securityos/node_modules/byte-data/index.js

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2024-09-06 15:32:35 +00:00
/*
* Copyright (c) 2017-2019 Rafael da Silva Rocha.
*
* 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.
*
*/
/**
* @fileoverview JavaScript binary parser for any browser or environment.
* @see https://github.com/rochars/byte-data
*/
/** @module byte-data */
import endianness from 'endianness';
import { pack as packUTF8, unpack as unpackUTF8 } from 'utf8-buffer';
import { IntParser } from './lib/int-parser';
import { IEEE754Buffer } from 'ieee754-buffer';
/**
* Read a string of UTF-8 characters from a byte buffer.
* @param {!(Uint8Array|Array<number>)} buffer A byte buffer.
* @param {number} [index=0] The buffer index to start reading.
* @param {number} [end=buffer.length] The index to stop reading, non inclusive.
* @return {string}
*/
export function unpackString(buffer, index=0, end=buffer.length) {
return unpackUTF8(buffer, index, end);
}
/**
* Write a string of UTF-8 characters as a byte buffer.
* @param {string} str The string to pack.
* @return {!Array<number>} The UTF-8 string bytes.
*/
export function packString(str) {
/** @type {!Array<number>} */
let buffer = [];
packUTF8(str, buffer, 0);
return buffer;
}
/**
* Write a string of UTF-8 characters to a byte buffer.
* @param {string} str The string to pack.
* @param {!(Uint8Array|Array<number>)} buffer The output buffer.
* @param {number} [index=0] The buffer index to start writing.
* @return {number} The next index to write in the buffer.
*/
export function packStringTo(str, buffer, index=0) {
return packUTF8(str, buffer, index);
}
// Numbers
/**
* Pack a array of numbers to a byte buffer.
* All other packing functions are interfaces to this function.
* @param {!(Array<number>|TypedArray)} values The values to pack.
* @param {!{bits:number,
* fp: (boolean|undefined),
* signed: (boolean|undefined),
* be: (boolean|undefined)}} theType The type definition.
* @param {!(Uint8Array|Array<number>)} buffer The buffer to write on.
* @param {number} [index=0] The buffer index to start writing.
* @param {boolean} [clamp=false] True to clamp ints on overflow.
* @return {number} The next index to write.
* @throws {Error} If the type definition is not valid.
* @throws {RangeError} On overflow.
* @throws {TypeError} If input is not valid.
*/
export function packArrayTo(values, theType, buffer, index=0, clamp=false) {
theType = theType || {};
/** @type {!Object} */
let packer = getParser_(theType.bits, theType.fp, theType.signed, clamp);
/** @type {number} */
let offset = Math.ceil(theType.bits / 8);
/** @type {number} */
let i = 0;
/** @type {number} */
let start = index;
try {
for (let valuesLen = values.length; i < valuesLen; i++) {
index = packer.pack(buffer, values[i], index);
}
if (theType.be) {
endianness(buffer, offset, start, index);
}
} catch (e) {
throwValueError_(e, values[i], i);
}
return index;
}
/**
* Unpack a array of numbers from a byte buffer to a array or a typed array.
* All other unpacking functions are interfaces to this function.
* @param {!(Uint8Array|Array<number>)} buffer The byte buffer.
* @param {!{bits:number,
* fp: (boolean|undefined),
* signed: (boolean|undefined),
* be: (boolean|undefined)}} theType The type definition.
* @param {!(TypedArray|Array<number>)} output The output array or typed array.
* @param {number} [start=0] The buffer index to start reading.
* @param {number} [end=buffer.length] The buffer index to stop reading.
* @param {boolean} [safe=false] If set to false, extra bytes in the end of
* the array are ignored and input buffers with insufficient bytes will
* write nothing to the output array. If safe is set to true the function
* will throw a 'Bad buffer length' error.
* @param {boolean} [clamp=false] True to clamp ints on overflow.
* @throws {Error} If the type definition is not valid
* @throws {RangeError} On overflow
*/
export function unpackArrayTo(
buffer, theType, output, start=0, end=buffer.length,
safe=false, clamp=false) {
theType = theType || {};
/** @type {!Object} */
let packer = getParser_(theType.bits, theType.fp, theType.signed, clamp);
/** @type {number} */
let offset = Math.ceil(theType.bits / 8);
// getUnpackLen_ will either fix the length of the input buffer
// according to the byte offset of the type (on unsafe mode) or
// throw a Error if the input buffer has a bad length (on safe mode)
end = getUnpackLen_(buffer, start, end, offset, safe);
/** @type {number} */
let index = 0;
let j = start;
try {
if (theType.be) {
endianness(buffer, offset, start, end);
}
for (; j < end; j += offset, index++) {
output[index] = packer.unpack(buffer, j);
}
if (theType.be) {
endianness(buffer, offset, start, end);
}
} catch (e) {
throwValueError_(e, buffer.slice(j, j + offset), j);
}
}
/**
* Pack a number to a byte buffer.
* @param {number} value The value.
* @param {!{bits:number,
* fp: (boolean|undefined),
* signed: (boolean|undefined),
* be: (boolean|undefined)}} theType The type definition.
* @param {!(Uint8Array|Array<number>)} buffer The byte buffer to write on.
* @param {number} [index=0] The buffer index to write.
* @param {boolean} [clamp=false] True to clamp ints on overflow.
* @return {number} The next index to write.
* @throws {Error} If the type definition is not valid.
* @throws {RangeError} On overflow.
* @throws {TypeError} If input is not valid.
*/
export function packTo(value, theType, buffer, index=0, clamp=false) {
return packArrayTo([value], theType, buffer, index, clamp);
}
/**
* Pack a number as a array of bytes.
* @param {number} value The number to pack.
