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585 lines
19 KiB
Markdown
# safe-buffer [![travis][travis-image]][travis-url] [![npm][npm-image]][npm-url] [![downloads][downloads-image]][downloads-url] [![javascript style guide][standard-image]][standard-url]
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[travis-image]: https://img.shields.io/travis/feross/safe-buffer/master.svg
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[travis-url]: https://travis-ci.org/feross/safe-buffer
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[npm-image]: https://img.shields.io/npm/v/safe-buffer.svg
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[npm-url]: https://npmjs.org/package/safe-buffer
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[downloads-image]: https://img.shields.io/npm/dm/safe-buffer.svg
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[downloads-url]: https://npmjs.org/package/safe-buffer
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[standard-image]: https://img.shields.io/badge/code_style-standard-brightgreen.svg
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[standard-url]: https://standardjs.com
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#### Safer Node.js Buffer API
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**Use the new Node.js Buffer APIs (`Buffer.from`, `Buffer.alloc`,
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`Buffer.allocUnsafe`, `Buffer.allocUnsafeSlow`) in all versions of Node.js.**
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**Uses the built-in implementation when available.**
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## install
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```
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npm install safe-buffer
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```
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## usage
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The goal of this package is to provide a safe replacement for the node.js `Buffer`.
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It's a drop-in replacement for `Buffer`. You can use it by adding one `require` line to
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the top of your node.js modules:
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```js
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var Buffer = require('safe-buffer').Buffer
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// Existing buffer code will continue to work without issues:
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new Buffer('hey', 'utf8')
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new Buffer([1, 2, 3], 'utf8')
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new Buffer(obj)
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new Buffer(16) // create an uninitialized buffer (potentially unsafe)
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// But you can use these new explicit APIs to make clear what you want:
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Buffer.from('hey', 'utf8') // convert from many types to a Buffer
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Buffer.alloc(16) // create a zero-filled buffer (safe)
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Buffer.allocUnsafe(16) // create an uninitialized buffer (potentially unsafe)
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```
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## api
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### Class Method: Buffer.from(array)
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<!-- YAML
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added: v3.0.0
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-->
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* `array` {Array}
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Allocates a new `Buffer` using an `array` of octets.
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```js
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const buf = Buffer.from([0x62,0x75,0x66,0x66,0x65,0x72]);
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// creates a new Buffer containing ASCII bytes
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// ['b','u','f','f','e','r']
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```
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A `TypeError` will be thrown if `array` is not an `Array`.
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### Class Method: Buffer.from(arrayBuffer[, byteOffset[, length]])
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<!-- YAML
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added: v5.10.0
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-->
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* `arrayBuffer` {ArrayBuffer} The `.buffer` property of a `TypedArray` or
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a `new ArrayBuffer()`
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* `byteOffset` {Number} Default: `0`
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* `length` {Number} Default: `arrayBuffer.length - byteOffset`
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When passed a reference to the `.buffer` property of a `TypedArray` instance,
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the newly created `Buffer` will share the same allocated memory as the
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TypedArray.
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```js
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const arr = new Uint16Array(2);
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arr[0] = 5000;
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arr[1] = 4000;
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const buf = Buffer.from(arr.buffer); // shares the memory with arr;
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console.log(buf);
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// Prints: <Buffer 88 13 a0 0f>
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// changing the TypedArray changes the Buffer also
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arr[1] = 6000;
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console.log(buf);
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// Prints: <Buffer 88 13 70 17>
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```
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The optional `byteOffset` and `length` arguments specify a memory range within
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the `arrayBuffer` that will be shared by the `Buffer`.
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```js
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const ab = new ArrayBuffer(10);
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const buf = Buffer.from(ab, 0, 2);
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console.log(buf.length);
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// Prints: 2
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```
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A `TypeError` will be thrown if `arrayBuffer` is not an `ArrayBuffer`.
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### Class Method: Buffer.from(buffer)
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<!-- YAML
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added: v3.0.0
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-->
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* `buffer` {Buffer}
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Copies the passed `buffer` data onto a new `Buffer` instance.
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```js
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const buf1 = Buffer.from('buffer');
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const buf2 = Buffer.from(buf1);
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buf1[0] = 0x61;
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console.log(buf1.toString());
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// 'auffer'
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console.log(buf2.toString());
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// 'buffer' (copy is not changed)
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```
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A `TypeError` will be thrown if `buffer` is not a `Buffer`.
