diff --git a/lib/utils/ens-cache.js b/lib/utils/ens-cache.js index 335452471..4658bc8aa 100644 --- a/lib/utils/ens-cache.js +++ b/lib/utils/ens-cache.js @@ -1,241 +1,241 @@ // @flow import namehash from 'eth-ens-namehash'; import sleep from './sleep.js'; const cacheTimeout = 24 * 60 * 60 * 1000; // one day const failedQueryCacheTimeout = 5 * 60 * 1000; // five minutes const queryTimeout = 10 * 1000; // ten seconds async function throwOnTimeout(ethAddressOrName: string) { await sleep(queryTimeout); throw new Error(`ENS fetch for ${ethAddressOrName} timed out`); } export type EthersProvider = { +lookupAddress: (address: string) => Promise, +resolveName: (name: string) => Promise, ... }; type ENSNameQueryCacheEntry = { // We normalize ETH addresses to lowercase characters +normalizedETHAddress: string, +expirationTime: number, // We normalize ENS names using eth-ens-namehash +normalizedENSName: ?string | Promise, }; type ENSAddressQueryCacheEntry = { +normalizedENSName: string, +expirationTime: number, +normalizedETHAddress: ?string | Promise, }; const normalizeETHAddress = (ethAddress: string) => ethAddress.toLowerCase(); // Note: this normalization is a little different than the ETH address // normalization. The difference is that ETH addresses are // case-insensitive, but a normalized ENS name is not the same as its input. // Whereas we use normalizeETHAddress just to dedup inputs, we use this // function to check if an ENS name matches its normalized ENS name, as a way // to prevent homograph attacks. // See https://docs.ens.domains/dapp-developer-guide/resolving-names#reverse-resolution const normalizeENSName = (ensName: string) => namehash.normalize(ensName); // We have a need for querying ENS names from both clients as well as from // keyserver code. On the client side, we could use wagmi's caching behavior, // but that doesn't work for keyserver since it's React-specific. To keep // caching behavior consistent across platforms, we instead introduce this // vanilla JS class that handles querying and caching ENS for all cases. class ENSCache { provider: EthersProvider; // Maps from normalized ETH address to a cache entry for that address nameQueryCache: Map = new Map(); // Maps from normalized ETH name to a cache entry for that name addressQueryCache: Map = new Map(); constructor(provider: EthersProvider) { this.provider = provider; } // Getting a name for an ETH address is referred to as "reverse resolution". // 1. Since any address can set a reverse resolution to an arbitrary ENS name // (without permission from the owner), this function will also perform a // "forward resolution" to confirm that the owner of the ENS name has // mapped it to this address // 2. We only consider an ENS name valid if it's equal to its normalized // version via eth-ens-namehash. This is to protect against homograph // attacks // If we fail to find an ENS name for an address, fail to confirm a matching // forward resolution, or if the ENS name does not equal its normalized // version, we will return undefined. getNameForAddress(ethAddress: string): Promise { const normalizedETHAddress = normalizeETHAddress(ethAddress); - const cacheResult = this.getCachedEntryForAddress(normalizedETHAddress); + const cacheResult = this.getCachedNameEntryForAddress(normalizedETHAddress); if (cacheResult) { return Promise.resolve(cacheResult.normalizedENSName); } const fetchENSNamePromise = (async () => { // ethers.js handles checking forward resolution (point 1 above) for us let ensName; try { ensName = await Promise.race([ this.provider.lookupAddress(normalizedETHAddress), throwOnTimeout(normalizedETHAddress), ]); } catch (e) { console.log(e); return null; } if (!ensName) { return undefined; } const normalizedENSName = normalizeENSName(ensName); if (normalizedENSName !== ensName) { return undefined; } return normalizedENSName; })(); this.nameQueryCache.set(normalizedETHAddress, { normalizedETHAddress, expirationTime: Date.now() + queryTimeout * 2, normalizedENSName: fetchENSNamePromise, }); return (async () => { const normalizedENSName = await fetchENSNamePromise; const timeout = normalizedENSName === null ? failedQueryCacheTimeout : cacheTimeout; this.nameQueryCache.set(normalizedETHAddress, { normalizedETHAddress, expirationTime: Date.now() + timeout, normalizedENSName, }); return normalizedENSName; })(); } - getCachedEntryForAddress(ethAddress: string): ?ENSNameQueryCacheEntry { + getCachedNameEntryForAddress(ethAddress: string): ?ENSNameQueryCacheEntry { const normalizedETHAddress = normalizeETHAddress(ethAddress); const cacheResult = this.nameQueryCache.get(normalizedETHAddress); if (!cacheResult) { return undefined; } const { expirationTime } = cacheResult; if (expirationTime <= Date.now()) { this.nameQueryCache.delete(normalizedETHAddress); return undefined; } return cacheResult; } getCachedNameForAddress(ethAddress: string): ?string { - const cacheResult = this.getCachedEntryForAddress(ethAddress); + const cacheResult = this.getCachedNameEntryForAddress(ethAddress); if (!cacheResult) { return undefined; } const { normalizedENSName } = cacheResult; if (typeof normalizedENSName !== 'string') { return undefined; } return normalizedENSName; } getAddressForName(ensName: string): Promise { const normalizedENSName = normalizeENSName(ensName); if (normalizedENSName !== ensName) { return Promise.resolve(undefined); } - const cacheResult = this.getCachedEntryForName(normalizedENSName); + const cacheResult = this.getCachedAddressEntryForName(normalizedENSName); if (cacheResult) { return Promise.resolve(cacheResult.normalizedETHAddress); } const fetchETHAddressPromise = (async () => { let ethAddress; try { ethAddress = await Promise.race([ this.provider.resolveName(normalizedENSName), throwOnTimeout(normalizedENSName), ]); } catch (e) { console.log(e); return null; } if (!ethAddress) { return undefined; } return normalizeETHAddress(ethAddress); })(); this.addressQueryCache.set(normalizedENSName, { normalizedENSName, expirationTime: Date.now() + queryTimeout * 2, normalizedETHAddress: fetchETHAddressPromise, }); return (async () => { const normalizedETHAddress = await fetchETHAddressPromise; const timeout = normalizedETHAddress === null ? failedQueryCacheTimeout : cacheTimeout; this.addressQueryCache.set(normalizedENSName, { normalizedENSName, expirationTime: Date.now() + timeout, normalizedETHAddress, }); return normalizedETHAddress; })(); } - getCachedEntryForName(ensName: string): ?ENSAddressQueryCacheEntry { + getCachedAddressEntryForName(ensName: string): ?ENSAddressQueryCacheEntry { const normalizedENSName = normalizeENSName(ensName); if (normalizedENSName !== ensName) { return undefined; } const cacheResult = this.addressQueryCache.get(normalizedENSName); if (!cacheResult) { return undefined; } const { expirationTime } = cacheResult; if (expirationTime <= Date.now()) { this.addressQueryCache.delete(normalizedENSName); return undefined; } return cacheResult; } getCachedAddressForName(ensName: string): ?string { - const cacheResult = this.getCachedEntryForName(ensName); + const cacheResult = this.getCachedAddressEntryForName(ensName); if (!cacheResult) { return undefined; } const { normalizedETHAddress } = cacheResult; if (typeof normalizedETHAddress !== 'string') { return undefined; } return normalizedETHAddress; } clearCache(): void { this.nameQueryCache = new Map(); this.addressQueryCache = new Map(); } } export { ENSCache };