mirror of
https://github.com/uutils/coreutils
synced 2024-12-25 20:43:14 +00:00
b742230dbb
pr: Fix page ranges
645 lines
22 KiB
Rust
645 lines
22 KiB
Rust
#![allow(dead_code)]
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use std::env;
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use std::ffi::OsStr;
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use std::fs::{self, File, OpenOptions};
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use std::io::{Read, Result, Write};
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#[cfg(unix)]
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use std::os::unix::fs::{symlink as symlink_dir, symlink as symlink_file};
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#[cfg(windows)]
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use std::os::windows::fs::{symlink_dir, symlink_file};
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use std::path::{Path, PathBuf};
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use std::process::{Child, Command, Stdio};
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use std::rc::Rc;
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use std::str::from_utf8;
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use std::thread::sleep;
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use std::time::Duration;
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use tempfile::TempDir;
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#[cfg(windows)]
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static PROGNAME: &str = concat!(env!("CARGO_PKG_NAME"), ".exe");
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#[cfg(not(windows))]
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static PROGNAME: &str = env!("CARGO_PKG_NAME");
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static TESTS_DIR: &str = "tests";
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static FIXTURES_DIR: &str = "fixtures";
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static ALREADY_RUN: &str = " you have already run this UCommand, if you want to run \
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another command in the same test, use TestScenario::new instead of \
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testing();";
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static MULTIPLE_STDIN_MEANINGLESS: &str = "Ucommand is designed around a typical use case of: provide args and input stream -> spawn process -> block until completion -> return output streams. For verifying that a particular section of the input stream is what causes a particular behavior, use the Command type directly.";
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/// Test if the program is running under CI
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pub fn is_ci() -> bool {
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std::env::var("CI")
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.unwrap_or(String::from("false"))
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.eq_ignore_ascii_case("true")
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}
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/// Test if the program is running under WSL
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// ref: <https://github.com/microsoft/WSL/issues/4555> @@ <https://archive.is/dP0bz>
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// ToDO: test on WSL2 which likely doesn't need special handling; plan change to `is_wsl_1()` if WSL2 is less needy
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pub fn is_wsl() -> bool {
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#[cfg(target_os = "linux")]
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{
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if let Ok(b) = std::fs::read("/proc/sys/kernel/osrelease") {
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if let Ok(s) = std::str::from_utf8(&b) {
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let a = s.to_ascii_lowercase();
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return a.contains("microsoft") || a.contains("wsl");
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}
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}
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}
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false
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}
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fn read_scenario_fixture<S: AsRef<OsStr>>(tmpd: &Option<Rc<TempDir>>, file_rel_path: S) -> String {
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let tmpdir_path = tmpd.as_ref().unwrap().as_ref().path();
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AtPath::new(tmpdir_path).read(file_rel_path.as_ref().to_str().unwrap())
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}
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/// A command result is the outputs of a command (streams and status code)
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/// within a struct which has convenience assertion functions about those outputs
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#[derive(Debug)]
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pub struct CmdResult {
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//tmpd is used for convenience functions for asserts against fixtures
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tmpd: Option<Rc<TempDir>>,
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/// exit status for command (if there is one)
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pub code: Option<i32>,
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/// zero-exit from running the Command?
