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Cargo Crate Docs License

secrets is a library to help Rust programmers safely held cryptographic secrets in memory.

It is mostly an ergonomic wrapper around the memory-protection utilities provided by libsodium.

Fixed-size buffers allocated on the stack gain the following protections:

Fixed and variable-sized buffers can be allocated on the heap and gain the following protections:

Panic Safety

This library is explicitly not panic-safe. To ensure the safety of protected memory space, this library can and will panic if it is unable to enforce its advertised guarantees.

Similarly, this library will cause segmentation faults if (and only if) it detects certain safety violations. For example, this can happen if a process attempts to directly read or write to the contents of memory that hasn't been properly unlocked, or if canaries have been overwritten. This library has been written to ensure that such violations should be impossible to cause through well-formed Rust, and so should only occur as a result of a security vulnerability.

Examples

Example: generating cryptographic keys

Secret::<[u8; 16]>::random(|s| {
    // use `s` as if it were a `&mut [u8; 16]`
    //
    // the memory is `mlock(2)`ed and will be zeroed when this closure
    // exits
});

Example: load a master key from disk and generate subkeys from it

use std::fs::File;
use std::io::Read;

use libsodium_sys as sodium;
use secrets::SecretBox;

const KEY_LEN : usize = sodium::crypto_kdf_KEYBYTES     as _;
const CTX_LEN : usize = sodium::crypto_kdf_CONTEXTBYTES as _;

const CONTEXT : &[u8; CTX_LEN] = b"example\0";

fn derive_subkey(
    key:       &[u8; KEY_LEN],
    context:   &[u8; CTX_LEN],
    subkey_id: u64,
    subkey:    &mut [u8],
) {
    unsafe {
        libsodium_sys::crypto_kdf_derive_from_key(
            subkey.as_mut_ptr(),
            subkey.len(),
            subkey_id,
            context.as_ptr().cast(),
            key.as_ptr()
        );
    }
}

let master_key = SecretBox::<[u8; KEY_LEN]>::try_new(|mut s| {
    File::open("example/master_key/key")?.read_exact(s)
})?;

let subkey_0 = SecretBox::<[u8; 16]>::new(|mut s| {
    derive_subkey(&master_key.borrow(), CONTEXT, 0, s);
});

let subkey_1 = SecretBox::<[u8; 16]>::new(|mut s| {
    derive_subkey(&master_key.borrow(), CONTEXT, 1, s);
});

assert_ne!(
    subkey_0.borrow(),
    subkey_1.borrow(),
);

Example: securely storing a decrypted ciphertext in memory

use std::fs::File;
use std::io::Read;

use libsodium_sys as sodium;
use secrets::{SecretBox, SecretVec};

const KEY_LEN   : usize = sodium::crypto_secretbox_KEYBYTES   as _;
const NONCE_LEN : usize = sodium::crypto_secretbox_NONCEBYTES as _;
const MAC_LEN   : usize = sodium::crypto_secretbox_MACBYTES   as _;

let mut key        = SecretBox::<[u8; KEY_LEN]>::zero();
let mut nonce      = [0; NONCE_LEN];
let mut ciphertext = Vec::new();

File::open("example/decrypted_ciphertext/key")?
    .read_exact(key.borrow_mut().as_mut())?;

File::open("example/decrypted_ciphertext/nonce")?
    .read_exact(&mut nonce)?;

File::open("example/decrypted_ciphertext/ciphertext")?
    .read_to_end(&mut ciphertext)?;

let plaintext = SecretVec::<u8>::new(ciphertext.len() - MAC_LEN, |mut s| {
    if -1 == unsafe {
        sodium::crypto_secretbox_open_easy(
            s.as_mut_ptr(),
            ciphertext.as_ptr(),
            ciphertext.len() as _,
            nonce.as_ptr(),
            key.borrow().as_ptr(),
        )
    } {
        panic!("failed to authenticate ciphertext during decryption");
    }
});

assert_eq!(
    *b"attack at dawn",
    *plaintext.borrow(),
);

License

Licensed under either of

at your option.

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