From 1b6a04ca5504955c571d1c97504fb45ea0befee4 Mon Sep 17 00:00:00 2001 From: Valentin Popov Date: Mon, 8 Jan 2024 01:21:28 +0400 Subject: Initial vendor packages Signed-off-by: Valentin Popov --- vendor/backtrace/src/android-api.c | 4 + vendor/backtrace/src/backtrace/dbghelp.rs | 257 ++++++++ vendor/backtrace/src/backtrace/libunwind.rs | 268 ++++++++ vendor/backtrace/src/backtrace/miri.rs | 109 ++++ vendor/backtrace/src/backtrace/mod.rs | 163 +++++ vendor/backtrace/src/backtrace/noop.rs | 28 + vendor/backtrace/src/capture.rs | 555 +++++++++++++++++ vendor/backtrace/src/dbghelp.rs | 365 +++++++++++ vendor/backtrace/src/lib.rs | 192 ++++++ vendor/backtrace/src/print.rs | 320 ++++++++++ vendor/backtrace/src/print/fuchsia.rs | 441 +++++++++++++ vendor/backtrace/src/symbolize/dbghelp.rs | 218 +++++++ vendor/backtrace/src/symbolize/gimli.rs | 511 +++++++++++++++ vendor/backtrace/src/symbolize/gimli/coff.rs | 118 ++++ vendor/backtrace/src/symbolize/gimli/elf.rs | 495 +++++++++++++++ .../src/symbolize/gimli/libs_dl_iterate_phdr.rs | 71 +++ vendor/backtrace/src/symbolize/gimli/libs_haiku.rs | 48 ++ .../backtrace/src/symbolize/gimli/libs_illumos.rs | 99 +++ vendor/backtrace/src/symbolize/gimli/libs_libnx.rs | 27 + vendor/backtrace/src/symbolize/gimli/libs_macos.rs | 146 +++++ .../backtrace/src/symbolize/gimli/libs_windows.rs | 89 +++ vendor/backtrace/src/symbolize/gimli/macho.rs | 333 ++++++++++ vendor/backtrace/src/symbolize/gimli/mmap_fake.rs | 25 + vendor/backtrace/src/symbolize/gimli/mmap_unix.rs | 49 ++ .../backtrace/src/symbolize/gimli/mmap_windows.rs | 57 ++ .../symbolize/gimli/parse_running_mmaps_unix.rs | 295 +++++++++ vendor/backtrace/src/symbolize/gimli/stash.rs | 50 ++ vendor/backtrace/src/symbolize/miri.rs | 56 ++ vendor/backtrace/src/symbolize/mod.rs | 485 ++++++++++++++ vendor/backtrace/src/symbolize/noop.rs | 41 ++ vendor/backtrace/src/types.rs | 83 +++ vendor/backtrace/src/windows.rs | 693 +++++++++++++++++++++ 32 files changed, 6691 insertions(+) create mode 100644 vendor/backtrace/src/android-api.c create mode 100644 vendor/backtrace/src/backtrace/dbghelp.rs create mode 100644 vendor/backtrace/src/backtrace/libunwind.rs create mode 100644 vendor/backtrace/src/backtrace/miri.rs create mode 100644 vendor/backtrace/src/backtrace/mod.rs create mode 100644 vendor/backtrace/src/backtrace/noop.rs create mode 100644 vendor/backtrace/src/capture.rs create mode 100644 vendor/backtrace/src/dbghelp.rs create mode 100644 vendor/backtrace/src/lib.rs create mode 100644 vendor/backtrace/src/print.rs create mode 100644 vendor/backtrace/src/print/fuchsia.rs create mode 100644 vendor/backtrace/src/symbolize/dbghelp.rs create mode 100644 vendor/backtrace/src/symbolize/gimli.rs create mode 100644 vendor/backtrace/src/symbolize/gimli/coff.rs create mode 100644 vendor/backtrace/src/symbolize/gimli/elf.rs create mode 100644 vendor/backtrace/src/symbolize/gimli/libs_dl_iterate_phdr.rs create mode 100644 vendor/backtrace/src/symbolize/gimli/libs_haiku.rs create mode 100644 vendor/backtrace/src/symbolize/gimli/libs_illumos.rs create mode 100644 vendor/backtrace/src/symbolize/gimli/libs_libnx.rs create mode 100644 vendor/backtrace/src/symbolize/gimli/libs_macos.rs create mode 100644 vendor/backtrace/src/symbolize/gimli/libs_windows.rs create mode 100644 vendor/backtrace/src/symbolize/gimli/macho.rs create mode 100644 vendor/backtrace/src/symbolize/gimli/mmap_fake.rs create mode 100644 vendor/backtrace/src/symbolize/gimli/mmap_unix.rs create mode 100644 vendor/backtrace/src/symbolize/gimli/mmap_windows.rs create mode 100644 vendor/backtrace/src/symbolize/gimli/parse_running_mmaps_unix.rs create mode 100644 vendor/backtrace/src/symbolize/gimli/stash.rs create mode 100644 vendor/backtrace/src/symbolize/miri.rs create mode 100644 vendor/backtrace/src/symbolize/mod.rs create mode 100644 vendor/backtrace/src/symbolize/noop.rs create mode 100644 vendor/backtrace/src/types.rs create mode 100644 vendor/backtrace/src/windows.rs (limited to 'vendor/backtrace/src') diff --git a/vendor/backtrace/src/android-api.c b/vendor/backtrace/src/android-api.c new file mode 100644 index 0000000..1bfeadf --- /dev/null +++ b/vendor/backtrace/src/android-api.c @@ -0,0 +1,4 @@ +// Used from the build script to detect the value of the `__ANDROID_API__` +// builtin #define + +APIVERSION __ANDROID_API__ diff --git a/vendor/backtrace/src/backtrace/dbghelp.rs b/vendor/backtrace/src/backtrace/dbghelp.rs new file mode 100644 index 0000000..ba0f05f --- /dev/null +++ b/vendor/backtrace/src/backtrace/dbghelp.rs @@ -0,0 +1,257 @@ +//! Backtrace strategy for MSVC platforms. +//! +//! This module contains the ability to generate a backtrace on MSVC using one +//! of two possible methods. The `StackWalkEx` function is primarily used if +//! possible, but not all systems have that. Failing that the `StackWalk64` +//! function is used instead. Note that `StackWalkEx` is favored because it +//! handles debuginfo internally and returns inline frame information. +//! +//! Note that all dbghelp support is loaded dynamically, see `src/dbghelp.rs` +//! for more information about that. + +#![allow(bad_style)] + +use super::super::{dbghelp, windows::*}; +use core::ffi::c_void; +use core::mem; + +#[derive(Clone, Copy)] +pub enum StackFrame { + New(STACKFRAME_EX), + Old(STACKFRAME64), +} + +#[derive(Clone, Copy)] +pub struct Frame { + pub(crate) stack_frame: StackFrame, + base_address: *mut c_void, +} + +// we're just sending around raw pointers and reading them, never interpreting +// them so this should be safe to both send and share across threads. +unsafe impl Send for Frame {} +unsafe impl Sync for Frame {} + +impl Frame { + pub fn ip(&self) -> *mut c_void { + self.addr_pc().Offset as *mut _ + } + + pub fn sp(&self) -> *mut c_void { + self.addr_stack().Offset as *mut _ + } + + pub fn symbol_address(&self) -> *mut c_void { + self.ip() + } + + pub fn module_base_address(&self) -> Option<*mut c_void> { + Some(self.base_address) + } + + fn addr_pc(&self) -> &ADDRESS64 { + match self.stack_frame { + StackFrame::New(ref new) => &new.AddrPC, + StackFrame::Old(ref old) => &old.AddrPC, + } + } + + fn addr_pc_mut(&mut self) -> &mut ADDRESS64 { + match self.stack_frame { + StackFrame::New(ref mut new) => &mut new.AddrPC, + StackFrame::Old(ref mut old) => &mut old.AddrPC, + } + } + + fn addr_frame_mut(&mut self) -> &mut ADDRESS64 { + match self.stack_frame { + StackFrame::New(ref mut new) => &mut new.AddrFrame, + StackFrame::Old(ref mut old) => &mut old.AddrFrame, + } + } + + fn addr_stack(&self) -> &ADDRESS64 { + match self.stack_frame { + StackFrame::New(ref new) => &new.AddrStack, + StackFrame::Old(ref old) => &old.AddrStack, + } + } + + fn addr_stack_mut(&mut self) -> &mut ADDRESS64 { + match self.stack_frame { + StackFrame::New(ref mut new) => &mut new.AddrStack, + StackFrame::Old(ref mut old) => &mut old.AddrStack, + } + } +} + +#[repr(C, align(16))] // required by `CONTEXT`, is a FIXME in winapi right now +struct MyContext(CONTEXT); + +#[inline(always)] +pub unsafe fn trace(cb: &mut dyn FnMut(&super::Frame) -> bool) { + // Allocate necessary structures for doing the stack walk + let process = GetCurrentProcess(); + let thread = GetCurrentThread(); + + let mut context = mem::zeroed::(); + RtlCaptureContext(&mut context.0); + + // Ensure this process's symbols are initialized + let dbghelp = match dbghelp::init() { + Ok(dbghelp) => dbghelp, + Err(()) => return, // oh well... + }; + + // On x86_64 and ARM64 we opt to not use the default `Sym*` functions from + // dbghelp for getting the function table and module base. Instead we use + // the `RtlLookupFunctionEntry` function in kernel32 which will account for + // JIT compiler frames as well. These should be equivalent, but using + // `Rtl*` allows us to backtrace through JIT frames. + // + // Note that `RtlLookupFunctionEntry` only works for in-process backtraces, + // but that's all we support anyway, so it all lines up well. + cfg_if::cfg_if! { + if #[cfg(target_pointer_width = "64")] { + use core::ptr; + + unsafe extern "system" fn function_table_access(_process: HANDLE, addr: DWORD64) -> PVOID { + let mut base = 0; + RtlLookupFunctionEntry(addr, &mut base, ptr::null_mut()).cast() + } + + unsafe extern "system" fn get_module_base(_process: HANDLE, addr: DWORD64) -> DWORD64 { + let mut base = 0; + RtlLookupFunctionEntry(addr, &mut base, ptr::null_mut()); + base + } + } else { + let function_table_access = dbghelp.SymFunctionTableAccess64(); + let get_module_base = dbghelp.SymGetModuleBase64(); + } + } + + let process_handle = GetCurrentProcess(); + + // Attempt to use `StackWalkEx` if we can, but fall back to `StackWalk64` + // since it's in theory supported on more systems. + match (*dbghelp.dbghelp()).StackWalkEx() { + Some(StackWalkEx) => { + let mut inner: STACKFRAME_EX = mem::zeroed(); + inner.StackFrameSize = mem::size_of::() as DWORD; + let mut frame = super::Frame { + inner: Frame { + stack_frame: StackFrame::New(inner), + base_address: 0 as _, + }, + }; + let image = init_frame(&mut frame.inner, &context.0); + let frame_ptr = match &mut frame.inner.stack_frame { + StackFrame::New(ptr) => ptr as *mut STACKFRAME_EX, + _ => unreachable!(), + }; + + while StackWalkEx( + image as DWORD, + process, + thread, + frame_ptr, + &mut context.0 as *mut CONTEXT as *mut _, + None, + Some(function_table_access), + Some(get_module_base), + None, + 0, + ) == TRUE + { + frame.inner.base_address = get_module_base(process_handle, frame.ip() as _) as _; + + if !cb(&frame) { + break; + } + } + } + None => { + let mut frame = super::Frame { + inner: Frame { + stack_frame: StackFrame::Old(mem::zeroed()), + base_address: 0 as _, + }, + }; + let image = init_frame(&mut frame.inner, &context.0); + let frame_ptr = match &mut frame.inner.stack_frame { + StackFrame::Old(ptr) => ptr as *mut STACKFRAME64, + _ => unreachable!(), + }; + + while dbghelp.StackWalk64()( + image as DWORD, + process, + thread, + frame_ptr, + &mut context.0 as *mut CONTEXT as *mut _, + None, + Some(function_table_access), + Some(get_module_base), + None, + ) == TRUE + { + frame.inner.base_address = get_module_base(process_handle, frame.ip() as _) as _; + + if !cb(&frame) { + break; + } + } + } + } +} + +#[cfg(target_arch = "x86_64")] +fn init_frame(frame: &mut Frame, ctx: &CONTEXT) -> WORD { + frame.addr_pc_mut().Offset = ctx.Rip as u64; + frame.addr_pc_mut().Mode = AddrModeFlat; + frame.addr_stack_mut().Offset = ctx.Rsp as u64; + frame.addr_stack_mut().Mode = AddrModeFlat; + frame.addr_frame_mut().Offset = ctx.Rbp as u64; + frame.addr_frame_mut().Mode = AddrModeFlat; + + IMAGE_FILE_MACHINE_AMD64 +} + +#[cfg(target_arch = "x86")] +fn init_frame(frame: &mut Frame, ctx: &CONTEXT) -> WORD { + frame.addr_pc_mut().Offset = ctx.Eip as u64; + frame.addr_pc_mut().Mode = AddrModeFlat; + frame.addr_stack_mut().Offset = ctx.Esp as u64; + frame.addr_stack_mut().Mode = AddrModeFlat; + frame.addr_frame_mut().Offset = ctx.Ebp as u64; + frame.addr_frame_mut().Mode = AddrModeFlat; + + IMAGE_FILE_MACHINE_I386 +} + +#[cfg(target_arch = "aarch64")] +fn init_frame(frame: &mut Frame, ctx: &CONTEXT) -> WORD { + frame.addr_pc_mut().Offset = ctx.Pc as u64; + frame.addr_pc_mut().Mode = AddrModeFlat; + frame.addr_stack_mut().Offset = ctx.Sp as u64; + frame.addr_stack_mut().Mode = AddrModeFlat; + unsafe { + frame.addr_frame_mut().Offset = ctx.u.s().Fp as u64; + } + frame.addr_frame_mut().Mode = AddrModeFlat; + IMAGE_FILE_MACHINE_ARM64 +} + +#[cfg(target_arch = "arm")] +fn init_frame(frame: &mut Frame, ctx: &CONTEXT) -> WORD { + frame.addr_pc_mut().Offset = ctx.Pc as u64; + frame.addr_pc_mut().Mode = AddrModeFlat; + frame.addr_stack_mut().Offset = ctx.Sp as u64; + frame.addr_stack_mut().Mode = AddrModeFlat; + unsafe { + frame.addr_frame_mut().Offset = ctx.R11 as u64; + } + frame.addr_frame_mut().Mode = AddrModeFlat; + IMAGE_FILE_MACHINE_ARMNT +} diff --git a/vendor/backtrace/src/backtrace/libunwind.rs b/vendor/backtrace/src/backtrace/libunwind.rs new file mode 100644 index 0000000..aefa8b0 --- /dev/null +++ b/vendor/backtrace/src/backtrace/libunwind.rs @@ -0,0 +1,268 @@ +//! Backtrace support using libunwind/gcc_s/etc APIs. +//! +//! This module contains the ability to unwind the stack using libunwind-style +//! APIs. Note that there's a whole bunch of implementations of the +//! libunwind-like API, and this is just trying to be compatible with most of +//! them all at once instead of being picky. +//! +//! The libunwind API is powered by `_Unwind_Backtrace` and is in practice very +//! reliable at generating a backtrace. It's not entirely clear how it does it +//! (frame pointers? eh_frame info? both?) but it seems to work! +//! +//! Most of the complexity of this module is handling the various platform +//! differences across libunwind implementations. Otherwise this is a pretty +//! straightforward Rust binding to the libunwind APIs. +//! +//! This is the default unwinding API for all non-Windows platforms currently. + +use super::super::Bomb; +use core::ffi::c_void; + +pub enum Frame { + Raw(*mut uw::_Unwind_Context), + Cloned { + ip: *mut c_void, + sp: *mut c_void, + symbol_address: *mut c_void, + }, +} + +// With a raw libunwind pointer it should only ever be access in a readonly +// threadsafe fashion, so it's `Sync`. When sending to other threads via `Clone` +// we always switch to a version which doesn't retain interior pointers, so we +// should be `Send` as well. +unsafe impl Send for Frame {} +unsafe impl Sync for Frame {} + +impl Frame { + pub fn ip(&self) -> *mut c_void { + let ctx = match *self { + Frame::Raw(ctx) => ctx, + Frame::Cloned { ip, .. } => return ip, + }; + unsafe { uw::_Unwind_GetIP(ctx) as *mut c_void } + } + + pub fn sp(&self) -> *mut c_void { + match *self { + Frame::Raw(ctx) => unsafe { uw::get_sp(ctx) as *mut c_void }, + Frame::Cloned { sp, .. } => sp, + } + } + + pub fn symbol_address(&self) -> *mut c_void { + if let Frame::Cloned { symbol_address, .. } = *self { + return symbol_address; + } + + // The macOS linker emits a "compact" unwind table that only includes an + // entry for a function if that function either has an LSDA or its + // encoding differs from that of the previous entry. Consequently, on + // macOS, `_Unwind_FindEnclosingFunction` is unreliable (it can return a + // pointer to some totally unrelated function). Instead, we just always + // return the ip. + // + // https://github.com/rust-lang/rust/issues/74771#issuecomment-664056788 + // + // Note the `skip_inner_frames.rs` test is skipped on macOS due to this + // clause, and if this is fixed that test in theory can be run on macOS! + if cfg!