pub struct Command { /* private fields */ }
Expand description
This structure mimics the API of std::process::Command
found in the standard library, but
replaces functions that create a process with an asynchronous variant. The main provided
asynchronous functions are spawn, status, and
output.
Command
uses asynchronous versions of some std
types (for example Child
).
Implementations
sourceimpl Command
impl Command
sourcepub fn new<S: AsRef<OsStr>>(program: S) -> Command
pub fn new<S: AsRef<OsStr>>(program: S) -> Command
Constructs a new Command
for launching the program at
path program
, with the following default configuration:
- No arguments to the program
- Inherit the current process’s environment
- Inherit the current process’s working directory
- Inherit stdin/stdout/stderr for
spawn
orstatus
, but create pipes foroutput
Builder methods are provided to change these defaults and otherwise configure the process.
If program
is not an absolute path, the PATH
will be searched in
an OS-defined way.
The search path to be used may be controlled by setting the
PATH
environment variable on the Command,
but this has some implementation limitations on Windows
(see issue rust-lang/rust#37519).
Examples
Basic usage:
use tokio::process::Command;
let command = Command::new("sh");
sourcepub fn as_std(&self) -> &StdCommand
pub fn as_std(&self) -> &StdCommand
Cheaply convert to a &std::process::Command
for places where the type from the standard
library is expected.
sourcepub fn arg<S: AsRef<OsStr>>(&mut self, arg: S) -> &mut Command
pub fn arg<S: AsRef<OsStr>>(&mut self, arg: S) -> &mut Command
Adds an argument to pass to the program.
Only one argument can be passed per use. So instead of:
tokio::process::Command::new("sh")
.arg("-C /path/to/repo");
usage would be:
tokio::process::Command::new("sh")
.arg("-C")
.arg("/path/to/repo");
To pass multiple arguments see args
.
Examples
Basic usage:
use tokio::process::Command;
let command = Command::new("ls")
.arg("-l")
.arg("-a");
sourcepub fn args<I, S>(&mut self, args: I) -> &mut Commandwhere
I: IntoIterator<Item = S>,
S: AsRef<OsStr>,
pub fn args<I, S>(&mut self, args: I) -> &mut Commandwhere
I: IntoIterator<Item = S>,
S: AsRef<OsStr>,
sourcepub fn env<K, V>(&mut self, key: K, val: V) -> &mut Commandwhere
K: AsRef<OsStr>,
V: AsRef<OsStr>,
pub fn env<K, V>(&mut self, key: K, val: V) -> &mut Commandwhere
K: AsRef<OsStr>,
V: AsRef<OsStr>,
Inserts or updates an environment variable mapping.
Note that environment variable names are case-insensitive (but case-preserving) on Windows, and case-sensitive on all other platforms.
Examples
Basic usage:
use tokio::process::Command;
let command = Command::new("ls")
.env("PATH", "/bin");
sourcepub fn envs<I, K, V>(&mut self, vars: I) -> &mut Commandwhere
I: IntoIterator<Item = (K, V)>,
K: AsRef<OsStr>,
V: AsRef<OsStr>,
pub fn envs<I, K, V>(&mut self, vars: I) -> &mut Commandwhere
I: IntoIterator<Item = (K, V)>,
K: AsRef<OsStr>,
V: AsRef<OsStr>,
Adds or updates multiple environment variable mappings.
Examples
Basic usage:
use tokio::process::Command;
use std::process::{Stdio};
use std::env;
use std::collections::HashMap;
let filtered_env : HashMap<String, String> =
env::vars().filter(|&(ref k, _)|
k == "TERM" || k == "TZ" || k == "LANG" || k == "PATH"
).collect();
let command = Command::new("printenv")
.stdin(Stdio::null())
.stdout(Stdio::inherit())
.env_clear()
.envs(&filtered_env);
sourcepub fn env_remove<K: AsRef<OsStr>>(&mut self, key: K) -> &mut Command
pub fn env_remove<K: AsRef<OsStr>>(&mut self, key: K) -> &mut Command
Removes an environment variable mapping.
Examples
Basic usage:
use tokio::process::Command;
let command = Command::new("ls")
.env_remove("PATH");
sourcepub fn env_clear(&mut self) -> &mut Command
pub fn env_clear(&mut self) -> &mut Command
Clears the entire environment map for the child process.
Examples
Basic usage:
use tokio::process::Command;
let command = Command::new("ls")
.env_clear();
sourcepub fn current_dir<P: AsRef<Path>>(&mut self, dir: P) -> &mut Command
pub fn current_dir<P: AsRef<Path>>(&mut self, dir: P) -> &mut Command
Sets the working directory for the child process.
