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https://github.com/denoland/deno.git
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792 lines
23 KiB
Rust
792 lines
23 KiB
Rust
// Copyright 2018-2024 the Deno authors. All rights reserved. MIT license.
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use base64::Engine;
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use deno_core::error::AnyError;
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use deno_core::op2;
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use deno_core::JsBuffer;
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use deno_core::ToJsBuffer;
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use elliptic_curve::pkcs8::PrivateKeyInfo;
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use p256::pkcs8::EncodePrivateKey;
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use rsa::pkcs1::UintRef;
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use rsa::pkcs8::der::Encode;
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use serde::Deserialize;
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use serde::Serialize;
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use spki::der::Decode;
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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 enum KeyData {
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Spki(JsBuffer),
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Pkcs8(JsBuffer),
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Raw(JsBuffer),
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JwkSecret {
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k: String,
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},
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JwkPublicRsa {
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n: String,
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e: String,
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},
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JwkPrivateRsa {
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n: String,
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e: String,
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d: String,
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p: String,
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q: String,
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dp: String,
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dq: String,
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qi: String,
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},
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JwkPublicEc {
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x: String,
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y: String,
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},
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JwkPrivateEc {
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#[allow(dead_code)]
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x: String,
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#[allow(dead_code)]
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y: String,
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d: String,
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},
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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 ImportKeyOptions {
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#[serde(rename = "RSASSA-PKCS1-v1_5")]
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RsassaPkcs1v15 {},
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#[serde(rename = "RSA-PSS")]
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RsaPss {},
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#[serde(rename = "RSA-OAEP")]
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RsaOaep {},
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#[serde(rename = "ECDSA", rename_all = "camelCase")]
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Ecdsa { named_curve: EcNamedCurve },
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#[serde(rename = "ECDH", rename_all = "camelCase")]
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Ecdh { named_curve: EcNamedCurve },
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#[serde(rename = "AES", rename_all = "camelCase")]
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Aes {},
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#[serde(rename = "HMAC", rename_all = "camelCase")]
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Hmac {},
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}
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#[derive(Serialize)]
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#[serde(untagged)]
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pub enum ImportKeyResult {
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#[serde(rename_all = "camelCase")]
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Rsa {
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raw_data: RustRawKeyData,
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modulus_length: usize,
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public_exponent: ToJsBuffer,
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},
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#[serde(rename_all = "camelCase")]
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Ec { raw_data: RustRawKeyData },
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#[serde(rename_all = "camelCase")]
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#[allow(dead_code)]
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Aes { raw_data: RustRawKeyData },
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#[serde(rename_all = "camelCase")]
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Hmac { raw_data: RustRawKeyData },
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}
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#[op2]
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#[serde]
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pub fn op_crypto_import_key(
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#[serde] opts: ImportKeyOptions,
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#[serde] key_data: KeyData,
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) -> Result<ImportKeyResult, AnyError> {
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match opts {
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ImportKeyOptions::RsassaPkcs1v15 {} => import_key_rsassa(key_data),
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ImportKeyOptions::RsaPss {} => import_key_rsapss(key_data),
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ImportKeyOptions::RsaOaep {} => import_key_rsaoaep(key_data),
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ImportKeyOptions::Ecdsa { named_curve }
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| ImportKeyOptions::Ecdh { named_curve } => {
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import_key_ec(key_data, named_curve)
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}
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ImportKeyOptions::Aes {} => import_key_aes(key_data),
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ImportKeyOptions::Hmac {} => import_key_hmac(key_data),
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}
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}
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const BASE64_URL_SAFE_FORGIVING:
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base64::engine::general_purpose::GeneralPurpose =
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base64::engine::general_purpose::GeneralPurpose::new(
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&base64::alphabet::URL_SAFE,
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base64::engine::general_purpose::GeneralPurposeConfig::new()
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.with_decode_allow_trailing_bits(true)
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.with_decode_padding_mode(base64::engine::DecodePaddingMode::Indifferent),
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);
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macro_rules! jwt_b64_int_or_err {
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($name:ident, $b64:expr, $err:expr) => {
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let bytes = BASE64_URL_SAFE_FORGIVING
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.decode($b64)
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.map_err(|_| data_error($err))?;
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let $name = UintRef::new(&bytes).map_err(|_| data_error($err))?;
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};
