import { strict as assert } from 'assert'; import { ObservableStore } from '@metamask/obs-store'; import { ethErrors } from 'eth-rpc-errors'; import { normalize as normalizeAddress } from 'eth-sig-util'; import { ethers } from 'ethers'; import log from 'loglevel'; import abiERC721 from 'human-standard-collectible-abi'; import contractsMap from '@metamask/contract-metadata'; import { LISTED_CONTRACT_ADDRESSES } from '../../../shared/constants/tokens'; import { NETWORK_TYPE_TO_ID_MAP } from '../../../shared/constants/network'; import { isPrefixedFormattedHexString } from '../../../shared/modules/network.utils'; import { isValidHexAddress, toChecksumHexAddress, } from '../../../shared/modules/hexstring-utils'; import { NETWORK_EVENTS } from './network'; const ERC721_INTERFACE_ID = '0x80ac58cd'; export default class PreferencesController { /** * * @typedef {Object} PreferencesController * @param {Object} opts - Overrides the defaults for the initial state of this.store * @property {Object} store The stored object containing a users preferences, stored in local storage * @property {Array} store.frequentRpcList A list of custom rpcs to provide the user * @property {Array} store.tokens The tokens the user wants display in their token lists * @property {Object} store.accountTokens The tokens stored per account and then per network type * @property {Object} store.assetImages Contains assets objects related to assets added * @property {boolean} store.useBlockie The users preference for blockie identicons within the UI * @property {boolean} store.useNonceField The users preference for nonce field within the UI * @property {Object} store.featureFlags A key-boolean map, where keys refer to features and booleans to whether the * user wishes to see that feature. * * Feature flags can be set by the global function `setPreference(feature, enabled)`, and so should not expose any sensitive behavior. * @property {Object} store.knownMethodData Contains all data methods known by the user * @property {string} store.currentLocale The preferred language locale key * @property {string} store.selectedAddress A hex string that matches the currently selected address in the app * */ constructor(opts = {}) { const initState = { frequentRpcListDetail: [], accountTokens: {}, accountHiddenTokens: {}, assetImages: {}, tokens: [], hiddenTokens: [], suggestedTokens: {}, useBlockie: false, useNonceField: false, usePhishDetect: true, dismissSeedBackUpReminder: false, // WARNING: Do not use feature flags for security-sensitive things. // Feature flag toggling is available in the global namespace // for convenient testing of pre-release features, and should never // perform sensitive operations. featureFlags: { showIncomingTransactions: true, }, knownMethodData: {}, firstTimeFlowType: null, currentLocale: opts.initLangCode, identities: {}, lostIdentities: {}, forgottenPassword: false, preferences: { autoLockTimeLimit: undefined, showFiatInTestnets: false, useNativeCurrencyAsPrimaryCurrency: true, hideZeroBalanceTokens: false, }, completedOnboarding: false, // ENS decentralized website resolution ipfsGateway: 'dweb.link', infuraBlocked: null, useLedgerLive: false, ...opts.initState, }; this.network = opts.network; this.ethersProvider = new ethers.providers.Web3Provider(opts.provider); this.store = new ObservableStore(initState); this.store.setMaxListeners(12); this.openPopup = opts.openPopup; this.migrateAddressBookState = opts.migrateAddressBookState; this.network.on(NETWORK_EVENTS.NETWORK_DID_CHANGE, () => { const { tokens, hiddenTokens } = this._getTokenRelatedStates(); this.ethersProvider = new ethers.providers.Web3Provider(opts.provider); this._updateAccountTokens(tokens, this.getAssetImages(), hiddenTokens); }); this._subscribeToInfuraAvailability(); global.setPreference = (key, value) => { return this.setFeatureFlag(key, value); }; } // PUBLIC METHODS /** * Sets the {@code forgottenPassword} state property * @param {boolean} forgottenPassword - whether or not the user has forgotten their password */ setPasswordForgotten(forgottenPassword) { this.store.updateState({ forgottenPassword }); } /** * Setter for the `useBlockie` property * * @param {boolean} val - Whether or not the user prefers blockie indicators * */ setUseBlockie(val) { this.store.updateState({ useBlockie: val }); } /** * Setter for the `useNonceField` property * * @param {boolean} val - Whether or not the user prefers to set nonce * */ setUseNonceField(val) { this.store.updateState({ useNonceField: val }); } /** * Setter for the `usePhishDetect` property * * @param {boolean} val - Whether or not the user prefers phishing domain protection * */ setUsePhishDetect(val) { this.store.updateState({ usePhishDetect: val }); } /** * Setter for the `firstTimeFlowType` property * * @param {string} type - Indicates the type of first time flow - create or import - the user wishes to follow * */ setFirstTimeFlowType(type) { this.store.updateState({ firstTimeFlowType: type }); } getSuggestedTokens() { return this.store.getState().suggestedTokens; } getAssetImages() { return this.store.getState().assetImages; } /** * Add new methodData to state, to avoid requesting this information again through Infura * * @param {string} fourBytePrefix - Four-byte method signature * @param {string} methodData - Corresponding data method */ addKnownMethodData(fourBytePrefix, methodData) { const { knownMethodData } = this.store.getState(); knownMethodData[fourBytePrefix] = methodData; this.store.updateState({ knownMethodData }); } /** * wallet_watchAsset request handler. * * @param {Object} req - The watchAsset JSON-RPC request object. */ async requestWatchAsset(req) { const { type, options } = req.params; switch (type) { case 'ERC20': return await this._handleWatchAssetERC20(options); default: throw ethErrors.rpc.invalidParams( `Asset of type "${type}" not supported.`, ); } } /** * Setter for the `currentLocale` property * * @param {string} key - he preferred language locale key * */ setCurrentLocale(key) { const textDirection = ['ar', 'dv', 'fa', 'he', 'ku'].includes(key) ? 'rtl' : 'auto'; this.store.updateState({ currentLocale: key, textDirection, }); return textDirection; } /** * Updates identities to only include specified addresses. Removes identities * not included in addresses array * * @param {string[]} addresses - An array of hex addresses * */ setAddresses(addresses) { const oldIdentities = this.store.getState().identities; const oldAccountTokens = this.store.getState().accountTokens; const oldAccountHiddenTokens = this.store.getState().accountHiddenTokens; const identities = addresses.reduce((ids, address, index) => { const oldId = oldIdentities[address] || {}; ids[address] = { name: `Account ${index + 1}`, address, ...oldId }; return ids; }, {}); const accountTokens = addresses.reduce((tokens, address) => { const oldTokens = oldAccountTokens[address] || {}; tokens[address] = oldTokens; return tokens; }, {}); const accountHiddenTokens = addresses.reduce((hiddenTokens, address) => { const oldHiddenTokens = oldAccountHiddenTokens[address] || {}; hiddenTokens[address] = oldHiddenTokens; return hiddenTokens; }, {}); this.store.updateState({ identities, accountTokens, accountHiddenTokens }); } /** * Removes an address from state * * @param {string} address - A hex address * @returns {string} the address that was removed */ removeAddress(address) { const { identities, accountTokens, accountHiddenTokens, } = this.store.getState(); if (!identities[address]) { throw new Error(`${address} can't be deleted cause it was not found`); } delete identities[address]; delete accountTokens[address]; delete accountHiddenTokens[address]; this.store.updateState({ identities, accountTokens, accountHiddenTokens }); // If the selected account is no longer valid, // select an arbitrary other account: if (address === this.getSelectedAddress()) { const selected = Object.keys(identities)[0]; this.setSelectedAddress(selected); } return address; } /** * Adds addresses to the identities object without removing identities * * @param {string[]} addresses - An array of hex addresses * */ addAddresses(addresses) { const { identities, accountTokens, accountHiddenTokens, } = this.store.getState(); addresses.forEach((address) => { // skip if already exists if (identities[address]) { return; } // add missing identity const identityCount = Object.keys(identities).length; accountTokens[address] = {}; accountHiddenTokens[address] = {}; identities[address] = { name: `Account ${identityCount + 1}`, address }; }); this.store.updateState({ identities, accountTokens, accountHiddenTokens }); } /** * Synchronizes identity entries with known accounts. * Removes any unknown identities, and returns the resulting selected address. * * @param {Array} addresses - known to the vault. * @returns {Promise} selectedAddress the selected address. */ syncAddresses(addresses) { if (!Array.isArray(addresses) || addresses.length === 0) { throw new Error('Expected non-empty array of addresses. Error #11201'); } const { identities, lostIdentities } = this.store.getState(); const