linux-x86/1.75.0/lib/rustlib/src/rust/library/std/src/process/tests.rs - platform/prebuilts/rust - Git at Google

 use crate::io::prelude::*;

 use super::{Command, Output, Stdio};
 use crate::io::{BorrowedBuf, ErrorKind};
 use crate::mem::MaybeUninit;
 use crate::str;

 fn known_command() -> Command {
     if cfg!(windows) { Command::new("help") } else { Command::new("echo") }
 }

 #[cfg(target_os = "android")]
 fn shell_cmd() -> Command {
     Command::new("/system/bin/sh")
 }

 #[cfg(not(target_os = "android"))]
 fn shell_cmd() -> Command {
     Command::new("/bin/sh")
 }

 #[test]
 #[cfg_attr(any(target_os = "vxworks"), ignore)]
 fn smoke() {
     let p = if cfg!(target_os = "windows") {
         Command::new("cmd").args(&["/C", "exit 0"]).spawn()
     } else {
         shell_cmd().arg("-c").arg("true").spawn()
     };
     assert!(p.is_ok());
     let mut p = p.unwrap();
     assert!(p.wait().unwrap().success());
 }

 #[test]
 #[cfg_attr(target_os = "android", ignore)]
 fn smoke_failure() {
     match Command::new("if-this-is-a-binary-then-the-world-has-ended").spawn() {
         Ok(..) => panic!(),
         Err(..) => {}
     }
 }

 #[test]
 #[cfg_attr(any(target_os = "vxworks"), ignore)]
 fn exit_reported_right() {
     let p = if cfg!(target_os = "windows") {
         Command::new("cmd").args(&["/C", "exit 1"]).spawn()
     } else {
         shell_cmd().arg("-c").arg("false").spawn()
     };
     assert!(p.is_ok());
     let mut p = p.unwrap();
     assert!(p.wait().unwrap().code() == Some(1));
     drop(p.wait());
 }

 #[test]
 #[cfg(unix)]
 #[cfg_attr(any(target_os = "vxworks"), ignore)]
 fn signal_reported_right() {
     use crate::os::unix::process::ExitStatusExt;

     let mut p = shell_cmd().arg("-c").arg("read a").stdin(Stdio::piped()).spawn().unwrap();
     p.kill().unwrap();
     match p.wait().unwrap().signal() {
         Some(9) => {}
         result => panic!("not terminated by signal 9 (instead, {result:?})"),
     }
 }

 pub fn run_output(mut cmd: Command) -> String {
     let p = cmd.spawn();
     assert!(p.is_ok());
     let mut p = p.unwrap();
     assert!(p.stdout.is_some());
     let mut ret = String::new();
     p.stdout.as_mut().unwrap().read_to_string(&mut ret).unwrap();
     assert!(p.wait().unwrap().success());
     return ret;
 }

 #[test]
 #[cfg_attr(any(target_os = "vxworks"), ignore)]
 fn stdout_works() {
     if cfg!(target_os = "windows") {
         let mut cmd = Command::new("cmd");
         cmd.args(&["/C", "echo foobar"]).stdout(Stdio::piped());
         assert_eq!(run_output(cmd), "foobar\r\n");
     } else {
         let mut cmd = shell_cmd();
         cmd.arg("-c").arg("echo foobar").stdout(Stdio::piped());
         assert_eq!(run_output(cmd), "foobar\n");
     }
 }

 #[test]
 #[cfg_attr(any(windows, target_os = "vxworks"), ignore)]
 fn set_current_dir_works() {
     let mut cmd = shell_cmd();
     cmd.arg("-c").arg("pwd").current_dir("/").stdout(Stdio::piped());
     assert_eq!(run_output(cmd), "/\n");
 }

 #[test]
 #[cfg_attr(any(windows, target_os = "vxworks"), ignore)]
 fn stdin_works() {
     let mut p = shell_cmd()
         .arg("-c")
         .arg("read line; echo $line")
         .stdin(Stdio::piped())
         .stdout(Stdio::piped())
         .spawn()
         .unwrap();
     p.stdin.as_mut().unwrap().write("foobar".as_bytes()).unwrap();
     drop(p.stdin.take());
     let mut out = String::new();
     p.stdout.as_mut().unwrap().read_to_string(&mut out).unwrap();
     assert!(p.wait().unwrap().success());
     assert_eq!(out, "foobar\n");
 }

 #[test]
 #[cfg_attr(any(target_os = "vxworks"), ignore)]
 fn child_stdout_read_buf() {
     let mut cmd = if cfg!(target_os = "windows") {
         let mut cmd = Command::new("cmd");
         cmd.arg("/C").arg("echo abc");
         cmd
     } else {
         let mut cmd = shell_cmd();
         cmd.arg("-c").arg("echo abc");
         cmd
     };
     cmd.stdin(Stdio::null());
     cmd.stdout(Stdio::piped());
     let child = cmd.spawn().unwrap();

     let mut stdout = child.stdout.unwrap();
     let mut buf: [MaybeUninit<u8>; 128] = MaybeUninit::uninit_array();
     let mut buf = BorrowedBuf::from(buf.as_mut_slice());
     stdout.read_buf(buf.unfilled()).unwrap();

     // ChildStdout::read_buf should omit buffer initialization.
     if cfg!(target_os = "windows") {
         assert_eq!(buf.filled(), b"abc\r\n");
         assert_eq!(buf.init_len(), 5);
     } else {
         assert_eq!(buf.filled(), b"abc\n");
         assert_eq!(buf.init_len(), 4);
     };
 }

 #[test]
 #[cfg_attr(any(target_os = "vxworks"), ignore)]
 fn test_process_status() {
     let mut status = if cfg!(target_os = "windows") {
         Command::new("cmd").args(&["/C", "exit 1"]).status().unwrap()
     } else {
         shell_cmd().arg("-c").arg("false").status().unwrap()
     };
     assert!(status.code() == Some(1));

     status = if cfg!(target_os = "windows") {
         Command::new("cmd").args(&["/C", "exit 0"]).status().unwrap()
     } else {
         shell_cmd().arg("-c").arg("true").status().unwrap()
     };
     assert!(status.success());
 }