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}
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fn import_key_rsa_jwk(
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key_data: KeyData,
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) -> Result<ImportKeyResult, deno_core::anyhow::Error> {
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match key_data {
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KeyData::JwkPublicRsa { n, e } => {
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jwt_b64_int_or_err!(modulus, &n, "invalid modulus");
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jwt_b64_int_or_err!(public_exponent, &e, "invalid public exponent");
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let public_key = rsa::pkcs1::RsaPublicKey {
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modulus,
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public_exponent,
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};
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let mut data = Vec::new();
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public_key
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.encode_to_vec(&mut data)
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.map_err(|_| data_error("invalid rsa public key"))?;
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let public_exponent =
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public_key.public_exponent.as_bytes().to_vec().into();
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let modulus_length = public_key.modulus.as_bytes().len() * 8;
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Ok(ImportKeyResult::Rsa {
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raw_data: RustRawKeyData::Public(data.into()),
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modulus_length,
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public_exponent,
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})
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}
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KeyData::JwkPrivateRsa {
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n,
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e,
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d,
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p,
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q,
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dp,
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dq,
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qi,
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} => {
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jwt_b64_int_or_err!(modulus, &n, "invalid modulus");
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jwt_b64_int_or_err!(public_exponent, &e, "invalid public exponent");
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jwt_b64_int_or_err!(private_exponent, &d, "invalid private exponent");
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jwt_b64_int_or_err!(prime1, &p, "invalid first prime factor");
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jwt_b64_int_or_err!(prime2, &q, "invalid second prime factor");
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jwt_b64_int_or_err!(exponent1, &dp, "invalid first CRT exponent");
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jwt_b64_int_or_err!(exponent2, &dq, "invalid second CRT exponent");
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jwt_b64_int_or_err!(coefficient, &qi, "invalid CRT coefficient");
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let private_key = rsa::pkcs1::RsaPrivateKey {
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modulus,
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public_exponent,
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private_exponent,
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prime1,
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prime2,
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exponent1,
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exponent2,
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coefficient,
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other_prime_infos: None,
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};
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let mut data = Vec::new();
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private_key
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.encode_to_vec(&mut data)
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.map_err(|_| data_error("invalid rsa private key"))?;
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let public_exponent =
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private_key.public_exponent.as_bytes().to_vec().into();
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let modulus_length = private_key.modulus.as_bytes().len() * 8;
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Ok(ImportKeyResult::Rsa {
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raw_data: RustRawKeyData::Private(data.into()),
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modulus_length,
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public_exponent,
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})
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}
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_ => unreachable!(),
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}
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}
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fn import_key_rsassa(
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key_data: KeyData,
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) -> Result<ImportKeyResult, deno_core::anyhow::Error> {
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match key_data {
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KeyData::Spki(data) => {
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// 2-3.
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let pk_info = spki::SubjectPublicKeyInfoRef::try_from(&*data)
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.map_err(|e| data_error(e.to_string()))?;
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// 4-5.
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let alg = pk_info.algorithm.oid;
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// 6-7. (skipped, only support rsaEncryption for interoperability)
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if alg != RSA_ENCRYPTION_OID {
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return Err(data_error("unsupported algorithm"));
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}
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// 8-9.
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let public_key = rsa::pkcs1::RsaPublicKey::from_der(
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pk_info.subject_public_key.raw_bytes(),
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)
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.map_err(|e| data_error(e.to_string()))?;
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let bytes_consumed = public_key
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.encoded_len()
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.map_err(|e| data_error(e.to_string()))?;
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if bytes_consumed
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!= rsa::pkcs1::der::Length::new(
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pk_info.subject_public_key.raw_bytes().len() as u16,
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)
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{
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return Err(data_error("public key is invalid (too long)"));
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}
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let data = pk_info.subject_public_key.raw_bytes().to_vec().into();
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let public_exponent =
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public_key.public_exponent.as_bytes().to_vec().into();
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let modulus_length = public_key.modulus.as_bytes().len() * 8;
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Ok(ImportKeyResult::Rsa {
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raw_data: RustRawKeyData::Public(data),
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modulus_length,
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public_exponent,
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})
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}
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KeyData::Pkcs8(data) => {
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// 2-3.
