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binary-parser

Blazing-fast binary parser builder

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Binary-parser

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Binary-parser is a binary parser builder library for node, which enables you to write efficient parsers in a simple & declarative way.

It supports all common data types required to analyze a structured binary data. Binary-parser dynamically generates and compiles the parser code on-the-fly, which runs as fast as a hand-written parser (which takes much more time and effort to write). Supported data types are:

  • Integers (supports 8, 16, 32 bit signed- and unsigned integers)
  • Floating point numbers (supports 32 and 64 bit floating point values)
  • Bit fields (supports bit fields with length from 1 to 32 bits)
  • Strings (supports various encodings, fixed-length and variable-length, zero terminated string)
  • Arrays (supports user-defined element type, fixed-length and variable-length)
  • Choices
  • User defined types

This library's features are inspired by BinData , its syntax by binary.

Installation

Binary-parser can be installed with npm:

$ npm install binary-parser

Quick Start

  1. Create an empty Parser object with new Parser().
  2. Chain builder methods to build the desired parser. (See API for detailed document of each methods)
  3. Call Parser.prototype.parse with an Buffer object passed as argument.
  4. Parsed result will be returned as an object.
// Module import
var Parser = require('binary-parser').Parser;

// Build an IP packet header Parser
var ipHeader = new Parser()
    .endianess('big')
    .bit4('version')
    .bit4('headerLength')
    .uint8('tos')
    .uint16('packetLength')
    .uint16('id')
    .bit3('offset')
    .bit13('fragOffset')
    .uint8('ttl')
    .uint8('protocol')
    .uint16('checksum')
    .array('src', {
        type: 'uint8',
        length: 4
    })
    .array('dst', {
        type: 'uint8',
        length: 4
    });

// Prepare buffer to parse.
var buf = new Buffer('450002c5939900002c06ef98adc24f6c850186d1', 'hex');

// Parse buffer and show result
console.log(ipHeader.parse(buf));

API

new Parser()

Constructs a Parser object. Returned object represents a parser which parses nothing.

parse(buffer[, callback])

Parse a Buffer object buffer with this parser and return the resulting object. When parse(buffer) is called for the first time, parser code is compiled on-the-fly and internally cached.

create(constructorFunction)

Set the constructor function that should be called to create the object returned from the parse method.

[u]int{8, 16, 32}{le, be}(name [,options])

Parse bytes as an integer and store it in a variable named name. name should consist only of alphanumeric characters and start with an alphabet. Number of bits can be chosen from 8, 16 and 32. Byte-ordering can be either l for little endian or b for big endian. With no prefix, it parses as a signed number, with u prefixed as an unsigned number.

var parser = new Parser()
	// Signed 32-bit integer (little endian)
    .int32le('a')
    // Unsigned 8-bit integer
    .uint8('b')
    // Signed 16-bit integer (big endian)
    .int16be('c')

bit[1-32](name [,options])

Parse bytes as a bit field and store it in variable name. There are 32 methods from bit1 to bit32 each corresponding to 1-bit-length to 32-bits-length bit field.

{float, double}{le, be}(name [,options])

Parse bytes as an floating-point value and store it in a variable named name. name should consist only of alphanumeric characters and start with an alphabet.

var parser = new Parser()
    // 32-bit floating value (big endian)
    .floatbe('a')
    // 64-bit floating value (little endian)
    .doublele('b')

string(name [,options])

Parse bytes as a string. name should consist only of alpha numeric characters and start with an alphabet. options is an object; following options are available:

  • encoding - (Optional, defaults to utf8) Specify which encoding to use. 'utf8', 'ascii', 'hex' and else are valid. See Buffer.toString for more info.
  • length - (Optional) Length of the string. Can be a number, string or a function. Use number for statically sized arrays, string to reference another variable and function to do some calculation.
  • zeroTerminated - (Optional, defaults to false) If true, then this parser reads until it reaches zero.
  • stripNull - (Optional, must be used with length) If true, then strip null characters from end of the string

buffer(name [,options])

