341 lines
11 KiB
Rust
341 lines
11 KiB
Rust
// Copyright 2020 The Matrix.org Foundation C.I.C.
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//
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// Licensed under the Apache License, Version 2.0 (the "License");
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// you may not use this file except in compliance with the License.
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// You may obtain a copy of the License at
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//
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// http://www.apache.org/licenses/LICENSE-2.0
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//
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// Unless required by applicable law or agreed to in writing, software
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// distributed under the License is distributed on an "AS IS" BASIS,
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// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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// See the License for the specific language governing permissions and
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// limitations under the License.
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use std::{
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collections::BTreeMap,
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io::{Error as IoError, ErrorKind, Read},
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};
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use aes_ctr::{
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cipher::{NewStreamCipher, SyncStreamCipher},
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Aes256Ctr,
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};
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use base64::DecodeError;
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use getrandom::getrandom;
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use ruma::events::room::{EncryptedFile, JsonWebKey, JsonWebKeyInit};
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use serde::{Deserialize, Serialize};
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use sha2::{Digest, Sha256};
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use thiserror::Error;
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use zeroize::Zeroizing;
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use crate::utilities::{decode, decode_url_safe, encode, encode_url_safe};
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const IV_SIZE: usize = 16;
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const KEY_SIZE: usize = 32;
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const VERSION: &str = "v2";
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/// A wrapper that transparently encrypts anything that implements `Read` as an
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/// Matrix attachment.
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#[derive(Debug)]
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pub struct AttachmentDecryptor<'a, R: 'a + Read> {
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inner_reader: &'a mut R,
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expected_hash: Vec<u8>,
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sha: Sha256,
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aes: Aes256Ctr,
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}
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impl<'a, R: Read> Read for AttachmentDecryptor<'a, R> {
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fn read(&mut self, buf: &mut [u8]) -> std::io::Result<usize> {
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let read_bytes = self.inner_reader.read(buf)?;
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if read_bytes == 0 {
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let hash = self.sha.finalize_reset();
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if hash.as_slice() == self.expected_hash.as_slice() {
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Ok(0)
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} else {
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Err(IoError::new(ErrorKind::Other, "Hash mismatch while decrypting"))
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}
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} else {
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self.sha.update(&buf[0..read_bytes]);
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self.aes.apply_keystream(&mut buf[0..read_bytes]);
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Ok(read_bytes)
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}
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}
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}
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/// Error type for attachment decryption.
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#[derive(Error, Debug)]
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pub enum DecryptorError {
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/// Some data in the encrypted attachment coldn't be decoded, this may be a
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/// hash, the secret key, or the initialization vector.
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#[error(transparent)]
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Decode(#[from] DecodeError),
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/// A hash is missing from the encryption info.
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#[error("The encryption info is missing a hash")]
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MissingHash,
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/// The supplied key or IV has an invalid length.
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#[error("The supplied key or IV has an invalid length.")]
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KeyNonceLength,
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/// The supplied data was encrypted with an unknown version of the
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/// attachment encryption spec.
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#[error("Unknown version for the encrypted attachment.")]
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UnknownVersion,
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}
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impl<'a, R: Read + 'a> AttachmentDecryptor<'a, R> {
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/// Wrap the given reader decrypting all the data we read from it.
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///
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/// # Arguments
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///
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/// * `reader` - The `Reader` that should be wrapped and decrypted.
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///
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/// * `info` - The encryption info that is necessary to decrypt data from
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/// the reader.
