use std::sync::Arc; use futures::stream::BoxStream; use nix_compat::nixbase32; use tonic::async_trait; use tracing::{debug, instrument}; use tvix_castore::composition::{CompositionContext, ServiceBuilder}; use tvix_castore::Error; use super::{PathInfo, PathInfoService}; /// Asks near first, if not found, asks far. /// If found in there, returns it, and *inserts* it into /// near. /// There is no negative cache. /// Inserts and listings are not implemented for now. pub struct Cache { near: PS1, far: PS2, } impl Cache { pub fn new(near: PS1, far: PS2) -> Self { Self { near, far } } } #[async_trait] impl PathInfoService for Cache where PS1: PathInfoService, PS2: PathInfoService, { #[instrument(level = "trace", skip_all, fields(path_info.digest = nixbase32::encode(&digest)))] async fn get(&self, digest: [u8; 20]) -> Result, Error> { match self.near.get(digest).await? { Some(path_info) => { debug!("serving from cache"); Ok(Some(path_info)) } None => { debug!("not found in near, asking remote…"); match self.far.get(digest).await? { None => Ok(None), Some(path_info) => { debug!("found in remote, adding to cache"); self.near.put(path_info.clone()).await?; Ok(Some(path_info)) } } } } } async fn put(&self, _path_info: PathInfo) -> Result { Err(Error::StorageError("unimplemented".to_string())) } fn list(&self) -> BoxStream<'static, Result> { Box::pin(tokio_stream::once(Err(Error::StorageError( "unimplemented".to_string(), )))) } } #[derive(serde::Deserialize)] pub struct CacheConfig { pub near: String, pub far: String, } impl TryFrom for CacheConfig { type Error = Box; fn try_from(_url: url::Url) -> Result { Err(Error::StorageError( "Instantiating a CombinedPathInfoService from a url is not supported".into(), ) .into()) } } #[async_trait] impl ServiceBuilder for CacheConfig { type Output = dyn PathInfoService; async fn build<'a>( &'a self, _instance_name: &str, context: &CompositionContext, ) -> Result, Box> { let (near, far) = futures::join!( context.resolve::(self.near.clone()), context.resolve::(self.far.clone()) ); Ok(Arc::new(Cache { near: near?, far: far?, })) } } #[cfg(test)] mod test { use std::num::NonZeroUsize; use crate::{ pathinfoservice::{LruPathInfoService, MemoryPathInfoService, PathInfoService}, tests::fixtures::PATH_INFO, }; /// Helper function setting up an instance of a "far" and "near" /// PathInfoService. async fn create_pathinfoservice() -> super::Cache { // Create an instance of a "far" PathInfoService. let far = MemoryPathInfoService::default(); // … and an instance of a "near" PathInfoService. let near = LruPathInfoService::with_capacity(NonZeroUsize::new(1).unwrap()); // create a Pathinfoservice combining the two and return it. super::Cache::new(near, far) } /// Getting from the far backend is gonna insert it into the near one. #[tokio::test] async fn test_populate_cache() { let svc = create_pathinfoservice().await; // query the PathInfo, things should not be there. assert!(svc .get(*PATH_INFO.store_path.digest()) .await .unwrap() .is_none()); // insert it into the far one. svc.far.put(PATH_INFO.clone()).await.unwrap(); // now try getting it again, it should succeed. assert_eq!( Some(PATH_INFO.clone()), svc.get(*PATH_INFO.store_path.digest()).await.unwrap() ); // peek near, it should now be there. assert_eq!( Some(PATH_INFO.clone()), svc.near.get(*PATH_INFO.store_path.digest()).await.unwrap() ); } }