {
getValueFromWeiHex,
hexToDecimal,
} from '../helpers/utils/conversions.util';
import { TEMPLATED_CONFIRMATION_MESSAGE_TYPES } from '../pages/confirmation/templates';
import { toChecksumHexAddress } from '../../shared/modules/hexstring-utils';
import { DAY } from '../../shared/constants/time';
import {
getNativeCurrency,
getConversionRate,
isEIP1559Network,
} from '../ducks/metamask/metamask';
/**
* One of the only remaining valid uses of selecting the network subkey of the
* metamask state tree is to determine if the network is currently 'loading'.
*
* This will be used for all cases where this state key is accessed only for that
* purpose.
* @param {Object} state - redux state object
*/
export function isNetworkLoading(state) {
return state.metamask.network === 'loading';
}
export function getNetworkIdentifier(state) {
const {
metamask: {
provider: { type, nickname, rpcUrl },
},
} = state;
return nickname || rpcUrl || type;
}
export function getMetricsNetworkIdentifier(state) {
const { provider } = state.metamask;
return provider.type === NETWORK_TYPE_RPC ? provider.rpcUrl : provider.type;
}
export function getCurrentChainId(state) {
const { chainId } = state.metamask.provider;
return chainId;
}
export function getCurrentKeyring(state) {
const identity = getSelectedIdentity(state);
if (!identity) {
return null;
}
const simpleAddress = stripHexPrefix(identity.address).toLowerCase();
const keyring = state.metamask.keyrings.find((kr) => {
return (
kr.accounts.includes(simpleAddress) ||
kr.accounts.includes(identity.address)
);
});
return keyring;
}
export function isEIP1559Account(state) {
// Neither hardware wallet supports 1559 at this time
return !isHardwareWallet(state);
}
export function checkNetworkAndAccountSupports1559(state) {
const networkSupports1559 = isEIP1559Network(state);
const accountSupports1559 = isEIP1559Account(state);
return networkSupports1559 && accountSupports1559;
}
/**
* Checks if the current wallet is a hardware wallet.
* @param {Object} state
* @returns {Boolean}
*/
export function isHardwareWallet(state) {
const keyring = getCurrentKeyring(state);
return keyring.type.includes('Hardware');
}
/**
* Get a HW wallet type, e.g. "Ledger Hardware"
* @param {Object} state
* @returns {String|undefined}
*/
export function getHardwareWalletType(state) {
const keyring = getCurrentKeyring(state);
return keyring.type.includes('Hardware') ? keyring.type : undefined;
}
export function getAccountType(state) {
const currentKeyring = getCurrentKeyring(state);
const type = currentKeyring && currentKeyring.type;
switch (type) {
case 'Trezor Hardware':
case 'Ledger Hardware':
return 'hardware';
case 'Simple Key Pair':
return 'imported';
default:
return 'default';
}
}
/**
* get the currently selected networkId which will be 'loading' when the
* network changes. The network id should not be used in most cases,
* instead use chainId in most situations. There are a limited number of
* use cases to use this method still, such as when comparing transaction
* metadata that predates the switch to using chainId.
* @deprecated - use getCurrentChainId instead
* @param {Object} state - redux state object
*/
export function deprecatedGetCurrentNetworkId(state) {
return state.metamask.network;
}
export const getMetaMaskAccounts = createSelector(
getMetaMaskAccountsRaw,
getMetaMaskCachedBalances,
(currentAccounts, cachedBalances) =>
Object.entries(currentAccounts).reduce(
(selectedAccounts, [accountID, account]) => {
if (account.balance === null || account.balance === undefined) {
return {
...selectedAccounts,
[accountID]: {
...account,
balance: cachedBalances && cachedBalances[accountID],
},
};
}
return {
...selectedAccounts,
[accountID]: account,
};
},
{},
),
);
export function getSelectedAddress(state) {
return state.metamask.selectedAddress;
}
export function getSelectedIdentity(state) {
const selectedAddress = getSelectedAddress(state);
const { identities } = state.metamask;
return identities[selectedAddress];
}
export function getNumberOfAccounts(state) {
return Object.keys(state.metamask.accounts).length;
}
export function getNumberOfTokens(state) {
const { tokens } = state.metamask;
return tokens ? tokens.length : 0;
}
export function getMetaMaskKeyrings(state) {
return state.metamask.keyrings;
}
export function getMetaMaskIdentities(state) {
return state.metamask.identities;
}
export function getMetaMaskAccountsRaw(state) {
return state.metamask.accounts;
}
export function getMetaMaskCachedBalances(state) {
const chainId = getCurrentChainId(state);
// Fallback to fetching cached balances from network id
// this can eventually be removed
const network = deprecatedGetCurrentNetworkId(state);
return (
state.metamask.cachedBalances[chainId] ??
