use super::PathInfoService; use crate::proto::PathInfo; use async_stream::try_stream; use data_encoding::BASE64; use futures::stream::BoxStream; use prost::Message; use std::path::Path; use tonic::async_trait; use tracing::instrument; use tracing::warn; use tvix_castore::Error; /// SledPathInfoService stores PathInfo in a [sled](https://github.com/spacejam/sled). /// /// The PathInfo messages are stored as encoded protos, and keyed by their output hash, /// as that's currently the only request type available. pub struct SledPathInfoService { db: sled::Db, } impl SledPathInfoService { pub fn new>(p: P) -> Result { let config = sled::Config::default() .use_compression(false) // is a required parameter .path(p); let db = config.open()?; Ok(Self { db }) } pub fn new_temporary() -> Result { let config = sled::Config::default().temporary(true); let db = config.open()?; Ok(Self { db }) } } #[async_trait] impl PathInfoService for SledPathInfoService { #[instrument(level = "trace", skip_all, fields(path_info.digest = BASE64.encode(&digest)))] async fn get(&self, digest: [u8; 20]) -> Result, Error> { let resp = tokio::task::spawn_blocking({ let db = self.db.clone(); move || db.get(digest.as_slice()) }) .await? .map_err(|e| { warn!("failed to retrieve PathInfo: {}", e); Error::StorageError(format!("failed to retrieve PathInfo: {}", e)) })?; match resp { None => Ok(None), Some(data) => { let path_info = PathInfo::decode(&*data).map_err(|e| { warn!("failed to decode stored PathInfo: {}", e); Error::StorageError(format!("failed to decode stored PathInfo: {}", e)) })?; Ok(Some(path_info)) } } } #[instrument(level = "trace", skip_all, fields(path_info.root_node = ?path_info.node))] async fn put(&self, path_info: PathInfo) -> Result { // Call validate on the received PathInfo message. let store_path = path_info .validate() .map_err(|e| Error::InvalidRequest(format!("failed to validate PathInfo: {}", e)))?; // In case the PathInfo is valid, we were able to parse a StorePath. // Store it in the database, keyed by its digest. // This overwrites existing PathInfo objects. tokio::task::spawn_blocking({ let db = self.db.clone(); let k = *store_path.digest(); let data = path_info.encode_to_vec(); move || db.insert(k, data) }) .await? .map_err(|e| { warn!("failed to insert PathInfo: {}", e); Error::StorageError(format! { "failed to insert PathInfo: {}", e }) })?; Ok(path_info) } fn list(&self) -> BoxStream<'static, Result> { let db = self.db.clone(); let mut it = db.iter().values(); Box::pin(try_stream! { // Don't block the executor while waiting for .next(), so wrap that // in a spawn_blocking call. // We need to pass around it to be able to reuse it. while let (Some(elem), new_it) = tokio::task::spawn_blocking(move || { (it.next(), it) }).await? { it = new_it; let data = elem.map_err(|e| { warn!("failed to retrieve PathInfo: {}", e); Error::StorageError(format!("failed to retrieve PathInfo: {}", e)) })?; let path_info = PathInfo::decode(&*data).map_err(|e| { warn!("failed to decode stored PathInfo: {}", e); Error::StorageError(format!("failed to decode stored PathInfo: {}", e)) })?; yield path_info } }) } }