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esm: use Undici/
fetch
data:
URL parser
Fixes: #53775 PR-URL: #54748 Reviewed-By: Matteo Collina <matteo.collina@gmail.com> Reviewed-By: Antoine du Hamel <duhamelantoine1995@gmail.com> Reviewed-By: James M Snell <jasnell@gmail.com>
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'use strict'; | ||
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const { | ||
RegExpPrototypeExec, | ||
RegExpPrototypeSymbolReplace, | ||
StringFromCharCodeApply, | ||
StringPrototypeCharCodeAt, | ||
StringPrototypeIndexOf, | ||
StringPrototypeSlice, | ||
TypedArrayPrototypeSubarray, | ||
Uint8Array, | ||
} = primordials; | ||
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const assert = require('internal/assert'); | ||
const { Buffer } = require('buffer'); | ||
const { MIMEType } = require('internal/mime'); | ||
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let encoder; | ||
function lazyEncoder() { | ||
if (encoder === undefined) { | ||
const { TextEncoder } = require('internal/encoding'); | ||
encoder = new TextEncoder(); | ||
} | ||
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return encoder; | ||
} | ||
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const ASCII_WHITESPACE_REPLACE_REGEX = /[\u0009\u000A\u000C\u000D\u0020]/g // eslint-disable-line | ||
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// https://fetch.spec.whatwg.org/#data-url-processor | ||
/** @param {URL} dataURL */ | ||
function dataURLProcessor(dataURL) { | ||
// 1. Assert: dataURL's scheme is "data". | ||
assert(dataURL.protocol === 'data:'); | ||
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// 2. Let input be the result of running the URL | ||
// serializer on dataURL with exclude fragment | ||
// set to true. | ||
let input = URLSerializer(dataURL, true); | ||
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// 3. Remove the leading "data:" string from input. | ||
input = StringPrototypeSlice(input, 5); | ||
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// 4. Let position point at the start of input. | ||
const position = { position: 0 }; | ||
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// 5. Let mimeType be the result of collecting a | ||
// sequence of code points that are not equal | ||
// to U+002C (,), given position. | ||
let mimeType = collectASequenceOfCodePointsFast( | ||
',', | ||
input, | ||
position, | ||
); | ||
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// 6. Strip leading and trailing ASCII whitespace | ||
// from mimeType. | ||
// Undici implementation note: we need to store the | ||
// length because if the mimetype has spaces removed, | ||
// the wrong amount will be sliced from the input in | ||
// step #9 | ||
const mimeTypeLength = mimeType.length; | ||
mimeType = removeASCIIWhitespace(mimeType, true, true); | ||
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// 7. If position is past the end of input, then | ||
// return failure | ||
if (position.position >= input.length) { | ||
return 'failure'; | ||
} | ||
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// 8. Advance position by 1. | ||
position.position++; | ||
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// 9. Let encodedBody be the remainder of input. | ||
const encodedBody = StringPrototypeSlice(input, mimeTypeLength + 1); | ||
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// 10. Let body be the percent-decoding of encodedBody. | ||
let body = stringPercentDecode(encodedBody); | ||
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// 11. If mimeType ends with U+003B (;), followed by | ||
// zero or more U+0020 SPACE, followed by an ASCII | ||
// case-insensitive match for "base64", then: | ||
if (RegExpPrototypeExec(/;(\u0020){0,}base64$/i, mimeType) !== null) { | ||
// 1. Let stringBody be the isomorphic decode of body. | ||
const stringBody = isomorphicDecode(body); | ||
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// 2. Set body to the forgiving-base64 decode of | ||
// stringBody. | ||
body = forgivingBase64(stringBody); | ||
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// 3. If body is failure, then return failure. | ||
if (body === 'failure') { | ||
return 'failure'; | ||
} | ||
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// 4. Remove the last 6 code points from mimeType. | ||
mimeType = StringPrototypeSlice(mimeType, 0, -6); | ||
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// 5. Remove trailing U+0020 SPACE code points from mimeType, | ||
// if any. | ||
mimeType = RegExpPrototypeSymbolReplace(/(\u0020)+$/, mimeType, ''); | ||
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// 6. Remove the last U+003B (;) code point from mimeType. | ||
