fd/tests/tests.rs
2022-12-28 23:28:41 -07:00

2446 lines
62 KiB
Rust
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mod testenv;
use std::fs;
use std::io::Write;
use std::path::Path;
use std::time::{Duration, SystemTime};
use test_case::test_case;
use normpath::PathExt;
use regex::escape;
use crate::testenv::TestEnv;
static DEFAULT_DIRS: &[&str] = &["one/two/three", "one/two/three/directory_foo"];
static DEFAULT_FILES: &[&str] = &[
"a.foo",
"one/b.foo",
"one/two/c.foo",
"one/two/C.Foo2",
"one/two/three/d.foo",
"fdignored.foo",
"gitignored.foo",
".hidden.foo",
"e1 e2",
];
#[allow(clippy::let_and_return)]
fn get_absolute_root_path(env: &TestEnv) -> String {
let path = env
.test_root()
.normalize()
.expect("absolute path")
.as_path()
.to_str()
.expect("string")
.to_string();
#[cfg(windows)]
let path = path.trim_start_matches(r"\\?\").to_string();
path
}
#[cfg(test)]
fn get_test_env_with_abs_path(dirs: &[&'static str], files: &[&'static str]) -> (TestEnv, String) {
let env = TestEnv::new(dirs, files);
let root_path = get_absolute_root_path(&env);
(env, root_path)
}
#[cfg(test)]
fn create_file_with_size<P: AsRef<Path>>(path: P, size_in_bytes: usize) {
let content = "#".repeat(size_in_bytes);
let mut f = fs::File::create::<P>(path).unwrap();
f.write_all(content.as_bytes()).unwrap();
}
/// Simple test
#[test]
fn test_simple() {
let te = TestEnv::new(DEFAULT_DIRS, DEFAULT_FILES);
te.assert_output(&["a.foo"], "a.foo");
te.assert_output(&["b.foo"], "one/b.foo");
te.assert_output(&["d.foo"], "one/two/three/d.foo");
te.assert_output(
&["foo"],
"a.foo
one/b.foo
one/two/c.foo
one/two/C.Foo2
one/two/three/d.foo
one/two/three/directory_foo/",
);
}
static AND_EXTRA_FILES: &[&str] = &[
"a.foo",
"one/b.foo",
"one/two/c.foo",
"one/two/C.Foo2",
"one/two/three/baz-quux",
"one/two/three/Baz-Quux2",
"one/two/three/d.foo",
"fdignored.foo",
"gitignored.foo",
".hidden.foo",
"A-B.jpg",
"A-C.png",
"B-A.png",
"B-C.png",
"C-A.jpg",
"C-B.png",
"e1 e2",
];
/// AND test
#[test]
fn test_and_basic() {
let te = TestEnv::new(DEFAULT_DIRS, AND_EXTRA_FILES);
te.assert_output(
&["foo", "--and", "c"],
"one/two/C.Foo2
one/two/c.foo
one/two/three/directory_foo/",
);
te.assert_output(
&["f", "--and", "[ad]", "--and", "[_]"],
"one/two/three/directory_foo/",
);
te.assert_output(
&["f", "--and", "[ad]", "--and", "[.]"],
"a.foo
one/two/three/d.foo",
);
te.assert_output(&["Foo", "--and", "C"], "one/two/C.Foo2");
te.assert_output(&["foo", "--and", "asdasdasdsadasd"], "");
}
#[test]
fn test_and_empty_pattern() {
let te = TestEnv::new(DEFAULT_DIRS, AND_EXTRA_FILES);
te.assert_output(&["Foo", "--and", "2", "--and", ""], "one/two/C.Foo2");
}
#[test]
fn test_and_bad_pattern() {
let te = TestEnv::new(DEFAULT_DIRS, AND_EXTRA_FILES);
te.assert_failure(&["Foo", "--and", "2", "--and", "[", "--and", "C"]);
te.assert_failure(&["Foo", "--and", "[", "--and", "2", "--and", "C"]);
te.assert_failure(&["Foo", "--and", "2", "--and", "C", "--and", "["]);
te.assert_failure(&["[", "--and", "2", "--and", "C", "--and", "Foo"]);
}
#[test]
fn test_and_pattern_starts_with_dash() {
let te = TestEnv::new(DEFAULT_DIRS, AND_EXTRA_FILES);
te.assert_output(
&["baz", "--and", "quux"],
"one/two/three/Baz-Quux2
one/two/three/baz-quux",
);
te.assert_output(
&["baz", "--and", "-"],
"one/two/three/Baz-Quux2
one/two/three/baz-quux",
);
te.assert_output(
&["Quu", "--and", "x", "--and", "-"],
"one/two/three/Baz-Quux2",
);
}
#[test]
fn test_and_plus_extension() {
let te = TestEnv::new(DEFAULT_DIRS, AND_EXTRA_FILES);
te.assert_output(
&[
"A",
"--and",
"B",
"--extension",
"jpg",
"--extension",
"png",
],
"A-B.jpg
B-A.png",
);
te.assert_output(
&[
"A",
"--extension",
"jpg",
"--and",
"B",
"--extension",
"png",
],
"A-B.jpg
B-A.png",
);
}
#[test]
fn test_and_plus_type() {
let te = TestEnv::new(DEFAULT_DIRS, AND_EXTRA_FILES);
te.assert_output(
&["c", "--type", "d", "--and", "foo"],
"one/two/three/directory_foo/",
);
te.assert_output(
&["c", "--type", "f", "--and", "foo"],
"one/two/C.Foo2
one/two/c.foo",
);
}
#[test]
fn test_and_plus_glob() {
let te = TestEnv::new(DEFAULT_DIRS, AND_EXTRA_FILES);
te.assert_output(&["*foo", "--glob", "--and", "c*"], "one/two/c.foo");
}
#[test]
fn test_and_plus_fixed_strings() {
let te = TestEnv::new(DEFAULT_DIRS, AND_EXTRA_FILES);
te.assert_output(
&["foo", "--fixed-strings", "--and", "c", "--and", "."],
"one/two/c.foo
one/two/C.Foo2",
);
te.assert_output(
&["foo", "--fixed-strings", "--and", "[c]", "--and", "."],
"",
);
te.assert_output(
&["Foo", "--fixed-strings", "--and", "C", "--and", "."],
"one/two/C.Foo2",
);
}
#[test]
fn test_and_plus_ignore_case() {
let te = TestEnv::new(DEFAULT_DIRS, AND_EXTRA_FILES);
te.assert_output(
&["Foo", "--ignore-case", "--and", "C", "--and", "[.]"],
"one/two/C.Foo2
one/two/c.foo",
);
}
#[test]
fn test_and_plus_case_sensitive() {
let te = TestEnv::new(DEFAULT_DIRS, AND_EXTRA_FILES);
te.assert_output(
&["foo", "--case-sensitive", "--and", "c", "--and", "[.]"],
"one/two/c.foo",
);
}
#[test]
fn test_and_plus_full_path() {
let te = TestEnv::new(DEFAULT_DIRS, AND_EXTRA_FILES);
te.assert_output(
&[
"three",
"--full-path",
"--and",
"_foo",
"--and",
r"[/\\]dir",
],
"one/two/three/directory_foo/",
);
te.assert_output(
&[
"three",
"--full-path",
"--and",
r"[/\\]two",
"--and",
r"[/\\]dir",
],
"one/two/three/directory_foo/",
);
}
/// Test each pattern type with an empty pattern.