state.metamask.cachedBalances[network]
);
}
/**
* Get ordered (by keyrings) accounts with identity and balance
*/
export const getMetaMaskAccountsOrdered = createSelector(
getMetaMaskKeyrings,
getMetaMaskIdentities,
getMetaMaskAccounts,
(keyrings, identities, accounts) =>
keyrings
.reduce((list, keyring) => list.concat(keyring.accounts), [])
.filter((address) => Boolean(identities[address]))
.map((address) => ({ ...identities[address], ...accounts[address] })),
);
export const getMetaMaskAccountsConnected = createSelector(
getMetaMaskAccountsOrdered,
(connectedAccounts) =>
connectedAccounts.map(({ address }) => address.toLowerCase()),
);
export function isBalanceCached(state) {
const selectedAccountBalance =
state.metamask.accounts[getSelectedAddress(state)].balance;
const cachedBalance = getSelectedAccountCachedBalance(state);
return Boolean(!selectedAccountBalance && cachedBalance);
}
export function getSelectedAccountCachedBalance(state) {
const cachedBalances = getMetaMaskCachedBalances(state);
const selectedAddress = getSelectedAddress(state);
return cachedBalances && cachedBalances[selectedAddress];
}
export function getSelectedAccount(state) {
const accounts = getMetaMaskAccounts(state);
const selectedAddress = getSelectedAddress(state);
return accounts[selectedAddress];
}
export function getTargetAccount(state, targetAddress) {
const accounts = getMetaMaskAccounts(state);
return accounts[targetAddress];
}
export const getTokenExchangeRates = (state) =>
state.metamask.contractExchangeRates;
export function getAssetImages(state) {
const assetImages = state.metamask.assetImages || {};
return assetImages;
}
export function getAddressBook(state) {
const chainId = getCurrentChainId(state);
if (!state.metamask.addressBook[chainId]) {
return [];
}
return Object.values(state.metamask.addressBook[chainId]);
}
export function getAddressBookEntry(state, address) {
const addressBook = getAddressBook(state);
const entry = addressBook.find(
(contact) => contact.address === toChecksumHexAddress(address),
);
return entry;
}
export function getAddressBookEntryName(state, address) {
const entry =
getAddressBookEntry(state, address) || state.metamask.identities[address];
return entry && entry.name !== '' ? entry.name : shortenAddress(address);
}
export function accountsWithSendEtherInfoSelector(state) {
const accounts = getMetaMaskAccounts(state);
const identities = getMetaMaskIdentities(state);
const accountsWithSendEtherInfo = Object.entries(identities).map(
([key, identity]) => {
return { ...identity, ...accounts[key] };
},
);
return accountsWithSendEtherInfo;
}
export function getAccountsWithLabels(state) {
return getMetaMaskAccountsOrdered(state).map(
({ address, name, balance }) => ({
address,
addressLabel: `${name} (...${address.slice(address.length - 4)})`,
label: name,
balance,
}),
);
}
export function getCurrentAccountWithSendEtherInfo(state) {
const currentAddress = getSelectedAddress(state);
const accounts = accountsWithSendEtherInfoSelector(state);
return getAccountByAddress(accounts, currentAddress);
}
export function getTargetAccountWithSendEtherInfo(state, targetAddress) {
const accounts = accountsWithSendEtherInfoSelector(state);
return getAccountByAddress(accounts, targetAddress);
}
export function getCurrentEthBalance(state) {
return getCurrentAccountWithSendEtherInfo(state).balance;
}
export function getGasIsLoading(state) {
return state.appState.gasIsLoading;
}
export function getCurrentCurrency(state) {
return state.metamask.currentCurrency;
}
export function getTotalUnapprovedCount(state) {
const {
unapprovedMsgCount = 0,
unapprovedPersonalMsgCount = 0,
unapprovedDecryptMsgCount = 0,
unapprovedEncryptionPublicKeyMsgCount = 0,
unapprovedTypedMessagesCount = 0,
pendingApprovalCount = 0,
} = state.metamask;
return (
unapprovedMsgCount +
unapprovedPersonalMsgCount +