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let pk_info = PrivateKeyInfo::from_der(&data)
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.map_err(|e| data_error(e.to_string()))?;
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// 4-5.
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let alg = pk_info.algorithm.oid;
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// 6-7. (skipped, only support rsaEncryption for interoperability)
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if alg != RSA_ENCRYPTION_OID {
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return Err(data_error("unsupported algorithm"));
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}
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// 8-9.
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let private_key =
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rsa::pkcs1::RsaPrivateKey::from_der(pk_info.private_key)
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.map_err(|e| data_error(e.to_string()))?;
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let bytes_consumed = private_key
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.encoded_len()
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.map_err(|e| data_error(e.to_string()))?;
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if bytes_consumed
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!= rsa::pkcs1::der::Length::new(pk_info.private_key.len() as u16)
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{
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return Err(data_error("private key is invalid (too long)"));
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}
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let data = pk_info.private_key.to_vec().into();
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let public_exponent =
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private_key.public_exponent.as_bytes().to_vec().into();
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let modulus_length = private_key.modulus.as_bytes().len() * 8;
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Ok(ImportKeyResult::Rsa {
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raw_data: RustRawKeyData::Private(data),
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modulus_length,
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public_exponent,
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})
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}
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KeyData::JwkPublicRsa { .. } | KeyData::JwkPrivateRsa { .. } => {
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import_key_rsa_jwk(key_data)
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}
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_ => Err(unsupported_format()),
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}
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}
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fn import_key_rsapss(
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key_data: KeyData,
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) -> Result<ImportKeyResult, deno_core::anyhow::Error> {
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match key_data {
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KeyData::Spki(data) => {
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// 2-3.
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let pk_info = spki::SubjectPublicKeyInfoRef::try_from(&*data)
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.map_err(|e| data_error(e.to_string()))?;
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// 4-5.
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let alg = pk_info.algorithm.oid;
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// 6-7. (skipped, only support rsaEncryption for interoperability)
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if alg != RSA_ENCRYPTION_OID {
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return Err(data_error("unsupported algorithm"));
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}
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// 8-9.
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let public_key = rsa::pkcs1::RsaPublicKey::from_der(
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pk_info.subject_public_key.raw_bytes(),
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)
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.map_err(|e| data_error(e.to_string()))?;
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let bytes_consumed = public_key
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.encoded_len()
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.map_err(|e| data_error(e.to_string()))?;
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if bytes_consumed
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!= rsa::pkcs1::der::Length::new(
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pk_info.subject_public_key.raw_bytes().len() as u16,
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)
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{
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return Err(data_error("public key is invalid (too long)"));
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}
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let data = pk_info.subject_public_key.raw_bytes().to_vec().into();
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let public_exponent =
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public_key.public_exponent.as_bytes().to_vec().into();
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let modulus_length = public_key.modulus.as_bytes().len() * 8;
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Ok(ImportKeyResult::Rsa {
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raw_data: RustRawKeyData::Public(data),
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modulus_length,
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public_exponent,
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})
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}
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KeyData::Pkcs8(data) => {
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// 2-3.
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let pk_info = PrivateKeyInfo::from_der(&data)
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.map_err(|e| data_error(e.to_string()))?;
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// 4-5.
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let alg = pk_info.algorithm.oid;
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// 6-7. (skipped, only support rsaEncryption for interoperability)
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if alg != RSA_ENCRYPTION_OID {
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return Err(data_error("unsupported algorithm"));
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}
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// 8-9.
