1
0
Fork 0
mirror of https://github.com/denoland/deno.git synced 2024-12-17 21:03:01 -05:00
denoland-deno/multipart/multipart.ts
Vincent LE GOFF dcd01dd025 Eslint fixes (denoland/deno_std#356)
Make warnings fail
Original: 4543b563a9
2019-04-24 07:41:22 -04:00

503 lines
13 KiB
TypeScript

// Copyright 2018-2019 the Deno authors. All rights reserved. MIT license.
const { Buffer, copy, remove } = Deno;
type Closer = Deno.Closer;
type Reader = Deno.Reader;
type ReadResult = Deno.ReadResult;
type Writer = Deno.Writer;
import { FormFile } from "./formfile.ts";
import {
bytesFindIndex,
bytesFindLastIndex,
bytesHasPrefix,
bytesEqual
} from "../bytes/bytes.ts";
import { copyN } from "../io/ioutil.ts";
import { MultiReader } from "../io/readers.ts";
import { tempFile } from "../io/util.ts";
import { BufReader, BufState, BufWriter } from "../io/bufio.ts";
import { TextProtoReader } from "../textproto/mod.ts";
import { encoder } from "../strings/strings.ts";
import * as path from "../fs/path.ts";
function randomBoundary(): string {
let boundary = "--------------------------";
for (let i = 0; i < 24; i++) {
boundary += Math.floor(Math.random() * 10).toString(16);
}
return boundary;
}
export function matchAfterPrefix(
a: Uint8Array,
prefix: Uint8Array,
bufState: BufState
): number {
if (a.length === prefix.length) {
if (bufState) {
return 1;
}
return 0;
}
const c = a[prefix.length];
if (
c === " ".charCodeAt(0) ||
c === "\t".charCodeAt(0) ||
c === "\r".charCodeAt(0) ||
c === "\n".charCodeAt(0) ||
c === "-".charCodeAt(0)
) {
return 1;
}
return -1;
}
export function scanUntilBoundary(
buf: Uint8Array,
dashBoundary: Uint8Array,
newLineDashBoundary: Uint8Array,
total: number,
state: BufState
): [number, BufState] {
if (total === 0) {
if (bytesHasPrefix(buf, dashBoundary)) {
switch (matchAfterPrefix(buf, dashBoundary, state)) {
case -1:
return [dashBoundary.length, null];
case 0:
return [0, null];
case 1:
return [0, "EOF"];
}
if (bytesHasPrefix(dashBoundary, buf)) {
return [0, state];
}
}
}
const i = bytesFindIndex(buf, newLineDashBoundary);
if (i >= 0) {
switch (matchAfterPrefix(buf.slice(i), newLineDashBoundary, state)) {
case -1:
// eslint-disable-next-line @typescript-eslint/restrict-plus-operands
return [i + newLineDashBoundary.length, null];
case 0:
return [i, null];
case 1:
return [i, "EOF"];
}
}
if (bytesHasPrefix(newLineDashBoundary, buf)) {
return [0, state];
}
const j = bytesFindLastIndex(buf, newLineDashBoundary.slice(0, 1));
if (j >= 0 && bytesHasPrefix(newLineDashBoundary, buf.slice(j))) {
return [j, null];
}
return [buf.length, state];
}
let i = 0;
class PartReader implements Reader, Closer {
n: number = 0;
total: number = 0;
bufState: BufState = null;
index = i++;
constructor(private mr: MultipartReader, public readonly headers: Headers) {}
async read(p: Uint8Array): Promise<ReadResult> {
const br = this.mr.bufReader;
const returnResult = (nread: number, bufState: BufState): ReadResult => {
if (bufState && bufState !== "EOF") {
throw bufState;
}
return { nread, eof: bufState === "EOF" };
};
if (this.n === 0 && !this.bufState) {
const [peek] = await br.peek(br.buffered());
const [n, state] = scanUntilBoundary(
peek,
this.mr.dashBoundary,
this.mr.newLineDashBoundary,
this.total,
this.bufState
);
this.n = n;
this.bufState = state;
if (this.n === 0 && !this.bufState) {
// eslint-disable-next-line @typescript-eslint/restrict-plus-operands
const [, state] = await br.peek(peek.length + 1);
this.bufState = state;
if (this.bufState === "EOF") {
this.bufState = new RangeError("unexpected eof");
}
}
}
if (this.n === 0) {
return returnResult(0, this.bufState);
}
let n = 0;
if (p.byteLength > this.n) {
n = this.n;
}
const buf = p.slice(0, n);
const [nread] = await this.mr.bufReader.readFull(buf);
p.set(buf);
this.total += nread;
this.n -= nread;
if (this.n === 0) {
return returnResult(n, this.bufState);
}
return returnResult(n, null);
}
close(): void {}
private contentDisposition: string;
