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denoland-deno/http/server.ts

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// Copyright 2018-2019 the Deno authors. All rights reserved. MIT license.
const { listen, copy, toAsyncIterator } = Deno;
type Listener = Deno.Listener;
type Conn = Deno.Conn;
type Reader = Deno.Reader;
type Writer = Deno.Writer;
import { BufReader, BufWriter, UnexpectedEOFError } from "../io/bufio.ts";
import { TextProtoReader } from "../textproto/mod.ts";
import { STATUS_TEXT } from "./http_status.ts";
import { assert } from "../testing/asserts.ts";
import {
collectUint8Arrays,
deferred,
Deferred,
MuxAsyncIterator
} from "../util/async.ts";
function bufWriter(w: Writer): BufWriter {
if (w instanceof BufWriter) {
return w;
} else {
return new BufWriter(w);
}
}
export function setContentLength(r: Response): void {
if (!r.headers) {
r.headers = new Headers();
}
if (r.body) {
if (!r.headers.has("content-length")) {
if (r.body instanceof Uint8Array) {
const bodyLength = r.body.byteLength;
r.headers.append("Content-Length", bodyLength.toString());
} else {
r.headers.append("Transfer-Encoding", "chunked");
}
}
}
}
async function writeChunkedBody(w: Writer, r: Reader): Promise<void> {
const writer = bufWriter(w);
const encoder = new TextEncoder();
for await (const chunk of toAsyncIterator(r)) {
if (chunk.byteLength <= 0) continue;
const start = encoder.encode(`${chunk.byteLength.toString(16)}\r\n`);
const end = encoder.encode("\r\n");
await writer.write(start);
await writer.write(chunk);
await writer.write(end);
}
const endChunk = encoder.encode("0\r\n\r\n");
await writer.write(endChunk);
}
export async function writeResponse(w: Writer, r: Response): Promise<void> {
const protoMajor = 1;
const protoMinor = 1;
const statusCode = r.status || 200;
const statusText = STATUS_TEXT.get(statusCode);
const writer = bufWriter(w);
if (!statusText) {
throw Error("bad status code");
}
if (!r.body) {
r.body = new Uint8Array();
}
let out = `HTTP/${protoMajor}.${protoMinor} ${statusCode} ${statusText}\r\n`;
setContentLength(r);
const headers = r.headers!;
for (const [key, value] of headers!) {
out += `${key}: ${value}\r\n`;
}
out += "\r\n";
const header = new TextEncoder().encode(out);
const n = await writer.write(header);
assert(n === header.byteLength);
if (r.body instanceof Uint8Array) {
const n = await writer.write(r.body);
assert(n === r.body.byteLength);
} else if (headers.has("content-length")) {
const bodyLength = parseInt(headers.get("content-length")!);
const n = await copy(writer, r.body);
assert(n === bodyLength);
} else {
await writeChunkedBody(writer, r.body);
}
await writer.flush();
}
export class ServerRequest {
url!: string;
method!: string;
proto!: string;
protoMinor!: number;
protoMajor!: number;
headers!: Headers;
conn!: Conn;
r!: BufReader;
w!: BufWriter;
done: Deferred<void> = deferred();
public async *bodyStream(): AsyncIterableIterator<Uint8Array> {
if (this.headers.has("content-length")) {
const len = +this.headers.get("content-length")!;
if (Number.isNaN(len)) {
return new Uint8Array(0);
}
let buf = new Uint8Array(1024);
let rr = await this.r.read(buf);
let nread = rr === Deno.EOF ? 0 : rr;
let nreadTotal = nread;
while (rr !== Deno.EOF && nreadTotal < len) {
yield buf.subarray(0, nread);
buf = new Uint8Array(1024);
rr = await this.r.read(buf);
nread = rr === Deno.EOF ? 0 : rr;
nreadTotal += nread;
}
yield buf.subarray(0, nread);
} else {
if (this.headers.has("transfer-encoding")) {
const transferEncodings = this.headers
.get("transfer-encoding")!
