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CBOR is "Concise Binary Object Representation", defined by RFC 8949. Like JSON, but binary, more compact, and supporting a much broader range of data types.
cborg focuses on strictness and deterministic data representations. CBORs flexibility leads to problems where determinism matters, such as in content-addressed data where your data encoding should converge on same-bytes for same-data. cborg helps aleviate these challenges.
cborg is also fast, and is suitable for the browser (is Uint8Array
native) and Node.js.
cborg supports CBOR tags, but does not ship with them enabled by default. If you want tags, you need to plug them in to the encoder and decoder.
cborg bin2diag [binary input]
cborg bin2hex [binary string]
cborg bin2json [--pretty] [binary input]
cborg diag2bin [diagnostic string]
cborg diag2hex [diagnostic string]
cborg diag2json [--pretty] [diagnostic string]
cborg hex2bin [hex string]
cborg hex2diag [hex string]
cborg hex2json [--pretty] [hex string]
cborg json2bin [json string]
cborg json2diag [json string]
cborg json2hex '[json string]'
import { encode, decode } from 'cborg'
const decoded = decode(Buffer.from('a16474686973a26269736543424f522163796179f5', 'hex'))
console.log('decoded:', decoded)
console.log('encoded:', encode(decoded))
decoded: { this: { is: 'CBOR!', yay: true } }
encoded: Uint8Array(21) [
161, 100, 116, 104, 105, 115,
162, 98, 105, 115, 101, 67,
66, 79, 82, 33, 99, 121,
97, 121, 245
]
When installed globally via npm
(with npm install cborg --global
), the cborg
command will be available that provides some handy CBOR CLI utilities. Run with cborg help
for additional details.
The following commands take either input from the command line, or if no input is supplied will read from stdin. Output is printed to stdout. So you can cat foo | cborg <command>
.
cborg bin2diag [binary input]
Convert CBOR from binary input to a CBOR diagnostic output format which explains the byte contents.
$ cborg hex2bin 84616161620164f09f9880 | cborg bin2diag
84 # array(4)
61 # string(1)
61 # "a"
61 # string(1)
62 # "b"
01 # uint(1)
64 f09f # string(2)
f09f9880 # "π"
cborg bin2hex [binary string]
A utility method to convert a binary input (stdin only) to hexadecimal output (does not involve CBOR).
cborg bin2json [--pretty] [binary input]
Convert CBOR from binary input to JSON format.
$ cborg hex2bin 84616161620164f09f9880 | cborg bin2json
["a","b",1,"π"]
cborg diag2bin [diagnostic string]
Convert a CBOR diagnostic string to a binary data form of the CBOR.
$ cborg json2diag '["a","b",1,"π"]' | cborg diag2bin | cborg bin2hex
84616161620164f09f9880
cborg diag2hex [diagnostic string]
Convert a CBOR diagnostic string to the CBOR bytes in hexadecimal format.
$ cborg json2diag '["a","b",1,"π"]' | cborg diag2hex
84616161620164f09f9880
cborg diag2json [--pretty] [diagnostic string]
Convert a CBOR diagnostic string to JSON format.
$ cborg json2diag '["a","b",1,"π"]' | cborg diag2json
["a","b",1,"π"]
cborg hex2bin [hex string]
A utility method to convert a hex string to binary output (does not involve CBOR).
cborg hex2diag [hex string]
Convert CBOR from a hexadecimal string to a CBOR diagnostic output format which explains the byte contents.
$ cborg hex2diag 84616161620164f09f9880
84 # array(4)
61 # string(1)
61 # "a"
61 # string(1)
62 # "b"
01 # uint(1)
64 f09f # string(2)
f09f9880 # "π"
cborg hex2json [--pretty] [hex string]
Convert CBOR from a hexadecimal string to JSON format.
$ cborg hex2json 84616161620164f09f9880
["a","b",1,"π"]
$ cborg hex2json --pretty 84616161620164f09f9880
[
"a",
"b",
1,
"π"
]
cborg json2bin [json string]
Convert a JSON object into a binary data form of the CBOR.
$ cborg json2bin '["a","b",1,"π"]' | cborg bin2hex
84616161620164f09f9880
cborg json2diag [json string]
Convert a JSON object into a CBOR diagnostic output format which explains the contents of the CBOR form of the input object.
$ cborg json2diag '["a", "b", 1, "π"]'
84 # array(4)
61 # string(1)
61 # "a"
61 # string(1)
62 # "b"
01 # uint(1)
64 f09f # string(2)
f09f9880 # "π"
cborg json2hex '[json string]'
Convert a JSON object into CBOR bytes in hexadecimal format.
$ cborg json2hex '["a", "b", 1, "π"]'
84616161620164f09f9880
encode(object[, options])
import { encode } from 'cborg'
const { encode } = require('cborg')
Encode a JavaScript object and return a Uint8Array
with the CBOR byte representation.
