Module ring::hmac[][src]

Expand description

HMAC is specified in RFC 2104.

After a Key is constructed, it can be used for multiple signing or verification operations. Separating the construction of the key from the rest of the HMAC operation allows the per-key precomputation to be done only once, instead of it being done in every HMAC operation.

Frequently all the data to be signed in a message is available in a single contiguous piece. In that case, the module-level sign function can be used. Otherwise, if the input is in multiple parts, Context should be used.

Examples:

Signing a value and verifying it wasn’t tampered with

use ring::{hmac, rand};

let rng = rand::SystemRandom::new();
let key = hmac::Key::generate(hmac::HMAC_SHA256, &rng)?;

let msg = "hello, world";

let tag = hmac::sign(&key, msg.as_bytes());

// [We give access to the message to an untrusted party, and they give it
// back to us. We need to verify they didn't tamper with it.]

hmac::verify(&key, msg.as_bytes(), tag.as_ref())?;

Using the one-shot API:

use ring::{digest, hmac, rand};
use ring::rand::SecureRandom;

let msg = "hello, world";

// The sender generates a secure key value and signs the message with it.
// Note that in a real protocol, a key agreement protocol would be used to
// derive `key_value`.
let rng = rand::SystemRandom::new();
let key_value: [u8; digest::SHA256_OUTPUT_LEN] = rand::generate(&rng)?.expose();

let s_key = hmac::Key::new(hmac::HMAC_SHA256, key_value.as_ref());
let tag = hmac::sign(&s_key, msg.as_bytes());

// The receiver (somehow!) knows the key value, and uses it to verify the
// integrity of the message.
let v_key = hmac::Key::new(hmac::HMAC_SHA256, key_value.as_ref());
hmac::verify(&v_key, msg.as_bytes(), tag.as_ref())?;

Using the multi-part API:

use ring::{digest, hmac, rand};
use ring::rand::SecureRandom;

let parts = ["hello", ", ", "world"];

// The sender generates a secure key value and signs the message with it.
// Note that in a real protocol, a key agreement protocol would be used to
// derive `key_value`.
let rng = rand::SystemRandom::new();
let mut key_value: [u8; digest::SHA384_OUTPUT_LEN] = rand::generate(&rng)?.expose();

let s_key = hmac::Key::new(hmac::HMAC_SHA384, key_value.as_ref());
let mut s_ctx = hmac::Context::with_key(&s_key);
for part in &parts {
    s_ctx.update(part.as_bytes());
}
let tag = s_ctx.sign();

// The receiver (somehow!) knows the key value, and uses it to verify the
// integrity of the message.
let v_key = hmac::Key::new(hmac::HMAC_SHA384, key_value.as_ref());
let mut msg = Vec::<u8>::new();
for part in &parts {
    msg.extend(part.as_bytes());
}
hmac::verify(&v_key, &msg.as_ref(), tag.as_ref())?;

Structs

An HMAC algorithm.

A context for multi-step (Init-Update-Finish) HMAC signing.

A key to use for HMAC signing.

An HMAC tag.

Statics

HMAC using SHA-1. Obsolete.

HMAC using SHA-256.

HMAC using SHA-384.

HMAC using SHA-512.

Functions

Calculates the HMAC of data using the key key in one step.

Calculates the HMAC of data using the signing key key, and verifies whether the resultant value equals tag, in one step.

Type Definitions

SignatureDeprecated

A deprecated alias for Tag.

SigningContextDeprecated

hmac::SigningContext was renamed to hmac::Context.

SigningKeyDeprecated

hmac::SigningKey was renamed to hmac::Key.

VerificationKeyDeprecated

hmac::VerificationKey was merged into hmac::Key.