// 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. // TODO(petamoriken): enable prefer-primordials for node polyfills // deno-lint-ignore-file prefer-primordials const core = globalThis.Deno.core; const ops = core.ops; import { AsyncWrap, providerType, } from "ext:deno_node/internal_binding/async_wrap.ts"; import { GetAddrInfoReqWrap } from "ext:deno_node/internal_binding/cares_wrap.ts"; import { HandleWrap } from "ext:deno_node/internal_binding/handle_wrap.ts"; import { ownerSymbol } from "ext:deno_node/internal_binding/symbols.ts"; import { codeMap, errorMap } from "ext:deno_node/internal_binding/uv.ts"; import { notImplemented } from "ext:deno_node/_utils.ts"; import { Buffer } from "ext:deno_node/buffer.ts"; import type { ErrnoException } from "ext:deno_node/internal/errors.ts"; import { isIP } from "ext:deno_node/internal/net.ts"; import * as net from "ext:deno_net/01_net.js"; import { isLinux, isWindows } from "ext:deno_node/_util/os.ts"; const DenoListenDatagram = net.createListenDatagram( ops.op_node_unstable_net_listen_udp, ops.op_node_unstable_net_listen_unixpacket, ); type MessageType = string | Uint8Array | Buffer | DataView; const AF_INET = 2; const AF_INET6 = 10; const UDP_DGRAM_MAXSIZE = 64 * 1024; export class SendWrap extends AsyncWrap { list!: MessageType[]; address!: string; port!: number; callback!: (error: ErrnoException | null, bytes?: number) => void; oncomplete!: (err: number | null, sent?: number) => void; constructor() { super(providerType.UDPSENDWRAP); } } export class UDP extends HandleWrap { [ownerSymbol]: unknown = null; #address?: string; #family?: string; #port?: number; #remoteAddress?: string; #remoteFamily?: string; #remotePort?: number; #listener?: Deno.DatagramConn; #receiving = false; #recvBufferSize = UDP_DGRAM_MAXSIZE; #sendBufferSize = UDP_DGRAM_MAXSIZE; onmessage!: ( nread: number, handle: UDP, buf?: Buffer, rinfo?: { address: string; family: "IPv4" | "IPv6"; port: number; size?: number; }, ) => void; lookup!: ( address: string, callback: ( err: ErrnoException | null, address: string, family: number, ) => void, ) => GetAddrInfoReqWrap | Record; constructor() { super(providerType.UDPWRAP); } addMembership(_multicastAddress: string, _interfaceAddress?: string): number { notImplemented("udp.UDP.prototype.addMembership"); } addSourceSpecificMembership( _sourceAddress: string, _groupAddress: string, _interfaceAddress?: string, ): number { notImplemented("udp.UDP.prototype.addSourceSpecificMembership"); } /** * Bind to an IPv4 address. * @param ip The hostname to bind to. * @param port The port to bind to * @return An error status code. */ bind(ip: string, port: number, flags: number): number { return this.#doBind(ip, port, flags, AF_INET); } /** * Bind to an IPv6 address. * @param ip The hostname to bind to. * @param port The port to bind to * @return An error status code. */ bind6(ip: string, port: number, flags: number): number { return this.#doBind(ip, port, flags, AF_INET6); } bufferSize( size: number, buffer: boolean, ctx: Record, ): number | undefined { let err: string | undefined; if (size > UDP_DGRAM_MAXSIZE) { err = "EINVAL"; } else if (!this.#address) { err = isWindows ? "ENOTSOCK" : "EBADF"; } if (err) { ctx.errno = codeMap.get(err)!; ctx.code = err; ctx.message = errorMap.get(ctx.errno)![1]; ctx.syscall = buffer ? "uv_recv_buffer_size" : "uv_send_buffer_size"; return; } if (size !== 0) { size = isLinux ? size * 2 : size; if (buffer) { return (this.#recvBufferSize = size); } return (this.#sendBufferSize = size); } return buffer ? this.#recvBufferSize : this.#sendBufferSize; } connect(ip: string, port: number): number { return this.#doConnect(ip, port, AF_INET); } connect6(ip: string, port: number): number { return this.#doConnect(ip, port, AF_INET6); } disconnect(): number { this.#remoteAddress = undefined; this.#remotePort = undefined; this.#remoteFamily = undefined; return 0; } dropMembership( _multicastAddress: string, _interfaceAddress?: string, ): number { notImplemented("udp.UDP.prototype.dropMembership"); } dropSourceSpecificMembership( _sourceAddress: string, _groupAddress: string, _interfaceAddress?: string, ): number { notImplemented("udp.UDP.prototype.dropSourceSpecificMembership"); } /** * Populates the provided object with remote address entries. * @param peername An object to add the remote address entries to. * @return An error status code. */ getpeername(peername: Record): number { if (this.#remoteAddress === undefined) { return codeMap.get("EBADF")!; } peername.address = this.#remoteAddress; peername.port = this.#remotePort!; peername.family = this.#remoteFamily!; return 0; } /** * Populates the provided object with local address entries. * @param sockname An object to add the local address entries to. * @return An error status code. */ getsockname(sockname: Record): number { if (this.#address === undefined) { return codeMap.get("EBADF")!; } sockname.address = this.#address; sockname.port = this.#port!; sockname.family = this.