Platform-specific behavior
If the program path is relative (e.g., "./script.sh"
), it’s ambiguous
whether it should be interpreted relative to the parent’s working
directory or relative to current_dir
. The behavior in this case is
platform specific and unstable, and it’s recommended to use
canonicalize
to get an absolute program path instead.
Examples
Basic usage:
use tokio::process::Command;
let command = Command::new("ls")
.current_dir("/bin");
sourcepub fn stdin<T: Into<Stdio>>(&mut self, cfg: T) -> &mut Command
pub fn stdin<T: Into<Stdio>>(&mut self, cfg: T) -> &mut Command
Sets configuration for the child process’s standard input (stdin) handle.
Defaults to inherit
when used with spawn
or status
, and
defaults to piped
when used with output
.
Examples
Basic usage:
use std::process::{Stdio};
use tokio::process::Command;
let command = Command::new("ls")
.stdin(Stdio::null());
sourcepub fn stdout<T: Into<Stdio>>(&mut self, cfg: T) -> &mut Command
pub fn stdout<T: Into<Stdio>>(&mut self, cfg: T) -> &mut Command
Sets configuration for the child process’s standard output (stdout) handle.
Defaults to inherit
when used with spawn
or status
, and
defaults to piped
when used with output
.
Examples
Basic usage:
use tokio::process::Command;
use std::process::Stdio;
let command = Command::new("ls")
.stdout(Stdio::null());
sourcepub fn stderr<T: Into<Stdio>>(&mut self, cfg: T) -> &mut Command
pub fn stderr<T: Into<Stdio>>(&mut self, cfg: T) -> &mut Command
Sets configuration for the child process’s standard error (stderr) handle.
Defaults to inherit
when used with spawn
or status
, and
defaults to piped
when used with output
.
Examples
Basic usage:
use tokio::process::Command;
use std::process::{Stdio};
let command = Command::new("ls")
.stderr(Stdio::null());
sourcepub fn kill_on_drop(&mut self, kill_on_drop: bool) -> &mut Command
pub fn kill_on_drop(&mut self, kill_on_drop: bool) -> &mut Command
Controls whether a kill
operation should be invoked on a spawned child
process when its corresponding Child
handle is dropped.
By default, this value is assumed to be false
, meaning the next spawned
process will not be killed on drop, similar to the behavior of the standard
library.
Caveats
On Unix platforms processes must be “reaped” by their parent process after they have exited in order to release all OS resources. A child process which has exited, but has not yet been reaped by its parent is considered a “zombie” process. Such processes continue to count against limits imposed by the system, and having too many zombie processes present can prevent additional processes from being spawned.
Although issuing a kill
signal to the child process is a synchronous
operation, the resulting zombie process cannot be .await
ed inside of the
destructor to avoid blocking other tasks. The tokio runtime will, on a
best-effort basis, attempt to reap and clean up such processes in the
background, but makes no additional guarantees are made with regards
how quickly or how often this procedure will take place.
If stronger guarantees are required, it is recommended to avoid dropping
a Child
handle where possible, and instead utilize child.wait().await
or child.kill().await
where possible.
sourcepub fn uid(&mut self, id: u32) -> &mut Command
pub fn uid(&mut self, id: u32) -> &mut Command
Sets the child process’s user ID. This translates to a
setuid
call in the child process. Failure in the setuid
call will cause the spawn to fail.
sourcepub fn gid(&mut self, id: u32) -> &mut Command
pub fn gid(&mut self, id: u32) -> &mut Command
Similar to uid
but sets the group ID of the child process. This has
the same semantics as the uid
field.
sourcepub fn arg0<S>(&mut self, arg: S) -> &mut Commandwhere
S: AsRef<OsStr>,
pub fn arg0<S>(&mut self, arg: S) -> &mut Commandwhere
S: AsRef<OsStr>,
Sets executable argument.
Set the first process argument, argv[0]
, to something other than the
default executable path.
sourcepub unsafe fn pre_exec<F>(&mut self, f: F) -> &mut Commandwhere
F: FnMut() -> Result<()> + Send + Sync + 'static,
pub unsafe fn pre_exec<F>(&mut self, f: F) -> &mut Commandwhere
F: FnMut() -> Result<()> + Send + Sync + 'static,
Schedules a closure to be run just before the exec
function is
invoked.
The closure is allowed to return an I/O error whose OS error code will be communicated back to the parent and returned as an error from when the spawn was requested.
Multiple closures can be registered and they will be called in order of
their registration. If a closure returns Err
then no further closures
will be called and the spawn operation will immediately return with a
failure.
