188 lines
6.2 KiB
Rust
188 lines
6.2 KiB
Rust
use std::sync::Arc;
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use base64;
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use ring::constant_time::verify_slices_are_equal;
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use ring::{digest, hmac, rand, signature};
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use untrusted;
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use algorithms::Algorithm;
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use errors::{new_error, ErrorKind, Result};
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use keys::Key;
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/// The actual HS signing + encoding
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fn sign_hmac(alg: &'static digest::Algorithm, key: Key, signing_input: &str) -> Result<String> {
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let signing_key = match key {
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Key::Hmac(bytes) => hmac::SigningKey::new(alg, bytes),
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_ => return Err(ErrorKind::InvalidKeyFormat)?,
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};
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let digest = hmac::sign(&signing_key, signing_input.as_bytes());
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Ok(base64::encode_config::<hmac::Signature>(&digest, base64::URL_SAFE_NO_PAD))
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}
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/// The actual ECDSA signing + encoding
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fn sign_ecdsa(
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alg: &'static signature::EcdsaSigningAlgorithm,
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key: Key,
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signing_input: &str,
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) -> Result<String> {
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let signing_key = match key {
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Key::Pkcs8(bytes) => {
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signature::EcdsaKeyPair::from_pkcs8(alg, untrusted::Input::from(bytes))?
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}
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_ => {
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return Err(new_error(ErrorKind::InvalidKeyFormat));
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}
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};
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let rng = rand::SystemRandom::new();
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let sig = signing_key.sign(&rng, untrusted::Input::from(signing_input.as_bytes()))?;
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Ok(base64::encode_config(&sig, base64::URL_SAFE_NO_PAD))
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}
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/// The actual RSA signing + encoding
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/// Taken from Ring doc https://briansmith.org/rustdoc/ring/signature/index.html
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fn sign_rsa(alg: &'static signature::RsaEncoding, key: Key, signing_input: &str) -> Result<String> {
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let key_pair = match key {
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Key::Der(bytes) => signature::RsaKeyPair::from_der(untrusted::Input::from(bytes))
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.map_err(|_| ErrorKind::InvalidRsaKey)?,
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Key::Pkcs8(bytes) => signature::RsaKeyPair::from_pkcs8(untrusted::Input::from(bytes))
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.map_err(|_| ErrorKind::InvalidRsaKey)?,
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_ => {
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return Err(ErrorKind::InvalidKeyFormat)?;
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}
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};
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let key_pair = Arc::new(key_pair);
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let mut signature = vec![0; key_pair.public_modulus_len()];
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let rng = rand::SystemRandom::new();
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key_pair
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.sign(alg, &rng, signing_input.as_bytes(), &mut signature)
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.map_err(|_| ErrorKind::InvalidRsaKey)?;
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Ok(base64::encode_config::<[u8]>(&signature, base64::URL_SAFE_NO_PAD))
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}
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/// Take the payload of a JWT, sign it using the algorithm given and return
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/// the base64 url safe encoded of the result.
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///
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/// Only use this function if you want to do something other than JWT.
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pub fn sign(signing_input: &str, key: Key, algorithm: Algorithm) -> Result<String> {
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match algorithm {
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Algorithm::HS256 => sign_hmac(&digest::SHA256, key, signing_input),
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Algorithm::HS384 => sign_hmac(&digest::SHA384, key, signing_input),
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Algorithm::HS512 => sign_hmac(&digest::SHA512, key, signing_input),
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Algorithm::ES256 => {
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sign_ecdsa(&signature::ECDSA_P256_SHA256_FIXED_SIGNING, key, signing_input)
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}
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Algorithm::ES384 => {
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sign_ecdsa(&signature::ECDSA_P384_SHA384_FIXED_SIGNING, key, signing_input)
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}
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Algorithm::RS256 => sign_rsa(&signature::RSA_PKCS1_SHA256, key, signing_input),
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Algorithm::RS384 => sign_rsa(&signature::RSA_PKCS1_SHA384, key, signing_input),
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Algorithm::RS512 => sign_rsa(&signature::RSA_PKCS1_SHA512, key, signing_input),
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}
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}
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/// See Ring docs for more details
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fn verify_ring(
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alg: &dyn signature::VerificationAlgorithm,
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signature: &str,
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signing_input: &str,
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key: &[u8],
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) -> Result<bool> {
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let signature_bytes = base64::decode_config(signature, base64::URL_SAFE_NO_PAD)?;
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let public_key_der = untrusted::Input::from(key);
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let message = untrusted::Input::from(signing_input.as_bytes());
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let expected_signature = untrusted::Input::from(signature_bytes.as_slice());
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let res = signature::verify(alg, public_key_der, message, expected_signature);
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Ok(res.is_ok())
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}
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fn verify_ring_es(
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alg: &dyn signature::VerificationAlgorithm,
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signature: &str,
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signing_input: &str,
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key: Key,
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) -> Result<bool> {
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let bytes = match key {
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Key::Pkcs8(bytes) => bytes,
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_ => {
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return Err(ErrorKind::InvalidKeyFormat)?;
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}
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};
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verify_ring(alg, signature, signing_input, bytes)
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}
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fn verify_ring_rsa(
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alg: &dyn signature::VerificationAlgorithm,
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signature: &str,
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signing_input: &str,
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key: Key,
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) -> Result<bool> {
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let bytes = match key {
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Key::Der(bytes) | Key::Pkcs8(bytes) => bytes,
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_ => {
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return Err(ErrorKind::InvalidKeyFormat)?;
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}
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};
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verify_ring(alg, signature, signing_input, bytes)
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}
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/// Compares the signature given with a re-computed signature for HMAC or using the public key
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/// for RSA.
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///
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/// Only use this function if you want to do something other than JWT.
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///
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/// `signature` is the signature part of a jwt (text after the second '.')
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///
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/// `signing_input` is base64(header) + "." + base64(claims)
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pub fn verify(
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signature: &str,
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signing_input: &str,
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public_key: Key,
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algorithm: Algorithm,
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) -> Result<bool> {
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match algorithm {
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Algorithm::HS256 | Algorithm::HS384 | Algorithm::HS512 => {
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// we just re-sign the data with the key and compare if they are equal
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let signed = sign(signing_input, public_key, algorithm)?;
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Ok(verify_slices_are_equal(signature.as_ref(), signed.as_ref()).is_ok())
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}
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Algorithm::ES256 => verify_ring_es(
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&signature::ECDSA_P256_SHA256_FIXED,
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signature,
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signing_input,
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public_key,
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),
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Algorithm::ES384 => verify_ring_es(
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&signature::ECDSA_P384_SHA384_FIXED,
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signature,
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signing_input,
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public_key,
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),
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Algorithm::RS256 => verify_ring_rsa(
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&signature::RSA_PKCS1_2048_8192_SHA256,
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signature,
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signing_input,
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public_key,
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),
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Algorithm::RS384 => verify_ring_rsa(
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&signature::RSA_PKCS1_2048_8192_SHA384,
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signature,
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signing_input,
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public_key,
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),
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Algorithm::RS512 => verify_ring_rsa(
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&signature::RSA_PKCS1_2048_8192_SHA512,
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signature,
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signing_input,
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public_key,
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),
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}
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}
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