mimeType = StringPrototypeSlice(mimeType, 0, -1); | ||
} | ||
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// 12. If mimeType starts with U+003B (;), then prepend | ||
// "text/plain" to mimeType. | ||
if (mimeType[0] === ';') { | ||
mimeType = 'text/plain' + mimeType; | ||
} | ||
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// 13. Let mimeTypeRecord be the result of parsing | ||
// mimeType. | ||
// 14. If mimeTypeRecord is failure, then set | ||
// mimeTypeRecord to text/plain;charset=US-ASCII. | ||
let mimeTypeRecord; | ||
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try { | ||
mimeTypeRecord = new MIMEType(mimeType); | ||
} catch { | ||
mimeTypeRecord = new MIMEType('text/plain;charset=US-ASCII'); | ||
} | ||
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// 15. Return a new data: URL struct whose MIME | ||
// type is mimeTypeRecord and body is body. | ||
// https://fetch.spec.whatwg.org/#data-url-struct | ||
return { mimeType: mimeTypeRecord, body }; | ||
} | ||
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// https://url.spec.whatwg.org/#concept-url-serializer | ||
/** | ||
* @param {URL} url | ||
* @param {boolean} excludeFragment | ||
*/ | ||
function URLSerializer(url, excludeFragment = false) { | ||
const { href } = url; | ||
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if (!excludeFragment) { | ||
return href; | ||
} | ||
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const hashLength = url.hash.length; | ||
const serialized = hashLength === 0 ? href : StringPrototypeSlice(href, 0, href.length - hashLength); | ||
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if (!hashLength && href[href.length - 1] === '#') { | ||
return StringPrototypeSlice(serialized, 0, -1); | ||
} | ||
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return serialized; | ||
} | ||
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/** | ||
* A faster collectASequenceOfCodePoints that only works when comparing a single character. | ||
* @param {string} char | ||
* @param {string} input | ||
* @param {{ position: number }} position | ||
*/ | ||
function collectASequenceOfCodePointsFast(char, input, position) { | ||
const idx = StringPrototypeIndexOf(input, char, position.position); | ||
const start = position.position; | ||
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if (idx === -1) { | ||
position.position = input.length; | ||
return StringPrototypeSlice(input, start); | ||
} | ||
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position.position = idx; | ||
return StringPrototypeSlice(input, start, position.position); | ||
} | ||
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// https://url.spec.whatwg.org/#string-percent-decode | ||
/** @param {string} input */ | ||
function stringPercentDecode(input) { | ||
// 1. Let bytes be the UTF-8 encoding of input. | ||
const bytes = lazyEncoder().encode(input); | ||
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// 2. Return the percent-decoding of bytes. | ||
return percentDecode(bytes); | ||
} | ||
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/** | ||
* @param {number} byte | ||
*/ | ||
function isHexCharByte(byte) { | ||
// 0-9 A-F a-f | ||
return (byte >= 0x30 && byte <= 0x39) || (byte >= 0x41 && byte <= 0x46) || (byte >= 0x61 && byte <= 0x66); | ||
} | ||
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/** | ||
* @param {number} byte | ||
*/ | ||
function hexByteToNumber(byte) { | ||
return ( | ||
// 0-9 | ||
byte >= 0x30 && byte <= 0x39 ? | ||
(byte - 48) : | ||
// Convert to uppercase | ||
// ((byte & 0xDF) - 65) + 10 | ||
((byte & 0xDF) - 55) | ||
); | ||
} | ||
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// https://url.spec.whatwg.org/#percent-decode | ||
/** @param {Uint8Array} input */ | ||
function percentDecode(input) { | ||
const length = input.length; | ||
// 1. Let output be an empty byte sequence. | ||
/** @type {Uint8Array} */ | ||
const output = new Uint8Array(length); | ||
let j = 0; | ||
// 2. For each byte byte in input: | ||
for (let i = 0; i < length; ++i) { | ||
const byte = input[i]; | ||
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// 1. If byte is not 0x25 (%), then append byte to output. | ||
if (byte !== 0x25) { | ||
output[j++] = byte; | ||
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// 2. Otherwise, if byte is 0x25 (%) and the next two bytes | ||
// after byte in input are not in the ranges | ||
// 0x30 (0) to 0x39 (9), 0x41 (A) to 0x46 (F), | ||
// and 0x61 (a) to 0x66 (f), all inclusive, append byte | ||
// to output. | ||
} else if ( | ||
byte === 0x25 && | ||
!(isHexCharByte(input[i + 1]) && isHexCharByte(input[i + 2])) | ||
) { | ||
output[j++] = 0x25; | ||
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// 3. Otherwise: | ||