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### Class Method: Buffer.from(str[, encoding])
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<!-- YAML
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added: v5.10.0
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-->
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* `str` {String} String to encode.
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* `encoding` {String} Encoding to use, Default: `'utf8'`
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Creates a new `Buffer` containing the given JavaScript string `str`. If
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provided, the `encoding` parameter identifies the character encoding.
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If not provided, `encoding` defaults to `'utf8'`.
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```js
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const buf1 = Buffer.from('this is a tést');
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console.log(buf1.toString());
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// prints: this is a tést
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console.log(buf1.toString('ascii'));
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// prints: this is a tC)st
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const buf2 = Buffer.from('7468697320697320612074c3a97374', 'hex');
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console.log(buf2.toString());
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// prints: this is a tést
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```
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A `TypeError` will be thrown if `str` is not a string.
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### Class Method: Buffer.alloc(size[, fill[, encoding]])
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<!-- YAML
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added: v5.10.0
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-->
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* `size` {Number}
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* `fill` {Value} Default: `undefined`
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* `encoding` {String} Default: `utf8`
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Allocates a new `Buffer` of `size` bytes. If `fill` is `undefined`, the
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`Buffer` will be *zero-filled*.
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```js
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const buf = Buffer.alloc(5);
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console.log(buf);
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// <Buffer 00 00 00 00 00>
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```
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The `size` must be less than or equal to the value of
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`require('buffer').kMaxLength` (on 64-bit architectures, `kMaxLength` is
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`(2^31)-1`). Otherwise, a [`RangeError`][] is thrown. A zero-length Buffer will
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be created if a `size` less than or equal to 0 is specified.
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If `fill` is specified, the allocated `Buffer` will be initialized by calling
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`buf.fill(fill)`. See [`buf.fill()`][] for more information.
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```js
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const buf = Buffer.alloc(5, 'a');
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console.log(buf);
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// <Buffer 61 61 61 61 61>
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```
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If both `fill` and `encoding` are specified, the allocated `Buffer` will be
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initialized by calling `buf.fill(fill, encoding)`. For example:
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```js
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const buf = Buffer.alloc(11, 'aGVsbG8gd29ybGQ=', 'base64');
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console.log(buf);
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// <Buffer 68 65 6c 6c 6f 20 77 6f 72 6c 64>
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```
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Calling `Buffer.alloc(size)` can be significantly slower than the alternative
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`Buffer.allocUnsafe(size)` but ensures that the newly created `Buffer` instance
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contents will *never contain sensitive data*.
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A `TypeError` will be thrown if `size` is not a number.
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### Class Method: Buffer.allocUnsafe(size)
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<!-- YAML
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added: v5.10.0
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-->
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* `size` {Number}
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Allocates a new *non-zero-filled* `Buffer` of `size` bytes. The `size` must
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be less than or equal to the value of `require('buffer').kMaxLength` (on 64-bit
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architectures, `kMaxLength` is `(2^31)-1`). Otherwise, a [`RangeError`][] is
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thrown. A zero-length Buffer will be created if a `size` less than or equal to
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0 is specified.
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The underlying memory for `Buffer` instances created in this way is *not
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initialized*. The contents of the newly created `Buffer` are unknown and
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*may contain sensitive data*. Use [`buf.fill(0)`][] to initialize such
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`Buffer` instances to zeroes.
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```js
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const buf = Buffer.allocUnsafe(5);
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console.log(buf);
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// <Buffer 78 e0 82 02 01>
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// (octets will be different, every time)
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buf.fill(0);
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console.log(buf);
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// <Buffer 00 00 00 00 00>
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```
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A `TypeError` will be thrown if `size` is not a number.
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Note that the `Buffer` module pre-allocates an internal `Buffer` instance of
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size `Buffer.poolSize` that is used as a pool for the fast allocation of new
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`Buffer` instances created using `Buffer.allocUnsafe(size)` (and the deprecated
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`new Buffer(size)` constructor) only when `size` is less than or equal to
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`Buffer.poolSize >> 1` (floor of `Buffer.poolSize` divided by two). The default
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value of `Buffer.poolSize` is `8192` but can be modified.
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Use of this pre-allocated internal memory pool is a key difference between
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calling `Buffer.alloc(size, fill)` vs. `Buffer.allocUnsafe(size).fill(fill)`.