(target_vendor = "apple") { + self.ip() + } else { + unsafe { uw::_Unwind_FindEnclosingFunction(self.ip()) } + } + } + + pub fn module_base_address(&self) -> Option<*mut c_void> { + None + } +} + +impl Clone for Frame { + fn clone(&self) -> Frame { + Frame::Cloned { + ip: self.ip(), + sp: self.sp(), + symbol_address: self.symbol_address(), + } + } +} + +#[inline(always)] +pub unsafe fn trace(mut cb: &mut dyn FnMut(&super::Frame) -> bool) { + uw::_Unwind_Backtrace(trace_fn, &mut cb as *mut _ as *mut _); + + extern "C" fn trace_fn( + ctx: *mut uw::_Unwind_Context, + arg: *mut c_void, + ) -> uw::_Unwind_Reason_Code { + let cb = unsafe { &mut *(arg as *mut &mut dyn FnMut(&super::Frame) -> bool) }; + let cx = super::Frame { + inner: Frame::Raw(ctx), + }; + + let mut bomb = Bomb { enabled: true }; + let keep_going = cb(&cx); + bomb.enabled = false; + + if keep_going { + uw::_URC_NO_REASON + } else { + uw::_URC_FAILURE + } + } +} + +/// Unwind library interface used for backtraces +/// +/// Note that dead code is allowed as here are just bindings +/// iOS doesn't use all of them it but adding more +/// platform-specific configs pollutes the code too much +#[allow(non_camel_case_types)] +#[allow(non_snake_case)] +#[allow(dead_code)] +mod uw { + pub use self::_Unwind_Reason_Code::*; + + use core::ffi::c_void; + + #[repr(C)] + pub enum _Unwind_Reason_Code { + _URC_NO_REASON = 0, + _URC_FOREIGN_EXCEPTION_CAUGHT = 1, + _URC_FATAL_PHASE2_ERROR = 2, + _URC_FATAL_PHASE1_ERROR = 3, + _URC_NORMAL_STOP = 4, + _URC_END_OF_STACK = 5, + _URC_HANDLER_FOUND = 6, + _URC_INSTALL_CONTEXT = 7, + _URC_CONTINUE_UNWIND = 8, + _URC_FAILURE = 9, // used only by ARM EABI + } + + pub enum _Unwind_Context {} + + pub type _Unwind_Trace_Fn = + extern "C" fn(ctx: *mut _Unwind_Context, arg: *mut c_void) -> _Unwind_Reason_Code; + + extern "C" { + pub fn _Unwind_Backtrace( + trace: _Unwind_Trace_Fn, + trace_argument: *mut c_void, + ) -> _Unwind_Reason_Code; + } + + cfg_if::cfg_if! { + // available since GCC 4.2.0, should be fine for our purpose + if #[cfg(all( + not(all(target_os = "android", target_arch = "arm")), + not(all(target_os = "freebsd", target_arch = "arm")), + not(all(target_os = "linux", target_arch = "arm")), + not(all(target_os = "horizon", target_arch = "arm")), + not(all(target_os = "vita", target_arch = "arm")), + ))] { + extern "C" { + pub fn _Unwind_GetIP(ctx: *mut _Unwind_Context) -> libc::uintptr_t; + pub fn _Unwind_FindEnclosingFunction(pc: *mut c_void) -> *mut c_void; + + #[cfg(not(all(target_os = "linux", target_arch = "s390x")))] + // This function is a misnomer: rather than getting this frame's + // Canonical Frame Address (aka the caller frame's SP) it + // returns this frame's SP. + // + // https://github.com/libunwind/libunwind/blob/d32956507cf29d9b1a98a8bce53c78623908f4fe/src/unwind/GetCFA.c#L28-L35 + #[link_name = "_Unwind_GetCFA"] + pub fn get_sp(ctx: *mut _Unwind_Context) -> libc::uintptr_t; + + } + + // s390x uses a biased CFA value, therefore we need to use + // _Unwind_GetGR to get the stack pointer register (%r15) + // instead of relying on _Unwind_GetCFA. + #[cfg(all(target_os = "linux", target_arch = "s390x"))] + pub unsafe fn get_sp(ctx: *mut _Unwind_Context) -> libc::uintptr_t { + extern "C" { + pub fn _Unwind_GetGR(ctx: *mut _Unwind_Context, index: libc::c_int) -> libc::uintptr_t; + } + _Unwind_GetGR(ctx, 15) + } + } else { + // On android and arm, the function `_Unwind_GetIP` and a bunch of + // others are macros, so we define functions containing the + // expansion of the macros. + // + // TODO: link to the header file that defines these macros, if you + // can find it. (I, fitzgen, cannot find the header file that some + // of these macro expansions were originally borrowed from.) + #[repr(C)] + enum _Unwind_VRS_Result { + _UVRSR_OK = 0, + _UVRSR_NOT_IMPLEMENTED = 1, + _UVRSR_FAILED = 2, + } + #[repr(C)] + enum _Unwind_VRS_RegClass { + _UVRSC_CORE = 0, + _UVRSC_VFP = 1, + _UVRSC_FPA = 2, + _UVRSC_WMMXD = 3, + _UVRSC_WMMXC = 4, + } + #[repr(C)] + enum _Unwind_VRS_DataRepresentation { + _UVRSD_UINT32 = 0, + _UVRSD_VFPX = 1, + _UVRSD_FPAX = 2, + _UVRSD_UINT64 = 3, + _UVRSD_FLOAT = 4, + _UVRSD_DOUBLE = 5, + } + + type _Unwind_Word = libc::c_uint; + extern "C" { + fn _Unwind_VRS_Get( + ctx: *mut _Unwind_Context, + klass: _Unwind_VRS_RegClass, + word: _Unwind_Word, + repr: _Unwind_VRS_DataRepresentation, + data: *mut c_void, + ) -> _Unwind_VRS_Result; + } + + pub unsafe fn _Unwind_GetIP(ctx: *mut _Unwind_Context) -> libc::uintptr_t { + let mut val: _Unwind_Word = 0; + let ptr = &mut val as *mut _Unwind_Word; + let _ = _Unwind_VRS_Get( + ctx, + _Unwind_VRS_RegClass::_UVRSC_CORE, + 15, + _Unwind_VRS_DataRepresentation::_UVRSD_UINT32, + ptr as *mut c_void, + ); + (val & !1) as libc::uintptr_t + } + + // R13 is the stack pointer on arm. + const SP: _Unwind_Word = 13; + + pub unsafe fn get_sp(ctx: *mut _Unwind_Context) -> libc::uintptr_t { + let mut val: _Unwind_Word = 0; + let ptr = &mut val as *mut _Unwind_Word; + let _ = _Unwind_VRS_Get( + ctx, + _Unwind_VRS_RegClass::_UVRSC_CORE, + SP, + _Unwind_VRS_DataRepresentation::_UVRSD_UINT32, + ptr as *mut c_void, + ); + val as libc::uintptr_t + } + + // This function also doesn't exist on Android or ARM/Linux, so make it + // a no-op. + pub unsafe fn _Unwind_FindEnclosingFunction(pc: *mut c_void) -> *mut c_void { + pc + } + } + } +} diff --git a/vendor/backtrace/src/backtrace/miri.rs b/vendor/backtrace/src/backtrace/miri.rs new file mode 100644 index 0000000..f8c4964 --- /dev/null +++ b/vendor/backtrace/src/backtrace/miri.rs @@ -0,0 +1,109 @@ +use alloc::boxed::Box; +use alloc::vec::Vec; +use core::ffi::c_void; + +extern "Rust" { + fn miri_backtrace_size(flags: u64) -> usize; + fn miri_get_backtrace(flags: u64, buf: *mut *mut ()); + fn miri_resolve_frame(ptr: *mut (), flags: u64) -> MiriFrame; + fn miri_resolve_frame_names(ptr: *mut (), flags: u64, name_buf: *mut u8, filename_buf: *mut u8); +} + +#[repr(C)] +pub struct MiriFrame { + pub name_len: usize, + pub filename_len: usize, + pub lineno: u32, + pub colno: u32, + pub fn_ptr: *mut c_void, +} + +#[derive(Clone, Debug)] +pub struct FullMiriFrame { + pub name: Box<[u8]>, + pub filename: Box<[u8]>, + pub lineno: u32, + pub colno: u32, + pub fn_ptr: *mut c_void, +} + +#[derive(Debug, Clone)] +pub struct Frame { + pub addr: *mut c_void, + pub inner: FullMiriFrame, +} + +// SAFETY: Miri guarantees that the returned pointer +// can be used from any thread. +unsafe impl Send for Frame {} +unsafe impl Sync for Frame {} + +impl Frame { + pub fn ip(&self) -> *mut c_void { + self.addr + } + + pub fn sp(&self) -> *mut c_void { + core::ptr::null_mut() + } + + pub fn symbol_address(&self) -> *mut c_void { + self.inner.fn_ptr + } + + pub fn module_base_address(&self) -> Option<*mut c_void> { + None + } +} + +pub fn trace bool>(cb: F) { + // SAFETY: Miri guarantees that the backtrace API functions + // can be called from any thread. + unsafe { trace_unsynchronized(cb) }; +} + +pub fn resolve_addr(ptr: *mut c_void) -> Frame { + // SAFETY: Miri will stop execution with an error if this pointer + // is invalid. + let frame = unsafe { miri_resolve_frame(ptr as *mut (), 1) }; + + let mut name = Vec::with_capacity(frame.name_len); + let mut filename = Vec::with_capacity(frame.filename_len); + + // SAFETY: name and filename have been allocated with the amount + // of memory miri has asked for, and miri guarantees it will initialize it + unsafe { + miri_resolve_frame_names(ptr as *mut (), 0, name.as_mut_ptr(), filename.as_mut_ptr()); + + name.set_len(frame.name_len); + filename.set_len(frame.filename_len); + } + + Frame { + addr: ptr, + inner: FullMiriFrame { + name: name.into(), + filename: filename.into(), + lineno: frame.lineno, + colno: frame.colno, + fn_ptr: frame.fn_ptr, + }, + } +} + +unsafe fn trace_unsynchronized bool>(mut cb: F) { + let len = miri_backtrace_size(0); + + let mut frames = Vec::with_capacity(len); + + miri_get_backtrace(1, frames.as_mut_ptr()); + + frames.set_len(len); + + for ptr in frames.iter() { + let frame = resolve_addr(*ptr as *mut c_void); + if !cb(&super::Frame { inner: frame }) { + return; + } + } +} diff --git a/vendor/backtrace/src/backtrace/mod.rs b/vendor/backtrace/src/backtrace/mod.rs new file mode 100644 index 0000000..6ca1080 --- /dev/null +++ b/vendor/backtrace/src/backtrace/mod.rs @@ -0,0 +1,163 @@ +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 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 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")), + not(all(target_os = "nto", target_env = "nto70")), + ), + 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; + } +} diff --git a/vendor/backtrace/src/backtrace/noop.rs b/vendor/backtrace/src/backtrace/noop.rs new file mode 100644 index 0000000..7bcea67 --- /dev/null +++ b/vendor/backtrace/src/backtrace/noop.rs @@ -0,0 +1,28 @@ +//! Empty implementation of unwinding used when no other implementation is +//! appropriate. + +use core::ffi::c_void; + +#[inline(always)] +pub fn trace(_cb: &mut dyn FnMut(&super::Frame) -> bool) {} + +#[derive(Clone)] +pub struct Frame; + +impl Frame { + pub fn ip(&self) -> *mut c_void { + 0 as *mut _ + } + + pub fn sp(&self) -> *mut c_void { + 0 as *mut _ + } + + pub fn symbol_address(&self) -> *mut c_void { + 0 as *mut _ + } + + pub fn module_base_address(&self) -> Option<*mut c_void> { + None + } +} diff --git a/vendor/backtrace/src/capture.rs b/vendor/backtrace/src/capture.rs new file mode 100644 index 0000000..e0dd9c4 --- /dev/null +++ b/vendor/backtrace/src/capture.rs @@ -0,0 +1,555 @@ +use crate::PrintFmt; +use crate::{resolve, resolve_frame, trace, BacktraceFmt, Symbol, SymbolName}; +use std::ffi::c_void; +use std::fmt; +use std::path::{Path, PathBuf}; +use std::prelude::v1::*; + +#[cfg(feature = "serde")] +use serde::{Deserialize, Serialize}; + +/// Representation of an owned and self-contained backtrace. +/// +/// This structure can be used to capture a backtrace at various points in a +/// program and later used to inspect what the backtrace was at that time. +/// +/// `Backtrace` supports pretty-printing of backtraces through its `Debug` +/// implementation. +/// +/// # Required features +/// +/// This function requires the `std` feature of the `backtrace` crate to be +/// enabled, and the `std` feature is enabled by default. +#[derive(Clone)] +#[cfg_attr(feature = "serialize-rustc", derive(RustcDecodable, RustcEncodable))] +#[cfg_attr(feature = "serde", derive(Deserialize, Serialize))] +pub struct Backtrace { + // Frames here are listed from top-to-bottom of the stack + frames: Vec, + // The index we believe is the actual start of the backtrace, omitting + // frames like `Backtrace::new` and `backtrace::trace`. + actual_start_index: usize, +} + +fn _assert_send_sync() { + fn _assert() {} + _assert::(); +} + +/// Captured version of a frame in a backtrace. +/// +/// This type is returned as a list from `Backtrace::frames` and represents one +/// stack frame in a captured backtrace. +/// +/// # Required features +/// +/// This function requires the `std` feature of the `backtrace` crate to be +/// enabled, and the `std` feature is enabled by default. +#[derive(Clone)] +pub struct BacktraceFrame { + frame: Frame, + symbols: Option>, +} + +#[derive(Clone)] +enum Frame { + Raw(crate::Frame), + #[allow(dead_code)] + Deserialized { + ip: usize, + symbol_address: usize, + module_base_address: Option, + }, +} + +impl Frame { + fn ip(&self) -> *mut c_void { + match *self { + Frame::Raw(ref f) => f.ip(), + Frame::Deserialized { ip, .. } => ip as *mut c_void, + } + } + + fn symbol_address(&self) -> *mut c_void { + match *self { + Frame::Raw(ref f) => f.symbol_address(), + Frame::Deserialized { symbol_address, .. } => symbol_address as *mut c_void, + } + } + + fn module_base_address(&self) -> Option<*mut c_void> { + match *self { + Frame::Raw(ref f) => f.module_base_address(), + Frame::Deserialized { + module_base_address, + .. + } => module_base_address.map(|addr| addr as *mut c_void), + } + } +} + +/// Captured version of a symbol in a backtrace. +/// +/// This type is returned as a list from `BacktraceFrame::symbols` and +/// represents the metadata for a symbol in a backtrace. +/// +/// # Required features +/// +/// This function requires the `std` feature of the `backtrace` crate to be +/// enabled, and the `std` feature is enabled by default. +#[derive(Clone)] +#[cfg_attr(feature = "serialize-rustc", derive(RustcDecodable, RustcEncodable))] +#[cfg_attr(feature = "serde", derive(Deserialize, Serialize))] +pub struct BacktraceSymbol { + name: Option>, + addr: Option, + filename: Option, + lineno: Option, + colno: Option, +} + +impl Backtrace { + /// Captures a backtrace at the callsite of this function, returning an + /// owned representation. + /// + /// This function is useful for representing a backtrace as an object in + /// Rust. This returned value can be sent across threads and printed + /// elsewhere, and the purpose of this value is to be entirely self + /// contained. + /// + /// Note that on some platforms acquiring a full backtrace and resolving it + /// can be extremely expensive. If the cost is too much for your application + /// it's recommended to instead use `Backtrace::new_unresolved()` which + /// avoids the symbol resolution step (which typically takes the longest) + /// and allows deferring that to a later date. + /// + /// # Examples + /// + /// ``` + /// use backtrace::Backtrace; + /// + /// let current_backtrace = Backtrace::new(); + /// ``` + /// + /// # Required features + /// + /// This function requires the `std` feature of the `backtrace` crate to be + /// enabled, and the `std` feature is enabled by default. + #[inline(never)] // want to make sure there's a frame here to remove + pub fn new() -> Backtrace { + let mut bt = Self::create(Self::new as usize); + bt.resolve(); + bt + } + + /// Similar to `new` except that this does not resolve any symbols, this + /// simply captures the backtrace as a list of addresses. + /// + /// At a later time the `resolve` function can be called to resolve this + /// backtrace's symbols into readable names. This function exists because + /// the resolution process can sometimes take a significant amount of time + /// whereas any one backtrace may only be rarely printed. + /// + /// # Examples + /// + /// ``` + /// use backtrace::Backtrace; + /// + /// let mut current_backtrace = Backtrace::new_unresolved(); + /// println!("{:?}", current_backtrace); // no symbol names + /// current_backtrace.resolve(); + /// println!("{:?}", current_backtrace); // symbol names now present + /// ``` + /// + /// # Required features + /// + /// This function requires the `std` feature of the `backtrace` crate to be + /// enabled, and the `std` feature is enabled by default. + #[inline(never)] // want to make sure there's a frame here to remove + pub fn new_unresolved() -> Backtrace { + Self::create(Self::new_unresolved as usize) + } + + fn create(ip: usize) -> Backtrace { + let mut frames = Vec::new(); + let mut actual_start_index = None; + trace(|frame| { + frames.push(BacktraceFrame { + frame: Frame::Raw(frame.clone()), + symbols: None, + }); + + if frame.symbol_address() as usize == ip && actual_start_index.is_none() { + actual_start_index = Some(frames.len()); + } + true + }); + + Backtrace { + frames, + actual_start_index: actual_start_index.unwrap_or(0), + } + } + + /// Returns the frames from when this backtrace was captured. + /// + /// The first entry of this slice is likely the function `Backtrace::new`, + /// and the last frame is likely something about how this thread or the main + /// function started. + /// + /// # Required features + /// + /// This function requires the `std` feature of the `backtrace` crate to be + /// enabled, and the `std` feature is enabled by default. + pub fn frames(&self) -> &[BacktraceFrame] { + &self.frames[self.actual_start_index..] + } + + /// If this backtrace was created from `new_unresolved` then this function + /// will resolve all addresses in the backtrace to their symbolic names. + /// + /// If this backtrace has been previously resolved or was created through + /// `new`, this function does nothing. + /// + /// # Required features + /// + /// This function requires the `std` feature of the `backtrace` crate to be + /// enabled, and the `std` feature is enabled by default. + pub fn resolve(&mut self) { + for frame in self.frames.iter_mut().filter(|f| f.symbols.is_none()) { + let mut symbols = Vec::new(); + { + let sym = |symbol: &Symbol| { + symbols.push(BacktraceSymbol { + name: symbol.name().map(|m| m.as_bytes().to_vec()), + addr: symbol.addr().map(|a| a as usize), + filename: symbol.filename().map(|m| m.to_owned()), + lineno: symbol.lineno(), + colno: symbol.colno(), + }); + }; + match frame.frame { + Frame::Raw(ref f) => resolve_frame(f, sym), + Frame::Deserialized { ip, .. } => { + resolve(ip as *mut c_void, sym); + } + } + } + frame.symbols = Some(symbols); + } + } +} + +impl From> for Backtrace { + fn from(frames: Vec) -> Self { + Backtrace { + frames, + actual_start_index: 0, + } + } +} + +impl From for BacktraceFrame { + fn from(frame: crate::Frame) -> BacktraceFrame { + BacktraceFrame { + frame: Frame::Raw(frame), + symbols: None, + } + } +} + +impl Into> for Backtrace { + fn into(self) -> Vec { + self.frames + } +} + +impl BacktraceFrame { + /// Same as `Frame::ip` + /// + /// # Required features + /// + /// This function requires the `std` feature of the `backtrace` crate to be + /// enabled, and the `std` feature is enabled by default. + pub fn ip(&self) -> *mut c_void { + self.frame.ip() as *mut c_void + } + + /// Same as `Frame::symbol_address` + /// + /// # Required features + /// + /// This function requires the `std` feature of the `backtrace` crate to be + /// enabled, and the `std` feature is enabled by default. + pub fn symbol_address(&self) -> *mut c_void { + self.frame.symbol_address() as *mut c_void + } + + /// Same as `Frame::module_base_address` + /// + /// # Required features + /// + /// This function requires the `std` feature of the `backtrace` crate to be + /// enabled, and the `std` feature is enabled by default. + pub fn module_base_address(&self) -> Option<*mut c_void> { + self.frame + .module_base_address() + .map(|addr| addr as *mut c_void) + } + + /// Returns the list of symbols that this frame corresponds to. + /// + /// Normally there is only one symbol per frame, but sometimes if a number + /// of functions are inlined into one frame then multiple symbols will be + /// returned. The first symbol listed is the "innermost function", whereas + /// the last symbol is the outermost (last caller). + /// + /// Note that if this frame came from an unresolved backtrace then this will + /// return an empty list. + /// + /// # Required features + /// + /// This function requires the `std` feature of the `backtrace` crate to be + /// enabled, and the `std` feature is enabled by default. + pub fn symbols(&self) -> &[BacktraceSymbol] { + self.symbols.as_ref().map(|s| &s[..]).unwrap_or(&[]) + } +} + +impl BacktraceSymbol { + /// Same as `Symbol::name` + /// + /// # Required features + /// + /// This function requires the `std` feature of the `backtrace` crate to be + /// enabled, and the `std` feature is enabled by default. + pub fn name(&self) -> Option> { + self.name.as_ref().map(|s| SymbolName::new(s)) + } + + /// Same as `Symbol::addr` + /// + /// # Required features + /// + /// This function requires the `std` feature of the `backtrace` crate to be + /// enabled, and the `std` feature is enabled by default. + pub fn addr(&self) -> Option<*mut c_void> { + self.addr.map(|s| s as *mut c_void) + } + + /// Same as `Symbol::filename` + /// + /// # Required features + /// + /// This function requires the `std` feature of the `backtrace` crate to be + /// enabled, and the `std` feature is enabled by default. + pub fn filename(&self) -> Option<&Path> { + self.filename.as_ref().map(|p| &**p) + } + + /// Same as `Symbol::lineno` + /// + /// # Required features + /// + /// This function requires the `std` feature of the `backtrace` crate to be + /// enabled, and the `std` feature is enabled by default. + pub fn lineno(&self) -> Option { + self.lineno + } + + /// Same as `Symbol::colno` + /// + /// # Required features + /// + /// This function requires the `std` feature of the `backtrace` crate to be + /// enabled, and the `std` feature is enabled by default. + pub fn colno(&self) -> Option { + self.colno + } +} + +impl fmt::Debug for Backtrace { + fn fmt(&self, fmt: &mut fmt::Formatter<'_>) -> fmt::Result { + let full = fmt.alternate(); + let (frames, style) = if full { + (&self.frames[..], PrintFmt::Full) + } else { + (&self.frames[self.actual_start_index..], PrintFmt::Short) + }; + + // When printing paths we try to strip the cwd if it exists, otherwise + // we just print the path as-is. Note that we also only do this for the + // short format, because if it's full we presumably want to print + // everything. + let cwd = std::env::current_dir(); + let mut print_path = + move |fmt: &mut fmt::Formatter<'_>, path: crate::BytesOrWideString<'_>| { + let path = path.into_path_buf(); + if !full { + if let Ok(cwd) = &cwd { + if let Ok(suffix) = path.strip_prefix(cwd) { + return fmt::Display::fmt(&suffix.display(), fmt); + } + } + } + fmt::Display::fmt(&path.display(), fmt) + }; + + let mut f = BacktraceFmt::new(fmt, style, &mut print_path); + f.add_context()?; + for frame in frames { + f.frame().backtrace_frame(frame)?; + } + f.finish()?; + Ok(()) + } +} + +impl Default for Backtrace { + fn default() -> Backtrace { + Backtrace::new() + } +} + +impl fmt::Debug for BacktraceFrame { + fn fmt(&self, fmt: &mut fmt::Formatter<'_>) -> fmt::Result { + fmt.debug_struct("BacktraceFrame") + .field("ip", &self.ip()) + .field("symbol_address", &self.symbol_address()) + .finish() + } +} + +impl fmt::Debug for BacktraceSymbol { + fn fmt(&self, fmt: &mut fmt::Formatter<'_>) -> fmt::Result { + fmt.debug_struct("BacktraceSymbol") + .field("name", &self.name()) + .field("addr", &self.addr()) + .field("filename", &self.filename()) + .field("lineno", &self.lineno()) + .field("colno", &self.colno()) + .finish() + } +} + +#[cfg(feature = "serialize-rustc")] +mod rustc_serialize_impls { + use super::*; + use rustc_serialize::{Decodable, Decoder, Encodable, Encoder}; + + #[derive(RustcEncodable, RustcDecodable)] + struct SerializedFrame { + ip: usize, + symbol_address: usize, + module_base_address: Option, + symbols: Option>, + } + + impl Decodable for BacktraceFrame { + fn decode(d: &mut D) -> Result + where + D: Decoder, + { + let frame: SerializedFrame = SerializedFrame::decode(d)?; + Ok(BacktraceFrame { + frame: Frame::Deserialized { + ip: frame.ip, + symbol_address: frame.symbol_address, + module_base_address: frame.module_base_address, + }, + symbols: frame.symbols, + }) + } + } + + impl Encodable for BacktraceFrame { + fn encode(&self, e: &mut E) -> Result<(), E::Error> + where + E: Encoder, + { + let BacktraceFrame { frame, symbols } = self; + SerializedFrame { + ip: frame.ip() as usize, + symbol_address: frame.symbol_address() as usize, + module_base_address: frame.module_base_address().map(|addr| addr as usize), + symbols: symbols.clone(), + } + .encode(e) + } + } +} + +#[cfg(feature = "serde")] +mod serde_impls { + use super::*; + use serde::de::Deserializer; + use serde::ser::Serializer; + use serde::{Deserialize, Serialize}; + + #[derive(Serialize, Deserialize)] + struct SerializedFrame { + ip: usize, + symbol_address: usize, + module_base_address: Option, + symbols: Option>, + } + + impl Serialize for BacktraceFrame { + fn serialize(&self, s: S) -> Result + where + S: Serializer, + { + let BacktraceFrame { frame, symbols } = self; + SerializedFrame { + ip: frame.ip() as usize, + symbol_address: frame.symbol_address() as usize, + module_base_address: frame.module_base_address().map(|addr| addr as usize), + symbols: symbols.clone(), + } + .serialize(s) + } + } + + impl<'a> Deserialize<'a> for BacktraceFrame { + fn deserialize(d: D) -> Result + where + D: Deserializer<'a>, + { + let frame: SerializedFrame = SerializedFrame::deserialize(d)?; + Ok(BacktraceFrame { + frame: Frame::Deserialized { + ip: frame.ip, + symbol_address: frame.symbol_address, + module_base_address: frame.module_base_address, + }, + symbols: frame.symbols, + }) + } + } +} + +#[cfg(test)] +mod tests { + use super::*; + + #[test] + fn test_frame_conversion() { + let mut frames = vec![]; + crate::trace(|frame| { + let converted = BacktraceFrame::from(frame.clone()); + frames.push(converted); + true + }); + + let mut manual = Backtrace::from(frames); + manual.resolve(); + let frames = manual.frames(); + + for frame in frames { + println!