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let private_key =
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rsa::pkcs1::RsaPrivateKey::from_der(pk_info.private_key)
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.map_err(|e| data_error(e.to_string()))?;
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let bytes_consumed = private_key
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.encoded_len()
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.map_err(|e| data_error(e.to_string()))?;
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if bytes_consumed
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!= rsa::pkcs1::der::Length::new(pk_info.private_key.len() as u16)
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{
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return Err(data_error("private key is invalid (too long)"));
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}
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let data = pk_info.private_key.to_vec().into();
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let public_exponent =
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private_key.public_exponent.as_bytes().to_vec().into();
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let modulus_length = private_key.modulus.as_bytes().len() * 8;
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Ok(ImportKeyResult::Rsa {
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raw_data: RustRawKeyData::Private(data),
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modulus_length,
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public_exponent,
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})
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}
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KeyData::JwkPublicRsa { .. } | KeyData::JwkPrivateRsa { .. } => {
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import_key_rsa_jwk(key_data)
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}
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_ => Err(unsupported_format()),
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}
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}
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fn import_key_rsaoaep(
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key_data: KeyData,
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) -> Result<ImportKeyResult, deno_core::anyhow::Error> {
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match key_data {
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KeyData::Spki(data) => {
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// 2-3.
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let pk_info = spki::SubjectPublicKeyInfoRef::try_from(&*data)
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.map_err(|e| data_error(e.to_string()))?;
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// 4-5.
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let alg = pk_info.algorithm.oid;
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// 6-7. (skipped, only support rsaEncryption for interoperability)
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if alg != RSA_ENCRYPTION_OID {
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return Err(data_error("unsupported algorithm"));
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}
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// 8-9.
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let public_key = rsa::pkcs1::RsaPublicKey::from_der(
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pk_info.subject_public_key.raw_bytes(),
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)
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.map_err(|e| data_error(e.to_string()))?;
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let bytes_consumed = public_key
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.encoded_len()
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.map_err(|e| data_error(e.to_string()))?;
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if bytes_consumed
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!= rsa::pkcs1::der::Length::new(
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pk_info.subject_public_key.raw_bytes().len() as u16,
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)
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{
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return Err(data_error("public key is invalid (too long)"));
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}
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let data = pk_info.subject_public_key.raw_bytes().to_vec().into();
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let public_exponent =
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public_key.public_exponent.as_bytes().to_vec().into();
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let modulus_length = public_key.modulus.as_bytes().len() * 8;
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Ok(ImportKeyResult::Rsa {
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raw_data: RustRawKeyData::Public(data),
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modulus_length,
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public_exponent,
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})
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}
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KeyData::Pkcs8(data) => {
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// 2-3.
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let pk_info = PrivateKeyInfo::from_der(&data)
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.map_err(|e| data_error(e.to_string()))?;
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// 4-5.
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let alg = pk_info.algorithm.oid;
