use std::collections::HashMap; use std::sync::Arc; use argon2::password_hash::PasswordHash; use async_trait::async_trait; use futures::future::Future; use http::header::{ACCESS_CONTROL_ALLOW_METHODS, ACCESS_CONTROL_ALLOW_ORIGIN, ALLOW}; use hyper::{Body, Request, Response, StatusCode}; use opentelemetry::trace::SpanRef; #[cfg(feature = "metrics")] use opentelemetry_prometheus::PrometheusExporter; #[cfg(feature = "metrics")] use prometheus::{Encoder, TextEncoder}; use garage_model::garage::Garage; use garage_rpc::system::ClusterHealthStatus; use garage_util::error::Error as GarageError; use garage_util::socket_address::UnixOrTCPSocketAddress; use crate::generic_server::*; use crate::admin::bucket::*; use crate::admin::cluster::*; use crate::admin::error::*; use crate::admin::key::*; use crate::admin::router::{Authorization, Endpoint}; use crate::helpers::host_to_bucket; pub struct AdminApiServer { garage: Arc, #[cfg(feature = "metrics")] exporter: PrometheusExporter, metrics_token: Option, admin_token: Option, } impl AdminApiServer { pub fn new( garage: Arc, #[cfg(feature = "metrics")] exporter: PrometheusExporter, ) -> Self { let cfg = &garage.config.admin; let metrics_token = cfg.metrics_token.as_deref().map(hash_bearer_token); let admin_token = cfg.admin_token.as_deref().map(hash_bearer_token); Self { garage, #[cfg(feature = "metrics")] exporter, metrics_token, admin_token, } } pub async fn run( self, bind_addr: UnixOrTCPSocketAddress, shutdown_signal: impl Future, ) -> Result<(), GarageError> { let region = self.garage.config.s3_api.s3_region.clone(); ApiServer::new(region, self) .run_server(bind_addr, Some(0o220), shutdown_signal) .await } fn handle_options(&self, _req: &Request) -> Result, Error> { Ok(Response::builder() .status(StatusCode::NO_CONTENT) .header(ALLOW, "OPTIONS, GET, POST") .header(ACCESS_CONTROL_ALLOW_METHODS, "OPTIONS, GET, POST") .header(ACCESS_CONTROL_ALLOW_ORIGIN, "*") .body(Body::empty())?) } async fn handle_check_domain(&self, req: Request) -> Result, Error> { let query_params: HashMap = req .uri() .query() .map(|v| { url::form_urlencoded::parse(v.as_bytes()) .into_owned() .collect() }) .unwrap_or_else(HashMap::new); let has_domain_key = query_params.contains_key("domain"); if !has_domain_key { return Err(Error::bad_request("No domain query string found")); } let domain = query_params .get("domain") .ok_or_internal_error("Could not parse domain query string")?; if self.check_domain(domain).await? { Ok(Response::builder() .status(StatusCode::OK) .body(Body::from(format!( "Domain '{domain}' is managed by Garage" )))?) } else { Err(Error::bad_request(format!( "Domain '{domain}' is not managed by Garage" ))) } } async fn check_domain(&self, domain: &str) -> Result { // Resolve bucket from domain name, inferring if the website must be activated for the // domain to be valid. let (bucket_name, must_check_website) = if let Some(bname) = self .garage .config .s3_api .root_domain .as_ref() .and_then(|rd| host_to_bucket(domain, rd)) { (bname.to_string(), false) } else if let Some(bname) = self .garage .config .s3_web .as_ref() .and_then(|sw| host_to_bucket(domain, sw.root_domain.as_str())) { (bname.to_string(), true) } else { (domain.to_string(), true) }; let bucket_id = match self .garage .bucket_helper() .resolve_global_bucket_name(&bucket_name) .await? { Some(bucket_id) => bucket_id, None => return Ok(false), }; if !must_check_website { return Ok(true); } let bucket = self .garage .bucket_helper() .get_existing_bucket(bucket_id) .await?; let bucket_state = bucket.state.as_option().unwrap(); let bucket_website_config = bucket_state.website_config.get(); match bucket_website_config { Some(_v) => Ok(true), None => Ok(false), } } fn handle_health(&self) -> Result, Error> { let health = self.garage.system.health(); let (status, status_str) = match health.status { ClusterHealthStatus::Healthy => (StatusCode::OK, "Garage is fully operational"), ClusterHealthStatus::Degraded => ( StatusCode::OK, "Garage is operational but some storage nodes are unavailable", ), ClusterHealthStatus::Unavailable => ( StatusCode::SERVICE_UNAVAILABLE, "Quorum is not available for some/all partitions, reads and writes will fail", ), }; let status_str = format!