#[test]
fn test_empty_pattern() {
let te = TestEnv::new(DEFAULT_DIRS, DEFAULT_FILES);
let expected = "a.foo
e1 e2
one/
one/b.foo
one/two/
one/two/c.foo
one/two/C.Foo2
one/two/three/
one/two/three/d.foo
one/two/three/directory_foo/
symlink";
te.assert_output(&["--regex"], expected);
te.assert_output(&["--fixed-strings"], expected);
te.assert_output(&["--glob"], expected);
}
/// Test multiple directory searches
#[test]
fn test_multi_file() {
let dirs = &["test1", "test2"];
let files = &["test1/a.foo", "test1/b.foo", "test2/a.foo"];
let te = TestEnv::new(dirs, files);
te.assert_output(
&["a.foo", "test1", "test2"],
"test1/a.foo
test2/a.foo",
);
te.assert_output(
&["", "test1", "test2"],
"test1/a.foo
test2/a.foo
test1/b.foo",
);
te.assert_output(&["a.foo", "test1"], "test1/a.foo");
te.assert_output(&["b.foo", "test1", "test2"], "test1/b.foo");
}
/// Test search over multiple directory with missing
#[test]
fn test_multi_file_with_missing() {
let dirs = &["real"];
let files = &["real/a.foo", "real/b.foo"];
let te = TestEnv::new(dirs, files);
te.assert_output(&["a.foo", "real", "fake"], "real/a.foo");
te.assert_error(
&["a.foo", "real", "fake"],
"[fd error]: Search path 'fake' is not a directory.",
);
te.assert_output(
&["", "real", "fake"],
"real/a.foo
real/b.foo",
);
te.assert_output(
&["", "real", "fake1", "fake2"],
"real/a.foo
real/b.foo",
);
te.assert_error(
&["", "real", "fake1", "fake2"],
"[fd error]: Search path 'fake1' is not a directory.
[fd error]: Search path 'fake2' is not a directory.",
);
te.assert_failure_with_error(
&["", "fake1", "fake2"],
"[fd error]: Search path 'fake1' is not a directory.
[fd error]: Search path 'fake2' is not a directory.
[fd error]: No valid search paths given.",
);
}
/// Explicit root path
#[test]
fn test_explicit_root_path() {
let te = TestEnv::new(DEFAULT_DIRS, DEFAULT_FILES);
te.assert_output(
&["foo", "one"],
"one/b.foo
one/two/c.foo
one/two/C.Foo2
one/two/three/d.foo
one/two/three/directory_foo/",
);
te.assert_output(
&["foo", "one/two/three"],
"one/two/three/d.foo
one/two/three/directory_foo/",
);
te.assert_output_subdirectory(
"one/two/",
&["foo", "../../"],
"../../a.foo
../../one/b.foo
../../one/two/c.foo
../../one/two/C.Foo2
../../one/two/three/d.foo
../../one/two/three/directory_foo/",
);
te.assert_output_subdirectory(
"one/two/three",
&["", ".."],
"../c.foo
../C.Foo2
../three/
../three/d.foo
../three/directory_foo/",
);
}
/// Regex searches
#[test]
fn test_regex_searches() {
let te = TestEnv::new(DEFAULT_DIRS, DEFAULT_FILES);
te.assert_output(
&["[a-c].foo"],
"a.foo
one/b.foo
one/two/c.foo
one/two/C.Foo2",
);
te.assert_output(
&["--case-sensitive", "[a-c].foo"],
"a.foo
one/b.foo
one/two/c.foo",
);
}
/// Smart case
#[test]
fn test_smart_case() {
let te = TestEnv::new(DEFAULT_DIRS, DEFAULT_FILES);
te.assert_output(
&["c.foo"],
"one/two/c.foo
one/two/C.Foo2",
);
te.assert_output(&["C.Foo"], "one/two/C.Foo2");
te.assert_output(&["Foo"], "one/two/C.Foo2");
// Only literal uppercase chars should trigger case sensitivity.
te.assert_output(
&["\\Ac"],
"one/two/c.foo
one/two/C.Foo2",
);
te.assert_output(&["\\AC"], "one/two/C.Foo2");
}
/// Case sensitivity (--case-sensitive)
#[test]
fn test_case_sensitive() {
let te = TestEnv::new(DEFAULT_DIRS, DEFAULT_FILES);
te.assert_output(&["--case-sensitive", "c.foo"], "one/two/c.foo");
te.assert_output(&["--case-sensitive", "C.Foo"], "one/two/C.Foo2");
te.assert_output(
&["--ignore-case", "--case-sensitive", "C.Foo"],
"one/two/C.Foo2",
);
}
/// Case insensitivity (--ignore-case)
#[test]
fn test_case_insensitive() {
let te = TestEnv::new(DEFAULT_DIRS, DEFAULT_FILES);
te.assert_output(
&["--ignore-case", "C.Foo"],
"one/two/c.foo
one/two/C.Foo2",
);
te.assert_output(
&["--case-sensitive", "--ignore-case", "C.Foo"],
"one/two/c.foo
one/two/C.Foo2",
);
}
/// Glob-based searches (--glob)
#[test]
fn test_glob_searches() {
let te = TestEnv::new(DEFAULT_DIRS, DEFAULT_FILES);
te.assert_output(
&["--glob", "*.foo"],
"a.foo
one/b.foo
one/two/c.foo
one/two/three/d.foo",
);
te.assert_output(
&["--glob", "[a-c].foo"],
"a.foo
one/b.foo
one/two/c.foo",
);
te.assert_output(
&["--glob", "[a-c].foo*"],
"a.foo
one/b.foo
one/two/C.Foo2
one/two/c.foo",
);
}
/// Glob-based searches (--glob) in combination with full path searches (--full-path)
#[cfg(not(windows))] // TODO: make this work on Windows
#[test]
fn test_full_path_glob_searches() {
let te = TestEnv::new(DEFAULT_DIRS, DEFAULT_FILES);
te.assert_output(
&["--glob", "--full-path", "**/one/**/*.foo"],
"one/b.foo
one/two/c.foo
one/two/three/d.foo",
);
te.assert_output(
&["--glob", "--full-path", "**/one/*/*.foo"],
" one/two/c.foo",
);
te.assert_output(
&["--glob", "--full-path", "**/one/*/*/*.foo"],
" one/two/three/d.foo",
);
}
#[test]
fn test_smart_case_glob_searches() {
let te = TestEnv::new(DEFAULT_DIRS, DEFAULT_FILES);
te.assert_output(
&["--glob", "c.foo*"],
"one/two/C.Foo2
one/two/c.foo",
);
te.assert_output(&["--glob", "C.Foo*"], "one/two/C.Foo2");
}
/// Glob-based searches (--glob) in combination with --case-sensitive
#[test]
fn test_case_sensitive_glob_searches() {
let te = TestEnv::new(DEFAULT_DIRS, DEFAULT_FILES);
te.assert_output(&["--glob", "--case-sensitive", "c.foo*"], "one/two/c.foo");
}
/// Glob-based searches (--glob) in combination with --extension
#[test]
fn test_glob_searches_with_extension() {
let te = TestEnv::new(DEFAULT_DIRS, DEFAULT_FILES);
te.assert_output(
&["--glob", "--extension", "foo2", "[a-z].*"],
"one/two/C.Foo2",
);
}
/// Make sure that --regex overrides --glob
#[test]
fn test_regex_overrides_glob() {
let te = TestEnv::new(DEFAULT_DIRS, DEFAULT_FILES);
te.assert_output(&["--glob", "--regex", "Foo2$"], "one/two/C.Foo2");
}
/// Full path search (--full-path)
#[test]
fn test_full_path() {
let te = TestEnv::new(DEFAULT_DIRS, DEFAULT_FILES);
let root = te.system_root();
let prefix = escape(&root.to_string_lossy());
te.assert_output(
&[
"--full-path",
&format!("^{prefix}.*three.*foo$", prefix = prefix),
],
"one/two/three/d.foo
one/two/three/directory_foo/",
);
}
/// Hidden files (--hidden)
#[test]
fn test_hidden() {
let te = TestEnv::new(DEFAULT_DIRS, DEFAULT_FILES);
te.assert_output(
&["--hidden", "foo"],
".hidden.foo
a.foo
one/b.foo
one/two/c.foo
one/two/C.Foo2
one/two/three/d.foo
one/two/three/directory_foo/",
);
}
