watchexec/src/process.rs

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#![allow(unsafe_code)]
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use crate::error::Result;
use crate::pathop::PathOp;
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use std::collections::{HashMap, HashSet};
use std::path::PathBuf;
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pub fn spawn(cmd: &[String], updated_paths: &[PathOp], no_shell: bool) -> Result<Process> {
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self::imp::Process::new(cmd, updated_paths, no_shell).map_err(|e| e.into())
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}
pub use self::imp::Process;
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/*
fn needs_wrapping(s: &String) -> bool {
s.contains(|ch| match ch {
' ' | '\t' | '\'' | '"' => true,
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_ => false,
})
}
#[cfg(target_family = "unix")]
fn wrap_in_quotes(s: &String) -> String {
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format!(
"'{}'",
if s.contains('\'') {
s.replace('\'', "'\"'\"'")
} else {
s.clone()
}
)
}
#[cfg(target_family = "windows")]
fn wrap_in_quotes(s: &String) -> String {
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format!(
"\"{}\"",
if s.contains('"') {
s.replace('"', "\"\"")
} else {
s.clone()
}
)
}
fn wrap_commands(cmd: &Vec<String>) -> Vec<String> {
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cmd.iter()
.map(|fragment| {
if needs_wrapping(fragment) {
wrap_in_quotes(fragment)
} else {
fragment.clone()
}
})
.collect()
}
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*/
#[cfg(target_family = "unix")]
mod imp {
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//use super::wrap_commands;
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use crate::pathop::PathOp;
use crate::signal::Signal;
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use nix::libc::*;
use nix::{self, Error};
use std::io::{self, Result};
use std::process::Command;
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use std::sync::*;
pub struct Process {
pgid: pid_t,
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lock: Mutex<bool>,
cvar: Condvar,
}
fn from_nix_error(err: nix::Error) -> io::Error {
match err {
Error::Sys(errno) => io::Error::from_raw_os_error(errno as i32),
Error::InvalidPath => io::Error::new(io::ErrorKind::InvalidInput, err),
_ => io::Error::new(io::ErrorKind::Other, err),
}
}
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#[allow(clippy::mutex_atomic)]
impl Process {
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pub fn new(cmd: &[String], updated_paths: &[PathOp], no_shell: bool) -> Result<Self> {
use nix::unistd::*;
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use std::convert::TryInto;
use std::os::unix::process::CommandExt;
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// Assemble command to run.
// This is either the first argument from cmd (if no_shell was given) or "sh".
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// Using "sh -c" gives us features like supporting pipes and redirects,
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// but is a little less performant and can cause trouble when using custom signals
// (e.g. --signal SIGHUP)
let mut command = if no_shell {
let (head, tail) = cmd.split_first().unwrap();
let mut command = Command::new(head);
command.args(tail);
command
} else {
let mut command = Command::new("sh");
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//command.arg("-c").arg(wrap_commands(cmd).join(" "));
command.arg("-c").arg(cmd.join(" "));
command
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};
debug!("Assembled command {:?}", command);
let command_envs = super::collect_path_env_vars(updated_paths);
for &(ref name, ref val) in &command_envs {
command.env(name, val);
}
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unsafe {
command.pre_exec(|| setsid().map_err(from_nix_error).map(|_| ()));
}
command.spawn().and_then(|p| {
Ok(Self {
pgid: p.id().try_into().unwrap(),
lock: Mutex::new(false),
cvar: Condvar::new(),
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})
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})
}
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pub fn reap(&self) {
use nix::sys::wait::*;
use nix::unistd::Pid;
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let mut finished = true;
loop {
match waitpid(Pid::from_raw(-self.pgid), Some(WaitPidFlag::WNOHANG)) {
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Ok(WaitStatus::Exited(_, _)) | Ok(WaitStatus::Signaled(_, _, _)) => {}
Ok(_) => {
finished = false;
break;
}
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Err(_) => break,
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}
}
if finished {
let mut done = self.lock.lock().unwrap();
*done = true;
