use futures::StreamExt;
use std::io::Cursor;
use std::os::unix::prelude::MetadataExt;
use std::path::Path;
use std::sync::Arc;
use tokio::{fs, io};
use tokio_stream::wrappers::ReadDirStream;
use tempfile::TempDir;
use crate::blobservice::BlobService;
use crate::directoryservice::DirectoryService;
use crate::fs::{fuse::FuseDaemon, TvixStoreFs};
use crate::pathinfoservice::PathInfoService;
use crate::proto;
use crate::proto::{DirectoryNode, FileNode, PathInfo};
use crate::tests::fixtures;
use crate::tests::utils::{gen_blob_service, gen_directory_service, gen_pathinfo_service};
const BLOB_A_NAME: &str = "00000000000000000000000000000000-test";
const BLOB_B_NAME: &str = "55555555555555555555555555555555-test";
const HELLOWORLD_BLOB_NAME: &str = "66666666666666666666666666666666-test";
const SYMLINK_NAME: &str = "11111111111111111111111111111111-test";
const SYMLINK_NAME2: &str = "44444444444444444444444444444444-test";
const DIRECTORY_WITH_KEEP_NAME: &str = "22222222222222222222222222222222-test";
const DIRECTORY_COMPLICATED_NAME: &str = "33333333333333333333333333333333-test";
fn gen_svcs() -> (
Arc<dyn BlobService>,
Arc<dyn DirectoryService>,
Arc<dyn PathInfoService>,
) {
let blob_service = gen_blob_service();
let directory_service = gen_directory_service();
let path_info_service = gen_pathinfo_service(blob_service.clone(), directory_service.clone());
(blob_service, directory_service, path_info_service)
}
fn do_mount<P: AsRef<Path>>(
blob_service: Arc<dyn BlobService>,
directory_service: Arc<dyn DirectoryService>,
path_info_service: Arc<dyn PathInfoService>,
mountpoint: P,
list_root: bool,
) -> io::Result<FuseDaemon> {
let fs = TvixStoreFs::new(
blob_service,
directory_service,
path_info_service,
list_root,
);
FuseDaemon::new(fs, mountpoint.as_ref(), 4)
}
async fn populate_blob_a(
blob_service: &Arc<dyn BlobService>,
_directory_service: &Arc<dyn DirectoryService>,
path_info_service: &Arc<dyn PathInfoService>,
) {
// Upload BLOB_A
let mut bw = blob_service.open_write().await;
tokio::io::copy(&mut Cursor::new(fixtures::BLOB_A.to_vec()), &mut bw)
.await
.expect("must succeed uploading");
bw.close().await.expect("must succeed closing");
// Create a PathInfo for it
let path_info = PathInfo {
node: Some(proto::Node {
node: Some(proto::node::Node::File(FileNode {
name: BLOB_A_NAME.into(),
digest: fixtures::BLOB_A_DIGEST.clone().into(),
size: fixtures::BLOB_A.len() as u32,
executable: false,
})),
}),
..Default::default()
};
path_info_service
.put(path_info)
.await
.expect("must succeed");
}
async fn populate_blob_b(
blob_service: &Arc<dyn BlobService>,
_directory_service: &Arc<dyn DirectoryService>,
path_info_service: &Arc<dyn PathInfoService>,
) {
// Upload BLOB_B
let mut bw = blob_service.open_write().await;
tokio::io::copy(&mut Cursor::new(fixtures::BLOB_B.to_vec()), &mut bw)
.await
.expect("must succeed uploading");
bw.close().await.expect("must succeed closing");
// Create a PathInfo for it
let path_info = PathInfo {
node: Some(proto::Node {
node: Some(proto::node::Node::File(FileNode {
name: BLOB_B_NAME.into(),
digest: fixtures::BLOB_B_DIGEST.clone().into(),
size: fixtures::BLOB_B.len() as u32,
executable: false,
})),
}),
..Default::default()
};
path_info_service
.put(path_info)
.await
.expect("must succeed");
}
/// adds a blob containing helloworld and marks it as executable
async fn populate_helloworld_blob(
blob_service: &Arc<dyn BlobService>,
_directory_service: &Arc<dyn DirectoryService>,
path_info_service: &Arc<dyn PathInfoService>,
) {
// Upload BLOB_B
let mut bw = blob_service.open_write().await;
tokio::io::copy(
&mut Cursor::new(fixtures::HELLOWORLD_BLOB_CONTENTS.to_vec()),
&mut bw,
)
.await
.expect("must succeed uploading");
bw.close().await.expect("must succeed closing");
// Create a PathInfo for it
let path_info = PathInfo {
node: Some(proto::Node {
node: Some(proto::node::Node::File(FileNode {
name: HELLOWORLD_BLOB_NAME.into(),
digest: fixtures::HELLOWORLD_BLOB_DIGEST.clone().into(),
size: fixtures::HELLOWORLD_BLOB_CONTENTS.len() as u32,
executable: true,
})),
}),
..Default::default()
};
path_info_service
.put(path_info)
.await
.expect("must succeed");
}
async fn populate_symlink(
_blob_service: &Arc<dyn BlobService>,
_directory_service: &Arc<dyn DirectoryService>,
path_info_service: &Arc<dyn PathInfoService>,
) {
// Create a PathInfo for it
let path_info = PathInfo {
node: Some(proto::Node {
node: Some(proto::node::Node::Symlink(proto::SymlinkNode {
name: SYMLINK_NAME.into(),
target: BLOB_A_NAME.into(),
})),
}),
..Default::default()
};
path_info_service
.put(path_info)
.await
.expect("must succeed");
}
/// This writes a symlink pointing to /nix/store/somewhereelse,
/// which is the same symlink target as "aa" inside DIRECTORY_COMPLICATED.