/// Hidden file attribute on Windows
#[cfg(windows)]
#[test]
fn test_hidden_file_attribute() {
use std::os::windows::fs::OpenOptionsExt;
let te = TestEnv::new(DEFAULT_DIRS, DEFAULT_FILES);
// https://docs.microsoft.com/en-us/windows/win32/api/fileapi/nf-fileapi-setfileattributesa
const FILE_ATTRIBUTE_HIDDEN: u32 = 2;
fs::OpenOptions::new()
.create(true)
.write(true)
.attributes(FILE_ATTRIBUTE_HIDDEN)
.open(te.test_root().join("hidden-file.txt"))
.unwrap();
te.assert_output(&["--hidden", "hidden-file.txt"], "hidden-file.txt");
te.assert_output(&["hidden-file.txt"], "");
}
/// Ignored files (--no-ignore)
#[test]
fn test_no_ignore() {
let te = TestEnv::new(DEFAULT_DIRS, DEFAULT_FILES);
te.assert_output(
&["--no-ignore", "foo"],
"a.foo
fdignored.foo
gitignored.foo
one/b.foo
one/two/c.foo
one/two/C.Foo2
one/two/three/d.foo
one/two/three/directory_foo/",
);
te.assert_output(
&["--hidden", "--no-ignore", "foo"],
".hidden.foo
a.foo
fdignored.foo
gitignored.foo
one/b.foo
one/two/c.foo
one/two/C.Foo2
one/two/three/d.foo
one/two/three/directory_foo/",
);
}
/// .gitignore and .fdignore
#[test]
fn test_gitignore_and_fdignore() {
let files = &[
"ignored-by-nothing",
"ignored-by-fdignore",
"ignored-by-gitignore",
"ignored-by-both",
];
let te = TestEnv::new(&[], files);
fs::File::create(te.test_root().join(".fdignore"))
.unwrap()
.write_all(b"ignored-by-fdignore\nignored-by-both")
.unwrap();
fs::File::create(te.test_root().join(".gitignore"))
.unwrap()
.write_all(b"ignored-by-gitignore\nignored-by-both")
.unwrap();
te.assert_output(&["ignored"], "ignored-by-nothing");
te.assert_output(
&["--no-ignore-vcs", "ignored"],
"ignored-by-nothing
ignored-by-gitignore",
);
te.assert_output(
&["--no-ignore", "ignored"],
"ignored-by-nothing
ignored-by-fdignore
ignored-by-gitignore
ignored-by-both",
);
}
/// Ignore parent ignore files (--no-ignore-parent)
#[test]
fn test_no_ignore_parent() {
let dirs = &["inner"];
let files = &[
"inner/parent-ignored",
"inner/child-ignored",
"inner/not-ignored",
];
let te = TestEnv::new(dirs, files);
// Ignore 'parent-ignored' in root
fs::File::create(te.test_root().join(".gitignore"))
.unwrap()
.write_all(b"parent-ignored")
.unwrap();
// Ignore 'child-ignored' in inner
fs::File::create(te.test_root().join("inner/.gitignore"))
.unwrap()
.write_all(b"child-ignored")
.unwrap();
te.assert_output_subdirectory("inner", &[], "not-ignored");
te.assert_output_subdirectory(
"inner",
&["--no-ignore-parent"],
"parent-ignored
not-ignored",
);
}
/// Ignore parent ignore files (--no-ignore-parent) with an inner git repo
#[test]
fn test_no_ignore_parent_inner_git() {
let dirs = &["inner"];
let files = &[
"inner/parent-ignored",
"inner/child-ignored",
"inner/not-ignored",
];
let te = TestEnv::new(dirs, files);
// Make the inner folder also appear as a git repo
fs::create_dir_all(te.test_root().join("inner/.git")).unwrap();
// Ignore 'parent-ignored' in root
fs::File::create(te.test_root().join(".gitignore"))
.unwrap()
.write_all(b"parent-ignored")
.unwrap();
// Ignore 'child-ignored' in inner
fs::File::create(te.test_root().join("inner/.gitignore"))
.unwrap()
.write_all(b"child-ignored")
.unwrap();
te.assert_output_subdirectory(
"inner",
&[],
"not-ignored
parent-ignored",
);
te.assert_output_subdirectory(
"inner",
&["--no-ignore-parent"],
"not-ignored
parent-ignored",
);
}
/// Precedence of .fdignore files
#[test]
fn test_custom_ignore_precedence() {
let dirs = &["inner"];
let files = &["inner/foo"];
let te = TestEnv::new(dirs, files);
// Ignore 'foo' via .gitignore
fs::File::create(te.test_root().join("inner/.gitignore"))
.unwrap()
.write_all(b"foo")
.unwrap();
// Whitelist 'foo' via .fdignore
fs::File::create(te.test_root().join(".fdignore"))
.unwrap()
.write_all(b"!foo")
.unwrap();
te.assert_output(&["foo"], "inner/foo");
te.assert_output(&["--no-ignore-vcs", "foo"], "inner/foo");
te.assert_output(&["--no-ignore", "foo"], "inner/foo");
}
/// VCS ignored files (--no-ignore-vcs)
#[test]
fn test_no_ignore_vcs() {
let te = TestEnv::new(DEFAULT_DIRS, DEFAULT_FILES);
te.assert_output(
&["--no-ignore-vcs", "foo"],
"a.foo
gitignored.foo
one/b.foo
one/two/c.foo
one/two/C.Foo2
one/two/three/d.foo
one/two/three/directory_foo/",
);
}
/// Test that --no-ignore-vcs still respects .fdignored in parent directory
#[test]
fn test_no_ignore_vcs_child_dir() {
let te = TestEnv::new(
&["inner"],
&["inner/fdignored.foo", "inner/foo", "inner/gitignored.foo"],
);
te.assert_output_subdirectory(
"inner",
&["--no-ignore-vcs", "foo"],
"foo
gitignored.foo",
);
}
/// Custom ignore files (--ignore-file)
#[test]
fn test_custom_ignore_files() {
let te = TestEnv::new(DEFAULT_DIRS, DEFAULT_FILES);
// Ignore 'C.Foo2' and everything in 'three'.
fs::File::create(te.test_root().join("custom.ignore"))
.unwrap()
.write_all(b"C.Foo2\nthree")
.unwrap();
te.assert_output(
&["--ignore-file", "custom.ignore", "foo"],
"a.foo
one/b.foo
one/two/c.foo",
);
}
/// Ignored files with ripgrep aliases (-u / -uu)
#[test]
fn test_no_ignore_aliases() {
let te = TestEnv::new(DEFAULT_DIRS, DEFAULT_FILES);
te.assert_output(
&["-u", "foo"],
".hidden.foo
a.foo
fdignored.foo
gitignored.foo
one/b.foo
one/two/c.foo
one/two/C.Foo2
one/two/three/d.foo
one/two/three/directory_foo/",
);
}
/// Symlinks (--follow)
#[test]
fn test_follow() {
let te = TestEnv::new(DEFAULT_DIRS, DEFAULT_FILES);
te.assert_output(
&["--follow", "c.foo"],
"one/two/c.foo
one/two/C.Foo2
symlink/c.foo
symlink/C.Foo2",
);
}
// File system boundaries (--one-file-system)
// Limited to Unix because, to the best of my knowledge, there is no easy way to test a use case
// file systems mounted into the tree on Windows.
// Not limiting depth causes massive delay under Darwin, see BurntSushi/ripgrep#1429
#[test]
#[cfg(unix)]
fn test_file_system_boundaries() {
// Helper function to get the device ID for a given path
// Inspired by https://github.com/BurntSushi/ripgrep/blob/8892bf648cfec111e6e7ddd9f30e932b0371db68/ignore/src/walk.rs#L1693
fn device_num(path: impl AsRef<Path>) -> u64 {
use std::os::unix::fs::MetadataExt;
path.as_ref().metadata().map(|md| md.dev()).unwrap()
}
// Can't simulate file system boundaries
let te = TestEnv::new(&[], &[]);
let dev_null = Path::new("/dev/null");
// /dev/null should exist in all sane Unixes. Skip if it doesn't exist for some reason.
