use crate::proto::{ Directory, DirectoryNode, FileNode, SymlinkNode, ValidateDirectoryError, ValidateNodeError, }; use hex_literal::hex; const DUMMY_DIGEST: [u8; 32] = [0; 32]; #[test] fn size() { { let d = Directory::default(); assert_eq!(d.size(), 0); } { let d = Directory { directories: vec![DirectoryNode { name: "foo".into(), digest: DUMMY_DIGEST.to_vec().into(), size: 0, }], ..Default::default() }; assert_eq!(d.size(), 1); } { let d = Directory { directories: vec![DirectoryNode { name: "foo".into(), digest: DUMMY_DIGEST.to_vec().into(), size: 4, }], ..Default::default() }; assert_eq!(d.size(), 5); } { let d = Directory { files: vec![FileNode { name: "foo".into(), digest: DUMMY_DIGEST.to_vec().into(), size: 42, executable: false, }], ..Default::default() }; assert_eq!(d.size(), 1); } { let d = Directory { symlinks: vec![SymlinkNode { name: "foo".into(), target: "bar".into(), }], ..Default::default() }; assert_eq!(d.size(), 1); } } #[test] #[cfg_attr(not(debug_assertions), ignore)] #[should_panic = "Directory::size exceeds u64::MAX"] fn size_unchecked_panic() { let d = Directory { directories: vec![DirectoryNode { name: "foo".into(), digest: DUMMY_DIGEST.to_vec().into(), size: u64::MAX, }], ..Default::default() }; d.size(); } #[test] #[cfg_attr(debug_assertions, ignore)] fn size_unchecked_saturate() { let d = Directory { directories: vec![DirectoryNode { name: "foo".into(), digest: DUMMY_DIGEST.to_vec().into(), size: u64::MAX, }], ..Default::default() }; assert_eq!(d.size(), u64::MAX); } #[test] fn size_checked() { // We don't test the overflow cases that rely purely on immediate // child count, since that would take an absurd amount of memory. { let d = Directory { directories: vec![DirectoryNode { name: "foo".into(), digest: DUMMY_DIGEST.to_vec().into(), size: u64::MAX - 1, }], ..Default::default() }; assert_eq!(d.size_checked(), Some(u64::MAX)); } { let d = Directory { directories: vec![DirectoryNode { name: "foo".into(), digest: DUMMY_DIGEST.to_vec().into(), size: u64::MAX, }], ..Default::default() }; assert_eq!(d.size_checked(), None); } { let d = Directory { directories: vec![ DirectoryNode { name: "foo".into(), digest: DUMMY_DIGEST.to_vec().into(), size: u64::MAX / 2, }, DirectoryNode { name: "foo".into(), digest: DUMMY_DIGEST.to_vec().into(), size: u64::MAX / 2, }, ], ..Default::default() }; assert_eq!(d.size_checked(), None); } } #[test] fn digest() { let d = Directory::default(); assert_eq!( d.digest(), (&hex!("af1349b9f5f9a1a6a0404dea36dcc9499bcb25c9adc112b7cc9a93cae41f3262")).into() ) } #[test] fn validate_empty() { let d = Directory::default(); assert_eq!(d.validate(), Ok(())); } #[test] fn validate_invalid_names() { { let d = Directory { directories: vec![DirectoryNode { name: "".into(), digest: DUMMY_DIGEST.to_vec().into(), size: 42, }], ..Default::default() }; match d.validate().expect_err("must fail") { ValidateDirectoryError::InvalidNode(n, ValidateNodeError::InvalidName(_)) => { assert_eq!(n, b"") } _ => panic!("unexpected error"), }; } { let d = Directory { directories: vec![DirectoryNode { name: ".".into(), digest: DUMMY_DIGEST.to_vec().into(), size: 42, }], ..Default::default() }; match d.validate().expect_err("must fail") { ValidateDirectoryError::InvalidNode(n, ValidateNodeError::InvalidName(_)) => { assert_eq!