async fn populate_symlink2(
_blob_service: &Arc<dyn BlobService>,
_directory_service: &Arc<dyn DirectoryService>,
path_info_service: &Arc<dyn PathInfoService>,
) {
// Create a PathInfo for it
let path_info = PathInfo {
node: Some(proto::Node {
node: Some(proto::node::Node::Symlink(proto::SymlinkNode {
name: SYMLINK_NAME2.into(),
target: "/nix/store/somewhereelse".into(),
})),
}),
..Default::default()
};
path_info_service
.put(path_info)
.await
.expect("must succeed");
}
async fn populate_directory_with_keep(
blob_service: &Arc<dyn BlobService>,
directory_service: &Arc<dyn DirectoryService>,
path_info_service: &Arc<dyn PathInfoService>,
) {
// upload empty blob
let mut bw = blob_service.open_write().await;
assert_eq!(
fixtures::EMPTY_BLOB_DIGEST.to_vec(),
bw.close().await.expect("must succeed closing").to_vec(),
);
// upload directory
directory_service
.put(fixtures::DIRECTORY_WITH_KEEP.clone())
.await
.expect("must succeed uploading");
// upload pathinfo
let path_info = PathInfo {
node: Some(proto::Node {
node: Some(proto::node::Node::Directory(DirectoryNode {
name: DIRECTORY_WITH_KEEP_NAME.into(),
digest: fixtures::DIRECTORY_WITH_KEEP.digest().into(),
size: fixtures::DIRECTORY_WITH_KEEP.size(),
})),
}),
..Default::default()
};
path_info_service
.put(path_info)
.await
.expect("must succeed");
}
/// Insert [PathInfo] for DIRECTORY_WITH_KEEP, but don't provide the Directory
/// itself.
async fn populate_pathinfo_without_directory(
_: &Arc<dyn BlobService>,
_: &Arc<dyn DirectoryService>,
path_info_service: &Arc<dyn PathInfoService>,
) {
// upload pathinfo
let path_info = PathInfo {
node: Some(proto::Node {
node: Some(proto::node::Node::Directory(DirectoryNode {
name: DIRECTORY_WITH_KEEP_NAME.into(),
digest: fixtures::DIRECTORY_WITH_KEEP.digest().into(),
size: fixtures::DIRECTORY_WITH_KEEP.size(),
})),
}),
..Default::default()
};
path_info_service
.put(path_info)
.await
.expect("must succeed");
}
/// Insert , but don't provide the blob .keep is pointing to
async fn populate_blob_a_without_blob(
_: &Arc<dyn BlobService>,
_: &Arc<dyn DirectoryService>,
path_info_service: &Arc<dyn PathInfoService>,
) {
// Create a PathInfo for blob A
let path_info = PathInfo {
node: Some(proto::Node {
node: Some(proto::node::Node::File(FileNode {
name: BLOB_A_NAME.into(),
digest: fixtures::BLOB_A_DIGEST.clone().into(),
size: fixtures::BLOB_A.len() as u32,
executable: false,
})),
}),
..Default::default()
};
path_info_service
.put(path_info)
.await
.expect("must succeed");
}
async fn populate_directory_complicated(
blob_service: &Arc<dyn BlobService>,
directory_service: &Arc<dyn DirectoryService>,
path_info_service: &Arc<dyn PathInfoService>,
) {
// upload empty blob
let mut bw = blob_service.open_write().await;
assert_eq!(
fixtures::EMPTY_BLOB_DIGEST.to_vec(),
bw.close().await.expect("must succeed closing").to_vec(),
);
// upload inner directory
directory_service
.put(fixtures::DIRECTORY_WITH_KEEP.clone())
.await
.expect("must succeed uploading");
// uplodad parent directory
directory_service
.put(fixtures::DIRECTORY_COMPLICATED.clone())
.await
.expect("must succeed uploading");
// upload pathinfo
let path_info = PathInfo {
node: Some(proto::Node {
node: Some(proto::node::Node::Directory(DirectoryNode {
name: DIRECTORY_COMPLICATED_NAME.into(),
digest: fixtures::DIRECTORY_COMPLICATED.digest().into(),
size: fixtures::DIRECTORY_COMPLICATED.size(),
})),
}),
..Default::default()
};
path_info_service
.put(path_info)
.await
.expect("must succeed");
}
/// Ensure mounting itself doesn't fail
#[tokio::test]
async fn mount() {
// https://plume.benboeckel.net/~/JustAnotherBlog/skipping-tests-in-rust
if !std::path::Path::new("/dev/fuse").exists() {