// Also skip should it be on the same device as the root partition for some reason.
if !dev_null.is_file() || device_num(dev_null) == device_num("/") {
return;
}
te.assert_output(
&["--full-path", "--max-depth", "2", "^/dev/null$", "/"],
"/dev/null",
);
te.assert_output(
&[
"--one-file-system",
"--full-path",
"--max-depth",
"2",
"^/dev/null$",
"/",
],
"",
);
}
#[test]
fn test_follow_broken_symlink() {
let mut te = TestEnv::new(DEFAULT_DIRS, DEFAULT_FILES);
te.create_broken_symlink("broken_symlink")
.expect("Failed to create broken symlink.");
te.assert_output(
&["symlink"],
"broken_symlink
symlink",
);
te.assert_output(
&["--type", "symlink", "symlink"],
"broken_symlink
symlink",
);
te.assert_output(&["--type", "file", "symlink"], "");
te.assert_output(
&["--follow", "--type", "symlink", "symlink"],
"broken_symlink",
);
te.assert_output(&["--follow", "--type", "file", "symlink"], "");
}
/// Null separator (--print0)
#[test]
fn test_print0() {
let te = TestEnv::new(DEFAULT_DIRS, DEFAULT_FILES);
te.assert_output(
&["--print0", "foo"],
"./a.fooNULL
./one/b.fooNULL
./one/two/C.Foo2NULL
./one/two/c.fooNULL
./one/two/three/d.fooNULL
./one/two/three/directory_foo/NULL",
);
}
/// Maximum depth (--max-depth)
#[test]
fn test_max_depth() {
let te = TestEnv::new(DEFAULT_DIRS, DEFAULT_FILES);
te.assert_output(
&["--max-depth", "3"],
"a.foo
e1 e2
one/
one/b.foo
one/two/
one/two/c.foo
one/two/C.Foo2
one/two/three/
symlink",
);
te.assert_output(
&["--max-depth", "2"],
"a.foo
e1 e2
one/
one/b.foo
one/two/
symlink",
);
te.assert_output(
&["--max-depth", "1"],
"a.foo
e1 e2
one/
symlink",
);
}
/// Minimum depth (--min-depth)
#[test]
fn test_min_depth() {
let te = TestEnv::new(DEFAULT_DIRS, DEFAULT_FILES);
te.assert_output(
&["--min-depth", "3"],
"one/two/c.foo
one/two/C.Foo2
one/two/three/
one/two/three/d.foo
one/two/three/directory_foo/",
);
te.assert_output(
&["--min-depth", "4"],
"one/two/three/d.foo
one/two/three/directory_foo/",
);
}
/// Exact depth (--exact-depth)
#[test]
fn test_exact_depth() {
let te = TestEnv::new(DEFAULT_DIRS, DEFAULT_FILES);
te.assert_output(
&["--exact-depth", "3"],
"one/two/c.foo
one/two/C.Foo2
one/two/three/",
);
}
/// Pruning (--prune)
#[test]
fn test_prune() {
let dirs = &["foo/bar", "bar/foo", "baz"];
let files = &[
"foo/foo.file",
"foo/bar/foo.file",
"bar/foo.file",
"bar/foo/foo.file",
"baz/foo.file",
];
let te = TestEnv::new(dirs, files);
te.assert_output(
&["foo"],
"foo/
foo/foo.file
foo/bar/foo.file
bar/foo.file
bar/foo/
bar/foo/foo.file
baz/foo.file",
);
te.assert_output(
&["--prune", "foo"],
"foo/
bar/foo/
bar/foo.file
baz/foo.file",
);
}
/// Absolute paths (--absolute-path)
#[test]
fn test_absolute_path() {
let (te, abs_path) = get_test_env_with_abs_path(DEFAULT_DIRS, DEFAULT_FILES);
te.assert_output(
&["--absolute-path"],
&format!(
"{abs_path}/a.foo
{abs_path}/e1 e2
{abs_path}/one/
{abs_path}/one/b.foo
{abs_path}/one/two/
{abs_path}/one/two/c.foo
{abs_path}/one/two/C.Foo2
{abs_path}/one/two/three/
{abs_path}/one/two/three/d.foo
{abs_path}/one/two/three/directory_foo/
{abs_path}/symlink",
abs_path = &abs_path
),
);
te.assert_output(
&["--absolute-path", "foo"],
&format!(
"{abs_path}/a.foo
{abs_path}/one/b.foo
{abs_path}/one/two/c.foo
{abs_path}/one/two/C.Foo2
{abs_path}/one/two/three/d.foo
{abs_path}/one/two/three/directory_foo/",
abs_path = &abs_path
),
);
}
/// Show absolute paths if the path argument is absolute
#[test]
fn test_implicit_absolute_path() {
let (te, abs_path) = get_test_env_with_abs_path(DEFAULT_DIRS, DEFAULT_FILES);
te.assert_output(
&["foo", &abs_path],
&format!(
"{abs_path}/a.foo
{abs_path}/one/b.foo
{abs_path}/one/two/c.foo
{abs_path}/one/two/C.Foo2
{abs_path}/one/two/three/d.foo
{abs_path}/one/two/three/directory_foo/",
abs_path = &abs_path
),
);
}
/// Absolute paths should be normalized
#[test]
fn test_normalized_absolute_path() {
let (te, abs_path) = get_test_env_with_abs_path(DEFAULT_DIRS, DEFAULT_FILES);
te.assert_output_subdirectory(
"one",
&["--absolute-path", "foo", ".."],
&format!(
"{abs_path}/a.foo
{abs_path}/one/b.foo
{abs_path}/one/two/c.foo
{abs_path}/one/two/C.Foo2
{abs_path}/one/two/three/d.foo
{abs_path}/one/two/three/directory_foo/",
abs_path = &abs_path
),
);
}
/// File type filter (--type)
#[test]
fn test_type() {
let te = TestEnv::new(DEFAULT_DIRS, DEFAULT_FILES);
te.assert_output(
&["--type", "f"],
"a.foo
e1 e2
one/b.foo
one/two/c.foo
one/two/C.Foo2
one/two/three/d.foo",
);
te.assert_output(&["--type", "f", "e1"], "e1 e2");
te.assert_output(
&["--type", "d"],
"one/
one/two/
one/two/three/
one/two/three/directory_foo/",
);
te.assert_output(
&["--type", "d", "--type", "l"],
"one/
one/two/
one/two/three/
one/two/three/directory_foo/
symlink",
);
te.assert_output(&["--type", "l"], "symlink");
}
/// Test `--type executable`
#[cfg(unix)]
#[test]
fn test_type_executable() {
use std::os::unix::fs::OpenOptionsExt;
// This test assumes the current user isn't root
// (otherwise if the executable bit is set for any level, it is executable for the current
// user)
if users::get_current_uid() == 0 {
return;
}
let te = TestEnv::new(DEFAULT_DIRS, DEFAULT_FILES);
fs::OpenOptions::new()
.create(true)
.write(true)
.mode(0o777)
.open(te.test_root().join("executable-file.sh"))
.unwrap();
fs::OpenOptions::new()
.create(true)
.write(true)
.mode(0o645)
.open(te.test_root().join("not-user-executable-file.sh"))
.unwrap();
te.assert_output(&["--type", "executable"], "executable-file.sh");
te.assert_output(
&["--type", "executable", "--type", "directory"],
"executable-file.sh
one/
one/two/
one/two/three/
one/two/three/directory_foo/",
);
}
/// Test `--type empty`
#[test]
fn test_type_empty() {
let te = TestEnv::new(&["dir_empty", "dir_nonempty"], &[]);
create_file_with_size(te.test_root().join("0_bytes.foo"), 0);
create_file_with_size(te.test_root().join("5_bytes.foo"), 5);
create_file_with_size(te.test_root().join("dir_nonempty").join("2_bytes.foo"), 2);
te.assert_output(
&["--type", "empty"],
"0_bytes.foo
dir_empty/",
);
te.assert_output(
&["--type", "empty", "--type", "file", "--type", "directory"],
"0_bytes.foo
dir_empty/",
);
te.assert_output(&["--type", "empty", "--type", "file"], "0_bytes.foo");
te.assert_output(&["--type", "empty", "--type", "directory"], "dir_empty/");
}
/// File extension (--extension)
#[test]
fn test_extension() {
let te = TestEnv::new(DEFAULT_DIRS, DEFAULT_FILES);
te.assert_output(
&["--extension", "foo"],
"a.foo
one/b.foo
one/two/c.foo
one/two/three/d.foo",
);
te.assert_output(
&["--extension", ".foo"],
"a.foo
one/b.foo
one/two/c.foo
one/two/three/d.foo",
);
te.assert_output(
&["--extension", ".foo", "--extension", "foo2"],
"a.foo
one/b.foo
one/two/c.foo
one/two/three/d.foo
one/two/C.Foo2",
);
te.assert_output(&["--extension", ".foo", "a"], "a.foo");
te.assert_output(&["--extension", "foo2"], "one/two/C.Foo2");
let te2 = TestEnv::new(&[], &["spam.bar.baz", "egg.bar.baz", "yolk.bar.baz.sig"]);
te2.assert_output(
&["--extension", ".bar.baz"],
"spam.bar.baz
egg.bar.baz",
);
te2.assert_output(&["--extension", "sig"], "yolk.bar.baz.sig");
te2.assert_output(&["--extension", "bar.baz.sig"], "yolk.bar.baz.sig");
let te3 = TestEnv::new(&[], &["latin1.e\u{301}xt", "smiley.☻"]);
te3.assert_output(&["--extension", ""], "smiley.☻");
te3.assert_output(&["--extension", ".e\u{301}xt"], "latin1.e\u{301}xt");
let te4 = TestEnv::new(&[], &[".hidden", "test.hidden"]);
te4.assert_output(&["--hidden", "--extension", ".hidden"], "test.hidden");
}
/// No file extension (test for the pattern provided in the --help text)
#[test]
fn test_no_extension() {
let te = TestEnv::new(
DEFAULT_DIRS,
&["a.foo", "aa", "one/b.foo", "one/bb", "one/two/three/d"],
);
te.assert_output(
&["^[^.]+$"],
"aa
one/
one/bb
one/two/
one/two/three/
one/two/three/d
one/two/three/directory_foo/
symlink",
);
te.assert_output(
&["^[^.]+$", "--type", "file"],
"aa
one/bb
one/two/three/d",
);
}
/// Symlink as search directory
#[test]
fn test_symlink_as_root() {
let mut te = TestEnv::new(DEFAULT_DIRS, DEFAULT_FILES);
te.create_broken_symlink("broken_symlink")
.expect("Failed to create broken symlink.");
// From: http://pubs.opengroup.org/onlinepubs/9699919799/functions/getcwd.html
// The getcwd() function shall place an absolute pathname of the current working directory in
// the array pointed to by buf, and return buf. The pathname shall contain no components that
// are dot or dot-dot, or are symbolic links.
