f10f8db5fb
This commit fixes several issues discovered through use in real apps. * The sha1() function operated on text content, causing issues for binary-format files. A sha1Binary() function which operates on unparsed data now avoids any encoding issues. * The characters '?' and '+' were not escaped in Glob-to-regex conversion previously, but are now. * URLs from the browser contain the full origin, but were checked against the table of hashes from the manifest which only has the path for URLs from the same origin. Now the origin is checked and URLs are relativized to the domain root before comparison if appropriate. * ngsw: prefix was missing from data groups, is now added. * Occasionally servers will return a redirected response for an asset, and caching it could cause errors for navigation requests. The SW now handles this by detecting such responses and following the redirect manually, to avoid caching a redirected response. * The request for known assets is now created from scratch from the URL before fetching from the network, in order to sanitize it and avoid carrying any special modes or headers that might result in opaque responses. * Debugging log for troubleshooting. * Avoid creating errors by returning 504 responses on error. * Fix bug where idle queue doesn't run in some circumstances. * Add tests for the above.
218 lines
5.8 KiB
TypeScript
218 lines
5.8 KiB
TypeScript
/**
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* @license
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* Copyright Google Inc. All Rights Reserved.
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*
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* Use of this source code is governed by an MIT-style license that can be
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* found in the LICENSE file at https://angular.io/license
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*/
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/**
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* Compute the SHA1 of the given string
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*
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* see http://csrc.nist.gov/publications/fips/fips180-4/fips-180-4.pdf
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*
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* WARNING: this function has not been designed not tested with security in mind.
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* DO NOT USE IT IN A SECURITY SENSITIVE CONTEXT.
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*
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* Borrowed from @angular/compiler/src/i18n/digest.ts
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*/
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export function sha1(str: string): string {
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const utf8 = str;
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const words32 = stringToWords32(utf8, Endian.Big);
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return _sha1(words32, utf8.length * 8);
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}
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export function sha1Binary(buffer: ArrayBuffer): string {
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const words32 = arrayBufferToWords32(buffer, Endian.Big);
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return _sha1(words32, buffer.byteLength * 8);
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}
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function _sha1(words32: number[], len: number): string {
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const w = new Array(80);
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let [a, b, c, d, e]: number[] = [0x67452301, 0xefcdab89, 0x98badcfe, 0x10325476, 0xc3d2e1f0];
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words32[len >> 5] |= 0x80 << (24 - len % 32);
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words32[((len + 64 >> 9) << 4) + 15] = len;
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for (let i = 0; i < words32.length; i += 16) {
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const [h0, h1, h2, h3, h4]: number[] = [a, b, c, d, e];
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for (let j = 0; j < 80; j++) {
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if (j < 16) {
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w[j] = words32[i + j];
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} else {
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w[j] = rol32(w[j - 3] ^ w[j - 8] ^ w[j - 14] ^ w[j - 16], 1);
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}
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const [f, k] = fk(j, b, c, d);
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const temp = [rol32(a, 5), f, e, k, w[j]].reduce(add32);
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[e, d, c, b, a] = [d, c, rol32(b, 30), a, temp];
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}
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[a, b, c, d, e] = [add32(a, h0), add32(b, h1), add32(c, h2), add32(d, h3), add32(e, h4)];
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}
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return byteStringToHexString(words32ToByteString([a, b, c, d, e]));
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}
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function add32(a: number, b: number): number {
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return add32to64(a, b)[1];
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}
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function add32to64(a: number, b: number): [number, number] {
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const low = (a & 0xffff) + (b & 0xffff);
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const high = (a >>> 16) + (b >>> 16) + (low >>> 16);
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return [high >>> 16, (high << 16) | (low & 0xffff)];
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}
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function add64([ah, al]: [number, number], [bh, bl]: [number, number]): [number, number] {
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const [carry, l] = add32to64(al, bl);
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const h = add32(add32(ah, bh), carry);
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return [h, l];
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}
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function sub32(a: number, b: number): number {
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const low = (a & 0xffff) - (b & 0xffff);
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const high = (a >> 16) - (b >> 16) + (low >> 16);
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return (high << 16) | (low & 0xffff);
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}
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// Rotate a 32b number left `count` position
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function rol32(a: number, count: number): number {
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return (a << count) | (a >>> (32 - count));
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}
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// Rotate a 64b number left `count` position
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function rol64([hi, lo]: [number, number], count: number): [number, number] {
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const h = (hi << count) | (lo >>> (32 - count));
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const l = (lo << count) | (hi >>> (32 - count));
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return [h, l];
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}
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enum Endian {
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Little,
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Big,
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}
