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595 lines
17 KiB
Rust
595 lines
17 KiB
Rust
// Copyright 2018-2024 the Deno authors. All rights reserved. MIT license.
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use aes::cipher::block_padding::Pkcs7;
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use aes::cipher::BlockDecryptMut;
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use aes::cipher::BlockEncryptMut;
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use aes::cipher::KeyIvInit;
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use deno_core::Resource;
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use digest::generic_array::GenericArray;
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use digest::KeyInit;
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use std::borrow::Cow;
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use std::cell::RefCell;
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use std::rc::Rc;
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type Tag = Option<Vec<u8>>;
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type Aes128Gcm = aead_gcm_stream::AesGcm<aes::Aes128>;
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type Aes256Gcm = aead_gcm_stream::AesGcm<aes::Aes256>;
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enum Cipher {
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Aes128Cbc(Box<cbc::Encryptor<aes::Aes128>>),
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Aes128Ecb(Box<ecb::Encryptor<aes::Aes128>>),
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Aes192Ecb(Box<ecb::Encryptor<aes::Aes192>>),
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Aes256Ecb(Box<ecb::Encryptor<aes::Aes256>>),
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Aes128Gcm(Box<Aes128Gcm>),
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Aes256Gcm(Box<Aes256Gcm>),
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Aes256Cbc(Box<cbc::Encryptor<aes::Aes256>>),
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// TODO(kt3k): add more algorithms Aes192Cbc, etc.
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}
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enum Decipher {
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Aes128Cbc(Box<cbc::Decryptor<aes::Aes128>>),
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Aes128Ecb(Box<ecb::Decryptor<aes::Aes128>>),
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Aes192Ecb(Box<ecb::Decryptor<aes::Aes192>>),
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Aes256Ecb(Box<ecb::Decryptor<aes::Aes256>>),
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Aes128Gcm(Box<Aes128Gcm>),
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Aes256Gcm(Box<Aes256Gcm>),
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Aes256Cbc(Box<cbc::Decryptor<aes::Aes256>>),
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// TODO(kt3k): add more algorithms Aes192Cbc, Aes128GCM, etc.
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}
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pub struct CipherContext {
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cipher: Rc<RefCell<Cipher>>,
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}
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pub struct DecipherContext {
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decipher: Rc<RefCell<Decipher>>,
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}
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#[derive(Debug, thiserror::Error)]
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pub enum CipherContextError {
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#[error("Cipher context is already in use")]
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ContextInUse,
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#[error("{0}")]
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Resource(deno_core::error::AnyError),
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#[error(transparent)]
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Cipher(#[from] CipherError),
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}
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impl CipherContext {
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pub fn new(
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algorithm: &str,
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key: &[u8],
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iv: &[u8],
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) -> Result<Self, CipherContextError> {
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Ok(Self {
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cipher: Rc::new(RefCell::new(Cipher::new(algorithm, key, iv)?)),
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})
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}
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pub fn set_aad(&self, aad: &[u8]) {
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self.cipher.borrow_mut().set_aad(aad);
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}
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pub fn encrypt(&self, input: &[u8], output: &mut [u8]) {
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self.cipher.borrow_mut().encrypt(input, output);
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}
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pub fn take_tag(self) -> Tag {
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Rc::try_unwrap(self.cipher).ok()?.into_inner().take_tag()
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}
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pub fn r#final(
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self,
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auto_pad: bool,
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input: &[u8],
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output: &mut [u8],
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) -> Result<Tag, CipherContextError> {
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Rc::try_unwrap(self.cipher)
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.map_err(|_| CipherContextError::ContextInUse)?
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.into_inner()
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.r#final(auto_pad, input, output)
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.map_err(Into::into)
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}
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}
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#[derive(Debug, thiserror::Error)]
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pub enum DecipherContextError {
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#[error("Decipher context is already in use")]
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ContextInUse,
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#[error("{0}")]
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Resource(deno_core::error::AnyError),
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#[error(transparent)]
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Decipher(#[from] DecipherError),
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}
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impl DecipherContext {
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pub fn new(
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algorithm: &str,
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key: &[u8],
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iv: &[u8],
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) -> Result<Self, DecipherContextError> {
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Ok(Self {
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decipher: Rc::new(RefCell::new(Decipher::new(algorithm, key, iv)?)),
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})
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}
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pub fn set_aad(&self, aad: &[u8]) {
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self.decipher.borrow_mut().set_aad(aad);
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}
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pub fn decrypt(&self, input: &[u8], output: &mut [u8]) {
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self.decipher.borrow_mut().decrypt(input, output);
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}
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pub fn r#final(
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self,
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auto_pad: bool,
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input: &[u8],
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output: &mut [u8],
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auth_tag: &[u8],
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) -> Result<(), DecipherContextError> {
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Rc::try_unwrap(self.decipher)
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.map_err(|_| DecipherContextError::ContextInUse)?