 #[test]
 fn test_process_output_fail_to_start() {
     match Command::new("/no-binary-by-this-name-should-exist").output() {
         Err(e) => assert_eq!(e.kind(), ErrorKind::NotFound),
         Ok(..) => panic!(),
     }
 }

 #[test]
 #[cfg_attr(any(target_os = "vxworks"), ignore)]
 fn test_process_output_output() {
     let Output { status, stdout, stderr } = if cfg!(target_os = "windows") {
         Command::new("cmd").args(&["/C", "echo hello"]).output().unwrap()
     } else {
         shell_cmd().arg("-c").arg("echo hello").output().unwrap()
     };
     let output_str = str::from_utf8(&stdout).unwrap();

     assert!(status.success());
     assert_eq!(output_str.trim().to_string(), "hello");
     assert_eq!(stderr, Vec::new());
 }

 #[test]
 #[cfg_attr(any(target_os = "vxworks"), ignore)]
 fn test_process_output_error() {
     let Output { status, stdout, stderr } = if cfg!(target_os = "windows") {
         Command::new("cmd").args(&["/C", "mkdir ."]).output().unwrap()
     } else {
         Command::new("mkdir").arg("./").output().unwrap()
     };

     assert!(status.code().is_some());
     assert!(status.code() != Some(0));
     assert_eq!(stdout, Vec::new());
     assert!(!stderr.is_empty());
 }

 #[test]
 #[cfg_attr(any(target_os = "vxworks"), ignore)]
 fn test_finish_once() {
     let mut prog = if cfg!(target_os = "windows") {
         Command::new("cmd").args(&["/C", "exit 1"]).spawn().unwrap()
     } else {
         shell_cmd().arg("-c").arg("false").spawn().unwrap()
     };
     assert!(prog.wait().unwrap().code() == Some(1));
 }

 #[test]
 #[cfg_attr(any(target_os = "vxworks"), ignore)]
 fn test_finish_twice() {
     let mut prog = if cfg!(target_os = "windows") {
         Command::new("cmd").args(&["/C", "exit 1"]).spawn().unwrap()
     } else {
         shell_cmd().arg("-c").arg("false").spawn().unwrap()
     };
     assert!(prog.wait().unwrap().code() == Some(1));
     assert!(prog.wait().unwrap().code() == Some(1));
 }

 #[test]
 #[cfg_attr(any(target_os = "vxworks"), ignore)]
 fn test_wait_with_output_once() {
     let prog = if cfg!(target_os = "windows") {
         Command::new("cmd").args(&["/C", "echo hello"]).stdout(Stdio::piped()).spawn().unwrap()
     } else {
         shell_cmd().arg("-c").arg("echo hello").stdout(Stdio::piped()).spawn().unwrap()
     };

     let Output { status, stdout, stderr } = prog.wait_with_output().unwrap();
     let output_str = str::from_utf8(&stdout).unwrap();

     assert!(status.success());
     assert_eq!(output_str.trim().to_string(), "hello");
     assert_eq!(stderr, Vec::new());
 }

 #[cfg(all(unix, not(target_os = "android")))]
 pub fn env_cmd() -> Command {
     Command::new("env")
 }
 #[cfg(target_os = "android")]
 pub fn env_cmd() -> Command {
     let mut cmd = Command::new("/system/bin/sh");
     cmd.arg("-c").arg("set");
     cmd
 }

 #[cfg(windows)]
 pub fn env_cmd() -> Command {
     let mut cmd = Command::new("cmd");
     cmd.arg("/c").arg("set");
     cmd
 }

 #[test]
 #[cfg_attr(target_os = "vxworks", ignore)]
 fn test_override_env() {
     use crate::env;

     // In some build environments (such as chrooted Nix builds), `env` can
     // only be found in the explicitly-provided PATH env variable, not in
     // default places such as /bin or /usr/bin. So we need to pass through
     // PATH to our sub-process.
     let mut cmd = env_cmd();
     cmd.env_clear().env("RUN_TEST_NEW_ENV", "123");
     if let Some(p) = env::var_os("PATH") {
         cmd.env("PATH", &p);
     }
     let result = cmd.output().unwrap();
     let output = String::from_utf8_lossy(&result.stdout).to_string();

     assert!(
         output.contains("RUN_TEST_NEW_ENV=123"),
         "didn't find RUN_TEST_NEW_ENV inside of:\n\n{output}",
     );
 }

 #[test]
 #[cfg_attr(target_os = "vxworks", ignore)]
 fn test_add_to_env() {
     let result = env_cmd().env("RUN_TEST_NEW_ENV", "123").output().unwrap();
     let output = String::from_utf8_lossy(&result.stdout).to_string();

     assert!(
         output.contains("RUN_TEST_NEW_ENV=123"),
         "didn't find RUN_TEST_NEW_ENV inside of:\n\n{output}"
     );
 }

 #[test]
 #[cfg_attr(target_os = "vxworks", ignore)]
 fn test_capture_env_at_spawn() {
     use crate::env;

     let mut cmd = env_cmd();
     cmd.env("RUN_TEST_NEW_ENV1", "123");

     // This variable will not be present if the environment has already
     // been captured above.
     env::set_var("RUN_TEST_NEW_ENV2", "456");
     let result = cmd.output().unwrap();
     env::remove_var("RUN_TEST_NEW_ENV2");

     let output = String::from_utf8_lossy(&result.stdout).to_string();

     assert!(
         output.contains("RUN_TEST_NEW_ENV1=123"),
         "didn't find RUN_TEST_NEW_ENV1 inside of:\n\n{output}"
     );
     assert!(
         output.contains("RUN_TEST_NEW_ENV2=456"),
         "didn't find RUN_TEST_NEW_ENV2 inside of:\n\n{output}"
     );
 }

 // Regression tests for #30858.
 #[test]
 fn test_interior_nul_in_progname_is_error() {
     match Command::new("has-some-\0\0s-inside").spawn() {
         Err(e) => assert_eq!(e.kind(), ErrorKind::InvalidInput),
         Ok(_) => panic!(),
     }
 }

 #[test]
 fn test_interior_nul_in_arg_is_error() {
     match known_command().arg("has-some-\0\0s-inside").spawn() {
         Err(e) => assert_eq!(e.kind(), ErrorKind::InvalidInput),
         Ok(_) => panic!(),
     }
 }

