Crates.io | httpsig-hyper |
lib.rs | httpsig-hyper |
version | 0.0.16 |
source | src |
created_at | 2024-02-07 13:28:18.367684 |
updated_at | 2024-08-30 07:24:28.949083 |
description | Hyper extension for http message signatures (RFC9421) |
homepage | https://github.com/junkurihara/httpsig-rs |
repository | https://github.com/junkurihara/httpsig-rs |
max_upload_size | |
id | 1130510 |
size | 101,926 |
Work in Progress
Implementation of IETF RFC 9421 of http message signatures.
This crates provides a basic library httpsig and its extension of hyper
's http library. At this point, our library can sign and verify request and response messages of only hyper
.
- [ ] RSASSA-PSS using SHA-512
- [ ] RSASSA-PKCS1-v1_5 using SHA-256
At this point, we have no plan to support RSA signature due to the problem related to the non-constant time operation, i.e., Mervin Attack.
hyper
(httpsig-hyper
)This is a case signing and verifying a signature generated with asymmetric cryptography (like EdDSA), where PUBLIC_KEY_STRING
and SECRET_KEY_STRING
is a public and private keys in PEM format, respectively. Generating and verifying a MAC through symmetric crypto (HMAC-SHA256) is also supported.
use http::Request;
use http_body_util::Full;
use httpsig_hyper::{prelude::*, *};
type SignatureName = String;
const COVERED_COMPONENTS: &[&str] = &["@method", "date", "content-type", "content-digest"];
/// Signer function that generates a request with a signature
async fn signer<B>(&mut req: Request<B>) -> HttpSigResult<()> {
// build signature params that indicates objects to be signed
let covered_components = COVERED_COMPONENTS
.iter()
.map(|v| message_component::HttpMessageComponentId::try_from(*v))
.collect::<Result<Vec<_>, _>>()
.unwrap();
let mut signature_params = HttpSignatureParams::try_new(&covered_components).unwrap();
// set signing/verifying key information, alg and keyid
let secret_key = SecretKey::from_pem(SECRET_KEY_STRING).unwrap();
signature_params.set_key_info(&secret_key);
req
.set_message_signature(&signature_params, &secret_key, Some("custom_sig_name"))
.await
}
/// Validation function that verifies a request with a signature
async fn verifier<B>(req: &Request<B>) -> HttpSigResult<SignatureName> {
let public_key = PublicKey::from_pem(PUBLIC_KEY_STRING).unwrap();
let key_id = public_key.key_id();
// verify signature with checking key_id
req.verify_message_signature(&public_key, Some(&key_id)).await
}
#[tokio::main]
async fn main() {
let mut request_from_sender = ...;
let res = signer(request_from_sender).await;
assert!(res.is_ok())
// receiver verifies the request with a signature
let verified_message = receiver(&request_from_sender).await;
assert!(verification_res.is_ok());
// if needed, content-digest can be verified separately
let verified_request = request_from_sender.verify_content_digest().await;
assert!(verified_request.is_ok());
}
use http::{Request, Response};
use http_body_util::Full;
use httpsig_hyper::{prelude::*, *};
type SignatureName = String;
/// This includes the method of the request corresponding to the request (the second element)
const COVERED_COMPONENTS: &[&str] = &["@status", "\"@method\";req", "date", "content-type", "content-digest"];
/// Signer function that generates a response with a signature from response itself and corresponding request
async fn signer<B>(&mut res: Response<B>, corresponding_req: &Request<B>) -> HttpSigResult<()> {
// build signature params that indicates objects to be signed
let covered_components = COVERED_COMPONENTS
.iter()
.map(|v| message_component::HttpMessageComponentId::try_from(*v))
.collect::<Result<Vec<_>, _>>()
.unwrap();
let mut signature_params = HttpSignatureParams::try_new(&covered_components).unwrap();
// set signing/verifying key information, alg and keyid
let secret_key = SecretKey::from_pem(SECRET_KEY_STRING).unwrap();
signature_params.set_key_info(&secret_key);
req
.set_message_signature(&signature_params, &secret_key, Some("custom_sig_name"), Some(corresponding_req))
.await
}
/// Validation function that verifies a response with a signature from response itself and sent request
async fn verifier<B>(res: &Response<B>, sent_req: &Request<B>) -> HttpSigResult<SignatureName> {
let public_key = PublicKey::from_pem(PUBLIC_KEY_STRING).unwrap();
let key_id = public_key.key_id();
// verify signature with checking key_id
res.verify_message_signature(&public_key, Some(&key_id), Some(sent_req)).await
}
See ./httpsig-hyper/examples for detailed examples with hyper
extension.