extern crate env_logger; extern crate fatfs; extern crate fscommon; use std::fs; use std::io; use std::io::prelude::*; use std::mem; use std::str; use fatfs::FsOptions; use fscommon::BufStream; const FAT12_IMG: &str = "fat12.img"; const FAT16_IMG: &str = "fat16.img"; const FAT32_IMG: &str = "fat32.img"; const IMG_DIR: &str = "resources"; const TMP_DIR: &str = "tmp"; const TEST_STR: &str = "Hi there Rust programmer!\n"; const TEST_STR2: &str = "Rust is cool!\n"; type FileSystem = fatfs::FileSystem>; fn call_with_tmp_img(f: &Fn(&str) -> (), filename: &str, test_seq: u32) { let _ = env_logger::try_init(); let img_path = format!("{}/{}", IMG_DIR, filename); let tmp_path = format!("{}/{}-{}", TMP_DIR, test_seq, filename); fs::create_dir(TMP_DIR).ok(); fs::copy(&img_path, &tmp_path).unwrap(); f(tmp_path.as_str()); fs::remove_file(tmp_path).unwrap(); } fn open_filesystem_rw(tmp_path: &str) -> FileSystem { let file = fs::OpenOptions::new().read(true).write(true).open(&tmp_path).unwrap(); let buf_file = BufStream::new(file); let options = FsOptions::new().update_accessed_date(true); FileSystem::new(buf_file, options).unwrap() } fn call_with_fs(f: &Fn(FileSystem) -> (), filename: &str, test_seq: u32) { let callback = |tmp_path: &str| { let fs = open_filesystem_rw(tmp_path); f(fs); }; call_with_tmp_img(&callback, filename, test_seq); } fn test_write_short_file(fs: FileSystem) { let root_dir = fs.root_dir(); let mut file = root_dir.open_file("short.txt").expect("open file"); file.truncate().unwrap(); file.write_all(&TEST_STR.as_bytes()).unwrap(); file.seek(io::SeekFrom::Start(0)).unwrap(); let mut buf = Vec::new(); file.read_to_end(&mut buf).unwrap(); assert_eq!(TEST_STR, str::from_utf8(&buf).unwrap()); } #[test] fn test_write_file_fat12() { call_with_fs(&test_write_short_file, FAT12_IMG, 1) } #[test] fn test_write_file_fat16() { call_with_fs(&test_write_short_file, FAT16_IMG, 1) } #[test] fn test_write_file_fat32() { call_with_fs(&test_write_short_file, FAT32_IMG, 1) } fn test_write_long_file(fs: FileSystem) { let root_dir = fs.root_dir(); let mut file = root_dir.open_file("long.txt").expect("open file"); file.truncate().unwrap(); let test_str = TEST_STR.repeat(1000); file.write_all(&test_str.as_bytes()).unwrap(); file.seek(io::SeekFrom::Start(0)).unwrap(); let mut buf = Vec::new(); file.read_to_end(&mut buf).unwrap(); assert_eq!(test_str, str::from_utf8(&buf).unwrap()); file.seek(io::SeekFrom::Start(1234)).unwrap(); file.truncate().unwrap(); file.seek(io::SeekFrom::Start(0)).unwrap(); buf.clear(); file.read_to_end(&mut buf).unwrap(); assert_eq!(&test_str[..1234], str::from_utf8(&buf).unwrap()); } #[test] fn test_write_long_file_fat12() { call_with_fs(&test_write_long_file, FAT12_IMG, 2) } #[test] fn test_write_long_file_fat16() { call_with_fs(&test_write_long_file, FAT16_IMG, 2) } #[test] fn test_write_long_file_fat32() { call_with_fs(&test_write_long_file, FAT32_IMG, 2) } fn test_remove(fs: FileSystem) { let root_dir = fs.root_dir(); assert!(root_dir.remove("very/long/path").is_err()); let dir = root_dir.open_dir("very/long/path").unwrap(); let mut names = dir.iter().map(|r| r.unwrap().file_name()).collect::>(); assert_eq!(names, [".", "..", "test.txt"]); root_dir.remove("very/long/path/test.txt").unwrap(); names = dir.iter().map(|r| r.unwrap().file_name()).collect::>(); assert_eq!(names, [".", ".."]); assert!(root_dir.remove("very/long/path").is_ok()); names = root_dir.iter().map(|r| r.unwrap().file_name()).collect::>(); assert_eq!(names, ["long.txt", "short.txt", "very", "very-long-dir-name"]); root_dir.remove("long.txt").unwrap(); names = root_dir.iter().map(|r| r.unwrap().file_name()).collect::>(); assert_eq!