eprintln!("skipping test");
return;
}
let tmpdir = TempDir::new().unwrap();
let (blob_service, directory_service, path_info_service) = gen_svcs();
let mut fuse_daemon = do_mount(
blob_service,
directory_service,
path_info_service,
tmpdir.path(),
false,
)
.expect("must succeed");
fuse_daemon.unmount().expect("unmount");
}
/// Ensure listing the root isn't allowed
#[tokio::test]
async fn root() {
// https://plume.benboeckel.net/~/JustAnotherBlog/skipping-tests-in-rust
if !std::path::Path::new("/dev/fuse").exists() {
eprintln!("skipping test");
return;
}
let tmpdir = TempDir::new().unwrap();
let (blob_service, directory_service, path_info_service) = gen_svcs();
let mut fuse_daemon = do_mount(
blob_service,
directory_service,
path_info_service,
tmpdir.path(),
false,
)
.expect("must succeed");
{
// read_dir succeeds, but getting the first element will fail.
let mut it = ReadDirStream::new(fs::read_dir(tmpdir).await.expect("must succeed"));
let err = it
.next()
.await
.expect("must be some")
.expect_err("must be err");
assert_eq!(std::io::ErrorKind::PermissionDenied, err.kind());
}
fuse_daemon.unmount().expect("unmount");
}
/// Ensure listing the root is allowed if configured explicitly
#[tokio::test(flavor = "multi_thread", worker_threads = 2)]
async fn root_with_listing() {
// https://plume.benboeckel.net/~/JustAnotherBlog/skipping-tests-in-rust
if !std::path::Path::new("/dev/fuse").exists() {
eprintln!("skipping test");
return;
}
let tmpdir = TempDir::new().unwrap();
let (blob_service, directory_service, path_info_service) = gen_svcs();
populate_blob_a(&blob_service, &directory_service, &path_info_service).await;
let mut fuse_daemon = do_mount(
blob_service,
directory_service,
path_info_service,
tmpdir.path(),
true, /* allow listing */
)
.expect("must succeed");
{
// read_dir succeeds, but getting the first element will fail.
let mut it = ReadDirStream::new(fs::read_dir(tmpdir).await.expect("must succeed"));
let e = it
.next()
.await
.expect("must be some")
.expect("must succeed");
let metadata = e.metadata().await.expect("must succeed");
assert!(metadata.is_file());
assert!(metadata.permissions().readonly());
assert_eq!(fixtures::BLOB_A.len() as u64, metadata.len());
}
fuse_daemon.unmount().expect("unmount");
}
/// Ensure we can stat a file at the root
#[tokio::test]
async fn stat_file_at_root() {
// https://plume.benboeckel.net/~/JustAnotherBlog/skipping-tests-in-rust
if !std::path::Path::new("/dev/fuse").exists() {
eprintln!("skipping test");
return;
}
let tmpdir = TempDir::new().unwrap();
let (blob_service, directory_service, path_info_service) = gen_svcs();
populate_blob_a(&blob_service, &directory_service, &path_info_service).await;
let mut fuse_daemon = do_mount(
blob_service,
directory_service,
path_info_service,
tmpdir.path(),
false,
)
.expect("must succeed");
let p = tmpdir.path().join(BLOB_A_NAME);
// peek at the file metadata
let metadata = fs::metadata(p).await.expect("must succeed");
assert!(metadata.is_file());
assert!(metadata.permissions().readonly());
assert_eq!(fixtures::BLOB_A.len() as u64, metadata.len());
fuse_daemon.unmount().expect("unmount");
}
/// Ensure we can read a file at the root
#[tokio::test(flavor = "multi_thread", worker_threads = 2)]
async fn read_file_at_root() {
// https://plume.benboeckel.net/~/JustAnotherBlog/skipping-tests-in-rust
if !std::path::Path::new("/dev/fuse").exists() {
eprintln!("skipping test");
return;
}
let tmpdir = TempDir::new().unwrap();
let (blob_service, directory_service, path_info_service) = gen_svcs();
populate_blob_a(&blob_service, &directory_service, &path_info_service).await;
let mut fuse_daemon = do_mount(
blob_service,
directory_service,
path_info_service,
tmpdir.path(),