//
// Key points:
// 1. The path of the current working directory of a Unix process cannot contain symlinks.
// 2. The path of the current working directory of a Windows process can contain symlinks.
//
// More:
// 1. On Windows, symlinks are resolved after the ".." component.
// 2. On Unix, symlinks are resolved immediately as encountered.
let parent_parent = if cfg!(windows) { ".." } else { "../.." };
te.assert_output_subdirectory(
"symlink",
&["", parent_parent],
&format!(
"{dir}/a.foo
{dir}/broken_symlink
{dir}/e1 e2
{dir}/one/
{dir}/one/b.foo
{dir}/one/two/
{dir}/one/two/c.foo
{dir}/one/two/C.Foo2
{dir}/one/two/three/
{dir}/one/two/three/d.foo
{dir}/one/two/three/directory_foo/
{dir}/symlink",
dir = &parent_parent
),
);
}
#[test]
fn test_symlink_and_absolute_path() {
let (te, abs_path) = get_test_env_with_abs_path(DEFAULT_DIRS, DEFAULT_FILES);
let expected_path = if cfg!(windows) { "symlink" } else { "one/two" };
te.assert_output_subdirectory(
"symlink",
&["--absolute-path"],
&format!(
"{abs_path}/{expected_path}/c.foo
{abs_path}/{expected_path}/C.Foo2
{abs_path}/{expected_path}/three/
{abs_path}/{expected_path}/three/d.foo
{abs_path}/{expected_path}/three/directory_foo/",
abs_path = &abs_path,
expected_path = expected_path
),
);
}
#[test]
fn test_symlink_as_absolute_root() {
let (te, abs_path) = get_test_env_with_abs_path(DEFAULT_DIRS, DEFAULT_FILES);
te.assert_output(
&["", &format!("{abs_path}/symlink", abs_path = abs_path)],
&format!(
"{abs_path}/symlink/c.foo
{abs_path}/symlink/C.Foo2
{abs_path}/symlink/three/
{abs_path}/symlink/three/d.foo
{abs_path}/symlink/three/directory_foo/",
abs_path = &abs_path
),
);
}
#[test]
fn test_symlink_and_full_path() {
let (te, abs_path) = get_test_env_with_abs_path(DEFAULT_DIRS, DEFAULT_FILES);
let root = te.system_root();
let prefix = escape(&root.to_string_lossy());
let expected_path = if cfg!(windows) { "symlink" } else { "one/two" };
te.assert_output_subdirectory(
"symlink",
&[
"--absolute-path",
"--full-path",
&format!("^{prefix}.*three", prefix = prefix),
],
&format!(
"{abs_path}/{expected_path}/three/
{abs_path}/{expected_path}/three/d.foo
{abs_path}/{expected_path}/three/directory_foo/",
abs_path = &abs_path,
expected_path = expected_path
),
);
}
#[test]
fn test_symlink_and_full_path_abs_path() {
let (te, abs_path) = get_test_env_with_abs_path(DEFAULT_DIRS, DEFAULT_FILES);
let root = te.system_root();
let prefix = escape(&root.to_string_lossy());
te.assert_output(
&[
"--full-path",
&format!("^{prefix}.*symlink.*three", prefix = prefix),
&format!("{abs_path}/symlink", abs_path = abs_path),
],
&format!(
"{abs_path}/symlink/three/
{abs_path}/symlink/three/d.foo
{abs_path}/symlink/three/directory_foo/",
abs_path = &abs_path
),
);
}
/// Exclude patterns (--exclude)
#[test]
fn test_excludes() {
let te = TestEnv::new(DEFAULT_DIRS, DEFAULT_FILES);
te.assert_output(
&["--exclude", "*.foo"],
"one/
one/two/
one/two/C.Foo2
one/two/three/
one/two/three/directory_foo/
e1 e2
symlink",
);
te.assert_output(
&["--exclude", "*.foo", "--exclude", "*.Foo2"],
"one/
one/two/
one/two/three/
one/two/three/directory_foo/
e1 e2
symlink",
);
te.assert_output(
&["--exclude", "*.foo", "--exclude", "*.Foo2", "foo"],
"one/two/three/directory_foo/",
);
te.assert_output(
&["--exclude", "one/two/", "foo"],
"a.foo
one/b.foo",
);
te.assert_output(
&["--exclude", "one/**/*.foo"],
"a.foo
e1 e2
one/
one/two/
one/two/C.Foo2
one/two/three/
one/two/three/directory_foo/
symlink",
);
}
/// Shell script execution (--exec)
#[test]
fn test_exec() {
let (te, abs_path) = get_test_env_with_abs_path(DEFAULT_DIRS, DEFAULT_FILES);
// TODO Windows tests: D:file.txt \file.txt \\server\share\file.txt ...
if !cfg!(windows) {
te.assert_output(
&["--absolute-path", "foo", "--exec", "echo"],
&format!(
"{abs_path}/a.foo
{abs_path}/one/b.foo
{abs_path}/one/two/C.Foo2
{abs_path}/one/two/c.foo
{abs_path}/one/two/three/d.foo
{abs_path}/one/two/three/directory_foo",
abs_path = &abs_path
),
);
te.assert_output(
&["foo", "--exec", "echo", "{}"],
"./a.foo
./one/b.foo
./one/two/C.Foo2
./one/two/c.foo
./one/two/three/d.foo
./one/two/three/directory_foo",
);
te.assert_output(
&["foo", "--strip-cwd-prefix", "--exec", "echo", "{}"],
"a.foo
one/b.foo
one/two/C.Foo2
one/two/c.foo
one/two/three/d.foo
one/two/three/directory_foo",
);
te.assert_output(
&["foo", "--exec", "echo", "{.}"],
"a
one/b
one/two/C
one/two/c
one/two/three/d
one/two/three/directory_foo",
);
te.assert_output(
&["foo", "--exec", "echo", "{/}"],
"a.foo
b.foo
C.Foo2
c.foo
d.foo
directory_foo",
);
te.assert_output(
&["foo", "--exec", "echo", "{/.}"],
"a
b
C
c
d
directory_foo",
);
te.assert_output(
&["foo", "--exec", "echo", "{//}"],
".
