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use crate::BytesOrWideString; use core::ffi::c_void; use core::fmt; const HEX_WIDTH: usize = 2 + 2 * core::mem::size_of::<usize>(); #[cfg(target_os = "fuchsia")] mod fuchsia; /// A formatter for backtraces. /// /// This type can be used to print a backtrace regardless of where the backtrace /// itself comes from. If you have a `Backtrace` type then its `Debug` /// implementation already uses this printing format. pub struct BacktraceFmt<'a, 'b> { fmt: &'a mut fmt::Formatter<'b>, frame_index: usize, format: PrintFmt, print_path: &'a mut (FnMut(&mut fmt::Formatter, BytesOrWideString) -> fmt::Result + 'b), } /// The styles of printing that we can print #[derive(Copy, Clone, Eq, PartialEq)] pub enum PrintFmt { /// Prints a terser backtrace which ideally only contains relevant information Short, /// Prints a backtrace that contains all possible information Full, #[doc(hidden)] __Nonexhaustive, } impl<'a, 'b> BacktraceFmt<'a, 'b> { /// Create a new `BacktraceFmt` which will write output to the provided /// `fmt`. /// /// The `format` argument will control the style in which the backtrace is /// printed, and the `print_path` argument will be used to print the /// `BytesOrWideString` instances of filenames. This type itself doesn't do /// any printing of filenames, but this callback is required to do so. pub fn new( fmt: &'a mut fmt::Formatter<'b>, format: PrintFmt, print_path: &'a mut (FnMut(&mut fmt::Formatter, BytesOrWideString) -> fmt::Result + 'b), ) -> Self { BacktraceFmt { fmt, frame_index: 0, format, print_path, } } /// Prints a preamble for the backtrace about to be printed. /// /// This is required on some platforms for backtraces to be fully /// sumbolicated later, and otherwise this should just be the first method /// you call after creating a `BacktraceFmt`. pub fn add_context(&mut self) -> fmt::Result { #[cfg(target_os = "fuchsia")] fuchsia::print_dso_context(self.fmt)?; Ok(()) } /// Adds a frame to the backtrace output. /// /// This commit returns an RAII instance of a `BacktraceFrameFmt` which can be used /// to actually print a frame, and on destruction it will increment the /// frame counter. pub fn frame(&mut self) -> BacktraceFrameFmt<'_, 'a, 'b> { BacktraceFrameFmt { fmt: self, symbol_index: 0, } } /// Completes the backtrace output. /// /// This is currently a no-op but is added for future compatibility with /// backtrace formats. pub fn finish(&mut self) -> fmt::Result { // Currently a no-op-- including this hook to allow for future additions. Ok(()) } } /// A formatter for just one frame of a backtrace. /// /// This type is created by the `BacktraceFmt::frame` function. pub struct BacktraceFrameFmt<'fmt, 'a, 'b> { fmt: &'fmt mut BacktraceFmt<'a, 'b>, symbol_index: usize, } impl BacktraceFrameFmt<'_, '_, '_> { /// Prints a `BacktraceFrame` with this frame formatter. /// /// This will recusrively print all `BacktraceSymbol` instances within the /// `BacktraceFrame`. /// /// # Required features /// /// This function requires the `std` feature of the `backtrace` crate to be /// enabled, and the `std` feature is enabled by default. #[cfg(feature = "std")] pub fn backtrace_frame(&mut self, frame: &crate::BacktraceFrame) -> fmt::Result { let symbols = frame.symbols(); for symbol in symbols { self.backtrace_symbol(frame, symbol)?; } if symbols.is_empty() { self.print_raw(frame.ip(), None, None, None)?; } Ok(()) } /// Prints a `BacktraceSymbol` within a `BacktraceFrame`. /// /// # Required features /// /// This function requires the `std` feature of the `backtrace` crate to be /// enabled, and the `std` feature is enabled by default. #[cfg(feature = "std")] pub fn backtrace_symbol( &mut self, frame: &crate::BacktraceFrame, symbol: &crate::BacktraceSymbol, ) -> fmt::Result { self.print_raw( frame.ip(), symbol.name(), // TODO: this isn't great that we don't end up printing anything // with non-utf8 filenames. Thankfully almost everything is utf8 so // this shouldn't be too too bad. symbol .filename() .and_then(|p| Some(BytesOrWideString::Bytes(p.to_str()?.as_bytes()))), symbol.lineno(), )?; Ok(()) } /// Prints a raw traced `Frame` and `Symbol`, typically from within the raw /// callbacks of this crate. pub fn symbol(&mut self, frame: &crate::Frame, symbol: &crate::Symbol) -> fmt::Result { self.print_raw( frame.ip(), symbol.name(), symbol.filename_raw(), symbol.lineno(), )?; Ok(()) } /// Adds a raw frame to the backtrace output. /// /// This method, unlike the previous, takes the raw arguments in case /// they're being source from different locations. Note that this may be /// called multiple times for one frame. pub fn print_raw( &mut self, frame_ip: *mut c_void, symbol_name: Option<crate::SymbolName>, filename: Option<BytesOrWideString>, lineno: Option<u32>, ) -> fmt::Result { // Fuchsia is unable to symbolize within a process so it has a special // format which can be used to symbolize later. Print that instead of // printing addresses in our own format here. if cfg!(target_os = "fuchsia") { self.print_raw_fuchsia(frame_ip)?; } else { self.print_raw_generic(frame_ip, symbol_name, filename, lineno)?; } self.symbol_index += 1; Ok(()) } #[allow(unused_mut)] fn print_raw_generic( &mut self, mut frame_ip: *mut c_void, symbol_name: Option<crate::SymbolName>, filename: Option<BytesOrWideString>, lineno: Option<u32>, ) -> fmt::Result { // No need to print "null" frames, it basically just means that the // system backtrace was a bit eager to trace back super far. if let PrintFmt::Short = self.fmt.format { if frame_ip.is_null() { return Ok(()); } } // To reduce TCB size in Sgx enclave, we do not want to implement symbol // resolution functionality. Rather, we can print the offset of the // address here, which could be later mapped to correct function. #[cfg(all(feature = "std", target_env = "sgx", target_vendor = "fortanix"))] { let image_base = std::os::fortanix_sgx::mem::image_base(); frame_ip = usize::wrapping_sub(frame_ip as usize, image_base as _) as _; } // Print the index of the frame as well as the optional instruction // pointer of the frame. If we're beyond the first symbol of this frame // though we just print appropriate whitespace. if self.symbol_index == 0 { write!(self.fmt.fmt, "{:4}: ", self.fmt.frame_index)?; if let PrintFmt::Full = self.fmt.format { write!(self.fmt.fmt, "{:1$?} - ", frame_ip, HEX_WIDTH)?; } } else { write!(self.fmt.fmt, " ")?; if let PrintFmt::Full = self.fmt.format { write!(self.fmt.fmt, "{:1$}", "", HEX_WIDTH + 3)?; } } // Next up write out the symbol name, using the alternate formatting for // more information if we're a full backtrace. Here we also handle // symbols which don't have a name, match (symbol_name, &self.fmt.format) { (Some(name), PrintFmt::Short) => write!(self.fmt.fmt, "{:#}", name)?, (Some(name), PrintFmt::Full) => write!(self.fmt.fmt, "{}", name)?, (None, _) | (_, PrintFmt::__Nonexhaustive) => write!(self.fmt.fmt, "<unknown>")?, } self.fmt.fmt.write_str("\n")?; // And last up, print out the filename/line number if they're available. if let (Some(file), Some(line)) = (filename, lineno) { self.print_fileline(file, line)?; } Ok(()) } fn print_fileline(&mut self, file: BytesOrWideString, line: u32) -> fmt::Result { // Filename/line are printed on lines under the symbol name, so print // some appropriate whitespace to sort of right-align ourselves. if let PrintFmt::Full = self.fmt.format { write!(self.fmt.fmt, "{:1$}", "", HEX_WIDTH)?; } write!(self.fmt.fmt, " at ")?; // Delegate to our internal callback to print the filename and then // print out the line number. (self.fmt.print_path)(self.fmt.fmt, file)?; write!(self.fmt.fmt, ":{}\n", line)?; Ok(()) } fn print_raw_fuchsia(&mut self, frame_ip: *mut c_void) -> fmt::Result { // We only care about the first symbol of a frame if self.symbol_index == 0 { self.fmt.fmt.write_str("{{{bt:")?; write!(self.fmt.fmt, "{}:{:?}", self.fmt.frame_index, frame_ip)?; self.fmt.fmt.write_str("}}}\n")?; } Ok(()) } } impl Drop for BacktraceFrameFmt<'_, '_, '_> { fn drop(&mut self) { self.fmt.frame_index += 1; } }