 #[test]
 fn test_interior_nul_in_args_is_error() {
     match known_command().args(&["has-some-\0\0s-inside"]).spawn() {
         Err(e) => assert_eq!(e.kind(), ErrorKind::InvalidInput),
         Ok(_) => panic!(),
     }
 }

 #[test]
 fn test_interior_nul_in_current_dir_is_error() {
     match known_command().current_dir("has-some-\0\0s-inside").spawn() {
         Err(e) => assert_eq!(e.kind(), ErrorKind::InvalidInput),
         Ok(_) => panic!(),
     }
 }

 // Regression tests for #30862.
 #[test]
 #[cfg_attr(target_os = "vxworks", ignore)]
 fn test_interior_nul_in_env_key_is_error() {
     match env_cmd().env("has-some-\0\0s-inside", "value").spawn() {
         Err(e) => assert_eq!(e.kind(), ErrorKind::InvalidInput),
         Ok(_) => panic!(),
     }
 }

 #[test]
 #[cfg_attr(target_os = "vxworks", ignore)]
 fn test_interior_nul_in_env_value_is_error() {
     match env_cmd().env("key", "has-some-\0\0s-inside").spawn() {
         Err(e) => assert_eq!(e.kind(), ErrorKind::InvalidInput),
         Ok(_) => panic!(),
     }
 }

 /// Tests that process creation flags work by debugging a process.
 /// Other creation flags make it hard or impossible to detect
 /// behavioral changes in the process.
 #[test]
 #[cfg(windows)]
 fn test_creation_flags() {
     use crate::os::windows::process::CommandExt;
     use crate::sys::c::{BOOL, DWORD, INFINITE};
     #[repr(C, packed)]
     struct DEBUG_EVENT {
         pub event_code: DWORD,
         pub process_id: DWORD,
         pub thread_id: DWORD,
         // This is a union in the real struct, but we don't
         // need this data for the purposes of this test.
         pub _junk: [u8; 164],
     }

     extern "system" {
         fn WaitForDebugEvent(lpDebugEvent: *mut DEBUG_EVENT, dwMilliseconds: DWORD) -> BOOL;
         fn ContinueDebugEvent(
             dwProcessId: DWORD,
             dwThreadId: DWORD,
             dwContinueStatus: DWORD,
         ) -> BOOL;
     }

     const DEBUG_PROCESS: DWORD = 1;
     const EXIT_PROCESS_DEBUG_EVENT: DWORD = 5;
     const DBG_EXCEPTION_NOT_HANDLED: DWORD = 0x80010001;

     let mut child =
         Command::new("cmd").creation_flags(DEBUG_PROCESS).stdin(Stdio::piped()).spawn().unwrap();
     child.stdin.take().unwrap().write_all(b"exit\r\n").unwrap();
     let mut events = 0;
     let mut event = DEBUG_EVENT { event_code: 0, process_id: 0, thread_id: 0, _junk: [0; 164] };
     loop {
         if unsafe { WaitForDebugEvent(&mut event as *mut DEBUG_EVENT, INFINITE) } == 0 {
             panic!("WaitForDebugEvent failed!");
         }
         events += 1;

         if event.event_code == EXIT_PROCESS_DEBUG_EVENT {
             break;
         }

         if unsafe {
             ContinueDebugEvent(event.process_id, event.thread_id, DBG_EXCEPTION_NOT_HANDLED)
         } == 0
         {
             panic!("ContinueDebugEvent failed!");
         }
     }
     assert!(events > 0);
 }

 /// Tests proc thread attributes by spawning a process with a custom parent process,
 /// then comparing the parent process ID with the expected parent process ID.
 #[test]
 #[cfg(windows)]
 fn test_proc_thread_attributes() {
     use crate::mem;
     use crate::os::windows::io::AsRawHandle;
     use crate::os::windows::process::CommandExt;
     use crate::sys::c::{CloseHandle, BOOL, HANDLE};
     use crate::sys::cvt;

     #[repr(C)]
     #[allow(non_snake_case)]
     struct PROCESSENTRY32W {
         dwSize: u32,
         cntUsage: u32,
         th32ProcessID: u32,
         th32DefaultHeapID: usize,
         th32ModuleID: u32,
         cntThreads: u32,
         th32ParentProcessID: u32,
         pcPriClassBase: i32,
         dwFlags: u32,
         szExeFile: [u16; 260],
     }

     extern "system" {
         fn CreateToolhelp32Snapshot(dwflags: u32, th32processid: u32) -> HANDLE;
         fn Process32First(hsnapshot: HANDLE, lppe: *mut PROCESSENTRY32W) -> BOOL;
         fn Process32Next(hsnapshot: HANDLE, lppe: *mut PROCESSENTRY32W) -> BOOL;
     }

     const PROC_THREAD_ATTRIBUTE_PARENT_PROCESS: usize = 0x00020000;
     const TH32CS_SNAPPROCESS: u32 = 0x00000002;

     struct ProcessDropGuard(crate::process::Child);

     impl Drop for ProcessDropGuard {
         fn drop(&mut self) {
             let _ = self.0.kill();
         }
     }

     let parent = ProcessDropGuard(Command::new("cmd").spawn().unwrap());

     let mut child_cmd = Command::new("cmd");

     unsafe {
         child_cmd
             .raw_attribute(PROC_THREAD_ATTRIBUTE_PARENT_PROCESS, parent.0.as_raw_handle() as isize);
     }

     let child = ProcessDropGuard(child_cmd.spawn().unwrap());

     let h_snapshot = unsafe { CreateToolhelp32Snapshot(TH32CS_SNAPPROCESS, 0) };

     let mut process_entry = PROCESSENTRY32W {
         dwSize: mem::size_of::<PROCESSENTRY32W>() as u32,
         cntUsage: 0,
         th32ProcessID: 0,
         th32DefaultHeapID: 0,
         th32ModuleID: 0,
         cntThreads: 0,
         th32ParentProcessID: 0,
         pcPriClassBase: 0,
         dwFlags: 0,
         szExeFile: [0; 260],
     };

     unsafe { cvt(Process32First(h_snapshot, &mut process_entry as *mut _)) }.unwrap();

     loop {
         if child.0.id() == process_entry.th32ProcessID {
             break;
         }
         unsafe { cvt(Process32Next(h_snapshot, &mut process_entry as *mut _)) }.unwrap();
     }

     unsafe { cvt(CloseHandle(h_snapshot)) }.unwrap();

     assert_eq!(parent.0.id(), process_entry.th32ParentProcessID);

     drop(child)
 }

 #[test]
 fn test_command_implements_send_sync() {
     fn take_send_sync_type<T: Send + Sync>(_: T) {}
     take_send_sync_type(Command::new(""))
 }