false,
)
.expect("must succeed");
let p = tmpdir.path().join(BLOB_A_NAME);
// read the file contents
let data = fs::read(p).await.expect("must succeed");
// ensure size and contents match
assert_eq!(fixtures::BLOB_A.len(), data.len());
assert_eq!(fixtures::BLOB_A.to_vec(), data);
fuse_daemon.unmount().expect("unmount");
}
/// Ensure we can read a large file at the root
#[tokio::test(flavor = "multi_thread", worker_threads = 2)]
async fn read_large_file_at_root() {
// https://plume.benboeckel.net/~/JustAnotherBlog/skipping-tests-in-rust
if !std::path::Path::new("/dev/fuse").exists() {
eprintln!("skipping test");
return;
}
let tmpdir = TempDir::new().unwrap();
let (blob_service, directory_service, path_info_service) = gen_svcs();
populate_blob_b(&blob_service, &directory_service, &path_info_service).await;
let mut fuse_daemon = do_mount(
blob_service,
directory_service,
path_info_service,
tmpdir.path(),
false,
)
.expect("must succeed");
let p = tmpdir.path().join(BLOB_B_NAME);
{
// peek at the file metadata
let metadata = fs::metadata(&p).await.expect("must succeed");
assert!(metadata.is_file());
assert!(metadata.permissions().readonly());
assert_eq!(fixtures::BLOB_B.len() as u64, metadata.len());
}
// read the file contents
let data = fs::read(p).await.expect("must succeed");
// ensure size and contents match
assert_eq!(fixtures::BLOB_B.len(), data.len());
assert_eq!(fixtures::BLOB_B.to_vec(), data);
fuse_daemon.unmount().expect("unmount");
}
/// Read the target of a symlink
#[tokio::test]
async fn symlink_readlink() {
// https://plume.benboeckel.net/~/JustAnotherBlog/skipping-tests-in-rust
if !std::path::Path::new("/dev/fuse").exists() {
eprintln!("skipping test");
return;
}
let tmpdir = TempDir::new().unwrap();
let (blob_service, directory_service, path_info_service) = gen_svcs();
populate_symlink(&blob_service, &directory_service, &path_info_service).await;
let mut fuse_daemon = do_mount(
blob_service,
directory_service,
path_info_service,
tmpdir.path(),
false,
)
.expect("must succeed");
let p = tmpdir.path().join(SYMLINK_NAME);
let target = fs::read_link(&p).await.expect("must succeed");
assert_eq!(BLOB_A_NAME, target.to_str().unwrap());
// peek at the file metadata, which follows symlinks.
// this must fail, as we didn't populate the target.
let e = fs::metadata(&p).await.expect_err("must fail");
assert_eq!(std::io::ErrorKind::NotFound, e.kind());
// peeking at the file metadata without following symlinks will succeed.
let metadata = fs::symlink_metadata(&p).await.expect("must succeed");
assert!(metadata.is_symlink());
// reading from the symlink (which follows) will fail, because the target doesn't exist.
let e = fs::read(p).await.expect_err("must fail");
assert_eq!(std::io::ErrorKind::NotFound, e.kind());
fuse_daemon.unmount().expect("unmount");
}
/// Read and stat a regular file through a symlink pointing to it.
#[tokio::test(flavor = "multi_thread", worker_threads = 2)]
async fn read_stat_through_symlink() {
// https://plume.benboeckel.net/~/JustAnotherBlog/skipping-tests-in-rust
if !std::path::Path::new("/dev/fuse").exists() {
eprintln!("skipping test");
return;
}
let tmpdir = TempDir::new().unwrap();
let (blob_service, directory_service, path_info_service) = gen_svcs();
populate_blob_a(&blob_service, &directory_service, &path_info_service).await;
populate_symlink(&blob_service, &directory_service, &path_info_service).await;
let mut fuse_daemon = do_mount(
blob_service,
directory_service,
path_info_service,
tmpdir.path(),
false,
)
.expect("must succeed");
let p_symlink = tmpdir.path().join(SYMLINK_NAME);
let p_blob = tmpdir.path().join(SYMLINK_NAME);
// peek at the file metadata, which follows symlinks.
