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unpack.js
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unpack.js
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var decoder
try {
decoder = new TextDecoder()
} catch(error) {}
var src
var srcEnd
var position = 0
var alreadySet
const EMPTY_ARRAY = []
var strings = EMPTY_ARRAY
var stringPosition = 0
var currentUnpackr = {}
var currentStructures
var srcString
var srcStringStart = 0
var srcStringEnd = 0
var bundledStrings
var referenceMap
var currentExtensions = []
var dataView
var defaultOptions = {
useRecords: false,
mapsAsObjects: true
}
export class C1Type {}
export const C1 = new C1Type()
C1.name = 'MessagePack 0xC1'
var sequentialMode = false
var inlineObjectReadThreshold = 2
var readStruct, onLoadedStructures, onSaveState
var BlockedFunction // we use search and replace to change the next call to BlockedFunction to avoid CSP issues for
// no-eval build
try {
new Function('')
} catch(error) {
// if eval variants are not supported, do not create inline object readers ever
inlineObjectReadThreshold = Infinity
}
export class Unpackr {
constructor(options) {
if (options) {
if (options.useRecords === false && options.mapsAsObjects === undefined)
options.mapsAsObjects = true
if (options.sequential && options.trusted !== false) {
options.trusted = true;
if (!options.structures && options.useRecords != false) {
options.structures = []
if (!options.maxSharedStructures)
options.maxSharedStructures = 0
}
}
if (options.structures)
options.structures.sharedLength = options.structures.length
else if (options.getStructures) {
(options.structures = []).uninitialized = true // this is what we use to denote an uninitialized structures
options.structures.sharedLength = 0
}
if (options.int64AsNumber) {
options.int64AsType = 'number'
}
}
Object.assign(this, options)
}
unpack(source, options) {
if (src) {
// re-entrant execution, save the state and restore it after we do this unpack
return saveState(() => {
clearSource()
return this ? this.unpack(source, options) : Unpackr.prototype.unpack.call(defaultOptions, source, options)
})
}
if (!source.buffer && source.constructor === ArrayBuffer)
source = typeof Buffer !== 'undefined' ? Buffer.from(source) : new Uint8Array(source);
if (typeof options === 'object') {
srcEnd = options.end || source.length
position = options.start || 0
} else {
position = 0
srcEnd = options > -1 ? options : source.length
}
stringPosition = 0
srcStringEnd = 0
srcString = null
strings = EMPTY_ARRAY
bundledStrings = null
src = source
// this provides cached access to the data view for a buffer if it is getting reused, which is a recommend
// technique for getting data from a database where it can be copied into an existing buffer instead of creating
// new ones
try {
dataView = source.dataView || (source.dataView = new DataView(source.buffer, source.byteOffset, source.byteLength))
} catch(error) {
// if it doesn't have a buffer, maybe it is the wrong type of object
src = null
if (source instanceof Uint8Array)
throw error
throw new Error('Source must be a Uint8Array or Buffer but was a ' + ((source && typeof source == 'object') ? source.constructor.name : typeof source))
}
if (this instanceof Unpackr) {
currentUnpackr = this
if (this.structures) {
currentStructures = this.structures
return checkedRead(options)
} else if (!currentStructures || currentStructures.length > 0) {
currentStructures = []
}
} else {
currentUnpackr = defaultOptions
if (!currentStructures || currentStructures.length > 0)
currentStructures = []
}
return checkedRead(options)
}
unpackMultiple(source, forEach) {
let values, lastPosition = 0
try {
sequentialMode = true
let size = source.length
let value = this ? this.unpack(source, size) : defaultUnpackr.unpack(source, size)
if (forEach) {
if (forEach(value, lastPosition, position) === false) return;
while(position < size) {
lastPosition = position
if (forEach(checkedRead(), lastPosition, position) === false) {
return
}
}
}
else {
values = [ value ]
while(position < size) {
lastPosition = position
values.push(checkedRead())
}
return values
}
} catch(error) {
error.lastPosition = lastPosition
error.values = values
throw error
} finally {
sequentialMode = false
clearSource()
}
}
_mergeStructures(loadedStructures, existingStructures) {
if (onLoadedStructures)
loadedStructures = onLoadedStructures.call(this, loadedStructures);
loadedStructures = loadedStructures || []
if (Object.isFrozen(loadedStructures))