self.cvar.notify_one();
}
}
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pub fn signal(&self, signal: Signal) {
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use crate::signal::ConvertToLibc;
let signo = signal.convert_to_libc();
debug!("Sending {:?} (int: {}) to child process", signal, signo);
self.c_signal(signo);
}
fn c_signal(&self, sig: c_int) {
extern "C" {
fn killpg(pgrp: pid_t, sig: c_int) -> c_int;
}
unsafe {
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killpg(self.pgid, sig);
}
}
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pub fn wait(&self) {
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let mut done = self.lock.lock().unwrap();
while !*done {
done = self.cvar.wait(done).unwrap();
}
}
}
}
#[cfg(target_family = "windows")]
mod imp {
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//use super::wrap_commands;
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use crate::pathop::PathOp;
use crate::signal::Signal;
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use kernel32::*;
use std::io;
use std::io::Result;
use std::mem;
use std::process::Command;
use std::ptr;
use winapi::*;
pub struct Process {
job: HANDLE,
completion_port: HANDLE,
}
#[repr(C)]
struct JOBOBJECT_ASSOCIATE_COMPLETION_PORT {
completion_key: PVOID,
completion_port: HANDLE,
}
impl Process {
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pub fn new(cmd: &Vec<String>, updated_paths: &[PathOp], no_shell: bool) -> Result<Process> {
use std::os::windows::io::IntoRawHandle;
use std::os::windows::process::CommandExt;
fn last_err() -> io::Error {
io::Error::last_os_error()
}
let job = unsafe { CreateJobObjectW(0 as *mut _, 0 as *const _) };
if job.is_null() {
panic!("failed to create job object: {}", last_err());
}
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let completion_port =
unsafe { CreateIoCompletionPort(INVALID_HANDLE_VALUE, ptr::null_mut(), 0, 1) };
if job.is_null() {
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panic!(
"unable to create IO completion port for job: {}",
last_err()
);
}
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let mut associate_completion: JOBOBJECT_ASSOCIATE_COMPLETION_PORT =
unsafe { mem::zeroed() };
associate_completion.completion_key = job;
associate_completion.completion_port = completion_port;
unsafe {
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let r = SetInformationJobObject(
job,
JobObjectAssociateCompletionPortInformation,
&mut associate_completion as *mut _ as LPVOID,
mem::size_of_val(&associate_completion) as DWORD,
);
if r == 0 {
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panic!(
"failed to associate completion port with job: {}",
last_err()
);
}
}
let mut info: JOBOBJECT_EXTENDED_LIMIT_INFORMATION = unsafe { mem::zeroed() };
info.BasicLimitInformation.LimitFlags = JOB_OBJECT_LIMIT_KILL_ON_JOB_CLOSE;
let r = unsafe {
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SetInformationJobObject(
job,
JobObjectExtendedLimitInformation,
&mut info as *mut _ as LPVOID,
mem::size_of_val(&info) as DWORD,
)
};
if r == 0 {
panic!("failed to set job info: {}", last_err());
}
let mut command;
if no_shell {
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let (first, rest) = cmd.split_first().unwrap();
command = Command::new(first);
command.args(rest);
} else {
command = Command::new("cmd.exe");
command.arg("/C");
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//command.arg(wrap_commands(cmd).join(" "));
command.arg(cmd.join(" "));
}
command.creation_flags(CREATE_SUSPENDED);
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debug!("Assembled command {:?}", command);
let command_envs = super::collect_path_env_vars(updated_paths);
for &(ref name, ref val) in &command_envs {
command.env(name, val);
}
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command.spawn().and_then(|p| {
let handle = p.into_raw_handle();
let r = unsafe { AssignProcessToJobObject(job, handle) };
if r == 0 {
panic!("failed to add to job object: {}", last_err());
}
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resume_threads(handle);
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Ok(Process {
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job,
completion_port,
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})
})
}
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pub fn reap(&self) {}
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pub fn signal(&self, _signal: Signal) {
unsafe {
let _ = TerminateJobObject(self.job, 1);
}
}
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pub fn wait(&self) {
unsafe {
loop {
let mut code: DWORD = 0;
let mut key: ULONG_PTR = 0;
let mut overlapped: LPOVERLAPPED = mem::uninitialized();
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GetQueuedCompletionStatus(
self.completion_port,
&mut code,
&mut key,
&mut overlapped,
INFINITE,
);
