aarch64/usr/lib/rustlib/src/rust/library/backtrace/src/backtrace/mod.rs - manifest_repos/toolchain - Git at Google

 use core::ffi::c_void;
 use core::fmt;

 /// Inspects the current call-stack, passing all active frames into the closure
 /// provided to calculate a stack trace.
 ///
 /// This function is the workhorse of this library in calculating the stack
 /// traces for a program. The given closure `cb` is yielded instances of a
 /// `Frame` which represent information about that call frame on the stack. The
 /// closure is yielded frames in a top-down fashion (most recently called
 /// functions first).
 ///
 /// The closure's return value is an indication of whether the backtrace should
 /// continue. A return value of `false` will terminate the backtrace and return
 /// immediately.
 ///
 /// Once a `Frame` is acquired you will likely want to call `backtrace::resolve`
 /// to convert the `ip` (instruction pointer) or symbol address to a `Symbol`
 /// through which the name and/or filename/line number can be learned.
 ///
 /// Note that this is a relatively low-level function and if you'd like to, for
 /// example, capture a backtrace to be inspected later, then the `Backtrace`
 /// type may be more appropriate.
 ///
 /// # Required features
 ///
 /// This function requires the `std` feature of the `backtrace` crate to be
 /// enabled, and the `std` feature is enabled by default.
 ///
 /// # Panics
 ///
 /// This function strives to never panic, but if the `cb` provided panics then
 /// some platforms will force a double panic to abort the process. Some
 /// platforms use a C library which internally uses callbacks which cannot be
 /// unwound through, so panicking from `cb` may trigger a process abort.
 ///
 /// # Example
 ///
 /// ```
 /// extern crate backtrace;
 ///
 /// fn main() {
 ///     backtrace::trace(|frame| {
 ///         // ...
 ///
 ///         true // continue the backtrace
 ///     });
 /// }
 /// ```
 #[cfg(feature = "std")]
 pub fn trace<F: FnMut(&Frame) -> bool>(cb: F) {
     let _guard = crate::lock::lock();
     unsafe { trace_unsynchronized(cb) }
 }

 /// Same as `trace`, only unsafe as it's unsynchronized.
 ///
 /// This function does not have synchronization guarantees but is available
 /// when the `std` feature of this crate isn't compiled in. See the `trace`
 /// function for more documentation and examples.
 ///
 /// # Panics
 ///
 /// See information on `trace` for caveats on `cb` panicking.
 pub unsafe fn trace_unsynchronized<F: FnMut(&Frame) -> bool>(mut cb: F) {
     trace_imp(&mut cb)
 }

 /// A trait representing one frame of a backtrace, yielded to the `trace`
 /// function of this crate.
 ///
 /// The tracing function's closure will be yielded frames, and the frame is
 /// virtually dispatched as the underlying implementation is not always known
 /// until runtime.
 #[derive(Clone)]
 pub struct Frame {
     pub(crate) inner: FrameImp,
 }

 impl Frame {
     /// Returns the current instruction pointer of this frame.
     ///
     /// This is normally the next instruction to execute in the frame, but not
     /// all implementations list this with 100% accuracy (but it's generally
     /// pretty close).
     ///
     /// It is recommended to pass this value to `backtrace::resolve` to turn it
     /// into a symbol name.
     pub fn ip(&self) -> *mut c_void {
         self.inner.ip()
     }

     /// Returns the current stack pointer of this frame.
     ///
     /// In the case that a backend cannot recover the stack pointer for this
     /// frame, a null pointer is returned.
     pub fn sp(&self) -> *mut c_void {
         self.inner.sp()
     }

     /// Returns the starting symbol address of the frame of this function.
     ///
     /// This will attempt to rewind the instruction pointer returned by `ip` to
     /// the start of the function, returning that value. In some cases, however,
     /// backends will just return `ip` from this function.
     ///
     /// The returned value can sometimes be used if `backtrace::resolve` failed
     /// on the `ip` given above.
     pub fn symbol_address(&self) -> *mut c_void {
         self.inner.symbol_address()
     }

     /// Returns the base address of the module to which the frame belongs.
     pub fn module_base_address(&self) -> Option<*mut c_void> {
         self.inner.module_base_address()
     }
 }

 impl fmt::Debug for Frame {
     fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
         f.debug_struct("Frame")
             .field("ip", &self.ip())
             .field("symbol_address", &self.symbol_address())
             .finish()
     }
 }

 cfg_if::cfg_if! {
     // This needs to come first, to ensure that
     // Miri takes priority over the host platform
     if #[cfg(miri)] {
         pub(crate) mod miri;
         use self::miri::trace as trace_imp;
         pub(crate) use self::miri::Frame as FrameImp;
     } else if #[cfg(
         any(
             all(
                 unix,
                 not(target_os = "emscripten"),
                 not(all(target_os = "ios", target_arch = "arm")),
             ),
             all(
                 target_env = "sgx",
                 target_vendor = "fortanix",
             ),
         )
     )] {
         mod libunwind;
         use self::libunwind::trace as trace_imp;
         pub(crate) use self::libunwind::Frame as FrameImp;
     } else if #[cfg(all(windows, not(target_vendor = "uwp")))] {
         mod dbghelp;
         use self::dbghelp::trace as trace_imp;
         pub(crate) use self::dbghelp::Frame as FrameImp;
         #[cfg(target_env = "msvc")] // only used in dbghelp symbolize
         pub(crate) use self::dbghelp::StackFrame;
     } else {
         mod noop;
         use self::noop::trace as trace_imp;
         pub(crate) use self::noop::Frame as FrameImp;
     }
 }
	use core::ffi::c_void;
	use core::fmt;

