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9845361153
Partially supersedes #19016. This migrates `spawn` and `spawn_blocking` to `deno_core`, and removes the requirement for `spawn` tasks to be `Send` given our single-threaded executor. While we don't need to technically do anything w/`spawn_blocking`, this allows us to have a single `JoinHandle` type that works for both cases, and allows us to more easily experiment with alternative `spawn_blocking` implementations that do not require tokio (ie: rayon). Async ops (+~35%): Before: ``` time 1310 ms rate 763358 time 1267 ms rate 789265 time 1259 ms rate 794281 time 1266 ms rate 789889 ``` After: ``` time 956 ms rate 1046025 time 954 ms rate 1048218 time 924 ms rate 1082251 time 920 ms rate 1086956 ``` HTTP serve (+~4.4%): Before: ``` Running 10s test @ http://localhost:4500 2 threads and 10 connections Thread Stats Avg Stdev Max +/- Stdev Latency 68.78us 19.77us 1.43ms 86.84% Req/Sec 68.78k 5.00k 73.84k 91.58% 1381833 requests in 10.10s, 167.36MB read Requests/sec: 136823.29 Transfer/sec: 16.57MB ``` After: ``` Running 10s test @ http://localhost:4500 2 threads and 10 connections Thread Stats Avg Stdev Max +/- Stdev Latency 63.12us 17.43us 1.11ms 85.13% Req/Sec 71.82k 3.71k 77.02k 79.21% 1443195 requests in 10.10s, 174.79MB read Requests/sec: 142921.99 Transfer/sec: 17.31MB ``` Suggested-By: alice@ryhl.io Co-authored-by: Bartek Iwańczuk <biwanczuk@gmail.com>
311 lines
8.7 KiB
Rust
311 lines
8.7 KiB
Rust
// Copyright 2018-2023 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::BlockEncryptMut;
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use aes::cipher::KeyIvInit;
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use aes::cipher::StreamCipher;
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use aes_gcm::aead::generic_array::typenum::U12;
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use aes_gcm::aead::generic_array::typenum::U16;
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use aes_gcm::aead::generic_array::ArrayLength;
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use aes_gcm::aes::Aes128;
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use aes_gcm::aes::Aes192;
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use aes_gcm::aes::Aes256;
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use aes_gcm::AeadInPlace;
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use aes_gcm::KeyInit;
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use aes_gcm::Nonce;
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use ctr::Ctr128BE;
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use ctr::Ctr32BE;
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use ctr::Ctr64BE;
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use deno_core::error::type_error;
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use deno_core::error::AnyError;
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use deno_core::op;
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use deno_core::task::spawn_blocking;
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use deno_core::ZeroCopyBuf;
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use rand::rngs::OsRng;
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use rsa::pkcs1::DecodeRsaPublicKey;
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use rsa::PaddingScheme;
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use rsa::PublicKey;
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use serde::Deserialize;
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use sha1::Digest;
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use sha1::Sha1;
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use sha2::Sha256;
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use sha2::Sha384;
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use sha2::Sha512;
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use crate::shared::*;
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#[derive(Deserialize)]
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#[serde(rename_all = "camelCase")]
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pub struct EncryptOptions {
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key: RawKeyData,
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#[serde(flatten)]
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algorithm: EncryptAlgorithm,
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}
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#[derive(Deserialize)]
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#[serde(rename_all = "camelCase", tag = "algorithm")]
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pub enum EncryptAlgorithm {
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#[serde(rename = "RSA-OAEP")]
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RsaOaep {
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hash: ShaHash,
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#[serde(with = "serde_bytes")]
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label: Vec<u8>,
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},
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#[serde(rename = "AES-CBC", rename_all = "camelCase")]
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AesCbc {
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#[serde(with = "serde_bytes")]
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iv: Vec<u8>,
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length: usize,
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},
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#[serde(rename = "AES-GCM", rename_all = "camelCase")]
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AesGcm {
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#[serde(with = "serde_bytes")]
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iv: Vec<u8>,
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#[serde(with = "serde_bytes")]
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additional_data: Option<Vec<u8>>,
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length: usize,
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tag_length: usize,
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},
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#[serde(rename = "AES-CTR", rename_all = "camelCase")]
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AesCtr {
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#[serde(with = "serde_bytes")]
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counter: Vec<u8>,
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ctr_length: usize,
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key_length: usize,
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},
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}
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#[op]
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pub async fn op_crypto_encrypt(
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opts: EncryptOptions,
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data: ZeroCopyBuf,
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) -> Result<ZeroCopyBuf, AnyError> {
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let key = opts.key;
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let fun = move || match opts.algorithm {
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EncryptAlgorithm::RsaOaep { hash, label } => {
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encrypt_rsa_oaep(key, hash, label, &data)
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}
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EncryptAlgorithm::AesCbc { iv, length } => {
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encrypt_aes_cbc(key, length, iv, &data)
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}
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EncryptAlgorithm::AesGcm {
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iv,
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additional_data,