( "{}\nConsult the full health check API endpoint at /v0/health for more details\n", status_str ); Ok(Response::builder() .status(status) .header(http::header::CONTENT_TYPE, "text/plain") .body(Body::from(status_str))?) } fn handle_metrics(&self) -> Result, Error> { #[cfg(feature = "metrics")] { use opentelemetry::trace::Tracer; let mut buffer = vec![]; let encoder = TextEncoder::new(); let tracer = opentelemetry::global::tracer("garage"); let metric_families = tracer.in_span("admin/gather_metrics", |_| { self.exporter.registry().gather() }); encoder .encode(&metric_families, &mut buffer) .ok_or_internal_error("Could not serialize metrics")?; Ok(Response::builder() .status(StatusCode::OK) .header(http::header::CONTENT_TYPE, encoder.format_type()) .body(Body::from(buffer))?) } #[cfg(not(feature = "metrics"))] Err(Error::bad_request( "Garage was built without the metrics feature".to_string(), )) } } #[async_trait] impl ApiHandler for AdminApiServer { const API_NAME: &'static str = "admin"; const API_NAME_DISPLAY: &'static str = "Admin"; type Endpoint = Endpoint; type Error = Error; fn parse_endpoint(&self, req: &Request) -> Result { Endpoint::from_request(req) } async fn handle( &self, req: Request, endpoint: Endpoint, ) -> Result, Error> { let required_auth_hash = match endpoint.authorization_type() { Authorization::None => None, Authorization::MetricsToken => self.metrics_token.as_deref(), Authorization::AdminToken => match self.admin_token.as_deref() { None => return Err(Error::forbidden( "Admin token isn't configured, admin API access is disabled for security.", )), Some(t) => Some(t), }, }; if let Some(password_hash) = required_auth_hash { match req.headers().get("Authorization") { None => return Err(Error::forbidden("Authorization token must be provided")), Some(authorization) => { verify_bearer_token(&authorization, password_hash)?; } } } match endpoint { Endpoint::Options => self.handle_options(&req), Endpoint::CheckDomain => self.handle_check_domain(req).await, Endpoint::Health => self.handle_health(), Endpoint::Metrics => self.handle_metrics(), Endpoint::GetClusterStatus => handle_get_cluster_status(&self.garage).await, Endpoint::GetClusterHealth => handle_get_cluster_health(&self.garage).await, Endpoint::ConnectClusterNodes => handle_connect_cluster_nodes(&self.garage, req).await, // Layout Endpoint::GetClusterLayout => handle_get_cluster_layout(&self.garage).await, Endpoint::UpdateClusterLayout => handle_update_cluster_layout(&self.garage, req).await, Endpoint::ApplyClusterLayout => handle_apply_cluster_layout(&self.garage, req).await, Endpoint::RevertClusterLayout => handle_revert_cluster_layout(&self.garage, req).await, // Keys Endpoint::ListKeys => handle_list_keys(&self.garage).await, Endpoint::GetKeyInfo { id, search } => { handle_get_key_info(&self.garage, id, search).await } Endpoint::CreateKey => handle_create_key(&self.garage, req).await, Endpoint::ImportKey => handle_import_key(&self.garage, req).await, Endpoint::UpdateKey { id } => handle_update_key(&self.garage, id, req).await, Endpoint::DeleteKey { id } => handle_delete_key(&self.garage, id).await, // Buckets Endpoint::ListBuckets => handle_list_buckets(&self.garage).await, Endpoint::GetBucketInfo { id, global_alias } => { handle_get_bucket_info(&self.garage, id, global_alias).await } Endpoint::CreateBucket => handle_create_bucket(&self.garage, req).await, Endpoint::DeleteBucket { id } => handle_delete_bucket(&self.garage, id).await, Endpoint::UpdateBucket { id } => handle_update_bucket(&self.garage, id, req).await, // Bucket-key permissions Endpoint::BucketAllowKey => { handle_bucket_change_key_perm(&self.garage, req, true).await } Endpoint::BucketDenyKey => { handle_bucket_change_key_perm(&self.garage, req, false).await } // Bucket aliasing Endpoint::GlobalAliasBucket { id, alias } => { handle_global_alias_bucket(&self.garage, id, alias).await } Endpoint::GlobalUnaliasBucket { id, alias } => { handle_global_unalias_bucket(&self.garage, id, alias).await } Endpoint::LocalAliasBucket { id, access_key_id, alias, } => handle_local_alias_bucket(&self.garage, id, access_key_id, alias).await, Endpoint::LocalUnaliasBucket { id, access_key_id, alias, } => handle_local_unalias_bucket(&self.garage, id, access_key_id, alias).await, } } } impl ApiEndpoint for Endpoint { fn name(&self) -> &'static str { Endpoint::name(self) } fn add_span_attributes(&self, _span: SpanRef<'_>) {} } fn hash_bearer_token(token: &str) -> String { use argon2::{ password_hash::{rand_core::OsRng, PasswordHasher, SaltString}, Argon2, }; let salt = SaltString::generate(&mut OsRng); let argon2 = Argon2::default(); argon2 .hash_password(token.trim().as_bytes(), &salt) .expect("could not hash API token") .to_string() } fn verify_bearer_token(token: &hyper::http::HeaderValue, password_hash: &str) -> Result<(), Error> { use argon2::{password_hash::PasswordVerifier, Argon2}; let parsed_hash = PasswordHash::new(&password_hash).unwrap(); token .to_str() .ok() .and_then(|header| header.strip_prefix("Bearer ")) .and_then(|token| { Argon2::default() .verify_password(token.trim().as_bytes(), &parsed_hash) .ok() }) .ok_or_else(|| Error::forbidden("Invalid authorization token"))?; Ok(()) }