} else { | ||
// 1. Let bytePoint be the two bytes after byte in input, | ||
// decoded, and then interpreted as hexadecimal number. | ||
// 2. Append a byte whose value is bytePoint to output. | ||
output[j++] = (hexByteToNumber(input[i + 1]) << 4) | hexByteToNumber(input[i + 2]); | ||
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// 3. Skip the next two bytes in input. | ||
i += 2; | ||
} | ||
} | ||
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// 3. Return output. | ||
return length === j ? output : TypedArrayPrototypeSubarray(output, 0, j); | ||
} | ||
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// https://infra.spec.whatwg.org/#forgiving-base64-decode | ||
/** @param {string} data */ | ||
function forgivingBase64(data) { | ||
// 1. Remove all ASCII whitespace from data. | ||
data = RegExpPrototypeSymbolReplace(ASCII_WHITESPACE_REPLACE_REGEX, data, ''); | ||
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let dataLength = data.length; | ||
// 2. If data's code point length divides by 4 leaving | ||
// no remainder, then: | ||
if (dataLength % 4 === 0) { | ||
// 1. If data ends with one or two U+003D (=) code points, | ||
// then remove them from data. | ||
if (data[dataLength - 1] === '=') { | ||
--dataLength; | ||
if (data[dataLength - 1] === '=') { | ||
--dataLength; | ||
} | ||
} | ||
} | ||
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// 3. If data's code point length divides by 4 leaving | ||
// a remainder of 1, then return failure. | ||
if (dataLength % 4 === 1) { | ||
return 'failure'; | ||
} | ||
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// 4. If data contains a code point that is not one of | ||
// U+002B (+) | ||
// U+002F (/) | ||
// ASCII alphanumeric | ||
// then return failure. | ||
if (RegExpPrototypeExec(/[^+/0-9A-Za-z]/, data.length === dataLength ? data : StringPrototypeSlice(data, 0, dataLength)) !== null) { | ||
return 'failure'; | ||
} | ||
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const buffer = Buffer.from(data, 'base64'); | ||
return new Uint8Array(buffer.buffer, buffer.byteOffset, buffer.byteLength); | ||
} | ||
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/** | ||
* @see https://infra.spec.whatwg.org/#ascii-whitespace | ||
* @param {number} char | ||
*/ | ||
function isASCIIWhitespace(char) { | ||
// "\r\n\t\f " | ||
return char === 0x00d || char === 0x00a || char === 0x009 || char === 0x00c || char === 0x020; | ||
} | ||
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/** | ||
* @see https://infra.spec.whatwg.org/#strip-leading-and-trailing-ascii-whitespace | ||
* @param {string} str | ||
* @param {boolean} [leading=true] | ||
* @param {boolean} [trailing=true] | ||
*/ | ||
function removeASCIIWhitespace(str, leading = true, trailing = true) { | ||
return removeChars(str, leading, trailing, isASCIIWhitespace); | ||
} | ||
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/** | ||
* @param {string} str | ||
* @param {boolean} leading | ||
* @param {boolean} trailing | ||
* @param {(charCode: number) => boolean} predicate | ||
*/ | ||
function removeChars(str, leading, trailing, predicate) { | ||
let lead = 0; | ||
let trail = str.length - 1; | ||
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if (leading) { | ||
while (lead < str.length && predicate(StringPrototypeCharCodeAt(str, lead))) lead++; | ||
} | ||
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if (trailing) { | ||
while (trail > 0 && predicate(StringPrototypeCharCodeAt(str, trail))) trail--; | ||
} | ||
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return lead === 0 && trail === str.length - 1 ? str : StringPrototypeSlice(str, lead, trail + 1); | ||
} | ||
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/** | ||
* @see https://infra.spec.whatwg.org/#isomorphic-decode | ||
* @param {Uint8Array} input | ||
* @returns {string} | ||
*/ | ||
function isomorphicDecode(input) { | ||
// 1. To isomorphic decode a byte sequence input, return a string whose code point | ||
// length is equal to input's length and whose code points have the same values | ||
// as the values of input's bytes, in the same order. | ||
const length = input.length; | ||
if ((2 << 15) - 1 > length) { | ||
return StringFromCharCodeApply(input); | ||
} | ||
let result = ''; let i = 0; | ||
let addition = (2 << 15) - 1; | ||
while (i < length) { | ||
if (i + addition > length) { | ||
addition = length - i; | ||
} | ||
result += StringFromCharCodeApply(TypedArrayPrototypeSubarray(input, i, i += addition)); | ||
} | ||
return result; | ||
} | ||
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module.exports = { | ||
dataURLProcessor, | ||
}; |
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