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/// see [`success`]
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pub success: bool,
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/// captured utf-8 standard output after running the Command
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pub stdout: String,
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/// captured utf-8 standard error after running the Command
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pub stderr: String,
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}
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impl CmdResult {
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/// asserts that the command resulted in a success (zero) status code
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pub fn success(&self) -> Box<&CmdResult> {
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assert!(self.success);
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Box::new(self)
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}
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/// asserts that the command resulted in a failure (non-zero) status code
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pub fn failure(&self) -> Box<&CmdResult> {
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assert!(!self.success);
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Box::new(self)
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}
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/// asserts that the command's exit code is the same as the given one
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pub fn status_code(&self, code: i32) -> Box<&CmdResult> {
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assert!(self.code == Some(code));
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Box::new(self)
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}
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/// asserts that the command resulted in empty (zero-length) stderr stream output
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/// generally, it's better to use stdout_only() instead,
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/// but you might find yourself using this function if
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/// 1. you can not know exactly what stdout will be
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/// or 2. you know that stdout will also be empty
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pub fn no_stderr(&self) -> Box<&CmdResult> {
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assert_eq!(self.stderr, "");
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Box::new(self)
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}
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/// asserts that the command resulted in empty (zero-length) stderr stream output
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/// unless asserting there was neither stdout or stderr, stderr_only is usually a better choice
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/// generally, it's better to use stderr_only() instead,
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/// but you might find yourself using this function if
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/// 1. you can not know exactly what stderr will be
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/// or 2. you know that stderr will also be empty
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pub fn no_stdout(&self) -> Box<&CmdResult> {
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assert_eq!(self.stdout, "");
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Box::new(self)
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}
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/// asserts that the command resulted in stdout stream output that equals the
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/// passed in value, trailing whitespace are kept to force strict comparison (#1235)
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/// stdout_only is a better choice unless stderr may or will be non-empty
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pub fn stdout_is<T: AsRef<str>>(&self, msg: T) -> Box<&CmdResult> {
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assert_eq!(self.stdout, String::from(msg.as_ref()));
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Box::new(self)
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}
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/// like stdout_is(...), but expects the contents of the file at the provided relative path
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pub fn stdout_is_fixture<T: AsRef<OsStr>>(&self, file_rel_path: T) -> Box<&CmdResult> {
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let contents = read_scenario_fixture(&self.tmpd, file_rel_path);
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self.stdout_is(contents)
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}
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/// like stdout_is_fixture(...), but replaces the data in fixture file based on values provided in template_vars
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/// command output
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pub fn stdout_is_templated_fixture<T: AsRef<OsStr>>(&self, file_rel_path: T, template_vars: Vec<(&String, &String)>) -> Box<&CmdResult> {
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let mut contents = read_scenario_fixture(&self.tmpd, file_rel_path);
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for kv in template_vars {
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contents = contents.replace(kv.0, kv.1);
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}
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self.stdout_is(contents)
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}
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/// asserts that the command resulted in stderr stream output that equals the
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/// passed in value, when both are trimmed of trailing whitespace
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/// stderr_only is a better choice unless stdout may or will be non-empty
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pub fn stderr_is<T: AsRef<str>>(&self, msg: T) -> Box<&CmdResult> {
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assert_eq!(
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self.stderr.trim_end(),
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String::from(msg.as_ref()).trim_end()
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);
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Box::new(self)
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}
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/// asserts that
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/// 1. the command resulted in stdout stream output that equals the
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/// passed in value, when both are trimmed of trailing whitespace
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/// and 2. the command resulted in empty (zero-length) stderr stream output
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pub fn stdout_only<T: AsRef<str>>(&self, msg: T) -> Box<&CmdResult> {
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self.no_stderr().stdout_is(msg)
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}
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/// like stdout_only(...), but expects the contents of the file at the provided relative path
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pub fn stdout_only_fixture<T: AsRef<OsStr>>(&self, file_rel_path: T) -> Box<&CmdResult> {
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let contents = read_scenario_fixture(&self.tmpd, file_rel_path);
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self.stdout_only(contents)
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}
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/// asserts that
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/// 1. the command resulted in stderr stream output that equals the
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/// passed in value, when both are trimmed of trailing whitespace
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/// and 2. the command resulted in empty (zero-length) stdout stream output
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pub fn stderr_only<T: AsRef<str>>(&self, msg: T) -> Box<&CmdResult> {
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self.no_stdout().stderr_is(msg)
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}
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pub fn fails_silently(&self) -> Box<&CmdResult> {
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assert!(!self.success);
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assert_eq!(self.stderr, "");
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Box::new(self)
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}
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}
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pub fn log_info<T: AsRef<str>, U: AsRef<str>>(msg: T, par: U) {
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println!("{}: {}", msg.as_ref(), par.as_ref());
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}
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pub fn recursive_copy(src: &Path, dest: &Path) -> Result<()> {
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if fs::metadata(src)?.is_dir() {
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for entry in fs::read_dir(src)? {
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let entry = entry?;
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let mut new_dest = PathBuf::from(dest);
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new_dest.push(entry.file_name());
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if fs::metadata(entry.path())?.is_dir() {
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fs::create_dir(&new_dest)?;
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recursive_copy(&entry.path(), &new_dest)?;
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} else {
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fs::copy(&entry.path(), new_dest)?;
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}
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}
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}
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Ok(())
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}
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pub fn get_root_path() -> &'static str {
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if cfg!(windows) {
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"C:\\"
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} else {
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"/"
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}
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}
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/// Object-oriented path struct that represents and operates on
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/// paths relative to the directory it was constructed for.