(n, b".") } _ => panic!("unexpected error"), }; } { let d = Directory { files: vec![FileNode { name: "..".into(), digest: DUMMY_DIGEST.to_vec().into(), size: 42, executable: false, }], ..Default::default() }; match d.validate().expect_err("must fail") { ValidateDirectoryError::InvalidNode(n, ValidateNodeError::InvalidName(_)) => { assert_eq!(n, b"..") } _ => panic!("unexpected error"), }; } { let d = Directory { symlinks: vec![SymlinkNode { name: "\x00".into(), target: "foo".into(), }], ..Default::default() }; match d.validate().expect_err("must fail") { ValidateDirectoryError::InvalidNode(n, ValidateNodeError::InvalidName(_)) => { assert_eq!(n, b"\x00") } _ => panic!("unexpected error"), }; } { let d = Directory { symlinks: vec![SymlinkNode { name: "foo/bar".into(), target: "foo".into(), }], ..Default::default() }; match d.validate().expect_err("must fail") { ValidateDirectoryError::InvalidNode(n, ValidateNodeError::InvalidName(_)) => { assert_eq!(n, b"foo/bar") } _ => panic!("unexpected error"), }; } } #[test] fn validate_invalid_digest() { let d = Directory { directories: vec![DirectoryNode { name: "foo".into(), digest: vec![0x00, 0x42].into(), // invalid length size: 42, }], ..Default::default() }; match d.validate().expect_err("must fail") { ValidateDirectoryError::InvalidNode(_, ValidateNodeError::InvalidDigestLen(n)) => { assert_eq!(n, 2) } _ => panic!("unexpected error"), } } #[test] fn validate_sorting() { // "b" comes before "a", bad. { let d = Directory { directories: vec![ DirectoryNode { name: "b".into(), digest: DUMMY_DIGEST.to_vec().into(), size: 42, }, DirectoryNode { name: "a".into(), digest: DUMMY_DIGEST.to_vec().into(), size: 42, }, ], ..Default::default() }; match d.validate().expect_err("must fail") { ValidateDirectoryError::WrongSorting(s) => { assert_eq!(s, b"a"); } _ => panic!("unexpected error"), } } // "a" exists twice, bad. { let d = Directory { directories: vec![ DirectoryNode { name: "a".into(), digest: DUMMY_DIGEST.to_vec().into(), size: 42, }, DirectoryNode { name: "a".into(), digest: DUMMY_DIGEST.to_vec().into(), size: 42, }, ], ..Default::default() }; match d.validate().expect_err("must fail") { ValidateDirectoryError::DuplicateName(s) => { assert_eq!(s, b"a"); } _ => panic!("unexpected error"), } } // "a" comes before "b", all good. { let d = Directory { directories: vec![ DirectoryNode { name: "a".into(), digest: DUMMY_DIGEST.to_vec().into(), size: 42, }, DirectoryNode { name: "b".into(), digest: DUMMY_DIGEST.to_vec().into(), size: 42, }, ], ..Default::default() }; d.validate().expect("validate shouldn't error"); } // [b, c] and [a] are both properly sorted. { let d = Directory { directories: vec![ DirectoryNode { name: "b".into(), digest: DUMMY_DIGEST.to_vec().into(), size: 42, }, DirectoryNode { name: "c".into(), digest: DUMMY_DIGEST.to_vec().into(), size: 42, }, ], symlinks: vec![SymlinkNode { name: "a".into(), target: "foo".into(), }], ..Default::default() }; d.validate().expect("validate shouldn't error"); } } #[test] fn validate_overflow() { let d = Directory { directories: vec![DirectoryNode { name: "foo".into(), digest: DUMMY_DIGEST.to_vec().into(), size: u64::MAX, }], ..Default::default() }; match d.validate().expect_err("must fail") { ValidateDirectoryError::SizeOverflow => {} _ => panic!("unexpected error"), } }