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RustCrypto: AES-GCM

crate Docs Apache2/MIT licensed Rust Version Project Chat Build Status

Pure Rust implementation of the AES-GCM Authenticated Encryption with Associated Data (AEAD) cipher.


Security Notes

This crate has received one security audit by NCC Group, with no significant findings. We would like to thank MobileCoin for funding the audit.

All implementations contained in the crate are designed to execute in constant time, either by relying on hardware intrinsics (i.e. AES-NI and CLMUL on x86/x86_64), or using a portable implementation which is only constant time on processors which implement constant-time multiplication.

It is not suitable for use on processors with a variable-time multiplication operation (e.g. short circuit on multiply-by-zero / multiply-by-one, such as certain 32-bit PowerPC CPUs and some non-ARM microcontrollers).


Licensed under either of:

at your option.


Unless you explicitly state otherwise, any contribution intentionally submitted for inclusion in the work by you, as defined in the Apache-2.0 license, shall be dual licensed as above, without any additional terms or conditions.


Simple usage (allocating, no associated data):

use aes_gcm::{
    aead::{Aead, KeyInit, OsRng},
    Aes256Gcm, Nonce // Or `Aes128Gcm`

let key = Aes256Gcm::generate_key(&mut OsRng);
let cipher = Aes256Gcm::new(&key);
let nonce = Nonce::from_slice(b"unique nonce"); // 96-bits; unique per message
let ciphertext = cipher.encrypt(nonce, b"plaintext message".as_ref())?;
let plaintext = cipher.decrypt(nonce, ciphertext.as_ref())?;
assert_eq!(&plaintext, b"plaintext message");

In-place Usage (eliminates alloc requirement)

This crate has an optional alloc feature which can be disabled in e.g. microcontroller environments that don’t have a heap.

The AeadInPlace::encrypt_in_place and AeadInPlace::decrypt_in_place methods accept any type that impls the aead::Buffer trait which contains the plaintext for encryption or ciphertext for decryption.

Note that if you enable the heapless feature of this crate, you will receive an impl of aead::Buffer for heapless::Vec (re-exported from the aead crate as [aead::heapless::Vec]), which can then be passed as the buffer parameter to the in-place encrypt and decrypt methods:

use aes_gcm::{
    aead::{AeadInPlace, KeyInit, OsRng, heapless::Vec},
    Aes256Gcm, Nonce, // Or `Aes128Gcm`

let key = Aes256Gcm::generate_key(&mut OsRng);
let cipher = Aes256Gcm::new(&key);
let nonce = Nonce::from_slice(b"unique nonce"); // 96-bits; unique per message

let mut buffer: Vec<u8, 128> = Vec::new(); // Note: buffer needs 16-bytes overhead for auth tag tag
buffer.extend_from_slice(b"plaintext message");

// Encrypt `buffer` in-place, replacing the plaintext contents with ciphertext
cipher.encrypt_in_place(nonce, b"", &mut buffer)?;

// `buffer` now contains the message ciphertext
assert_ne!(&buffer, b"plaintext message");

// Decrypt `buffer` in-place, replacing its ciphertext context with the original plaintext
cipher.decrypt_in_place(nonce, b"", &mut buffer)?;
assert_eq!(&buffer, b"plaintext message");


pub use aead;
pub use aes;


AES-GCM: generic over an underlying AES implementation and nonce size.

Error type.


Maximum length of associated data.

Maximum length of ciphertext.

Maximum length of plaintext.


Authenticated Encryption with Associated Data (AEAD) algorithm core trait.

In-place stateless AEAD trait.

Types which can be initialized from key.

Types which use key for initialization.

Type Definitions

AES-GCM with a 128-bit key and 96-bit nonce.

AES-GCM with a 256-bit key and 96-bit nonce.

Key used by KeySizeUser implementors.

AES-GCM nonces.

AES-GCM tags.