#family!; return 0; } /** * Opens a file descriptor. * @param fd The file descriptor to open. * @return An error status code. */ open(_fd: number): number { // REF: https://github.com/denoland/deno/issues/6529 notImplemented("udp.UDP.prototype.open"); } /** * Start receiving on the connection. * @return An error status code. */ recvStart(): number { if (!this.#receiving) { this.#receiving = true; this.#receive(); } return 0; } /** * Stop receiving on the connection. * @return An error status code. */ recvStop(): number { this.#receiving = false; return 0; } override ref() { notImplemented("udp.UDP.prototype.ref"); } send( req: SendWrap, bufs: MessageType[], count: number, ...args: [number, string, boolean] | [boolean] ): number { return this.#doSend(req, bufs, count, args, AF_INET); } send6( req: SendWrap, bufs: MessageType[], count: number, ...args: [number, string, boolean] | [boolean] ): number { return this.#doSend(req, bufs, count, args, AF_INET6); } setBroadcast(_bool: 0 | 1): number { notImplemented("udp.UDP.prototype.setBroadcast"); } setMulticastInterface(_interfaceAddress: string): number { notImplemented("udp.UDP.prototype.setMulticastInterface"); } setMulticastLoopback(_bool: 0 | 1): number { notImplemented("udp.UDP.prototype.setMulticastLoopback"); } setMulticastTTL(_ttl: number): number { notImplemented("udp.UDP.prototype.setMulticastTTL"); } setTTL(_ttl: number): number { notImplemented("udp.UDP.prototype.setTTL"); } override unref() { notImplemented("udp.UDP.prototype.unref"); } #doBind(ip: string, port: number, _flags: number, family: number): number { // TODO(cmorten): use flags to inform socket reuse etc. const listenOptions = { port, hostname: ip, transport: "udp" as const, }; let listener; try { listener = DenoListenDatagram(listenOptions); } catch (e) { if (e instanceof Deno.errors.AddrInUse) { return codeMap.get("EADDRINUSE")!; } else if (e instanceof Deno.errors.AddrNotAvailable) { return codeMap.get("EADDRNOTAVAIL")!; } else if (e instanceof Deno.errors.PermissionDenied) { throw e; } // TODO(cmorten): map errors to appropriate error codes. return codeMap.get("UNKNOWN")!; } const address = listener.addr as Deno.NetAddr; this.#address = address.hostname; this.#port = address.port; this.#family = family === AF_INET6 ? ("IPv6" as const) : ("IPv4" as const); this.#listener = listener; return 0; } #doConnect(ip: string, port: number, family: number): number { this.#remoteAddress = ip; this.#remotePort = port; this.#remoteFamily = family === AF_INET6 ? ("IPv6" as const) : ("IPv4" as const); return 0; } #doSend( req: SendWrap, bufs: MessageType[], _count: number, args: [number, string, boolean] | [boolean], _family: number, ): number { let hasCallback: boolean; if (args.length === 3) { this.#remotePort = args[0] as number; this.#remoteAddress = args[1] as string; hasCallback = args[2] as boolean; } else { hasCallback = args[0] as boolean; } const addr: Deno.NetAddr = { hostname: this.#remoteAddress!, port: this.#remotePort!, transport: "udp", }; // Deno.DatagramConn.prototype.send accepts only one Uint8Array const payload = new Uint8Array( Buffer.concat( bufs.map((buf) => { if (typeof buf === "string") { return Buffer.from(buf); } return Buffer.from(buf.buffer, buf.byteOffset, buf.byteLength); }), ), ); (async () => { let sent: number; let err: number | null = null; try { sent = await this.#listener!.send(payload, addr); } catch (e) { // TODO(cmorten): map errors to appropriate error codes. if (e instanceof Deno.errors.BadResource) { err = codeMap.get("EBADF")!; } else if ( e instanceof Error && e.message.match(/os error (40|90|10040)/) ) { err = codeMap.get("EMSGSIZE")!; } else { err = codeMap.get("UNKNOWN")!; } sent = 0; } if (hasCallback) { try { req.oncomplete(err, sent); } catch { // swallow callback errors } } })(); return 0; } async #receive() { if (!this.#receiving) { return; } const p = new Uint8Array(this.#recvBufferSize); let buf: Uint8Array; let remoteAddr: Deno.NetAddr | null; let nread: number | null; try { [buf, remoteAddr] = (await this.#listener!.receive(p)) as [ Uint8Array, Deno.NetAddr, ]; nread = buf.length; } catch (e) { // TODO(cmorten): map errors to appropriate error codes. if ( e instanceof Deno.errors.Interrupted || e instanceof Deno.errors.BadResource ) { nread = 0; } else { nread = codeMap.get("UNKNOWN")!; } buf = new Uint8Array(0); remoteAddr = null; } nread ??= 0; const rinfo = remoteAddr ? { address: remoteAddr.hostname, port: remoteAddr.port, family: isIP(remoteAddr.hostname) === 6 ? ("IPv6" as const) : ("IPv4" as const), } : undefined; try { this.onmessage(nread, this, Buffer.from(buf), rinfo); } catch { // swallow callback errors. } this.#receive(); } /** Handle socket closure. */ override _onClose(): number { this.#receiving = false; this.#address = undefined; this.#port = undefined; this.#family = undefined; try { this.#listener!.close(); } catch { // listener already closed } this.#listener = undefined; return 0; } }