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// 6-7. (skipped, only support rsaEncryption for interoperability)
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if alg != RSA_ENCRYPTION_OID {
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return Err(data_error("unsupported algorithm"));
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}
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// 8-9.
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let private_key =
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rsa::pkcs1::RsaPrivateKey::from_der(pk_info.private_key)
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.map_err(|e| data_error(e.to_string()))?;
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let bytes_consumed = private_key
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.encoded_len()
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.map_err(|e| data_error(e.to_string()))?;
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if bytes_consumed
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!= rsa::pkcs1::der::Length::new(pk_info.private_key.len() as u16)
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{
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return Err(data_error("private key is invalid (too long)"));
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}
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let data = pk_info.private_key.to_vec().into();
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let public_exponent =
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private_key.public_exponent.as_bytes().to_vec().into();
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let modulus_length = private_key.modulus.as_bytes().len() * 8;
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Ok(ImportKeyResult::Rsa {
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raw_data: RustRawKeyData::Private(data),
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modulus_length,
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public_exponent,
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})
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}
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KeyData::JwkPublicRsa { .. } | KeyData::JwkPrivateRsa { .. } => {
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import_key_rsa_jwk(key_data)
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}
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_ => Err(unsupported_format()),
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}
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}
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fn decode_b64url_to_field_bytes<C: elliptic_curve::Curve>(
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b64: &str,
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) -> Result<elliptic_curve::FieldBytes<C>, deno_core::anyhow::Error> {
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jwt_b64_int_or_err!(val, b64, "invalid b64 coordinate");
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let mut bytes = elliptic_curve::FieldBytes::<C>::default();
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let original_bytes = val.as_bytes();
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let mut new_bytes: Vec<u8> = vec![];
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if original_bytes.len() < bytes.len() {
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|
new_bytes = vec![0; bytes.len() - original_bytes.len()];
|
|
}
|
|
new_bytes.extend_from_slice(original_bytes);
|
|
|
|
let val = new_bytes.as_slice();
|
|
|
|
if val.len() != bytes.len() {
|
|
return Err(data_error("invalid b64 coordinate"));
|
|
}
|
|
bytes.copy_from_slice(val);
|
|
|
|
Ok(bytes)
|
|
}
|
|
|
|
fn import_key_ec_jwk_to_point(
|
|
x: String,
|
|
y: String,
|
|
named_curve: EcNamedCurve,
|
|
) -> Result<Vec<u8>, deno_core::anyhow::Error> {
|
|
let point_bytes = match named_curve {
|
|
EcNamedCurve::P256 => {
|
|
let x = decode_b64url_to_field_bytes::<p256::NistP256>(&x)?;
|
|
let y = decode_b64url_to_field_bytes::<p256::NistP256>(&y)?;
|
|
|
|
p256::EncodedPoint::from_affine_coordinates(&x, &y, false).to_bytes()
|
|
}
|
|
EcNamedCurve::P384 => {
|
|
let x = decode_b64url_to_field_bytes::<p384::NistP384>(&x)?;
|
|
let y = decode_b64url_to_field_bytes::<p384::NistP384>(&y)?;
|
|
|
|
p384::EncodedPoint::from_affine_coordinates(&x, &y, false).to_bytes()
|
|
}
|
|
EcNamedCurve::P521 => {
|
|
let x = decode_b64url_to_field_bytes::<p521::NistP521>(&x)?;
|
|
let y = decode_b64url_to_field_bytes::<p521::NistP521>(&y)?;
|
|
|
|
p521::EncodedPoint::from_affine_coordinates(&x, &y, false).to_bytes()
|
|
}
|
|
};
|
|
|
|
Ok(point_bytes.to_vec())
|
|
}
|
|
|
|
fn import_key_ec_jwk(
|
|
key_data: KeyData,
|
|
named_curve: EcNamedCurve,
|
|
) -> Result<ImportKeyResult, deno_core::anyhow::Error> {
|
|
match key_data {
|
|
KeyData::JwkPublicEc { x, y } => {
|
|
let point_bytes = import_key_ec_jwk_to_point(x, y, named_curve)?;
|
|
|
|
Ok(ImportKeyResult::Ec {
|
|
raw_data: RustRawKeyData::Public(point_bytes.into()),
|
|
})
|
|
}
|
|
KeyData::JwkPrivateEc { d, .. } => {
|
|
let pkcs8_der = match named_curve {
|
|
EcNamedCurve::P256 => {
|
|
let d = decode_b64url_to_field_bytes::<p256::NistP256>(&d)?;
|
|
let pk = p256::SecretKey::from_bytes(&d)?;
|
|
|
|
pk.to_pkcs8_der()
|
|
.map_err(|_| data_error("invalid JWK private key"))?
|
|
}
|
|
EcNamedCurve::P384 => {
|
|
let d = decode_b64url_to_field_bytes::<p384::NistP384>(&d)?;
|
|
let pk = p384::SecretKey::from_bytes(&d)?;
|
|
|
|
pk.to_pkcs8_der()
|
|
.map_err(|_| data_error("invalid JWK private key"))?
|
|
}
|
|
EcNamedCurve::P521 => {
|
|
let d = decode_b64url_to_field_bytes::<p521::NistP521>(&d)?;
|
|
let pk = p521::SecretKey::from_bytes(&d)?;
|
|
|
|
pk.to_pkcs8_der()
|
|
.map_err(|_| data_error("invalid JWK private key"))?