("{:?}", frame.ip()); + println!("{:?}", frame.symbol_address()); + println!("{:?}", frame.module_base_address()); + println!("{:?}", frame.symbols()); + } + } +} diff --git a/vendor/backtrace/src/dbghelp.rs b/vendor/backtrace/src/dbghelp.rs new file mode 100644 index 0000000..c81766b --- /dev/null +++ b/vendor/backtrace/src/dbghelp.rs @@ -0,0 +1,365 @@ +//! A module to assist in managing dbghelp bindings on Windows +//! +//! Backtraces on Windows (at least for MSVC) are largely powered through +//! `dbghelp.dll` and the various functions that it contains. These functions +//! are currently loaded *dynamically* rather than linking to `dbghelp.dll` +//! statically. This is currently done by the standard library (and is in theory +//! required there), but is an effort to help reduce the static dll dependencies +//! of a library since backtraces are typically pretty optional. That being +//! said, `dbghelp.dll` almost always successfully loads on Windows. +//! +//! Note though that since we're loading all this support dynamically we can't +//! actually use the raw definitions in `winapi`, but rather we need to define +//! the function pointer types ourselves and use that. We don't really want to +//! be in the business of duplicating winapi, so we have a Cargo feature +//! `verify-winapi` which asserts that all bindings match those in winapi and +//! this feature is enabled on CI. +//! +//! Finally, you'll note here that the dll for `dbghelp.dll` is never unloaded, +//! and that's currently intentional. The thinking is that we can globally cache +//! it and use it between calls to the API, avoiding expensive loads/unloads. If +//! this is a problem for leak detectors or something like that we can cross the +//! bridge when we get there. + +#![allow(non_snake_case)] + +use super::windows::*; +use core::mem; +use core::ptr; + +// Work around `SymGetOptions` and `SymSetOptions` not being present in winapi +// itself. Otherwise this is only used when we're double-checking types against +// winapi. +#[cfg(feature = "verify-winapi")] +mod dbghelp { + use crate::windows::*; + pub use winapi::um::dbghelp::{ + StackWalk64, StackWalkEx, SymCleanup, SymFromAddrW, SymFunctionTableAccess64, + SymGetLineFromAddrW64, SymGetModuleBase64, SymGetOptions, SymInitializeW, SymSetOptions, + }; + + extern "system" { + // Not defined in winapi yet + pub fn SymFromInlineContextW( + hProcess: HANDLE, + Address: DWORD64, + InlineContext: ULONG, + Displacement: PDWORD64, + Symbol: PSYMBOL_INFOW, + ) -> BOOL; + pub fn SymGetLineFromInlineContextW( + hProcess: HANDLE, + dwAddr: DWORD64, + InlineContext: ULONG, + qwModuleBaseAddress: DWORD64, + pdwDisplacement: PDWORD, + Line: PIMAGEHLP_LINEW64, + ) -> BOOL; + } + + pub fn assert_equal_types(a: T, _b: T) -> T { + a + } +} + +// This macro is used to define a `Dbghelp` structure which internally contains +// all the function pointers that we might load. +macro_rules! dbghelp { + (extern "system" { + $(fn $name:ident($($arg:ident: $argty:ty),*) -> $ret: ty;)* + }) => ( + pub struct Dbghelp { + /// The loaded DLL for `dbghelp.dll` + dll: HMODULE, + + // Each function pointer for each function we might use + $($name: usize,)* + } + + static mut DBGHELP: Dbghelp = Dbghelp { + // Initially we haven't loaded the DLL + dll: 0 as *mut _, + // Initially all functions are set to zero to say they need to be + // dynamically loaded. + $($name: 0,)* + }; + + // Convenience typedef for each function type. + $(pub type $name = unsafe extern "system" fn($($argty),*) -> $ret;)* + + impl Dbghelp { + /// Attempts to open `dbghelp.dll`. Returns success if it works or + /// error if `LoadLibraryW` fails. + /// + /// Panics if library is already loaded. + fn ensure_open(&mut self) -> Result<(), ()> { + if !self.dll.is_null() { + return Ok(()) + } + let lib = b"dbghelp.dll\0"; + unsafe { + self.dll = LoadLibraryA(lib.as_ptr() as *const i8); + if self.dll.is_null() { + Err(()) + } else { + Ok(()) + } + } + } + + // Function for each method we'd like to use. When called it will + // either read the cached function pointer or load it and return the + // loaded value. Loads are asserted to succeed. + $(pub fn $name(&mut self) -> Option<$name> { + unsafe { + if self.$name == 0 { + let name = concat!(stringify!($name), "\0"); + self.$name = self.symbol(name.as_bytes())?; + } + let ret = mem::transmute::(self.$name); + #[cfg(feature = "verify-winapi")] + dbghelp::assert_equal_types(ret, dbghelp::$name); + Some(ret) + } + })* + + fn symbol(&self, symbol: &[u8]) -> Option { + unsafe { + match GetProcAddress(self.dll, symbol.as_ptr() as *const _) as usize { + 0 => None, + n => Some(n), + } + } + } + } + + // Convenience proxy to use the cleanup locks to reference dbghelp + // functions. + #[allow(dead_code)] + impl Init { + $(pub fn $name(&self) -> $name { + unsafe { + DBGHELP.$name().unwrap() + } + })* + + pub fn dbghelp(&self) -> *mut Dbghelp { + unsafe { + &mut DBGHELP + } + } + } + ) + +} + +const SYMOPT_DEFERRED_LOADS: DWORD = 0x00000004; + +dbghelp! { + extern "system" { + fn SymGetOptions() -> DWORD; + fn SymSetOptions(options: DWORD) -> DWORD; + fn SymInitializeW( + handle: HANDLE, + path: PCWSTR, + invade: BOOL + ) -> BOOL; + fn SymCleanup(handle: HANDLE) -> BOOL; + fn StackWalk64( + MachineType: DWORD, + hProcess: HANDLE, + hThread: HANDLE, + StackFrame: LPSTACKFRAME64, + ContextRecord: PVOID, + ReadMemoryRoutine: PREAD_PROCESS_MEMORY_ROUTINE64, + FunctionTableAccessRoutine: PFUNCTION_TABLE_ACCESS_ROUTINE64, + GetModuleBaseRoutine: PGET_MODULE_BASE_ROUTINE64, + TranslateAddress: PTRANSLATE_ADDRESS_ROUTINE64 + ) -> BOOL; + fn SymFunctionTableAccess64( + hProcess: HANDLE, + AddrBase: DWORD64 + ) -> PVOID; + fn SymGetModuleBase64( + hProcess: HANDLE, + AddrBase: DWORD64 + ) -> DWORD64; + fn SymFromAddrW( + hProcess: HANDLE, + Address: DWORD64, + Displacement: PDWORD64, + Symbol: PSYMBOL_INFOW + ) -> BOOL; + fn SymGetLineFromAddrW64( + hProcess: HANDLE, + dwAddr: DWORD64, + pdwDisplacement: PDWORD, + Line: PIMAGEHLP_LINEW64 + ) -> BOOL; + fn StackWalkEx( + MachineType: DWORD, + hProcess: HANDLE, + hThread: HANDLE, + StackFrame: LPSTACKFRAME_EX, + ContextRecord: PVOID, + ReadMemoryRoutine: PREAD_PROCESS_MEMORY_ROUTINE64, + FunctionTableAccessRoutine: PFUNCTION_TABLE_ACCESS_ROUTINE64, + GetModuleBaseRoutine: PGET_MODULE_BASE_ROUTINE64, + TranslateAddress: PTRANSLATE_ADDRESS_ROUTINE64, + Flags: DWORD + ) -> BOOL; + fn SymFromInlineContextW( + hProcess: HANDLE, + Address: DWORD64, + InlineContext: ULONG, + Displacement: PDWORD64, + Symbol: PSYMBOL_INFOW + ) -> BOOL; + fn SymGetLineFromInlineContextW( + hProcess: HANDLE, + dwAddr: DWORD64, + InlineContext: ULONG, + qwModuleBaseAddress: DWORD64, + pdwDisplacement: PDWORD, + Line: PIMAGEHLP_LINEW64 + ) -> BOOL; + } +} + +pub struct Init { + lock: HANDLE, +} + +/// Initialize all support necessary to access `dbghelp` API functions from this +/// crate. +/// +/// Note that this function is **safe**, it internally has its own +/// synchronization. Also note that it is safe to call this function multiple +/// times recursively. +pub fn init() -> Result { + use core::sync::atomic::{AtomicUsize, Ordering::SeqCst}; + + // Helper function for generating a name that's unique to the process. + fn mutex_name() -> [u8; 33] { + let mut name: [u8; 33] = *b"Local\\RustBacktraceMutex00000000\0"; + let mut id = unsafe { GetCurrentProcessId() }; + // Quick and dirty no alloc u32 to hex. + let mut index = name.len() - 1; + while id > 0 { + name[index - 1] = match (id & 0xF) as u8 { + h @ 0..=9 => b'0' + h, + h => b'A' + (h - 10), + }; + id >>= 4; + index -= 1; + } + name + } + + unsafe { + // First thing we need to do is to synchronize this function. This can + // be called concurrently from other threads or recursively within one + // thread. Note that it's trickier than that though because what we're + // using here, `dbghelp`, *also* needs to be synchronized with all other + // callers to `dbghelp` in this process. + // + // Typically there aren't really that many calls to `dbghelp` within the + // same process and we can probably safely assume that we're the only + // ones accessing it. There is, however, one primary other user we have + // to worry about which is ironically ourselves, but in the standard + // library. The Rust standard library depends on this crate for + // backtrace support, and this crate also exists on crates.io. This + // means that if the standard library is printing a panic backtrace it + // may race with this crate coming from crates.io, causing segfaults. + // + // To help solve this synchronization problem we employ a + // Windows-specific trick here (it is, after all, a Windows-specific + // restriction about synchronization). We create a *session-local* named + // mutex to protect this call. The intention here is that the standard + // library and this crate don't have to share Rust-level APIs to + // synchronize here but can instead work behind the scenes to make sure + // they're synchronizing with one another. That way when this function + // is called through the standard library or through crates.io we can be + // sure that the same mutex is being acquired. + // + // So all of that is to say that the first thing we do here is we + // atomically create a `HANDLE` which is a named mutex on Windows. We + // synchronize a bit with other threads sharing this function + // specifically and ensure that only one handle is created per instance + // of this function. Note that the handle is never closed once it's + // stored in the global. + // + // After we've actually go the lock we simply acquire it, and our `Init` + // handle we hand out will be responsible for dropping it eventually. + static LOCK: AtomicUsize = AtomicUsize::new(0); + let mut lock = LOCK.load(SeqCst); + if lock == 0 { + let name = mutex_name(); + lock = CreateMutexA(ptr::null_mut(), 0, name.as_ptr().cast::()) as usize; + if lock == 0 { + return Err(()); + } + if let Err(other) = LOCK.compare_exchange(0, lock, SeqCst, SeqCst) { + debug_assert!(other != 0); + CloseHandle(lock as HANDLE); + lock = other; + } + } + debug_assert!(lock != 0); + let lock = lock as HANDLE; + let r = WaitForSingleObjectEx(lock, INFINITE, FALSE); + debug_assert_eq!(r, 0); + let ret = Init { lock }; + + // Ok, phew! Now that we're all safely synchronized, let's actually + // start processing everything. First up we need to ensure that + // `dbghelp.dll` is actually loaded in this process. We do this + // dynamically to avoid a static dependency. This has historically been + // done to work around weird linking issues and is intended at making + // binaries a bit more portable since this is largely just a debugging + // utility. + // + // Once we've opened `dbghelp.dll` we need to call some initialization + // functions in it, and that's detailed more below. We only do this + // once, though, so we've got a global boolean indicating whether we're + // done yet or not. + DBGHELP.ensure_open()?; + + static mut INITIALIZED: bool = false; + if INITIALIZED { + return Ok(ret); + } + + let orig = DBGHELP.SymGetOptions().unwrap()(); + + // Ensure that the `SYMOPT_DEFERRED_LOADS` flag is set, because + // according to MSVC's own docs about this: "This is the fastest, most + // efficient way to use the symbol handler.", so let's do that! + DBGHELP.SymSetOptions().unwrap()(orig | SYMOPT_DEFERRED_LOADS); + + // Actually initialize symbols with MSVC. Note that this can fail, but we + // ignore it. There's not a ton of prior art for this per se, but LLVM + // internally seems to ignore the return value here and one of the + // sanitizer libraries in LLVM prints a scary warning if this fails but + // basically ignores it in the long run. + // + // One case this comes up a lot for Rust is that the standard library and + // this crate on crates.io both want to compete for `SymInitializeW`. The + // standard library historically wanted to initialize then cleanup most of + // the time, but now that it's using this crate it means that someone will + // get to initialization first and the other will pick up that + // initialization. + DBGHELP.SymInitializeW().unwrap()(GetCurrentProcess(), ptr::null_mut(), TRUE); + INITIALIZED = true; + Ok(ret) + } +} + +impl Drop for Init { + fn drop(&mut self) { + unsafe { + let r = ReleaseMutex(self.lock); + debug_assert!