src/tools/miri/tests/run-pass/fs.rs - toolchain/rustc - Git at Google

 // ignore-windows: File handling is not implemented yet
 // compile-flags: -Zmiri-disable-isolation

 use std::fs::{File, create_dir, read_dir, remove_dir, remove_dir_all, remove_file, rename};
 use std::io::{Read, Write, ErrorKind, Result, Seek, SeekFrom};
 use std::path::{PathBuf, Path};

 fn main() {
     test_file();
     test_file_clone();
     test_seek();
     test_metadata();
     test_symlink();
     test_errors();
     test_rename();
     test_directory();
 }

 /// Prepare: compute filename and make sure the file does not exist.
 fn prepare(filename: &str) -> PathBuf {
     let tmp = std::env::temp_dir();
     let path = tmp.join(filename);
     // Clean the paths for robustness.
     remove_file(&path).ok();
     path
 }

 /// Prepare directory: compute directory name and make sure it does not exist.
 fn prepare_dir(dirname: &str) -> PathBuf {
     let tmp = std::env::temp_dir();
     let path = tmp.join(&dirname);
     // Clean the directory for robustness.
     remove_dir_all(&path).ok();
     path
 }

 /// Prepare like above, and also write some initial content to the file.
 fn prepare_with_content(filename: &str, content: &[u8]) -> PathBuf {
     let path = prepare(filename);
     let mut file = File::create(&path).unwrap();
     file.write(content).unwrap();
     path
 }

 fn test_file() {
     let bytes = b"Hello, World!\n";
     let path = prepare("miri_test_fs_file.txt");

     // Test creating, writing and closing a file (closing is tested when `file` is dropped).
     let mut file = File::create(&path).unwrap();
     // Writing 0 bytes should not change the file contents.
     file.write(&mut []).unwrap();
     assert_eq!(file.metadata().unwrap().len(), 0);

     file.write(bytes).unwrap();
     assert_eq!(file.metadata().unwrap().len(), bytes.len() as u64);
     // Test opening, reading and closing a file.
     let mut file = File::open(&path).unwrap();
     let mut contents = Vec::new();
     // Reading 0 bytes should not move the file pointer.
     file.read(&mut []).unwrap();
     // Reading until EOF should get the whole text.
     file.read_to_end(&mut contents).unwrap();
     assert_eq!(bytes, contents.as_slice());

     // Removing file should succeed.
     remove_file(&path).unwrap();
 }

 fn test_file_clone() {
     let bytes = b"Hello, World!\n";
     let path = prepare_with_content("miri_test_fs_file_clone.txt", bytes);

     // Cloning a file should be successful.
     let file = File::open(&path).unwrap();
     let mut cloned = file.try_clone().unwrap();
     // Reading from a cloned file should get the same text.
     let mut contents = Vec::new();
     cloned.read_to_end(&mut contents).unwrap();
     assert_eq!(bytes, contents.as_slice());

     // Removing file should succeed.
     remove_file(&path).unwrap();
 }

 fn test_seek() {
     let bytes = b"Hello, entire World!\n";
     let path = prepare_with_content("miri_test_fs_seek.txt", bytes);

     let mut file = File::open(&path).unwrap();
     let mut contents = Vec::new();
     file.read_to_end(&mut contents).unwrap();
     assert_eq!(bytes, contents.as_slice());
     // Test that seeking to the beginning and reading until EOF gets the text again.
     file.seek(SeekFrom::Start(0)).unwrap();
     let mut contents = Vec::new();
     file.read_to_end(&mut contents).unwrap();
     assert_eq!(bytes, contents.as_slice());
     // Test seeking relative to the end of the file.
     file.seek(SeekFrom::End(-1)).unwrap();
     let mut contents = Vec::new();
     file.read_to_end(&mut contents).unwrap();
     assert_eq!(&bytes[bytes.len() - 1..], contents.as_slice());
     // Test seeking relative to the current position.
     file.seek(SeekFrom::Start(5)).unwrap();
     file.seek(SeekFrom::Current(-3)).unwrap();
     let mut contents = Vec::new();
     file.read_to_end(&mut contents).unwrap();
     assert_eq!(&bytes[2..], contents.as_slice());

     // Removing file should succeed.
     remove_file(&path).unwrap();
 }

 fn check_metadata(bytes: &[u8], path: &Path) -> Result<()> {
     // Test that the file metadata is correct.
     let metadata = path.metadata()?;
     // `path` should point to a file.
     assert!(metadata.is_file());
     // The size of the file must be equal to the number of written bytes.
     assert_eq!(bytes.len() as u64, metadata.len());
     Ok(())
 }

 fn test_metadata() {
     let bytes = b"Hello, meta-World!\n";
     let path = prepare_with_content("miri_test_fs_metadata.txt", bytes);