Date
or a RegExp
or another exotic type, you should either form them into intermediate forms before encoding or enable a tag encoder (see Type encoders).
null
, undefined
, number
, bigint
, string
, boolean
, Array
, Object
, Map
, Buffer
, ArrayBuffer
, DataView
, Uint8Array
and all other TypedArray
s (the underlying byte array of TypedArrays is encoded, so they will all round-trip as a Uint8Array
since the type information is lost).Number
s will be encoded as integers if they don't have a fractional part (1
and 1.0
are both considered integers, they are identical in JavaScript). Otherwise they will be encoded as floats.Number.MAX_SAFE_INTEGER
or less than Number.MIN_SAFE_INTEGER
will be encoded as floats. There is no way to safely determine whether a number has a fractional part outside of this range.BigInt
s are supported by default within the 64-bit unsigned range but will be also be encoded to their smallest possible representation (so will not round-trip as a BigInt
if they are smaller than Number.MAX_SAFE_INTEGER
). Larger BigInt
s require a tag (officially tags 2 and 3).float64
option is supplied.true
, false
, undefined
and null
. "Simple values" outside of this range are intentionally not supported (pull requests welcome to enable them with an option).float64
(boolean, default false
): do not attempt to store floats as their smallest possible form, store all floats as 64-bittypeEncoders
(object): a mapping of type name to function that can encode that type into cborg tokens. This may also be used to reject or transform types as objects are dissected for encoding. See the Type encoders section below for more information.mapSorter
(function): a function taking two arguments, where each argument is a Token
, or an array of Token
s representing the keys of a map being encoded. Similar to other JavaScript compare functions, a -1
, 1
or 0
(which shouldn't be possible) should be returned depending on the sorting order of the keys. See the source code for the default sorting order which uses the length-first rule recommendation from RFC 7049.decode(data[, options])
import { decode } from 'cborg'
const { decode } = require('cborg')
Decode valid CBOR bytes from a Uint8Array
(or Buffer
) and return a JavaScript object.
BigInt
.true
, false
, undefined
and null
. "Simple values" outside of this range are intentionally not supported (pull requests welcome to enable them with an option).allowIndefinite
(boolean, default true
): when the indefinite length additional information (31
) is encountered for any type (arrays, maps, strings, bytes) or a "break" is encountered, an error will be thrown.allowUndefined
(boolean, default true
): when major 7, minor 23 (undefined
) is encountered, an error will be thrown. To disallow undefined
on encode, a custom type encoder for 'undefined'
will need to be supplied.coerceUndefinedToNull
(boolean, default false
): when both allowUndefined
and coerceUndefinedToNull
are set to true
, all undefined
tokens (major 7
minor 23
: 0xf7
) will be coerced to null
tokens, such that undefined
is an allowed token but will not appear in decoded values.allowInfinity
(boolean, default true
): when an IEEE 754 Infinity
or -Infinity
value is encountered when decoding a major 7, an error will be thrown. To disallow Infinity
and -Infinity
on encode, a custom type encoder for 'number'
will need to be supplied.allowNaN
(boolean, default true
): when an IEEE 754 NaN
value is encountered when decoding a major 7, an error will be thrown. To disallow NaN
on encode, a custom type encoder for 'number'
will need to be supplied.allowBigInt
(boolean, default true
): when an integer outside of the safe integer range is encountered, an error will be thrown. To disallow BigInt
s on encode, a custom type encoder for 'bigint'
will need to be supplied.strict
(boolean, default false
): when decoding integers, including for lengths (arrays, maps, strings, bytes), values will be checked to see whether they were encoded in their smallest possible form. If not, an error will be thrown.
useMaps
(boolean, default false
): when decoding major 5 (map) entries, use a Map
rather than a plain Object
. This will nest for any encountered map. During encode, a Map
will be interpreted as an Object
and will round-trip as such unless useMaps
is supplied, in which case, all Map
s and Object
s will round-trip as Map
s. There is no way to retain the distinction during round-trip without using a custom tag.rejectDuplicateMapKeys
(boolean, default false
): when the decoder encounters duplicate keys for the same map, an error will be thrown when this option is set. This is an additional strictness option, disallowing data-hiding and reducing the number of same-data different-bytes possibilities where it matters.retainStringBytes
(boolean, default false
): when decoding strings, retain the original bytes on the Token
object as byteValue
. Since it is possible to encode non-UTF-8 characters in strings in CBOR, and JavaScript doesn't properly handle non-UTF-8 in its conversion from bytes (TextEncoder
or Buffer
), this can result in a loss of data (and an inability to round-trip). Where this is important, a token stream should be consumed instead of a plain decode()
and the byteValue
property on string tokens can be inspected (see lib/diagnostic.js for an example of its use.)tags
(array): a mapping of tag number to tag decoder function. By default no tags are supported. See Tag decoders.tokenizer
(object): an object with two methods, next()
which returns a Token
and done()
which returns a boolean
. Can be used to implement custom input decoding. See the source code for examples.encodedLength(data[, options])
import { encodedLength } from 'cborg/length'
const { encodedLength } = require('cborg/length')
Calculate the byte length of the given data when encoded as CBOR with the options provided. The options are the same as for an encode()
call. This calculation will be accurate if the same options are used as when performing a normal encode()
. Some encode options can change the encoding output length.