loadedStructures = loadedStructures.map(structure => structure.slice(0))
for (let i = 0, l = loadedStructures.length; i < l; i++) {
let structure = loadedStructures[i]
if (structure) {
structure.isShared = true
if (i >= 32)
structure.highByte = (i - 32) >> 5
}
}
loadedStructures.sharedLength = loadedStructures.length
for (let id in existingStructures || []) {
if (id >= 0) {
let structure = loadedStructures[id]
let existing = existingStructures[id]
if (existing) {
if (structure)
(loadedStructures.restoreStructures || (loadedStructures.restoreStructures = []))[id] = structure
loadedStructures[id] = existing
}
}
}
return this.structures = loadedStructures
}
decode(source, options) {
return this.unpack(source, options)
}
}
export function getPosition() {
return position
}
export function checkedRead(options) {
try {
if (!currentUnpackr.trusted && !sequentialMode) {
let sharedLength = currentStructures.sharedLength || 0
if (sharedLength < currentStructures.length)
currentStructures.length = sharedLength
}
let result
if (currentUnpackr.randomAccessStructure && src[position] < 0x40 && src[position] >= 0x20 && readStruct) {
result = readStruct(src, position, srcEnd, currentUnpackr)
src = null // dispose of this so that recursive unpack calls don't save state
if (!(options && options.lazy) && result)
result = result.toJSON()
position = srcEnd
} else
result = read()
if (bundledStrings) { // bundled strings to skip past
position = bundledStrings.postBundlePosition
bundledStrings = null
}
if (sequentialMode)
// we only need to restore the structures if there was an error, but if we completed a read,
// we can clear this out and keep the structures we read
currentStructures.restoreStructures = null
if (position == srcEnd) {
// finished reading this source, cleanup references
if (currentStructures && currentStructures.restoreStructures)
restoreStructures()
currentStructures = null
src = null
if (referenceMap)
referenceMap = null
} else if (position > srcEnd) {
// over read
throw new Error('Unexpected end of MessagePack data')
} else if (!sequentialMode) {
let jsonView;
try {
jsonView = JSON.stringify(result, (_, value) => typeof value === "bigint" ? `${value}n` : value).slice(0, 100)
} catch(error) {
jsonView = '(JSON view not available ' + error + ')'
}
throw new Error('Data read, but end of buffer not reached ' + jsonView)
}
// else more to read, but we are reading sequentially, so don't clear source yet
return result
} catch(error) {
if (currentStructures && currentStructures.restoreStructures)
restoreStructures()
clearSource()
if (error instanceof RangeError || error.message.startsWith('Unexpected end of buffer') || position > srcEnd) {
error.incomplete = true
}
throw error
}
}
function restoreStructures() {
for (let id in currentStructures.restoreStructures) {
currentStructures[id] = currentStructures.restoreStructures[id]
}
currentStructures.restoreStructures = null
}
export function read() {
let token = src[position++]
if (token < 0xa0) {
if (token < 0x80) {
if (token < 0x40)
return token
else {
let structure = currentStructures[token & 0x3f] ||
currentUnpackr.getStructures && loadStructures()[token & 0x3f]
if (structure) {
if (!structure.read) {
structure.read = createStructureReader(structure, token & 0x3f)
}
return structure.read()
} else
return token
}
} else if (token < 0x90) {
// map
token -= 0x80
if (currentUnpackr.mapsAsObjects) {
let object = {}
for (let i = 0; i < token; i++) {
let key = readKey()
if (key === '__proto__')
key = '__proto_'
object[key] = read()
}
return object
} else {
let map = new Map()
for (let i = 0; i < token; i++) {
map.set(read(), read())
}
return map
}
} else {
token -= 0x90
let array = new Array(token)
for (let i = 0; i < token; i++) {
array[i] = read()
}
if (currentUnpackr.freezeData)
return Object.freeze(array)
return array
}
} else if (token < 0xc0) {
// fixstr
let length = token - 0xa0
if (srcStringEnd >= position) {
return srcString.slice(position - srcStringStart, (position += length) - srcStringStart)
}
if (srcStringEnd == 0 && srcEnd < 140) {
// for small blocks, avoiding the overhead of the extract call is helpful
let string = length < 16 ? shortStringInJS(length) : longStringInJS(length)
if (string != null)
return string
}
return readFixedString(length)
} else {
let value
switch (token) {
case 0xc0: return null
case 0xc1:
if (bundledStrings) {
value = read() // followed by the length of the string in characters (not bytes!)