     // Test that metadata of an absolute path is correct.
     check_metadata(bytes, &path).unwrap();
     // Test that metadata of a relative path is correct.
     std::env::set_current_dir(path.parent().unwrap()).unwrap();
     check_metadata(bytes, Path::new(path.file_name().unwrap())).unwrap();

     // Removing file should succeed.
     remove_file(&path).unwrap();
 }

 fn test_symlink() {
     let bytes = b"Hello, World!\n";
     let path = prepare_with_content("miri_test_fs_link_target.txt", bytes);
     let symlink_path = prepare("miri_test_fs_symlink.txt");

     // Creating a symbolic link should succeed.
     std::os::unix::fs::symlink(&path, &symlink_path).unwrap();
     // Test that the symbolic link has the same contents as the file.
     let mut symlink_file = File::open(&symlink_path).unwrap();
     let mut contents = Vec::new();
     symlink_file.read_to_end(&mut contents).unwrap();
     assert_eq!(bytes, contents.as_slice());
     // Test that metadata of a symbolic link is correct.
     check_metadata(bytes, &symlink_path).unwrap();
     // Test that the metadata of a symbolic link is correct when not following it.
     assert!(symlink_path.symlink_metadata().unwrap().file_type().is_symlink());
     // Removing symbolic link should succeed.
     remove_file(&symlink_path).unwrap();

     // Removing file should succeed.
     remove_file(&path).unwrap();
 }

 fn test_errors() {
     let bytes = b"Hello, World!\n";
     let path = prepare("miri_test_fs_errors.txt");

     // The following tests also check that the `__errno_location()` shim is working properly.
     // Opening a non-existing file should fail with a "not found" error.
     assert_eq!(ErrorKind::NotFound, File::open(&path).unwrap_err().kind());
     // Removing a non-existing file should fail with a "not found" error.
     assert_eq!(ErrorKind::NotFound, remove_file(&path).unwrap_err().kind());
     // Reading the metadata of a non-existing file should fail with a "not found" error.
     assert_eq!(ErrorKind::NotFound, check_metadata(bytes, &path).unwrap_err().kind());
 }

 fn test_rename() {
     // Renaming a file should succeed.
     let path1 = prepare("miri_test_fs_rename_source.txt");
     let path2 = prepare("miri_test_fs_rename_destination.txt");

     let file = File::create(&path1).unwrap();
     drop(file);

     // Renaming should succeed
     rename(&path1, &path2).unwrap();
     // Check that the old file path isn't present
     assert_eq!(ErrorKind::NotFound, path1.metadata().unwrap_err().kind());
     // Check that the file has moved successfully
     assert!(path2.metadata().unwrap().is_file());

     // Renaming a nonexistent file should fail
     assert_eq!(ErrorKind::NotFound, rename(&path1, &path2).unwrap_err().kind());

     remove_file(&path2).unwrap();
 }

 fn test_directory() {
     let dir_path = prepare_dir("miri_test_fs_dir");
     // Creating a directory should succeed.
     create_dir(&dir_path).unwrap();
     // Test that the metadata of a directory is correct.
     assert!(dir_path.metadata().unwrap().is_dir());
     // Creating a directory when it already exists should fail.
     assert_eq!(ErrorKind::AlreadyExists, create_dir(&dir_path).unwrap_err().kind());

     // Create some files inside the directory
     let path_1 = dir_path.join("test_file_1");
     drop(File::create(&path_1).unwrap());
     let path_2 = dir_path.join("test_file_2");
     drop(File::create(&path_2).unwrap());
     // Test that the files are present inside the directory
     let dir_iter = read_dir(&dir_path).unwrap();
     let mut file_names = dir_iter.map(|e| e.unwrap().file_name()).collect::<Vec<_>>();
     file_names.sort_unstable();
     assert_eq!(file_names, vec!["test_file_1", "test_file_2"]);
     // Clean up the files in the directory
     remove_file(&path_1).unwrap();
     remove_file(&path_2).unwrap();