|
|
}
|
|
};
|
|
|
|
Ok(ImportKeyResult::Ec {
|
|
raw_data: RustRawKeyData::Private(pkcs8_der.as_bytes().to_vec().into()),
|
|
})
|
|
}
|
|
_ => unreachable!(),
|
|
}
|
|
}
|
|
|
|
pub struct ECParametersSpki {
|
|
pub named_curve_alg: spki::der::asn1::ObjectIdentifier,
|
|
}
|
|
|
|
impl<'a> TryFrom<spki::der::asn1::AnyRef<'a>> for ECParametersSpki {
|
|
type Error = spki::der::Error;
|
|
|
|
fn try_from(
|
|
any: spki::der::asn1::AnyRef<'a>,
|
|
) -> spki::der::Result<ECParametersSpki> {
|
|
let x = any.try_into()?;
|
|
|
|
Ok(Self { named_curve_alg: x })
|
|
}
|
|
}
|
|
|
|
fn import_key_ec(
|
|
key_data: KeyData,
|
|
named_curve: EcNamedCurve,
|
|
) -> Result<ImportKeyResult, AnyError> {
|
|
match key_data {
|
|
KeyData::Raw(data) => {
|
|
// The point is parsed and validated, ultimately the original data is
|
|
// returned though.
|
|
match named_curve {
|
|
EcNamedCurve::P256 => {
|
|
// 1-2.
|
|
let point = p256::EncodedPoint::from_bytes(&data)
|
|
.map_err(|_| data_error("invalid P-256 elliptic curve point"))?;
|
|
// 3.
|
|
if point.is_identity() {
|
|
return Err(data_error("invalid P-256 elliptic curve point"));
|
|
}
|
|
}
|
|
EcNamedCurve::P384 => {
|
|
// 1-2.
|
|
let point = p384::EncodedPoint::from_bytes(&data)
|
|
.map_err(|_| data_error("invalid P-384 elliptic curve point"))?;
|
|
// 3.
|
|
if point.is_identity() {
|
|
return Err(data_error("invalid P-384 elliptic curve point"));
|
|
}
|
|
}
|
|
EcNamedCurve::P521 => {
|
|
// 1-2.
|
|
let point = p521::EncodedPoint::from_bytes(&data)
|
|
.map_err(|_| data_error("invalid P-521 elliptic curve point"))?;
|
|
// 3.
|
|
if point.is_identity() {
|
|
return Err(data_error("invalid P-521 elliptic curve point"));
|
|
}
|
|
}
|
|
};
|
|
Ok(ImportKeyResult::Ec {
|
|
raw_data: RustRawKeyData::Public(data.to_vec().into()),
|
|
})
|
|
}
|
|
KeyData::Pkcs8(data) => {
|
|
let pk = PrivateKeyInfo::from_der(data.as_ref())
|
|
.map_err(|_| data_error("expected valid PKCS#8 data"))?;
|
|
let named_curve_alg = pk
|
|
.algorithm
|
|
.parameters
|
|
.ok_or_else(|| data_error("malformed parameters"))?
|
|
.try_into()
|
|
.unwrap();
|
|
|
|
let pk_named_curve = match named_curve_alg {
|
|
// id-secp256r1
|
|
ID_SECP256R1_OID => Some(EcNamedCurve::P256),
|
|
// id-secp384r1
|
|
ID_SECP384R1_OID => Some(EcNamedCurve::P384),
|
|
// id-secp521r1
|
|
ID_SECP521R1_OID => Some(EcNamedCurve::P521),
|
|
_ => None,
|
|
};
|
|
|
|
if pk_named_curve != Some(named_curve) {
|
|
return Err(data_error("curve mismatch"));
|
|
}
|
|
|
|
Ok(ImportKeyResult::Ec {
|
|
raw_data: RustRawKeyData::Private(data.to_vec().into()),
|
|
})
|
|
}
|
|
KeyData::Spki(data) => {
|
|
// 2-3.
|
|
let pk_info = spki::SubjectPublicKeyInfoRef::try_from(&*data)
|
|
.map_err(|e| data_error(e.to_string()))?;
|
|
|
|
// 4.
|
|
let alg = pk_info.algorithm.oid;
|
|
// id-ecPublicKey
|
|
if alg != elliptic_curve::ALGORITHM_OID {
|
|
return Err(data_error("unsupported algorithm"));
|
|
}
|
|
|
|
// 5-7.
|
|
let params = ECParametersSpki::try_from(
|
|
pk_info
|
|
.algorithm
|
|
.parameters
|
|
.ok_or_else(|| data_error("malformed parameters"))?,
|
|
)
|
|
.map_err(|_| data_error("malformed parameters"))?;
|
|
|
|
// 8-9.