unapprovedDecryptMsgCount +
unapprovedEncryptionPublicKeyMsgCount +
unapprovedTypedMessagesCount +
getUnapprovedTxCount(state) +
pendingApprovalCount +
getSuggestedTokenCount(state)
);
}
function getUnapprovedTxCount(state) {
const { unapprovedTxs = {} } = state.metamask;
return Object.keys(unapprovedTxs).length;
}
export function getUnapprovedConfirmations(state) {
const { pendingApprovals } = state.metamask;
return Object.values(pendingApprovals);
}
export function getUnapprovedTemplatedConfirmations(state) {
const unapprovedConfirmations = getUnapprovedConfirmations(state);
return unapprovedConfirmations.filter((approval) =>
TEMPLATED_CONFIRMATION_MESSAGE_TYPES.includes(approval.type),
);
}
function getSuggestedTokenCount(state) {
const { suggestedTokens = {} } = state.metamask;
return Object.keys(suggestedTokens).length;
}
export function getIsMainnet(state) {
const chainId = getCurrentChainId(state);
return chainId === MAINNET_CHAIN_ID;
}
export function getIsTestnet(state) {
const chainId = getCurrentChainId(state);
return TEST_CHAINS.includes(chainId);
}
export function getIsNonStandardEthChain(state) {
return !(getIsMainnet(state) || getIsTestnet(state) || process.env.IN_TEST);
}
export function getPreferences({ metamask }) {
return metamask.preferences;
}
export function getShouldShowFiat(state) {
const isMainNet = getIsMainnet(state);
const conversionRate = getConversionRate(state);
const { showFiatInTestnets } = getPreferences(state);
return Boolean((isMainNet || showFiatInTestnets) && conversionRate);
}
export function getShouldHideZeroBalanceTokens(state) {
const { hideZeroBalanceTokens } = getPreferences(state);
return hideZeroBalanceTokens;
}
export function getAdvancedInlineGasShown(state) {
return Boolean(state.metamask.featureFlags.advancedInlineGas);
}
export function getUseNonceField(state) {
return Boolean(state.metamask.useNonceField);
}
export function getCustomNonceValue(state) {
return String(state.metamask.customNonceValue);
}
export function getDomainMetadata(state) {
return state.metamask.domainMetadata;
}
export function getRpcPrefsForCurrentProvider(state) {
const { frequentRpcListDetail, provider } = state.metamask;
const selectRpcInfo = frequentRpcListDetail.find(
(rpcInfo) => rpcInfo.rpcUrl === provider.rpcUrl,
);
const { rpcPrefs = {} } = selectRpcInfo || {};
return rpcPrefs;
}
export function getKnownMethodData(state, data) {
if (!data) {
return null;
}
const prefixedData = addHexPrefix(data);
const fourBytePrefix = prefixedData.slice(0, 10);
const { knownMethodData } = state.metamask;
return knownMethodData && knownMethodData[fourBytePrefix];
}
export function getFeatureFlags(state) {
return state.metamask.featureFlags;
}
export function getOriginOfCurrentTab(state) {
return state.activeTab.origin;
}
export function getIpfsGateway(state) {
return state.metamask.ipfsGateway;
}
export function getInfuraBlocked(state) {
return Boolean(state.metamask.infuraBlocked);
}
export function getUSDConversionRate(state) {
return state.metamask.usdConversionRate;
}
export function getWeb3ShimUsageStateForOrigin(state, origin) {
return state.metamask.web3ShimUsageOrigins[origin];
}
/**
* @typedef {Object} SwapsEthToken
* @property {string} symbol - The symbol for ETH, namely "ETH"
* @property {string} name - The name of the ETH currency, "Ether"
* @property {string} address - A substitute address for the metaswap-api to
* recognize the ETH token
* @property {string} decimals - The number of ETH decimals, i.e. 18
* @property {string} balance - The user's ETH balance in decimal wei, with a
* precision of 4 decimal places
* @property {string} string - The user's ETH balance in decimal ETH
*/
/**
* Swaps related code uses token objects for various purposes. These objects
* always have the following properties: `symbol`, `name`, `address`, and
* `decimals`.