     // Deleting the directory should succeed.
     remove_dir(&dir_path).unwrap();
     // Reading the metadata of a non-existent file should fail with a "not found" error.
     assert_eq!(ErrorKind::NotFound, check_metadata(&[], &dir_path).unwrap_err().kind());
 }
	// ignore-windows: File handling is not implemented yet
	// compile-flags: -Zmiri-disable-isolation

	use std::fs::{File, create_dir, read_dir, remove_dir, remove_dir_all, remove_file, rename};
	use std::io::{Read, Write, ErrorKind, Result, Seek, SeekFrom};
	use std::path::{PathBuf, Path};

	fn main() {
	test_file();
	test_file_clone();
	test_seek();
	test_metadata();
	test_symlink();
	test_errors();
	test_rename();
	test_directory();
	}

	/// Prepare: compute filename and make sure the file does not exist.
	fn prepare(filename: &str) -> PathBuf {
	let tmp = std::env::temp_dir();
	let path = tmp.join(filename);
	// Clean the paths for robustness.
	remove_file(&path).ok();
	path
	}

	/// Prepare directory: compute directory name and make sure it does not exist.
	fn prepare_dir(dirname: &str) -> PathBuf {
	let tmp = std::env::temp_dir();
	let path = tmp.join(&dirname);
	// Clean the directory for robustness.
	remove_dir_all(&path).ok();
	path
	}

	/// Prepare like above, and also write some initial content to the file.
	fn prepare_with_content(filename: &str, content: &[u8]) -> PathBuf {
	let path = prepare(filename);
	let mut file = File::create(&path).unwrap();
	file.write(content).unwrap();
	path
	}

	fn test_file() {
	let bytes = b"Hello, World!\n";
	let path = prepare("miri_test_fs_file.txt");

	// Test creating, writing and closing a file (closing is tested when `file` is dropped).
	let mut file = File::create(&path).unwrap();
	// Writing 0 bytes should not change the file contents.
	file.write(&mut []).unwrap();
	assert_eq!(file.metadata().unwrap().len(), 0);

	file.write(bytes).unwrap();
	assert_eq!(file.metadata().unwrap().len(), bytes.len() as u64);
	// Test opening, reading and closing a file.
	let mut file = File::open(&path).unwrap();
	let mut contents = Vec::new();
	// Reading 0 bytes should not move the file pointer.
	file.read(&mut []).unwrap();
	// Reading until EOF should get the whole text.
	file.read_to_end(&mut contents).unwrap();
	assert_eq!(bytes, contents.as_slice());

	// Removing file should succeed.
	remove_file(&path).unwrap();
	}

	fn test_file_clone() {
	let bytes = b"Hello, World!\n";
	let path = prepare_with_content("miri_test_fs_file_clone.txt", bytes);

	// Cloning a file should be successful.
	let file = File::open(&path).unwrap();
	let mut cloned = file.try_clone().unwrap();
	// Reading from a cloned file should get the same text.
	let mut contents = Vec::new();
	cloned.read_to_end(&mut contents).unwrap();
	assert_eq!(bytes, contents.as_slice());

	// Removing file should succeed.
	remove_file(&path).unwrap();
	}

	fn test_seek() {
	let bytes = b"Hello, entire World!\n";
	let path = prepare_with_content("miri_test_fs_seek.txt", bytes);

	let mut file = File::open(&path).unwrap();
	let mut contents = Vec::new();
	file.read_to_end(&mut contents).unwrap();
	assert_eq!(bytes, contents.as_slice());
	// Test that seeking to the beginning and reading until EOF gets the text again.
	file.seek(SeekFrom::Start(0)).unwrap();
	let mut contents = Vec::new();
	file.read_to_end(&mut contents).unwrap();
	assert_eq!(bytes, contents.as_slice());
	// Test seeking relative to the end of the file.
	file.seek(SeekFrom::End(-1)).unwrap();
	let mut contents = Vec::new();
	file.read_to_end(&mut contents).unwrap();
	assert_eq!(&bytes[bytes.len() - 1..], contents.as_slice());
	// Test seeking relative to the current position.
	file.seek(SeekFrom::Start(5)).unwrap();
	file.seek(SeekFrom::Current(-3)).unwrap();
	let mut contents = Vec::new();
	file.read_to_end(&mut contents).unwrap();
	assert_eq!(&bytes[2..], contents.as_slice());

	// Removing file should succeed.
	remove_file(&path).unwrap();
	}

	fn check_metadata(bytes: &[u8], path: &Path) -> Result<()> {
	// Test that the file metadata is correct.
	let metadata = path.metadata()?;
	// `path` should point to a file.
	assert!(metadata.is_file());
	// The size of the file must be equal to the number of written bytes.
	assert_eq!(bytes.len() as u64, metadata.len());
	Ok(())
	}

	fn test_metadata() {
	let bytes = b"Hello, meta-World!\n";
	let path = prepare_with_content("miri_test_fs_metadata.txt", bytes);