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Specifically, `Buffer.alloc(size, fill)` will *never* use the internal Buffer
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pool, while `Buffer.allocUnsafe(size).fill(fill)` *will* use the internal
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Buffer pool if `size` is less than or equal to half `Buffer.poolSize`. The
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difference is subtle but can be important when an application requires the
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additional performance that `Buffer.allocUnsafe(size)` provides.
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### Class Method: Buffer.allocUnsafeSlow(size)
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<!-- YAML
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added: v5.10.0
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-->
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* `size` {Number}
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Allocates a new *non-zero-filled* and non-pooled `Buffer` of `size` bytes. The
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`size` must be less than or equal to the value of
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`require('buffer').kMaxLength` (on 64-bit architectures, `kMaxLength` is
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`(2^31)-1`). Otherwise, a [`RangeError`][] is thrown. A zero-length Buffer will
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be created if a `size` less than or equal to 0 is specified.
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The underlying memory for `Buffer` instances created in this way is *not
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initialized*. The contents of the newly created `Buffer` are unknown and
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*may contain sensitive data*. Use [`buf.fill(0)`][] to initialize such
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`Buffer` instances to zeroes.
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When using `Buffer.allocUnsafe()` to allocate new `Buffer` instances,
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allocations under 4KB are, by default, sliced from a single pre-allocated
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`Buffer`. This allows applications to avoid the garbage collection overhead of
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creating many individually allocated Buffers. This approach improves both
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performance and memory usage by eliminating the need to track and cleanup as
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many `Persistent` objects.
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However, in the case where a developer may need to retain a small chunk of
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memory from a pool for an indeterminate amount of time, it may be appropriate
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to create an un-pooled Buffer instance using `Buffer.allocUnsafeSlow()` then
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copy out the relevant bits.
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```js
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// need to keep around a few small chunks of memory
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const store = [];
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socket.on('readable', () => {
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const data = socket.read();
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// allocate for retained data
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const sb = Buffer.allocUnsafeSlow(10);
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// copy the data into the new allocation
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data.copy(sb, 0, 0, 10);
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store.push(sb);
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});
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```
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Use of `Buffer.allocUnsafeSlow()` should be used only as a last resort *after*
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a developer has observed undue memory retention in their applications.
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A `TypeError` will be thrown if `size` is not a number.
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### All the Rest
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The rest of the `Buffer` API is exactly the same as in node.js.
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[See the docs](https://nodejs.org/api/buffer.html).
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## Related links
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- [Node.js issue: Buffer(number) is unsafe](https://github.com/nodejs/node/issues/4660)
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- [Node.js Enhancement Proposal: Buffer.from/Buffer.alloc/Buffer.zalloc/Buffer() soft-deprecate](https://github.com/nodejs/node-eps/pull/4)
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## Why is `Buffer` unsafe?
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Today, the node.js `Buffer` constructor is overloaded to handle many different argument
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types like `String`, `Array`, `Object`, `TypedArrayView` (`Uint8Array`, etc.),
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`ArrayBuffer`, and also `Number`.
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The API is optimized for convenience: you can throw any type at it, and it will try to do
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what you want.
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Because the Buffer constructor is so powerful, you often see code like this:
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```js
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// Convert UTF-8 strings to hex
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function toHex (str) {
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return new Buffer(str).toString('hex')
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}
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```
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***But what happens if `toHex` is called with a `Number` argument?***
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### Remote Memory Disclosure
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If an attacker can make your program call the `Buffer` constructor with a `Number`
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argument, then they can make it allocate uninitialized memory from the node.js process.
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This could potentially disclose TLS private keys, user data, or database passwords.
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When the `Buffer` constructor is passed a `Number` argument, it returns an
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**UNINITIALIZED** block of memory of the specified `size`. When you create a `Buffer` like
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this, you **MUST** overwrite the contents before returning it to the user.
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From the [node.js docs](https://nodejs.org/api/buffer.html#buffer_new_buffer_size):
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> `new Buffer(size)`
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>
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> - `size` Number
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>
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> The underlying memory for `Buffer` instances created in this way is not initialized.
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> **The contents of a newly created `Buffer` are unknown and could contain sensitive
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> data.** Use `buf.fill(0)` to initialize a Buffer to zeroes.
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(Emphasis our own.)