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.into_inner()
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.r#final(auto_pad, input, output, auth_tag)
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.map_err(Into::into)
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}
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}
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impl Resource for CipherContext {
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fn name(&self) -> Cow<str> {
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"cryptoCipher".into()
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}
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}
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impl Resource for DecipherContext {
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fn name(&self) -> Cow<str> {
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"cryptoDecipher".into()
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}
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}
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#[derive(Debug, thiserror::Error)]
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pub enum CipherError {
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#[error("IV length must be 12 bytes")]
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InvalidIvLength,
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#[error("Invalid key length")]
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InvalidKeyLength,
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#[error("Invalid initialization vector")]
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InvalidInitializationVector,
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#[error("Cannot pad the input data")]
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CannotPadInputData,
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#[error("Unknown cipher {0}")]
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UnknownCipher(String),
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}
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impl Cipher {
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fn new(
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algorithm_name: &str,
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key: &[u8],
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iv: &[u8],
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) -> Result<Self, CipherError> {
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use Cipher::*;
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Ok(match algorithm_name {
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"aes-128-cbc" => {
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Aes128Cbc(Box::new(cbc::Encryptor::new(key.into(), iv.into())))
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}
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"aes-128-ecb" => Aes128Ecb(Box::new(ecb::Encryptor::new(key.into()))),
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"aes-192-ecb" => Aes192Ecb(Box::new(ecb::Encryptor::new(key.into()))),
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"aes-256-ecb" => Aes256Ecb(Box::new(ecb::Encryptor::new(key.into()))),
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"aes-128-gcm" => {
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if iv.len() != 12 {
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return Err(CipherError::InvalidIvLength);
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}
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let cipher =
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aead_gcm_stream::AesGcm::<aes::Aes128>::new(key.into(), iv);
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Aes128Gcm(Box::new(cipher))
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}
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"aes-256-gcm" => {
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if iv.len() != 12 {
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return Err(CipherError::InvalidIvLength);
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}
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let cipher =
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aead_gcm_stream::AesGcm::<aes::Aes256>::new(key.into(), iv);
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Aes256Gcm(Box::new(cipher))
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}
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"aes256" | "aes-256-cbc" => {
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if key.len() != 32 {
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return Err(CipherError::InvalidKeyLength);
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}
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if iv.len() != 16 {
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return Err(CipherError::InvalidInitializationVector);
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}
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Aes256Cbc(Box::new(cbc::Encryptor::new(key.into(), iv.into())))
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}
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_ => return Err(CipherError::UnknownCipher(algorithm_name.to_string())),
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})
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}
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fn set_aad(&mut self, aad: &[u8]) {
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use Cipher::*;
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match self {
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Aes128Gcm(cipher) => {
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cipher.set_aad(aad);
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}
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Aes256Gcm(cipher) => {
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cipher.set_aad(aad);
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}
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_ => {}
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}
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}
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/// encrypt encrypts the data in the middle of the input.
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fn encrypt(&mut self, input: &[u8], output: &mut [u8]) {
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use Cipher::*;
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match self {
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Aes128Cbc(encryptor) => {
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assert!(input.len() % 16 == 0);
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for (input, output) in input.chunks(16).zip(output.chunks_mut(16)) {
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encryptor.encrypt_block_b2b_mut(input.into(), output.into());
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}
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}
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Aes128Ecb(encryptor) => {
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assert!(input.len() % 16 == 0);
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for (input, output) in input.chunks(16).zip(output.chunks_mut(16)) {
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encryptor.encrypt_block_b2b_mut(input.into(), output.into());
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}
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}
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Aes192Ecb(encryptor) => {
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assert!(input.len() % 16 == 0);
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for (input, output) in input.chunks(16).zip(output.chunks_mut(16)) {
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encryptor.encrypt_block_b2b_mut(input.into(), output.into());
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}
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}
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Aes256Ecb(encryptor) => {
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assert!(input.len() % 16 == 0);
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for (input, output) in input.chunks(16).zip(output.chunks_mut(16)) {
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encryptor.encrypt_block_b2b_mut(input.into(), output.into());
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}
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}
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Aes128Gcm(cipher) => {
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output[..input.len()].copy_from_slice(input);
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cipher.encrypt(output);
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}
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Aes256Gcm(cipher) => {
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output[..input.len()].copy_from_slice(input);
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cipher.encrypt(output);
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}
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Aes256Cbc(encryptor) => {
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assert!(input.len() % 16 == 0);
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for (input, output) in input.chunks(16).zip(output.chunks_mut(16)) {
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encryptor.encrypt_block_b2b_mut(input.into(), output.into());
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}
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}
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}
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}
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/// r#final encrypts the last block of the input data.