(names, ["short.txt", "very", "very-long-dir-name"]); } #[test] fn test_remove_fat12() { call_with_fs(&test_remove, FAT12_IMG, 3) } #[test] fn test_remove_fat16() { call_with_fs(&test_remove, FAT16_IMG, 3) } #[test] fn test_remove_fat32() { call_with_fs(&test_remove, FAT32_IMG, 3) } fn test_create_file(fs: FileSystem) { let root_dir = fs.root_dir(); let dir = root_dir.open_dir("very/long/path").unwrap(); let mut names = dir.iter().map(|r| r.unwrap().file_name()).collect::>(); assert_eq!(names, [".", "..", "test.txt"]); { // test some invalid names assert!(root_dir.create_file("very/long/path/:").is_err()); assert!(root_dir.create_file("very/long/path/\0").is_err()); // create file let mut file = root_dir.create_file("very/long/path/new-file-with-long-name.txt").unwrap(); file.write_all(&TEST_STR.as_bytes()).unwrap(); } // check for dir entry names = dir.iter().map(|r| r.unwrap().file_name()).collect::>(); assert_eq!(names, [".", "..", "test.txt", "new-file-with-long-name.txt"]); names = dir.iter().map(|r| r.unwrap().short_file_name()).collect::>(); assert_eq!(names, [".", "..", "TEST.TXT", "NEW-FI~1.TXT"]); { // check contents let mut file = root_dir.open_file("very/long/path/new-file-with-long-name.txt").unwrap(); let mut content = String::new(); file.read_to_string(&mut content).unwrap(); assert_eq!(&content, &TEST_STR); } // Create enough entries to allocate next cluster for i in 0..512 / 32 { let name = format!("test{}", i); dir.create_file(&name).unwrap(); } names = dir.iter().map(|r| r.unwrap().file_name()).collect::>(); assert_eq!(names.len(), 4 + 512 / 32); // check creating existing file opens it { let mut file = root_dir.create_file("very/long/path/new-file-with-long-name.txt").unwrap(); let mut content = String::new(); file.read_to_string(&mut content).unwrap(); assert_eq!(&content, &TEST_STR); } // check using create_file with existing directory fails assert!(root_dir.create_file("very").is_err()); } #[test] fn test_create_file_fat12() { call_with_fs(&test_create_file, FAT12_IMG, 4) } #[test] fn test_create_file_fat16() { call_with_fs(&test_create_file, FAT16_IMG, 4) } #[test] fn test_create_file_fat32() { call_with_fs(&test_create_file, FAT32_IMG, 4) } fn test_create_dir(fs: FileSystem) { let root_dir = fs.root_dir(); let parent_dir = root_dir.open_dir("very/long/path").unwrap(); let mut names = parent_dir.iter().map(|r| r.unwrap().file_name()).collect::>(); assert_eq!(names, [".", "..", "test.txt"]); { let subdir = root_dir.create_dir("very/long/path/new-dir-with-long-name").unwrap(); names = subdir.iter().map(|r| r.unwrap().file_name()).collect::>(); assert_eq!(names, [".", ".."]); } // check if new entry is visible in parent names = parent_dir.iter().map(|r| r.unwrap().file_name()).collect::>(); assert_eq!(names, [".", "..", "test.txt", "new-dir-with-long-name"]); { // Check if new directory can be opened and read let subdir = root_dir.open_dir("very/long/path/new-dir-with-long-name").unwrap(); names = subdir.iter().map(|r| r.unwrap().file_name()).collect::>(); assert_eq!(names, [".", ".."]); } // Check if '.' is alias for new directory { let subdir = root_dir.open_dir("very/long/path/new-dir-with-long-name/.").unwrap(); names = subdir.iter().map(|r| r.unwrap().file_name()).collect::>(); assert_eq!(names, [".", ".."]); } // Check if '..' is alias for parent directory { let subdir = root_dir.open_dir("very/long/path/new-dir-with-long-name/..").unwrap(); names = subdir.iter().map(|r| r.unwrap().file_name()).collect::>(); assert_eq!(names, [".", "..", "test.txt", "new-dir-with-long-name"]); } // check if creating existing directory returns it { let subdir = root_dir.create_dir("very").unwrap(); names = subdir.iter().map(|r| r.unwrap().file_name()).collect::>(); assert_eq!