# shell-exec
This Rust crate simplifies the execution of CLI programs by a Rust programs. It exports two macros: `s!` and `exec!`. In general, you want to use macro `s!` to execute shell commands. We export `exec!` for backward compatibility with some existing code.
## Macro `exec!`
Macro `exec!` takes three agruments: `exec!(error_id, verbose, cmd)`. Argument `error_id` is just a unique string literal that is printed in case of an error. I typically generate this string literal as follows:
```bash
echo "\"$RANDOM-$RANDOM-$RANDOM\", "
```
and paste the output as the first argument of macro `exec!` (or, even better the first argument of `s!`). This simplifies finding the code that issued a certain error message.
Argument `verbose` must be of type `bool`. If it is `true`, the command that will be executed is first printed to `stderr`.
On success, `exec!` returns the `stdout` of the executed command. If the execution fails, the macro returns an `Err` of type `ShellError`. One can handle the errors using the question mark operator:
```rust
exec!("10874-26631-30577", false, "ls")?`
```
The `cmd` argument is a `format` sting, i.e., one can use positional and named arguments as well as variable names:
```rust
let path="/tmp";
exec!("17068-22053-696", "ls {path}")`
```
As for macro `format!`, macro `exec!` supports positional arguments:
```rust
// example: with position argument "/"
println!("ls of {path} is {}", exec!("15911-12192-19189", false, "ls {}", "/")?);
```
`exec!` also supports named arguments:
```rust
// example: with named argument p="/tmp"
println!("ls of {path} is {}", exec!("15911-12192-19189", false, "ls {p}", p="/tmp")?);
```
## Macro `s!`
Macro `s!` is similar to macro `exec!`: `s!` uses crate `log` to issue log output instead of `eprintln!`.
Hence, it does not have a flag `verbose`. Moreover, it
- logs the executed command with all arguments at `info` level,
- logs the output, i.e., the `stdout` of the command, at `debug` level, and
- logs errors, i.e., the `stderr` of the command, at `error` level.
On success of the executed command, `sh!` returns the `stdout` of the executed command wrapped in `Ok(stdout)`.
## Example
You can use macro `s!` as follows:
```rust
// s! the command is executed and the output is returned
// s! uses the logger to print the command if the log level is set to info
// s! uses the logger to print the output of the command if the log level is set to debug
s!("14526-30026-17058", "echo Hello World")?;
```
On error, `s!`, logs an error that includes:
- the command line that failed,
- the error ID,
- the stdout,
- the stderr,
You can combine macro `s!` with crate `anyhow` to add more context to error messages.
```Rust
use sh_exec::*;
// show how to use together with anyhow
use anyhow::*;
fn main() -> Result<()> {
env_logger::init();
// example: ls of /tmp
let path="/etc";
println!("- ls of {path} is {}", exec!("17068-22053-696", true, "ls {path}").with_context(|| format!("Very unexpected - ls failed on {path}"))?);
// example: with position argument "/"
println!("ls of {path} is {}", s!("15911-12192-19189", "ls {}", "/").with_context(|| "Very unexpected - ls failed on /".to_string())?);
// Explicit error handling
match s!("28328-2323-3278", "nonexistent_command").with_context(|| "Failed to execute command 'nonexistent_command'".to_string()) {
std::result::Result::Ok(output) => println!("Unexpected success: {}", output),
Err(e) => println!("Expected error: {}", e),
}
Ok(())
}
```
## Macro `a!`
Macro `a!` is similar to macro `s!` but it has a timeout argument. If the command does not
finish in time, a timeout is returned.
Example:
```Rust
// macro a! provides timeouts and it will return with a Timeout error
// if the command does not finish in time
let ten_secs = time::Duration::from_secs(3);
println!("sleep = {:?}", a!("14526-30888026-777", ten_secs, "sleep 2; echo Hello World"));
```
## `rust-script` Example
Here is a simple program that uses this crate. Note that you need to define dependency `sh-exec` to import this crate and additionally dependencies `colored`, and `log` in your Cargo.toml:
```toml
[dependencies]
sh-exec = "*"
colored = "*"
log = "*"
```
and in your Rust program, you import the macros as follows:
```Rust
use sh_exec::*;
```
You can use this crate also from within Rust scripts:
```rust
#!/usr/bin/env rust-script
//! ```cargo
//! [package]
//! name = "example"
//! edition = "2024"
//!
//! [dependencies]
//! sh-exec = "*"
//! colored = "*"
//! log = "*"
//! ```
use sh_exec::*;
fn main() {
trap_panics_and_errors!("18428-30925-25863", || {
// example: ls of /tmp
let path="/etc";
exec!("17068-22053-696", true, "ls -d {path}")?;
// example: with position argument "/"
println!("ls -d of / is {}", exec!("15911-12192-19189", false, "ls -d {}", "/")?);
// example: with named argument p="/tmp"
println!("ls of /etc/hosts is {}", s!("15911-12192-19189", "ls {p}", p="/etc/hosts")?);
// Test successful command
let output = exec!("28328-2323-44343", true, "bash -c 'echo Hello World'")?;
println!("Output: {}", output);
// Test failing command
match exec!("28328-2323-3278", true, "nonexistent_command") {
Ok(output) => println!("Unexpected success: {}", output),
Err(e) => println!("Expected error: {}", e),
}
// expecting to fail:
exec!( "28328-2323-333", true, "nonexistent_command arg1 arg2")?;
// We need to help Rust regarding the error type
Ok::<(), Box<dyn Error>>(())
});
}
```
Executing the code as a `rust-script` (see file `example.rs`), we get the following output:
```bash
$ ./example.rs
exec!(17068-22053-696,ls -d /etc)
ls -d of / is /
ls of /etc/hosts is /etc/hosts
exec!(28328-2323-44343,bash -c 'echo Hello World')
Output: Hello World
exec!(28328-2323-3278,nonexistent_command)
Expected error: Command failed: 'nonexistent_command'
sh_exec Exit code: 127
sh_exec Error ID: 28328-2323-3278
Standard error:
sh: 1: nonexistent_command: not found
exec!(28328-2323-333,nonexistent_command arg1 arg2)
```