Parse bytes as a buffer. name should consist only of alpha numeric characters and start with an alphabet. options is an object; following options are available:

  • clone - (Optional, defaults to false) By default, buffer(name [,options]) returns a new buffer which references the same memory as the parser input, but offset and cropped by a certain range. If this option is true, input buffer will be cloned and a new buffer referncing another memory is returned.
  • length - (either length or readUntil is required) Length of the buffer. Can be a number, string or a function. Use number for statically sized buffers, string to reference another variable and function to do some calculation.
  • readUntil - (either length or readUntil is required) If 'eof', then this parser will read till it reaches end of the Buffer object.

array(name [,options])

Parse bytes as an array. options is an object; following options are available:

  • type - (Required) Type of the array element. Can be a string or an user defined Parser object. If it's a string, you have to choose from [u]int{8, 16, 32}{le, be}.
  • length - (either length, lengthInBytes, or readUntil is required) Length of the array. Can be a number, string or a function. Use number for statically sized arrays.
  • lengthInBytes - (either length, lengthInBytes, or readUntil is required) Length of the array expressed in bytes. Can be a number, string or a function. Use number for statically sized arrays.
  • readUntil - (either length, lengthInBytes, or readUntil is required) If 'eof', then this parser reads until the end of Buffer object. If function it reads until the function returns true.
var parser = new Parser()
	// Statically sized array
	.array('data', {
		type: 'int32',
		length: 8
	})

	// Dynamically sized array (reference another variable)
	.uint8('dataLength')
	.array('data2', {
		type: 'int32',
		length: 'dataLength'
	})

	// Dynamically sized array (with some calculation)
	.array('data3', {
		type: 'int32',
		length: function() { return this.dataLength - 1; } // other fields are available through this
	});

	// Statically sized array
	.array('data4', {
		type: 'int32',
		lengthInBytes: 16
	})

	// Dynamically sized array (reference another variable)
	.uint8('dataLengthInBytes')
	.array('data5', {
		type: 'int32',
		lengthInBytes: 'dataLengthInBytes'
	})

	// Dynamically sized array (with some calculation)
	.array('data6', {
		type: 'int32',
		lengthInBytes: function() { return this.dataLengthInBytes - 4; } // other fields are available through this
	})

	// Dynamically sized array (with stop-check on parsed item)
	.array('data7', {
		type: 'int32',
		readUntil: function(item, buffer) { return item === 42 } // stop when specific item is parsed. buffer can be used to perform a read-ahead.
	});

	// Use user defined parser object
	.array('data8', {
		type: userDefinedParser,
		length: 'dataLength'
	});

choice(name [,options])

Choose one parser from several choices according to a field value. Combining choice with array is useful for parsing a typical Type-Length-Value styled format.

  • tag - (Required) The value used to determine which parser to use from the choices Can be a string pointing to another field or a function.
  • choices - (Required) An object which key is an integer and value is the parser which is executed when tag equals the key value.
  • defaultChoice - (Optional) In case of the tag value doesn't match any of choices use this parser.
var parser1 = ...;
var parser2 = ...;
var parser3 = ...;

var parser = new Parser()
	.uint8('tagValue')
	.choice('data', {
		tag: 'tagValue',
		choices: {
			1: parser1, // When tagValue == 1, execute parser1
			4: parser2, // When tagValue == 4, execute parser2
			5: parser3  // When tagValue == 5, execute parser3
		}
	});

nest(name [,options])

Nest a parser in this position. Parse result of the nested parser is stored in the variable name.

  • type - (Required) A Parser object.

skip(length)

Skip parsing for length bytes.

endianess(endianess)

Define what endianess to use in this parser. endianess can be either 'little' or 'big'. The default endianess of Parser is set to big-endian.

var parser = new Parser()
    .endianess('le')
	// You can specify endianess explicitly
	.uint16be('a')
    .uint32le('a')
	// Or you can omit endianess (in this case, little-endian is used)
	.uint16('b')
	.int32('c')

namely(alias)

Set an alias to this parser, so there will be an opportunity to refer to it by name in methods like .array, .nest and .choice, instead of requirement to have an instance of it.