./one
./one/two
./one/two
./one/two/three
./one/two/three",
);
te.assert_output(&["e1", "--exec", "printf", "%s.%s\n"], "./e1 e2.");
}
}
#[test]
fn test_exec_multi() {
// TODO test for windows
if cfg!(windows) {
return;
}
let (te, abs_path) = get_test_env_with_abs_path(DEFAULT_DIRS, DEFAULT_FILES);
te.assert_output(
&[
"--absolute-path",
"foo",
"--exec",
"echo",
";",
"--exec",
"echo",
"test",
"{/}",
],
&format!(
"{abs_path}/a.foo
{abs_path}/one/b.foo
{abs_path}/one/two/C.Foo2
{abs_path}/one/two/c.foo
{abs_path}/one/two/three/d.foo
{abs_path}/one/two/three/directory_foo
test a.foo
test b.foo
test C.Foo2
test c.foo
test d.foo
test directory_foo",
abs_path = &abs_path
),
);
te.assert_output(
&[
"e1", "--exec", "echo", "{.}", ";", "--exec", "echo", "{/}", ";", "--exec", "echo",
"{//}", ";", "--exec", "echo", "{/.}",
],
"e1 e2
e1 e2
.
e1 e2",
);
te.assert_output(
&[
"foo", "--exec", "echo", "-n", "{/}: ", ";", "--exec", "echo", "{//}",
],
"a.foo: .
b.foo: ./one
C.Foo2: ./one/two
c.foo: ./one/two
d.foo: ./one/two/three
directory_foo: ./one/two/three",
);
}
#[test]
fn test_exec_batch() {
let (te, abs_path) = get_test_env_with_abs_path(DEFAULT_DIRS, DEFAULT_FILES);
let te = te.normalize_line(true);
// TODO Test for windows
if !cfg!(windows) {
te.assert_output(
&["--absolute-path", "foo", "--exec-batch", "echo"],
&format!(
"{abs_path}/a.foo {abs_path}/one/b.foo {abs_path}/one/two/C.Foo2 {abs_path}/one/two/c.foo {abs_path}/one/two/three/d.foo {abs_path}/one/two/three/directory_foo",
abs_path = &abs_path
),
);
te.assert_output(
&["foo", "--exec-batch", "echo", "{}"],
"./a.foo ./one/b.foo ./one/two/C.Foo2 ./one/two/c.foo ./one/two/three/d.foo ./one/two/three/directory_foo",
);
te.assert_output(
&["foo", "--strip-cwd-prefix", "--exec-batch", "echo", "{}"],
"a.foo one/b.foo one/two/C.Foo2 one/two/c.foo one/two/three/d.foo one/two/three/directory_foo",
);
te.assert_output(
&["foo", "--exec-batch", "echo", "{/}"],
"a.foo b.foo C.Foo2 c.foo d.foo directory_foo",
);
te.assert_output(
&["no_match", "--exec-batch", "echo", "Matched: ", "{/}"],
"",
);
te.assert_failure_with_error(
&["foo", "--exec-batch", "echo", "{}", "{}"],
"error: Only one placeholder allowed for batch commands\n\
\n\
Usage: fd [OPTIONS] [pattern] [path]...\n\
\n\
For more information try '--help'\n\
",
);
te.assert_failure_with_error(
&["foo", "--exec-batch", "echo", "{/}", ";", "-x", "echo"],
"error: The argument '--exec-batch <cmd>...' cannot be used with '--exec <cmd>...'",
);
te.assert_failure_with_error(
&["foo", "--exec-batch"],
"error: The argument '--exec-batch <cmd>...' requires a value but none was supplied",
);
te.assert_failure_with_error(
&["foo", "--exec-batch", "echo {}"],
"error: First argument of exec-batch is expected to be a fixed executable\n\
\n\
Usage: fd [OPTIONS] [pattern] [path]...\n\
\n\
For more information try '--help'\n\
",
);
te.assert_failure_with_error(&["a.foo", "--exec-batch", "bash", "-c", "exit 1"], "");
}
}
#[test]
fn test_exec_batch_multi() {
// TODO test for windows
if cfg!(windows) {
return;
}
let te = TestEnv::new(DEFAULT_DIRS, DEFAULT_FILES);
let output = te.assert_success_and_get_output(
".",
&[
"foo",
"--exec-batch",
"echo",
"{}",
";",
"--exec-batch",
"echo",
"{/}",
],
);
let stdout = std::str::from_utf8(&output.stdout).unwrap();
let lines: Vec<_> = stdout
.lines()
.map(|l| {
let mut words: Vec<_> = l.split_whitespace().collect();
words.sort_unstable();
words
})
.collect();
assert_eq!(
lines,
&[
[
"./a.foo",
"./one/b.foo",
"./one/two/C.Foo2",
"./one/two/c.foo",
"./one/two/three/d.foo",
"./one/two/three/directory_foo"
],
[
"C.Foo2",
"a.foo",
"b.foo",
"c.foo",
"d.foo",
"directory_foo"
],
]
);
te.assert_failure_with_error(
&[
"a.foo",
"--exec-batch",
"echo",
";",
"--exec-batch",
"bash",
"-c",
"exit 1",
],
"",
);
}
#[test]
fn test_exec_batch_with_limit() {
// TODO Test for windows
if cfg!(windows) {
return;
}
let te = TestEnv::new(DEFAULT_DIRS, DEFAULT_FILES);
let output = te.assert_success_and_get_output(
".",
&["foo", "--batch-size=2", "--exec-batch", "echo", "{}"],
);
let stdout = String::from_utf8_lossy(&output.stdout);
for line in stdout.lines() {
assert_eq!(2, line.split_whitespace().count());
}
let mut paths: Vec<_> = stdout
.lines()
.flat_map(|line| line.split_whitespace())
.collect();
paths.sort_unstable();
assert_eq!(
&paths,
&[
"./a.foo",
"./one/b.foo",
"./one/two/C.Foo2",
"./one/two/c.foo",
"./one/two/three/d.foo",
"./one/two/three/directory_foo"
],
);
}
/// Shell script execution (--exec) with a custom --path-separator
#[test]
fn test_exec_with_separator() {
let (te, abs_path) = get_test_env_with_abs_path(DEFAULT_DIRS, DEFAULT_FILES);
te.assert_output(
&[
"--path-separator=#",
"--absolute-path",
"foo",
"--exec",
"echo",
],
&format!(
"{abs_path}#a.foo
{abs_path}#one#b.foo
{abs_path}#one#two#C.Foo2
{abs_path}#one#two#c.foo
{abs_path}#one#two#three#d.foo
{abs_path}#one#two#three#directory_foo",
abs_path = abs_path.replace(std::path::MAIN_SEPARATOR, "#"),
),
);
te.assert_output(
&["--path-separator=#", "foo", "--exec", "echo", "{}"],
".#a.foo
.#one#b.foo
.#one#two#C.Foo2
.#one#two#c.foo
.#one#two#three#d.foo
.#one#two#three#directory_foo",
);
te.assert_output(
&["--path-separator=#", "foo", "--exec", "echo", "{.}"],
"a
one#b
one#two#C
one#two#c
one#two#three#d
one#two#three#directory_foo",
);
te.assert_output(
&["--path-separator=#", "foo", "--exec", "echo", "{/}"],
"a.foo
b.foo
C.Foo2
c.foo
d.foo
directory_foo",
);
te.assert_output(
&["--path-separator=#", "foo", "--exec", "echo", "{/.}"],
"a
b
C
c
d
directory_foo",
);
te.assert_output(
&["--path-separator=#", "foo", "--exec", "echo", "{//}"],
".