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///
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/// # Examples
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/// ```
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/// # use std::io::{Cursor, Read};
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/// # use matrix_sdk_crypto::{AttachmentEncryptor, AttachmentDecryptor};
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/// let data = "Hello world".to_owned();
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/// let mut cursor = Cursor::new(data.clone());
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///
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/// let mut encryptor = AttachmentEncryptor::new(&mut cursor);
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///
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/// let mut encrypted = Vec::new();
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/// encryptor.read_to_end(&mut encrypted).unwrap();
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/// let info = encryptor.finish();
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///
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/// let mut cursor = Cursor::new(encrypted);
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/// let mut decryptor = AttachmentDecryptor::new(&mut cursor, info).unwrap();
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/// let mut decrypted_data = Vec::new();
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/// decryptor.read_to_end(&mut decrypted_data).unwrap();
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///
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/// let decrypted = String::from_utf8(decrypted_data).unwrap();
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/// ```
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pub fn new(
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input: &'a mut R,
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info: EncryptionInfo,
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) -> Result<AttachmentDecryptor<'a, R>, DecryptorError> {
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if info.version != VERSION {
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return Err(DecryptorError::UnknownVersion);
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}
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let hash = decode(info.hashes.get("sha256").ok_or(DecryptorError::MissingHash)?)?;
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let key = Zeroizing::from(decode_url_safe(info.web_key.k)?);
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let iv = decode(info.iv)?;
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let sha = Sha256::default();
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let aes = Aes256Ctr::new_var(&key, &iv).map_err(|_| DecryptorError::KeyNonceLength)?;
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Ok(AttachmentDecryptor { inner_reader: input, expected_hash: hash, sha, aes })
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}
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}
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/// A wrapper that transparently encrypts anything that implements `Read`.
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#[derive(Debug)]
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pub struct AttachmentEncryptor<'a, R: Read + 'a> {
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finished: bool,
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inner_reader: &'a mut R,
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web_key: JsonWebKey,
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iv: String,
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hashes: BTreeMap<String, String>,
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aes: Aes256Ctr,
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sha: Sha256,
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}
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impl<'a, R: Read + 'a> Read for AttachmentEncryptor<'a, R> {
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fn read(&mut self, buf: &mut [u8]) -> std::io::Result<usize> {
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let read_bytes = self.inner_reader.read(buf)?;
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if read_bytes == 0 {
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let hash = self.sha.finalize_reset();
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self.hashes.entry("sha256".to_owned()).or_insert_with(|| encode(hash));
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Ok(0)
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} else {
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self.aes.apply_keystream(&mut buf[0..read_bytes]);
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self.sha.update(&buf[0..read_bytes]);
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Ok(read_bytes)
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}
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}
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}
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impl<'a, R: Read + 'a> AttachmentEncryptor<'a, R> {
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/// Wrap the given reader encrypting all the data we read from it.
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///
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/// After all the reads are done, and all the data is encrypted that we wish
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/// to encrypt a call to [`finish()`](#method.finish) is necessary to get
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/// the decryption key for the data.
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///
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/// # Arguments
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///
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/// * `reader` - The `Reader` that should be wrapped and enrypted.
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///
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/// # Panics
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///
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/// Panics if we can't generate enough random data to create a fresh
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/// encryption key.
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///
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/// # Examples
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/// ```
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/// # use std::io::{Cursor, Read};
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/// # use matrix_sdk_crypto::AttachmentEncryptor;
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/// let data = "Hello world".to_owned();
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/// let mut cursor = Cursor::new(data.clone());
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///
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/// let mut encryptor = AttachmentEncryptor::new(&mut cursor);
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///
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/// let mut encrypted = Vec::new();
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/// encryptor.read_to_end(&mut encrypted).unwrap();
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/// let key = encryptor.finish();
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/// ```
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pub fn new(reader: &'a mut R) -> Self {
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let mut key = Zeroizing::new([0u8; KEY_SIZE]);
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let mut iv = Zeroizing::new([0u8; IV_SIZE]);
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getrandom(&mut *key).expect("Can't generate randomness");
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// Only populate the first 8 bits with randomness, the rest is 0
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// initialized.
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getrandom(&mut iv[0..8]).expect("Can't generate randomness");
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let web_key = JsonWebKey::from(JsonWebKeyInit {
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kty: "oct".to_owned(),
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key_ops: vec!["encrypt".to_owned(), "decrypt".to_owned()],
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alg: "A256CTR".to_owned(),
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k: encode_url_safe(&*key),
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ext: true,
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});
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let encoded_iv = encode(&*iv);
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let aes = Aes256Ctr::new_var(&*key, &*iv).expect("Cannot create AES encryption object.");
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AttachmentEncryptor {
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finished: false,
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inner_reader: reader,
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iv: encoded_iv,
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web_key,
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hashes: BTreeMap::new(),
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aes,
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sha: Sha256::default(),
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}
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}
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/// Consume the encryptor and get the encryption key.