(r != 0); + } + } +} diff --git a/vendor/backtrace/src/lib.rs b/vendor/backtrace/src/lib.rs new file mode 100644 index 0000000..4615e1f --- /dev/null +++ b/vendor/backtrace/src/lib.rs @@ -0,0 +1,192 @@ +//! A library for acquiring a backtrace at runtime +//! +//! This library is meant to supplement the `RUST_BACKTRACE=1` support of the +//! standard library by allowing an acquisition of a backtrace at runtime +//! programmatically. The backtraces generated by this library do not need to be +//! parsed, for example, and expose the functionality of multiple backend +//! implementations. +//! +//! # Usage +//! +//! First, add this to your Cargo.toml +//! +//! ```toml +//! [dependencies] +//! backtrace = "0.3" +//! ``` +//! +//! Next: +//! +//! ``` +//! fn main() { +//! # // Unsafe here so test passes on no_std. +//! # #[cfg(feature = "std")] { +//! backtrace::trace(|frame| { +//! let ip = frame.ip(); +//! let symbol_address = frame.symbol_address(); +//! +//! // Resolve this instruction pointer to a symbol name +//! backtrace::resolve_frame(frame, |symbol| { +//! if let Some(name) = symbol.name() { +//! // ... +//! } +//! if let Some(filename) = symbol.filename() { +//! // ... +//! } +//! }); +//! +//! true // keep going to the next frame +//! }); +//! } +//! # } +//! ``` +//! +//! # Backtrace accuracy +//! +//! This crate implements best-effort attempts to get the native backtrace. This +//! is not always guaranteed to work, and some platforms don't return any +//! backtrace at all. If your application requires accurate backtraces then it's +//! recommended to closely evaluate this crate to see whether it's suitable +//! for your use case on your target platforms. +//! +//! Even on supported platforms, there's a number of reasons that backtraces may +//! be less-than-accurate, including but not limited to: +//! +//! * Unwind information may not be available. This crate primarily implements +//! backtraces by unwinding the stack, but not all functions may have +//! unwinding information (e.g. DWARF unwinding information). +//! +//! * Rust code may be compiled without unwinding information for some +//! functions. This can also happen for Rust code compiled with +//! `-Cpanic=abort`. You can remedy this, however, with +//! `-Cforce-unwind-tables` as a compiler option. +//! +//! * Unwind information may be inaccurate or corrupt. In the worst case +//! inaccurate unwind information can lead this library to segfault. In the +//! best case inaccurate information will result in a truncated stack trace. +//! +//! * Backtraces may not report filenames/line numbers correctly due to missing +//! or corrupt debug information. This won't lead to segfaults unlike corrupt +//! unwinding information, but missing or malformed debug information will +//! mean that filenames and line numbers will not be available. This may be +//! because debug information wasn't generated by the compiler, or it's just +//! missing on the filesystem. +//! +//! * Not all platforms are supported. For example there's no way to get a +//! backtrace on WebAssembly at the moment. +//! +//! * Crate features may be disabled. Currently this crate supports using Gimli +//! libbacktrace on non-Windows platforms for reading debuginfo for +//! backtraces. If both crate features are disabled, however, then these +//! platforms will generate a backtrace but be unable to generate symbols for +//! it. +//! +//! In most standard workflows for most standard platforms you generally don't +//! need to worry about these caveats. We'll try to fix ones where we can over +//! time, but otherwise it's important to be aware of the limitations of +//! unwinding-based backtraces! + +#![deny(missing_docs)] +#![no_std] +#![cfg_attr( + all(feature = "std", target_env = "sgx", target_vendor = "fortanix"), + feature(sgx_platform) +)] +#![warn(rust_2018_idioms)] +// When we're building as part of libstd, silence all warnings since they're +// irrelevant as this crate is developed out-of-tree. +#![cfg_attr(backtrace_in_libstd, allow(warnings))] +#![cfg_attr(not(feature = "std"), allow(dead_code))] +// We know this is deprecated, it's only here for back-compat reasons. +#![cfg_attr(feature = "rustc-serialize", allow(deprecated))] + +#[cfg(feature = "std")] +#[macro_use] +extern crate std; + +// This is only used for gimli right now, which is only used on some platforms, and miri +// so don't worry if it's unused in other configurations. +#[allow(unused_extern_crates)] +extern crate alloc; + +pub use self::backtrace::{trace_unsynchronized, Frame}; +mod backtrace; + +pub use self::symbolize::resolve_frame_unsynchronized; +pub use self::symbolize::{resolve_unsynchronized, Symbol, SymbolName}; +mod symbolize; + +pub use self::types::BytesOrWideString; +mod types; + +#[cfg(feature = "std")] +pub use self::symbolize::clear_symbol_cache; + +mod print; +pub use print::{BacktraceFmt, BacktraceFrameFmt, PrintFmt}; + +cfg_if::cfg_if! { + if #[cfg(feature = "std")] { + pub use self::backtrace::trace; + pub use self::symbolize::{resolve, resolve_frame}; + pub use self::capture::{Backtrace, BacktraceFrame, BacktraceSymbol}; + mod capture; + } +} + +#[allow(dead_code)] +struct Bomb { + enabled: bool, +} + +#[allow(dead_code)] +impl Drop for Bomb { + fn drop(&mut self) { + if self.enabled { + panic!("cannot panic during the backtrace function"); + } + } +} + +#[allow(dead_code)] +#[cfg(feature = "std")] +mod lock { + use std::boxed::Box; + use std::cell::Cell; + use std::sync::{Mutex, MutexGuard, Once}; + + pub struct LockGuard(Option>); + + static mut LOCK: *mut Mutex<()> = 0 as *mut _; + static INIT: Once = Once::new(); + thread_local!(static LOCK_HELD: Cell = Cell::new(false)); + + impl Drop for LockGuard { + fn drop(&mut self) { + if self.0.is_some() { + LOCK_HELD.with(|slot| { + assert!(slot.get()); + slot.set(false); + }); + } + } + } + + pub fn lock() -> LockGuard { + if LOCK_HELD.with(|l| l.get()) { + return LockGuard(None); + } + LOCK_HELD.with(|s| s.set(true)); + unsafe { + INIT.call_once(|| { + LOCK = Box::into_raw(Box::new(Mutex::new(()))); + }); + LockGuard(Some((*LOCK).lock().unwrap())) + } + } +} + +#[cfg(all(windows, not(target_vendor = "uwp")))] +mod dbghelp; +#[cfg(windows)] +mod windows; diff --git a/vendor/backtrace/src/print.rs b/vendor/backtrace/src/print.rs new file mode 100644 index 0000000..395328a --- /dev/null +++ b/vendor/backtrace/src/print.rs @@ -0,0 +1,320 @@ +#[cfg(feature = "std")] +use super::{BacktraceFrame, BacktraceSymbol}; +use super::{BytesOrWideString, Frame, SymbolName}; +use core::ffi::c_void; +use core::fmt; + +const HEX_WIDTH: usize = 2 + 2 * core::mem::size_of::(); + +#[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 (dyn 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 (dyn 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 + /// symbolicated 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 { + #[cfg(target_os = "fuchsia")] + fuchsia::finish_context(self.fmt)?; + Ok(()) + } + + /// Inserts a message in the backtrace output. + /// + /// This allows information to be inserted between frames, + /// and won't increment the `frame_index` unlike the `frame` + /// method. + pub fn message(&mut self, msg: &str) -> fmt::Result { + self.fmt.write_str(msg) + } + + /// Return the inner formatter. + /// + /// This is used for writing custom information between frames with `write!` and `writeln!`, + /// and won't increment the `frame_index` unlike the `frame` method. + pub fn formatter(&mut self) -> &mut fmt::Formatter<'b> { + self.fmt + } +} + +/// 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 recursively 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: &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: &BacktraceFrame, + symbol: &BacktraceSymbol, + ) -> fmt::Result { + self.print_raw_with_column( + 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 bad. + symbol + .filename() + .and_then(|p| Some(BytesOrWideString::Bytes(p.to_str()?.as_bytes()))), + symbol.lineno(), + symbol.colno(), + )?; + Ok(()) + } + + /// Prints a raw traced `Frame` and `Symbol`, typically from within the raw + /// callbacks of this crate. + pub fn symbol(&mut self, frame: &Frame, symbol: &super::Symbol) -> fmt::Result { + self.print_raw_with_column( + frame.ip(), + symbol.name(), + symbol.filename_raw(), + symbol.lineno(), + symbol.colno(), + )?; + 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>, + filename: Option>, + lineno: Option, + ) -> fmt::Result { + self.print_raw_with_column(frame_ip, symbol_name, filename, lineno, None) + } + + /// Adds a raw frame to the backtrace output, including column information. + /// + /// This method, like 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_with_column( + &mut self, + frame_ip: *mut c_void, + symbol_name: Option>, + filename: Option>, + lineno: Option, + colno: Option, + ) -> 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, colno)?; + } + self.symbol_index += 1; + Ok(()) + } + + #[allow(unused_mut)] + fn print_raw_generic( + &mut self, + mut frame_ip: *mut c_void, + symbol_name: Option>, + filename: Option>, + lineno: Option, + colno: Option, + ) -> 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, "")?, + } + 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, colno)?; + } + + Ok(()) + } + + fn print_fileline( + &mut self, + file: BytesOrWideString<'_>, + line: u32, + colno: Option, + ) -> 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, ":{}", line)?; + + // Add column number, if available. + if let Some(colno) = colno { + write!(self.fmt.fmt, ":{}", colno)?; + } + + write!(self.fmt.fmt, "\n")?; + 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; + } +} diff --git a/vendor/backtrace/src/print/fuchsia.rs b/vendor/backtrace/src/print/fuchsia.rs new file mode 100644 index 0000000..cb87269 --- /dev/null +++ b/vendor/backtrace/src/print/fuchsia.rs @@ -0,0 +1,441 @@ +use core::fmt::{self, Write}; +use core::mem::{size_of, transmute}; +use core::slice::from_raw_parts; +use libc::c_char; + +extern "C" { + // dl_iterate_phdr takes a callback that will receive a dl_phdr_info pointer + // for every DSO that has been linked into the process. dl_iterate_phdr also + // ensures that the dynamic linker is locked from start to finish of the + // iteration. If the callback returns a non-zero value the iteration is + // terminated early. 'data' will be passed as the third argument to the + // callback on each call. 'size' gives the size of the dl_phdr_info. + #[allow(improper_ctypes)] + fn dl_iterate_phdr( + f: extern "C" fn(info: &dl_phdr_info, size: usize, data: &mut DsoPrinter<'_, '_>) -> i32, + data: &mut DsoPrinter<'_, '_>, + ) -> i32; +} + +// We need to parse out the build ID and some basic program header data +// which means that we need a bit of stuff from the ELF spec as well. + +const PT_LOAD: u32 = 1; +const PT_NOTE: u32 = 4; + +// Now we have to replicate, bit for bit, the structure of the dl_phdr_info +// type used by fuchsia's current dynamic linker. Chromium also has this ABI +// boundary as well as crashpad. Eventually we'd like to move these cases to +// use elf-search but we'd need to provide that in the SDK and that has not +// yet been done. Thus we (and they) are stuck having to use this method +// which incurs a tight coupling with the fuchsia libc. + +#[allow(non_camel_case_types)] +#[repr(C)] +struct dl_phdr_info { + addr: *const u8, + name: *const c_char, + phdr: *const Elf_Phdr, + phnum: u16, + adds: u64, + subs: u64, + tls_modid: usize, + tls_data: *const u8, +} + +impl dl_phdr_info { + fn program_headers(&self) -> PhdrIter<'_> { + PhdrIter { + phdrs: self.phdr_slice(), + base: self.addr, + } + } + // We have no way of knowing of checking if e_phoff and e_phnum are valid. + // libc should ensure this for us however so it's safe to form a slice here. + fn phdr_slice(&self) -> &[Elf_Phdr] { + unsafe { from_raw_parts(self.phdr, self.phnum as usize) } + } +} + +struct PhdrIter<'a> { + phdrs: &'a [Elf_Phdr], + base: *const u8, +} + +impl<'a> Iterator for PhdrIter<'a> { + type Item = Phdr<'a>; + fn next(&mut self) -> Option { + self.phdrs.split_first().map(|(phdr, new_phdrs)| { + self.phdrs = new_phdrs; + Phdr { + phdr, + base: self.base, + } + }) + } +} + +// Elf_Phdr represents a 64-bit ELF program header in the endianness of the target +// architecture. +#[allow(non_camel_case_types)] +#[derive(Clone, Debug)] +#[repr(C)] +struct Elf_Phdr { + p_type: u32, + p_flags: u32, + p_offset: u64, + p_vaddr: u64, + p_paddr: u64, + p_filesz: u64, + p_memsz: u64, + p_align: u64, +} + +// Phdr represents a valid ELF program header and its contents. +struct Phdr<'a> { + phdr: &'a Elf_Phdr, + base: *const u8, +} + +impl<'a> Phdr<'a> { + // We have no way of checking if p_addr or p_memsz are valid. Fuchsia's libc + // parses the notes first however so by virtue of being here these headers + // must be valid. NoteIter does not require the underlying data to