// Copyright 2014 The Rust Project Developers. See the COPYRIGHT // file at the top-level directory of this distribution and at // http://rust-lang.org/COPYRIGHT. // // Licensed under the Apache License, Version 2.0 or the MIT license // , at your // option. This file may not be copied, modified, or distributed // except according to those terms. #![cfg_attr(target_os = "nacl", allow(dead_code))] use env; use io::prelude::*; use io; use libc; use str; use sync::atomic::{self, Ordering}; pub use sys::backtrace::write; #[cfg(target_pointer_width = "64")] pub const HEX_WIDTH: usize = 18; #[cfg(target_pointer_width = "32")] pub const HEX_WIDTH: usize = 10; // For now logging is turned off by default, and this function checks to see // whether the magical environment variable is present to see if it's turned on. pub fn log_enabled() -> bool { static ENABLED: atomic::AtomicIsize = atomic::AtomicIsize::new(0); match ENABLED.load(Ordering::SeqCst) { 1 => return false, 2 => return true, _ => {} } let val = match env::var_os("RUST_BACKTRACE") { Some(..) => 2, None => 1, }; ENABLED.store(val, Ordering::SeqCst); val == 2 } // These output functions should now be used everywhere to ensure consistency. pub fn output(w: &mut Write, idx: isize, addr: *mut libc::c_void, s: Option<&[u8]>) -> io::Result<()> { try!(write!(w, " {:2}: {:2$?} - ", idx, addr, HEX_WIDTH)); match s.and_then(|s| str::from_utf8(s).ok()) { Some(string) => try!(demangle(w, string)), None => try!(write!(w, "")), } w.write_all(&['\n' as u8]) } #[allow(dead_code)] pub fn output_fileline(w: &mut Write, file: &[u8], line: libc::c_int, more: bool) -> io::Result<()> { let file = str::from_utf8(file).unwrap_or(""); // prior line: " ##: {:2$} - func" try!(write!(w, " {:3$}at {}:{}", "", file, line, HEX_WIDTH)); if more { try!(write!(w, " <... and possibly more>")); } w.write_all(&['\n' as u8]) } // All rust symbols are in theory lists of "::"-separated identifiers. Some // assemblers, however, can't handle these characters in symbol names. To get // around this, we use C++-style mangling. The mangling method is: // // 1. Prefix the symbol with "_ZN" // 2. For each element of the path, emit the length plus the element // 3. End the path with "E" // // For example, "_ZN4testE" => "test" and "_ZN3foo3barE" => "foo::bar". // // We're the ones printing our backtraces, so we can't rely on anything else to // demangle our symbols. It's *much* nicer to look at demangled symbols, so // this function is implemented to give us nice pretty output. // // Note that this demangler isn't quite as fancy as it could be. We have lots // of other information in our symbols like hashes, version, type information, // etc. Additionally, this doesn't handle glue symbols at all. pub fn demangle(writer: &mut Write, s: &str) -> io::Result<()> { // First validate the symbol. If it doesn't look like anything we're // expecting, we just print it literally. Note that we must handle non-rust // symbols because we could have any function in the backtrace. let mut valid = true; let mut inner = s; if s.len() > 4 && s.starts_with("_ZN") && s.ends_with("E") { inner = &s[3 .. s.len() - 1]; // On Windows, dbghelp strips leading underscores, so we accept "ZN...E" form too. } else if s.len() > 3 && s.starts_with("ZN") && s.ends_with("E") { inner = &s[2 .. s.len() - 1]; } else { valid = false; } if valid { let mut chars = inner.chars(); while valid { let mut i = 0; for c in chars.by_ref() { if c.is_numeric() { i = i * 10 + c as usize - '0' as usize; } else { break } } if i == 0 { valid = chars.next().is_none(); break } else if chars.by_ref().take(i - 1).count() != i - 1 { valid = false; } } } // Alright, let's do this. if !valid { try!(writer.write_all(s.as_bytes())); } else { let mut first = true; while !inner.is_empty() { if !first { try!(writer.write_all(b"::")); } else { first = false; } let mut rest = inner; while rest.char_at(0).is_numeric() { rest = &rest[1..]; } let i: usize = inner[.. (inner.len() - rest.len())].parse().unwrap(); inner = &rest[i..]; rest = &rest[..i]; while !rest.is_empty() { if rest.starts_with("$") { macro_rules! demangle { ($($pat:expr, => $demangled:expr),*) => ({ $(if rest.starts_with($pat) { try!(writer.write_all($demangled)); rest = &rest[$pat.len()..]; } else)* { try!(writer.write_all(rest.as_bytes())); break; } }) } // see src/librustc/back/link.rs for these mappings demangle! ( "$SP$", => b"@", "$BP$", => b"*", "$RF$", => b"&", "$LT$", => b"<", "$GT$", => b">", "$LP$", => b"(", "$RP$", => b")", "$C$", => b",", // in theory we can demangle any Unicode code point, but // for simplicity we just catch the common ones. "$u7e$", => b"~", "$u20$", => b" ", "$u27$", => b"'", "$u5b$", => b"[", "$u5d$", => b"]" ) } else { let idx = match rest.find('$') { None => rest.len(), Some(i) => i, }; try!(writer.write_all(rest[..idx].as_bytes())); rest = &rest[idx..]; } } } } Ok(()) } #[cfg(test)] mod tests { use prelude::v1::*; use sys_common; macro_rules! t { ($a:expr, $b:expr) => ({ let mut m = Vec::new(); sys_common::backtrace::demangle(&mut m, $a).unwrap(); assert_eq!(String::from_utf8(m).unwrap(), $b); }) } #[test] fn demangle() { t!("test", "test"); t!("_ZN4testE", "test"); t!("_ZN4test", "_ZN4test"); t!("_ZN4test1a2bcE", "test::a::bc"); } #[test] fn demangle_dollars() { t!("_ZN4$RP$E", ")"); t!("_ZN8$RF$testE", "&test"); t!("_ZN8$BP$test4foobE", "*test::foob"); t!("_ZN9$u20$test4foobE", " test::foob"); } #[test] fn demangle_many_dollars() { t!("_ZN13test$u20$test4foobE", "test test::foob"); t!("_ZN12test$BP$test4foobE", "test*test::foob"); } #[test] fn demangle_windows() { t!("ZN4testE", "test"); t!("ZN13test$u20$test4foobE", "test test::foob"); t!("ZN12test$RF$test4foobE", "test&test::foob"); } }