.#one
.#one#two
.#one#two
.#one#two#three
.#one#two#three",
);
te.assert_output(
&["--path-separator=#", "e1", "--exec", "printf", "%s.%s\n"],
".#e1 e2.",
);
}
/// Non-zero exit code (--quiet)
#[test]
fn test_quiet() {
let dirs = &[];
let files = &["a.foo", "b.foo"];
let te = TestEnv::new(dirs, files);
te.assert_output(&["-q"], "");
te.assert_output(&["--quiet"], "");
te.assert_output(&["--has-results"], "");
te.assert_failure_with_error(&["--quiet", "c.foo"], "")
}
/// Literal search (--fixed-strings)
#[test]
fn test_fixed_strings() {
let dirs = &["test1", "test2"];
let files = &["test1/a.foo", "test1/a_foo", "test2/Download (1).tar.gz"];
let te = TestEnv::new(dirs, files);
// Regex search, dot is treated as "any character"
te.assert_output(
&["a.foo"],
"test1/a.foo
test1/a_foo",
);
// Literal search, dot is treated as character
te.assert_output(&["--fixed-strings", "a.foo"], "test1/a.foo");
// Regex search, parens are treated as group
te.assert_output(&["download (1)"], "");
// Literal search, parens are treated as characters
te.assert_output(
&["--fixed-strings", "download (1)"],
"test2/Download (1).tar.gz",
);
// Combine with --case-sensitive
te.assert_output(&["--fixed-strings", "--case-sensitive", "download (1)"], "");
}
/// Filenames with invalid UTF-8 sequences
#[cfg(target_os = "linux")]
#[test]
fn test_invalid_utf8() {
use std::ffi::OsStr;
use std::os::unix::ffi::OsStrExt;
let dirs = &["test1"];
let files = &[];
let te = TestEnv::new(dirs, files);
fs::File::create(
te.test_root()
.join(OsStr::from_bytes(b"test1/test_\xFEinvalid.txt")),
)
.unwrap();
te.assert_output(&["", "test1/"], "test1/test_<74>invalid.txt");
te.assert_output(&["invalid", "test1/"], "test1/test_<74>invalid.txt");
// Should not be found under a different extension
te.assert_output(&["-e", "zip", "", "test1/"], "");
}
/// Filtering for file size (--size)
#[test]
fn test_size() {
let te = TestEnv::new(&[], &[]);
create_file_with_size(te.test_root().join("0_bytes.foo"), 0);
create_file_with_size(te.test_root().join("11_bytes.foo"), 11);
create_file_with_size(te.test_root().join("30_bytes.foo"), 30);
create_file_with_size(te.test_root().join("3_kilobytes.foo"), 3 * 1000);
create_file_with_size(te.test_root().join("4_kibibytes.foo"), 4 * 1024);
// Zero and non-zero sized files.
te.assert_output(
&["", "--size", "+0B"],
"0_bytes.foo
11_bytes.foo
30_bytes.foo
3_kilobytes.foo
4_kibibytes.foo",
);
// Zero sized files.
te.assert_output(&["", "--size", "-0B"], "0_bytes.foo");
te.assert_output(&["", "--size", "0B"], "0_bytes.foo");
te.assert_output(&["", "--size=0B"], "0_bytes.foo");
te.assert_output(&["", "-S", "0B"], "0_bytes.foo");
// Files with 2 bytes or more.
te.assert_output(
&["", "--size", "+2B"],
"11_bytes.foo
30_bytes.foo
3_kilobytes.foo
4_kibibytes.foo",
);
// Files with 2 bytes or less.
te.assert_output(&["", "--size", "-2B"], "0_bytes.foo");
// Files with size between 1 byte and 11 bytes.
te.assert_output(&["", "--size", "+1B", "--size", "-11B"], "11_bytes.foo");
// Files with size equal 11 bytes.
te.assert_output(&["", "--size", "11B"], "11_bytes.foo");
// Files with size between 1 byte and 30 bytes.
te.assert_output(
&["", "--size", "+1B", "--size", "-30B"],
"11_bytes.foo
30_bytes.foo",
);
// Combine with a search pattern
te.assert_output(&["^11_", "--size", "+1B", "--size", "-30B"], "11_bytes.foo");
// Files with size between 12 and 30 bytes.
te.assert_output(&["", "--size", "+12B", "--size", "-30B"], "30_bytes.foo");
// Files with size between 31 and 100 bytes.
te.assert_output(&["", "--size", "+31B", "--size", "-100B"], "");
// Files with size between 3 kibibytes and 5 kibibytes.
te.assert_output(&["", "--size", "+3ki", "--size", "-5ki"], "4_kibibytes.foo");
// Files with size between 3 kilobytes and 5 kilobytes.
te.assert_output(
&["", "--size", "+3k", "--size", "-5k"],
"3_kilobytes.foo
4_kibibytes.foo",
);
// Files with size greater than 3 kilobytes and less than 3 kibibytes.
te.assert_output(&["", "--size", "+3k", "--size", "-3ki"], "3_kilobytes.foo");
// Files with size equal 4 kibibytes.
te.assert_output(&["", "--size", "+4ki", "--size", "-4ki"], "4_kibibytes.foo");
te.assert_output(&["", "--size", "4ki"], "4_kibibytes.foo");
}
#[cfg(test)]
fn create_file_with_modified<P: AsRef<Path>>(path: P, duration_in_secs: u64) {
let st = SystemTime::now() - Duration::from_secs(duration_in_secs);
let ft = filetime::FileTime::from_system_time(st);
fs::File::create(&path).expect("creation failed");
filetime::set_file_times(&path, ft, ft).expect("time modification failed");
}
#[cfg(test)]
fn remove_symlink<P: AsRef<Path>>(path: P) {
#[cfg(unix)]
fs::remove_file(path).expect("remove symlink");
// On Windows, symlinks remember whether they point to files or directories, so try both
#[cfg(windows)]
fs::remove_file(path.as_ref())
.or_else(|_| fs::remove_dir(path.as_ref()))
.expect("remove symlink");
}
#[test]
fn test_modified_relative() {
let te = TestEnv::new(&[], &[]);
remove_symlink(te.test_root().join("symlink"));
create_file_with_modified(te.test_root().join("foo_0_now"), 0);
create_file_with_modified(te.test_root().join("bar_1_min"), 60);
create_file_with_modified(te.test_root().join("foo_10_min"), 600);
create_file_with_modified(te.test_root().join("bar_1_h"), 60 * 60);
create_file_with_modified(te.test_root().join("foo_2_h"), 2 * 60 * 60);
create_file_with_modified(te.test_root().join("bar_1_day"), 24 * 60 * 60);
te.assert_output(
&["", "--changed-within", "15min"],
"foo_0_now
bar_1_min
foo_10_min",
);
te.assert_output(
&["", "--change-older-than", "15min"],
"bar_1_h
foo_2_h
bar_1_day",
);
te.assert_output(
&["foo", "--changed-within", "12h"],
"foo_0_now
foo_10_min
foo_2_h",
);
}
#[cfg(test)]
fn change_file_modified<P: AsRef<Path>>(path: P, iso_date: &str) {
let st = humantime::parse_rfc3339(iso_date).expect("invalid date");
let ft = filetime::FileTime::from_system_time(st);
filetime::set_file_times(path, ft, ft).expect("time modification failde");
}
#[test]
fn test_modified_absolute() {
let te = TestEnv::new(&[], &["15mar2018", "30dec2017"]);
remove_symlink(te.test_root().join("symlink"));
change_file_modified(te.test_root().join("15mar2018"), "2018-03-15T12:00:00Z");
change_file_modified(te.test_root().join("30dec2017"), "2017-12-30T23:59:00Z");
te.assert_output(
&["", "--change-newer-than", "2018-01-01 00:00:00"],
"15mar2018",
);
te.assert_output(
&["", "--changed-before", "2018-01-01 00:00:00"],
"30dec2017",
);
}
#[cfg(unix)]
#[test]
fn test_owner_ignore_all() {
let te = TestEnv::new(DEFAULT_DIRS, DEFAULT_FILES);
te.assert_output(&["--owner", ":", "a.foo"], "a.foo");
te.assert_output(&["--owner", "", "a.foo"], "a.foo");
}
#[cfg(unix)]
#[test]
fn test_owner_current_user() {
let te = TestEnv::new(DEFAULT_DIRS, DEFAULT_FILES);
let uid = users::get_current_uid();
te.assert_output(&["--owner", &uid.to_string(), "a.foo"], "a.foo");
if let Some(username) = users::get_current_username().map(|u| u.into_string().unwrap()) {
te.assert_output(&["--owner", &username, "a.foo"], "a.foo");
}
}
#[cfg(unix)]
#[test]
fn test_owner_current_group() {