newlyLost = {}; Object.keys(identities).forEach((identity) => { if (!addresses.includes(identity)) { newlyLost[identity] = identities[identity]; delete identities[identity]; } }); // Identities are no longer present. if (Object.keys(newlyLost).length > 0) { // store lost accounts Object.keys(newlyLost).forEach((key) => { lostIdentities[key] = newlyLost[key]; }); } this.store.updateState({ identities, lostIdentities }); this.addAddresses(addresses); // If the selected account is no longer valid, // select an arbitrary other account: let selected = this.getSelectedAddress(); if (!addresses.includes(selected)) { selected = addresses[0]; this.setSelectedAddress(selected); } return selected; } removeSuggestedTokens() { return new Promise((resolve) => { this.store.updateState({ suggestedTokens: {} }); resolve({}); }); } /** * Setter for the `selectedAddress` property * * @param {string} _address - A new hex address for an account * @returns {Promise} Promise resolves with tokens * */ setSelectedAddress(_address) { const address = normalizeAddress(_address); this._updateTokens(address); const { identities, tokens } = this.store.getState(); const selectedIdentity = identities[address]; if (!selectedIdentity) { throw new Error(`Identity for '${address} not found`); } selectedIdentity.lastSelected = Date.now(); this.store.updateState({ identities, selectedAddress: address }); return Promise.resolve(tokens); } /** * Getter for the `selectedAddress` property * * @returns {string} The hex address for the currently selected account * */ getSelectedAddress() { return this.store.getState().selectedAddress; } /** * Contains data about tokens users add to their account. * @typedef {Object} AddedToken * @property {string} address - The hex address for the token contract. Will be all lower cased and hex-prefixed. * @property {string} symbol - The symbol of the token, usually 3 or 4 capitalized letters * {@link https://github.com/ethereum/EIPs/blob/master/EIPS/eip-20.md#symbol} * @property {boolean} decimals - The number of decimals the token uses. * {@link https://github.com/ethereum/EIPs/blob/master/EIPS/eip-20.md#decimals} */ /** * Adds a new token to the token array and removes it from the hiddenToken array, or updates the token if passed an address that already exists. * Modifies the existing tokens array from the store. All objects in the tokens array array AddedToken objects. * @see AddedToken {@link AddedToken} * * @param {string} rawAddress - Hex address of the token contract. May or may not be a checksum address. * @param {string} symbol - The symbol of the token * @param {number} decimals - The number of decimals the token uses. * @returns {Promise} Promises the new array of AddedToken objects. * */ async addToken(rawAddress, symbol, decimals, image) { const address = normalizeAddress(rawAddress); const newEntry = { address, symbol, decimals: Number(decimals) }; const { tokens, hiddenTokens } = this.store.getState(); const assetImages = this.getAssetImages(); const updatedHiddenTokens = hiddenTokens.filter( (tokenAddress) => tokenAddress !== rawAddress.toLowerCase(), ); const previousEntry = tokens.find((token) => { return token.address === address; }); const previousIndex = tokens.indexOf(previousEntry); newEntry.isERC721 = await this._detectIsERC721(newEntry.address); if (previousEntry) { tokens[previousIndex] = newEntry; } else { tokens.push(newEntry); } assetImages[address] = image; this._updateAccountTokens(tokens, assetImages, updatedHiddenTokens); return Promise.resolve(tokens); } /** * Adds isERC721 field to token object * (Called when a user attempts to add tokens that were previously added which do not yet had isERC721 field) * * @param {string} tokenAddress - The contract address of the token requiring the isERC721 field added. * @returns {Promise} The new token object with the added isERC721 field. * */ async updateTokenType(tokenAddress) { const { tokens } = this.store.getState(); const tokenIndex = tokens.findIndex((token) => { return token.address === tokenAddress; }); tokens[tokenIndex].isERC721 = await this._detectIsERC721(tokenAddress); this.store.updateState({ tokens }); return Promise.resolve(tokens[tokenIndex]); } /** * Removes a specified token from the tokens array and adds it to hiddenTokens array * * @param {string} rawAddress - Hex address of the token contract to remove. * @returns {Promise} The new array of AddedToken objects * */ removeToken(rawAddress) { const { tokens, hiddenTokens } = this.store.getState(); const assetImages = this.getAssetImages(); const updatedTokens = tokens.filter( (token) => token.address !