// this must now return the same metadata as when statting at the target directly.
let metadata_symlink = fs::metadata(&p_symlink).await.expect("must succeed");
let metadata_blob = fs::metadata(&p_blob).await.expect("must succeed");
assert_eq!(metadata_blob.file_type(), metadata_symlink.file_type());
assert_eq!(metadata_blob.len(), metadata_symlink.len());
// reading from the symlink (which follows) will return the same data as if
// we were reading from the file directly.
assert_eq!(
fs::read(p_blob).await.expect("must succeed"),
fs::read(p_symlink).await.expect("must succeed"),
);
fuse_daemon.unmount().expect("unmount");
}
/// Read a directory in the root, and validate some attributes.
#[tokio::test]
async fn read_stat_directory() {
// https://plume.benboeckel.net/~/JustAnotherBlog/skipping-tests-in-rust
if !std::path::Path::new("/dev/fuse").exists() {
eprintln!("skipping test");
return;
}
let tmpdir = TempDir::new().unwrap();
let (blob_service, directory_service, path_info_service) = gen_svcs();
populate_directory_with_keep(&blob_service, &directory_service, &path_info_service).await;
let mut fuse_daemon = do_mount(
blob_service,
directory_service,
path_info_service,
tmpdir.path(),
false,
)
.expect("must succeed");
let p = tmpdir.path().join(DIRECTORY_WITH_KEEP_NAME);
// peek at the metadata of the directory
let metadata = fs::metadata(p).await.expect("must succeed");
assert!(metadata.is_dir());
assert!(metadata.permissions().readonly());
fuse_daemon.unmount().expect("unmount");
}
#[tokio::test(flavor = "multi_thread", worker_threads = 2)]
/// Read a blob inside a directory. This ensures we successfully populate directory data.
async fn read_blob_inside_dir() {
// https://plume.benboeckel.net/~/JustAnotherBlog/skipping-tests-in-rust
if !std::path::Path::new("/dev/fuse").exists() {
eprintln!("skipping test");
return;
}
let tmpdir = TempDir::new().unwrap();
let (blob_service, directory_service, path_info_service) = gen_svcs();
populate_directory_with_keep(&blob_service, &directory_service, &path_info_service).await;
let mut fuse_daemon = do_mount(
blob_service,
directory_service,
path_info_service,
tmpdir.path(),
false,
)
.expect("must succeed");
let p = tmpdir.path().join(DIRECTORY_WITH_KEEP_NAME).join(".keep");
// peek at metadata.
let metadata = fs::metadata(&p).await.expect("must succeed");
assert!(metadata.is_file());
assert!(metadata.permissions().readonly());
// read from it
let data = fs::read(&p).await.expect("must succeed");
assert_eq!(fixtures::EMPTY_BLOB_CONTENTS.to_vec(), data);
fuse_daemon.unmount().expect("unmount");
}
#[tokio::test(flavor = "multi_thread", worker_threads = 2)]
/// Read a blob inside a directory inside a directory. This ensures we properly
/// populate directories as we traverse down the structure.
async fn read_blob_deep_inside_dir() {
// https://plume.benboeckel.net/~/JustAnotherBlog/skipping-tests-in-rust
if !std::path::Path::new("/dev/fuse").exists() {
eprintln!("skipping test");
return;
}
let tmpdir = TempDir::new().unwrap();
let (blob_service, directory_service, path_info_service) = gen_svcs();
populate_directory_complicated(&blob_service, &directory_service, &path_info_service).await;
let mut fuse_daemon = do_mount(
blob_service,
directory_service,
path_info_service,
tmpdir.path(),
false,
)
.expect("must succeed");
let p = tmpdir
.path()
.join(DIRECTORY_COMPLICATED_NAME)
.join("keep")
.join(".keep");
// peek at metadata.
let metadata = fs::metadata(&p).await.expect("must succeed");
assert!(metadata.is_file());
assert!(metadata.permissions().readonly());
// read from it
let data = fs::read(&p).await.expect("must succeed");
assert_eq!(fixtures::EMPTY_BLOB_CONTENTS.to_vec(), data);
fuse_daemon.unmount().expect("unmount");
}
/// Ensure readdir works.