.split(",")
.map((e): string => e.trim().toLowerCase());
if (transferEncodings.includes("chunked")) {
// Based on https://tools.ietf.org/html/rfc2616#section-19.4.6
const tp = new TextProtoReader(this.r);
let line = await tp.readLine();
if (line === Deno.EOF) throw new UnexpectedEOFError();
// TODO: handle chunk extension
let [chunkSizeString] = line.split(";");
let chunkSize = parseInt(chunkSizeString, 16);
if (Number.isNaN(chunkSize) || chunkSize < 0) {
throw new Error("Invalid chunk size");
}
while (chunkSize > 0) {
const data = new Uint8Array(chunkSize);
if ((await this.r.readFull(data)) === Deno.EOF) {
throw new UnexpectedEOFError();
}
yield data;
await this.r.readLine(); // Consume \r\n
line = await tp.readLine();
if (line === Deno.EOF) throw new UnexpectedEOFError();
chunkSize = parseInt(line, 16);
}
const entityHeaders = await tp.readMIMEHeader();
if (entityHeaders !== Deno.EOF) {
for (let [k, v] of entityHeaders) {
this.headers.set(k, v);
}
}
/* Pseudo code from https://tools.ietf.org/html/rfc2616#section-19.4.6
length := 0
read chunk-size, chunk-extension (if any) and CRLF
while (chunk-size > 0) {
read chunk-data and CRLF
append chunk-data to entity-body
length := length + chunk-size
read chunk-size and CRLF
}
read entity-header
while (entity-header not empty) {
append entity-header to existing header fields
read entity-header
}
Content-Length := length
Remove "chunked" from Transfer-Encoding
*/
return; // Must return here to avoid fall through
}
// TODO: handle other transfer-encoding types
}
// Otherwise...
yield new Uint8Array(0);
}
}
// Read the body of the request into a single Uint8Array
public async body(): Promise<Uint8Array> {
return collectUint8Arrays(this.bodyStream());
}
async respond(r: Response): Promise<void> {
// Write our response!
await writeResponse(this.w, r);
// Signal that this request has been processed and the next pipelined
// request on the same connection can be accepted.
this.done.resolve();
}
}
function fixLength(req: ServerRequest): void {
const contentLength = req.headers.get("Content-Length");
if (contentLength) {
const arrClen = contentLength.split(",");
if (arrClen.length > 1) {
const distinct = [...new Set(arrClen.map((e): string => e.trim()))];
if (distinct.length > 1) {
throw Error("cannot contain multiple Content-Length headers");
} else {
req.headers.set("Content-Length", distinct[0]);
}
}
const c = req.headers.get("Content-Length");
if (req.method === "HEAD" && c && c !== "0") {
throw Error("http: method cannot contain a Content-Length");
}
if (c && req.headers.has("transfer-encoding")) {
// A sender MUST NOT send a Content-Length header field in any message
// that contains a Transfer-Encoding header field.
// rfc: https://tools.ietf.org/html/rfc7230#section-3.3.2
throw new Error(
"http: Transfer-Encoding and Content-Length cannot be send together"
);
}
}
}
// ParseHTTPVersion parses a HTTP version string.
// "HTTP/1.0" returns (1, 0, true).