let te = TestEnv::new(DEFAULT_DIRS, DEFAULT_FILES);
let gid = users::get_current_gid();
te.assert_output(&["--owner", &format!(":{}", gid), "a.foo"], "a.foo");
if let Some(groupname) = users::get_current_groupname().map(|u| u.into_string().unwrap()) {
te.assert_output(&["--owner", &format!(":{}", groupname), "a.foo"], "a.foo");
}
}
#[cfg(target_os = "linux")]
#[test]
fn test_owner_root() {
// This test assumes the current user isn't root
if users::get_current_uid() == 0 || users::get_current_gid() == 0 {
return;
}
let te = TestEnv::new(DEFAULT_DIRS, DEFAULT_FILES);
te.assert_output(&["--owner", "root", "a.foo"], "");
te.assert_output(&["--owner", "0", "a.foo"], "");
te.assert_output(&["--owner", ":root", "a.foo"], "");
te.assert_output(&["--owner", ":0", "a.foo"], "");
}
#[test]
fn test_custom_path_separator() {
let te = TestEnv::new(DEFAULT_DIRS, DEFAULT_FILES);
te.assert_output(
&["foo", "one", "--path-separator", "="],
"one=b.foo
one=two=c.foo
one=two=C.Foo2
one=two=three=d.foo
one=two=three=directory_foo=",
);
}
#[test]
fn test_base_directory() {
let te = TestEnv::new(DEFAULT_DIRS, DEFAULT_FILES);
te.assert_output(
&["--base-directory", "one"],
"b.foo
two/
two/c.foo
two/C.Foo2
two/three/
two/three/d.foo
two/three/directory_foo/",
);
te.assert_output(
&["--base-directory", "one/two/", "foo"],
"c.foo
C.Foo2
three/d.foo
three/directory_foo/",
);
// Explicit root path
te.assert_output(
&["--base-directory", "one", "foo", "two"],
"two/c.foo
two/C.Foo2
two/three/d.foo
two/three/directory_foo/",
);
// Ignore base directory when absolute path is used
let (te, abs_path) = get_test_env_with_abs_path(DEFAULT_DIRS, DEFAULT_FILES);
let abs_base_dir = &format!("{abs_path}/one/two/", abs_path = &abs_path);
te.assert_output(
&["--base-directory", abs_base_dir, "foo", &abs_path],
&format!(
"{abs_path}/a.foo
{abs_path}/one/b.foo
{abs_path}/one/two/c.foo
{abs_path}/one/two/C.Foo2
{abs_path}/one/two/three/d.foo
{abs_path}/one/two/three/directory_foo/",
abs_path = &abs_path
),
);
}
#[test]
fn test_max_results() {
let te = TestEnv::new(DEFAULT_DIRS, DEFAULT_FILES);
// Unrestricted
te.assert_output(
&["--max-results=0", "c.foo"],
"one/two/C.Foo2
one/two/c.foo",
);
// Limited to two results
te.assert_output(
&["--max-results=2", "c.foo"],
"one/two/C.Foo2
one/two/c.foo",
);
// Limited to one result. We could find either C.Foo2 or c.foo
let assert_just_one_result_with_option = |option| {
let output = te.assert_success_and_get_output(".", &[option, "c.foo"]);
let stdout = String::from_utf8_lossy(&output.stdout)
.trim()
.replace(&std::path::MAIN_SEPARATOR.to_string(), "/");
assert!(stdout == "one/two/C.Foo2" || stdout == "one/two/c.foo");
};
assert_just_one_result_with_option("--max-results=1");
assert_just_one_result_with_option("-1");
}
/// Filenames with non-utf8 paths are passed to the executed program unchanged
///
/// Note:
/// - the test is disabled on Darwin/OSX, since it coerces file names to UTF-8,
/// even when the requested file name is not valid UTF-8.
/// - the test is currently disabled on Windows because I'm not sure how to create
/// invalid UTF-8 files on Windows
#[cfg(all(unix, not(target_os = "macos")))]
#[test]
fn test_exec_invalid_utf8() {
use std::ffi::OsStr;
use std::os::unix::ffi::OsStrExt;
let dirs = &["test1"];
let files = &[];
let te = TestEnv::new(dirs, files);
fs::File::create(
te.test_root()
.join(OsStr::from_bytes(b"test1/test_\xFEinvalid.txt")),
)
.unwrap();
te.assert_output_raw(
&["", "test1/", "--exec", "echo", "{}"],
b"test1/test_\xFEinvalid.txt\n",
);
te.assert_output_raw(
&["", "test1/", "--exec", "echo", "{/}"],
b"test_\xFEinvalid.txt\n",
);
te.assert_output_raw(&["", "test1/", "--exec", "echo", "{//}"], b"test1\n");
te.assert_output_raw(
&["", "test1/", "--exec", "echo", "{.}"],
b"test1/test_\xFEinvalid\n",
);
te.assert_output_raw(
&["", "test1/", "--exec", "echo", "{/.}"],
b"test_\xFEinvalid\n",
);
}
#[test]
fn test_list_details() {
let te = TestEnv::new(DEFAULT_DIRS, DEFAULT_FILES);
// Make sure we can execute 'fd --list-details' without any errors.
te.assert_success_and_get_output(".", &["--list-details"]);
}
#[test]
fn test_single_and_multithreaded_execution() {
let te = TestEnv::new(DEFAULT_DIRS, DEFAULT_FILES);
te.assert_output(&["--threads=1", "a.foo"], "a.foo");
te.assert_output(&["--threads=16", "a.foo"], "a.foo");
}
/// Make sure that fd fails if numeric arguments can not be parsed
#[test]
fn test_number_parsing_errors() {
let te = TestEnv::new(&[], &[]);
te.assert_failure(&["--threads=a"]);
te.assert_failure(&["-j", ""]);
te.assert_failure(&["--threads=0"]);
te.assert_failure(&["--min-depth=a"]);
te.assert_failure(&["--max-depth=a"]);
te.assert_failure(&["--maxdepth=a"]);
te.assert_failure(&["--exact-depth=a"]);
te.assert_failure(&["--max-buffer-time=a"]);
te.assert_failure(&["--max-results=a"]);
}
#[test_case("--hidden", &["--no-hidden"] ; "hidden")]
#[test_case("--no-ignore", &["--ignore"] ; "no-ignore")]
#[test_case("--no-ignore-vcs", &["--ignore-vcs"] ; "no-ignore-vcs")]
#[test_case("--follow", &["--no-follow"] ; "follow")]
#[test_case("--absolute-path", &["--relative-path"] ; "absolute-path")]
#[test_case("-u", &["--ignore", "--no-hidden"] ; "u")]
#[test_case("-uu", &["--ignore", "--no-hidden"] ; "uu")]
fn test_opposing(flag: &str, opposing_flags: &[&str]) {
let te = TestEnv::new(DEFAULT_DIRS, DEFAULT_FILES);
let mut flags = vec![flag];
flags.extend_from_slice(opposing_flags);
let out_no_flags = te.assert_success_and_get_normalized_output(".", &[]);
let out_opposing_flags = te.assert_success_and_get_normalized_output(".", &flags);
assert_eq!(
out_no_flags,
out_opposing_flags,
"{} should override {}",
opposing_flags.join(" "),
flag
);
}
/// Print error if search pattern starts with a dot and --hidden is not set
/// (Unix only, hidden files on Windows work differently)
#[test]
#[cfg(unix)]
fn test_error_if_hidden_not_set_and_pattern_starts_with_dot() {
let te = TestEnv::new(&[], &[".gitignore", ".whatever", "non-hidden"]);
te.assert_failure(&["^\\.gitignore"]);
te.assert_failure(&["--glob", ".gitignore"]);
te.assert_output(&["--hidden", "^\\.gitignore"], ".gitignore");
te.assert_output(&["--hidden", "--glob", ".gitignore"], ".gitignore");
te.assert_output(&[".gitignore"], "");
}
#[test]
fn test_strip_cwd_prefix() {
let te = TestEnv::new(DEFAULT_DIRS, DEFAULT_FILES);
te.assert_output(
&["--strip-cwd-prefix", "."],
"a.foo
e1 e2
one/
one/b.foo
one/two/
one/two/c.foo
one/two/C.Foo2
one/two/three/
one/two/three/d.foo
one/two/three/directory_foo/
symlink",
);
}
/// When fd is ran from a non-existent working directory, but an existent
/// directory is passed in the arguments, it should still run fine
#[test]
#[cfg(not(windows))]
fn test_invalid_cwd() {
let te = TestEnv::new(&[], &[]);
let root = te.test_root().join("foo");
fs::create_dir(&root).unwrap();
std::env::set_current_dir(&root).unwrap();
fs::remove_dir(&root).unwrap();
let output = std::process::Command::new(te.test_exe())
.arg("query")
.arg(te.test_root())
.output()
.unwrap();
if !output.status.success() {
panic!("{:?}", output);
}
}