#[tokio::test]
async fn readdir() {
// https://plume.benboeckel.net/~/JustAnotherBlog/skipping-tests-in-rust
if !std::path::Path::new("/dev/fuse").exists() {
eprintln!("skipping test");
return;
}
let tmpdir = TempDir::new().unwrap();
let (blob_service, directory_service, path_info_service) = gen_svcs();
populate_directory_complicated(&blob_service, &directory_service, &path_info_service).await;
let mut fuse_daemon = do_mount(
blob_service,
directory_service,
path_info_service,
tmpdir.path(),
false,
)
.expect("must succeed");
let p = tmpdir.path().join(DIRECTORY_COMPLICATED_NAME);
{
// read_dir should succeed. Collect all elements
let elements: Vec<_> = ReadDirStream::new(fs::read_dir(p).await.expect("must succeed"))
.map(|e| e.expect("must not be err"))
.collect()
.await;
assert_eq!(3, elements.len(), "number of elements should be 3"); // rust skips . and ..
// We explicitly look at specific positions here, because we always emit
// them ordered.
// ".keep", 0 byte file.
let e = &elements[0];
assert_eq!(".keep", e.file_name());
assert!(e.file_type().await.expect("must succeed").is_file());
assert_eq!(0, e.metadata().await.expect("must succeed").len());
// "aa", symlink.
let e = &elements[1];
assert_eq!("aa", e.file_name());
assert!(e.file_type().await.expect("must succeed").is_symlink());
// "keep", directory
let e = &elements[2];
assert_eq!("keep", e.file_name());
assert!(e.file_type().await.expect("must succeed").is_dir());
}
fuse_daemon.unmount().expect("unmount");
}
#[tokio::test]
/// Do a readdir deeper inside a directory, without doing readdir or stat in the parent directory.
async fn readdir_deep() {
// https://plume.benboeckel.net/~/JustAnotherBlog/skipping-tests-in-rust
if !std::path::Path::new("/dev/fuse").exists() {
eprintln!("skipping test");
return;
}
let tmpdir = TempDir::new().unwrap();
let (blob_service, directory_service, path_info_service) = gen_svcs();
populate_directory_complicated(&blob_service, &directory_service, &path_info_service).await;
let mut fuse_daemon = do_mount(
blob_service,
directory_service,
path_info_service,
tmpdir.path(),
false,
)
.expect("must succeed");
let p = tmpdir.path().join(DIRECTORY_COMPLICATED_NAME).join("keep");
{
// read_dir should succeed. Collect all elements
let elements: Vec<_> = ReadDirStream::new(fs::read_dir(p).await.expect("must succeed"))
.map(|e| e.expect("must not be err"))
.collect()
.await;
assert_eq!(1, elements.len(), "number of elements should be 1"); // rust skips . and ..
// ".keep", 0 byte file.
let e = &elements[0];
assert_eq!(".keep", e.file_name());
assert!(e.file_type().await.expect("must succeed").is_file());
assert_eq!(0, e.metadata().await.expect("must succeed").len());
}
fuse_daemon.unmount().expect("unmount");
}
/// Check attributes match how they show up in /nix/store normally.
#[tokio::test]
async fn check_attributes() {
// https://plume.benboeckel.net/~/JustAnotherBlog/skipping-tests-in-rust
if !std::path::Path::new("/dev/fuse").exists() {
eprintln!("skipping test");
return;
}
let tmpdir = TempDir::new().unwrap();
let (blob_service, directory_service, path_info_service) = gen_svcs();
populate_blob_a(&blob_service, &directory_service, &path_info_service).await;
populate_directory_with_keep(&blob_service, &directory_service, &path_info_service).await;
populate_symlink(&blob_service, &directory_service, &path_info_service).await;
populate_helloworld_blob(&blob_service, &directory_service, &path_info_service).await;
let mut fuse_daemon = do_mount(
blob_service,
directory_service,
path_info_service,
tmpdir.path(),
false,
)
.expect("must succeed");
let p_file = tmpdir.path().join(BLOB_A_NAME);
let p_directory = tmpdir.path().join(DIRECTORY_WITH_KEEP_NAME);
let p_symlink = tmpdir.path().join(SYMLINK_NAME);
let p_executable_file = tmpdir.path().join(HELLOWORLD_BLOB_NAME);
// peek at metadata. We use symlink_metadata to ensure we don't traverse a symlink by accident.
let metadata_file = fs::symlink_metadata(&p_file).await.expect("must succeed");
let metadata_executable_file = fs::symlink_metadata(&p_executable_file)
.await
.expect("must succeed");
let metadata_directory = fs::symlink_metadata(&p_directory)
.await
.expect("must succeed");
let metadata_symlink = fs::symlink_metadata(&p_symlink)
.await
.expect("must succeed");
// modes should match. We & with 0o777 to remove any higher bits.