// Ported from https://github.com/golang/go/blob/f5c43b9/src/net/http/request.go#L766-L792
export function parseHTTPVersion(vers: string): [number, number] {
switch (vers) {
case "HTTP/1.1":
return [1, 1];
case "HTTP/1.0":
return [1, 0];
default: {
const Big = 1000000; // arbitrary upper bound
const digitReg = /^\d+$/; // test if string is only digit
let major: number;
let minor: number;
if (!vers.startsWith("HTTP/")) {
break;
}
const dot = vers.indexOf(".");
if (dot < 0) {
break;
}
let majorStr = vers.substring(vers.indexOf("/") + 1, dot);
major = parseInt(majorStr);
if (
!digitReg.test(majorStr) ||
isNaN(major) ||
major < 0 ||
major > Big
) {
break;
}
let minorStr = vers.substring(dot + 1);
minor = parseInt(minorStr);
if (
!digitReg.test(minorStr) ||
isNaN(minor) ||
minor < 0 ||
minor > Big
) {
break;
}
return [major, minor];
}
}
throw new Error(`malformed HTTP version ${vers}`);
}
export async function readRequest(
conn: Conn,
bufr: BufReader
): Promise<ServerRequest | Deno.EOF> {
const tp = new TextProtoReader(bufr);
const firstLine = await tp.readLine(); // e.g. GET /index.html HTTP/1.0
if (firstLine === Deno.EOF) return Deno.EOF;
const headers = await tp.readMIMEHeader();
if (headers === Deno.EOF) throw new UnexpectedEOFError();
const req = new ServerRequest();
req.conn = conn;
req.r = bufr;
[req.method, req.url, req.proto] = firstLine.split(" ", 3);
[req.protoMinor, req.protoMajor] = parseHTTPVersion(req.proto);
req.headers = headers;
fixLength(req);
return req;
}
export class Server implements AsyncIterable<ServerRequest> {
private closing = false;
constructor(public listener: Listener) {}
close(): void {
this.closing = true;
this.listener.close();
}
// Yields all HTTP requests on a single TCP connection.
private async *iterateHttpRequests(
conn: Conn
): AsyncIterableIterator<ServerRequest> {
const bufr = new BufReader(conn);
const w = new BufWriter(conn);
let req: ServerRequest | Deno.EOF;
let err: Error | undefined;
while (!this.closing) {
try {
req = await readRequest(conn, bufr);
} catch (e) {
err = e;
break;
}
if (req === Deno.EOF) {
break;
}
req.w = w;
yield req;
// Wait for the request to be processed before we accept a new request on
// this connection.
await req!.done;
}
if (req! === Deno.EOF) {
// The connection was gracefully closed.
} else if (err) {
// An error was thrown while parsing request headers.
try {
await writeResponse(req!.w, {
status: 400,
body: new TextEncoder().encode(`${err.message}\r\n\r\n`)
});
} catch (_) {
// The connection is destroyed.
// Ignores the error.
}
} else if (this.closing) {
// There are more requests incoming but the server is closing.
// TODO(ry): send a back a HTTP 503 Service Unavailable status.
}
conn.close();
}
// Accepts a new TCP connection and yields all HTTP requests that arrive on
// it. When a connection is accepted, it also creates a new iterator of the
// same kind and adds it to the request multiplexer so that another TCP
// connection can be accepted.
private async *acceptConnAndIterateHttpRequests(
mux: MuxAsyncIterator<ServerRequest>
): AsyncIterableIterator<ServerRequest> {
if (this.closing) return;
// Wait for a new connection.
const conn = await this.listener.accept();
// Try to accept another connection and add it to the multiplexer.
mux.add(this.acceptConnAndIterateHttpRequests(mux));
// Yield the requests that arrive on the just-accepted connection.
yield* this.iterateHttpRequests(conn);
}
[Symbol.asyncIterator](): AsyncIterableIterator<ServerRequest> {
const mux: MuxAsyncIterator<ServerRequest> = new MuxAsyncIterator();
mux.add(this.acceptConnAndIterateHttpRequests(mux));
return mux.iterate();
}
}
export function serve(addr: string): Server {
const listener = listen("tcp", addr);
return new Server(listener);
}
export async function listenAndServe(
addr: string,
handler: (req: ServerRequest) => void
): Promise<void> {
const server = serve(addr);
for await (const request of server) {
handler(request);
}
}
export interface Response {
status?: number;
headers?: Headers;
body?: Uint8Array | Reader;
}