Crate pem_rfc7468[−][src]
Expand description
Pure Rust implementation of PEM Encoding (RFC 7468) for PKIX, PKCS, and CMS Structures, a strict subset of the original Privacy-Enhanced Mail encoding intended specifically for use with cryptographic keys, certificates, and other messages.
Provides a no_std
-friendly, constant-time implementation suitable for use with
cryptographic private keys.
About
Many cryptography-related document formats, such as certificates (PKIX), private and public keys/keypairs (PKCS), and other cryptographic messages (CMS) provide an ASCII encoding which can be traced back to Privacy-Enhanced Mail (PEM) as defined in RFC 1421, which look like the following:
-----BEGIN PRIVATE KEY-----
MC4CAQAwBQYDK2VwBCIEIBftnHPp22SewYmmEoMcX8VwI4IHwaqd+9LFPj/15eqF
-----END PRIVATE KEY-----
However, all of these formats actually implement a text-based encoding that is similar to, but not identical with, the legacy PEM encoding as described in RFC 1421.
For this reason, RFC 7468 was created to describe a stricter form of “PEM encoding” for use in these applications which codifies the previously de facto rules that most implementations operate by, and makes recommendations to promote interoperability.
This crate attempts to implement a strict interpretation of the RFC 7468 rules, implementing all of the MUSTs and SHOULDs while avoiding the MAYs, and targeting the “ABNF (Strict)” subset of the grammar as described in RFC 7468 Section 3 Figure 3 (p6).
Implementation notes
- Core PEM implementation is
no_std
-friendly and requires no heap allocations. - Avoids use of copies and temporary buffers.
- Uses the
base64ct
crate to decode/encode Base64 in constant-time. - PEM parser avoids branching on potentially secret data as much as possible. In the happy path, only 1-byte of secret data is potentially branched upon.
The paper Util::Lookup: Exploiting key decoding in cryptographic libraries demonstrates how the leakage from non-constant-time PEM parsers can be used to practically extract RSA private keys from SGX enclaves.
Minimum Supported Rust Version
This crate requires Rust 1.51 at a minimum.
Usage
/// Example PEM document
/// NOTE: do not actually put private key literals into your source code!!!
let example_pem = "\
-----BEGIN PRIVATE KEY-----
MC4CAQAwBQYDK2VwBCIEIBftnHPp22SewYmmEoMcX8VwI4IHwaqd+9LFPj/15eqF
-----END PRIVATE KEY-----
";
// Decode PEM
let (type_label, data) = pem_rfc7468::decode_vec(example_pem.as_bytes())?;
assert_eq!(type_label, "PRIVATE KEY");
assert_eq!(
data,
&[
48, 46, 2, 1, 0, 48, 5, 6, 3, 43, 101, 112, 4, 34, 4, 32, 23, 237, 156, 115, 233, 219,
100, 158, 193, 137, 166, 18, 131, 28, 95, 197, 112, 35, 130, 7, 193, 170, 157, 251,
210, 197, 62, 63, 245, 229, 234, 133
]
);
// Encode PEM
use pem_rfc7468::LineEnding;
let encoded_pem = pem_rfc7468::encode_string(type_label, LineEnding::default(), &data)?;
assert_eq!(&encoded_pem, example_pem);
Enums
Error type.
Line endings.
Traits
Marker trait for types with an associated PEM type label.
Functions
Decode a PEM document according to RFC 7468’s “Strict” grammar.
Decode the encapsulation boundaries of a PEM document according to RFC 7468’s “Strict” grammar.
alloc
Decode a PEM document according to RFC 7468’s “Strict” grammar, returning
the result as a Vec
upon success.
Encode a PEM document according to RFC 7468’s “Strict” grammar.
alloc
Encode a PEM document according to RFC 7468’s “Strict” grammar, returning
the result as a String
.
Get the length of a PEM encoded document with the given bytes and label.
Type Definitions
Result type.