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fn r#final(
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self,
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auto_pad: bool,
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input: &[u8],
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output: &mut [u8],
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) -> Result<Tag, CipherError> {
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assert!(input.len() < 16);
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use Cipher::*;
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match (self, auto_pad) {
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(Aes128Cbc(encryptor), true) => {
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let _ = (*encryptor)
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.encrypt_padded_b2b_mut::<Pkcs7>(input, output)
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.map_err(|_| CipherError::CannotPadInputData)?;
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Ok(None)
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}
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(Aes128Cbc(mut encryptor), false) => {
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encryptor.encrypt_block_b2b_mut(
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GenericArray::from_slice(input),
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GenericArray::from_mut_slice(output),
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);
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Ok(None)
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}
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(Aes128Ecb(encryptor), true) => {
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let _ = (*encryptor)
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.encrypt_padded_b2b_mut::<Pkcs7>(input, output)
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.map_err(|_| CipherError::CannotPadInputData)?;
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Ok(None)
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}
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(Aes128Ecb(mut encryptor), false) => {
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encryptor.encrypt_block_b2b_mut(
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GenericArray::from_slice(input),
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GenericArray::from_mut_slice(output),
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);
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Ok(None)
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}
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(Aes192Ecb(encryptor), true) => {
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let _ = (*encryptor)
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.encrypt_padded_b2b_mut::<Pkcs7>(input, output)
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.map_err(|_| CipherError::CannotPadInputData)?;
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Ok(None)
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}
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(Aes192Ecb(mut encryptor), false) => {
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encryptor.encrypt_block_b2b_mut(
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GenericArray::from_slice(input),
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GenericArray::from_mut_slice(output),
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);
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Ok(None)
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}
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(Aes256Ecb(encryptor), true) => {
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let _ = (*encryptor)
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.encrypt_padded_b2b_mut::<Pkcs7>(input, output)
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.map_err(|_| CipherError::CannotPadInputData)?;
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Ok(None)
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}
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(Aes256Ecb(mut encryptor), false) => {
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encryptor.encrypt_block_b2b_mut(
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GenericArray::from_slice(input),
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GenericArray::from_mut_slice(output),
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);
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Ok(None)
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}
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(Aes128Gcm(cipher), _) => Ok(Some(cipher.finish().to_vec())),
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(Aes256Gcm(cipher), _) => Ok(Some(cipher.finish().to_vec())),
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(Aes256Cbc(encryptor), true) => {
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let _ = (*encryptor)
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.encrypt_padded_b2b_mut::<Pkcs7>(input, output)
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.map_err(|_| CipherError::CannotPadInputData)?;
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Ok(None)
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}
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(Aes256Cbc(mut encryptor), false) => {
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encryptor.encrypt_block_b2b_mut(
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GenericArray::from_slice(input),
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GenericArray::from_mut_slice(output),
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);
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Ok(None)
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}
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}
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}
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fn take_tag(self) -> Tag {
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use Cipher::*;
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match self {
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Aes128Gcm(cipher) => Some(cipher.finish().to_vec()),
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Aes256Gcm(cipher) => Some(cipher.finish().to_vec()),
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_ => None,
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}
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}
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}
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#[derive(Debug, thiserror::Error)]
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pub enum DecipherError {
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#[error("IV length must be 12 bytes")]
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InvalidIvLength,
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#[error("Invalid key length")]
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InvalidKeyLength,
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#[error("Invalid initialization vector")]
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InvalidInitializationVector,
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#[error("Cannot unpad the input data")]
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CannotUnpadInputData,
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#[error("Failed to authenticate data")]
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DataAuthenticationFailed,
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#[error("setAutoPadding(false) not supported for Aes128Gcm yet")]
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SetAutoPaddingFalseAes128GcmUnsupported,
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#[error("setAutoPadding(false) not supported for Aes256Gcm yet")]