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pub fn finish(mut self) -> EncryptionInfo {
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let hash = self.sha.finalize();
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self.hashes.entry("sha256".to_owned()).or_insert_with(|| encode(hash));
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EncryptionInfo {
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version: VERSION.to_string(),
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hashes: self.hashes,
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iv: self.iv,
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web_key: self.web_key,
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}
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}
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}
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/// Struct holding all the information that is needed to decrypt an encrypted
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/// file.
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#[derive(Debug, Serialize, Deserialize)]
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pub struct EncryptionInfo {
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#[serde(rename = "v")]
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/// The version of the encryption scheme.
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pub version: String,
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/// The web key that was used to encrypt the file.
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pub web_key: JsonWebKey,
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/// The initialization vector that was used to encrypt the file.
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pub iv: String,
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/// The hashes that can be used to check the validity of the file.
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pub hashes: BTreeMap<String, String>,
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}
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impl From<EncryptedFile> for EncryptionInfo {
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fn from(file: EncryptedFile) -> Self {
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Self { version: file.v, web_key: file.key, iv: file.iv, hashes: file.hashes }
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}
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}
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#[cfg(test)]
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mod test {
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use std::io::{Cursor, Read};
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use serde_json::json;
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use super::{AttachmentDecryptor, AttachmentEncryptor, EncryptionInfo};
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const EXAMPLE_DATA: &[u8] = &[
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179, 154, 118, 127, 186, 127, 110, 33, 203, 33, 33, 134, 67, 100, 173, 46, 235, 27, 215,
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172, 36, 26, 75, 47, 33, 160,
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];
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fn example_key() -> EncryptionInfo {
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let info = json!({
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"v": "v2",
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"web_key": {
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"kty": "oct",
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"alg": "A256CTR",
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"ext": true,
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"k": "Voq2nkPme_x8no5-Tjq_laDAdxE6iDbxnlQXxwFPgE4",
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"key_ops": ["encrypt", "decrypt"]
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},
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"iv": "i0DovxYdJEcAAAAAAAAAAA",
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"hashes": {
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"sha256": "ANdt819a8bZl4jKy3Z+jcqtiNICa2y0AW4BBJ/iQRAU"
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}
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});
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serde_json::from_value(info).unwrap()
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}
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#[test]
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fn encrypt_decrypt_cycle() {
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let data = "Hello world".to_owned();
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let mut cursor = Cursor::new(data.clone());
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let mut encryptor = AttachmentEncryptor::new(&mut cursor);
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let mut encrypted = Vec::new();
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encryptor.read_to_end(&mut encrypted).unwrap();
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let key = encryptor.finish();
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assert_ne!(encrypted.as_slice(), data.as_bytes());
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let mut cursor = Cursor::new(encrypted);
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let mut decryptor = AttachmentDecryptor::new(&mut cursor, key).unwrap();
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let mut decrypted_data = Vec::new();
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decryptor.read_to_end(&mut decrypted_data).unwrap();
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let decrypted = String::from_utf8(decrypted_data).unwrap();
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assert_eq!(data, decrypted);
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}
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#[test]
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fn real_decrypt() {
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let mut cursor = Cursor::new(EXAMPLE_DATA.to_vec());
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let key = example_key();
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let mut decryptor = AttachmentDecryptor::new(&mut cursor, key).unwrap();
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let mut decrypted_data = Vec::new();
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decryptor.read_to_end(&mut decrypted_data).unwrap();
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let decrypted = String::from_utf8(decrypted_data).unwrap();
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assert_eq!("It's a secret to everybody", decrypted);
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}
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#[test]
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fn decrypt_invalid_hash() {
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let mut cursor = Cursor::new("fake message");
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let key = example_key();
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let mut decryptor = AttachmentDecryptor::new(&mut cursor, key).unwrap();
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let mut decrypted_data = Vec::new();
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assert!(decryptor.read_to_end(&mut decrypted_data).is_err())
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}
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}
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