be valid + // but it does require the bounds to be valid. We trust that libc has ensured + // that this is the case for us here. + fn notes(&self) -> NoteIter<'a> { + unsafe { + NoteIter::new( + self.base.add(self.phdr.p_offset as usize), + self.phdr.p_memsz as usize, + ) + } + } +} + +// The note type for build IDs. +const NT_GNU_BUILD_ID: u32 = 3; + +// Elf_Nhdr represents an ELF note header in the endianness of the target. +#[allow(non_camel_case_types)] +#[repr(C)] +struct Elf_Nhdr { + n_namesz: u32, + n_descsz: u32, + n_type: u32, +} + +// Note represents an ELF note (header + contents). The name is left as a u8 +// slice because it is not always null terminated and rust makes it easy enough +// to check that the bytes match eitherway. +struct Note<'a> { + name: &'a [u8], + desc: &'a [u8], + tipe: u32, +} + +// NoteIter lets you safely iterate over a note segment. It terminates as soon +// as an error occurs or there are no more notes. If you iterate over invalid +// data it will function as though no notes were found. +struct NoteIter<'a> { + base: &'a [u8], + error: bool, +} + +impl<'a> NoteIter<'a> { + // It is an invariant of function that the pointer and size given denote a + // valid range of bytes that can all be read. The contents of these bytes + // can be anything but the range must be valid for this to be safe. + unsafe fn new(base: *const u8, size: usize) -> Self { + NoteIter { + base: from_raw_parts(base, size), + error: false, + } + } +} + +// align_to aligns 'x' to 'to'-byte alignment assuming 'to' is a power of 2. +// This follows a standard pattern in C/C++ ELF parsing code where +// (x + to - 1) & -to is used. Rust does not let you negate usize so I use +// 2's-complement conversion to recreate that. +fn align_to(x: usize, to: usize) -> usize { + (x + to - 1) & (!to + 1) +} + +// take_bytes_align4 consumes num bytes from the slice (if present) and +// additionally ensures that the final slice is properlly aligned. If an +// either the number of bytes requested is too large or the slice can't be +// realigned afterwards due to not enough remaining bytes existing, None is +// returned and the slice is not modified. +fn take_bytes_align4<'a>(num: usize, bytes: &mut &'a [u8]) -> Option<&'a [u8]> { + if bytes.len() < align_to(num, 4) { + return None; + } + let (out, bytes_new) = bytes.split_at(num); + *bytes = &bytes_new[align_to(num, 4) - num..]; + Some(out) +} + +// This function has no real invariants the caller must uphold other than +// perhaps that 'bytes' should be aligned for performance (and on some +// architectures correctness). The values in the Elf_Nhdr fields might +// be nonsense but this function ensures no such thing. +fn take_nhdr<'a>(bytes: &mut &'a [u8]) -> Option<&'a Elf_Nhdr> { + if size_of::() > bytes.len() { + return None; + } + // This is safe as long as there is enough space and we just confirmed that + // in the if statement above so this should not be unsafe. + let out = unsafe { transmute::<*const u8, &'a Elf_Nhdr>(bytes.as_ptr()) }; + // Note that sice_of::() is always 4-byte aligned. + *bytes = &bytes[size_of::()..]; + Some(out) +} + +impl<'a> Iterator for NoteIter<'a> { + type Item = Note<'a>; + fn next(&mut self) -> Option { + // Check if we've reached the end. + if self.base.len() == 0 || self.error { + return None; + } + // We transmute out an nhdr but we carefully consider the resulting + // struct. We don't trust the namesz or descsz and we make no unsafe + // decisions based on the type. So even if we get out complete garbage + // we should still be safe. + let nhdr = take_nhdr(&mut self.base)?; + let name = take_bytes_align4(nhdr.n_namesz as usize, &mut self.base)?; + let desc = take_bytes_align4(nhdr.n_descsz as usize, &mut self.base)?; + Some(Note { + name: name, + desc: desc, + tipe: nhdr.n_type, + }) + } +} + +struct Perm(u32); + +/// Indicates that a segment is executable. +const PERM_X: u32 = 0b00000001; +/// Indicates that a segment is writable. +const PERM_W: u32 = 0b00000010; +/// Indicates that a segment is readable. +const PERM_R: u32 = 0b00000100; + +impl core::fmt::Display for Perm { + fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result { + let v = self.0; + if v & PERM_R != 0 { + f.write_char('r')? + } + if v & PERM_W != 0 { + f.write_char('w')? + } + if v & PERM_X != 0 { + f.write_char('x')? + } + Ok(()) + } +} + +/// Represents an ELF segment at runtime. +struct Segment { + /// Gives the runtime virtual address of this segment's contents. + addr: usize, + /// Gives the memory size of this segment's contents. + size: usize, + /// Gives the module virtual address of this segment with the ELF file. + mod_rel_addr: usize, + /// Gives the permissions found in the ELF file. These permissions are not + /// necessarily the permissions present at runtime however. + flags: Perm, +} + +/// Lets one iterate over Segments from a DSO. +struct SegmentIter<'a> { + phdrs: &'a [Elf_Phdr], + base: usize, +} + +impl Iterator for SegmentIter<'_> { + type Item = Segment; + + fn next(&mut self) -> Option { + self.phdrs.split_first().and_then(|(phdr, new_phdrs)| { + self.phdrs = new_phdrs; + if phdr.p_type != PT_LOAD { + self.next() + } else { + Some(Segment { + addr: phdr.p_vaddr as usize + self.base, + size: phdr.p_memsz as usize, + mod_rel_addr: phdr.p_vaddr as usize, + flags: Perm(phdr.p_flags), + }) + } + }) + } +} + +/// Represents an ELF DSO (Dynamic Shared Object). This type references +/// the data stored in the actual DSO rather than making its own copy. +struct Dso<'a> { + /// The dynamic linker always gives us a name, even if the name is empty. + /// In the case of the main executable this name will be empty. In the case + /// of a shared object it will be the soname (see DT_SONAME). + name: &'a str, + /// On Fuchsia virtually all binaries have build IDs but this is not a strict + /// requirement. There's no way to match up DSO information with a real ELF + /// file afterwards if there is no build_id so we require that every DSO + /// have one here. DSO's without a build_id are ignored. + build_id: &'a [u8], + + base: usize, + phdrs: &'a [Elf_Phdr], +} + +impl Dso<'_> { + /// Returns an iterator over Segments in this DSO. + fn segments(&self) -> SegmentIter<'_> { + SegmentIter { + phdrs: self.phdrs.as_ref(), + base: self.base, + } + } +} + +struct HexSlice<'a> { + bytes: &'a [u8], +} + +impl fmt::Display for HexSlice<'_> { + fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result { + for byte in self.bytes { + write!(f, "{:02x}", byte)?; + } + Ok(()) + } +} + +fn get_build_id<'a>(info: &'a dl_phdr_info) -> Option<&'a [u8]> { + for phdr in info.program_headers() { + if phdr.phdr.p_type == PT_NOTE { + for note in phdr.notes() { + if note.tipe == NT_GNU_BUILD_ID && (note.name == b"GNU\0" || note.name == b"GNU") { + return Some(note.desc); + } + } + } + } + None +} + +/// These errors encode issues that arise while parsing information about +/// each DSO. +enum Error { + /// NameError means that an error occurred while converting a C style string + /// into a rust string. + NameError(core::str::Utf8Error), + /// BuildIDError means that we didn't find a build ID. This could either be + /// because the DSO had no build ID or because the segment containing the + /// build ID was malformed. + BuildIDError, +} + +/// Calls either 'dso' or 'error' for each DSO linked into the process by the +/// dynamic linker. +/// +/// # Arguments +/// +/// * `visitor` - A DsoPrinter that will have one of eats methods called foreach DSO. +fn for_each_dso(mut visitor: &mut DsoPrinter<'_, '_>) { + extern "C" fn callback( + info: &dl_phdr_info, + _size: usize, + visitor: &mut DsoPrinter<'_, '_>, + ) -> i32 { + // dl_iterate_phdr ensures that info.name will point to a valid + // location. + let name_len = unsafe { libc::strlen(info.name) }; + let name_slice: &[u8] = + unsafe { core::slice::from_raw_parts(info.name as *const u8, name_len) }; + let name = match core::str::from_utf8(name_slice) { + Ok(name) => name, + Err(err) => { + return visitor.error(Error::NameError(err)) as i32; + } + }; + let build_id = match get_build_id(info) { + Some(build_id) => build_id, + None => { + return visitor.error(Error::BuildIDError) as i32; + } + }; + visitor.dso(Dso { + name: name, + build_id: build_id, + phdrs: info.phdr_slice(), + base: info.addr as usize, + }) as i32 + } + unsafe { dl_iterate_phdr(callback, &mut visitor) }; +} + +struct DsoPrinter<'a, 'b> { + writer: &'a mut core::fmt::Formatter<'b>, + module_count: usize, + error: core::fmt::Result, +} + +impl DsoPrinter<'_, '_> { + fn dso(&mut self, dso: Dso<'_>) -> bool { + let mut write = || { + write!( + self.writer, + "{{{{{{module:{:#x}:{}:elf:{}}}}}}}\n", + self.module_count, + dso.name, + HexSlice { + bytes: dso.build_id.as_ref() + } + )?; + for seg in dso.segments() { + write!( + self.writer, + "{{{{{{mmap:{:#x}:{:#x}:load:{:#x}:{}:{:#x}}}}}}}\n", + seg.addr, seg.size, self.module_count, seg.flags, seg.mod_rel_addr + )?; + } + self.module_count += 1; + Ok(()) + }; + match write() { + Ok(()) => false, + Err(err) => { + self.error = Err(err); + true + } + } + } + fn error(&mut self, _error: Error) -> bool { + false + } +} + +/// This function prints the Fuchsia symbolizer markup for all information contained in a DSO. +pub fn print_dso_context(out: &mut core::fmt::Formatter<'_>) -> core::fmt::Result { + out.write_str("{{{reset:begin}}}\n")?; + let mut visitor = DsoPrinter { + writer: out, + module_count: 0, + error: Ok(()), + }; + for_each_dso(&mut visitor); + visitor.error +} + +/// This function prints the Fuchsia symbolizer markup to end the backtrace. +pub fn finish_context(out: &mut core::fmt::Formatter<'_>) -> core::fmt::Result { + out.write_str("{{{reset:end}}}\n") +} diff --git a/vendor/backtrace/src/symbolize/dbghelp.rs b/vendor/backtrace/src/symbolize/dbghelp.rs new file mode 100644 index 0000000..181dba7 --- /dev/null +++ b/vendor/backtrace/src/symbolize/dbghelp.rs @@ -0,0 +1,218 @@ +//! Symbolication strategy using `dbghelp.dll` on Windows, only used for MSVC +//! +//! This symbolication strategy, like with backtraces, uses dynamically loaded +//! information from `dbghelp.dll`. (see `src/dbghelp.rs` for info about why +//! it's dynamically loaded). +//! +//! This API selects its resolution strategy based on the frame provided or the +//! information we have at hand. If a frame from `StackWalkEx` is given to us +//! then we use similar APIs to generate correct information about inlined +//! functions. Otherwise if all we have is an address or an older stack frame +//! from `StackWalk64` we use the older APIs for symbolication. +//! +//! There's a good deal of support in this module, but a good chunk of it is +//! converting back and forth between Windows types and Rust types. For example +//! symbols come to us as wide strings which we then convert to utf-8 strings if +//! we can. + +#![allow(bad_style)] + +use super::super::{backtrace::StackFrame, dbghelp, windows::*}; +use super::{BytesOrWideString, ResolveWhat, SymbolName}; +use core::char; +use core::ffi::c_void; +use core::marker; +use core::mem; +use core::slice; + +// Store an OsString on std so we can provide the symbol name and filename. +pub struct Symbol<'a> { + name: *const [u8], + addr: *mut c_void, + line: Option, + filename: Option<*const [u16]>, + #[cfg(feature = "std")] + _filename_cache: Option<::std::ffi::OsString>, + #[cfg(not(feature = "std"))] + _filename_cache: (), + _marker: marker::PhantomData<&'a i32>, +} + +impl Symbol<'_> { + pub fn name(&self) -> Option> { + Some(SymbolName::new(unsafe { &*self.name })) + } + + pub fn addr(&self) -> Option<*mut c_void> { + Some(self.addr as *mut _) + } + + pub fn filename_raw(&self) -> Option> { + self.filename + .map(|slice| unsafe { BytesOrWideString::Wide(&*slice) }) + } + + pub fn colno(&self) -> Option { + None + } + + pub fn lineno(&self) -> Option { + self.line + } + + #[cfg(feature = "std")] + pub fn filename(&self) -> Option<&::std::path::Path> { + use std::path::Path; + + self._filename_cache.as_ref().map(Path::new) + } +} + +#[repr(C, align(8))] +struct Aligned8(T); + +pub unsafe fn resolve(what: ResolveWhat<'_>, cb: &mut dyn FnMut(&super::Symbol)) { + // Ensure this process's symbols are initialized + let dbghelp = match dbghelp::init() { + Ok(dbghelp) => dbghelp, + Err(()) => return, // oh well... + }; + + match what { + ResolveWhat::Address(_) => resolve_without_inline(&dbghelp, what.address_or_ip(), cb), + ResolveWhat::Frame(frame) => match &frame.inner.stack_frame { + StackFrame::New(frame) => resolve_with_inline(&dbghelp, frame, cb), + StackFrame::Old(_) => resolve_without_inline(&dbghelp, frame.ip(), cb), + }, + } +} + +unsafe fn resolve_with_inline( + dbghelp: &dbghelp::Init, + frame: &STACKFRAME_EX, + cb: &mut dyn FnMut(&super::Symbol), +) { + do_resolve( + |info| { + dbghelp.SymFromInlineContextW()( + GetCurrentProcess(), + super::adjust_ip(frame.AddrPC.Offset