[![Build Status](https://travis-ci.org/cabo/cn-cbor.png?branch=master)](https://travis-ci.org/cabo/cn-cbor) # cn-cbor: A constrained node implementation of CBOR in C Below is the original README for cn-cbor, a Proof of Concept implementation of [CBOR](https://cbor.io) that I wrote in 2013. People have been sending me fixes and updates to make this implementation more useful for actual use, and for a while I have occasionally integrated them. Jim Schaad now is so far ahead of this repo that you are most likely better off using [his repo](https://github.com/jimsch/cn-cbor) as your upstream. If you *are* here looking for experimental CBOR implementations for constrained nodes, there are many, some of which are listed at [cbor.io](https://cbor.io/impls.html). One more: I have recently [extracted](https://github.com/cabo/bm_cbor) the implementation from ARM-mbed's [SUIT manifest generator](https://github.com/ARMmbed/suit-manifest-generator) (Apache 2.0). SUIT implementers report (CBOR-specific) code sizes in the low hundreds of bytes. Thank you, [ARM](https://github.com/bremoran). # cn-cbor: A constrained node implementation of CBOR in C This is a constrained node implementation of [CBOR](http://cbor.io) in C that I threw together in 2013, before the publication of [RFC 7049](http://tools.ietf.org/html/rfc7049), to validate certain implementability considerations. Its API model was inspired by [nxjson](https://bitbucket.org/yarosla/nxjson). It turns out that this API model actually works even better with the advantages of the CBOR format. This code has been used in a number of research implementations on constrained nodes, with resulting code sizes appreciably under 1 KiB on ARM platforms. I always meant to improve the interface some more with certain API changes, in order to get even closer to 0.5 KiB, but I ran out of time. So here it is. If I do get around to making these changes, the API will indeed change a bit, so please be forewarned. ## Building There is a `Simple-Makefile` for playing around, as well as a complete [`cmake`](http://www.cmake.org)-based build environment. (You can choose what fits your needs better.) Building with `cmake`: ./build.sh Building including testing: ./build.sh all test Generating a test coverage report (requires lcov[^1]; result in `build/lcov/index.html`): ./build.sh all coveralls coverage_report License: MIT [^1]: Installation with homebrew: `brew install lcov`