if (value > 0)
return bundledStrings[1].slice(bundledStrings.position1, bundledStrings.position1 += value)
else
return bundledStrings[0].slice(bundledStrings.position0, bundledStrings.position0 -= value)
}
return C1; // "never-used", return special object to denote that
case 0xc2: return false
case 0xc3: return true
case 0xc4:
// bin 8
value = src[position++]
if (value === undefined)
throw new Error('Unexpected end of buffer')
return readBin(value)
case 0xc5:
// bin 16
value = dataView.getUint16(position)
position += 2
return readBin(value)
case 0xc6:
// bin 32
value = dataView.getUint32(position)
position += 4
return readBin(value)
case 0xc7:
// ext 8
return readExt(src[position++])
case 0xc8:
// ext 16
value = dataView.getUint16(position)
position += 2
return readExt(value)
case 0xc9:
// ext 32
value = dataView.getUint32(position)
position += 4
return readExt(value)
case 0xca:
value = dataView.getFloat32(position)
if (currentUnpackr.useFloat32 > 2) {
// this does rounding of numbers that were encoded in 32-bit float to nearest significant decimal digit that could be preserved
let multiplier = mult10[((src[position] & 0x7f) << 1) | (src[position + 1] >> 7)]
position += 4
return ((multiplier * value + (value > 0 ? 0.5 : -0.5)) >> 0) / multiplier
}
position += 4
return value
case 0xcb:
value = dataView.getFloat64(position)
position += 8
return value
// uint handlers
case 0xcc:
return src[position++]
case 0xcd:
value = dataView.getUint16(position)
position += 2
return value
case 0xce:
value = dataView.getUint32(position)
position += 4
return value
case 0xcf:
if (currentUnpackr.int64AsType === 'number') {
value = dataView.getUint32(position) * 0x100000000
value += dataView.getUint32(position + 4)
} else if (currentUnpackr.int64AsType === 'string') {
value = dataView.getBigUint64(position).toString()
} else if (currentUnpackr.int64AsType === 'auto') {
value = dataView.getBigUint64(position)
if (value<=BigInt(2)<<BigInt(52)) value=Number(value)
} else
value = dataView.getBigUint64(position)
position += 8
return value
// int handlers
case 0xd0:
return dataView.getInt8(position++)
case 0xd1:
value = dataView.getInt16(position)
position += 2
return value
case 0xd2:
value = dataView.getInt32(position)
position += 4
return value
case 0xd3:
if (currentUnpackr.int64AsType === 'number') {
value = dataView.getInt32(position) * 0x100000000
value += dataView.getUint32(position + 4)
} else if (currentUnpackr.int64AsType === 'string') {
value = dataView.getBigInt64(position).toString()
} else if (currentUnpackr.int64AsType === 'auto') {
value = dataView.getBigInt64(position)
if (value>=BigInt(-2)<<BigInt(52)&&value<=BigInt(2)<<BigInt(52)) value=Number(value)
} else
value = dataView.getBigInt64(position)
position += 8
return value
case 0xd4:
// fixext 1
value = src[position++]
if (value == 0x72) {
return recordDefinition(src[position++] & 0x3f)
} else {
let extension = currentExtensions[value]
if (extension) {
if (extension.read) {
position++ // skip filler byte
return extension.read(read())
} else if (extension.noBuffer) {
position++ // skip filler byte
return extension()
} else
return extension(src.subarray(position, ++position))
} else
throw new Error('Unknown extension ' + value)
}
case 0xd5:
// fixext 2
value = src[position]
if (value == 0x72) {
position++
return recordDefinition(src[position++] & 0x3f, src[position++])