 // Ensure that starting a process with no environment variables works on Windows.
 // This will fail if the environment block is ill-formed.
 #[test]
 #[cfg(windows)]
 fn env_empty() {
     let p = Command::new("cmd").args(&["/C", "exit 0"]).env_clear().spawn();
     assert!(p.is_ok());
 }

 #[test]
 #[cfg(not(windows))]
 #[cfg_attr(any(target_os = "emscripten", target_env = "sgx"), ignore)]
 fn debug_print() {
     const PIDFD: &'static str =
         if cfg!(target_os = "linux") { "    create_pidfd: false,\n" } else { "" };

     let mut command = Command::new("some-boring-name");

     assert_eq!(format!("{command:?}"), format!(r#""some-boring-name""#));

     assert_eq!(
         format!("{command:#?}"),
         format!(
             r#"Command {{
     program: "some-boring-name",
     args: [
         "some-boring-name",
     ],
 {PIDFD}}}"#
         )
     );

     command.args(&["1", "2", "3"]);

     assert_eq!(format!("{command:?}"), format!(r#""some-boring-name" "1" "2" "3""#));

     assert_eq!(
         format!("{command:#?}"),
         format!(
             r#"Command {{
     program: "some-boring-name",
     args: [
         "some-boring-name",
         "1",
         "2",
         "3",
     ],
 {PIDFD}}}"#
         )
     );

     crate::os::unix::process::CommandExt::arg0(&mut command, "exciting-name");

     assert_eq!(
         format!("{command:?}"),
         format!(r#"["some-boring-name"] "exciting-name" "1" "2" "3""#)
     );

     assert_eq!(
         format!("{command:#?}"),
         format!(
             r#"Command {{
     program: "some-boring-name",
     args: [
         "exciting-name",
         "1",
         "2",
         "3",
     ],
 {PIDFD}}}"#
         )
     );

     let mut command_with_env_and_cwd = Command::new("boring-name");
     command_with_env_and_cwd.current_dir("/some/path").env("FOO", "bar");
     assert_eq!(
         format!("{command_with_env_and_cwd:?}"),
         r#"cd "/some/path" && FOO="bar" "boring-name""#
     );
     assert_eq!(
         format!("{command_with_env_and_cwd:#?}"),
         format!(
             r#"Command {{
     program: "boring-name",
     args: [
         "boring-name",
     ],
     env: CommandEnv {{
         clear: false,
         vars: {{
             "FOO": Some(
                 "bar",
             ),
         }},
     }},
     cwd: Some(
         "/some/path",
     ),
 {PIDFD}}}"#
         )
     );

     let mut command_with_removed_env = Command::new("boring-name");
     command_with_removed_env.env_remove("FOO").env_remove("BAR");
     assert_eq!(format!("{command_with_removed_env:?}"), r#"env -u BAR -u FOO "boring-name""#);
     assert_eq!(
         format!("{command_with_removed_env:#?}"),
         format!(
             r#"Command {{
     program: "boring-name",
     args: [
         "boring-name",
     ],
     env: CommandEnv {{
         clear: false,
         vars: {{
             "BAR": None,
             "FOO": None,
         }},
     }},
 {PIDFD}}}"#
         )
     );

     let mut command_with_cleared_env = Command::new("boring-name");
     command_with_cleared_env.env_clear().env("BAR", "val").env_remove("FOO");
     assert_eq!(format!("{command_with_cleared_env:?}"), r#"env -i BAR="val" "boring-name""#);
     assert_eq!(
         format!("{command_with_cleared_env:#?}"),
         format!(
             r#"Command {{
     program: "boring-name",
     args: [
         "boring-name",
     ],
     env: CommandEnv {{
         clear: true,
         vars: {{
             "BAR": Some(
                 "val",
             ),
         }},
     }},
 {PIDFD}}}"#
         )
     );
 }

 // See issue #91991
 #[test]
 #[cfg(windows)]
 fn run_bat_script() {
     let tempdir = crate::sys_common::io::test::tmpdir();
     let script_path = tempdir.join("hello.cmd");

     crate::fs::write(&script_path, "@echo Hello, %~1!").unwrap();
     let output = Command::new(&script_path)
         .arg("fellow Rustaceans")
         .stdout(crate::process::Stdio::piped())
         .spawn()
         .unwrap()
         .wait_with_output()
         .unwrap();
     assert!(output.status.success());
     assert_eq!(String::from_utf8_lossy(&output.stdout).trim(), "Hello, fellow Rustaceans!");
 }

 // See issue #95178
 #[test]
 #[cfg(windows)]
 fn run_canonical_bat_script() {
     let tempdir = crate::sys_common::io::test::tmpdir();
     let script_path = tempdir.join("hello.cmd");

     crate::fs::write(&script_path, "@echo Hello, %~1!").unwrap();

     // Try using a canonical path
     let output = Command::new(&script_path.canonicalize().unwrap())
         .arg("fellow Rustaceans")
         .stdout(crate::process::Stdio::piped())
         .spawn()
         .unwrap()
         .wait_with_output()
         .unwrap();
     assert!(output.status.success());
     assert_eq!(String::from_utf8_lossy(&output.stdout).trim(), "Hello, fellow Rustaceans!");
 }