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Whenever the programmer intended to create an uninitialized `Buffer` you often see code
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like this:
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```js
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var buf = new Buffer(16)
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// Immediately overwrite the uninitialized buffer with data from another buffer
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for (var i = 0; i < buf.length; i++) {
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buf[i] = otherBuf[i]
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}
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```
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### Would this ever be a problem in real code?
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Yes. It's surprisingly common to forget to check the type of your variables in a
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dynamically-typed language like JavaScript.
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Usually the consequences of assuming the wrong type is that your program crashes with an
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uncaught exception. But the failure mode for forgetting to check the type of arguments to
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the `Buffer` constructor is more catastrophic.
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Here's an example of a vulnerable service that takes a JSON payload and converts it to
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hex:
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```js
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// Take a JSON payload {str: "some string"} and convert it to hex
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var server = http.createServer(function (req, res) {
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var data = ''
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req.setEncoding('utf8')
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req.on('data', function (chunk) {
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data += chunk
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})
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req.on('end', function () {
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var body = JSON.parse(data)
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res.end(new Buffer(body.str).toString('hex'))
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})
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})
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server.listen(8080)
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```
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In this example, an http client just has to send:
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```json
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{
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"str": 1000
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}
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```
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and it will get back 1,000 bytes of uninitialized memory from the server.
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This is a very serious bug. It's similar in severity to the
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[the Heartbleed bug](http://heartbleed.com/) that allowed disclosure of OpenSSL process
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memory by remote attackers.
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### Which real-world packages were vulnerable?
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#### [`bittorrent-dht`](https://www.npmjs.com/package/bittorrent-dht)
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[Mathias Buus](https://github.com/mafintosh) and I
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([Feross Aboukhadijeh](http://feross.org/)) found this issue in one of our own packages,
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[`bittorrent-dht`](https://www.npmjs.com/package/bittorrent-dht). The bug would allow
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anyone on the internet to send a series of messages to a user of `bittorrent-dht` and get
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them to reveal 20 bytes at a time of uninitialized memory from the node.js process.
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Here's
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[the commit](https://github.com/feross/bittorrent-dht/commit/6c7da04025d5633699800a99ec3fbadf70ad35b8)
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that fixed it. We released a new fixed version, created a
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[Node Security Project disclosure](https://nodesecurity.io/advisories/68), and deprecated all
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vulnerable versions on npm so users will get a warning to upgrade to a newer version.
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#### [`ws`](https://www.npmjs.com/package/ws)
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That got us wondering if there were other vulnerable packages. Sure enough, within a short
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period of time, we found the same issue in [`ws`](https://www.npmjs.com/package/ws), the
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most popular WebSocket implementation in node.js.
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If certain APIs were called with `Number` parameters instead of `String` or `Buffer` as
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expected, then uninitialized server memory would be disclosed to the remote peer.
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These were the vulnerable methods:
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```js
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socket.send(number)
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socket.ping(number)
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socket.pong(number)
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```
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Here's a vulnerable socket server with some echo functionality:
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```js
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server.on('connection', function (socket) {
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socket.on('message', function (message) {
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message = JSON.parse(message)
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if (message.type === 'echo') {
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socket.send(message.data) // send back the user's message
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}
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})
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})
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```
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`socket.send(number)` called on the server, will disclose server memory.
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Here's [the release](https://github.com/websockets/ws/releases/tag/1.0.1) where the issue
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was fixed, with a more detailed explanation. Props to
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[Arnout Kazemier](https://github.com/3rd-Eden) for the quick fix. Here's the
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[Node Security Project disclosure](https://nodesecurity.io/advisories/67).
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### What's the solution?
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It's important that node.js offers a fast way to get memory otherwise performance-critical
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applications would needlessly get a lot slower.
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But we need a better way to *signal our intent* as programmers. **When we want
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uninitialized memory, we should request it explicitly.**
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Sensitive functionality should not be packed into a developer-friendly API that loosely
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accepts many different types. This type of API encourages the lazy practice of passing
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variables in without checking the type very carefully.
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#### A new API: `Buffer.allocUnsafe(number)`
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The functionality of creating buffers with uninitialized memory should be part of another
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API. We propose `Buffer.allocUnsafe(number)`. This way, it's not part of an API that
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frequently gets user input of all sorts of different types passed into it.
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```js
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var buf = Buffer.allocUnsafe(16) // careful, uninitialized memory!