} else
return readExt(2)
case 0xd6:
// fixext 4
return readExt(4)
case 0xd7:
// fixext 8
return readExt(8)
case 0xd8:
// fixext 16
return readExt(16)
case 0xd9:
// str 8
value = src[position++]
if (srcStringEnd >= position) {
return srcString.slice(position - srcStringStart, (position += value) - srcStringStart)
}
return readString8(value)
case 0xda:
// str 16
value = dataView.getUint16(position)
position += 2
if (srcStringEnd >= position) {
return srcString.slice(position - srcStringStart, (position += value) - srcStringStart)
}
return readString16(value)
case 0xdb:
// str 32
value = dataView.getUint32(position)
position += 4
if (srcStringEnd >= position) {
return srcString.slice(position - srcStringStart, (position += value) - srcStringStart)
}
return readString32(value)
case 0xdc:
// array 16
value = dataView.getUint16(position)
position += 2
return readArray(value)
case 0xdd:
// array 32
value = dataView.getUint32(position)
position += 4
return readArray(value)
case 0xde:
// map 16
value = dataView.getUint16(position)
position += 2
return readMap(value)
case 0xdf:
// map 32
value = dataView.getUint32(position)
position += 4
return readMap(value)
default: // negative int
if (token >= 0xe0)
return token - 0x100
if (token === undefined) {
let error = new Error('Unexpected end of MessagePack data')
error.incomplete = true
throw error
}
throw new Error('Unknown MessagePack token ' + token)
}
}
}
const validName = /^[a-zA-Z_$][a-zA-Z\d_$]*$/
function createStructureReader(structure, firstId) {
function readObject() {
// This initial function is quick to instantiate, but runs slower. After several iterations pay the cost to build the faster function
if (readObject.count++ > inlineObjectReadThreshold) {
let readObject = structure.read = (new Function('r', 'return function(){return ' + (currentUnpackr.freezeData ? 'Object.freeze' : '') +
'({' + structure.map(key => key === '__proto__' ? '__proto_:r()' : validName.test(key) ? key + ':r()' : ('[' + JSON.stringify(key) + ']:r()')).join(',') + '})}'))(read)
if (structure.highByte === 0)
structure.read = createSecondByteReader(firstId, structure.read)
return readObject() // second byte is already read, if there is one so immediately read object
}
let object = {}
for (let i = 0, l = structure.length; i < l; i++) {
let key = structure[i]
if (key === '__proto__')
key = '__proto_'
object[key] = read()
}
if (currentUnpackr.freezeData)
return Object.freeze(object);
return object
}
readObject.count = 0
if (structure.highByte === 0) {
return createSecondByteReader(firstId, readObject)
}
return readObject
}
const createSecondByteReader = (firstId, read0) => {
return function() {
let highByte = src[position++]
if (highByte === 0)
return read0()
let id = firstId < 32 ? -(firstId + (highByte << 5)) : firstId + (highByte << 5)
let structure = currentStructures[id] || loadStructures()[id]
if (!structure) {
throw new Error('Record id is not defined for ' + id)
}
if (!structure.read)
structure.read = createStructureReader(structure, firstId)
return structure.read()
}
}
export function loadStructures() {
let loadedStructures = saveState(() => {
// save the state in case getStructures modifies our buffer
src = null
return currentUnpackr.getStructures()
})
return currentStructures = currentUnpackr._mergeStructures(loadedStructures, currentStructures)
}
var readFixedString = readStringJS
