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path: root/tvix/store/src/directoryservice/traverse.rs
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use super::DirectoryService;
use crate::{proto::NamedNode, B3Digest, Error};
use tracing::{instrument, warn};

/// This traverses from a (root) node to the given (sub)path, returning the Node
/// at that path, or none, if there's nothing at that path.
/// TODO: Do we want to rewrite this in a non-recursing fashion, and use
/// [DirectoryService.get_recursive] to do less lookups?
/// Or do we consider this to be a non-issue due to store composition and local caching?
/// TODO: the name of this function (and mod) is a bit bad, because it doesn't
/// clearly distinguish it from the BFS traversers.
#[instrument(skip(directory_service))]
pub fn traverse_to(
    directory_service: &Box<dyn DirectoryService>,
    node: crate::proto::node::Node,
    path: &std::path::Path,
) -> Result<Option<crate::proto::node::Node>, Error> {
    // strip a possible `/` prefix from the path.
    let path = {
        if path.starts_with("/") {
            path.strip_prefix("/").unwrap()
        } else {
            path
        }
    };

    let mut it = path.components();

    match it.next() {
        None => {
            // the (remaining) path is empty, return the node we've been called with.
            Ok(Some(node))
        }
        Some(first_component) => {
            match node {
                crate::proto::node::Node::File(_) | crate::proto::node::Node::Symlink(_) => {
                    // There's still some path left, but the current node is no directory.
                    // This means the path doesn't exist, as we can't reach it.
                    Ok(None)
                }
                crate::proto::node::Node::Directory(directory_node) => {
                    let digest = B3Digest::from_vec(directory_node.digest)
                        .map_err(|_e| Error::StorageError("invalid digest length".to_string()))?;

                    // fetch the linked node from the directory_service
                    match directory_service.get(&digest)? {
                        // If we didn't get the directory node that's linked, that's a store inconsistency, bail out!
                        None => {
                            warn!("directory {} does not exist", digest);

                            Err(Error::StorageError(format!(
                                "directory {} does not exist",
                                digest
                            )))
                        }
                        Some(directory) => {
                            // look for first_component in the [Directory].
                            // FUTUREWORK: as the nodes() iterator returns in a sorted fashion, we
                            // could stop as soon as e.name is larger than the search string.
                            let child_node = directory.nodes().find(|n| {
                                n.get_name() == first_component.as_os_str().to_str().unwrap()
                            });

                            match child_node {
                                // child node not found means there's no such element inside the directory.
                                None => Ok(None),
                                // child node found, recurse with it and the rest of the path.
                                Some(child_node) => {
                                    let rest_path: std::path::PathBuf = it.collect();
                                    traverse_to(directory_service, child_node, &rest_path)
                                }
                            }
                        }
                    }
                }
            }
        }
    }
}

#[cfg(test)]
mod tests {
    use std::path::PathBuf;

    use crate::tests::{
        fixtures::{DIRECTORY_COMPLICATED, DIRECTORY_WITH_KEEP},
        utils::gen_directory_service,
    };

    use super::traverse_to;

    #[test]
    fn test_traverse_to() {
        let mut directory_service = gen_directory_service();

        let mut handle = directory_service.put_multiple_start();
        handle
            .put(DIRECTORY_WITH_KEEP.clone())
            .expect("must succeed");
        handle
            .put(DIRECTORY_COMPLICATED.clone())
            .expect("must succeed");

        // construct the node for DIRECTORY_COMPLICATED
        let node_directory_complicated =
            crate::proto::node::Node::Directory(crate::proto::DirectoryNode {
                name: "doesntmatter".to_string(),
                digest: DIRECTORY_COMPLICATED.digest().to_vec(),
                size: DIRECTORY_COMPLICATED.size(),
            });

        // construct the node for DIRECTORY_COMPLICATED
        let node_directory_with_keep = crate::proto::node::Node::Directory(
            DIRECTORY_COMPLICATED.directories.first().unwrap().clone(),
        );

        // construct the node for the .keep file
        let node_file_keep =
            crate::proto::node::Node::File(DIRECTORY_WITH_KEEP.files.first().unwrap().clone());

        // traversal to an empty subpath should return the root node.
        {
            let resp = traverse_to(
                &mut directory_service,
                node_directory_complicated.clone(),
                &PathBuf::from(""),
            )
            .expect("must succeed");

            assert_eq!(Some(node_directory_complicated.clone()), resp);
        }

        // traversal to `keep` should return the node for DIRECTORY_WITH_KEEP
        {
            let resp = traverse_to(
                &mut directory_service,
                node_directory_complicated.clone(),
                &PathBuf::from("keep"),
            )
            .expect("must succeed");

            assert_eq!(Some(node_directory_with_keep.clone()), resp);
        }

        // traversal to `keep/.keep` should return the node for the .keep file
        {
            let resp = traverse_to(
                &mut directory_service,
                node_directory_complicated.clone(),
                &PathBuf::from("keep/.keep"),
            )
            .expect("must succeed");

            assert_eq!(Some(node_file_keep.clone()), resp);
        }

        // traversal to `keep/.keep` should return the node for the .keep file
        {
            let resp = traverse_to(
                &mut directory_service,
                node_directory_complicated.clone(),
                &PathBuf::from("/keep/.keep"),
            )
            .expect("must succeed");

            assert_eq!(Some(node_file_keep.clone()), resp);
        }

        // traversal to `void` should return None (doesn't exist)
        {
            let resp = traverse_to(
                &mut directory_service,
                node_directory_complicated.clone(),
                &PathBuf::from("void"),
            )
            .expect("must succeed");

            assert_eq!(None, resp);
        }

        // traversal to `void` should return None (doesn't exist)
        {
            let resp = traverse_to(
                &mut directory_service,
                node_directory_complicated.clone(),
                &PathBuf::from("//v/oid"),
            )
            .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 = traverse_to(
                &mut directory_service,
                node_directory_complicated.clone(),
                &PathBuf::from("keep/.keep/foo"),
            )
            .expect("must succeed");

            assert_eq!(None, resp);
        }

        // traversal to a subpath of '/' should return the root node.
        {
            let resp = traverse_to(
                &mut directory_service,
                node_directory_complicated.clone(),
                &PathBuf::from("/"),
            )
            .expect("must succeed");

            assert_eq!(Some(node_directory_complicated.clone()), resp);
        }
    }
}