extern crate env_logger; extern crate fatfs; extern crate fscommon; use std::io; use std::io::prelude::*; use fscommon::BufStream; const KB: u64 = 1024; const MB: u64 = KB * 1024; const TEST_STR: &str = "Hi there Rust programmer!\n"; type FileSystem = fatfs::FileSystem>>>; fn basic_fs_test(fs: &FileSystem) { let stats = fs.stats().expect("stats"); if fs.fat_type() == fatfs::FatType::Fat32 { // On FAT32 one cluster is allocated for root directory assert_eq!(stats.total_clusters(), stats.free_clusters() + 1); } else { assert_eq!(stats.total_clusters(), stats.free_clusters()); } let root_dir = fs.root_dir(); let entries = root_dir.iter().map(|r| r.unwrap()).collect::>(); assert_eq!(entries.len(), 0); let subdir1 = root_dir.create_dir("subdir1").expect("create_dir subdir1"); let subdir2 = root_dir.create_dir("subdir1/subdir2 with long name").expect("create_dir subdir2"); let test_str = TEST_STR.repeat(1000); { let mut file = subdir2.create_file("test file name.txt").expect("create file"); file.truncate().expect("truncate file"); file.write_all(test_str.as_bytes()).expect("write file"); } let mut file = root_dir.open_file("subdir1/subdir2 with long name/test file name.txt").unwrap(); let mut content = String::new(); file.read_to_string(&mut content).expect("read_to_string"); assert_eq!(content, test_str); let filenames = root_dir.iter().map(|r| r.unwrap().file_name()).collect::>(); assert_eq!(filenames, ["subdir1"]); let filenames = subdir2.iter().map(|r| r.unwrap().file_name()).collect::>(); assert_eq!(filenames, [".", "..", "test file name.txt"]); subdir1.rename("subdir2 with long name/test file name.txt", &root_dir, "new-name.txt").expect("rename"); let filenames = subdir2.iter().map(|r| r.unwrap().file_name()).collect::>(); assert_eq!(filenames, [".", ".."]); let filenames = root_dir.iter().map(|r| r.unwrap().file_name()).collect::>(); assert_eq!(filenames, ["subdir1", "new-name.txt"]); } fn test_format_fs(opts: fatfs::FormatVolumeOptions, total_bytes: u64) -> FileSystem { let _ = env_logger::try_init(); // Init storage to 0xD1 bytes (value has been choosen to be parsed as normal file) let storage_vec: Vec = vec![0xD1u8; total_bytes as usize]; let storage_cur = io::Cursor::new(storage_vec); let mut buffered_stream = BufStream::new(storage_cur); fatfs::format_volume(&mut buffered_stream, opts).expect("format volume"); let fs = fatfs::FileSystem::new(buffered_stream, fatfs::FsOptions::new()).expect("open fs"); basic_fs_test(&fs); fs } #[test] fn test_format_1mb() { let total_bytes = 1 * MB; let opts = fatfs::FormatVolumeOptions::new(); let fs = test_format_fs(opts, total_bytes); assert_eq!(fs.fat_type(), fatfs::FatType::Fat12); } #[test] fn test_format_8mb_1fat() { let total_bytes = 8 * MB; let opts = fatfs::FormatVolumeOptions::new().fats(1); let fs = test_format_fs(opts, total_bytes); assert_eq!(fs.fat_type(), fatfs::FatType::Fat16); } #[test] fn test_format_50mb() { let total_bytes = 50 * MB; let opts = fatfs::FormatVolumeOptions::new(); let fs = test_format_fs(opts, total_bytes); assert_eq!(fs.fat_type(), fatfs::FatType::Fat16); } #[test] fn test_format_512mb_512sec() { let total_bytes = 2 * 1024 * MB; let opts = fatfs::FormatVolumeOptions::new(); let fs = test_format_fs(opts, total_bytes); assert_eq!(fs.fat_type(), fatfs::FatType::Fat32); } #[test] fn test_format_512mb_4096sec() { let total_bytes = 1 * 1024 * MB; let opts = fatfs::FormatVolumeOptions::new().bytes_per_sector(4096); let fs = test_format_fs(opts, total_bytes); assert_eq!(fs.fat_type(), fatfs::FatType::Fat32); }