// Copyright 2018-2023 the Deno authors. All rights reserved. MIT license. // Copyright Joyent, Inc. and other Node contributors. // // Permission is hereby granted, free of charge, to any person obtaining a // copy of this software and associated documentation files (the // "Software"), to deal in the Software without restriction, including // without limitation the rights to use, copy, modify, merge, publish, // distribute, sublicense, and/or sell copies of the Software, and to permit // persons to whom the Software is furnished to do so, subject to the // following conditions: // // The above copyright notice and this permission notice shall be included // in all copies or substantial portions of the Software. // // THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS // OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF // MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN // NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, // DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR // OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE // USE OR OTHER DEALINGS IN THE SOFTWARE. // This module ports: // - https://github.com/nodejs/node/blob/master/src/cares_wrap.cc // - https://github.com/nodejs/node/blob/master/src/cares_wrap.h import type { ErrnoException } from "internal:deno_node/polyfills/internal/errors.ts"; import { isIPv4 } from "internal:deno_node/polyfills/internal/net.ts"; import { codeMap } from "internal:deno_node/polyfills/internal_binding/uv.ts"; import { AsyncWrap, providerType, } from "internal:deno_node/polyfills/internal_binding/async_wrap.ts"; // deno-lint-ignore camelcase import { ares_strerror } from "internal:deno_node/polyfills/internal_binding/ares.ts"; import { notImplemented } from "internal:deno_node/polyfills/_utils.ts"; import { isWindows } from "internal:deno_node/polyfills/_util/os.ts"; interface LookupAddress { address: string; family: number; } export class GetAddrInfoReqWrap extends AsyncWrap { family!: number; hostname!: string; callback!: ( err: ErrnoException | null, addressOrAddresses?: string | LookupAddress[] | null, family?: number, ) => void; resolve!: (addressOrAddresses: LookupAddress | LookupAddress[]) => void; reject!: (err: ErrnoException | null) => void; oncomplete!: (err: number | null, addresses: string[]) => void; constructor() { super(providerType.GETADDRINFOREQWRAP); } } export function getaddrinfo( req: GetAddrInfoReqWrap, hostname: string, family: number, _hints: number, verbatim: boolean, ): number { let addresses: string[] = []; // TODO(cmorten): use hints // REF: https://nodejs.org/api/dns.html#dns_supported_getaddrinfo_flags const recordTypes: ("A" | "AAAA")[] = []; if (family === 0 || family === 4) { recordTypes.push("A"); } if (family === 0 || family === 6) { recordTypes.push("AAAA"); } (async () => { await Promise.allSettled( recordTypes.map((recordType) => Deno.resolveDns(hostname, recordType).then((records) => { records.forEach((record) => addresses.push(record)); }) ), ); const error = addresses.length ? 0 : codeMap.get("EAI_NODATA")!; // TODO(cmorten): needs work // REF: https://github.com/nodejs/node/blob/master/src/cares_wrap.cc#L1444 if (!verbatim) { addresses.sort((a: string, b: string): number => { if (isIPv4(a)) { return -1; } else if (isIPv4(b)) { return 1; } return 0; }); } // TODO(@bartlomieju): Forces IPv4 as a workaround for Deno not // aligning with Node on implicit binding on Windows // REF: https://github.com/denoland/deno/issues/10762 if (isWindows && hostname === "localhost") { addresses = addresses.filter((address) => isIPv4(address)); } req.oncomplete(error, addresses); })(); return 0; } export class QueryReqWrap extends AsyncWrap { bindingName!: string; hostname!: string; ttl!: boolean; callback!: ( err: ErrnoException | null, // deno-lint-ignore no-explicit-any records?: any, ) => void; // deno-lint-ignore no-explicit-any resolve!: (records: any) => void; reject!: (err: ErrnoException | null) => void; oncomplete!: ( err: number, // deno-lint-ignore no-explicit-any records: any, ttls?: number[], ) => void; constructor() { super(providerType.QUERYWRAP); } } export interface ChannelWrapQuery { queryAny(req: QueryReqWrap, name: string): number; queryA(req: QueryReqWrap, name: string): number; queryAaaa(req: QueryReqWrap, name: string): number; queryCaa(req: QueryReqWrap, name: string): number; queryCname(req: QueryReqWrap, name: string): number; queryMx(req: QueryReqWrap, name: string): number; queryNs(req: QueryReqWrap, name: string): number; queryTxt(req: QueryReqWrap, name: string): number; querySrv(req: QueryReqWrap, name: string): number; queryPtr(req: QueryReqWrap, name: string): number; queryNaptr(req: QueryReqWrap, name: string): number; querySoa(req: QueryReqWrap, name: string): number; getHostByAddr(req: QueryReqWrap, name: string): number; } function fqdnToHostname(fqdn: string): string { return fqdn.replace(/\.$/, ""); } function compressIPv6(address: string): string { const formatted = address.replace(/\b(?:0+:){2,}/, ":"); const finalAddress = formatted .split(":") .map((octet) => { if (octet.match(/^\d+\.\d+\.\d+\.\d+$/)) { // decimal return Number(octet.replaceAll(".", "")).toString(16); } return octet.replace(/\b0+/g, ""); }) .join(":"); return finalAddress; } export class ChannelWrap extends AsyncWrap implements ChannelWrapQuery { #servers: [string, number][] = []; #timeout: number; #tries: number; constructor(timeout: number, tries: number) { super(providerType.DNSCHANNEL); this.#timeout = timeout; this.#tries = tries; } async #query(query: string, recordType: Deno.RecordType) { // TODO(@bartlomieju): TTL logic. let code: number; let ret: Awaited>; if (this.#servers.length) { for (const [ipAddr, port] of this.#servers) { const resolveOptions = { nameServer: { ipAddr, port, }, }; ({ code, ret } = await this.#resolve( query, recordType, resolveOptions, )); if (code === 0 || code === codeMap.get("EAI_NODATA")!) { break; } } } else { ({ code, ret } = await this.#resolve(query, recordType)); } return { code: code!, ret: ret! }; } async #resolve( query: string, recordType: Deno.RecordType, resolveOptions?: Deno.ResolveDnsOptions, ): Promise<{ code: number; ret: Awaited>; }> { let ret: Awaited> = []; let code = 0; try { ret = await Deno.resolveDns(query, recordType, resolveOptions); } catch (e) { if (e instanceof Deno.errors.NotFound) { code = codeMap.get("EAI_NODATA")!; } else { // TODO(cmorten): map errors to appropriate error codes. code = codeMap.get("UNKNOWN")!; } } return { code, ret }; } queryAny(req: QueryReqWrap, name: string): number { // TODO(@bartlomieju): implemented temporary measure to allow limited usage of // `resolveAny` like APIs. // // Ideally we move to using the "ANY" / "*" DNS query in future // REF: https://github.com/denoland/deno/issues/14492 (async () => { const records: { type: Deno.RecordType; [key: string]: unknown }[] = []; await Promise.allSettled([ this.#query(name, "A").then(({ ret }) => { ret.forEach((record) => records.push({ type: "A", address: record })); }), this.#query(name, "AAAA").then(({ ret }) => { (ret as string[]).forEach((record) => records.push({ type: "AAAA", address: compressIPv6(record) }) ); }), this.#query(name, "CAA").then(({ ret }) => { (ret as Deno.CAARecord[]).forEach(({ critical, tag, value }) => records.push({ type: "CAA", [tag]: value, critical: +critical && 128, }) ); }), this.#query(name, "CNAME").then(({ ret }) => { ret.forEach((record) => records.push({ type: "CNAME", value: record }) ); }), this.#query(name, "MX").then(({ ret }) => { (ret as Deno.MXRecord[]).forEach(({ preference, exchange }) => records.push({ type: "MX", priority: preference, exchange: fqdnToHostname(exchange), }) ); }), this.#query(name, "NAPTR").then(({ ret }) => { (ret as Deno.NAPTRRecord[]).forEach( ({ order, preference, flags, services, regexp, replacement }) => records.push({ type: "NAPTR", order, preference, flags, service: services, regexp, replacement, }), ); }), this.#query(name, "NS").then(({ ret }) => { (ret as string[]).forEach((record) => records.push({ type: "NS", value: fqdnToHostname(record) }) ); }), this.#query(name, "PTR").then(({ ret }) => { (ret as string[]).forEach((record) => records.push({ type: "PTR", value: fqdnToHostname(record) }) ); }), this.#query(name, "SOA").then(({ ret }) => { (ret as Deno.SOARecord[]).forEach( ({ mname, rname, serial, refresh, retry, expire, minimum }) => records.push({ type: "SOA", nsname: fqdnToHostname(mname), hostmaster: fqdnToHostname(rname), serial, refresh, retry, expire, minttl: minimum, }), ); }), this.