Struct rsa::Oaep

source · 
pub struct Oaep {
    pub digest: Box<dyn DynDigest + Send + Sync>,
    pub mgf_digest: Box<dyn DynDigest + Send + Sync>,
    pub label: Option<String>,
}
Expand description

Encryption and Decryption using OAEP padding.

  • digest is used to hash the label. The maximum possible plaintext length is m = k - 2 * h_len - 2, where k is the size of the RSA modulus.
  • mgf_digest specifies the hash function that is used in the MGF1.
  • label is optional data that can be associated with the message.

The two hash functions can, but don’t need to be the same.

A prominent example is the AndroidKeyStore. It uses SHA-1 for mgf_digest and a user-chosen SHA flavour for digest.

Fields§

§digest: Box<dyn DynDigest + Send + Sync>

Digest type to use.

§mgf_digest: Box<dyn DynDigest + Send + Sync>

Digest to use for Mask Generation Function (MGF).

§label: Option<String>

Optional label.

Implementations§

Create a new OAEP PaddingScheme, using T as the hash function for both the default (empty) label and for MGF1.

Example
use sha1::Sha1;
use sha2::Sha256;
use rsa::{BigUint, RsaPublicKey, Oaep, PublicKey};
use base64ct::{Base64, Encoding};

let n = Base64::decode_vec("ALHgDoZmBQIx+jTmgeeHW6KsPOrj11f6CvWsiRleJlQpW77AwSZhd21ZDmlTKfaIHBSUxRUsuYNh7E2SHx8rkFVCQA2/gXkZ5GK2IUbzSTio9qXA25MWHvVxjMfKSL8ZAxZyKbrG94FLLszFAFOaiLLY8ECs7g+dXOriYtBwLUJK+lppbd+El+8ZA/zH0bk7vbqph5pIoiWggxwdq3mEz4LnrUln7r6dagSQzYErKewY8GADVpXcq5mfHC1xF2DFBub7bFjMVM5fHq7RK+pG5xjNDiYITbhLYrbVv3X0z75OvN0dY49ITWjM7xyvMWJXVJS7sJlgmCCL6RwWgP8PhcE=").unwrap();
let e = Base64::decode_vec("AQAB").unwrap();

let mut rng = rand::thread_rng();
let key = RsaPublicKey::new(BigUint::from_bytes_be(&n), BigUint::from_bytes_be(&e)).unwrap();
let padding = Oaep::new::<Sha256>();
let encrypted_data = key.encrypt(&mut rng, padding, b"secret").unwrap();

Create a new OAEP PaddingScheme with an associated label, using T as the hash function for both the label and for MGF1.

Create a new OAEP PaddingScheme, using T as the hash function for the default (empty) label, and U as the hash function for MGF1. If a label is needed use PaddingScheme::new_oaep_with_label or PaddingScheme::new_oaep_with_mgf_hash_with_label.

Example
use sha1::Sha1;
use sha2::Sha256;
use rsa::{BigUint, RsaPublicKey, Oaep, PublicKey};
use base64ct::{Base64, Encoding};

let n = Base64::decode_vec("ALHgDoZmBQIx+jTmgeeHW6KsPOrj11f6CvWsiRleJlQpW77AwSZhd21ZDmlTKfaIHBSUxRUsuYNh7E2SHx8rkFVCQA2/gXkZ5GK2IUbzSTio9qXA25MWHvVxjMfKSL8ZAxZyKbrG94FLLszFAFOaiLLY8ECs7g+dXOriYtBwLUJK+lppbd+El+8ZA/zH0bk7vbqph5pIoiWggxwdq3mEz4LnrUln7r6dagSQzYErKewY8GADVpXcq5mfHC1xF2DFBub7bFjMVM5fHq7RK+pG5xjNDiYITbhLYrbVv3X0z75OvN0dY49ITWjM7xyvMWJXVJS7sJlgmCCL6RwWgP8PhcE=").unwrap();
let e = Base64::decode_vec("AQAB").unwrap();

let mut rng = rand::thread_rng();
let key = RsaPublicKey::new(BigUint::from_bytes_be(&n), BigUint::from_bytes_be(&e)).unwrap();
let padding = Oaep::new_with_mgf_hash::<Sha256, Sha1>();
let encrypted_data = key.encrypt(&mut rng, padding, b"secret").unwrap();

Create a new OAEP PaddingScheme with an associated label, using T as the hash function for the label, and U as the hash function for MGF1.

Trait Implementations§

Formats the value using the given formatter. Read more
Decrypt the given message using the given private key. Read more
Encrypt the given message using the given public key.

Auto Trait Implementations§

Blanket Implementations§

Gets the TypeId of self. Read more
Immutably borrows from an owned value. Read more
Mutably borrows from an owned value. Read more

Returns the argument unchanged.

Calls U::from(self).

That is, this conversion is whatever the implementation of From<T> for U chooses to do.

Should always be Self
The type returned in the event of a conversion error.
Performs the conversion.
The type returned in the event of a conversion error.
Performs the conversion.