A tokensToLength()
function is available which deals directly with a tokenized form of the object, but this only recommended for advanced users.
The typeEncoders
property to the options
argument to encode()
allows you to add additional functionality to cborg, or override existing functionality.
When converting JavaScript objects, types are differentiated using the method and naming used by @sindresorhus/is (a custom implementation is used internally for performance reasons) and an internal set of type encoders are used to convert objects to their appropriate CBOR form. Supported types are: null
, undefined
, number
, bigint
, string
, boolean
, Array
, Object
, Map
, Buffer
, ArrayBuffer
, DataView
, Uint8Array
and all other TypedArray
s (their underlying byte array is encoded, so they will all round-trip as a Uint8Array
since the type information is lost). Any object that doesn't match a type in this list will cause an error to be thrown during decode. e.g. encode(new Date())
will throw an error because there is no internal Date
type encoder.
The typeEncoders
option is an object whose property names match to @sindresorhus/is type names. When this option is provided and a property exists for any given object's type, the function provided as the value to that property is called with the object as an argument.
If a type encoder function returns null
, the default encoder, if any, is used instead.
If a type encoder function returns an array, cborg will expect it to contain zero or more Token
objects that will be encoded to binary form.
Token
s map directly to CBOR entities. Each one has a Type
and a value
. A type encoder is responsible for turning a JavaScript object into a set of tags.
This example is available from the cborg taglib as bigIntEncoder
(import { bigIntEncoder } as taglib from 'cborg/taglib'
) and implements CBOR tags 2 and 3 (bigint and negative bigint). This function would be registered using an options parameter { typeEncoders: { bigint: bigIntEncoder } }
. All objects that have a type bigint
will pass through this function.
import { Token, Type } from './cborg.js'
function bigIntEncoder (obj) {
// check whether this BigInt could fit within a standard CBOR 64-bit int or less
if (obj >= -1n * (2n ** 64n) && obj <= (2n ** 64n) - 1n) {
return null // handle this as a standard int or negint
}
// it's larger than a 64-bit int, encode as tag 2 (positive) or 3 (negative)
return [
new Token(Type.tag, obj >= 0n ? 2 : 3),
new Token(Type.bytes, fromBigInt(obj >= 0n ? obj : obj * -1n - 1n))
]
}
function fromBigInt (i) { /* returns a Uint8Array, omitted from example */ }
This example encoder demonstrates the ability to pass-through to the default encoder, or convert to a series of custom tags. In this case we can put any arbitrarily large BigInt
into a byte array using the standard CBOR tag 2 and 3 types.
Valid Token
types for the second argument to Token()
are:
Type.uint
Type.negint
Type.bytes
Type.string
Type.array
Type.map
Type.tag
Type.float
Type.false
Type.true
Type.null
Type.undefined
Type.break
Using type encoders we can:
Token
s)null
as a pass-through)number
s into floats)undefined
)By default cborg does not support decoding of any tags. Where a tag is encountered during decode, an error will be thrown. If tag support is needed, they will need to be supplied as options to the decode()
function. The tags
property should contain an array where the indexes correspond to the tag numbers that are encountered during decode, and the values are functions that are able to turn the following token(s) into a JavaScript object. Each tag token in CBOR is followed by a data item, often a byte array of arbitrary length, but can be a more complex series of tokens that form a nested data item. This token is supplied to the tag decoder function.
