use axum::{extract::{FromRef, FromRequestParts}, http::{header, request::Parts}}; use base64::Engine; use openssl::{hash::MessageDigest, pkey::PKey, sign::Verifier}; use sea_orm::{ColumnTrait, Condition, EntityTrait, QueryFilter}; use crate::{errors::UpubError, model, server::Context}; #[derive(Debug, Clone)] pub enum Identity { Anonymous, Local(String), Remote(String), } impl Identity { pub fn filter_condition(&self) -> Condition { let base_cond = Condition::any().add(model::addressing::Column::Actor.eq(apb::target::PUBLIC)); match self { Identity::Anonymous => base_cond, Identity::Local(uid) => base_cond.add(model::addressing::Column::Actor.eq(uid)), Identity::Remote(server) => base_cond.add(model::addressing::Column::Server.eq(server)), // TODO should we allow all users on same server to see? or just specific user?? } } } pub struct AuthIdentity(pub Identity); #[axum::async_trait] impl FromRequestParts for AuthIdentity where Context: FromRef, S: Send + Sync, { type Rejection = UpubError; async fn from_request_parts(parts: &mut Parts, state: &S) -> Result { let ctx = Context::from_ref(state); let mut identity = Identity::Anonymous; let auth_header = parts .headers .get(header::AUTHORIZATION) .map(|v| v.to_str().unwrap_or("")) .unwrap_or(""); if auth_header.starts_with("Bearer ") { match model::session::Entity::find_by_id(auth_header.replace("Bearer ", "")) .filter(Condition::all().add(model::session::Column::Expires.gt(chrono::Utc::now()))) .one(ctx.db()) .await { Ok(Some(x)) => identity = Identity::Local(x.actor), Ok(None) => return Err(UpubError::unauthorized()), Err(e) => { tracing::error!("failed querying user session: {e}"); return Err(UpubError::internal_server_error()) }, } } if let Some(sig) = parts .headers .get("Signature") .map(|v| v.to_str().unwrap_or("")) { let http_signature = HttpSignature::parse(sig); let user_id = http_signature.key_id.replace("#main-key", ""); match ctx.fetch().user(&user_id).await { Ok(user) => { let to_sign = http_signature.build_string(parts); // TODO assert payload's digest is equal to signature's match verify_control_text(&to_sign, &user.public_key, &http_signature.signature) { Ok(true) => identity = Identity::Remote(Context::server(&user_id)), Ok(false) => tracing::warn!("invalid signature"), Err(e) => tracing::error!("error verifying signature: {e}"), } }, Err(e) => tracing::warn!("could not fetch user (won't verify): {e}"), } } Ok(AuthIdentity(identity)) } } fn verify_control_text(txt: &str, key: &str, control: &str) -> crate::Result { let pubkey = PKey::public_key_from_pem(key.as_bytes())?; let mut verifier = Verifier::new(MessageDigest::sha256(), &pubkey).unwrap(); verifier.update(txt.as_bytes())?; Ok(verifier.verify(&base64::prelude::BASE64_URL_SAFE.decode(control).unwrap_or_default())?) } #[derive(Debug, Clone, Default)] pub struct HttpSignature { key_id: String, algorithm: String, headers: Vec, signature: String, } impl HttpSignature { pub fn parse(header: &str) -> Self { let mut sig = HttpSignature::default(); header.split(',') .filter_map(|x| x.split_once('=')) .map(|(k, v)| (k, v.trim_end_matches('"').trim_matches('"'))) .for_each(|(k, v)| match k { "keyId" => sig.key_id = v.to_string(), "algorithm" => sig.algorithm = v.to_string(), "signature" => sig.signature = v.to_string(), "headers" => sig.headers = v.split(' ').map(|x| x.to_string()).collect(), _ => tracing::warn!("unexpected field in http signature: '{k}=\"{v}\"'"), }); sig } pub fn build_string(&self, parts: &Parts) -> String { let mut out = Vec::new(); for header in self.headers.iter() { match header.as_str() { "(request-target)" => out.push( format!( "(request-target): {} {}", parts.method.to_string().to_lowercase(), parts.uri.path_and_query().map(|x| x.as_str()).unwrap_or("/") ) ), // TODO other pseudo-headers, _ => out.push(format!("{}: {}", header.to_lowercase(), parts.headers.get(header).map(|x| x.to_str().unwrap_or("")).unwrap_or("") )), } } out.join("\n") } pub fn digest(&self) -> MessageDigest { match self.algorithm.as_str() { "rsa-sha512" => MessageDigest::sha512(), "rsa-sha384" => MessageDigest::sha384(), "rsa-sha256" => MessageDigest::sha256(), "rsa-sha1" => MessageDigest::sha1(), _ => { tracing::error!("unknown digest algorithm, trying with rsa-sha256"); MessageDigest::sha256() } } } }