private contentDispositionParams: { [key: string]: string };
private getContentDispositionParams(): { [key: string]: string } {
if (this.contentDispositionParams) return this.contentDispositionParams;
const cd = this.headers.get("content-disposition");
const params = {};
const comps = cd.split(";");
this.contentDisposition = comps[0];
comps
.slice(1)
.map((v): string => v.trim())
.map(
(kv): void => {
const [k, v] = kv.split("=");
if (v) {
const s = v.charAt(0);
const e = v.charAt(v.length - 1);
if ((s === e && s === '"') || s === "'") {
params[k] = v.substr(1, v.length - 2);
} else {
params[k] = v;
}
}
}
);
return (this.contentDispositionParams = params);
}
get fileName(): string {
return this.getContentDispositionParams()["filename"];
}
get formName(): string {
const p = this.getContentDispositionParams();
if (this.contentDisposition === "form-data") {
return p["name"];
}
return "";
}
}
function skipLWSPChar(u: Uint8Array): Uint8Array {
const ret = new Uint8Array(u.length);
const sp = " ".charCodeAt(0);
const ht = "\t".charCodeAt(0);
let j = 0;
for (let i = 0; i < u.length; i++) {
if (u[i] === sp || u[i] === ht) continue;
ret[j++] = u[i];
}
return ret.slice(0, j);
}
/** Reader for parsing multipart/form-data */
export class MultipartReader {
readonly newLine = encoder.encode("\r\n");
readonly newLineDashBoundary = encoder.encode(`\r\n--${this.boundary}`);
readonly dashBoundaryDash = encoder.encode(`--${this.boundary}--`);
readonly dashBoundary = encoder.encode(`--${this.boundary}`);
readonly bufReader: BufReader;
constructor(private reader: Reader, private boundary: string) {
this.bufReader = new BufReader(reader);
}
/** Read all form data from stream.
* If total size of stored data in memory exceed maxMemory,
* overflowed file data will be written to temporal files.
* String field values are never written to files */
async readForm(
maxMemory: number
): Promise<{ [key: string]: string | FormFile }> {
const result = Object.create(null);
let maxValueBytes = maxMemory + (10 << 20);
const buf = new Buffer(new Uint8Array(maxValueBytes));
for (;;) {
const p = await this.nextPart();
if (!p) {
break;
}
if (p.formName === "") {
continue;
}
buf.reset();
if (!p.fileName) {
// value
const n = await copyN(buf, p, maxValueBytes);
maxValueBytes -= n;
if (maxValueBytes < 0) {
throw new RangeError("message too large");
}
const value = buf.toString();
result[p.formName] = value;
continue;
}
// file
let formFile: FormFile;
const n = await copy(buf, p);
if (n > maxMemory) {
// too big, write to disk and flush buffer
const ext = path.extname(p.fileName);
const { file, filepath } = await tempFile(".", {
prefix: "multipart-",
postfix: ext
});
try {
const size = await copyN(
file,
new MultiReader(buf, p),
maxValueBytes
);
file.close();
formFile = {
filename: p.fileName,
type: p.headers.get("content-type"),
tempfile: filepath,
size
};
} catch (e) {
await remove(filepath);
}
} else {
formFile = {
filename: p.fileName,
type: p.headers.get("content-type"),
content: buf.bytes(),
size: buf.bytes().byteLength
};
maxMemory -= n;
maxValueBytes -= n;
}
result[p.formName] = formFile;
}
return result;
}
private currentPart: PartReader;
private partsRead: number;
private async nextPart(): Promise<PartReader> {
if (this.currentPart) {
this.currentPart.close();
}
if (bytesEqual(this.dashBoundary, encoder.encode("--"))) {
throw new Error("boundary is empty");
}
let expectNewPart = false;
for (;;) {
const [line, state] = await this.bufReader.readSlice("\n".charCodeAt(0));
if (state === "EOF" && this.isFinalBoundary(line)) {
break;
}
if (state) {
throw new Error(`aa${state.toString()}`);
}
if (this.isBoundaryDelimiterLine(line)) {
this.partsRead++;
const r = new TextProtoReader(this.bufReader);
const [headers, state] = await r.readMIMEHeader();
if (state) {
throw state;
}
const np = new PartReader(this, headers);
this.currentPart = np;
return np;
}
if (this.isFinalBoundary(line)) {