 #[test]
 fn terminate_exited_process() {
     let mut cmd = if cfg!(target_os = "android") {
         let mut p = shell_cmd();
         p.args(&["-c", "true"]);
         p
     } else {
         known_command()
     };
     let mut p = cmd.stdout(Stdio::null()).spawn().unwrap();
     p.wait().unwrap();
     assert!(p.kill().is_ok());
     assert!(p.kill().is_ok());
 }
	use crate::io::prelude::*;

	use super::{Command, Output, Stdio};
	use crate::io::{BorrowedBuf, ErrorKind};
	use crate::mem::MaybeUninit;
	use crate::str;

	fn known_command() -> Command {
	if cfg!(windows) { Command::new("help") } else { Command::new("echo") }
	}

	#[cfg(target_os = "android")]
	fn shell_cmd() -> Command {
	Command::new("/system/bin/sh")
	}

	#[cfg(not(target_os = "android"))]
	fn shell_cmd() -> Command {
	Command::new("/bin/sh")
	}

	#[test]
	#[cfg_attr(any(target_os = "vxworks"), ignore)]
	fn smoke() {
	let p = if cfg!(target_os = "windows") {
	Command::new("cmd").args(&["/C", "exit 0"]).spawn()
	} else {
	shell_cmd().arg("-c").arg("true").spawn()
	};
	assert!(p.is_ok());
	let mut p = p.unwrap();
	assert!(p.wait().unwrap().success());
	}

	#[test]
	#[cfg_attr(target_os = "android", ignore)]
	fn smoke_failure() {
	match Command::new("if-this-is-a-binary-then-the-world-has-ended").spawn() {
	Ok(..) => panic!(),
	Err(..) => {}
	}
	}

	#[test]
	#[cfg_attr(any(target_os = "vxworks"), ignore)]
	fn exit_reported_right() {
	let p = if cfg!(target_os = "windows") {
	Command::new("cmd").args(&["/C", "exit 1"]).spawn()
	} else {
	shell_cmd().arg("-c").arg("false").spawn()
	};
	assert!(p.is_ok());
	let mut p = p.unwrap();
	assert!(p.wait().unwrap().code() == Some(1));
	drop(p.wait());
	}

	#[test]
	#[cfg(unix)]
	#[cfg_attr(any(target_os = "vxworks"), ignore)]
	fn signal_reported_right() {
	use crate::os::unix::process::ExitStatusExt;

	let mut p = shell_cmd().arg("-c").arg("read a").stdin(Stdio::piped()).spawn().unwrap();
	p.kill().unwrap();
	match p.wait().unwrap().signal() {
	Some(9) => {}
	result => panic!("not terminated by signal 9 (instead, {result:?})"),
	}
	}

	pub fn run_output(mut cmd: Command) -> String {
	let p = cmd.spawn();
	assert!(p.is_ok());
	let mut p = p.unwrap();
	assert!(p.stdout.is_some());
	let mut ret = String::new();
	p.stdout.as_mut().unwrap().read_to_string(&mut ret).unwrap();
	assert!(p.wait().unwrap().success());
	return ret;
	}

	#[test]
	#[cfg_attr(any(target_os = "vxworks"), ignore)]
	fn stdout_works() {
	if cfg!(target_os = "windows") {
	let mut cmd = Command::new("cmd");
	cmd.args(&["/C", "echo foobar"]).stdout(Stdio::piped());
	assert_eq!(run_output(cmd), "foobar\r\n");
	} else {
	let mut cmd = shell_cmd();
	cmd.arg("-c").arg("echo foobar").stdout(Stdio::piped());
	assert_eq!(run_output(cmd), "foobar\n");
	}
	}

	#[test]
	#[cfg_attr(any(windows, target_os = "vxworks"), ignore)]
	fn set_current_dir_works() {
	let mut cmd = shell_cmd();
	cmd.arg("-c").arg("pwd").current_dir("/").stdout(Stdio::piped());
	assert_eq!(run_output(cmd), "/\n");
	}

	#[test]
	#[cfg_attr(any(windows, target_os = "vxworks"), ignore)]
	fn stdin_works() {
	let mut p = shell_cmd()
	.arg("-c")
	.arg("read line; echo $line")
	.stdin(Stdio::piped())
	.stdout(Stdio::piped())
	.spawn()
	.unwrap();
	p.stdin.as_mut().unwrap().write("foobar".as_bytes()).unwrap();
	drop(p.stdin.take());
	let mut out = String::new();
	p.stdout.as_mut().unwrap().read_to_string(&mut out).unwrap();
	assert!(p.wait().unwrap().success());
	assert_eq!(out, "foobar\n");
	}

	#[test]
	#[cfg_attr(any(target_os = "vxworks"), ignore)]
	fn child_stdout_read_buf() {
	let mut cmd = if cfg!(target_os = "windows") {
	let mut cmd = Command::new("cmd");
	cmd.arg("/C").arg("echo abc");
	cmd
	} else {
	let mut cmd = shell_cmd();
	cmd.arg("-c").arg("echo abc");
	cmd
	};
	cmd.stdin(Stdio::null());
	cmd.stdout(Stdio::piped());
	let child = cmd.spawn().unwrap();

	let mut stdout = child.stdout.unwrap();
	let mut buf: [MaybeUninit<u8>; 128] = MaybeUninit::uninit_array();
	let mut buf = BorrowedBuf::from(buf.as_mut_slice());
	stdout.read_buf(buf.unfilled()).unwrap();

	// ChildStdout::read_buf should omit buffer initialization.
	if cfg!(target_os = "windows") {
	assert_eq!(buf.filled(), b"abc\r\n");
	assert_eq!(buf.init_len(), 5);
	} else {
	assert_eq!(buf.filled(), b"abc\n");
	assert_eq!(buf.init_len(), 4);
	};
	}

	#[test]
	#[cfg_attr(any(target_os = "vxworks"), ignore)]
	fn test_process_status() {
	let mut status = if cfg!(target_os = "windows") {
	Command::new("cmd").args(&["/C", "exit 1"]).status().unwrap()
	} else {
	shell_cmd().arg("-c").arg("false").status().unwrap()
	};
	assert!(status.code() == Some(1));

	status = if cfg!(target_os = "windows") {
	Command::new("cmd").args(&["/C", "exit 0"]).status().unwrap()
	} else {
	shell_cmd().arg("-c").arg("true").status().unwrap()
	};
	assert!(status.success());
	}

