Internet-Draft | D-CBOR | August 2023 |
Rundgren | Expires 17 February 2024 | [Page] |
This document describes a deterministic encoding scheme for CBOR intended for usage in high-end computing platforms like mobile phones, Web browsers, and Web servers. In addition to enhancing interoperability, deterministic encoding also enables performing cryptographic operations like signing "raw" CBOR data items, something which otherwise would require wrapping such data in byte strings, or introduce dependencies on non-standard canonicalization procedures.¶
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This specification introduces a deterministic encoding scheme for data expressed in the CBOR [RFC8949] format. This scheme is subsequently referred to as D‑CBOR.¶
Note that this document is not on the IETF standards track. However, a conformant implementation is supposed to adhere to the specified behavior for security and interoperability reasons.¶
[RFC8949] supports a number of deterministic encoding options. Some of these options are not necessarily interoperable, like Rule 1‑3 in Section 4.2.2. This could in turn hamper large scale rollout of applications depending on deterministically encoded CBOR.¶
The main objective of D‑CBOR is providing an interoperable CBOR profile, primarily targeting high-end computing platforms like mobile phones, Web browsers, and Web servers. In addition, due to the underpinning deterministic encoding scheme, D‑CBOR also enables performing cryptographic operations like signatures over "raw" (unwrapped) CBOR data items since signatures depend on a unified representation of the data to be signed. Furthermore, building on the same foundation, D‑CBOR also permits decoded CBOR data to be subjected to simple and secure transformation and reencoding operations.¶
The deterministic encoding scheme described in this document is characterized by being bidirectional also when CBOR is provided in diagnostic notation (Section 8 of [RFC8949]), making D‑CBOR comparatively easy to understand, debug, and implement.¶
Although this document specifies a deterministic encoding scheme, the intent is that the encoding scheme should be equally useful for applications that do not depend on this particular feature.¶
In spite of the enhanced functionality, this specification retains full compatibility with [RFC8949].¶
See also [I-D.mcnally-deterministic-cbor] which represents an alternative approach to deterministic encoding.¶
The key words "MUST", "MUST NOT", "REQUIRED", "SHALL", "SHALL NOT", "SHOULD", "SHOULD NOT", "RECOMMENDED", "NOT RECOMMENDED", "MAY", and "OPTIONAL" in this document are to be interpreted as described in BCP 14 [RFC2119] [RFC8174] when, and only when, they appear in all capitals, as shown here.¶
The deterministic encoding scheme used by D‑CBOR builds on Section 4.2 of [RFC8949].¶
The following sections contain some additional clarifications and explicit choices, in order to facilitate an interoperable encoding scheme.¶
Occurrences of unknown or malformed CBOR data items MUST be rejected.¶
Map keys MUST only be compared and sorted based on their bytewise lexicographic order of their deterministic encoding.¶
For applications that depend on deterministic reencoding of CBOR data items,
compliant decoder implementations MUST be able to recreate such data
in its original form. This means for example that the string component
of date items (tag 0
) MUST be preserved "as is" in order
to maintain consistency.¶
The optional numerical extensions described in Section 3.4.4 of [RFC8949] MUST be treated as distinct data items as well as not be subjected to any transformations at the encoding level.¶
A compliant D‑CBOR implementation SHOULD as a minimum support the following CBOR data items:¶
Data Item | Encoding |
---|---|
integer
|
Major type 0 and 1
|
bignum
|
0xc2 and 0xc3
|
floating point
|
0xf9 , 0xfa and 0xfb
|
byte string
|
Major type 2
|
text string
|
Major type 3
|
false
|
0xf4
|
true
|
0xf5
|
null
|
0xf6
|
array
|
Major type 4
|
map
|
Major type 5
|
tag
|
Major type 6
|
See also Appendix A.¶
To achieve a fixed and bidirectional representation of numbers, Rule 2 in Section 4.2.2 of [RFC8949] MUST be adhered to.¶
The following sub sections hold examples of numeric values expressed in diagnostic notation (Section 8 of [RFC8949]) and their D‑CBOR encoded counterpart (expressed in hexadecimal).¶
Note that the values and encodings are supposed to work in both directions.¶
The following table holds a set of integers highlighting the
selection between integer
and bignum
data items.¶
Value | Encoding |
---|---|
0
|
00
|
-1
|
20
|
23
|
17
|
24
|
1818
|
-24
|
37
|
-25
|
3818
|
255
|
18ff
|
256
|
190100
|
-256
|
38ff
|
-257
|
390100
|
65535
|
19ffff
|
65536
|
1a00010000
|
1099511627775
|
1b000000ffffffffff
|
18446744073709551615
|
1bffffffffffffffff
|
18446744073709551616
|
c249010000000000000000
|
-18446744073709551616
|
3bffffffffffffffff
|
-18446744073709551617
|
c349010000000000000000
|
The following table holds the set of dedicated IEEE 754
[IEEE754] values.
Note that NaN
"signaling" MUST be flagged as an error.¶
Value | Encoding |
---|---|
0.0
|
f90000
|
-0.0
|
f98000
|
Infinity
|
f97c00
|
-Infinity
|
f9fc00
|
NaN
|
f97e00
|
The following table holds a set of "ordinary" IEEE 754 [IEEE754] values including some edge cases. Note that subnormal floating point values MUST be supported.¶
Value | Encoding |
---|---|
-5.960464477539062e-8
|
fbbe6fffffffffffff
|
-5.9604644775390625e-8
|
f98001
|
-5.960464477539064e-8
|
fbbe70000000000001
|
-5.960465188081798e-8
|
fab3800001
|
0.00006097555160522461
|
f903ff
|
65504.0
|
f97bff
|
65504.00390625
|
fa477fe001
|
65536.0
|
fa47800000
|
10.559998512268066
|
fa4128f5c1
|
10.559998512268068
|
fb40251eb820000001
|
3.4028234663852886e+38
|
fa7f7fffff
|
3.402823466385289e+38
|
fb47efffffe0000001
|
1.401298464324817e-45
|
fa00000001
|
1.1754942106924411e-38
|
fa007fffff
|
5.0e-324
|
fb0000000000000001
|
-1.7976931348623157e+308
|
fbffefffffffffffff
|
This document has no IANA actions.¶
This specification inherits all the security considerations of CBOR [RFC8949].¶
Applications that exploit the uniqueness of deterministic encoding should verify that the used decoder actually flags incorrectly formatted CBOR data items.¶
This section is informative.¶
Note that even if an application does not support (or need)
bignum
or floating point
data items,
you can still use D-CBOR since a strict subset is upwardly
compatible with full-blown implementations.
Low-end platforms typically also restrict CBOR map
keys to
integer
and text string
data items.
Since these issues are application specific, they are out of scope
for this specification.¶
This section is informative.¶
Reference implementations that conform to this specification include:¶
This section is informative.¶
The following online tools enable testing D‑CBOR without installing any software:¶
[[ This section to be removed by the RFC Editor before publication as an RFC ]]¶
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