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#[derive(Clone)]
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pub struct AtPath {
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pub subdir: PathBuf,
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}
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impl AtPath {
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pub fn new(subdir: &Path) -> AtPath {
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AtPath {
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subdir: PathBuf::from(subdir),
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}
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}
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pub fn as_string(&self) -> String {
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self.subdir.to_str().unwrap().to_owned()
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}
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pub fn plus(&self, name: &str) -> PathBuf {
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let mut pathbuf = self.subdir.clone();
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pathbuf.push(name);
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pathbuf
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}
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pub fn plus_as_string(&self, name: &str) -> String {
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String::from(self.plus(name).to_str().unwrap())
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}
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fn minus(&self, name: &str) -> PathBuf {
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let prefixed = PathBuf::from(name);
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if prefixed.starts_with(&self.subdir) {
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let mut unprefixed = PathBuf::new();
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for component in prefixed.components().skip(self.subdir.components().count()) {
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unprefixed.push(component.as_os_str().to_str().unwrap());
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}
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unprefixed
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} else {
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prefixed
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}
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}
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pub fn minus_as_string(&self, name: &str) -> String {
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String::from(self.minus(name).to_str().unwrap())
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}
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pub fn open(&self, name: &str) -> File {
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log_info("open", self.plus_as_string(name));
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File::open(self.plus(name)).unwrap()
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}
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pub fn read(&self, name: &str) -> String {
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let mut f = self.open(name);
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let mut contents = String::new();
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let _ = f.read_to_string(&mut contents);
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contents
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}
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pub fn write(&self, name: &str, contents: &str) {
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log_info("open(write)", self.plus_as_string(name));
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let _ = std::fs::write(self.plus(name), contents);
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}
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pub fn append(&self, name: &str, contents: &str) {
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log_info("open(append)", self.plus_as_string(name));
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let mut f = OpenOptions::new()
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.write(true)
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.append(true)
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.open(self.plus(name))
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.unwrap();
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let _ = f.write(contents.as_bytes());
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}
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pub fn mkdir(&self, dir: &str) {
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log_info("mkdir", self.plus_as_string(dir));
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fs::create_dir(&self.plus(dir)).unwrap();
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}
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pub fn mkdir_all(&self, dir: &str) {
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log_info("mkdir_all", self.plus_as_string(dir));
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fs::create_dir_all(self.plus(dir)).unwrap();
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}
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pub fn make_file(&self, name: &str) -> File {
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match File::create(&self.plus(name)) {
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Ok(f) => f,
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Err(e) => panic!("{}", e),
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}
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}
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pub fn touch(&self, file: &str) {
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log_info("touch", self.plus_as_string(file));
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File::create(&self.plus(file)).unwrap();
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}
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pub fn symlink_file(&self, src: &str, dst: &str) {
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log_info(
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"symlink",
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&format!("{},{}", self.plus_as_string(src), self.plus_as_string(dst)),
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);
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symlink_file(&self.plus(src), &self.plus(dst)).unwrap();
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}
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pub fn symlink_dir(&self, src: &str, dst: &str) {
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log_info(
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"symlink",
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&format!("{},{}", self.plus_as_string(src), self.plus_as_string(dst)),
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);
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symlink_dir(&self.plus(src), &self.plus(dst)).unwrap();
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}
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pub fn is_symlink(&self, path: &str) -> bool {
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log_info("is_symlink", self.plus_as_string(path));
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match fs::symlink_metadata(&self.plus(path)) {
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Ok(m) => m.file_type().is_symlink(),
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Err(_) => false,
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}
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}
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pub fn resolve_link(&self, path: &str) -> String {
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log_info("resolve_link", self.plus_as_string(path));
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match fs::read_link(&self.plus(path)) {
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Ok(p) => self.minus_as_string(p.to_str().unwrap()),
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Err(_) => "".to_string(),
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}
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}
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pub fn symlink_metadata(&self, path: &str) -> fs::Metadata {
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match fs::symlink_metadata(&self.plus(path)) {
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Ok(m) => m,
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Err(e) => panic!("{}", e),
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}
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}
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pub fn metadata(&self, path: &str) -> fs::Metadata {
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match fs::metadata(&self.plus(path)) {
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Ok(m) => m,
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Err(e) => panic!("{}", e),
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}
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}
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pub fn file_exists(&self, path: &str) -> bool {
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match fs::metadata(&self.plus(path)) {
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Ok(m) => m.is_file(),
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Err(_) => false,
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}
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}
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pub fn dir_exists(&self, path: &str) -> bool {
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match fs::metadata(&self.plus(path)) {
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Ok(m) => m.is_dir(),
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Err(_) => false,
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}
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}
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pub fn root_dir_resolved(&self) -> String {
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log_info("current_directory_resolved", "");
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let s = self
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.subdir
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.canonicalize()
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.unwrap()
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.to_str()
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.unwrap()
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.to_owned();
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// Due to canonicalize()'s use of GetFinalPathNameByHandleW() on Windows, the resolved path
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// starts with '\\?\' to extend the limit of a given path to 32,767 wide characters.