== rawAddress, ); const updatedHiddenTokens = [...hiddenTokens, rawAddress.toLowerCase()]; delete assetImages[rawAddress]; this._updateAccountTokens(updatedTokens, assetImages, updatedHiddenTokens); return Promise.resolve(updatedTokens); } /** * A getter for the `tokens` property * * @returns {Array} The current array of AddedToken objects * */ getTokens() { return this.store.getState().tokens; } /** * Sets a custom label for an account * @param {string} account - the account to set a label for * @param {string} label - the custom label for the account * @returns {Promise} */ setAccountLabel(account, label) { if (!account) { throw new Error( `setAccountLabel requires a valid address, got ${String(account)}`, ); } const address = normalizeAddress(account); const { identities } = this.store.getState(); identities[address] = identities[address] || {}; identities[address].name = label; this.store.updateState({ identities }); return Promise.resolve(label); } /** * updates custom RPC details * * @param {Object} newRpcDetails - Options bag. * @param {string} newRpcDetails.rpcUrl - The RPC url to add to frequentRpcList. * @param {string} newRpcDetails.chainId - The chainId of the selected network. * @param {string} [newRpcDetails.ticker] - Optional ticker symbol of the selected network. * @param {string} [newRpcDetails.nickname] - Optional nickname of the selected network. * @param {Object} [newRpcDetails.rpcPrefs] - Optional RPC preferences, such as the block explorer URL * */ async updateRpc(newRpcDetails) { const rpcList = this.getFrequentRpcListDetail(); const index = rpcList.findIndex((element) => { return element.rpcUrl === newRpcDetails.rpcUrl; }); if (index > -1) { const rpcDetail = rpcList[index]; const updatedRpc = { ...rpcDetail, ...newRpcDetails }; if (rpcDetail.chainId !== updatedRpc.chainId) { // When the chainId is changed, associated address book entries should // also be migrated. The address book entries are keyed by the `network` state, // which for custom networks is the chainId with a fallback to the networkId // if the chainId is not set. let addressBookKey = rpcDetail.chainId; if (!addressBookKey) { // We need to find the networkId to determine what these addresses were keyed by try { addressBookKey = await this.ethersProvider.send('net_version'); assert(typeof addressBookKey === 'string'); } catch (error) { log.debug(error); log.warn( `Failed to get networkId from ${rpcDetail.rpcUrl}; skipping address book migration`, ); } } // There is an edge case where two separate RPC endpoints are keyed by the same // value. In this case, the contact book entries are duplicated so that they remain // on both networks, since we don't know which network each contact is intended for. let duplicate = false; const builtInProviderNetworkIds = Object.values( NETWORK_TYPE_TO_ID_MAP, ).map((ids) => ids.networkId); const otherRpcEntries = rpcList.filter( (entry) => entry.rpcUrl !== newRpcDetails.rpcUrl, ); if ( builtInProviderNetworkIds.includes(addressBookKey) || otherRpcEntries.some((entry) => entry.chainId === addressBookKey) ) { duplicate = true; } this.migrateAddressBookState( addressBookKey, updatedRpc.chainId, duplicate, ); } rpcList[index] = updatedRpc; this.store.updateState({ frequentRpcListDetail: rpcList }); } else { const { rpcUrl, chainId, ticker, nickname, rpcPrefs = {}, } = newRpcDetails; this.addToFrequentRpcList(rpcUrl, chainId, ticker, nickname, rpcPrefs); } } /** * Adds custom RPC url to state. * * @param {string} rpcUrl - The RPC url to add to frequentRpcList. * @param {string} chainId - The chainId of the selected network. * @param {string} [ticker] - Ticker symbol of the selected network. * @param {string} [nickname] - Nickname of the selected network. * @param {Object} [rpcPrefs] - Optional RPC preferences, such as the block explorer URL * */ addToFrequentRpcList( rpcUrl, chainId, ticker = 'ETH', nickname = '', rpcPrefs = {}, ) { const rpcList = this.getFrequentRpcListDetail(); const index = rpcList.findIndex((element) => { return element.rpcUrl === rpcUrl; }); if (index !== -1) { rpcList.splice(index, 1); } if (!isPrefixedFormattedHexString(chainId)) { throw new Error(`Invalid chainId: "${chainId}"`); } rpcList.push({ rpcUrl, chainId, ticker, nickname, rpcPrefs }); this.store.updateState({ frequentRpcListDetail: rpcList }); } /** * Removes custom RPC url from state. * * @param {string} url - The RPC url to remove from frequentRpcList. * @returns {Promise} Promise resolving to updated frequentRpcList. * */ removeFromFrequentRpcList(url) { const rpcList = this.getFrequentRpcListDetail(); const index = rpcList.findIndex((element) => { return element.rpcUrl === url; }); if (index !