	#[test]
	fn test_process_output_fail_to_start() {
	match Command::new("/no-binary-by-this-name-should-exist").output() {
	Err(e) => assert_eq!(e.kind(), ErrorKind::NotFound),
	Ok(..) => panic!(),
	}
	}

	#[test]
	#[cfg_attr(any(target_os = "vxworks"), ignore)]
	fn test_process_output_output() {
	let Output { status, stdout, stderr } = if cfg!(target_os = "windows") {
	Command::new("cmd").args(&["/C", "echo hello"]).output().unwrap()
	} else {
	shell_cmd().arg("-c").arg("echo hello").output().unwrap()
	};
	let output_str = str::from_utf8(&stdout).unwrap();

	assert!(status.success());
	assert_eq!(output_str.trim().to_string(), "hello");
	assert_eq!(stderr, Vec::new());
	}

	#[test]
	#[cfg_attr(any(target_os = "vxworks"), ignore)]
	fn test_process_output_error() {
	let Output { status, stdout, stderr } = if cfg!(target_os = "windows") {
	Command::new("cmd").args(&["/C", "mkdir ."]).output().unwrap()
	} else {
	Command::new("mkdir").arg("./").output().unwrap()
	};

	assert!(status.code().is_some());
	assert!(status.code() != Some(0));
	assert_eq!(stdout, Vec::new());
	assert!(!stderr.is_empty());
	}

	#[test]
	#[cfg_attr(any(target_os = "vxworks"), ignore)]
	fn test_finish_once() {
	let mut prog = if cfg!(target_os = "windows") {
	Command::new("cmd").args(&["/C", "exit 1"]).spawn().unwrap()
	} else {
	shell_cmd().arg("-c").arg("false").spawn().unwrap()
	};
	assert!(prog.wait().unwrap().code() == Some(1));
	}

	#[test]
	#[cfg_attr(any(target_os = "vxworks"), ignore)]
	fn test_finish_twice() {
	let mut prog = if cfg!(target_os = "windows") {
	Command::new("cmd").args(&["/C", "exit 1"]).spawn().unwrap()
	} else {
	shell_cmd().arg("-c").arg("false").spawn().unwrap()
	};
	assert!(prog.wait().unwrap().code() == Some(1));
	assert!(prog.wait().unwrap().code() == Some(1));
	}

	#[test]
	#[cfg_attr(any(target_os = "vxworks"), ignore)]
	fn test_wait_with_output_once() {
	let prog = if cfg!(target_os = "windows") {
	Command::new("cmd").args(&["/C", "echo hello"]).stdout(Stdio::piped()).spawn().unwrap()
	} else {
	shell_cmd().arg("-c").arg("echo hello").stdout(Stdio::piped()).spawn().unwrap()
	};

	let Output { status, stdout, stderr } = prog.wait_with_output().unwrap();
	let output_str = str::from_utf8(&stdout).unwrap();

	assert!(status.success());
	assert_eq!(output_str.trim().to_string(), "hello");
	assert_eq!(stderr, Vec::new());
	}

	#[cfg(all(unix, not(target_os = "android")))]
	pub fn env_cmd() -> Command {
	Command::new("env")
	}
	#[cfg(target_os = "android")]
	pub fn env_cmd() -> Command {
	let mut cmd = Command::new("/system/bin/sh");
	cmd.arg("-c").arg("set");
	cmd
	}

	#[cfg(windows)]
	pub fn env_cmd() -> Command {
	let mut cmd = Command::new("cmd");
	cmd.arg("/c").arg("set");
	cmd
	}

	#[test]
	#[cfg_attr(target_os = "vxworks", ignore)]
	fn test_override_env() {
	use crate::env;

	// In some build environments (such as chrooted Nix builds), `env` can
	// only be found in the explicitly-provided PATH env variable, not in
	// default places such as /bin or /usr/bin. So we need to pass through
	// PATH to our sub-process.
	let mut cmd = env_cmd();
	cmd.env_clear().env("RUN_TEST_NEW_ENV", "123");
	if let Some(p) = env::var_os("PATH") {
	cmd.env("PATH", &p);
	}
	let result = cmd.output().unwrap();
	let output = String::from_utf8_lossy(&result.stdout).to_string();

	assert!(
	output.contains("RUN_TEST_NEW_ENV=123"),
	"didn't find RUN_TEST_NEW_ENV inside of:\n\n{output}",
	);
	}

	#[test]
	#[cfg_attr(target_os = "vxworks", ignore)]
	fn test_add_to_env() {
	let result = env_cmd().env("RUN_TEST_NEW_ENV", "123").output().unwrap();
	let output = String::from_utf8_lossy(&result.stdout).to_string();

	assert!(
	output.contains("RUN_TEST_NEW_ENV=123"),
	"didn't find RUN_TEST_NEW_ENV inside of:\n\n{output}"
	);
	}

	#[test]
	#[cfg_attr(target_os = "vxworks", ignore)]
	fn test_capture_env_at_spawn() {
	use crate::env;

	let mut cmd = env_cmd();
	cmd.env("RUN_TEST_NEW_ENV1", "123");

	// This variable will not be present if the environment has already
	// been captured above.
	env::set_var("RUN_TEST_NEW_ENV2", "456");
	let result = cmd.output().unwrap();
	env::remove_var("RUN_TEST_NEW_ENV2");

	let output = String::from_utf8_lossy(&result.stdout).to_string();

	assert!(
	output.contains("RUN_TEST_NEW_ENV1=123"),
	"didn't find RUN_TEST_NEW_ENV1 inside of:\n\n{output}"
	);
	assert!(
	output.contains("RUN_TEST_NEW_ENV2=456"),
	"didn't find RUN_TEST_NEW_ENV2 inside of:\n\n{output}"
	);
	}

	// Regression tests for #30858.
	#[test]
	fn test_interior_nul_in_progname_is_error() {
	match Command::new("has-some-\0\0s-inside").spawn() {
	Err(e) => assert_eq!(e.kind(), ErrorKind::InvalidInput),
	Ok(_) => panic!(),
	}
	}

	#[test]
	fn test_interior_nul_in_arg_is_error() {
	match known_command().arg("has-some-\0\0s-inside").spawn() {
	Err(e) => assert_eq!(e.kind(), ErrorKind::InvalidInput),
	Ok(_) => panic!(),
	}
	}

