use crate::{blobservice::BlobService, chunkservice::ChunkService, Error}; use data_encoding::BASE64; use std::io::{BufWriter, Write}; use tokio::{sync::mpsc::channel, task}; use tokio_stream::wrappers::ReceiverStream; use tonic::{async_trait, Request, Response, Status, Streaming}; use tracing::{debug, error, instrument, warn}; pub struct GRPCBlobServiceWrapper { blob_service: BS, chunk_service: CS, } impl GRPCBlobServiceWrapper { pub fn new(blob_service: BS, chunk_service: CS) -> Self { Self { blob_service, chunk_service, } } // upload the chunk to the chunk service, and return its digest (or an error) when done. #[instrument(skip(chunk_service))] fn upload_chunk(chunk_service: CS, chunk_data: Vec) -> Result, Error> { let mut hasher = blake3::Hasher::new(); if chunk_data.len() >= 128 * 1024 { hasher.update_rayon(&chunk_data); } else { hasher.update(&chunk_data); } let digest = hasher.finalize(); if chunk_service.has(digest.as_bytes())? { debug!("already has chunk, skipping"); } let digest_resp = chunk_service.put(chunk_data)?; assert_eq!(digest_resp, digest.as_bytes()); Ok(digest.as_bytes().to_vec()) } } #[async_trait] impl< BS: BlobService + Send + Sync + Clone + 'static, CS: ChunkService + Send + Sync + Clone + 'static, > super::blob_service_server::BlobService for GRPCBlobServiceWrapper { type ReadStream = ReceiverStream>; #[instrument(skip(self))] async fn stat( &self, request: Request, ) -> Result, Status> { let rq = request.into_inner(); match self.blob_service.stat(&rq) { Ok(None) => Err(Status::not_found(format!( "blob {} not found", BASE64.encode(&rq.digest) ))), Ok(Some(blob_meta)) => Ok(Response::new(blob_meta)), Err(e) => Err(e.into()), } } #[instrument(skip(self))] async fn read( &self, request: Request, ) -> Result, Status> { let req = request.into_inner(); let (tx, rx) = channel(5); // query the chunk service for more detailed blob info let stat_resp = self.blob_service.stat(&super::StatBlobRequest { digest: req.digest.to_vec(), include_chunks: true, ..Default::default() })?; match stat_resp { None => { // If the stat didn't return any blobmeta, the client might // still have asked for a single chunk to be read. // Check the chunkstore. if let Some(data) = self.chunk_service.get(&req.digest)? { // We already know the hash matches, and contrary to // iterating over a blobmeta, we can't know the size, // so send the contents of that chunk over, // as the first (and only) element of the stream. task::spawn(async move { let res = Ok(super::BlobChunk { data }); // send the result to the client. If the client already left, that's also fine. if (tx.send(res).await).is_err() { debug!("receiver dropped"); } }); } else { return Err(Status::not_found(format!( "blob {} not found", BASE64.encode(&req.digest), ))); } } Some(blobmeta) => { let chunk_client = self.chunk_service.clone(); // TODO: use BlobReader? // But then we might not be able to send compressed chunks as-is. // Might require implementing https://docs.rs/futures-core/latest/futures_core/stream/trait.Stream.html for it // first, so we can .next().await in here. task::spawn(async move { for chunkmeta in blobmeta.chunks { // request chunk. // We don't need to validate the digest again, as // that's required for all implementations of ChunkService. let res = match chunk_client.get(&chunkmeta.digest) { Err(e) => Err(e.into()), // TODO: make this a separate error type Ok(None) => Err(Error::StorageError(format!( "consistency error: chunk {} for blob {} not found", BASE64.encode(&chunkmeta.digest), BASE64.encode(&req.digest), )) .into()), Ok(Some(data)) => { // We already know the hash matches, but also // check the size matches what chunkmeta said. if data.len() as u32 != chunkmeta.size { Err(Error::StorageError(format!( "consistency error: chunk {} for blob {} has wrong size, expected {}, got {}", BASE64.encode(&chunkmeta.digest), BASE64.encode(&req.digest), chunkmeta.size, data.len(), )).into()) } else { // send out the current chunk // TODO: we might want to break this up further if too big? Ok(super::BlobChunk { data }) } } }; // send the result to the client if (tx.send(res).await).is_err() { debug!("receiver dropped"); break; } } }); } } let receiver_stream = ReceiverStream::new(rx); Ok(Response::new(receiver_stream)) } #[instrument(skip(self))] async fn put( &self, request: Request>, ) -> Result, Status> { let mut req_inner = request.into_inner(); // instantiate a [BlobWriter] to write all data received with a client, // but wrap it in a pretty large (1MiB) [BufWriter] to prevent // excessive useless chunk attempts. let mut blob_writer = crate::BlobWriter::new(&self.chunk_service); { let mut blob_writer_buffered = BufWriter::with_capacity(1024 * 1024, &mut blob_writer); // receive data from the client, and write them all to the blob_writer. while let Some(blob_chunk) = req_inner.message().await? { if let Err(e) = blob_writer_buffered.write_all(&blob_chunk.data) { error!(e=%e,"unable to write blob data"); return Err(Status::internal("unable to write blob data")); } } blob_writer_buffered.flush()?; } // run finalize let (blob_digest, blob_meta) = blob_writer .finalize() .map_err(|_| Status::internal("unable to finalize blob"))?; // check if we have the received blob in the [BlobService] already. let resp = self.blob_service.stat(&super::StatBlobRequest { digest: blob_digest.to_vec(), ..Default::default() })?; // if not, store. if resp.is_none() { self.blob_service.put(&blob_digest, blob_meta)?; } // return to client. Ok(Response::new(super::PutBlobResponse { digest: blob_digest, })) } }