== -1) { rpcList.splice(index, 1); } this.store.updateState({ frequentRpcListDetail: rpcList }); return Promise.resolve(rpcList); } /** * Getter for the `frequentRpcListDetail` property. * * @returns {array} An array of rpc urls. * */ getFrequentRpcListDetail() { return this.store.getState().frequentRpcListDetail; } /** * Updates the `featureFlags` property, which is an object. One property within that object will be set to a boolean. * * @param {string} feature - A key that corresponds to a UI feature. * @param {boolean} activated - Indicates whether or not the UI feature should be displayed * @returns {Promise} Promises a new object; the updated featureFlags object. * */ setFeatureFlag(feature, activated) { const currentFeatureFlags = this.store.getState().featureFlags; const updatedFeatureFlags = { ...currentFeatureFlags, [feature]: activated, }; this.store.updateState({ featureFlags: updatedFeatureFlags }); return Promise.resolve(updatedFeatureFlags); } /** * Updates the `preferences` property, which is an object. These are user-controlled features * found in the settings page. * @param {string} preference - The preference to enable or disable. * @param {boolean} value - Indicates whether or not the preference should be enabled or disabled. * @returns {Promise} Promises a new object; the updated preferences object. */ setPreference(preference, value) { const currentPreferences = this.getPreferences(); const updatedPreferences = { ...currentPreferences, [preference]: value, }; this.store.updateState({ preferences: updatedPreferences }); return Promise.resolve(updatedPreferences); } /** * A getter for the `preferences` property * @returns {Object} A key-boolean map of user-selected preferences. */ getPreferences() { return this.store.getState().preferences; } /** * Sets the completedOnboarding state to true, indicating that the user has completed the * onboarding process. */ completeOnboarding() { this.store.updateState({ completedOnboarding: true }); return Promise.resolve(true); } /** * A getter for the `ipfsGateway` property * @returns {string} The current IPFS gateway domain */ getIpfsGateway() { return this.store.getState().ipfsGateway; } /** * A setter for the `ipfsGateway` property * @param {string} domain - The new IPFS gateway domain * @returns {Promise} A promise of the update IPFS gateway domain */ setIpfsGateway(domain) { this.store.updateState({ ipfsGateway: domain }); return Promise.resolve(domain); } /** * A setter for the `useLedgerLive` property * @param {bool} useLedgerLive - Value for ledger live support * @returns {Promise} A promise of the update to useLedgerLive */ async setLedgerLivePreference(useLedgerLive) { this.store.updateState({ useLedgerLive }); return useLedgerLive; } /** * A getter for the `useLedgerLive` property * @returns {boolean} User preference of using Ledger Live */ getLedgerLivePreference() { return this.store.getState().useLedgerLive; } /** * A setter for the user preference to dismiss the seed phrase backup reminder * @param {bool} dismissBackupReminder- User preference for dismissing the back up reminder * @returns {void} */ async setDismissSeedBackUpReminder(dismissSeedBackUpReminder) { await this.store.updateState({ dismissSeedBackUpReminder, }); } // // PRIVATE METHODS // _subscribeToInfuraAvailability() { this.network.on(NETWORK_EVENTS.INFURA_IS_BLOCKED, () => { this._setInfuraBlocked(true); }); this.network.on(NETWORK_EVENTS.INFURA_IS_UNBLOCKED, () => { this._setInfuraBlocked(false); }); } /** * * A setter for the `infuraBlocked` property * @param {boolean} isBlocked - Bool indicating whether Infura is blocked * */ _setInfuraBlocked(isBlocked) { const { infuraBlocked } = this.store.getState(); if (infuraBlocked === isBlocked) { return; } this.store.updateState({ infuraBlocked: isBlocked }); } /** * Updates `accountTokens`, `tokens`, `accountHiddenTokens` and `hiddenTokens` of current account and network according to it. * * @param {array} tokens - Array of tokens to be updated. * @param {array} assetImages - Array of assets objects related to assets added * @param {array} hiddenTokens - Array of tokens hidden by user * */ _updateAccountTokens(tokens, assetImages, hiddenTokens) { const { accountTokens, chainId, selectedAddress, accountHiddenTokens, } = this._getTokenRelatedStates(); accountTokens[selectedAddress][chainId] = tokens; accountHiddenTokens[selectedAddress][chainId] = hiddenTokens; this.store.updateState({ accountTokens, tokens, assetImages, accountHiddenTokens, hiddenTokens, }); } /** * Detects whether or not a token is ERC-721 compatible. * * @param {string} tokensAddress - the token contract address. * */ async _detectIsERC721(tokenAddress) { const checksumAddress = toChecksumHexAddress(tokenAddress); // if this token is already in our contract metadata map we don't need // to check against the contract if (contractsMap[checksumAddress]?.erc721 === true) { return Promise.resolve(true); } const tokenContract = await this._createEthersContract( tokenAddress, abiERC721, this.ethersProvider, ); return await tokenContract .supportsInterface(ERC721_INTERFACE_ID) .catch((error) => { console.log('error', error); log.debug(error); return false; }); } async _createEthersContract(tokenAddress, abi, ethersProvider) { const tokenContract = await new ethers.Contract( tokenAddress, abi, ethersProvider, ); return tokenContract; } /** * Updates `tokens` and `hiddenTokens` of current account and network. * * @param {string} selectedAddress - Account address to be updated with. * */ _updateTokens(selectedAddress) { const { tokens, hiddenTokens } = this._getTokenRelatedStates( selectedAddress, ); this.store.updateState({ tokens, hiddenTokens }); } /** * A getter for `tokens`, `accountTokens`, `hiddenTokens` and `accountHiddenTokens` related states. * * @param {string} [selectedAddress] - A new hex address for an account * @returns {Object.} States to interact with tokens in `accountTokens` * */ _getTokenRelatedStates(selectedAddress) { const { accountTokens, accountHiddenTokens } = this.store.getState(); if (!selectedAddress) { // eslint-disable-next-line no-param-reassign selectedAddress = this.store.getState().selectedAddress; } const chainId = this.network.getCurrentChainId(); if (!(selectedAddress in accountTokens)) { accountTokens[selectedAddress] = {}; } if (!(selectedAddress in accountHiddenTokens)) { accountHiddenTokens[selectedAddress] = {}; } if (!(chainId in accountTokens[selectedAddress])) { accountTokens[selectedAddress][chainId] = []; } if (!(chainId in accountHiddenTokens[selectedAddress])) { accountHiddenTokens[selectedAddress][chainId] = []; } const tokens = accountTokens[selectedAddress][chainId]; const hiddenTokens = accountHiddenTokens[selectedAddress][chainId]; return { tokens, accountTokens, hiddenTokens, accountHiddenTokens, chainId, selectedAddress, }; } /** * Handle the suggestion of an ERC20 asset through `watchAsset` * * * @param {Object} tokenMetadata - Token metadata * */ async _handleWatchAssetERC20(tokenMetadata) { this._validateERC20AssetParams(tokenMetadata); const address = normalizeAddress(tokenMetadata.address); const { symbol, decimals, image } = tokenMetadata; this._addSuggestedERC20Asset(address, symbol, decimals, image); await this.openPopup(); const tokenAddresses = this.getTokens().filter( (token) => token.address === address, ); return tokenAddresses.length > 0; } /** * Validates that the passed options for suggested token have all required properties. * * @param {Object} opts - The options object to validate * @throws {string} Throw a custom error indicating that address, symbol and/or decimals * doesn't fulfill requirements * */ _validateERC20AssetParams({ address, symbol, decimals }) { if (!address || !symbol || typeof decimals === 'undefined') { throw ethErrors.rpc.invalidParams( `Must specify address, symbol, and decimals.`, ); } if (typeof symbol !== 'string') { throw ethErrors.rpc.invalidParams(`Invalid symbol: not a string.`); } if (!(symbol.length > 0)) { throw ethErrors.rpc.invalidParams( `Invalid symbol "${symbol}": shorter than a character.`, ); } if (!(symbol.length < 12)) { throw ethErrors.rpc.invalidParams( `Invalid symbol "${symbol}": longer than 11 characters.`, ); } const numDecimals = parseInt(decimals, 10); if (isNaN(numDecimals) || numDecimals > 36 || numDecimals < 0) { throw ethErrors.rpc.invalidParams( `Invalid decimals "${decimals}": must be 0 <= 36.`, ); } if (!isValidHexAddress(address, { allowNonPrefixed: false })) { throw ethErrors.rpc.invalidParams(`Invalid address "${address}".`); } } _addSuggestedERC20Asset(address, symbol, decimals, image) { const newEntry = { address, symbol, decimals, image, unlisted: !LISTED_CONTRACT_ADDRESSES.includes(address), }; const suggested = this.getSuggestedTokens(); suggested[address] = newEntry; this.store.updateState({ suggestedTokens: suggested }); } }