# NAME

CBOR::Free - Fast CBOR for everyone

# SYNOPSIS

    $cbor = CBOR::Free::encode( $some_data_structure );

    $thing = CBOR::Free::decode( $cbor )

    my $tagged = CBOR::Free::tag( 1, '2019-01-02T00:01:02Z' );

Also see [CBOR::Free::Decoder](https://metacpan.org/pod/CBOR::Free::Decoder) for an object-oriented interface
to the decoder.

# DESCRIPTION

This library implements [CBOR](https://tools.ietf.org/html/rfc7049)
via XS under a license that permits commercial usage with no “strings
attached”.

# STATUS

This distribution is an experimental effort. Its interface is still
subject to change. If you decide to use CBOR::Free in your project,
please always check the changelog before upgrading.

# FUNCTIONS

## $cbor = encode( $DATA, %OPTS )

Encodes a data structure or non-reference scalar to CBOR.
The encoder recognizes and encodes integers, floats, byte and character
strings, array and hash references, [CBOR::Free::Tagged](https://metacpan.org/pod/CBOR::Free::Tagged) instances,
[Types::Serialiser](https://metacpan.org/pod/Types::Serialiser) booleans, and undef (encoded as null).

The encoder currently does not handle any other blessed references.

%OPTS may be:

- `canonical` - A boolean that makes the encoder output
CBOR in [canonical form](https://tools.ietf.org/html/rfc7049#section-3.9).
- `text_keys` - EXPERIMENTAL. Encodes all Perl hash keys as CBOR text.
If you use this mode then your strings **must** be properly decoded, or else
the output CBOR may mangle your string.

    For example, this:

        CBOR::Free::encode( { "\xc3\xa9" => 1 }, text_keys => 1 )

    … will create a CBOR map with key `"\xc3\x83\xc2\xa9"` because the key
    in the hash that was sent to `encode()` was not properly decoded.

- `preserve_references` - A boolean that makes the encoder encode
multi-referenced values via [CBOR’s “shared references” tags](https://www.iana.org/assignments/cbor-tags/cbor-tags.xhtml). This allows encoding of shared
and circular references. It also incurs a performance penalty.

    (Take care that any circular references in your application don’t cause
    memory leaks!)

- `scalar_references` - A boolean that makes the encoder accept
scalar references
(rather than reject them) and encode them via
[CBOR’s “indirection” tag](https://www.iana.org/assignments/cbor-tags/cbor-tags.xhtml).
Most languages don’t use references as Perl does, so this option seems of
little use outside all-Perl IPC contexts; it is arguably more useful, then,
for general use to have the encoder reject data structures that most other
languages cannot represent.

Notes on mapping Perl to CBOR:

- The internal state of a defined Perl scalar (e.g., whether it’s an
integer, float, string, etc.) determines its CBOR encoding.
- Perl doesn’t currently provide reliable binary/character string types.
CBOR::Free tries to distinguish anyway by looking at a string’s UTF8 flag: if
set, then the string becomes CBOR text; otherwise, it’ll be CBOR binary.
That’s not always going to work, though. A trivial example:

        perl -MCBOR::Free -e'my $str = "abc"; utf8::decode($str); print CBOR::Free::encode($str)'

    Since `utf8::decode()` doesn’t set the UTF8 flag unless it “has to”
    (see [utf8](https://metacpan.org/pod/utf8)), that function is a no-op in the above.

    The above _will_ produce a CBOR text string, though, if you use
    [Unicode::UTF8](https://metacpan.org/pod/Unicode::UTF8) instead of [utf8](https://metacpan.org/pod/utf8):

        perl -MUnicode::UTF8 -MCBOR::Free -e'print CBOR::Free::encode(Unicode::UTF8::decode_utf8("abc"))'

    The crucial point, though, is that, because Perl itself doesn’t guarantee
    the reliable string types that CBOR recognizes, any heuristics we apply
    to distinguish one from the other are a “best-guess” merely.

    **IMPORTANT:** Whatever consumes your Perl-sourced CBOR **MUST** account
    for the prospect of an incorrectly-typed string.

- The above applies also to strings vs. numbers: whatever consumes
your Perl-sourced CBOR **MUST** account for the prospect of numbers that
are in CBOR as strings, or vice-versa.
- Perl hash keys are serialized as strings, either binary or text
(following the algorithm described above).
- [Types::Serialiser](https://metacpan.org/pod/Types::Serialiser) booleans are encoded as CBOR booleans.
Perl undef is encoded as CBOR null. (NB: No Perl value encodes as CBOR
undefined.)
- Scalar references (including references to other references) are
unhandled by default, which makes them trigger an exception. You can
optionally tell CBOR::Free to encode them via the `scalar_references` flag.
- Via the optional `preserve_references` flag, circular and shared
references may be preserved. Without this flag, circular references cause an
exception, and other shared references are not preserved.
- Instances of [CBOR::Free::Tagged](https://metacpan.org/pod/CBOR::Free::Tagged) are encoded as tagged values.

An error is thrown on excess recursion or an unrecognized object.