(names, [".", "..", "long"]); } // check using create_dir with existing file fails assert!(root_dir.create_dir("very/long/path/test.txt").is_err()); } #[test] fn test_create_dir_fat12() { call_with_fs(&test_create_dir, FAT12_IMG, 5) } #[test] fn test_create_dir_fat16() { call_with_fs(&test_create_dir, FAT16_IMG, 5) } #[test] fn test_create_dir_fat32() { call_with_fs(&test_create_dir, FAT32_IMG, 5) } fn test_rename_file(fs: FileSystem) { let root_dir = fs.root_dir(); let parent_dir = root_dir.open_dir("very/long/path").unwrap(); let entries = parent_dir.iter().map(|r| r.unwrap()).collect::>(); let names = entries.iter().map(|r| r.file_name()).collect::>(); assert_eq!(names, [".", "..", "test.txt"]); assert_eq!(entries[2].len(), 14); let stats = fs.stats().unwrap(); parent_dir.rename("test.txt", &parent_dir, "new-long-name.txt").unwrap(); let entries = parent_dir.iter().map(|r| r.unwrap()).collect::>(); let names = entries.iter().map(|r| r.file_name()).collect::>(); assert_eq!(names, [".", "..", "new-long-name.txt"]); assert_eq!(entries[2].len(), TEST_STR2.len() as u64); let mut file = parent_dir.open_file("new-long-name.txt").unwrap(); let mut buf = Vec::new(); file.read_to_end(&mut buf).unwrap(); assert_eq!(str::from_utf8(&buf).unwrap(), TEST_STR2); parent_dir.rename("new-long-name.txt", &root_dir, "moved-file.txt").unwrap(); let entries = root_dir.iter().map(|r| r.unwrap()).collect::>(); let names = entries.iter().map(|r| r.file_name()).collect::>(); assert_eq!(names, ["long.txt", "short.txt", "very", "very-long-dir-name", "moved-file.txt"]); assert_eq!(entries[4].len(), TEST_STR2.len() as u64); let mut file = root_dir.open_file("moved-file.txt").unwrap(); let mut buf = Vec::new(); file.read_to_end(&mut buf).unwrap(); assert_eq!(str::from_utf8(&buf).unwrap(), TEST_STR2); assert!(root_dir.rename("moved-file.txt", &root_dir, "short.txt").is_err()); let entries = root_dir.iter().map(|r| r.unwrap()).collect::>(); let names = entries.iter().map(|r| r.file_name()).collect::>(); assert_eq!(names, ["long.txt", "short.txt", "very", "very-long-dir-name", "moved-file.txt"]); assert!(root_dir.rename("moved-file.txt", &root_dir, "moved-file.txt").is_ok()); let new_stats = fs.stats().unwrap(); assert_eq!(new_stats.free_clusters(), stats.free_clusters()); } #[test] fn test_rename_file_fat12() { call_with_fs(&test_rename_file, FAT12_IMG, 6) } #[test] fn test_rename_file_fat16() { call_with_fs(&test_rename_file, FAT16_IMG, 6) } #[test] fn test_rename_file_fat32() { call_with_fs(&test_rename_file, FAT32_IMG, 6) } fn test_dirty_flag(tmp_path: &str) { // Open filesystem, make change, and forget it - should become dirty let fs = open_filesystem_rw(tmp_path); let status_flags = fs.read_status_flags().unwrap(); assert_eq!(status_flags.dirty(), false); assert_eq!(status_flags.io_error(), false); fs.root_dir().create_file("abc.txt").unwrap(); mem::forget(fs); // Check if volume is dirty now let fs = open_filesystem_rw(tmp_path); let status_flags = fs.read_status_flags().unwrap(); assert_eq!(status_flags.dirty(), true); assert_eq!(status_flags.io_error(), false); fs.unmount().unwrap(); // Make sure remounting does not clear the dirty flag let fs = open_filesystem_rw(tmp_path); let status_flags = fs.read_status_flags().unwrap(); assert_eq!(status_flags.dirty(), true); assert_eq!(status_flags.io_error(), false); } #[test] fn test_dirty_flag_fat12() { call_with_tmp_img(&test_dirty_flag, FAT12_IMG, 7) } #[test] fn test_dirty_flag_fat16() { call_with_tmp_img(&test_dirty_flag, FAT16_IMG, 7) } #[test] fn test_dirty_flag_fat32() { call_with_tmp_img(&test_dirty_flag, FAT32_IMG, 7) }