Cborb is a pure ruby decoder for CBOR(RFC 7049)
require "cborb"
decoder = Cborb::Decoding::Decoder.new
decoder.decode("\x83\x01")
decoder.finished? # => false
decoder.decode("\x02\x03\x04")
decoder.finished? # => true
decoder.result # => [1, 2, 3]
decoder.remaining_bytes # => "\x04"
# Shorthand
Cborb.decode("\x83\x01\x02\x03") # => [1, 2, 3]
Cborb can handle indefinite-length data(array, map, byte string, unicode string).
Cborb.decode("\x9F\x01\x82\x02\x03\x9F\x04\x05\xFF\xFF") # => [1, [2, 3], [4, 5]]
If Cborb encounters a tag, generates instance of Cborb::Decoding::TaggedValue
.
That contains tag number and original value.
Cborb.decode "\xC0" + "\x71" + "1970-01-01T00:00Z"
# => #<struct Cborb::Decoding::TaggedValue tag=0, value="1970-01-01T00:00Z">
Cborb can handle simple values(true, false, nil, undefined).
Cborb.decode "\xF5" # => true
"Undefined" doesn't exist in Ruby.
So, Cborb converts "undefined" to nil
.
Cborb.decode "\xF7" # => nil
If Cborb encounters unassigned simple value, generates instance of Cborb::Decoding::UnassignedSimpleValue
.
That contains simple value number.
Cborb.decode "\xEF"
# => #<struct Cborb::Decoding::UnassignedSimpleValue number=15>
By default, when decoder received concatenated CBOR, that raises error.
Cborb.decode("\x83\x01\x02\x03\x04") # => Cborb::InvalidByteSequenceError
If you want to decode concatenated CBOR, set concatenated
option to true
.
Decoder decodes whole of concatenated CBOR and returns instance of Cborb::Decoding::Concatenated
.
results = Cborb.decode("\x83\x01\x02\x03\x04", concatenated: true)
# => #<Cborb::Decoding::Concatenated:0x00007fcb1b8b2e30 @decoded=[[1, 2, 3], 4]>
results.first # => [1, 2, 3]
results.last # => 4
# Clone
git clone [email protected]:murakmii/cborb && cd cborb
# Setup
bin/setup
# Edit code...
# Run test
bundle exec rspec
Contributions are always welcome 😘