var readString8 = readStringJS
var readString16 = readStringJS
var readString32 = readStringJS
export let isNativeAccelerationEnabled = false
export function setExtractor(extractStrings) {
isNativeAccelerationEnabled = true
readFixedString = readString(1)
readString8 = readString(2)
readString16 = readString(3)
readString32 = readString(5)
function readString(headerLength) {
return function readString(length) {
let string = strings[stringPosition++]
if (string == null) {
if (bundledStrings)
return readStringJS(length)
let byteOffset = src.byteOffset
let extraction = extractStrings(position - headerLength + byteOffset, srcEnd + byteOffset, src.buffer)
if (typeof extraction == 'string') {
string = extraction
strings = EMPTY_ARRAY
} else {
strings = extraction
stringPosition = 1
srcStringEnd = 1 // even if a utf-8 string was decoded, must indicate we are in the midst of extracted strings and can't skip strings
string = strings[0]
if (string === undefined)
throw new Error('Unexpected end of buffer')
}
}
let srcStringLength = string.length
if (srcStringLength <= length) {
position += length
return string
}
srcString = string
srcStringStart = position
srcStringEnd = position + srcStringLength
position += length
return string.slice(0, length) // we know we just want the beginning
}
}
}
function readStringJS(length) {
let result
if (length < 16) {
if (result = shortStringInJS(length))
return result
}
if (length > 64 && decoder)
return decoder.decode(src.subarray(position, position += length))
const end = position + length
const units = []
result = ''
while (position < end) {
const byte1 = src[position++]
if ((byte1 & 0x80) === 0) {
// 1 byte
units.push(byte1)
} else if ((byte1 & 0xe0) === 0xc0) {
// 2 bytes
const byte2 = src[position++] & 0x3f
units.push(((byte1 & 0x1f) << 6) | byte2)
} else if ((byte1 & 0xf0) === 0xe0) {
// 3 bytes
const byte2 = src[position++] & 0x3f
const byte3 = src[position++] & 0x3f
units.push(((byte1 & 0x1f) << 12) | (byte2 << 6) | byte3)
} else if ((byte1 & 0xf8) === 0xf0) {
// 4 bytes
const byte2 = src[position++] & 0x3f
const byte3 = src[position++] & 0x3f
const byte4 = src[position++] & 0x3f
let unit = ((byte1 & 0x07) << 0x12) | (byte2 << 0x0c) | (byte3 << 0x06) | byte4
if (unit > 0xffff) {
unit -= 0x10000
units.push(((unit >>> 10) & 0x3ff) | 0xd800)
unit = 0xdc00 | (unit & 0x3ff)
}
units.push(unit)
} else {
units.push(byte1)
}
if (units.length >= 0x1000) {
result += fromCharCode.apply(String, units)
units.length = 0
}
}
if (units.length > 0) {
result += fromCharCode.apply(String, units)
}
return result
}
export function readString(source, start, length) {
let existingSrc = src;
src = source;
position = start;
try {
return readStringJS(length);
} finally {
src = existingSrc;
}
}
function readArray(length) {
let array = new Array(length)
for (let i = 0; i < length; i++) {
array[i] = read()
}
if (currentUnpackr.freezeData)
return Object.freeze(array)
return array
}
function readMap(length) {
if (currentUnpackr.mapsAsObjects) {
let object = {}
for (let i = 0; i < length; i++) {
let key = readKey()
if (key === '__proto__')
key = '__proto_';
object[key] = read()
}
return object
} else {
let map = new Map()
for (let i = 0; i < length; i++) {
map.set(read(), read())
}
return map
}
}
var fromCharCode = String.fromCharCode
function longStringInJS(length) {
let start = position
