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SwiftCBOR unlicense Carthage compatible

A CBOR (RFC 7049 Concise Binary Object Representation) decoder and encoder in Swift. Encode directly from Swift types or use a wrapper object. Decode to a CBOR value type that can be accessed with native Swift subscripting and expressed with the equivalent literal notation.

  • No Foundation dependency! Ready for the cross-platform future of Swift.
  • Configured as a universal iOS / OS X framework.
  • Negative integers are decoded as NegativeInt(UInt), where the actual number is -1 - i (CBOR's negative integers can be larger than 64-bit signed integers).
  • Tags are decoded, but not processed. Tagged values are encoded, but not type-checked. Do it yourself :-)
  • Literal convertibles are defined for the CBOR type!
  • And subscript too. So you can access CBOR maps and arrays like this: myDecodedObject["numbers"][1].
  • If you want to decode from a stream, implement the CBORInputStream protocol on your stream and create the decoder like this: CBORDecoder(stream: yourStream).
  • Half floats can be decoded to a Float. Encoding Float16s are not supported (they do not exist in Swift).
  • Memory efficiency of encoding needs tuning. (Encoding is not typically done in-place.)
  • Encoding indefinite-length data is supported but you need to explicitly add open and close information to your streaming data.
  • cbor.me is recommended for viewing your CBOR-encoded data.

Installation

Use Carthage.

github "myfreeweb/SwiftCBOR"

Or add it as a Git submodule.

Decoding

import SwiftCBOR

let decoded = try! CBOR.decode([0x9f, 0x18, 255, 0x9b, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 2, 0x18, 1, 0x79, 0x00, 3, 0x41, 0x42, 0x43, 0x79, 0x00, 3, 0x41, 0x42, 0x43, 0xff])
print(decoded)
// CBOR.array([CBOR.unsignedInt(255), CBOR.array([CBOR.unsignedInt(1), CBOR.utf8String("ABC")]), CBOR.utf8String("ABC")])

Encoding

Encoding a value returns an array of bytes, [UInt8]. You can encode with CBOR.encode(myValue) or myValue.encode(). Any type that conforms to the CBOREncodable protocol may be decoded. You can implement the CBOREncodable protocol for your types and then encode as usual.

CBOR.encode(100)  // --> [0x18, 0x64] of type [UInt8]
Int(100).encode() // --> [0x18, 0x64]. Int conforms to the CBOREncodable protocol
"hello".encode()  // --> [0x65, 0x68, 0x65, 0x6c, 0x6c, 0x6f]. So does String
CBOR.encode(["a", "b", "c"])

let byteString: [UInt8] = [0x01, 0x02]
CBOR.encode(byteString, asByteString: true)

Due to Swift's incomplete generics system, you cannot call someArray.encode() or someDictionary.encode(), but you can simply use CBOR.encode(someArrayOrMap) so long as your array items or map key and value types conform to CBOREncodable.

In some cases it may be necessary to create a CBOR intermediate representation before encoding. For example, if you want to encode an array or dictionary containing heterogeneous types, as is common for JSON-like objects, you can't use native Swift maps yet. You can either implement CBOREncodable on your type or you can build a CBOR value and encode that.

public protocol CBOREncodable {
    func encode() -> [UInt8]
}

struct MyStruct: CBOREncodable {
    var x: Int
    var y: String

    public func encode() -> [UInt8] {
        let cborWrapper = CBOR(dictionaryLiteral:
            ("x", CBOR(integerLiteral: self.x)),
            ("y", CBOR(stringLiteral: self.y)))
        return cborWrapper.encode()
    }
}

MyStruct(x: 42, y: "words").encode()
// --> bytes (as hex): a2 61 79 65 77 6f 72 64 73 61 78 18 2a

The current general-purpose API is listed below. When you need fine grained control over the type you are encoding, use the following.

func encode<T: CBOREncodable>(_ value: T) -> [UInt8]
func encode<A: CBOREncodable, B: CBOREncodable>(_ dict: [A: B]) -> [UInt8]

// NOTE: Please see the note on encoding byte strings at the end of this readme.
func encode<T: CBOREncodable>(_ array: [T], asByteString: Bool = false) -> [UInt8]

/// Only needed for fine-grained control:
func encodeUInt{8, 16, 32, 64}(_ x: UInt8) -> [UInt8]
func encodeNegativeInt(_ x: Int) -> [UInt8]
func encodeByteString(_ bs: [UInt8]) -> [UInt8] // does no endian interpretation
func encodeString(_ str: String) -> [UInt8]
func encodeArray<T: CBOREncodable>(_ arr: [T]) -> [UInt8]
func encodeMap<A: CBOREncodable, B: CBOREncodable>(_ map: [A: B]) -> [UInt8]
func encodeTagged<T: CBOREncodable>(tag: UInt8, value: T) -> [UInt8]
func encodeSimpleValue(_ x: UInt8) -> [UInt8]
func encode{Null, Undefined, Break}() -> [UInt8]
func encodeFloat(_ x: Float) -> [UInt8]
func encodeDouble(_ x: Double) -> [UInt8]
func encodeBool(_ x: Bool) -> [UInt8]

Indefinite-length data

To encode indefinite length arrays, maps, strings, and byte strings, explicitly use the open- and close-stream CBOR values. In between these two values, use encoded array and map chunks with CBOR.encodeArrayChunk and CBOR.encodeMapChunk. Indefinite string and bytestrings can be encoded as normal (i.e. they don't need their own 'chunk' function).

let map: [String: Int] = ["a": 1]
let map2 = ["B": 2]
CBOR.encodeMapStreamStart() + CBOR.encodeMapChunk(map) + CBOR.encodeMapChunk(map2) + CBOR.encodeStreamEnd()

let bs: [UInt8] = [0xf0]
let bs2: [UInt8] = [0xff]
CBOR.encodeByteStringStreamStart()
    + CBOR.encode(bs, asByteString: true)
    + CBOR.encode(bs2, asByteString: true)
    + CBOR.encodeStreamEnd()

// Current stream-encoding API:
func encodeArrayStreamStart() -> [UInt8]
func encodeMapStreamStart() -> [UInt8]
func encodeStringStreamStart() -> [UInt8]
func encodeByteStringStreamStart() -> [UInt8]
func encodeStreamEnd() -> [UInt8] // Equal to CBOR.encodeBreak()
func encodeArrayChunk<T: CBOREncodable>(_ chunk: [T]) -> [UInt8]
func encodeMapChunk<A: CBOREncodable, B: CBOREncodable>(_ map: [A: B]) -> [UInt8]

Note on endian reversal

Finally, a technical note on encoding byte string when using the general purpose array encoder, CBOR.encode(..). If the function parameter asByteString is true, then arrays of ALL types EXCEPT UInt8 will be have the raw bytes of each item reversed (but not the order of the items together) if the computer is little endian (CBOR uses big endian or network byte order). Arrays of UInt8, are considered to be already in network byte order.

Contributing

By participating in this project you agree to follow the Contributor Code of Conduct.

The list of contributors is available on GitHub.

License

This is free and unencumbered software released into the public domain.
For more information, please refer to the UNLICENSE file or unlicense.org.

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