	#[test]
	fn test_interior_nul_in_args_is_error() {
	match known_command().args(&["has-some-\0\0s-inside"]).spawn() {
	Err(e) => assert_eq!(e.kind(), ErrorKind::InvalidInput),
	Ok(_) => panic!(),
	}
	}

	#[test]
	fn test_interior_nul_in_current_dir_is_error() {
	match known_command().current_dir("has-some-\0\0s-inside").spawn() {
	Err(e) => assert_eq!(e.kind(), ErrorKind::InvalidInput),
	Ok(_) => panic!(),
	}
	}

	// Regression tests for #30862.
	#[test]
	#[cfg_attr(target_os = "vxworks", ignore)]
	fn test_interior_nul_in_env_key_is_error() {
	match env_cmd().env("has-some-\0\0s-inside", "value").spawn() {
	Err(e) => assert_eq!(e.kind(), ErrorKind::InvalidInput),
	Ok(_) => panic!(),
	}
	}

	#[test]
	#[cfg_attr(target_os = "vxworks", ignore)]
	fn test_interior_nul_in_env_value_is_error() {
	match env_cmd().env("key", "has-some-\0\0s-inside").spawn() {
	Err(e) => assert_eq!(e.kind(), ErrorKind::InvalidInput),
	Ok(_) => panic!(),
	}
	}

	/// Tests that process creation flags work by debugging a process.
	/// Other creation flags make it hard or impossible to detect
	/// behavioral changes in the process.
	#[test]
	#[cfg(windows)]
	fn test_creation_flags() {
	use crate::os::windows::process::CommandExt;
	use crate::sys::c::{BOOL, DWORD, INFINITE};
	#[repr(C, packed)]
	struct DEBUG_EVENT {
	pub event_code: DWORD,
	pub process_id: DWORD,
	pub thread_id: DWORD,
	// This is a union in the real struct, but we don't
	// need this data for the purposes of this test.
	pub _junk: [u8; 164],
	}

	extern "system" {
	fn WaitForDebugEvent(lpDebugEvent: *mut DEBUG_EVENT, dwMilliseconds: DWORD) -> BOOL;
	fn ContinueDebugEvent(
	dwProcessId: DWORD,
	dwThreadId: DWORD,
	dwContinueStatus: DWORD,
	) -> BOOL;
	}

	const DEBUG_PROCESS: DWORD = 1;
	const EXIT_PROCESS_DEBUG_EVENT: DWORD = 5;
	const DBG_EXCEPTION_NOT_HANDLED: DWORD = 0x80010001;

	let mut child =
	Command::new("cmd").creation_flags(DEBUG_PROCESS).stdin(Stdio::piped()).spawn().unwrap();
	child.stdin.take().unwrap().write_all(b"exit\r\n").unwrap();
	let mut events = 0;
	let mut event = DEBUG_EVENT { event_code: 0, process_id: 0, thread_id: 0, _junk: [0; 164] };
	loop {
	if unsafe { WaitForDebugEvent(&mut event as *mut DEBUG_EVENT, INFINITE) } == 0 {
	panic!("WaitForDebugEvent failed!");
	}
	events += 1;

	if event.event_code == EXIT_PROCESS_DEBUG_EVENT {
	break;
	}

	if unsafe {
	ContinueDebugEvent(event.process_id, event.thread_id, DBG_EXCEPTION_NOT_HANDLED)
	} == 0
	{
	panic!("ContinueDebugEvent failed!");
	}
	}
	assert!(events > 0);
	}

	/// Tests proc thread attributes by spawning a process with a custom parent process,
	/// then comparing the parent process ID with the expected parent process ID.
	#[test]
	#[cfg(windows)]
	fn test_proc_thread_attributes() {
	use crate::mem;
	use crate::os::windows::io::AsRawHandle;
	use crate::os::windows::process::CommandExt;
	use crate::sys::c::{CloseHandle, BOOL, HANDLE};
	use crate::sys::cvt;

	#[repr(C)]
	#[allow(non_snake_case)]
	struct PROCESSENTRY32W {
	dwSize: u32,
	cntUsage: u32,
	th32ProcessID: u32,
	th32DefaultHeapID: usize,
	th32ModuleID: u32,
	cntThreads: u32,
	th32ParentProcessID: u32,
	pcPriClassBase: i32,
	dwFlags: u32,
	szExeFile: [u16; 260],
	}

	extern "system" {
	fn CreateToolhelp32Snapshot(dwflags: u32, th32processid: u32) -> HANDLE;
	fn Process32First(hsnapshot: HANDLE, lppe: *mut PROCESSENTRY32W) -> BOOL;
	fn Process32Next(hsnapshot: HANDLE, lppe: *mut PROCESSENTRY32W) -> BOOL;
	}

	const PROC_THREAD_ATTRIBUTE_PARENT_PROCESS: usize = 0x00020000;
	const TH32CS_SNAPPROCESS: u32 = 0x00000002;

	struct ProcessDropGuard(crate::process::Child);

	impl Drop for ProcessDropGuard {
	fn drop(&mut self) {
	let _ = self.0.kill();
	}
	}

	let parent = ProcessDropGuard(Command::new("cmd").spawn().unwrap());

	let mut child_cmd = Command::new("cmd");

	unsafe {
	child_cmd
	.raw_attribute(PROC_THREAD_ATTRIBUTE_PARENT_PROCESS, parent.0.as_raw_handle() as isize);
	}

	let child = ProcessDropGuard(child_cmd.spawn().unwrap());

	let h_snapshot = unsafe { CreateToolhelp32Snapshot(TH32CS_SNAPPROCESS, 0) };

	let mut process_entry = PROCESSENTRY32W {
	dwSize: mem::size_of::<PROCESSENTRY32W>() as u32,
	cntUsage: 0,
	th32ProcessID: 0,
	th32DefaultHeapID: 0,
	th32ModuleID: 0,
	cntThreads: 0,
	th32ParentProcessID: 0,
	pcPriClassBase: 0,
	dwFlags: 0,
	szExeFile: [0; 260],
	};

	unsafe { cvt(Process32First(h_snapshot, &mut process_entry as *mut _)) }.unwrap();

	loop {
	if child.0.id() == process_entry.th32ProcessID {
	break;
	}
	unsafe { cvt(Process32Next(h_snapshot, &mut process_entry as *mut _)) }.unwrap();
	}

	unsafe { cvt(CloseHandle(h_snapshot)) }.unwrap();

	assert_eq!(parent.0.id(), process_entry.th32ParentProcessID);

	drop(child)
	}

	#[test]
	fn test_command_implements_send_sync() {
	fn take_send_sync_type<T: Send + Sync>(_: T) {}
	take_send_sync_type(Command::new(""))
	}