if code == JOB_OBJECT_MSG_ACTIVE_PROCESS_ZERO && (key as HANDLE) == self.job {
break;
}
}
}
}
}
impl Drop for Process {
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fn drop(&mut self) {
unsafe {
let _ = CloseHandle(self.job);
let _ = CloseHandle(self.completion_port);
}
}
}
unsafe impl Send for Process {}
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unsafe impl Sync for Process {}
// This is pretty terrible, but it's either this or we re-implement all of Rust's std::process just to get at PROCESS_INFORMATION
fn resume_threads(child_process: HANDLE) {
unsafe {
let child_id = GetProcessId(child_process);
let h = CreateToolhelp32Snapshot(TH32CS_SNAPTHREAD, 0);
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let mut entry = THREADENTRY32 {
dwSize: 28,
cntUsage: 0,
th32ThreadID: 0,
th32OwnerProcessID: 0,
tpBasePri: 0,
tpDeltaPri: 0,
dwFlags: 0,
};
let mut result = Thread32First(h, &mut entry);
while result != 0 {
if entry.th32OwnerProcessID == child_id {
let thread_handle = OpenThread(0x0002, 0, entry.th32ThreadID);
ResumeThread(thread_handle);
CloseHandle(thread_handle);
}
result = Thread32Next(h, &mut entry);
}
CloseHandle(h);
}
}
}
/// Collect `PathOp` details into op-categories to pass onto the exec'd command as env-vars
///
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/// `WRITTEN` -> `notify::ops::WRITE`, `notify::ops::CLOSE_WRITE`
/// `META_CHANGED` -> `notify::ops::CHMOD`
/// `REMOVED` -> `notify::ops::REMOVE`
/// `CREATED` -> `notify::ops::CREATE`
/// `RENAMED` -> `notify::ops::RENAME`
fn collect_path_env_vars(pathops: &[PathOp]) -> Vec<(String, String)> {
#[cfg(target_family = "unix")]
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const ENV_SEP: &str = ":";
#[cfg(not(target_family = "unix"))]
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const ENV_SEP: &str = ";";
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let mut by_op = HashMap::new(); // Paths as `String`s collected by `notify::op`
let mut all_pathbufs = HashSet::new(); // All unique `PathBuf`s
for pathop in pathops {
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if let Some(op) = pathop.op {
// ignore pathops that don't have a `notify::op` set
if let Some(s) = pathop.path.to_str() {
// ignore invalid utf8 paths
all_pathbufs.insert(pathop.path.clone());
let e = by_op.entry(op).or_insert_with(Vec::new);
e.push(s.to_owned());
}
}
}
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let mut vars = Vec::new();
// Only break off a common path if we have more than one unique path,
// otherwise we end up with a `COMMON_PATH` being set and other vars
// being present but empty.
let common_path = if all_pathbufs.len() > 1 {
let all_pathbufs: Vec<PathBuf> = all_pathbufs.into_iter().collect();
get_longest_common_path(&all_pathbufs)
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} else {
None
};
if let Some(ref common_path) = common_path {
vars.push(("WATCHEXEC_COMMON_PATH".to_string(), common_path.to_string()));
}
for (op, paths) in by_op {
let key = match op {
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op if PathOp::is_create(op) => "WATCHEXEC_CREATED_PATH",
op if PathOp::is_remove(op) => "WATCHEXEC_REMOVED_PATH",
op if PathOp::is_rename(op) => "WATCHEXEC_RENAMED_PATH",
op if PathOp::is_write(op) => "WATCHEXEC_WRITTEN_PATH",
op if PathOp::is_meta(op) => "WATCHEXEC_META_CHANGED_PATH",
_ => continue, // ignore `notify::op::RESCAN`s
};
let paths = if let Some(ref common_path) = common_path {
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paths
.iter()
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.map(|path_str| path_str.trim_start_matches(common_path).to_string())
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.collect::<Vec<_>>()
} else {
paths
};
vars.push((key.to_string(), paths.as_slice().join(ENV_SEP)));
}
vars
}
fn get_longest_common_path(paths: &[PathBuf]) -> Option<String> {
match paths.len() {
0 => return None,
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1 => return paths[0].to_str().map(ToString::to_string),
_ => {}
};
let mut longest_path: Vec<_> = paths[0].components().collect();
for path in &paths[1..] {
let mut greatest_distance = 0;
for component_pair in path.components().zip(longest_path.iter()) {
if component_pair.0 != *component_pair.1 {
break;
}
greatest_distance += 1;
}
if greatest_distance != longest_path.len() {
longest_path.truncate(greatest_distance);
}
}
let mut result = PathBuf::new();
for component in longest_path {
result.push(component.as_os_str());
}
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result.to_str().map(ToString::to_string)
}
#[cfg(test)]
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#[cfg(target_family = "unix")]
mod tests {
use notify;
use pathop::PathOp;
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use std::collections::HashSet;
use std::path::PathBuf;
use super::collect_path_env_vars;