	// Test that metadata of an absolute path is correct.
	check_metadata(bytes, &path).unwrap();
	// Test that metadata of a relative path is correct.
	std::env::set_current_dir(path.parent().unwrap()).unwrap();
	check_metadata(bytes, Path::new(path.file_name().unwrap())).unwrap();

	// Removing file should succeed.
	remove_file(&path).unwrap();
	}

	fn test_symlink() {
	let bytes = b"Hello, World!\n";
	let path = prepare_with_content("miri_test_fs_link_target.txt", bytes);
	let symlink_path = prepare("miri_test_fs_symlink.txt");

	// Creating a symbolic link should succeed.
	std::os::unix::fs::symlink(&path, &symlink_path).unwrap();
	// Test that the symbolic link has the same contents as the file.
	let mut symlink_file = File::open(&symlink_path).unwrap();
	let mut contents = Vec::new();
	symlink_file.read_to_end(&mut contents).unwrap();
	assert_eq!(bytes, contents.as_slice());
	// Test that metadata of a symbolic link is correct.
	check_metadata(bytes, &symlink_path).unwrap();
	// Test that the metadata of a symbolic link is correct when not following it.
	assert!(symlink_path.symlink_metadata().unwrap().file_type().is_symlink());
	// Removing symbolic link should succeed.
	remove_file(&symlink_path).unwrap();

	// Removing file should succeed.
	remove_file(&path).unwrap();
	}

	fn test_errors() {
	let bytes = b"Hello, World!\n";
	let path = prepare("miri_test_fs_errors.txt");

	// The following tests also check that the `__errno_location()` shim is working properly.
	// Opening a non-existing file should fail with a "not found" error.
	assert_eq!(ErrorKind::NotFound, File::open(&path).unwrap_err().kind());
	// Removing a non-existing file should fail with a "not found" error.
	assert_eq!(ErrorKind::NotFound, remove_file(&path).unwrap_err().kind());
	// Reading the metadata of a non-existing file should fail with a "not found" error.
	assert_eq!(ErrorKind::NotFound, check_metadata(bytes, &path).unwrap_err().kind());
	}

	fn test_rename() {
	// Renaming a file should succeed.
	let path1 = prepare("miri_test_fs_rename_source.txt");
	let path2 = prepare("miri_test_fs_rename_destination.txt");

	let file = File::create(&path1).unwrap();
	drop(file);

	// Renaming should succeed
	rename(&path1, &path2).unwrap();
	// Check that the old file path isn't present
	assert_eq!(ErrorKind::NotFound, path1.metadata().unwrap_err().kind());
	// Check that the file has moved successfully
	assert!(path2.metadata().unwrap().is_file());

	// Renaming a nonexistent file should fail
	assert_eq!(ErrorKind::NotFound, rename(&path1, &path2).unwrap_err().kind());

	remove_file(&path2).unwrap();
	}

	fn test_directory() {
	let dir_path = prepare_dir("miri_test_fs_dir");
	// Creating a directory should succeed.
	create_dir(&dir_path).unwrap();
	// Test that the metadata of a directory is correct.
	assert!(dir_path.metadata().unwrap().is_dir());
	// Creating a directory when it already exists should fail.
	assert_eq!(ErrorKind::AlreadyExists, create_dir(&dir_path).unwrap_err().kind());

	// Create some files inside the directory
	let path_1 = dir_path.join("test_file_1");
	drop(File::create(&path_1).unwrap());
	let path_2 = dir_path.join("test_file_2");
	drop(File::create(&path_2).unwrap());
	// Test that the files are present inside the directory
	let dir_iter = read_dir(&dir_path).unwrap();
	let mut file_names = dir_iter.map(\|e\| e.unwrap().file_name()).collect::<Vec<_>>();
	file_names.sort_unstable();
	assert_eq!(file_names, vec!["test_file_1", "test_file_2"]);
	// Clean up the files in the directory
	remove_file(&path_1).unwrap();
	remove_file(&path_2).unwrap();

	// Deleting the directory should succeed.
	remove_dir(&dir_path).unwrap();
	// Reading the metadata of a non-existent file should fail with a "not found" error.
	assert_eq!(ErrorKind::NotFound, check_metadata(&[], &dir_path).unwrap_err().kind());
	}