	// Ensure that starting a process with no environment variables works on Windows.
	// This will fail if the environment block is ill-formed.
	#[test]
	#[cfg(windows)]
	fn env_empty() {
	let p = Command::new("cmd").args(&["/C", "exit 0"]).env_clear().spawn();
	assert!(p.is_ok());
	}

	#[test]
	#[cfg(not(windows))]
	#[cfg_attr(any(target_os = "emscripten", target_env = "sgx"), ignore)]
	fn debug_print() {
	const PIDFD: &'static str =
	if cfg!(target_os = "linux") { " create_pidfd: false,\n" } else { "" };

	let mut command = Command::new("some-boring-name");

	assert_eq!(format!("{command:?}"), format!(r#""some-boring-name""#));

	assert_eq!(
	format!("{command:#?}"),
	format!(
	r#"Command {{
	program: "some-boring-name",
	args: [
	"some-boring-name",
	],
	{PIDFD}}}"#
	)
	);

	command.args(&["1", "2", "3"]);

	assert_eq!(format!("{command:?}"), format!(r#""some-boring-name" "1" "2" "3""#));

	assert_eq!(
	format!("{command:#?}"),
	format!(
	r#"Command {{
	program: "some-boring-name",
	args: [
	"some-boring-name",
	"1",
	"2",
	"3",
	],
	{PIDFD}}}"#
	)
	);

	crate::os::unix::process::CommandExt::arg0(&mut command, "exciting-name");

	assert_eq!(
	format!("{command:?}"),
	format!(r#"["some-boring-name"] "exciting-name" "1" "2" "3""#)
	);

	assert_eq!(
	format!("{command:#?}"),
	format!(
	r#"Command {{
	program: "some-boring-name",
	args: [
	"exciting-name",
	"1",
	"2",
	"3",
	],
	{PIDFD}}}"#
	)
	);

	let mut command_with_env_and_cwd = Command::new("boring-name");
	command_with_env_and_cwd.current_dir("/some/path").env("FOO", "bar");
	assert_eq!(
	format!("{command_with_env_and_cwd:?}"),
	r#"cd "/some/path" && FOO="bar" "boring-name""#
	);
	assert_eq!(
	format!("{command_with_env_and_cwd:#?}"),
	format!(
	r#"Command {{
	program: "boring-name",
	args: [
	"boring-name",
	],
	env: CommandEnv {{
	clear: false,
	vars: {{
	"FOO": Some(
	"bar",
	),
	}},
	}},
	cwd: Some(
	"/some/path",
	),
	{PIDFD}}}"#
	)
	);

	let mut command_with_removed_env = Command::new("boring-name");
	command_with_removed_env.env_remove("FOO").env_remove("BAR");
	assert_eq!(format!("{command_with_removed_env:?}"), r#"env -u BAR -u FOO "boring-name""#);
	assert_eq!(
	format!("{command_with_removed_env:#?}"),
	format!(
	r#"Command {{
	program: "boring-name",
	args: [
	"boring-name",
	],
	env: CommandEnv {{
	clear: false,
	vars: {{
	"BAR": None,
	"FOO": None,
	}},
	}},
	{PIDFD}}}"#
	)
	);

	let mut command_with_cleared_env = Command::new("boring-name");
	command_with_cleared_env.env_clear().env("BAR", "val").env_remove("FOO");
	assert_eq!(format!("{command_with_cleared_env:?}"), r#"env -i BAR="val" "boring-name""#);
	assert_eq!(
	format!("{command_with_cleared_env:#?}"),
	format!(
	r#"Command {{
	program: "boring-name",
	args: [
	"boring-name",
	],
	env: CommandEnv {{
	clear: true,
	vars: {{
	"BAR": Some(
	"val",
	),
	}},
	}},
	{PIDFD}}}"#
	)
	);
	}

	// See issue #91991
	#[test]
	#[cfg(windows)]
	fn run_bat_script() {
	let tempdir = crate::sys_common::io::test::tmpdir();
	let script_path = tempdir.join("hello.cmd");

	crate::fs::write(&script_path, "@echo Hello, %~1!").unwrap();
	let output = Command::new(&script_path)
	.arg("fellow Rustaceans")
	.stdout(crate::process::Stdio::piped())
	.spawn()
	.unwrap()
	.wait_with_output()
	.unwrap();
	assert!(output.status.success());
	assert_eq!(String::from_utf8_lossy(&output.stdout).trim(), "Hello, fellow Rustaceans!");
	}

	// See issue #95178
	#[test]
	#[cfg(windows)]
	fn run_canonical_bat_script() {
	let tempdir = crate::sys_common::io::test::tmpdir();
	let script_path = tempdir.join("hello.cmd");

	crate::fs::write(&script_path, "@echo Hello, %~1!").unwrap();

	// Try using a canonical path
	let output = Command::new(&script_path.canonicalize().unwrap())
	.arg("fellow Rustaceans")
	.stdout(crate::process::Stdio::piped())
	.spawn()
	.unwrap()
	.wait_with_output()
	.unwrap();
	assert!(output.status.success());
	assert_eq!(String::from_utf8_lossy(&output.stdout).trim(), "Hello, fellow Rustaceans!");
	}

	#[test]
	fn terminate_exited_process() {
	let mut cmd = if cfg!(target_os = "android") {
	let mut p = shell_cmd();
	p.args(&["-c", "true"]);
	p
	} else {
	known_command()
	};
	let mut p = cmd.stdout(Stdio::null()).spawn().unwrap();
	p.wait().unwrap();
	assert!(p.kill().is_ok());
	assert!(p.kill().is_ok());
	}