#query(name, "SRV").then(({ ret }) => { (ret as Deno.SRVRecord[]).forEach( ({ priority, weight, port, target }) => records.push({ type: "SRV", priority, weight, port, name: target, }), ); }), this.#query(name, "TXT").then(({ ret }) => { ret.forEach((record) => records.push({ type: "TXT", entries: record }) ); }), ]); const err = records.length ? 0 : codeMap.get("EAI_NODATA")!; req.oncomplete(err, records); })(); return 0; } queryA(req: QueryReqWrap, name: string): number { this.#query(name, "A").then(({ code, ret }) => { req.oncomplete(code, ret); }); return 0; } queryAaaa(req: QueryReqWrap, name: string): number { this.#query(name, "AAAA").then(({ code, ret }) => { const records = (ret as string[]).map((record) => compressIPv6(record)); req.oncomplete(code, records); }); return 0; } queryCaa(req: QueryReqWrap, name: string): number { this.#query(name, "CAA").then(({ code, ret }) => { const records = (ret as Deno.CAARecord[]).map( ({ critical, tag, value }) => ({ [tag]: value, critical: +critical && 128, }), ); req.oncomplete(code, records); }); return 0; } queryCname(req: QueryReqWrap, name: string): number { this.#query(name, "CNAME").then(({ code, ret }) => { req.oncomplete(code, ret); }); return 0; } queryMx(req: QueryReqWrap, name: string): number { this.#query(name, "MX").then(({ code, ret }) => { const records = (ret as Deno.MXRecord[]).map( ({ preference, exchange }) => ({ priority: preference, exchange: fqdnToHostname(exchange), }), ); req.oncomplete(code, records); }); return 0; } queryNaptr(req: QueryReqWrap, name: string): number { this.#query(name, "NAPTR").then(({ code, ret }) => { const records = (ret as Deno.NAPTRRecord[]).map( ({ order, preference, flags, services, regexp, replacement }) => ({ flags, service: services, regexp, replacement, order, preference, }), ); req.oncomplete(code, records); }); return 0; } queryNs(req: QueryReqWrap, name: string): number { this.#query(name, "NS").then(({ code, ret }) => { const records = (ret as string[]).map((record) => fqdnToHostname(record)); req.oncomplete(code, records); }); return 0; } queryPtr(req: QueryReqWrap, name: string): number { this.#query(name, "PTR").then(({ code, ret }) => { const records = (ret as string[]).map((record) => fqdnToHostname(record)); req.oncomplete(code, records); }); return 0; } querySoa(req: QueryReqWrap, name: string): number { this.#query(name, "SOA").then(({ code, ret }) => { let record = {}; if (ret.length) { const { mname, rname, serial, refresh, retry, expire, minimum } = ret[0] as Deno.SOARecord; record = { nsname: fqdnToHostname(mname), hostmaster: fqdnToHostname(rname), serial, refresh, retry, expire, minttl: minimum, }; } req.oncomplete(code, record); }); return 0; } querySrv(req: QueryReqWrap, name: string): number { this.#query(name, "SRV").then(({ code, ret }) => { const records = (ret as Deno.SRVRecord[]).map( ({ priority, weight, port, target }) => ({ priority, weight, port, name: target, }), ); req.oncomplete(code, records); }); return 0; } queryTxt(req: QueryReqWrap, name: string): number { this.#query(name, "TXT").then(({ code, ret }) => { req.oncomplete(code, ret); }); return 0; } getHostByAddr(_req: QueryReqWrap, _name: string): number { // TODO(@bartlomieju): https://github.com/denoland/deno/issues/14432 notImplemented("cares.ChannelWrap.prototype.getHostByAddr"); } getServers(): [string, number][] { return this.#servers; } setServers(servers: string | [number, string, number][]): number { if (typeof servers === "string") { const tuples: [string, number][] = []; for (let i = 0; i < servers.length; i += 2) { tuples.push([servers[i], parseInt(servers[i + 1])]); } this.#servers = tuples; } else { this.#servers = servers.map(([_ipVersion, ip, port]) => [ip, port]); } return 0; } setLocalAddress(_addr0: string, _addr1?: string) { notImplemented("cares.ChannelWrap.prototype.setLocalAddress"); } cancel() { notImplemented("cares.ChannelWrap.prototype.cancel"); } } const DNS_ESETSRVPENDING = -1000; const EMSG_ESETSRVPENDING = "There are pending queries."; export function strerror(code: number) { return code === DNS_ESETSRVPENDING ? EMSG_ESETSRVPENDING : ares_strerror(code); }