* @param {!{bits:number,
* fp: (boolean|undefined),
* signed: (boolean|undefined),
* be: (boolean|undefined)}} theType The type definition.
* @param {boolean} [clamp=false] True to clamp ints on overflow.
* @return {!Array<number>} The packed value.
* @throws {Error} If the type definition is not valid.
* @throws {RangeError} On overflow.
* @throws {TypeError} If input is not valid.
*/
export function pack(value, theType, clamp=false) {
/** @type {!Array<number>} */
let output = [];
packTo(value, theType, output, 0, clamp);
return output;
}
/**
* Pack a array of numbers as a array of bytes.
* @param {!(Array<number>|TypedArray)} values The values to pack.
* @param {!{bits:number,
* fp: (boolean|undefined),
* signed: (boolean|undefined),
* be: (boolean|undefined)}} theType The type definition.
* @param {boolean} [clamp=false] True to clamp ints on overflow.
* @return {!Array<number>} The packed values.
* @throws {Error} If the type definition is not valid.
* @throws {RangeError} On overflow.
* @throws {TypeError} If input is not valid.
*/
export function packArray(values, theType, clamp=false) {
/** @type {!Array<number>} */
let output = [];
packArrayTo(values, theType, output, 0, clamp);
return output;
}
/**
* Unpack a array of numbers from a byte buffer.
* @param {!(Uint8Array|Array<number>)} buffer The byte buffer.
* @param {!{bits:number,
* fp: (boolean|undefined),
* signed: (boolean|undefined),
* be: (boolean|undefined)}} theType The type definition.
* @param {number} [start=0] The buffer index to start reading.
* @param {number} [end=buffer.length] The buffer index to stop reading.
* @param {boolean} [safe=false] If set to false, extra bytes in the end of
* the array are ignored and input buffers with insufficient bytes will
* output a empty array. If safe is set to true the function
* will throw a 'Bad buffer length' error.
* @param {boolean} [clamp=false] True to clamp ints on overflow.
* @return {!Array<number>}
* @throws {Error} If the type definition is not valid
* @throws {RangeError} On overflow
*/
export function unpackArray(
buffer, theType, start=0, end=buffer.length, safe=false, clamp=false) {
/** @type {!Array<number>} */
let output = [];
unpackArrayTo(buffer, theType, output, start, end, safe, clamp);
return output;
}
/**
* Unpack a number from a byte buffer.
* @param {!(Uint8Array|Array<number>)} buffer The byte buffer.
* @param {!{bits:number,
* fp: (boolean|undefined),
* signed: (boolean|undefined),
* be: (boolean|undefined)}} theType The type definition.
* @param {number} [index=0] The buffer index to read.
* @param {boolean} [clamp=false] True to clamp ints on overflow.
* @return {number}
* @throws {Error} If the type definition is not valid
* @throws {Error} On bad buffer length.
* @throws {RangeError} On overflow
*/
export function unpack(buffer, theType, index=0, clamp=false) {
return unpackArray(
buffer, theType, index, index + Math.ceil(theType.bits / 8),
true, clamp)[0];
}
/**
* Throw a error with information about the problem.
* @param {!Object} err The Error object that is being raised.
* @param {*} value The value that caused the error.
* @param {number} index The index of the value that caused the error.
* @throws {RangeError|TypeError|Error} A Error with a message.
* @private
*/
function throwValueError_(err, value, index) {
err.message = err.constructor.name +
' at index ' + index + ': ' + value;
throw err;
}
/**
* Unpack a array of numbers to a typed array.
* All other unpacking functions are interfaces to this function.
* @param {!(Uint8Array|Array<number>)} buffer The byte buffer.
* @param {number} start The buffer index to start reading.
* @param {number} end The buffer index to stop reading.
* @param {number} offset The number of bytes used by the type.
* @param {boolean} safe True for size-safe buffer reading.
* @throws {Error} On bad buffer length, if safe.
* @private
*/
function getUnpackLen_(buffer, start, end, offset, safe) {
/** @type {number} */
let extra = (end - start) % offset;
if (safe && (extra || buffer.length < offset)) {
throw new Error('Bad buffer length');
}
return end - extra;
}
/**
* Return a parser for int, uint or fp numbers.
* @param {number} bits The number of bits.
* @param {boolean|undefined} fp True for fp numbers, false otherwise.
* @param {boolean|undefined} signed True for signed ints, false otherwise.
* @param {boolean|undefined} clamp True to clamp ints on overflow, false otherwise.
* @return {!Object}
* @private
*/
function getParser_(bits, fp, signed, clamp) {
if (fp) {
validateFloatType(bits);
} else {
validateIntType(bits);
}
if (fp && bits === 16) {
return new IEEE754Buffer(5, 11);
} else if (fp && bits == 32) {
return new IEEE754Buffer(8, 23);
} else if(fp && bits == 64) {
return new IEEE754Buffer(11, 52);
}
return new IntParser(bits, signed, clamp);
}
/**
* The type definition error message.
* @type {string}
* @private
*/
const TYPE_ERR = 'Unsupported type';
/**
* Validate the type definition of floating-point numbers.
* @param {number} bits The number of bits.
* @throws {Error} If the type definition is not valid.
* @private
*/
function validateFloatType(bits) {
if (!bits || bits !== 16 && bits !== 32 && bits !== 64) {
throw new Error(TYPE_ERR + ': float, bits: ' + bits);
}
}
/**
* Validate the type definition of integers.
* @param {number} bits The number of bits.
* @throws {Error} If the type definition is not valid.
* @private
*/
function validateIntType(bits) {
if (!bits || bits < 1 || bits > 53) {
throw new Error(TYPE_ERR + ': int, bits: ' + bits);
}
}