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//
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// To address this issue, we remove this prepended string if available.
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//
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// Source:
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// http://stackoverflow.com/questions/31439011/getfinalpathnamebyhandle-without-prepended
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let prefix = "\\\\?\\";
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if s.starts_with(prefix) {
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String::from(&s[prefix.len()..])
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} else {
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s
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}
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}
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}
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/// An environment for running a single uutils test case, serves three functions:
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/// 1. centralizes logic for locating the uutils binary and calling the utility
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/// 2. provides a unique temporary directory for the test case
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/// 3. copies over fixtures for the utility to the temporary directory
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///
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/// Fixtures can be found under `tests/fixtures/$util_name/`
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pub struct TestScenario {
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bin_path: PathBuf,
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util_name: String,
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pub fixtures: AtPath,
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tmpd: Rc<TempDir>,
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}
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impl TestScenario {
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pub fn new(util_name: &str) -> TestScenario {
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let tmpd = Rc::new(TempDir::new().unwrap());
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let ts = TestScenario {
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bin_path: {
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// Instead of hardcoding the path relative to the current
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// directory, use Cargo's OUT_DIR to find path to executable.
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// This allows tests to be run using profiles other than debug.
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let target_dir = path_concat!(env!("OUT_DIR"), "..", "..", "..", PROGNAME);
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PathBuf::from(AtPath::new(Path::new(&target_dir)).root_dir_resolved())
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},
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util_name: String::from(util_name),
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fixtures: AtPath::new(tmpd.as_ref().path()),
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tmpd: tmpd,
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};
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let mut fixture_path_builder = env::current_dir().unwrap();
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fixture_path_builder.push(TESTS_DIR);
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fixture_path_builder.push(FIXTURES_DIR);
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fixture_path_builder.push(util_name);
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if let Ok(m) = fs::metadata(&fixture_path_builder) {
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if m.is_dir() {
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recursive_copy(&fixture_path_builder, &ts.fixtures.subdir).unwrap();
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}
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}
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ts
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}
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/// Returns builder for invoking the target uutils binary. Paths given are
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/// treated relative to the environment's unique temporary test directory.
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pub fn ucmd(&self) -> UCommand {
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let mut cmd = self.cmd(&self.bin_path);
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cmd.arg(&self.util_name);
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cmd
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}
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/// Returns builder for invoking any system command. Paths given are treated
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/// relative to the environment's unique temporary test directory.
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pub fn cmd<S: AsRef<OsStr>>(&self, bin: S) -> UCommand {
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UCommand::new_from_tmp(bin, self.tmpd.clone(), true)
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}
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// different names are used rather than an argument
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// because the need to keep the environment is exceedingly rare.
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pub fn ucmd_keepenv(&self) -> UCommand {
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let mut cmd = self.cmd_keepenv(&self.bin_path);
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cmd.arg(&self.util_name);
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cmd
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}
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pub fn cmd_keepenv<S: AsRef<OsStr>>(&self, bin: S) -> UCommand {
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UCommand::new_from_tmp(bin, self.tmpd.clone(), false)
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}
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}
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/// A `UCommand` is a wrapper around an individual Command that provides several additional features
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/// 1. it has convenience functions that are more ergonomic to use for piping in stdin, spawning the command
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/// and asserting on the results.