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SetAutoPaddingFalseAes256GcmUnsupported,
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#[error("Unknown cipher {0}")]
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UnknownCipher(String),
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}
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impl Decipher {
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fn new(
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algorithm_name: &str,
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key: &[u8],
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iv: &[u8],
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) -> Result<Self, DecipherError> {
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use Decipher::*;
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Ok(match algorithm_name {
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"aes-128-cbc" => {
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Aes128Cbc(Box::new(cbc::Decryptor::new(key.into(), iv.into())))
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}
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"aes-128-ecb" => Aes128Ecb(Box::new(ecb::Decryptor::new(key.into()))),
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"aes-192-ecb" => Aes192Ecb(Box::new(ecb::Decryptor::new(key.into()))),
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"aes-256-ecb" => Aes256Ecb(Box::new(ecb::Decryptor::new(key.into()))),
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"aes-128-gcm" => {
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if iv.len() != 12 {
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return Err(DecipherError::InvalidIvLength);
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}
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let decipher =
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aead_gcm_stream::AesGcm::<aes::Aes128>::new(key.into(), iv);
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Aes128Gcm(Box::new(decipher))
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}
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"aes-256-gcm" => {
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if iv.len() != 12 {
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return Err(DecipherError::InvalidIvLength);
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}
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let decipher =
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aead_gcm_stream::AesGcm::<aes::Aes256>::new(key.into(), iv);
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Aes256Gcm(Box::new(decipher))
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}
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"aes256" | "aes-256-cbc" => {
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if key.len() != 32 {
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return Err(DecipherError::InvalidKeyLength);
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}
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if iv.len() != 16 {
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return Err(DecipherError::InvalidInitializationVector);
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}
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Aes256Cbc(Box::new(cbc::Decryptor::new(key.into(), iv.into())))
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}
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_ => {
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return Err(DecipherError::UnknownCipher(algorithm_name.to_string()))
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}
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})
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}
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fn set_aad(&mut self, aad: &[u8]) {
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use Decipher::*;
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match self {
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Aes128Gcm(decipher) => {
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decipher.set_aad(aad);
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}
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Aes256Gcm(decipher) => {
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decipher.set_aad(aad);
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}
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_ => {}
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}
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}
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/// decrypt decrypts the data in the middle of the input.
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fn decrypt(&mut self, input: &[u8], output: &mut [u8]) {
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use Decipher::*;
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match self {
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Aes128Cbc(decryptor) => {
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assert!(input.len() % 16 == 0);
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for (input, output) in input.chunks(16).zip(output.chunks_mut(16)) {
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decryptor.decrypt_block_b2b_mut(input.into(), output.into());
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}
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}
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Aes128Ecb(decryptor) => {
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assert!(input.len() % 16 == 0);
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for (input, output) in input.chunks(16).zip(output.chunks_mut(16)) {
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decryptor.decrypt_block_b2b_mut(input.into(), output.into());
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}
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}
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Aes192Ecb(decryptor) => {
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assert!(input.len() % 16 == 0);
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for (input, output) in input.chunks(16).zip(output.chunks_mut(16)) {
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decryptor.decrypt_block_b2b_mut(input.into(), output.into());
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}
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}
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Aes256Ecb(decryptor) => {
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assert!(input.len() % 16 == 0);
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for (input, output) in input.chunks(16).zip(output.chunks_mut(16)) {
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decryptor.decrypt_block_b2b_mut(input.into(), output.into());
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}
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}
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Aes128Gcm(decipher) => {
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output[..input.len()].copy_from_slice(input);
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decipher.decrypt(output);
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}
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Aes256Gcm(decipher) => {
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output[..input.len()].copy_from_slice(input);
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decipher.decrypt(output);
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}
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Aes256Cbc(decryptor) => {
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assert!(input.len() % 16 == 0);
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for (input, output) in input.chunks(16).zip(output.chunks_mut(16)) {
|
|
decryptor.decrypt_block_b2b_mut(input.into(), output.into());
|
|
}
|
|
}
|
|
}
|
|
}
|
|
|
|
/// r#final decrypts the last block of the input data.
