+++ /dev/null
-use openssl::{symm, sha::sha256};\r
-use rand::prelude::*;\r
-\r
-#[derive(Debug)]\r
-pub enum KeyError {\r
- UnableToDecodeBase64Key,\r
- WrongKeyLength,\r
-}\r
-\r
-#[derive(Debug)]\r
-pub enum EncryptError {\r
- KeyError(KeyError),\r
- UnsupportedVersion(u8),\r
- UnableToEncrypt,\r
-}\r
-\r
-#[derive(Debug)]\r
-pub enum DecryptError {\r
- KeyError(KeyError),\r
- UnableToParseVersion,\r
- UnsupportedVersion(u8),\r
- MessageToShort,\r
- UnableToDecodeBase64Message,\r
- UnableToDecrypt,\r
- UnableToDecodeMessageAsUTF8String,\r
- HashMismatch,\r
-}\r
-\r
-fn decode_key(key: &str) -> Result<Vec<u8>, KeyError> {\r
- match base64::decode(key) {\r
- Ok(k) => if k.len() != 16 { Err(KeyError::WrongKeyLength) } else { Ok(k) },\r
- Err(_e) => Err(KeyError::UnableToDecodeBase64Key)\r
- }\r
-}\r
-\r
-/// Return a random key encoded in base64.\r
-pub fn generate_key() -> String {\r
- let key = rand::thread_rng().gen::<[u8; 16]>();\r
- base64::encode(key)\r
-}\r
-\r
-/// Encrypt the given text with the given key (first version). The key length must be 128 bits encoded in base64.\r
-/// Ouput formats:\r
-/// * 'version' = 1: "1" + base_64(<IV> + hash(message) + aes(message))\r
-/// * 'version' = 2: "2" + base_64(<IV> + aes(hash(message) + message))\r
-/// IV: 16 bytes randomized.\r
-/// Mode : CBC.\r
-pub fn encrypt(key: &str, plain_text: &str, version: u8) -> Result<String, EncryptError> {\r
- let key_as_bytes = decode_key(key).map_err(EncryptError::KeyError)?;\r
-\r
- let text_as_bytes = plain_text.as_bytes();\r
- let hash_text = sha256(&text_as_bytes);\r
- let iv = rand::thread_rng().gen::<[u8; 16]>();\r
-\r
- let cipher_text =\r
- if version == 1 {\r
- symm::encrypt(symm::Cipher::aes_128_cbc(), &key_as_bytes, Some(&iv), text_as_bytes)\r
- .map_err(|_e| EncryptError::UnableToEncrypt)?\r
- } else if version == 2 {\r
- symm::encrypt(symm::Cipher::aes_128_cbc(), &key_as_bytes, Some(&iv), &[&hash_text, text_as_bytes].concat())\r
- .map_err(|_e| EncryptError::UnableToEncrypt)?\r
- } else {\r
- return Err(EncryptError::UnsupportedVersion(version))\r
- };\r
-\r
- let mut result: Vec<u8> = Vec::new();\r
- result.extend(&iv);\r
-\r
- if version == 1 {\r
- result.extend(&hash_text);\r
- }\r
-\r
- result.extend(&cipher_text);\r
-\r
- Ok(version.to_string() + &base64::encode(&result))\r
-}\r
-\r
-/// Decrypt the given text with the given key. The key length must be 128 bits encoded in base64.\r
-/// Input formats:\r
-/// * version 1: "1" + base_64(<IV> + hash(message) + aes(message))\r
-/// * version 2: "2" + base_64(<IV> + aes(hash(message) + message))\r
-pub fn decrypt(key: &str, cipher_text: &str) -> Result<String, DecryptError> {\r
- let key_as_bytes = decode_key(key).map_err(DecryptError::KeyError)?;\r
-\r
- // Can't decrypt a message with the wrong version.\r
- let first_char = &cipher_text[..1];\r
- let version: u8 = first_char.parse().map_err(|_e| DecryptError::UnableToParseVersion)?;\r
-\r
- if version != 1 && version != 2 {\r
- return Err(DecryptError::UnsupportedVersion(version))\r
- }\r
-\r
- let cipher_text_bytes =\r
- base64::decode(&cipher_text.as_bytes()[1..])\r
- .map_err(|_e| DecryptError::UnableToDecodeBase64Message)?;\r
-\r
- if cipher_text_bytes.len() <= 48 { return Err(DecryptError::MessageToShort) }\r
-\r
- let iv = &cipher_text_bytes[0..16];\r
-\r
- let (plain_message_bytes, hash) =\r
- if version == 1 {\r
- let encrypted_message = &cipher_text_bytes[48..];\r
- (\r
- symm::decrypt(symm::Cipher::aes_128_cbc(), &key_as_bytes, Some(iv), encrypted_message)\r
- .map_err(|_e| DecryptError::UnableToDecrypt)?,\r
- cipher_text_bytes[16..48].to_vec()\r
- )\r
- } else {\r
- let encrypted_message = &cipher_text_bytes[16..];\r
- let plain_text =\r
- symm::decrypt(symm::Cipher::aes_128_cbc(), &key_as_bytes, Some(iv), encrypted_message)\r
- .map_err(|_e| DecryptError::UnableToDecrypt)?;\r
- (\r
- plain_text[32..].to_vec(),\r
- plain_text[0..32].to_vec()\r
- )\r
- };\r
-\r
- if sha256(&plain_message_bytes) != hash[..] { return Err(DecryptError::HashMismatch) }\r
-\r
- let plain_message =\r
- String::from_utf8(plain_message_bytes)\r
- .map_err(|_e| DecryptError::UnableToDecodeMessageAsUTF8String)?;\r
-\r
- Ok(plain_message)\r
-}\r