use super::RenderError; use async_recursion::async_recursion; use count_write::CountWrite; use nix_compat::nar::writer::r#async as nar_writer; use sha2::{Digest, Sha256}; use std::{ pin::Pin, sync::Arc, task::{self, Poll}, }; use tokio::io::{self, AsyncWrite, BufReader}; use tokio_util::compat::{TokioAsyncReadCompatExt, TokioAsyncWriteCompatExt}; use tracing::warn; use tvix_castore::{ blobservice::BlobService, directoryservice::DirectoryService, proto::{self as castorepb, NamedNode}, Error, }; /// Invoke [write_nar], and return the size and sha256 digest of the produced /// NAR output. pub async fn calculate_size_and_sha256( root_node: &castorepb::node::Node, blob_service: Arc, directory_service: Arc, ) -> Result<(u64, [u8; 32]), RenderError> { let mut h = Sha256::new(); let mut cw = CountWrite::from(&mut h); write_nar( // The hasher doesn't speak async. It doesn't // actually do any I/O, so it's fine to wrap. AsyncIoBridge(&mut cw), root_node, blob_service, directory_service, ) .await?; Ok((cw.count(), h.finalize().into())) } /// The inverse of [tokio_util::io::SyncIoBridge]. /// Don't use this with anything that actually does blocking I/O. struct AsyncIoBridge(T); impl AsyncWrite for AsyncIoBridge { fn poll_write( self: Pin<&mut Self>, _cx: &mut task::Context<'_>, buf: &[u8], ) -> Poll> { Poll::Ready(self.get_mut().0.write(buf)) } fn poll_flush(self: Pin<&mut Self>, _cx: &mut task::Context<'_>) -> Poll> { Poll::Ready(self.get_mut().0.flush()) } fn poll_shutdown( self: Pin<&mut Self>, _cx: &mut task::Context<'_>, ) -> Poll> { Poll::Ready(Ok(())) } } /// Accepts a [castorepb::node::Node] pointing to the root of a (store) path, /// and uses the passed blob_service and directory_service to perform the /// necessary lookups as it traverses the structure. /// The contents in NAR serialization are writen to the passed [AsyncWrite]. pub async fn write_nar( w: W, proto_root_node: &castorepb::node::Node, blob_service: Arc, directory_service: Arc, ) -> Result<(), RenderError> { // Initialize NAR writer let mut w = w.compat_write(); let nar_root_node = nar_writer::open(&mut w) .await .map_err(RenderError::NARWriterError)?; walk_node( nar_root_node, proto_root_node, blob_service, directory_service, ) .await?; Ok(()) } /// Process an intermediate node in the structure. /// This consumes the node. #[async_recursion] async fn walk_node( nar_node: nar_writer::Node<'async_recursion, '_>, proto_node: &castorepb::node::Node, blob_service: Arc, directory_service: Arc, ) -> Result<(), RenderError> { match proto_node { castorepb::node::Node::Symlink(proto_symlink_node) => { nar_node .symlink(&proto_symlink_node.target) .await .map_err(RenderError::NARWriterError)?; } castorepb::node::Node::File(proto_file_node) => { let digest = proto_file_node.digest.clone().try_into().map_err(|_e| { warn!( file_node = ?proto_file_node, "invalid digest length in file node", ); RenderError::StoreError(Error::StorageError( "invalid digest len in file node".to_string(), )) })?; let blob_reader = match blob_service .open_read(&digest) .await .map_err(RenderError::StoreError)? { Some(blob_reader) => Ok(BufReader::new(blob_reader)), None => Err(RenderError::NARWriterError(io::Error::new( io::ErrorKind::NotFound, format!("blob with digest {} not found", &digest), ))), }?; nar_node .file( proto_file_node.executable, proto_file_node.size, &mut blob_reader.compat(), ) .await .map_err(RenderError::NARWriterError)?; } castorepb::node::Node::Directory(proto_directory_node) => { let digest = proto_directory_node .digest .clone() .try_into() .map_err(|_e| { RenderError::StoreError(Error::StorageError( "invalid digest len in directory node".to_string(), )) })?; // look it up with the directory service match directory_service .get(&digest) .await .map_err(RenderError::StoreError)? { // if it's None, that's an error! None => { return Err(RenderError::DirectoryNotFound( digest, proto_directory_node.name.clone(), )) } Some(proto_directory) => { // start a directory node let mut nar_node_directory = nar_node .directory() .await .map_err(RenderError::NARWriterError)?; // for each node in the directory, create a new entry with its name, // and then invoke walk_node on that entry. for proto_node in proto_directory.nodes() { let child_node = nar_node_directory .entry(proto_node.get_name()) .await .map_err(RenderError::NARWriterError)?; walk_node( child_node, &proto_node, blob_service.clone(), directory_service.clone(), ) .await?; } // close the directory nar_node_directory .close() .await .map_err(RenderError::NARWriterError)?; } } } } Ok(()) }