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/// 2. it tracks arguments provided so that in test cases which may provide variations of an arg in loops
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/// the test failure can display the exact call which preceded an assertion failure.
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/// 3. it provides convenience construction arguments to set the Command working directory and/or clear its environment.
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#[derive(Debug)]
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pub struct UCommand {
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pub raw: Command,
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comm_string: String,
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tmpd: Option<Rc<TempDir>>,
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has_run: bool,
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stdin: Option<Vec<u8>>,
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}
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impl UCommand {
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pub fn new<T: AsRef<OsStr>, U: AsRef<OsStr>>(arg: T, curdir: U, env_clear: bool) -> UCommand {
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UCommand {
|
|
tmpd: None,
|
|
has_run: false,
|
|
raw: {
|
|
let mut cmd = Command::new(arg.as_ref());
|
|
cmd.current_dir(curdir.as_ref());
|
|
if env_clear {
|
|
if cfg!(windows) {
|
|
// %SYSTEMROOT% is required on Windows to initialize crypto provider
|
|
// ... and crypto provider is required for std::rand
|
|
// From procmon: RegQueryValue HKLM\SOFTWARE\Microsoft\Cryptography\Defaults\Provider\Microsoft Strong Cryptographic Provider\Image Path
|
|
// SUCCESS Type: REG_SZ, Length: 66, Data: %SystemRoot%\system32\rsaenh.dll"
|
|
for (key, _) in env::vars_os() {
|
|
if key.as_os_str() != "SYSTEMROOT" {
|
|
cmd.env_remove(key);
|
|
}
|
|
}
|
|
} else {
|
|
cmd.env_clear();
|
|
}
|
|
}
|
|
cmd
|
|
},
|
|
comm_string: String::from(arg.as_ref().to_str().unwrap()),
|
|
stdin: None,
|
|
}
|
|
}
|
|
|
|
pub fn new_from_tmp<T: AsRef<OsStr>>(arg: T, tmpd: Rc<TempDir>, env_clear: bool) -> UCommand {
|
|
let tmpd_path_buf = String::from(&(*tmpd.as_ref().path().to_str().unwrap()));
|
|
let mut ucmd: UCommand = UCommand::new(arg.as_ref(), tmpd_path_buf, env_clear);
|
|
ucmd.tmpd = Some(tmpd);
|
|
ucmd
|
|
}
|
|
|
|
/// Add a parameter to the invocation. Path arguments are treated relative
|
|
/// to the test environment directory.
|
|
pub fn arg<S: AsRef<OsStr>>(&mut self, arg: S) -> Box<&mut UCommand> {
|
|
if self.has_run {
|
|
panic!(ALREADY_RUN);
|
|
}
|
|
self.comm_string.push_str(" ");
|
|
self.comm_string.push_str(arg.as_ref().to_str().unwrap());
|
|
self.raw.arg(arg.as_ref());
|
|
Box::new(self)
|
|
}
|
|
|
|
/// Add multiple parameters to the invocation. Path arguments are treated relative
|
|
/// to the test environment directory.
|
|
pub fn args<S: AsRef<OsStr>>(&mut self, args: &[S]) -> Box<&mut UCommand> {
|
|
if self.has_run {
|
|
panic!(MULTIPLE_STDIN_MEANINGLESS);
|
|
}
|
|
for s in args {
|
|
self.comm_string.push_str(" ");
|
|
self.comm_string.push_str(s.as_ref().to_str().unwrap());
|
|
}
|
|
|
|
self.raw.args(args.as_ref());
|
|
Box::new(self)
|
|
}
|
|
|
|
/// provides stdinput to feed in to the command when spawned
|
|
pub fn pipe_in<T: Into<Vec<u8>>>(&mut self, input: T) -> Box<&mut UCommand> {
|
|
if self.stdin.is_some() {
|
|
panic!(MULTIPLE_STDIN_MEANINGLESS);
|
|
}
|
|
self.stdin = Some(input.into());
|
|
Box::new(self)
|
|
}
|
|
|
|
/// like pipe_in(...), but uses the contents of the file at the provided relative path as the piped in data
|
|
pub fn pipe_in_fixture<S: AsRef<OsStr>>(&mut self, file_rel_path: S) -> Box<&mut UCommand> {
|
|
let contents = read_scenario_fixture(&self.tmpd, file_rel_path);
|
|
self.pipe_in(contents)
|
|
}
|
|
|
|
pub fn env<K, V>(&mut self, key: K, val: V) -> Box<&mut UCommand>
|
|
where
|
|
K: AsRef<OsStr>,
|
|
V: AsRef<OsStr>,
|
|
{
|
|
if self.has_run {
|
|
panic!(ALREADY_RUN);
|
|
}
|
|
self.raw.env(key, val);
|
|
Box::new(self)
|
|
}
|
|
|
|
/// Spawns the command, feeds the stdin if any, and returns the
|
|
/// child process immediately.