break;
}
if (expectNewPart) {
throw new Error(`expecting a new Part; got line ${line}`);
}
if (this.partsRead === 0) {
continue;
}
if (bytesEqual(line, this.newLine)) {
expectNewPart = true;
continue;
}
throw new Error(`unexpected line in next(): ${line}`);
}
}
private isFinalBoundary(line: Uint8Array): boolean {
if (!bytesHasPrefix(line, this.dashBoundaryDash)) {
return false;
}
let rest = line.slice(this.dashBoundaryDash.length, line.length);
return rest.length === 0 || bytesEqual(skipLWSPChar(rest), this.newLine);
}
private isBoundaryDelimiterLine(line: Uint8Array): boolean {
if (!bytesHasPrefix(line, this.dashBoundary)) {
return false;
}
const rest = line.slice(this.dashBoundary.length);
return bytesEqual(skipLWSPChar(rest), this.newLine);
}
}
class PartWriter implements Writer {
closed = false;
private readonly partHeader: string;
private headersWritten: boolean = false;
constructor(
private writer: Writer,
readonly boundary: string,
public headers: Headers,
isFirstBoundary: boolean
) {
let buf = "";
if (isFirstBoundary) {
buf += `--${boundary}\r\n`;
} else {
buf += `\r\n--${boundary}\r\n`;
}
for (const [key, value] of headers.entries()) {
buf += `${key}: ${value}\r\n`;
}
buf += `\r\n`;
this.partHeader = buf;
}
close(): void {
this.closed = true;
}
async write(p: Uint8Array): Promise<number> {
if (this.closed) {
throw new Error("part is closed");
}
if (!this.headersWritten) {
await this.writer.write(encoder.encode(this.partHeader));
this.headersWritten = true;
}
return this.writer.write(p);
}
}
function checkBoundary(b: string): string {
if (b.length < 1 || b.length > 70) {
throw new Error(`invalid boundary length: ${b.length}`);
}
const end = b.length - 1;
for (let i = 0; i < end; i++) {
const c = b.charAt(i);
if (!c.match(/[a-zA-Z0-9'()+_,\-./:=?]/) || (c === " " && i !== end)) {
throw new Error("invalid boundary character: " + c);
}
}
return b;
}
/** Writer for creating multipart/form-data */
export class MultipartWriter {
private readonly _boundary: string;
get boundary(): string {
return this._boundary;
}
private lastPart: PartWriter;
private bufWriter: BufWriter;
private isClosed: boolean = false;
constructor(private readonly writer: Writer, boundary?: string) {
if (boundary !== void 0) {
this._boundary = checkBoundary(boundary);
} else {
this._boundary = randomBoundary();
}
this.bufWriter = new BufWriter(writer);
}
formDataContentType(): string {
return `multipart/form-data; boundary=${this.boundary}`;
}
private createPart(headers: Headers): Writer {
if (this.isClosed) {
throw new Error("multipart: writer is closed");
}
if (this.lastPart) {
this.lastPart.close();
}
const part = new PartWriter(
this.writer,
this.boundary,
headers,
!this.lastPart
);
this.lastPart = part;
return part;
}
createFormFile(field: string, filename: string): Writer {
const h = new Headers();
h.set(
"Content-Disposition",
`form-data; name="${field}"; filename="${filename}"`
);
h.set("Content-Type", "application/octet-stream");
return this.createPart(h);
}
createFormField(field: string): Writer {
const h = new Headers();
h.set("Content-Disposition", `form-data; name="${field}"`);
h.set("Content-Type", "application/octet-stream");
return this.createPart(h);
}
async writeField(field: string, value: string): Promise<void> {
const f = await this.createFormField(field);
await f.write(encoder.encode(value));
}
async writeFile(
field: string,
filename: string,
file: Reader
): Promise<void> {
const f = await this.createFormFile(field, filename);
await copy(f, file);
}
private flush(): Promise<BufState> {
return this.bufWriter.flush();
}
/** Close writer. No additional data can be writen to stream */
async close(): Promise<void> {
if (this.isClosed) {
throw new Error("multipart: writer is closed");
}
if (this.lastPart) {
this.lastPart.close();
this.lastPart = void 0;
}
await this.writer.write(encoder.encode(`\r\n--${this.boundary}--\r\n`));
await this.flush();
this.isClosed = true;
}
}