assert_eq!(0o444, metadata_file.mode() & 0o777);
assert_eq!(0o555, metadata_executable_file.mode() & 0o777);
assert_eq!(0o555, metadata_directory.mode() & 0o777);
assert_eq!(0o444, metadata_symlink.mode() & 0o777);
// files should have the correct filesize
assert_eq!(fixtures::BLOB_A.len() as u64, metadata_file.len());
// directories should have their "size" as filesize
assert_eq!(
fixtures::DIRECTORY_WITH_KEEP.size() as u64,
metadata_directory.size()
);
for metadata in &[&metadata_file, &metadata_directory, &metadata_symlink] {
// uid and gid should be 0.
assert_eq!(0, metadata.uid());
assert_eq!(0, metadata.gid());
// all times should be set to the unix epoch.
assert_eq!(0, metadata.atime());
assert_eq!(0, metadata.mtime());
assert_eq!(0, metadata.ctime());
// crtime seems MacOS only
}
fuse_daemon.unmount().expect("unmount");
}
#[tokio::test]
/// Ensure we allocate the same inodes for the same directory contents.
/// $DIRECTORY_COMPLICATED_NAME/keep contains the same data as $DIRECTORY_WITH_KEEP.
async fn compare_inodes_directories() {
// https://plume.benboeckel.net/~/JustAnotherBlog/skipping-tests-in-rust
if !std::path::Path::new("/dev/fuse").exists() {
eprintln!("skipping test");
return;
}
let tmpdir = TempDir::new().unwrap();
let (blob_service, directory_service, path_info_service) = gen_svcs();
populate_directory_with_keep(&blob_service, &directory_service, &path_info_service).await;
populate_directory_complicated(&blob_service, &directory_service, &path_info_service).await;
let mut fuse_daemon = do_mount(
blob_service,
directory_service,
path_info_service,
tmpdir.path(),
false,
)
.expect("must succeed");
let p_dir_with_keep = tmpdir.path().join(DIRECTORY_WITH_KEEP_NAME);
let p_sibling_dir = tmpdir.path().join(DIRECTORY_COMPLICATED_NAME).join("keep");
// peek at metadata.
assert_eq!(
fs::metadata(p_dir_with_keep)
.await
.expect("must succeed")
.ino(),
fs::metadata(p_sibling_dir)
.await
.expect("must succeed")
.ino()
);
fuse_daemon.unmount().expect("unmount");
}
/// Ensure we allocate the same inodes for the same directory contents.
/// $DIRECTORY_COMPLICATED_NAME/keep/,keep contains the same data as $DIRECTORY_COMPLICATED_NAME/.keep
#[tokio::test]
async fn compare_inodes_files() {
// https://plume.benboeckel.net/~/JustAnotherBlog/skipping-tests-in-rust
if !std::path::Path::new("/dev/fuse").exists() {
eprintln!("skipping test");
return;
}
let tmpdir = TempDir::new().unwrap();
let (blob_service, directory_service, path_info_service) = gen_svcs();
populate_directory_complicated(&blob_service, &directory_service, &path_info_service).await;
let mut fuse_daemon = do_mount(
blob_service,
directory_service,
path_info_service,
tmpdir.path(),
false,
)
.expect("must succeed");
let p_keep1 = tmpdir.path().join(DIRECTORY_COMPLICATED_NAME).join(".keep");
let p_keep2 = tmpdir
.path()
.join(DIRECTORY_COMPLICATED_NAME)
.join("keep")
.join(".keep");
// peek at metadata.
assert_eq!(
fs::metadata(p_keep1).await.expect("must succeed").ino(),
fs::metadata(p_keep2).await.expect("must succeed").ino()
);
fuse_daemon.unmount().expect("unmount");
}
/// Ensure we allocate the same inode for symlinks pointing to the same targets.
/// $DIRECTORY_COMPLICATED_NAME/aa points to the same target as SYMLINK_NAME2.
#[tokio::test]
async fn compare_inodes_symlinks() {
// https://plume.benboeckel.net/~/JustAnotherBlog/skipping-tests-in-rust
if !std::path::Path::new("/dev/fuse").exists() {
eprintln!("skipping test");
return;
}
let tmpdir = TempDir::new().unwrap();
let (blob_service, directory_service, path_info_service) = gen_svcs();
populate_directory_complicated(&blob_service, &directory_service, &path_info_service).await;
populate_symlink2(&blob_service, &directory_service, &path_info_service).await;
let mut fuse_daemon = do_mount(
blob_service,
directory_service,
path_info_service,
tmpdir.path(),
false,
)
.expect("must succeed");
let p1 = tmpdir.path().join(DIRECTORY_COMPLICATED_NAME).join("aa");
let p2 = tmpdir.path().join(SYMLINK_NAME2);
// peek at metadata.
assert_eq!(
fs::symlink_metadata(p1).await.expect("must succeed").ino(),
fs::symlink_metadata(p2).await.expect("must succeed").ino()
);
fuse_daemon.unmount().expect("unmount");
}
/// Check we match paths exactly.