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length,
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tag_length,
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} => encrypt_aes_gcm(key, length, tag_length, iv, additional_data, &data),
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EncryptAlgorithm::AesCtr {
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counter,
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ctr_length,
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key_length,
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} => encrypt_aes_ctr(key, key_length, &counter, ctr_length, &data),
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};
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let buf = spawn_blocking(fun).await.unwrap()?;
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Ok(buf.into())
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}
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fn encrypt_rsa_oaep(
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key: RawKeyData,
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hash: ShaHash,
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label: Vec<u8>,
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data: &[u8],
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) -> Result<Vec<u8>, AnyError> {
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let label = String::from_utf8_lossy(&label).to_string();
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let public_key = key.as_rsa_public_key()?;
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let public_key = rsa::RsaPublicKey::from_pkcs1_der(&public_key)
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.map_err(|_| operation_error("failed to decode public key"))?;
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let mut rng = OsRng;
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let padding = match hash {
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ShaHash::Sha1 => PaddingScheme::OAEP {
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digest: Box::new(Sha1::new()),
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mgf_digest: Box::new(Sha1::new()),
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label: Some(label),
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},
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ShaHash::Sha256 => PaddingScheme::OAEP {
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digest: Box::new(Sha256::new()),
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mgf_digest: Box::new(Sha256::new()),
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label: Some(label),
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},
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ShaHash::Sha384 => PaddingScheme::OAEP {
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digest: Box::new(Sha384::new()),
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mgf_digest: Box::new(Sha384::new()),
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label: Some(label),
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},
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ShaHash::Sha512 => PaddingScheme::OAEP {
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digest: Box::new(Sha512::new()),
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mgf_digest: Box::new(Sha512::new()),
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label: Some(label),
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},
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};
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let encrypted = public_key
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.encrypt(&mut rng, padding, data)
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.map_err(|_| operation_error("Encryption failed"))?;
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Ok(encrypted)
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}
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fn encrypt_aes_cbc(
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key: RawKeyData,
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length: usize,
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iv: Vec<u8>,
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data: &[u8],
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) -> Result<Vec<u8>, AnyError> {
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let key = key.as_secret_key()?;
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let ciphertext = match length {
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128 => {
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// Section 10.3 Step 2 of RFC 2315 https://www.rfc-editor.org/rfc/rfc2315
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type Aes128CbcEnc = cbc::Encryptor<aes::Aes128>;
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let cipher = Aes128CbcEnc::new_from_slices(key, &iv)
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.map_err(|_| operation_error("invalid key or iv".to_string()))?;
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cipher.encrypt_padded_vec_mut::<Pkcs7>(data)
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}
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192 => {
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// Section 10.3 Step 2 of RFC 2315 https://www.rfc-editor.org/rfc/rfc2315
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type Aes192CbcEnc = cbc::Encryptor<aes::Aes192>;
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let cipher = Aes192CbcEnc::new_from_slices(key, &iv)
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.map_err(|_| operation_error("invalid key or iv".to_string()))?;
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cipher.encrypt_padded_vec_mut::<Pkcs7>(data)
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}
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256 => {
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// Section 10.3 Step 2 of RFC 2315 https://www.rfc-editor.org/rfc/rfc2315
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type Aes256CbcEnc = cbc::Encryptor<aes::Aes256>;
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let cipher = Aes256CbcEnc::new_from_slices(key, &iv)
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.map_err(|_| operation_error("invalid key or iv".to_string()))?;
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cipher.encrypt_padded_vec_mut::<Pkcs7>(data)
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}
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_ => return Err(type_error("invalid length")),
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};
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Ok(ciphertext)
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}
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fn encrypt_aes_gcm_general<N: ArrayLength<u8>>(
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key: &[u8],
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iv: Vec<u8>,
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length: usize,
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ciphertext: &mut [u8],
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additional_data: Vec<u8>,
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) -> Result<aes_gcm::Tag, AnyError> {
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let nonce = Nonce::<N>::from_slice(&iv);
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let tag = match length {
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128 => {
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let cipher = aes_gcm::AesGcm::<Aes128, N>::new_from_slice(key)
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.map_err(|_| operation_error("Encryption failed"))?;
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cipher
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.encrypt_in_place_detached(nonce, &additional_data, ciphertext)
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.map_err(|_| operation_error("Encryption failed"))?
