use crate::{directoryservice::DirectoryService, Error, Node, Path}; use tracing::{instrument, warn}; /// This descends from a (root) node to the given (sub)path, returning the Node /// at that path, or none, if there's nothing at that path. #[instrument(skip(directory_service, path), fields(%path))] pub async fn descend_to( directory_service: DS, root_node: Node, path: impl AsRef + std::fmt::Display, ) -> Result, Error> where DS: AsRef, { let mut parent_node = root_node; for component in path.as_ref().components() { match parent_node { Node::File { .. } | Node::Symlink { .. } => { // There's still some path left, but the parent node is no directory. // This means the path doesn't exist, as we can't reach it. return Ok(None); } Node::Directory { digest, .. } => { // fetch the linked node from the directory_service. let directory = directory_service .as_ref() .get(&digest) .await? .ok_or_else(|| { // If we didn't get the directory node that's linked, that's a store inconsistency, bail out! warn!("directory {} does not exist", digest); Error::StorageError(format!("directory {} does not exist", digest)) })?; // look for the component in the [Directory]. if let Some((_child_name, child_node)) = directory .nodes() .find(|(name, _node)| name.as_ref() == component) { // child node found, update prev_node to that and continue. parent_node = child_node.clone(); } else { // child node not found means there's no such element inside the directory. return Ok(None); }; } } } // We traversed the entire path, so this must be the node. Ok(Some(parent_node)) } #[cfg(test)] mod tests { use crate::{ directoryservice, fixtures::{DIRECTORY_COMPLICATED, DIRECTORY_WITH_KEEP, EMPTY_BLOB_DIGEST}, Node, PathBuf, }; use super::descend_to; #[tokio::test] async fn test_descend_to() { let directory_service = directoryservice::from_addr("memory://").await.unwrap(); let mut handle = directory_service.put_multiple_start(); handle .put(DIRECTORY_WITH_KEEP.clone()) .await .expect("must succeed"); handle .put(DIRECTORY_COMPLICATED.clone()) .await .expect("must succeed"); handle.close().await.expect("must upload"); // construct the node for DIRECTORY_COMPLICATED let node_directory_complicated = Node::Directory { digest: DIRECTORY_COMPLICATED.digest(), size: DIRECTORY_COMPLICATED.size(), }; // construct the node for DIRECTORY_COMPLICATED let node_directory_with_keep = Node::Directory { digest: DIRECTORY_WITH_KEEP.digest(), size: DIRECTORY_WITH_KEEP.size(), }; // construct the node for the .keep file let node_file_keep = Node::File { digest: EMPTY_BLOB_DIGEST.clone(), size: 0, executable: false, }; // traversal to an empty subpath should return the root node. { let resp = descend_to( &directory_service, node_directory_complicated.clone(), "".parse::().unwrap(), ) .await .expect("must succeed"); assert_eq!(Some(node_directory_complicated.clone()), resp); } // traversal to `keep` should return the node for DIRECTORY_WITH_KEEP { let resp = descend_to( &directory_service, node_directory_complicated.clone(), "keep".parse::().unwrap(), ) .await .expect("must succeed"); assert_eq!(Some(node_directory_with_keep), resp); } // traversal to `keep/.keep` should return the node for the .keep file { let resp = descend_to( &directory_service, node_directory_complicated.clone(), "keep/.keep".parse::().unwrap(), ) .await .expect("must succeed"); assert_eq!(Some(node_file_keep.clone()), resp); } // traversal to `void` should return None (doesn't exist) { let resp = descend_to( &directory_service, node_directory_complicated.clone(), "void".parse::().unwrap(), ) .await .expect("must succeed"); assert_eq!(None, resp); } // traversal to `v/oid` should return None (doesn't exist) { let resp = descend_to( &directory_service, node_directory_complicated.clone(), "v/oid".parse::().unwrap(), ) .await .expect("must succeed"); assert_eq!(None, resp); } // traversal to `keep/.keep/404` should return None (the path can't be // reached, as keep/.keep already is a file) { let resp = descend_to( &directory_service, node_directory_complicated.clone(), "keep/.keep/foo".parse::().unwrap(), ) .await .expect("must succeed"); assert_eq!(None, resp); } } }