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|
use std::env;
use std::fs::File;
use std::io::prelude::*;
use std::process::Command;
use std::sync::atomic::{AtomicBool, Ordering};
use std::sync::mpsc;
use std::sync::Arc;
use std::thread;
use jobserver::Client;
macro_rules! t {
($e:expr) => {
match $e {
Ok(e) => e,
Err(e) => panic!("{} failed with {}", stringify!($e), e),
}
};
}
#[test]
fn server_smoke() {
let c = t!(Client::new(1));
drop(c.acquire().unwrap());
drop(c.acquire().unwrap());
}
#[test]
fn server_multiple() {
let c = t!(Client::new(2));
let a = c.acquire().unwrap();
let b = c.acquire().unwrap();
drop((a, b));
}
#[test]
fn server_available() {
let c = t!(Client::new(10));
assert_eq!(c.available().unwrap(), 10);
let a = c.acquire().unwrap();
assert_eq!(c.available().unwrap(), 9);
drop(a);
assert_eq!(c.available().unwrap(), 10);
}
#[test]
fn server_none_available() {
let c = t!(Client::new(2));
assert_eq!(c.available().unwrap(), 2);
let a = c.acquire().unwrap();
assert_eq!(c.available().unwrap(), 1);
let b = c.acquire().unwrap();
assert_eq!(c.available().unwrap(), 0);
drop(a);
assert_eq!(c.available().unwrap(), 1);
drop(b);
assert_eq!(c.available().unwrap(), 2);
}
#[test]
fn server_blocks() {
let c = t!(Client::new(1));
let a = c.acquire().unwrap();
let hit = Arc::new(AtomicBool::new(false));
let hit2 = hit.clone();
let (tx, rx) = mpsc::channel();
let t = thread::spawn(move || {
tx.send(()).unwrap();
let _b = c.acquire().unwrap();
hit2.store(true, Ordering::SeqCst);
});
rx.recv().unwrap();
assert!(!hit.load(Ordering::SeqCst));
drop(a);
t.join().unwrap();
assert!(hit.load(Ordering::SeqCst));
}
#[test]
fn make_as_a_single_thread_client() {
let c = t!(Client::new(1));
let td = tempfile::tempdir().unwrap();
let prog = env::var("MAKE").unwrap_or_else(|_| "make".to_string());
let mut cmd = Command::new(prog);
cmd.current_dir(td.path());
t!(t!(File::create(td.path().join("Makefile"))).write_all(
b"
all: foo bar
foo:
\techo foo
bar:
\techo bar
"
));
// The jobserver protocol means that the `make` process itself "runs with a
// token", so we acquire our one token to drain the jobserver, and this
// should mean that `make` itself never has a second token available to it.
let _a = c.acquire();
c.configure(&mut cmd);
let output = t!(cmd.output());
println!(
"\n\t=== stderr\n\t\t{}",
String::from_utf8_lossy(&output.stderr).replace("\n", "\n\t\t")
);
println!(
"\t=== stdout\n\t\t{}",
String::from_utf8_lossy(&output.stdout).replace("\n", "\n\t\t")
);
assert!(output.status.success());
assert!(output.stderr.is_empty());
let stdout = String::from_utf8_lossy(&output.stdout).replace("\r\n", "\n");
let a = "\
echo foo
foo
echo bar
bar
";
let b = "\
echo bar
bar
echo foo
foo
";
assert!(stdout == a || stdout == b);
}
#[test]
fn make_as_a_multi_thread_client() {
let c = t!(Client::new(1));
let td = tempfile::tempdir().unwrap();
let prog = env::var("MAKE").unwrap_or_else(|_| "make".to_string());
let mut cmd = Command::new(prog);
cmd.current_dir(td.path());
t!(t!(File::create(td.path().join("Makefile"))).write_all(
b"
all: foo bar
foo:
\techo foo
bar:
\techo bar
"
));
// We're leaking one extra token to `make` sort of violating the makefile
// jobserver protocol. It has the desired effect though.
c.configure(&mut cmd);
let output = t!(cmd.output());
println!(
"\n\t=== stderr\n\t\t{}",
String::from_utf8_lossy(&output.stderr).replace("\n", "\n\t\t")
);
println!(
"\t=== stdout\n\t\t{}",
String::from_utf8_lossy(&output.stdout).replace("\n", "\n\t\t")
);
assert!(output.status.success());
}
#[test]
fn zero_client() {
let client = t!(Client::new(0));
let (tx, rx) = mpsc::channel();
let helper = client
.into_helper_thread(move |a| drop(tx.send(a)))
.unwrap();
helper.request_token();
helper.request_token();
for _ in 0..1000 {
assert!(rx.try_recv().is_err());
}
}
|