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function fk(index: number, b: number, c: number, d: number): [number, number] {
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if (index < 20) {
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return [(b & c) | (~b & d), 0x5a827999];
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}
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if (index < 40) {
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return [b ^ c ^ d, 0x6ed9eba1];
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}
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if (index < 60) {
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return [(b & c) | (b & d) | (c & d), 0x8f1bbcdc];
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}
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return [b ^ c ^ d, 0xca62c1d6];
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}
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function stringToWords32(str: string, endian: Endian): number[] {
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const words32 = Array((str.length + 3) >>> 2);
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for (let i = 0; i < words32.length; i++) {
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words32[i] = wordAt(str, i * 4, endian);
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}
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return words32;
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}
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function arrayBufferToWords32(buffer: ArrayBuffer, endian: Endian): number[] {
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const words32 = Array((buffer.byteLength + 3) >>> 2);
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const view = new Uint8Array(buffer);
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for (let i = 0; i < words32.length; i++) {
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words32[i] = wordAt(view, i * 4, endian);
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}
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return words32;
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}
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function byteAt(str: string | Uint8Array, index: number): number {
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if (typeof str === 'string') {
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return index >= str.length ? 0 : str.charCodeAt(index) & 0xff;
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} else {
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return index >= str.byteLength ? 0 : str[index] & 0xff;
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}
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}
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function wordAt(str: string | Uint8Array, index: number, endian: Endian): number {
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let word = 0;
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if (endian === Endian.Big) {
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for (let i = 0; i < 4; i++) {
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word += byteAt(str, index + i) << (24 - 8 * i);
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}
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} else {
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for (let i = 0; i < 4; i++) {
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word += byteAt(str, index + i) << 8 * i;
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}
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}
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return word;
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}
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function words32ToByteString(words32: number[]): string {
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return words32.reduce((str, word) => str + word32ToByteString(word), '');
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}
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function word32ToByteString(word: number): string {
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let str = '';
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for (let i = 0; i < 4; i++) {
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str += String.fromCharCode((word >>> 8 * (3 - i)) & 0xff);
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}
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return str;
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}
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function byteStringToHexString(str: string): string {
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let hex: string = '';
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for (let i = 0; i < str.length; i++) {
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const b = byteAt(str, i);
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hex += (b >>> 4).toString(16) + (b & 0x0f).toString(16);
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}
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return hex.toLowerCase();
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}
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// based on http://www.danvk.org/hex2dec.html (JS can not handle more than 56b)
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function byteStringToDecString(str: string): string {
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let decimal = '';
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let toThePower = '1';
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for (let i = str.length - 1; i >= 0; i--) {
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decimal = addBigInt(decimal, numberTimesBigInt(byteAt(str, i), toThePower));
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toThePower = numberTimesBigInt(256, toThePower);
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}
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return decimal.split('').reverse().join('');
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}
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// x and y decimal, lowest significant digit first
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function addBigInt(x: string, y: string): string {
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let sum = '';
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const len = Math.max(x.length, y.length);
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for (let i = 0, carry = 0; i < len || carry; i++) {
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const tmpSum = carry + +(x[i] || 0) + +(y[i] || 0);
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if (tmpSum >= 10) {
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carry = 1;
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sum += tmpSum - 10;
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} else {
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carry = 0;
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sum += tmpSum;
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}
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}
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return sum;
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}
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function numberTimesBigInt(num: number, b: string): string {
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let product = '';
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let bToThePower = b;
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for (; num !== 0; num = num >>> 1) {
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if (num & 1) product = addBigInt(product, bToThePower);
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bToThePower = addBigInt(bToThePower, bToThePower);
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}
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return product;
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}
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