|
|
let named_curve_alg = params.named_curve_alg;
|
|
let pk_named_curve = match named_curve_alg {
|
|
// id-secp256r1
|
|
ID_SECP256R1_OID => Some(EcNamedCurve::P256),
|
|
// id-secp384r1
|
|
ID_SECP384R1_OID => Some(EcNamedCurve::P384),
|
|
// id-secp521r1
|
|
ID_SECP521R1_OID => Some(EcNamedCurve::P521),
|
|
_ => None,
|
|
};
|
|
|
|
// 10.
|
|
let encoded_key;
|
|
|
|
if let Some(pk_named_curve) = pk_named_curve {
|
|
let pk = pk_info.subject_public_key;
|
|
|
|
encoded_key = pk.raw_bytes().to_vec();
|
|
|
|
let bytes_consumed = match named_curve {
|
|
EcNamedCurve::P256 => {
|
|
let point =
|
|
p256::EncodedPoint::from_bytes(&*encoded_key).map_err(|_| {
|
|
data_error("invalid P-256 elliptic curve SPKI data")
|
|
})?;
|
|
if point.is_identity() {
|
|
return Err(data_error("invalid P-256 elliptic curve point"));
|
|
}
|
|
|
|
point.as_bytes().len()
|
|
}
|
|
EcNamedCurve::P384 => {
|
|
let point =
|
|
p384::EncodedPoint::from_bytes(&*encoded_key).map_err(|_| {
|
|
data_error("invalid P-384 elliptic curve SPKI data")
|
|
})?;
|
|
|
|
if point.is_identity() {
|
|
return Err(data_error("invalid P-384 elliptic curve point"));
|
|
}
|
|
|
|
point.as_bytes().len()
|
|
}
|
|
EcNamedCurve::P521 => {
|
|
let point =
|
|
p521::EncodedPoint::from_bytes(&*encoded_key).map_err(|_| {
|
|
data_error("invalid P-521 elliptic curve SPKI data")
|
|
})?;
|
|
|
|
if point.is_identity() {
|
|
return Err(data_error("invalid P-521 elliptic curve point"));
|
|
}
|
|
|
|
point.as_bytes().len()
|
|
}
|
|
};
|
|
|
|
if bytes_consumed != pk_info.subject_public_key.raw_bytes().len() {
|
|
return Err(data_error("public key is invalid (too long)"));
|
|
}
|
|
|
|
// 11.
|
|
if named_curve != pk_named_curve {
|
|
return Err(data_error("curve mismatch"));
|
|
}
|
|
} else {
|
|
return Err(data_error("Unsupported named curve"));
|
|
}
|
|
|
|
Ok(ImportKeyResult::Ec {
|
|
raw_data: RustRawKeyData::Public(encoded_key.into()),
|
|
})
|
|
}
|
|
KeyData::JwkPublicEc { .. } | KeyData::JwkPrivateEc { .. } => {
|
|
import_key_ec_jwk(key_data, named_curve)
|
|
}
|
|
_ => Err(unsupported_format()),
|
|
}
|
|
}
|
|
|
|
fn import_key_aes(key_data: KeyData) -> Result<ImportKeyResult, AnyError> {
|
|
Ok(match key_data {
|
|
KeyData::JwkSecret { k } => {
|
|
let data = BASE64_URL_SAFE_FORGIVING
|
|
.decode(k)
|
|
.map_err(|_| data_error("invalid key data"))?;
|
|
ImportKeyResult::Hmac {
|
|
raw_data: RustRawKeyData::Secret(data.into()),
|
|
}
|
|
}
|
|
_ => return Err(unsupported_format()),
|
|
})
|
|
}
|
|
|
|
fn import_key_hmac(key_data: KeyData) -> Result<ImportKeyResult, AnyError> {
|
|
Ok(match key_data {
|
|
KeyData::JwkSecret { k } => {
|
|
let data = BASE64_URL_SAFE_FORGIVING
|
|
.decode(k)
|
|
.map_err(|_| data_error("invalid key data"))?;
|
|
ImportKeyResult::Hmac {
|
|
raw_data: RustRawKeyData::Secret(data.into()),
|
|
}
|
|
}
|
|
_ => return Err(unsupported_format()),
|
|
})
|
|
}
|