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use super::get_longest_common_path;
use super::spawn;
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//use super::wrap_commands;
#[test]
fn test_start() {
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let _ = spawn(&vec!["echo".into(), "hi".into()], &[], true);
}
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/*
#[test]
fn wrap_commands_that_have_whitespace() {
assert_eq!(
wrap_commands(&vec!["echo".into(), "hello world".into()]),
vec!["echo".into(), "'hello world'".into()] as Vec<String>
);
}
#[test]
fn wrap_commands_that_have_long_whitespace() {
assert_eq!(
wrap_commands(&vec!["echo".into(), "hello world".into()]),
vec!["echo".into(), "'hello world'".into()] as Vec<String>
);
}
#[test]
fn wrap_commands_that_have_single_quotes() {
assert_eq!(
wrap_commands(&vec!["echo".into(), "hello ' world".into()]),
vec!["echo".into(), "'hello '\"'\"' world'".into()] as Vec<String>
);
assert_eq!(
wrap_commands(&vec!["echo".into(), "hello'world".into()]),
vec!["echo".into(), "'hello'\"'\"'world'".into()] as Vec<String>
);
}
#[test]
fn wrap_commands_that_have_double_quotes() {
assert_eq!(
wrap_commands(&vec!["echo".into(), "hello \" world".into()]),
vec!["echo".into(), "'hello \" world'".into()] as Vec<String>
);
assert_eq!(
wrap_commands(&vec!["echo".into(), "hello\"world".into()]),
vec!["echo".into(), "'hello\"world'".into()] as Vec<String>
);
}
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*/
#[test]
fn longest_common_path_should_return_correct_value() {
let single_path = vec![PathBuf::from("/tmp/random/")];
let single_result = get_longest_common_path(&single_path).unwrap();
assert_eq!(single_result, "/tmp/random/");
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let common_paths = vec![
PathBuf::from("/tmp/logs/hi"),
PathBuf::from("/tmp/logs/bye"),
PathBuf::from("/tmp/logs/bye"),
PathBuf::from("/tmp/logs/fly"),
];
let common_result = get_longest_common_path(&common_paths).unwrap();
assert_eq!(common_result, "/tmp/logs");
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let diverging_paths = vec![PathBuf::from("/tmp/logs/hi"), PathBuf::from("/var/logs/hi")];
let diverging_result = get_longest_common_path(&diverging_paths).unwrap();
assert_eq!(diverging_result, "/");
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let uneven_paths = vec![
PathBuf::from("/tmp/logs/hi"),
PathBuf::from("/tmp/logs/"),
PathBuf::from("/tmp/logs/bye"),
];
let uneven_result = get_longest_common_path(&uneven_paths).unwrap();
assert_eq!(uneven_result, "/tmp/logs");
}
#[test]
fn pathops_collect_to_env_vars() {
let pathops = vec![
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PathOp::new(
&PathBuf::from("/tmp/logs/hi"),
Some(notify::op::CREATE),
None,
),
PathOp::new(
&PathBuf::from("/tmp/logs/hey/there"),
Some(notify::op::CREATE),
None,
),
PathOp::new(
&PathBuf::from("/tmp/logs/bye"),
Some(notify::op::REMOVE),
None,
),
];
let expected_vars = vec![
("WATCHEXEC_COMMON_PATH".to_string(), "/tmp/logs".to_string()),
("WATCHEXEC_REMOVED_PATH".to_string(), "/bye".to_string()),
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(
"WATCHEXEC_CREATED_PATH".to_string(),
"/hi:/hey/there".to_string(),
),
];
let vars = collect_path_env_vars(&pathops);
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assert_eq!(
vars.iter().collect::<HashSet<_>>(),
expected_vars.iter().collect::<HashSet<_>>()
);
}
}
#[cfg(test)]
#[cfg(target_family = "windows")]
mod tests {
use super::spawn;
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//use super::wrap_commands;
#[test]
fn test_start() {
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let _ = spawn(&vec!["echo".into(), "hi".into()], &[], true);
}
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/*
#[test]
fn wrap_commands_that_have_whitespace() {
assert_eq!(
wrap_commands(&vec!["echo".into(), "hello world".into()]),
vec!["echo".into(), "\"hello world\"".into()] as Vec<String>
);
}
#[test]
fn wrap_commands_that_have_long_whitespace() {
assert_eq!(
wrap_commands(&vec!["echo".into(), "hello world".into()]),
vec!["echo".into(), "\"hello world\"".into()] as Vec<String>
);
}
#[test]
fn wrap_commands_that_have_single_quotes() {
assert_eq!(
wrap_commands(&vec!["echo".into(), "hello ' world".into()]),
vec!["echo".into(), "\"hello ' world\"".into()] as Vec<String>
);
assert_eq!(
wrap_commands(&vec!["echo".into(), "hello'world".into()]),
vec!["echo".into(), "\"hello'world\"".into()] as Vec<String>
);
}
#[test]
fn wrap_commands_that_have_double_quotes() {
assert_eq!(
wrap_commands(&vec!["echo".into(), "hello \" world".into()]),
vec!["echo".into(), "\"hello \"\" world\"".into()] as Vec<String>
);
assert_eq!(
wrap_commands(&vec!["echo".into(), "hello\"world".into()]),
vec!["echo".into(), "\"hello\"\"world\"".into()] as Vec<String>
);
}
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*/
}