|
|
fn r#final(
|
|
self,
|
|
auto_pad: bool,
|
|
input: &[u8],
|
|
output: &mut [u8],
|
|
auth_tag: &[u8],
|
|
) -> Result<(), DecipherError> {
|
|
use Decipher::*;
|
|
match (self, auto_pad) {
|
|
(Aes128Cbc(decryptor), true) => {
|
|
assert!(input.len() == 16);
|
|
let _ = (*decryptor)
|
|
.decrypt_padded_b2b_mut::<Pkcs7>(input, output)
|
|
.map_err(|_| DecipherError::CannotUnpadInputData)?;
|
|
Ok(())
|
|
}
|
|
(Aes128Cbc(mut decryptor), false) => {
|
|
decryptor.decrypt_block_b2b_mut(
|
|
GenericArray::from_slice(input),
|
|
GenericArray::from_mut_slice(output),
|
|
);
|
|
Ok(())
|
|
}
|
|
(Aes128Ecb(decryptor), true) => {
|
|
assert!(input.len() == 16);
|
|
let _ = (*decryptor)
|
|
.decrypt_padded_b2b_mut::<Pkcs7>(input, output)
|
|
.map_err(|_| DecipherError::CannotUnpadInputData)?;
|
|
Ok(())
|
|
}
|
|
(Aes128Ecb(mut decryptor), false) => {
|
|
decryptor.decrypt_block_b2b_mut(
|
|
GenericArray::from_slice(input),
|
|
GenericArray::from_mut_slice(output),
|
|
);
|
|
Ok(())
|
|
}
|
|
(Aes192Ecb(decryptor), true) => {
|
|
assert!(input.len() == 16);
|
|
let _ = (*decryptor)
|
|
.decrypt_padded_b2b_mut::<Pkcs7>(input, output)
|
|
.map_err(|_| DecipherError::CannotUnpadInputData)?;
|
|
Ok(())
|
|
}
|
|
(Aes192Ecb(mut decryptor), false) => {
|
|
decryptor.decrypt_block_b2b_mut(
|
|
GenericArray::from_slice(input),
|
|
GenericArray::from_mut_slice(output),
|
|
);
|
|
Ok(())
|
|
}
|
|
(Aes256Ecb(decryptor), true) => {
|
|
assert!(input.len() == 16);
|
|
let _ = (*decryptor)
|
|
.decrypt_padded_b2b_mut::<Pkcs7>(input, output)
|
|
.map_err(|_| DecipherError::CannotUnpadInputData)?;
|
|
Ok(())
|
|
}
|
|
(Aes256Ecb(mut decryptor), false) => {
|
|
decryptor.decrypt_block_b2b_mut(
|
|
GenericArray::from_slice(input),
|
|
GenericArray::from_mut_slice(output),
|
|
);
|
|
Ok(())
|
|
}
|
|
(Aes128Gcm(decipher), true) => {
|
|
let tag = decipher.finish();
|
|
if tag.as_slice() == auth_tag {
|
|
Ok(())
|
|
} else {
|
|
Err(DecipherError::DataAuthenticationFailed)
|
|
}
|
|
}
|
|
(Aes128Gcm(_), false) => {
|
|
Err(DecipherError::SetAutoPaddingFalseAes128GcmUnsupported)
|
|
}
|
|
(Aes256Gcm(decipher), true) => {
|
|
let tag = decipher.finish();
|
|
if tag.as_slice() == auth_tag {
|
|
Ok(())
|
|
} else {
|
|
Err(DecipherError::DataAuthenticationFailed)
|
|
}
|
|
}
|
|
(Aes256Gcm(_), false) => {
|
|
Err(DecipherError::SetAutoPaddingFalseAes256GcmUnsupported)
|
|
}
|
|
(Aes256Cbc(decryptor), true) => {
|
|
assert!(input.len() == 16);
|
|
let _ = (*decryptor)
|
|
.decrypt_padded_b2b_mut::<Pkcs7>(input, output)
|
|
.map_err(|_| DecipherError::CannotUnpadInputData)?;
|
|
Ok(())
|
|
}
|
|
(Aes256Cbc(mut decryptor), false) => {
|
|
decryptor.decrypt_block_b2b_mut(
|
|
GenericArray::from_slice(input),
|
|
GenericArray::from_mut_slice(output),
|
|
);
|
|
Ok(())
|
|
}
|
|
}
|
|
}
|
|
}
|