Especially, the parser may reference itself:

var stop = new Parser();

var parser =
    new Parser().namely('self') // use 'self' to refer to the parser itself
    .uint8('type')
    .choice('data', {
        'tag': 'type',
        'choices': {
            0: stop,
            1: 'self',
            2: Parser.start().nest('left',  { type: 'self' })
                             .nest('right', { type: 'self' }),
            3: Parser.start().nest('one',   { type: 'self' })
                             .nest('two',   { type: 'self' })
                             .nest('three', { type: 'self' })
        }
    });

//        2
//       / \
//      3   1
//    / | \  \
//   1  0  2  0
//  /     / \
// 0     1   0
//      /
//     0

var buffer = new Buffer([ 2,
                        /* left -> */ 3,
                            /* one   -> */ 1, /* -> */ 0,
                            /* two   -> */ 0,
                            /* three -> */ 2,
                                /* left  -> */ 1, /* -> */ 0,
                                /* right -> */ 0,
                        /* right -> */ 1, /* -> */ 0 ]);

parser.parse(buffer);

For most of the cases there is almost no difference to the instance-way of referencing, but this method provides the way to parse recursive trees, where each node could reference the node of the same type from the inside.

Also, when you reference a parser using its instance twice, the generated code will contain two similar parts of the code included, while with the named approach, it will include a function with a name, and will just call this function for every case of usage.

NB: This style could lead to circular references and infinite recursion, to avoid this, ensure that every possible path has its end. Also, this recursion is not tail-optimized, so could lead to memory leaks when it goes too deep.

An example of referencing other patches:

// the line below registers the name 'self', so we will be able to use it in
// `twoCells` as a reference
var parser = Parser.start().namely('self');

var stop = Parser.start().namely('stop');

var twoCells = Parser.start().namely('twoCells')
                             .nest('left',  { type: 'self' })
                             .nest('right', { type: 'stop' })

parser
    .uint8('type')
    .choice('data', {
        'tag': 'type',
        'choices': {
            0: 'stop',
            1: 'self',
            2: 'twoCells'
        }
    });

var buffer = new Buffer([ 2,
                            /* left */  1, 1, 0,
                            /* right */ 0 ]);

parser.parse(buffer);

compile()

Compile this parser on-the-fly and cache its result. Usually, there is no need to call this method directly, since it's called when parse(buffer) is executed for the first time.

getCode()

Dynamically generates the code for this parser and returns it as a string. Usually used for debugging.

Common options

These are common options that can be specified in all parsers.

  • formatter - Function that transforms the parsed value into a more desired form.
var parser = new Parser()
  .array('ipv4', {
    type: uint8,
    length: '4',
    formatter: function(arr) { return arr.join('.'); }
  });
  • assert - Do assertion on the parsed result (useful for checking magic numbers and so on). If assert is a string or number, the actual parsed result will be compared with it with === (strict equality check), and an exception is thrown if they mismatch. On the other hand, if assert is a function, that function is executed with one argument (parsed result) and if it returns false, an exception is thrown.

    // simple maginc number validation
    var ClassFile =
    	Parser.start()
        .endianess('big')
        .uint32('magic', {assert: 0xcafebabe})
    
    // Doing more complex assertion with a predicate function
    var parser = new Parser()
        .int16le('a')
        .int16le('b')
        .int16le('c', {
            assert: function(x) {
                return this.a + this.b === x;
            }
        });
    

Examples

See example for more complex examples.

Support

Please report issues to the issue tracker if you have any difficulties using this module, found a bug, or request a new feature.

Pull requests with fixes and improvements are welcomed!

Keywords

FAQs

Package last updated on 22 Aug 2017

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