*
* When available for the current account, the objects can have `balance` and
* `string` properties.
* `balance` is the users token balance in decimal values, denominated in the
* minimal token units (according to its decimals).
* `string` is the token balance in a readable format, ready for rendering.
*
* Swaps treats the selected chain's currency as a token, and we use the token constants
* in the SWAPS_CHAINID_DEFAULT_TOKEN_MAP to set the standard properties for
* the token. The getSwapsDefaultToken selector extends that object with
* `balance` and `string` values of the same type as in regular ERC-20 token
* objects, per the above description.
*
* @param {object} state - the redux state object
* @returns {SwapsEthToken} The token object representation of the currently
* selected account's ETH balance, as expected by the Swaps API.
*/
export function getSwapsDefaultToken(state) {
const selectedAccount = getSelectedAccount(state);
const { balance } = selectedAccount;
const chainId = getCurrentChainId(state);
const defaultTokenObject = SWAPS_CHAINID_DEFAULT_TOKEN_MAP[chainId];
return {
...defaultTokenObject,
balance: hexToDecimal(balance),
string: getValueFromWeiHex({
value: balance,
numberOfDecimals: 4,
toDenomination: 'ETH',
}),
};
}
export function getIsSwapsChain(state) {
const chainId = getCurrentChainId(state);
return ALLOWED_SWAPS_CHAIN_IDS[chainId];
}
export function getNativeCurrencyImage(state) {
const nativeCurrency = getNativeCurrency(state).toUpperCase();
return NATIVE_CURRENCY_TOKEN_IMAGE_MAP[nativeCurrency];
}
export function getNextSuggestedNonce(state) {
return Number(state.metamask.nextNonce);
}
export function getShowWhatsNewPopup(state) {
return state.appState.showWhatsNewPopup;
}
/**
* Get an object of notification IDs and if they are allowed or not.
* @param {Object} state
* @returns {Object}
*/
function getAllowedNotificationIds(state) {
return {
1: true,
2: true,
3: true,
4: getCurrentChainId(state) === BSC_CHAIN_ID,
5: true,
6: true,
};
}
/**
* @typedef {Object} Notification
* @property {number} id - A unique identifier for the notification
* @property {string} date - A date in YYYY-MM-DD format, identifying when the notification was first committed
*/
/**
* Notifications are managed by the notification controller and referenced by
* `state.metamask.notifications`. This function returns a list of notifications
* the can be shown to the user. This list includes all notifications that do not
* have a truthy `isShown` property.
*
* The returned notifications are sorted by date.
*
* @param {Object} state - the redux state object
* @returns {Notification[]} An array of notifications that can be shown to the user
*/
export function getSortedNotificationsToShow(state) {
const notifications = Object.values(state.metamask.notifications);
const allowedNotificationIds = getAllowedNotificationIds(state);
const notificationsToShow = notifications.filter(
(notification) =>
!notification.isShown && allowedNotificationIds[notification.id],
);
const notificationsSortedByDate = notificationsToShow.sort(
(a, b) => new Date(b.date) - new Date(a.date),
);
return notificationsSortedByDate;
}
export function getShowRecoveryPhraseReminder(state) {
const {
recoveryPhraseReminderLastShown,
recoveryPhraseReminderHasBeenShown,
} = state.metamask;
const currentTime = new Date().getTime();
const frequency = recoveryPhraseReminderHasBeenShown ? DAY * 90 : DAY * 2;
return currentTime - recoveryPhraseReminderLastShown >= frequency;
}