	/// Inspects the current call-stack, passing all active frames into the closure
	/// provided to calculate a stack trace.
	///
	/// This function is the workhorse of this library in calculating the stack
	/// traces for a program. The given closure `cb` is yielded instances of a
	/// `Frame` which represent information about that call frame on the stack. The
	/// closure is yielded frames in a top-down fashion (most recently called
	/// functions first).
	///
	/// The closure's return value is an indication of whether the backtrace should
	/// continue. A return value of `false` will terminate the backtrace and return
	/// immediately.
	///
	/// Once a `Frame` is acquired you will likely want to call `backtrace::resolve`
	/// to convert the `ip` (instruction pointer) or symbol address to a `Symbol`
	/// through which the name and/or filename/line number can be learned.
	///
	/// Note that this is a relatively low-level function and if you'd like to, for
	/// example, capture a backtrace to be inspected later, then the `Backtrace`
	/// type may be more appropriate.
	///
	/// # Required features
	///
	/// This function requires the `std` feature of the `backtrace` crate to be
	/// enabled, and the `std` feature is enabled by default.
	///
	/// # Panics
	///
	/// This function strives to never panic, but if the `cb` provided panics then
	/// some platforms will force a double panic to abort the process. Some
	/// platforms use a C library which internally uses callbacks which cannot be
	/// unwound through, so panicking from `cb` may trigger a process abort.
	///
	/// # Example
	///
	/// ```
	/// extern crate backtrace;
	///
	/// fn main() {
	/// backtrace::trace(\|frame\| {
	/// // ...
	///
	/// true // continue the backtrace
	/// });
	/// }
	/// ```
	#[cfg(feature = "std")]
	pub fn trace<F: FnMut(&Frame) -> bool>(cb: F) {
	let _guard = crate::lock::lock();
	unsafe { trace_unsynchronized(cb) }
	}

	/// Same as `trace`, only unsafe as it's unsynchronized.
	///
	/// This function does not have synchronization guarantees but is available
	/// when the `std` feature of this crate isn't compiled in. See the `trace`
	/// function for more documentation and examples.
	///
	/// # Panics
	///
	/// See information on `trace` for caveats on `cb` panicking.
	pub unsafe fn trace_unsynchronized<F: FnMut(&Frame) -> bool>(mut cb: F) {
	trace_imp(&mut cb)
	}

	/// A trait representing one frame of a backtrace, yielded to the `trace`
	/// function of this crate.
	///
	/// The tracing function's closure will be yielded frames, and the frame is
	/// virtually dispatched as the underlying implementation is not always known
	/// until runtime.
	#[derive(Clone)]
	pub struct Frame {
	pub(crate) inner: FrameImp,
	}

	impl Frame {
	/// Returns the current instruction pointer of this frame.
	///
	/// This is normally the next instruction to execute in the frame, but not
	/// all implementations list this with 100% accuracy (but it's generally
	/// pretty close).
	///
	/// It is recommended to pass this value to `backtrace::resolve` to turn it
	/// into a symbol name.
	pub fn ip(&self) -> *mut c_void {
	self.inner.ip()
	}

	/// Returns the current stack pointer of this frame.
	///
	/// In the case that a backend cannot recover the stack pointer for this
	/// frame, a null pointer is returned.
	pub fn sp(&self) -> *mut c_void {
	self.inner.sp()
	}

	/// Returns the starting symbol address of the frame of this function.
	///
	/// This will attempt to rewind the instruction pointer returned by `ip` to
	/// the start of the function, returning that value. In some cases, however,
	/// backends will just return `ip` from this function.
	///
	/// The returned value can sometimes be used if `backtrace::resolve` failed
	/// on the `ip` given above.
	pub fn symbol_address(&self) -> *mut c_void {
	self.inner.symbol_address()
	}

	/// Returns the base address of the module to which the frame belongs.
	pub fn module_base_address(&self) -> Option<*mut c_void> {
	self.inner.module_base_address()
	}
	}

	impl fmt::Debug for Frame {
	fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
	f.debug_struct("Frame")
	.field("ip", &self.ip())
	.field("symbol_address", &self.symbol_address())
	.finish()
	}
	}

	cfg_if::cfg_if! {
	// This needs to come first, to ensure that
	// Miri takes priority over the host platform
	if #[cfg(miri)] {
	pub(crate) mod miri;
	use self::miri::trace as trace_imp;
	pub(crate) use self::miri::Frame as FrameImp;
	} else if #[cfg(
	any(
	all(
	unix,
	not(target_os = "emscripten"),
	not(all(target_os = "ios", target_arch = "arm")),
	),
	all(
	target_env = "sgx",
	target_vendor = "fortanix",
	),
	)
	)] {
	mod libunwind;
	use self::libunwind::trace as trace_imp;
	pub(crate) use self::libunwind::Frame as FrameImp;
	} else if #[cfg(all(windows, not(target_vendor = "uwp")))] {
	mod dbghelp;
	use self::dbghelp::trace as trace_imp;
	pub(crate) use self::dbghelp::Frame as FrameImp;
	#[cfg(target_env = "msvc")] // only used in dbghelp symbolize
	pub(crate) use self::dbghelp::StackFrame;
	} else {
	mod noop;
	use self::noop::trace as trace_imp;
	pub(crate) use self::noop::Frame as FrameImp;
	}
	}