|
|
pub fn run_no_wait(&mut self) -> Child {
|
|
if self.has_run {
|
|
panic!(ALREADY_RUN);
|
|
}
|
|
self.has_run = true;
|
|
log_info("run", &self.comm_string);
|
|
let mut result = self
|
|
.raw
|
|
.stdin(Stdio::piped())
|
|
.stdout(Stdio::piped())
|
|
.stderr(Stdio::piped())
|
|
.spawn()
|
|
.unwrap();
|
|
|
|
if let Some(ref input) = self.stdin {
|
|
result
|
|
.stdin
|
|
.take()
|
|
.unwrap_or_else(|| panic!("Could not take child process stdin"))
|
|
.write_all(input)
|
|
.unwrap_or_else(|e| panic!("{}", e));
|
|
}
|
|
|
|
result
|
|
}
|
|
|
|
/// Spawns the command, feeds the stdin if any, waits for the result
|
|
/// and returns a command result.
|
|
/// It is recommended that you instead use succeeds() or fails()
|
|
pub fn run(&mut self) -> CmdResult {
|
|
let prog = self.run_no_wait().wait_with_output().unwrap();
|
|
|
|
CmdResult {
|
|
tmpd: self.tmpd.clone(),
|
|
code: prog.status.code(),
|
|
success: prog.status.success(),
|
|
stdout: from_utf8(&prog.stdout).unwrap().to_string(),
|
|
stderr: from_utf8(&prog.stderr).unwrap().to_string(),
|
|
}
|
|
}
|
|
|
|
/// Spawns the command, feeding the passed in stdin, waits for the result
|
|
/// and returns a command result.
|
|
/// It is recommended that, instead of this, you use a combination of pipe_in()
|
|
/// with succeeds() or fails()
|
|
pub fn run_piped_stdin<T: Into<Vec<u8>>>(&mut self, input: T) -> CmdResult {
|
|
self.pipe_in(input).run()
|
|
}
|
|
|
|
/// Spawns the command, feeds the stdin if any, waits for the result,
|
|
/// asserts success, and returns a command result.
|
|
pub fn succeeds(&mut self) -> CmdResult {
|
|
let cmd_result = self.run();
|
|
cmd_result.success();
|
|
cmd_result
|
|
}
|
|
|
|
/// Spawns the command, feeds the stdin if any, waits for the result,
|
|
/// asserts failure, and returns a command result.
|
|
pub fn fails(&mut self) -> CmdResult {
|
|
let cmd_result = self.run();
|
|
cmd_result.failure();
|
|
cmd_result
|
|
}
|
|
|
|
pub fn get_full_fixture_path(&self, file_rel_path: &str) -> String{
|
|
let tmpdir_path = self.tmpd.as_ref().unwrap().path();
|
|
format!("{}/{}", tmpdir_path.to_str().unwrap(), file_rel_path)
|
|
}
|
|
}
|
|
|
|
pub fn read_size(child: &mut Child, size: usize) -> String {
|
|
let mut output = Vec::new();
|
|
output.resize(size, 0);
|
|
sleep(Duration::from_secs(1));
|
|
child
|
|
.stdout
|
|
.as_mut()
|
|
.unwrap()
|
|
.read(output.as_mut_slice())
|
|
.unwrap();
|
|
String::from_utf8(output).unwrap()
|
|
}
|