## $data = decode( $CBOR )

Decodes a data structure from CBOR. Errors are thrown to indicate
invalid CBOR. A warning is thrown if $CBOR is longer than is needed
for $data.

Notes on mapping CBOR to Perl:

- CBOR text strings become Perl strings with the internal UTF8 flag set.
CBOR binary strings become Perl strings _without_ that flag set. This is
a mostly-internal distinction in Perl that doesn’t actually constitute
separate byte/character string types, but it’s at least something similar.

    Note that invalid UTF-8 in a CBOR text string is considered
    invalid input and will thus prompt a thrown exception.

- The only map keys that `decode()` accepts are integers and strings.
An exception is thrown if the decoder finds anything else as a map key.
Note that, because Perl does not distinguish between binary and text strings,
if two keys of the same map contain the same bytes, Perl will consider these
a duplicate key and prefer the latter.
- CBOR booleans become the corresponding [Types::Serialiser](https://metacpan.org/pod/Types::Serialiser) values.
Both CBOR null and undefined become Perl undef.
- [CBOR’s “indirection” tag](https://www.iana.org/assignments/cbor-tags/cbor-tags.xhtml) is interpreted as a scalar reference. This behavior is always
active; unlike with the encoder, there is no need to enable it manually.
- `preserve_references()` mode complements the same flag
given to the encoder.
- This function does not interpret any other tags. If you need to
decode other tags, look at [CBOR::Free::Decoder](https://metacpan.org/pod/CBOR::Free::Decoder). Any unhandled tags that
this function sees prompt a warning but are otherwise ignored.

## $obj = tag( $NUMBER, $DATA )

Tags an item for encoding so that its CBOR encoding will preserve the
tag number. (Include $obj, not $DATA, in the data structure that
`encode()` receives.)

# BOOLEANS

`CBOR::Free::true()` and `CBOR::Free::false()` are defined as
convenience aliases for the equivalent [Types::Serialiser](https://metacpan.org/pod/Types::Serialiser) functions.
(Note that there are no equivalent scalar aliases.)

# FRACTIONAL (FLOATING-POINT) NUMBERS

Floating-point numbers are encoded in CBOR as IEEE 754 half-, single-,
or double-precision. If your Perl is compiled to use anything besides
IEEE 754 double-precision to represent floating-point values (e.g.,
“long double” or “quadmath” compilation options), you may see rounding
errors when converting to/from CBOR. If that’s a problem for you, append
an empty string to your floating-point numbers, which will cause CBOR::Free
to encode them as strings.

# INTEGER LIMITS

CBOR handles up to 64-bit positive and negative integers. Most Perls
nowadays can handle 64-bit integers, but if yours can’t then you’ll
get an exception whenever trying to parse an integer that can’t be
represented with 32 bits. This means:

- Anything greater than 0xffff\_ffff (4,294,967,295)
- Anything less than -0x8000\_0000 (2,147,483,648)

Note that even 64-bit Perls can’t parse negatives that are less than
\-0x8000\_0000\_0000\_0000 (-9,223,372,036,854,775,808); these also prompt an
exception since Perl can’t handle them. (It would be possible to load
[Math::BigInt](https://metacpan.org/pod/Math::BigInt) to handle these; if that’s desirable for you,
file a feature request.)

# ERROR HANDLING

Most errors are represented via instances of subclasses of
[CBOR::Free::X](https://metacpan.org/pod/CBOR::Free::X), which subclasses [X::Tiny::Base](https://metacpan.org/pod/X::Tiny::Base).

# SPEED

CBOR::Free is pretty snappy. I find that it keeps pace with or
surpasses [CBOR::XS](https://metacpan.org/pod/CBOR::XS), [Cpanel::JSON::XS](https://metacpan.org/pod/Cpanel::JSON::XS), [JSON::XS](https://metacpan.org/pod/JSON::XS), [Sereal](https://metacpan.org/pod/Sereal),
and [Data::MessagePack](https://metacpan.org/pod/Data::MessagePack).

It’s also quite light. Its only “heavy” dependency is
[Types::Serialiser](https://metacpan.org/pod/Types::Serialiser), which is only loaded when you actually need it.
This keeps memory usage low for when, e.g., you’re using CBOR for
IPC between Perl processes and have no need for true booleans.

# AUTHOR

[Gasper Software Consulting](http://gaspersoftware.com) (FELIPE)

# LICENSE

This code is licensed under the same license as Perl itself.

# SEE ALSO

[CBOR::PP](https://metacpan.org/pod/CBOR::PP) is a pure-Perl CBOR library.

[CBOR::XS](https://metacpan.org/pod/CBOR::XS) is an older CBOR module on CPAN. It’s got more bells and
whistles, so check it out if CBOR::Free lacks a feature you’d like.
Note that [its maintainer has abandoned support for Perl versions from 5.22
onward](http://blog.schmorp.de/2015-06-06-stableperl-faq.html), though,
and its GPL license limits its usefulness in
commercial [perlcc](https://metacpan.org/pod/distribution/B-C/script/perlcc.PL)
applications.