// run-pass // ignore-android FIXME #17520 // ignore-emscripten spawning processes is not supported // ignore-openbsd no support for libbacktrace without filename // ignore-sgx no processes // ignore-msvc see #62897 and `backtrace-debuginfo.rs` test // ignore-fuchsia Backtraces not symbolized // compile-flags:-g // compile-flags:-Cstrip=none use std::env; use std::process::{Command, Stdio}; use std::str; #[inline(never)] fn foo() { let _v = vec![1, 2, 3]; if env::var_os("IS_TEST").is_some() { panic!() } } #[inline(never)] fn double() { struct Double; impl Drop for Double { fn drop(&mut self) { panic!("twice") } } let _d = Double; panic!("once"); } fn template(me: &str) -> Command { let mut m = Command::new(me); m.env("IS_TEST", "1") .stdout(Stdio::piped()) .stderr(Stdio::piped()); return m; } fn expected(fn_name: &str) -> String { format!(" backtrace::{}", fn_name) } #[cfg(not(panic = "abort"))] fn contains_verbose_expected(s: &str, fn_name: &str) -> bool { // HACK(eddyb) work around the fact that verbosely demangled stack traces // (from `RUST_BACKTRACE=full`, or, as is the case here, panic-in-panic) // may contain symbols with hashes in them, i.e. `backtrace[...]::`. let prefix = " backtrace"; let suffix = &format!("::{}", fn_name); s.match_indices(prefix).any(|(i, _)| { s[i + prefix.len()..] .trim_start_matches('[') .trim_start_matches(char::is_alphanumeric) .trim_start_matches(']') .starts_with(suffix) }) } fn runtest(me: &str) { // Make sure that the stack trace is printed let p = template(me).arg("fail").env("RUST_BACKTRACE", "1").spawn().unwrap(); let out = p.wait_with_output().unwrap(); assert!(!out.status.success()); let s = str::from_utf8(&out.stderr).unwrap(); assert!(s.contains("stack backtrace") && s.contains(&expected("foo")), "bad output: {}", s); assert!(s.contains(" 0:"), "the frame number should start at 0"); // Make sure the stack trace is *not* printed // (Remove RUST_BACKTRACE from our own environment, in case developer // is running `make check` with it on.) let p = template(me).arg("fail").env_remove("RUST_BACKTRACE").spawn().unwrap(); let out = p.wait_with_output().unwrap(); assert!(!out.status.success()); let s = str::from_utf8(&out.stderr).unwrap(); assert!(!s.contains("stack backtrace") && !s.contains(&expected("foo")), "bad output2: {}", s); // Make sure the stack trace is *not* printed // (RUST_BACKTRACE=0 acts as if it were unset from our own environment, // in case developer is running `make check` with it set.) let p = template(me).arg("fail").env("RUST_BACKTRACE","0").spawn().unwrap(); let out = p.wait_with_output().unwrap(); assert!(!out.status.success()); let s = str::from_utf8(&out.stderr).unwrap(); assert!(!s.contains("stack backtrace") && !s.contains(" - foo"), "bad output3: {}", s); #[cfg(not(panic = "abort"))] { // Make sure a stack trace is printed let p = template(me).arg("double-fail").env("RUST_BACKTRACE","0").spawn().unwrap(); let out = p.wait_with_output().unwrap(); assert!(!out.status.success()); let s = str::from_utf8(&out.stderr).unwrap(); // loosened the following from double::h to double:: due to // spurious failures on mac, 32bit, optimized assert!( s.contains("stack backtrace") && s.contains("panic in a destructor during cleanup") && contains_verbose_expected(s, "double"), "bad output3: {}", s ); // Make sure it's only one stack trace. assert_eq!(s.split("stack backtrace").count(), 2); // Make sure a stack trace isn't printed too many times // even with RUST_BACKTRACE=1. It should be printed twice. let p = template(me).arg("double-fail") .env("RUST_BACKTRACE", "1").spawn().unwrap(); let out = p.wait_with_output().unwrap(); assert!(!out.status.success()); let s = str::from_utf8(&out.stderr).unwrap(); let mut i = 0; for _ in 0..2 { i += s[i + 10..].find("stack backtrace").unwrap() + 10; } assert!(s[i + 10..].find("stack backtrace").is_none(), "bad output4: {}", s); } } fn main() { let args: Vec = env::args().collect(); if args.len() >= 2 && args[1] == "fail" { foo(); } else if args.len() >= 2 && args[1] == "double-fail" { double(); } else { runtest(&args[0]); } }