This example is available from the cborg taglib as bigIntDecoder
and bigNegIntDecoder
(import { bigIntDecoder, bigNegIntDecoder } as taglib from 'cborg/taglib'
) and implements CBOR tags 2 and 3 (bigint and negative bigint). This function would be registered using an options parameter:
const tags = []
tags[2] = bigIntDecoder
tags[3] = bigNegIntDecoder
decode(bytes, { tags })
Implementation:
function bigIntDecoder (bytes) {
let bi = 0n
for (let ii = 0; ii < bytes.length; ii++) {
bi = (bi << 8n) + BigInt(bytes[ii])
}
return bi
}
function bigNegIntDecoder (bytes) {
return -1n - bigIntDecoder(bytes)
}
cborg is designed with deterministic encoding forms as a primary feature. It is suitable for use with content addressed systems or other systems where convergence of binary forms is important. The ideal is to have strictly one way of mapping a set of data into a binary form. Unfortunately CBOR has many opportunities for flexibility, including:
1
may be encoded as 0x01
, 0x1801
, 0x190001
, 1a00000001
or 1b0000000000000001
.1
. Tags can also vary in size and still represent the same number.NaN
, Infinity
and -Infinity
to be represented in many different ways, meaning it is possible to represent the same data using many different byte forms.By default, cborg will always encode objects to the same bytes by applying some strictness rules:
number
differentiation - if a fractional part is missing and it's within the safe integer boundary, it's encoded as an integer, otherwise it's encoded as a float.By default, cborg allows for some flexibility on decode of objects, which will present some challenges if users wish to impose strictness requirements at both serialization and deserialization. Options that can be provided to decode()
to impose some strictness requirements are:
strict: true
to impose strict sizing rules for int, negative ints and lengths of lengthed objectsallowNaN: false
and allowInfinity
to prevent decoding of any value that would resolve to NaN
, Infinity
or -Infinity
, using CBOR tokens or IEEE 754 representationβas long as your application can do without these symbols.allowIndefinite: false
to disallow indefinite lengthed objects and the "break" tagCurrently, there are two areas that cborg cannot impose strictness requirements (pull requests welcome!):
There are a number of forms where an object will not round-trip precisely, if this matters for an application, care should be taken, or certain types should be disallowed entirely during encode.
TypedArray
s will decode as Uint8Array
s, unless a custom tag is used.Map
and Object
will be encoded as a CBOR map
, as will any other object that inherits from Object
that can't be differentiated by the @sindresorhus/is algorithm. They will all decode as Object
by default, or Map
if useMaps
is set to true
. e.g. { foo: new Map() }
will round-trip to { foo: {} }
by default.cborg can also encode and decode JSON using the same pipeline and many of the same settings. For most (but not all) cases it will be faster to use JSON.parse()
and JSON.stringify()
, however cborg provides much more control over the process to handle determinism and be more restrictive in allowable forms. It also operates natively with Uint8Arrays rather than strings which may also offer some minor efficiency or usability gains in some circumstances.
Use import { encode, decode } from 'cborg/json'
or const { encode, decode } = require('cborg/json')
to access the JSON handling encoder and decoder.
Many of the same encode and decode options available for CBOR can be used to manage JSON handling. These include strictness requirements for decode and custom tag encoders for encode. Tag encoders can't create new tags as there are no tags in JSON, but they can replace JavaScript object forms with custom JSON forms (e.g. convert a Uint8Array
to a valid JSON form rather than having the encoder throw an error). The inverse is also possible, turning specific JSON forms into JavaScript forms, by using a custom tokenizer on decode.
Special notes on options specific to the JSON:
allowBigInt
option: is repurposed for the JSON decoder and defaults to false
. When false
, all numbers are decoded as Number
, possibly losing precision when encountering numbers outside of the JavaScript safe integer range. When true
numbers that have a decimal point (.
, even if just .0
) are returned as a Number
, but for numbers without a decimal point and that are outside of the JavaScript safe integer range, they are returned as BigInt
s. This behaviour differs from CBOR decoding which will error when decoding integer and negative integer tokens that are outside of the JavaScript safe integer range if allowBigInt
is false
.See @ipld/dag-json for an advanced use of the cborg JSON encoder and decoder including round-tripping of Uint8Array
s and custom JavaScript classes (IPLD CID
objects in this case).
Similar to the CBOR example above, using JSON:
import { encode, decode } from 'cborg/json'
const decoded = decode(Buffer.from('7b2274686973223a7b226973223a224a534f4e21222c22796179223a747275657d7d', 'hex'))
console.log('decoded:', decoded)
console.log('encoded:', encode(decoded))
console.log('encoded (string):', Buffer.from(encode(decoded)).toString())
decoded: { this: { is: 'JSON!', yay: true } }
encoded: Uint8Array(34) [
123, 34, 116, 104, 105, 115, 34, 58,
123, 34, 105, 115, 34, 58, 34, 74,
83, 79, 78, 33, 34, 44, 34, 121,
97, 121, 34, 58, 116, 114, 117, 101,
125, 125
]
encoded (string): {"this":{"is":"JSON!","yay":true}}
Copyright 2020 Rod Vagg
Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except in compliance with the License. You may obtain a copy of the License at http://www.apache.org/licenses/LICENSE-2.0
Unless required by applicable law or agreed to in writing, software distributed under the License is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License for the specific language governing permissions and limitations under the License.
FAQs
Fast CBOR with a focus on strictness
The npm package cborg receives a total of 100,520 weekly downloads. As such, cborg popularity was classified as popular.
We found that cborg demonstrated a healthy version release cadence and project activity because the last version was released less than a year ago.Β It has 1 open source maintainer collaborating on the project.
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