let bytes = new Array(length)
for (let i = 0; i < length; i++) {
const byte = src[position++];
if ((byte & 0x80) > 0) {
position = start
return
}
bytes[i] = byte
}
return fromCharCode.apply(String, bytes)
}
function shortStringInJS(length) {
if (length < 4) {
if (length < 2) {
if (length === 0)
return ''
else {
let a = src[position++]
if ((a & 0x80) > 1) {
position -= 1
return
}
return fromCharCode(a)
}
} else {
let a = src[position++]
let b = src[position++]
if ((a & 0x80) > 0 || (b & 0x80) > 0) {
position -= 2
return
}
if (length < 3)
return fromCharCode(a, b)
let c = src[position++]
if ((c & 0x80) > 0) {
position -= 3
return
}
return fromCharCode(a, b, c)
}
} else {
let a = src[position++]
let b = src[position++]
let c = src[position++]
let d = src[position++]
if ((a & 0x80) > 0 || (b & 0x80) > 0 || (c & 0x80) > 0 || (d & 0x80) > 0) {
position -= 4
return
}
if (length < 6) {
if (length === 4)
return fromCharCode(a, b, c, d)
else {
let e = src[position++]
if ((e & 0x80) > 0) {
position -= 5
return
}
return fromCharCode(a, b, c, d, e)
}
} else if (length < 8) {
let e = src[position++]
let f = src[position++]
if ((e & 0x80) > 0 || (f & 0x80) > 0) {
position -= 6
return
}
if (length < 7)
return fromCharCode(a, b, c, d, e, f)
let g = src[position++]
if ((g & 0x80) > 0) {
position -= 7
return
}
return fromCharCode(a, b, c, d, e, f, g)
} else {
let e = src[position++]
let f = src[position++]
let g = src[position++]
let h = src[position++]
if ((e & 0x80) > 0 || (f & 0x80) > 0 || (g & 0x80) > 0 || (h & 0x80) > 0) {
position -= 8
return
}
if (length < 10) {
if (length === 8)
return fromCharCode(a, b, c, d, e, f, g, h)
else {
let i = src[position++]
if ((i & 0x80) > 0) {
position -= 9
return
}
return fromCharCode(a, b, c, d, e, f, g, h, i)
}
} else if (length < 12) {
let i = src[position++]
let j = src[position++]
if ((i & 0x80) > 0 || (j & 0x80) > 0) {
position -= 10
return
}
if (length < 11)
return fromCharCode(a, b, c, d, e, f, g, h, i, j)
let k = src[position++]
if ((k & 0x80) > 0) {
position -= 11
return
}
return fromCharCode(a, b, c, d, e, f, g, h, i, j, k)
} else {
let i = src[position++]
let j = src[position++]
let k = src[position++]
let l = src[position++]
if ((i & 0x80) > 0 || (j & 0x80) > 0 || (k & 0x80) > 0 || (l & 0x80) > 0) {
position -= 12
return
}
if (length < 14) {
if (length === 12)
return fromCharCode(a, b, c, d, e, f, g, h, i, j, k, l)
else {
let m = src[position++]
if ((m & 0x80) > 0) {
position -= 13
return
}
return fromCharCode(a, b, c, d, e, f, g, h, i, j, k, l, m)
}
} else {
let m = src[position++]
let n = src[position++]
if ((m & 0x80) > 0 || (n & 0x80) > 0) {
position -= 14
return
}
if (length < 15)
return fromCharCode(a, b, c, d, e, f, g, h, i, j, k, l, m, n)
let o = src[position++]
if ((o & 0x80) > 0) {
position -= 15
return
}
return fromCharCode(a, b, c, d, e, f, g, h, i, j, k, l, m, n, o)
}
}
}
}
}
function readOnlyJSString() {
let token = src[position++]
let length
if (token < 0xc0) {
// fixstr
length = token - 0xa0
} else {
switch(token) {
case 0xd9:
// str 8
length = src[position++]
break
case 0xda:
// str 16
length = dataView.getUint16(position)
position += 2
break
case 0xdb:
// str 32
length = dataView.getUint32(position)
position += 4
break
default:
throw new Error('Expected string')
}
}
return readStringJS(length)
}
function readBin(length) {
return currentUnpackr.copyBuffers ?