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}
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192 => {
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let cipher = aes_gcm::AesGcm::<Aes192, N>::new_from_slice(key)
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.map_err(|_| operation_error("Encryption failed"))?;
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cipher
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.encrypt_in_place_detached(nonce, &additional_data, ciphertext)
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.map_err(|_| operation_error("Encryption failed"))?
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}
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256 => {
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let cipher = aes_gcm::AesGcm::<Aes256, N>::new_from_slice(key)
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.map_err(|_| operation_error("Encryption failed"))?;
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cipher
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.encrypt_in_place_detached(nonce, &additional_data, ciphertext)
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.map_err(|_| operation_error("Encryption failed"))?
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}
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_ => return Err(type_error("invalid length")),
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};
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Ok(tag)
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}
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fn encrypt_aes_gcm(
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key: RawKeyData,
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length: usize,
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tag_length: usize,
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iv: Vec<u8>,
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additional_data: Option<Vec<u8>>,
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data: &[u8],
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) -> Result<Vec<u8>, AnyError> {
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let key = key.as_secret_key()?;
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let additional_data = additional_data.unwrap_or_default();
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let mut ciphertext = data.to_vec();
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// Fixed 96-bit OR 128-bit nonce
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let tag = match iv.len() {
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12 => encrypt_aes_gcm_general::<U12>(
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key,
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iv,
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length,
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&mut ciphertext,
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additional_data,
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)?,
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16 => encrypt_aes_gcm_general::<U16>(
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key,
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iv,
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length,
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&mut ciphertext,
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additional_data,
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)?,
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_ => return Err(type_error("iv length not equal to 12 or 16")),
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};
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// Truncated tag to the specified tag length.
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// `tag` is fixed to be 16 bytes long and (tag_length / 8) is always <= 16
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let tag = &tag[..(tag_length / 8)];
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// C | T
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ciphertext.extend_from_slice(tag);
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Ok(ciphertext)
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}
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fn encrypt_aes_ctr_gen<B>(
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key: &[u8],
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counter: &[u8],
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data: &[u8],
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) -> Result<Vec<u8>, AnyError>
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where
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B: KeyIvInit + StreamCipher,
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{
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let mut cipher = B::new(key.into(), counter.into());
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let mut ciphertext = data.to_vec();
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cipher
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.try_apply_keystream(&mut ciphertext)
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.map_err(|_| operation_error("tried to encrypt too much data"))?;
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Ok(ciphertext)
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}
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fn encrypt_aes_ctr(
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key: RawKeyData,
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key_length: usize,
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counter: &[u8],
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ctr_length: usize,
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data: &[u8],
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) -> Result<Vec<u8>, AnyError> {
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let key = key.as_secret_key()?;
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match ctr_length {
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32 => match key_length {
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128 => encrypt_aes_ctr_gen::<Ctr32BE<aes::Aes128>>(key, counter, data),
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192 => encrypt_aes_ctr_gen::<Ctr32BE<aes::Aes192>>(key, counter, data),
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256 => encrypt_aes_ctr_gen::<Ctr32BE<aes::Aes256>>(key, counter, data),
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_ => Err(type_error("invalid length")),
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},
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64 => match key_length {
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128 => encrypt_aes_ctr_gen::<Ctr64BE<aes::Aes128>>(key, counter, data),
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192 => encrypt_aes_ctr_gen::<Ctr64BE<aes::Aes192>>(key, counter, data),
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256 => encrypt_aes_ctr_gen::<Ctr64BE<aes::Aes256>>(key, counter, data),
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_ => Err(type_error("invalid length")),
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},
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128 => match key_length {
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128 => encrypt_aes_ctr_gen::<Ctr128BE<aes::Aes128>>(key, counter, data),
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192 => encrypt_aes_ctr_gen::<Ctr128BE<aes::Aes192>>(key, counter, data),
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256 => encrypt_aes_ctr_gen::<Ctr128BE<aes::Aes256>>(key, counter, data),
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_ => Err(type_error("invalid length")),
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},
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_ => Err(type_error(
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"invalid counter length. Currently supported 32/64/128 bits",
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)),
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}
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}
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