#[tokio::test]
async fn read_wrong_paths_in_root() {
// https://plume.benboeckel.net/~/JustAnotherBlog/skipping-tests-in-rust
if !std::path::Path::new("/dev/fuse").exists() {
eprintln!("skipping test");
return;
}
let tmpdir = TempDir::new().unwrap();
let (blob_service, directory_service, path_info_service) = gen_svcs();
populate_blob_a(&blob_service, &directory_service, &path_info_service).await;
let mut fuse_daemon = do_mount(
blob_service,
directory_service,
path_info_service,
tmpdir.path(),
false,
)
.expect("must succeed");
// wrong name
assert!(
fs::metadata(tmpdir.path().join("00000000000000000000000000000000-tes"))
.await
.is_err()
);
// invalid hash
assert!(
fs::metadata(tmpdir.path().join("0000000000000000000000000000000-test"))
.await
.is_err()
);
// right name, must exist
assert!(
fs::metadata(tmpdir.path().join("00000000000000000000000000000000-test"))
.await
.is_ok()
);
// now wrong name with right hash still may not exist
assert!(
fs::metadata(tmpdir.path().join("00000000000000000000000000000000-tes"))
.await
.is_err()
);
fuse_daemon.unmount().expect("unmount");
}
/// Make sure writes are not allowed
#[tokio::test]
async fn disallow_writes() {
// https://plume.benboeckel.net/~/JustAnotherBlog/skipping-tests-in-rust
if !std::path::Path::new("/dev/fuse").exists() {
eprintln!("skipping test");
return;
}
let tmpdir = TempDir::new().unwrap();
let (blob_service, directory_service, path_info_service) = gen_svcs();
let mut fuse_daemon = do_mount(
blob_service,
directory_service,
path_info_service,
tmpdir.path(),
false,
)
.expect("must succeed");
let p = tmpdir.path().join(BLOB_A_NAME);
let e = fs::File::create(p).await.expect_err("must fail");
assert_eq!(Some(libc::EROFS), e.raw_os_error());
fuse_daemon.unmount().expect("unmount");
}
#[tokio::test]
/// Ensure we get an IO error if the directory service does not have the Directory object.
async fn missing_directory() {
if !std::path::Path::new("/dev/fuse").exists() {
eprintln!("skipping test");
return;
}
let tmpdir = TempDir::new().unwrap();
let (blob_service, directory_service, path_info_service) = gen_svcs();
populate_pathinfo_without_directory(&blob_service, &directory_service, &path_info_service)
.await;
let mut fuse_daemon = do_mount(
blob_service,
directory_service,
path_info_service,
tmpdir.path(),
false,
)
.expect("must succeed");
let p = tmpdir.path().join(DIRECTORY_WITH_KEEP_NAME);
{
// `stat` on the path should succeed, because it doesn't trigger the directory request.
fs::metadata(&p).await.expect("must succeed");
// However, calling either `readdir` or `stat` on a child should fail with an IO error.
// It fails when trying to pull the first entry, because we don't implement opendir separately
ReadDirStream::new(fs::read_dir(&p).await.unwrap())
.next()
.await
.expect("must be some")
.expect_err("must be err");
// rust currently sets e.kind() to Uncategorized, which isn't very
// helpful, so we don't look at the error more closely than that..
fs::metadata(p.join(".keep")).await.expect_err("must fail");
}
fuse_daemon.unmount().expect("unmount");
}
#[tokio::test(flavor = "multi_thread", worker_threads = 2)]
/// Ensure we get an IO error if the blob service does not have the blob
async fn missing_blob() {
if !std::path::Path::new("/dev/fuse").exists() {
eprintln!("skipping test");
return;
}
let tmpdir = TempDir::new().unwrap();
let (blob_service, directory_service, path_info_service) = gen_svcs();
populate_blob_a_without_blob(&blob_service, &directory_service, &path_info_service).await;
let mut fuse_daemon = do_mount(
blob_service,
directory_service,
path_info_service,
tmpdir.path(),
false,
)
.expect("must succeed");
let p = tmpdir.path().join(BLOB_A_NAME);
{
// `stat` on the blob should succeed, because it doesn't trigger a request to the blob service.
fs::metadata(&p).await.expect("must succeed");
// However, calling read on the blob should fail.
// rust currently sets e.kind() to Uncategorized, which isn't very
// helpful, so we don't look at the error more closely than that..
fs::read(p).await.expect_err("must fail");
}
fuse_daemon.unmount().expect("unmount");
}