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// Immediately overwrite the uninitialized buffer with data from another buffer
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for (var i = 0; i < buf.length; i++) {
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buf[i] = otherBuf[i]
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}
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```
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### How do we fix node.js core?
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We sent [a PR to node.js core](https://github.com/nodejs/node/pull/4514) (merged as
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`semver-major`) which defends against one case:
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```js
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var str = 16
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new Buffer(str, 'utf8')
|
|
```
|
|
|
|
In this situation, it's implied that the programmer intended the first argument to be a
|
|
string, since they passed an encoding as a second argument. Today, node.js will allocate
|
|
uninitialized memory in the case of `new Buffer(number, encoding)`, which is probably not
|
|
what the programmer intended.
|
|
|
|
But this is only a partial solution, since if the programmer does `new Buffer(variable)`
|
|
(without an `encoding` parameter) there's no way to know what they intended. If `variable`
|
|
is sometimes a number, then uninitialized memory will sometimes be returned.
|
|
|
|
### What's the real long-term fix?
|
|
|
|
We could deprecate and remove `new Buffer(number)` and use `Buffer.allocUnsafe(number)` when
|
|
we need uninitialized memory. But that would break 1000s of packages.
|
|
|
|
~~We believe the best solution is to:~~
|
|
|
|
~~1. Change `new Buffer(number)` to return safe, zeroed-out memory~~
|
|
|
|
~~2. Create a new API for creating uninitialized Buffers. We propose: `Buffer.allocUnsafe(number)`~~
|
|
|
|
#### Update
|
|
|
|
We now support adding three new APIs:
|
|
|
|
- `Buffer.from(value)` - convert from any type to a buffer
|
|
- `Buffer.alloc(size)` - create a zero-filled buffer
|
|
- `Buffer.allocUnsafe(size)` - create an uninitialized buffer with given size
|
|
|
|
This solves the core problem that affected `ws` and `bittorrent-dht` which is
|
|
`Buffer(variable)` getting tricked into taking a number argument.
|
|
|
|
This way, existing code continues working and the impact on the npm ecosystem will be
|
|
minimal. Over time, npm maintainers can migrate performance-critical code to use
|
|
`Buffer.allocUnsafe(number)` instead of `new Buffer(number)`.
|
|
|
|
|
|
### Conclusion
|
|
|
|
We think there's a serious design issue with the `Buffer` API as it exists today. It
|
|
promotes insecure software by putting high-risk functionality into a convenient API
|
|
with friendly "developer ergonomics".
|
|
|
|
This wasn't merely a theoretical exercise because we found the issue in some of the
|
|
most popular npm packages.
|
|
|
|
Fortunately, there's an easy fix that can be applied today. Use `safe-buffer` in place of
|
|
`buffer`.
|
|
|
|
```js
|
|
var Buffer = require('safe-buffer').Buffer
|
|
```
|
|
|
|
Eventually, we hope that node.js core can switch to this new, safer behavior. We believe
|
|
the impact on the ecosystem would be minimal since it's not a breaking change.
|
|
Well-maintained, popular packages would be updated to use `Buffer.alloc` quickly, while
|
|
older, insecure packages would magically become safe from this attack vector.
|
|
|
|
|
|
## links
|
|
|
|
- [Node.js PR: buffer: throw if both length and enc are passed](https://github.com/nodejs/node/pull/4514)
|
|
- [Node Security Project disclosure for `ws`](https://nodesecurity.io/advisories/67)
|
|
- [Node Security Project disclosure for`bittorrent-dht`](https://nodesecurity.io/advisories/68)
|
|
|
|
|
|
## credit
|
|
|
|
The original issues in `bittorrent-dht`
|
|
([disclosure](https://nodesecurity.io/advisories/68)) and
|
|
`ws` ([disclosure](https://nodesecurity.io/advisories/67)) were discovered by
|
|
[Mathias Buus](https://github.com/mafintosh) and
|
|
[Feross Aboukhadijeh](http://feross.org/).
|
|
|
|
Thanks to [Adam Baldwin](https://github.com/evilpacket) for helping disclose these issues
|
|
and for his work running the [Node Security Project](https://nodesecurity.io/).
|
|
|
|
Thanks to [John Hiesey](https://github.com/jhiesey) for proofreading this README and
|
|
auditing the code.
|
|
|
|
|
|
## license
|
|
|
|
MIT. Copyright (C) [Feross Aboukhadijeh](http://feross.org)
|