// specifically use the copying slice (not the node one)
Uint8Array.prototype.slice.call(src, position, position += length) :
src.subarray(position, position += length)
}
function readExt(length) {
let type = src[position++]
if (currentExtensions[type]) {
let end
return currentExtensions[type](src.subarray(position, end = (position += length)), (readPosition) => {
position = readPosition;
try {
return read();
} finally {
position = end;
}
})
}
else
throw new Error('Unknown extension type ' + type)
}
var keyCache = new Array(4096)
function readKey() {
let length = src[position++]
if (length >= 0xa0 && length < 0xc0) {
// fixstr, potentially use key cache
length = length - 0xa0
if (srcStringEnd >= position) // if it has been extracted, must use it (and faster anyway)
return srcString.slice(position - srcStringStart, (position += length) - srcStringStart)
else if (!(srcStringEnd == 0 && srcEnd < 180))
return readFixedString(length)
} else { // not cacheable, go back and do a standard read
position--
return asSafeString(read())
}
let key = ((length << 5) ^ (length > 1 ? dataView.getUint16(position) : length > 0 ? src[position] : 0)) & 0xfff
let entry = keyCache[key]
let checkPosition = position
let end = position + length - 3
let chunk
let i = 0
if (entry && entry.bytes == length) {
while (checkPosition < end) {
chunk = dataView.getUint32(checkPosition)
if (chunk != entry[i++]) {
checkPosition = 0x70000000
break
}
checkPosition += 4
}
end += 3
while (checkPosition < end) {
chunk = src[checkPosition++]
if (chunk != entry[i++]) {
checkPosition = 0x70000000
break
}
}
if (checkPosition === end) {
position = checkPosition
return entry.string
}
end -= 3
checkPosition = position
}
entry = []
keyCache[key] = entry
entry.bytes = length
while (checkPosition < end) {
chunk = dataView.getUint32(checkPosition)
entry.push(chunk)
checkPosition += 4
}
end += 3
while (checkPosition < end) {
chunk = src[checkPosition++]
entry.push(chunk)
}
// for small blocks, avoiding the overhead of the extract call is helpful
let string = length < 16 ? shortStringInJS(length) : longStringInJS(length)
if (string != null)
return entry.string = string
return entry.string = readFixedString(length)
}
function asSafeString(property) {
// protect against expensive (DoS) string conversions
if (typeof property === 'string') return property;
if (typeof property === 'number' || typeof property === 'boolean' || typeof property === 'bigint') return property.toString();
if (property == null) return property + '';
throw new Error('Invalid property type for record', typeof property);
}
// the registration of the record definition extension (as "r")
const recordDefinition = (id, highByte) => {
let structure = read().map(asSafeString) // ensure that all keys are strings and
// that the array is mutable
let firstByte = id
if (highByte !== undefined) {
id = id < 32 ? -((highByte << 5) + id) : ((highByte << 5) + id)
structure.highByte = highByte
}
let existingStructure = currentStructures[id]
// If it is a shared structure, we need to restore any changes after reading.
// Also in sequential mode, we may get incomplete reads and thus errors, and we need to restore
// to the state prior to an incomplete read in order to properly resume.
if (existingStructure && (existingStructure.isShared || sequentialMode)) {
(currentStructures.restoreStructures || (currentStructures.restoreStructures = []))[id] = existingStructure
}
currentStructures[id] = structure
structure.read = createStructureReader(structure, firstByte)
return structure.read()
}
currentExtensions[0] = () => {} // notepack defines extension 0 to mean undefined, so use that as the default here
currentExtensions[0].noBuffer = true
currentExtensions[0x42] = (data) => {
// decode bigint