use crate::shared::*; use aes::cipher::block_padding::Pkcs7; use aes::cipher::BlockDecryptMut; use aes::cipher::KeyIvInit; use aes_gcm::aead::generic_array::typenum::U12; use aes_gcm::aead::generic_array::typenum::U16; use aes_gcm::aead::generic_array::ArrayLength; use aes_gcm::aes::Aes128; use aes_gcm::aes::Aes192; use aes_gcm::aes::Aes256; use aes_gcm::AeadInPlace; use aes_gcm::NewAead; use aes_gcm::Nonce; use ctr::cipher::StreamCipher; use ctr::Ctr128BE; use ctr::Ctr32BE; use ctr::Ctr64BE; use deno_core::error::custom_error; use deno_core::error::type_error; use deno_core::error::AnyError; use deno_core::op; use deno_core::ZeroCopyBuf; use rsa::pkcs1::DecodeRsaPrivateKey; use rsa::PaddingScheme; use serde::Deserialize; use sha1::Digest; use sha1::Sha1; use sha2::Sha256; use sha2::Sha384; use sha2::Sha512; #[derive(Deserialize)] #[serde(rename_all = "camelCase")] pub struct DecryptOptions { key: RawKeyData, #[serde(flatten)] algorithm: DecryptAlgorithm, } #[derive(Deserialize)] #[serde(rename_all = "camelCase", tag = "algorithm")] pub enum DecryptAlgorithm { #[serde(rename = "RSA-OAEP")] RsaOaep { hash: ShaHash, #[serde(with = "serde_bytes")] label: Vec, }, #[serde(rename = "AES-CBC", rename_all = "camelCase")] AesCbc { #[serde(with = "serde_bytes")] iv: Vec, length: usize, }, #[serde(rename = "AES-CTR", rename_all = "camelCase")] AesCtr { #[serde(with = "serde_bytes")] counter: Vec, ctr_length: usize, key_length: usize, }, #[serde(rename = "AES-GCM", rename_all = "camelCase")] AesGcm { #[serde(with = "serde_bytes")] iv: Vec, #[serde(with = "serde_bytes")] additional_data: Option>, length: usize, tag_length: usize, }, } #[op] pub async fn op_crypto_decrypt( opts: DecryptOptions, data: ZeroCopyBuf, ) -> Result { let key = opts.key; let fun = move || match opts.algorithm { DecryptAlgorithm::RsaOaep { hash, label } => { decrypt_rsa_oaep(key, hash, label, &data) } DecryptAlgorithm::AesCbc { iv, length } => { decrypt_aes_cbc(key, length, iv, &data) } DecryptAlgorithm::AesCtr { counter, ctr_length, key_length, } => decrypt_aes_ctr(key, key_length, &counter, ctr_length, &data), DecryptAlgorithm::AesGcm { iv, additional_data, length, tag_length, } => decrypt_aes_gcm(key, length, tag_length, iv, additional_data, &data), }; let buf = tokio::task::spawn_blocking(fun).await.unwrap()?; Ok(buf.into()) } fn decrypt_rsa_oaep( key: RawKeyData, hash: ShaHash, label: Vec, data: &[u8], ) -> Result, deno_core::anyhow::Error> { let key = key.as_rsa_private_key()?; let private_key = rsa::RsaPrivateKey::from_pkcs1_der(key)?; let label = Some(String::from_utf8_lossy(&label).to_string()); let padding = match hash { ShaHash::Sha1 => PaddingScheme::OAEP { digest: Box::new(Sha1::new()), mgf_digest: Box::new(Sha1::new()), label, }, ShaHash::Sha256 => PaddingScheme::OAEP { digest: Box::new(Sha256::new()), mgf_digest: Box::new(Sha256::new()), label, }, ShaHash::Sha384 => PaddingScheme::OAEP { digest: Box::new(Sha384::new()), mgf_digest: Box::new(Sha384::new()), label, }, ShaHash::Sha512 => PaddingScheme::OAEP { digest: Box::new(Sha512::new()), mgf_digest: Box::new(Sha512::new()), label, }, }; private_key .decrypt(padding, data) .map_err(|e| custom_error("DOMExceptionOperationError", e.to_string())) } fn decrypt_aes_cbc( key: RawKeyData, length: usize, iv: Vec, data: &[u8], ) -> Result, deno_core::anyhow::Error> { let key = key.as_secret_key()?; // 2. let plaintext = match length { 128 => { // Section 10.3 Step 2 of RFC 2315 https://www.rfc-editor.org/rfc/rfc2315 type Aes128CbcDec = cbc::Decryptor; let cipher = Aes128CbcDec::new_from_slices(key, &iv).map_err(|_| { custom_error( "DOMExceptionOperationError", "Invalid key or iv".to_string(), ) })?; cipher.decrypt_padded_vec_mut::(data).map_err(|_| { custom_error( "DOMExceptionOperationError", "Decryption failed".to_string(), ) })? } 192 => { // Section 10.3 Step 2 of RFC 2315 https://www.rfc-editor.org/rfc/rfc2315 type Aes192CbcDec = cbc::Decryptor; let cipher = Aes192CbcDec::new_from_slices(key, &iv).map_err(|_| { custom_error( "DOMExceptionOperationError", "Invalid key or iv".to_string(), ) })?; cipher.decrypt_padded_vec_mut::(data).map_err(|_| { custom_error( "DOMExceptionOperationError", "Decryption failed".to_string(), ) })? } 256 => { // Section 10.3 Step 2 of RFC 2315 https://www.rfc-editor.org/rfc/rfc2315 type Aes256CbcDec = cbc::Decryptor; let cipher = Aes256CbcDec::new_from_slices(key, &iv).map_err(|_| { custom_error( "DOMExceptionOperationError", "Invalid key or iv".to_string(), ) })?; cipher.decrypt_padded_vec_mut::(data).map_err(|_| { custom_error( "DOMExceptionOperationError", "Decryption failed".to_string(), ) })? } _ => unreachable!(), }; // 6. Ok(plaintext) } fn decrypt_aes_ctr_gen( key: &[u8], counter: &[u8], data: &[u8], ) -> Result, AnyError> where B: KeyIvInit + StreamCipher, { let mut cipher = B::new(key.into(), counter.into()); let mut plaintext = data.to_vec(); cipher .try_apply_keystream(&mut plaintext) .map_err(|_| operation_error("tried to decrypt too much data"))?; Ok(plaintext) } fn decrypt_aes_gcm_gen>( key: &[u8], tag: &aes_gcm::Tag, nonce: &[u8], length: usize, additional_data: Vec, plaintext: &mut [u8], ) -> Result<(), AnyError> { let nonce = Nonce::from_slice(nonce); match length { 128 => { let cipher = aes_gcm::AesGcm::::new_from_slice(key) .map_err(|_| operation_error("Decryption failed"))?; cipher .decrypt_in_place_detached( nonce, additional_data.as_slice(), plaintext, tag, ) .map_err(|_| operation_error("Decryption failed"))? } 192 => { let cipher = aes_gcm::AesGcm::::new_from_slice(key) .map_err(|_| operation_error("Decryption failed"))?; cipher .decrypt_in_place_detached( nonce, additional_data.as_slice(), plaintext, tag, ) .map_err(|_| operation_error("Decryption failed"))? } 256 => { let cipher = aes_gcm::AesGcm::::new_from_slice(key) .map_err(|_| operation_error("Decryption failed"))?; cipher .decrypt_in_place_detached( nonce, additional_data.as_slice(), plaintext, tag, ) .map_err(|_| operation_error("Decryption failed"))? } _ => return Err(type_error("invalid length")), }; Ok(()) } fn decrypt_aes_ctr( key: RawKeyData, key_length: usize, counter: &[u8], ctr_length: usize, data: &[u8], ) -> Result, deno_core::anyhow::Error> { let key = key.as_secret_key()?; match ctr_length { 32 => match key_length { 128 => decrypt_aes_ctr_gen::>(key, counter, data), 192 => decrypt_aes_ctr_gen::>(key, counter, data), 256 => decrypt_aes_ctr_gen::>(key, counter, data), _ => Err(type_error("invalid length")), }, 64 => match key_length { 128 => decrypt_aes_ctr_gen::>(key, counter, data), 192 => decrypt_aes_ctr_gen::>(key, counter, data), 256 => decrypt_aes_ctr_gen::>(key, counter, data), _ => Err(type_error("invalid length")), }, 128 => match key_length { 128 => decrypt_aes_ctr_gen::>(key, counter, data), 192 => decrypt_aes_ctr_gen::>(key, counter, data), 256 => decrypt_aes_ctr_gen::>(key, counter, data), _ => Err(type_error("invalid length")), }, _ => Err(type_error( "invalid counter length. Currently supported 32/64/128 bits", )), } } fn decrypt_aes_gcm( key: RawKeyData, length: usize, tag_length: usize, iv: Vec, additional_data: Option>, data: &[u8], ) -> Result, AnyError> { let key = key.as_secret_key()?; let additional_data = additional_data.unwrap_or_default(); // The `aes_gcm` crate only supports 128 bits tag length. // // Note that encryption won't fail, it instead truncates the tag // to the specified tag length as specified in the spec. if tag_length != 128 { return Err(type_error("tag length not equal to 128")); } let sep = data.len() - (tag_length / 8); let tag = &data[sep..]; // The actual ciphertext, called plaintext because it is reused in place. let mut plaintext = data[..sep].to_vec(); // Fixed 96-bit or 128-bit nonce match iv.len() { 12 => decrypt_aes_gcm_gen::( key, tag.into(), &iv, length, additional_data, &mut plaintext, )?, 16 => decrypt_aes_gcm_gen::( key, tag.into(), &iv, length, additional_data, &mut plaintext, )?, _ => return Err(type_error("iv length not equal to 12 or 16")), } Ok(plaintext) }