Safety
This closure will be run in the context of the child process after a
fork
. This primarily means that any modifications made to memory on
behalf of this closure will not be visible to the parent process.
This is often a very constrained environment where normal operations
like malloc
or acquiring a mutex are not guaranteed to work (due to
other threads perhaps still running when the fork
was run).
This also means that all resources such as file descriptors and memory-mapped regions got duplicated. It is your responsibility to make sure that the closure does not violate library invariants by making invalid use of these duplicates.
When this closure is run, aspects such as the stdio file descriptors and working directory have successfully been changed, so output to these locations may not appear where intended.
sourcepub fn spawn(&mut self) -> Result<Child>
pub fn spawn(&mut self) -> Result<Child>
Executes the command as a child process, returning a handle to it.
By default, stdin, stdout and stderr are inherited from the parent.
This method will spawn the child process synchronously and return a
handle to a future-aware child process. The Child
returned implements
Future
itself to acquire the ExitStatus
of the child, and otherwise
the Child
has methods to acquire handles to the stdin, stdout, and
stderr streams.
All I/O this child does will be associated with the current default event loop.
Examples
Basic usage:
use tokio::process::Command;
async fn run_ls() -> std::process::ExitStatus {
Command::new("ls")
.spawn()
.expect("ls command failed to start")
.wait()
.await
.expect("ls command failed to run")
}
Caveats
Dropping/Cancellation
Similar to the behavior to the standard library, and unlike the futures
paradigm of dropping-implies-cancellation, a spawned process will, by
default, continue to execute even after the Child
handle has been dropped.
The Command::kill_on_drop
method can be used to modify this behavior
and kill the child process if the Child
wrapper is dropped before it
has exited.
Unix Processes
On Unix platforms processes must be “reaped” by their parent process after they have exited in order to release all OS resources. A child process which has exited, but has not yet been reaped by its parent is considered a “zombie” process. Such processes continue to count against limits imposed by the system, and having too many zombie processes present can prevent additional processes from being spawned.
The tokio runtime will, on a best-effort basis, attempt to reap and clean up any process which it has spawned. No additional guarantees are made with regards how quickly or how often this procedure will take place.
It is recommended to avoid dropping a Child
process handle before it has been
fully await
ed if stricter cleanup guarantees are required.
Errors
On Unix platforms this method will fail with std::io::ErrorKind::WouldBlock
if the system process limit is reached (which includes other applications
running on the system).
sourcepub fn status(&mut self) -> impl Future<Output = Result<ExitStatus>>
pub fn status(&mut self) -> impl Future<Output = Result<ExitStatus>>
Executes the command as a child process, waiting for it to finish and collecting its exit status.
By default, stdin, stdout and stderr are inherited from the parent. If any input/output handles are set to a pipe then they will be immediately closed after the child is spawned.
All I/O this child does will be associated with the current default event loop.
The destructor of the future returned by this function will kill
the child if kill_on_drop
is set to true.
Errors
This future will return an error if the child process cannot be spawned or if there is an error while awaiting its status.
On Unix platforms this method will fail with std::io::ErrorKind::WouldBlock
if the system process limit is reached (which includes other applications
running on the system).
Examples
Basic usage:
use tokio::process::Command;
async fn run_ls() -> std::process::ExitStatus {
Command::new("ls")
.status()
.await
.expect("ls command failed to run")
}
sourcepub fn output(&mut self) -> impl Future<Output = Result<Output>>
pub fn output(&mut self) -> impl Future<Output = Result<Output>>
Executes the command as a child process, waiting for it to finish and collecting all of its output.
Note: this method, unlike the standard library, will unconditionally configure the stdout/stderr handles to be pipes, even if they have been previously configured. If this is not desired then the
spawn
method should be used in combination with thewait_with_output
method on child.
This method will return a future representing the collection of the
child process’s stdout/stderr. It will resolve to
the Output
type in the standard library, containing stdout
and
stderr
as Vec<u8>
along with an ExitStatus
representing how the
process exited.
All I/O this child does will be associated with the current default event loop.
The destructor of the future returned by this function will kill
the child if kill_on_drop
is set to true.
Errors
This future will return an error if the child process cannot be spawned or if there is an error while awaiting its status.
On Unix platforms this method will fail with std::io::ErrorKind::WouldBlock
if the system process limit is reached (which includes other applications
running on the system).
Examples
Basic usage:
use tokio::process::Command;
async fn run_ls() {
let output: std::process::Output = Command::new("ls")
.output()
.await
.expect("ls command failed to run");
println!("stderr of ls: {:?}", output.stderr);
}