as *mut _) as u64, + frame.InlineFrameContext, + &mut 0, + info, + ) + }, + |line| { + dbghelp.SymGetLineFromInlineContextW()( + GetCurrentProcess(), + super::adjust_ip(frame.AddrPC.Offset as *mut _) as u64, + frame.InlineFrameContext, + 0, + &mut 0, + line, + ) + }, + cb, + ) +} + +unsafe fn resolve_without_inline( + dbghelp: &dbghelp::Init, + addr: *mut c_void, + cb: &mut dyn FnMut(&super::Symbol), +) { + do_resolve( + |info| dbghelp.SymFromAddrW()(GetCurrentProcess(), addr as DWORD64, &mut 0, info), + |line| dbghelp.SymGetLineFromAddrW64()(GetCurrentProcess(), addr as DWORD64, &mut 0, line), + cb, + ) +} + +unsafe fn do_resolve( + sym_from_addr: impl FnOnce(*mut SYMBOL_INFOW) -> BOOL, + get_line_from_addr: impl FnOnce(&mut IMAGEHLP_LINEW64) -> BOOL, + cb: &mut dyn FnMut(&super::Symbol), +) { + const SIZE: usize = 2 * MAX_SYM_NAME + mem::size_of::(); + let mut data = Aligned8([0u8; SIZE]); + let data = &mut data.0; + let info = &mut *(data.as_mut_ptr() as *mut SYMBOL_INFOW); + info.MaxNameLen = MAX_SYM_NAME as ULONG; + // the struct size in C. the value is different to + // `size_of::() - MAX_SYM_NAME + 1` (== 81) + // due to struct alignment. + info.SizeOfStruct = 88; + + if sym_from_addr(info) != TRUE { + return; + } + + // If the symbol name is greater than MaxNameLen, SymFromAddrW will + // give a buffer of (MaxNameLen - 1) characters and set NameLen to + // the real value. + let name_len = ::core::cmp::min(info.NameLen as usize, info.MaxNameLen as usize - 1); + let name_ptr = info.Name.as_ptr() as *const u16; + let name = slice::from_raw_parts(name_ptr, name_len); + + // Reencode the utf-16 symbol to utf-8 so we can use `SymbolName::new` like + // all other platforms + let mut name_len = 0; + let mut name_buffer = [0; 256]; + { + let mut remaining = &mut name_buffer[..]; + for c in char::decode_utf16(name.iter().cloned()) { + let c = c.unwrap_or(char::REPLACEMENT_CHARACTER); + let len = c.len_utf8(); + if len < remaining.len() { + c.encode_utf8(remaining); + let tmp = remaining; + remaining = &mut tmp[len..]; + name_len += len; + } else { + break; + } + } + } + let name = &name_buffer[..name_len] as *const [u8]; + + let mut line = mem::zeroed::(); + line.SizeOfStruct = mem::size_of::() as DWORD; + + let mut filename = None; + let mut lineno = None; + if get_line_from_addr(&mut line) == TRUE { + lineno = Some(line.LineNumber as u32); + + let base = line.FileName; + let mut len = 0; + while *base.offset(len) != 0 { + len += 1; + } + + let len = len as usize; + + filename = Some(slice::from_raw_parts(base, len) as *const [u16]); + } + + cb(&super::Symbol { + inner: Symbol { + name, + addr: info.Address as *mut _, + line: lineno, + filename, + _filename_cache: cache(filename), + _marker: marker::PhantomData, + }, + }) +} + +#[cfg(feature = "std")] +unsafe fn cache(filename: Option<*const [u16]>) -> Option<::std::ffi::OsString> { + use std::os::windows::ffi::OsStringExt; + filename.map(|f| ::std::ffi::OsString::from_wide(&*f)) +} + +#[cfg(not(feature = "std"))] +unsafe fn cache(_filename: Option<*const [u16]>) {} + +pub unsafe fn clear_symbol_cache() {} diff --git a/vendor/backtrace/src/symbolize/gimli.rs b/vendor/backtrace/src/symbolize/gimli.rs new file mode 100644 index 0000000..7f1c6a5 --- /dev/null +++ b/vendor/backtrace/src/symbolize/gimli.rs @@ -0,0 +1,511 @@ +//! Support for symbolication using the `gimli` crate on crates.io +//! +//! This is the default symbolication implementation for Rust. + +use self::gimli::read::EndianSlice; +use self::gimli::NativeEndian as Endian; +use self::mmap::Mmap; +use self::stash::Stash; +use super::BytesOrWideString; +use super::ResolveWhat; +use super::SymbolName; +use addr2line::gimli; +use core::convert::TryInto; +use core::mem; +use core::u32; +use libc::c_void; +use mystd::ffi::OsString; +use mystd::fs::File; +use mystd::path::Path; +use mystd::prelude::v1::*; + +#[cfg(backtrace_in_libstd)] +mod mystd { + pub use crate::*; +} +#[cfg(not(backtrace_in_libstd))] +extern crate std as mystd; + +cfg_if::cfg_if! { + if #[cfg(windows)] { + #[path = "gimli/mmap_windows.rs"] + mod mmap; + } else if #[cfg(any( + target_os = "android", + target_os = "freebsd", + target_os = "fuchsia", + target_os = "haiku", + target_os = "ios", + target_os = "linux", + target_os = "macos", + target_os = "openbsd", + target_os = "solaris", + target_os = "illumos", + ))] { + #[path = "gimli/mmap_unix.rs"] + mod mmap; + } else { + #[path = "gimli/mmap_fake.rs"] + mod mmap; + } +} + +mod stash; + +const MAPPINGS_CACHE_SIZE: usize = 4; + +struct Mapping { + // 'static lifetime is a lie to hack around lack of support for self-referential structs. + cx: Context<'static>, + _map: Mmap, + stash: Stash, +} + +enum Either { + #[allow(dead_code)] + A(A), + B(B), +} + +impl Mapping { + /// Creates a `Mapping` by ensuring that the `data` specified is used to + /// create a `Context` and it can only borrow from that or the `Stash` of + /// decompressed sections or auxiliary data. + fn mk(data: Mmap, mk: F) -> Option + where + F: for<'a> FnOnce(&'a [u8], &'a Stash) -> Option>, + { + Mapping::mk_or_other(data, move |data, stash| { + let cx = mk(data, stash)?; + Some(Either::B(cx)) + }) + } + + /// Creates a `Mapping` from `data`, or if the closure decides to, returns a + /// different mapping. + fn mk_or_other(data: Mmap, mk: F) -> Option + where + F: for<'a> FnOnce(&'a [u8], &'a Stash) -> Option>>, + { + let stash = Stash::new(); + let cx = match mk(&data, &stash)? { + Either::A(mapping) => return Some(mapping), + Either::B(cx) => cx, + }; + Some(Mapping { + // Convert to 'static lifetimes since the symbols should + // only borrow `map` and `stash` and we're preserving them below. + cx: unsafe { core::mem::transmute::, Context<'static>>(cx) }, + _map: data, + stash: stash, + }) + } +} + +struct Context<'a> { + dwarf: addr2line::Context>, + object: Object<'a>, + package: Option>>, +} + +impl<'data> Context<'data> { + fn new( + stash: &'data Stash, + object: Object<'data>, + sup: Option>, + dwp: Option>, + ) -> Option> { + let mut sections = gimli::Dwarf::load(|id| -> Result<_, ()> { + let data = object.section(stash, id.name()).unwrap_or(&[]); + Ok(EndianSlice::new(data, Endian)) + }) + .ok()?; + + if let Some(sup) = sup { + sections + .load_sup(|id| -> Result<_, ()> { + let data = sup.section(stash, id.name()).unwrap_or(&[]); + Ok(EndianSlice::new(data, Endian)) + }) + .ok()?; + } + let dwarf = addr2line::Context::from_dwarf(sections).ok()?; + + let mut package = None; + if let Some(dwp) = dwp { + package = Some( + gimli::DwarfPackage::load( + |id| -> Result<_, gimli::Error> { + let data = id + .dwo_name() + .and_then(|name| dwp.section(stash, name)) + .unwrap_or(&[]); + Ok(EndianSlice::new(data, Endian)) + }, + EndianSlice::new(&[], Endian), + ) + .ok()?, + ); + } + + Some(Context { + dwarf, + object, + package, + }) + } + + fn find_frames( + &'_ self, + stash: &'data Stash, + probe: u64, + ) -> gimli::Result>> { + use addr2line::{LookupContinuation, LookupResult}; + + let mut l = self.dwarf.find_frames(probe); + loop { + let (load, continuation) = match l { + LookupResult::Output(output) => break output, + LookupResult::Load { load, continuation } => (load, continuation), + }; + + l = continuation.resume(handle_split_dwarf(self.package.as_ref(), stash, load)); + } + } +} + +fn mmap(path: &Path) -> Option { + let file = File::open(path).ok()?; + let len = file.metadata().ok()?.len().try_into().ok()?; + unsafe { Mmap::map(&file, len) } +} + +cfg_if::cfg_if! { + if #[cfg(windows)] { + mod coff; + use self::coff::{handle_split_dwarf, Object}; + } else if #[cfg(any( + target_os = "macos", + target_os = "ios", + target_os = "tvos", + target_os = "watchos", + ))] { + mod macho; + use self::macho::{handle_split_dwarf, Object}; + } else { + mod elf; + use self::elf::{handle_split_dwarf, Object}; + } +} + +cfg_if::cfg_if! { + if #[cfg(windows)] { + mod libs_windows; + use libs_windows::native_libraries; + } else if #[cfg(any( + target_os = "macos", + target_os = "ios", + target_os = "tvos", + target_os = "watchos", + ))] { + mod libs_macos; + use libs_macos::native_libraries; + } else if #[cfg(target_os = "illumos")] { + mod libs_illumos; + use libs_illumos::native_libraries; + } else if #[cfg(all( + any( + target_os = "linux", + target_os = "fuchsia", + target_os = "freebsd", + target_os = "openbsd", + target_os = "netbsd", + all(target_os = "android", feature = "dl_iterate_phdr"), + ), + not(target_env = "uclibc"), + ))] { + mod libs_dl_iterate_phdr; + use libs_dl_iterate_phdr::native_libraries; + #[path = "gimli/parse_running_mmaps_unix.rs"] + mod parse_running_mmaps; + } else if #[cfg(target_env = "libnx")] { + mod libs_libnx; + use libs_libnx::native_libraries; + } else if #[cfg(target_os = "haiku")] { + mod libs_haiku; + use libs_haiku::native_libraries; + } else { + // Everything else should doesn't know how to load native libraries. + fn native_libraries() -> Vec { + Vec::new() + } + } +} + +#[derive(Default)] +struct Cache { + /// All known shared libraries that have been loaded. + libraries: Vec, + + /// Mappings cache where we retain parsed dwarf information. + /// + /// This list has a fixed capacity for its entire lifetime which never + /// increases. The `usize` element of each pair is an index into `libraries` + /// above where `usize::max_value()` represents the current executable. The + /// `Mapping` is corresponding parsed dwarf information. + /// + /// Note that this is basically an LRU cache and we'll be shifting things + /// around in here as we symbolize addresses. + mappings: Vec<(usize, Mapping)>, +} + +struct Library { + name: OsString, + /// Segments of this library loaded into memory, and where they're loaded. + segments: Vec, + /// The "bias" of this library, typically where it's loaded into memory. + /// This value is added to each segment's stated address to get the actual + /// virtual memory address that the segment is loaded into. Additionally + /// this bias is subtracted from real virtual memory addresses to index into + /// debuginfo and the symbol table. + bias: usize, +} + +struct LibrarySegment { + /// The stated address of this segment in the object file. This is not + /// actually where the segment is loaded, but rather this address plus the + /// containing library's `bias` is where to find it. + stated_virtual_memory_address: usize, + /// The size of this segment in memory. + len: usize, +} + +// unsafe because this is required to be externally synchronized +pub unsafe fn clear_symbol_cache() { + Cache::with_global(|cache| cache.mappings.clear()); +} + +impl Cache { + fn new() -> Cache { + Cache { + mappings: Vec::with_capacity(MAPPINGS_CACHE_SIZE), + libraries: native_libraries(), + } + } + + // unsafe because this is required to be externally synchronized + unsafe fn with_global(f: impl FnOnce(&mut Self)) { + // A very small, very simple LRU cache for debug info mappings. + // + // The hit rate should be very high, since the typical stack doesn't cross + // between many shared libraries. + // + // The `addr2line::Context` structures are pretty expensive to create. Its + // cost is expected to be amortized by subsequent `locate` queries, which + // leverage the structures built when constructing `addr2line::Context`s to + // get nice speedups. If we didn't have this cache, that amortization would + // never happen, and symbolicating backtraces would be ssssllllooooowwww. + static mut MAPPINGS_CACHE: Option = None; + + f(MAPPINGS_CACHE.get_or_insert_with(|| Cache::new())) + } + + fn avma_to_svma(&self, addr: *const u8) -> Option<(usize, *const u8)> { + self.libraries + .iter() + .enumerate() + .filter_map(|(i, lib)| { + // First up, test if this `lib` has any segment containing the + // `addr` (handling relocation). If this check passes then we + // can continue below and actually translate the address. + // + // Note that we're using `wrapping_add` here to avoid overflow + // checks. It's been seen in the wild that the SVMA + bias + // computation overflows. It seems a bit odd that would happen + // but there's not a huge amount we can do about it other than + // probably just ignore those segments since they're likely + // pointing off into space. This originally came up in + // rust-lang/backtrace-rs#329. + if !lib.segments.iter().any(|s| { + let svma = s.stated_virtual_memory_address; + let start = svma.wrapping_add(lib.bias); + let end = start.wrapping_add(s.len); + let address = addr as usize; + start <= address && address < end + }) { + return None; + } + + // Now that we know `lib` contains `addr`, we can offset with + // the bias to find the stated virtual memory address. + let svma = (addr as usize).wrapping_sub(lib.bias); + Some((i, svma as *const u8)) + }) + .next() + } + + fn mapping_for_lib<'a>(&'a mut self, lib: usize) -> Option<(&'a mut Context<'a>, &'a Stash)> { + let idx = self.mappings.iter().position(|(idx, _)| *idx == lib); + + // Invariant: after this conditional completes without early returning + // from an error, the cache entry for this path is at index 0. + + if let Some(idx) = idx { + // When the mapping is already in the cache, move it to the front. + if idx != 0 { + let entry = self.mappings.remove(idx); + self.mappings.insert(0, entry); + } + } else { + // When the mapping is not in the cache, create a new mapping, + // insert it into the front of the cache, and evict the oldest cache + // entry if necessary. + let name = &self.libraries[lib].name; + let mapping = Mapping::new(name.as_ref())?; + + if self.mappings.len() == MAPPINGS_CACHE_SIZE { + self.mappings.pop(); + } + + self.mappings.insert(0, (lib, mapping)); + } + + let mapping = &mut self.mappings[0].1; + let cx: &'a mut Context<'static> = &mut mapping.cx; + let stash: &'a Stash = &mapping.stash; + // don't leak the `'static` lifetime, make sure it's scoped to just + // ourselves + Some(( + unsafe { mem::transmute::<&'a mut Context<'static>, &'a mut Context<'a>>(cx) }, + stash, + )) + } +} + +pub unsafe fn resolve(what: ResolveWhat<'_>, cb: &mut dyn FnMut(&super::Symbol)) { + let addr = what.address_or_ip(); + let mut call = |sym: Symbol<'_>| { + // Extend the lifetime of `sym` to `'static` since we are unfortunately + // required to here, but it's only ever going out as a reference so no + // reference to it should be persisted beyond this frame anyway. + let sym = mem::transmute::, Symbol<'static>>(sym); + (cb)(&super::Symbol { inner: sym }); + }; + + Cache::with_global(|cache| { + let (lib, addr) = match cache.avma_to_svma(addr as *const u8) { + Some(pair) => pair, + None => return, + }; + + // Finally, get a cached mapping or create a new mapping for this file, and + // evaluate the DWARF info to find the file/line/name for this address. + let (cx, stash) = match cache.mapping_for_lib(lib) { + Some((cx, stash)) => (cx, stash), + None => return, + }; + let mut any_frames = false; + if let Ok(mut frames) = cx.find_frames(stash, addr as u64) { + while let Ok(Some(frame)) = frames.next() { + any_frames = true; + let name = match frame.function { + Some(f) => Some(f.name.slice()), + None => cx.object.search_symtab(addr as u64), + }; + call(Symbol::Frame { + addr: addr as *mut c_void, + location: frame.location, + name, + }); + } + } + if !any_frames { + if let Some((object_cx, object_addr)) = cx.object.search_object_map(addr as u64) { + if let Ok(mut frames) = object_cx.find_frames(stash, object_addr) { + while let Ok(Some(frame)) = frames.next() { + any_frames = true; + call(Symbol::Frame { + addr: addr as *mut c_void, + location: frame.location, + name: frame.function.map(|f| f.name.slice()), + }); + } + } + } + } + if !any_frames { + if let Some(name) = cx.object.search_symtab(addr as u64) { + call(Symbol::Symtab { + addr: addr as *mut c_void, + name, + }); + } + } + }); +} + +pub enum Symbol<'a> { + /// We were able to locate frame information for this symbol, and + /// `addr2line`'s frame internally has all the nitty gritty details. + Frame { + addr: *mut c_void, + location: Option>, + name: Option<&'a [u8]>, + }, + /// Couldn't find debug information, but we found it in the symbol table of + /// the elf executable. + Symtab { addr: *mut c_void, name: &'a [u8] }, +} + +impl Symbol<'_> { + pub fn name(&self) -> Option> { + match self { + Symbol::Frame { name, .. } => { + let name = name.as_ref()?; + Some(SymbolName::new(name)) + } + Symbol::Symtab { name, .. } => Some(SymbolName::new(name)), + } + } + + pub fn addr(&self) -> Option<*mut c_void> { + match self { + Symbol::Frame { addr, .. } => Some(*addr), + Symbol::Symtab { .. } => None, + } + } + + pub fn filename_raw(&self) -> Option> { + match self { + Symbol::Frame { location, .. } => { + let file = location.as_ref()?.file?; + Some(BytesOrWideString::Bytes(file.as_bytes())) + } + Symbol::Symtab { .. } => None, + } + } + + pub fn filename(&self) -> Option<&Path> { + match self { + Symbol::Frame { location, .. } => { + let file = location.as_ref()?.file?; + Some(Path::new(file)) + } + Symbol::Symtab { .. } => None, + } + } + + pub fn lineno(&self) -> Option { + match self { + Symbol::Frame { location, .. } => location.as_ref()?.line, + Symbol::Symtab { .. } => None, + } + } + + pub fn colno(&self) -> Option { + match self { + Symbol::Frame { location, .. } => location.as_ref()?.column, + Symbol::Symtab { .. } => None, + } + } +} diff --git a/vendor/backtrace/src/symbolize/gimli/coff.rs b/vendor/backtrace/src/symbolize/gimli/coff.rs new file mode 100644 index 0000000..759c827 --- /dev/null +++ b/vendor/backtrace/src/symbolize/gimli/coff.rs @@ -0,0 +1,118 @@ +use super::{gimli, Context, Endian, EndianSlice, Mapping, Path, Stash, Vec}; +use alloc::sync::Arc; +use core::convert::TryFrom; +use object::pe::{ImageDosHeader, ImageSymbol}; +use object::read::coff::ImageSymbol as _; +use object::read::pe::{ImageNtHeaders, ImageOptionalHeader, SectionTable}; +use object::read::StringTable; +use object::LittleEndian as LE; + +#[cfg(target_pointer_width = "32")] +type Pe = object::pe::ImageNtHeaders32; +#[cfg(target_pointer_width = "64")] +type Pe = object::pe::ImageNtHeaders64; + +impl Mapping { + pub fn new(path: &Path) -> Option { + let map = super::mmap(path)?; + Mapping::mk(map, |data, stash| { + Context::new(stash, Object::parse(data)?, None, None) + }) + } +} + +pub struct Object<'a> { + data: &'a [u8], + sections: SectionTable<'a>, + symbols: Vec<(usize, &'a ImageSymbol)>, + strings: StringTable<'a>, +} + +pub fn get_image_base(data: &[u8]) -> Option { + let dos_header = ImageDosHeader::parse(data).ok()?; + let mut offset = dos_header.nt_headers_offset().into(); + let (nt_headers, _) = Pe::parse(data, &mut offset).ok()?; + usize::try_from(nt_headers.optional_header().image_base()).ok() +} + +impl<'a> Object<'a> { + fn parse(data: &'a [u8]) -> Option> { + let dos_header = ImageDosHeader::parse(data).ok()?; + let mut offset = dos_header.nt_headers_offset().into(); + let (nt_headers, _) = Pe::parse(data, &mut offset).ok()?; + let sections = nt_headers.sections(data, offset).ok()?; + let symtab = nt_headers.symbols(data).ok()?; + let strings = symtab.strings(); + let image_base = usize::try_from(nt_headers.optional_header().image_base()).ok()?; + + // Collect all the symbols into a local vector which is sorted + // by address and contains enough data to learn about the symbol + // name. Note that we only look at function symbols and also + // note that the sections are 1-indexed because the zero section + // is special (apparently). + let mut symbols = Vec::new(); + let mut i = 0; + let len = symtab.len(); + while i < len { + let sym = symtab.symbol(i).ok()?; + i += 1 + sym.number_of_aux_symbols as usize; + let section_number = sym.section_number.get(LE); + if sym.derived_type() != object::pe::IMAGE_SYM_DTYPE_FUNCTION || section_number == 0 { + continue; + } + let addr = usize::try_from(sym.value.get(LE)).ok()?; + let section = sections + .section(usize::try_from(section_number).ok()?) + .ok()?; + let va = usize::try_from(section.virtual_address.get(LE)).ok()?; + symbols.push((addr + va + image_base, sym)); + } + symbols.sort_unstable_by_key(|x| x.0); + Some(Object { + data, + sections, + strings, + symbols, + }) + } + + pub fn section(&self, _: &Stash, name: &str) -> Option<&'a [u8]> { + Some( + self.sections + .section_by_name(self.strings, name.as_bytes())? + .1 + .pe_data(self.data) + .ok()?, + ) + } + + pub fn search_symtab<'b>(&'b self, addr: u64) -> Option<&'b [u8]> { + // Note that unlike other formats COFF doesn't embed the size of + // each symbol. As a last ditch effort search for the *closest* + // symbol to a particular address and return that one. This gets + // really wonky once symbols start getting removed because the + // symbols returned here can be totally incorrect, but we have + // no idea of knowing how to detect that. + let addr = usize::try_from(addr).ok()?; + let i = match self.symbols.binary_search_by_key(&addr, |p| p.0) { + Ok(i) => i, + // typically `addr` isn't in the array, but `i` is where + // we'd insert it, so the previous position must be the + // greatest less than `addr` + Err(i) => i.checked_sub(1)?, + }; + self.symbols[i].1.name(self.strings).ok() + } + + pub(super) fn search_object_map(&self, _addr: u64) -> Option<(&Context<'_>, u64)> { + None + } +} + +pub(super) fn handle_split_dwarf<'data>( + _package: Option<&gimli::DwarfPackage>>, + _stash: &'data Stash, + _load: addr2line::SplitDwarfLoad>, +) -> Option>>> { + None +} diff --git a/vendor/backtrace/src/symbolize/gimli/elf.rs b/vendor/backtrace/src/symbolize/gimli/elf.rs new file mode 100644 index 0000000..b0eec07 --- /dev/null +++ b/vendor/backtrace/src/symbolize/gimli/elf.rs @@ -0,0 +1,495 @@ +use super::mystd::ffi::{OsStr, OsString}; +use super::mystd::fs; +use super::mystd::os::unix::ffi::{OsStrExt, OsStringExt}; +use super::mystd::path::{Path, PathBuf}; +use super::Either; +use super::{gimli, Context, Endian, EndianSlice, Mapping, Stash, Vec}; +use alloc::sync::Arc; +use core::convert::{TryFrom, TryInto}; +use core::str; +use object::elf::{ELFCOMPRESS_ZLIB, ELF_NOTE_GNU, NT_GNU_BUILD_ID, SHF_COMPRESSED}; +use object::read::elf::{CompressionHeader, FileHeader, SectionHeader, SectionTable, Sym}; +use object::read::StringTable; +use object::{BigEndian, Bytes, NativeEndian}; + +#[cfg(target_pointer_width = "32")] +type Elf = object::elf::FileHeader32; +#[cfg(target_pointer_width = "64")] +type Elf = object::elf::FileHeader64; + +impl Mapping { + pub fn new(path: &Path) -> Option { + let map = super::mmap(path)?; + Mapping::mk_or_other(map, |map, stash| { + let object = Object::parse(&map)?; + + // Try to locate an external debug file using the build ID. + if let Some(path_debug) = object.build_id().and_then(locate_build_id) { + if let Some(mapping) = Mapping::new_debug(path, path_debug, None) { + return Some(Either::A(mapping)); + } + } + + // Try to locate an external debug file using the GNU debug link section. + if let Some((path_debug, crc)) = object.gnu_debuglink_path(path) { + if let Some(mapping) = Mapping::new_debug(path, path_debug, Some(crc)) { + return Some(Either::A(mapping)); + } + } + + let dwp = Mapping::load_dwarf_package(path, stash); + + Context::new(stash, object, None, dwp).map(Either::B) + }) + } + + /// Load debuginfo from an external debug file. + fn new_debug(original_path: &Path, path: PathBuf, crc: Option) -> Option { + let map = super::mmap(&path)?; + Mapping::mk(map, |map, stash| { + let object = Object::parse(&map)?; + + if let Some(_crc) = crc { + // TODO: check crc + } + + // Try to locate a supplementary object file. + let mut sup = None; + if let Some((path_sup, build_id_sup)) = object.gnu_debugaltlink_path(&path) { + if let Some(map_sup) = super::mmap(&path_sup) { + let map_sup = stash.cache_mmap(map_sup); + if let Some(sup_) = Object::parse(map_sup) { + if sup_.build_id() == Some(build_id_sup) { + sup = Some(sup_); + } + } + } + } + + let dwp = Mapping::load_dwarf_package(original_path, stash); + + Context::new(stash, object, sup, dwp) + }) + } + + /// Try to locate a DWARF package file. + fn load_dwarf_package<'data>(path: &Path, stash: &'data Stash) -> Option> { + let mut path_dwp = path.to_path_buf(); + let dwp_extension = path + .extension() + .map(|previous_extension| { + let mut previous_extension = previous_extension.to_os_string(); + previous_extension.push(".dwp"); + previous_extension + }) + .unwrap_or_else(|| "dwp".into()); + path_dwp.set_extension(dwp_extension); + if let Some(map_dwp) = super::mmap(&path_dwp) { + let map_dwp = stash.cache_mmap(map_dwp); + if let Some(dwp_) = Object::parse(map_dwp) { + return Some(dwp_); + } + } + + None + } +} + +struct ParsedSym { + address: u64, + size: u64, + name: u32, +} + +pub struct Object<'a> { + /// Zero-sized type representing the native endianness. + /// + /// We could use a literal instead, but this helps ensure correctness. + endian: NativeEndian, + /// The entire file data. + data: &'a [u8], + sections: SectionTable<'a, Elf>, + strings: StringTable<'a>, + /// List of pre-parsed and sorted symbols by base address. + syms: Vec, +} + +impl<'a> Object<'a> { + fn parse(data: &'a [u8]) -> Option> { + let elf = Elf::parse(data).ok()?; + let endian = elf.endian().ok()?; + let sections = elf.sections(endian, data).ok()?; + let mut syms = sections + .symbols(endian, data, object::elf::SHT_SYMTAB) + .ok()?; + if syms.is_empty() { + syms = sections + .symbols(endian, data, object::elf::SHT_DYNSYM) + .ok()?; + } + let strings = syms.strings(); + + let mut syms = syms + .iter() + // Only look at function/object symbols. This mirrors what + // libbacktrace does and in general we're only symbolicating + // function addresses in theory. Object symbols correspond + // to data, and maybe someone's crazy enough to have a + // function go into static data? + .filter(|sym| { + let st_type = sym.st_type(); + st_type == object::elf::STT_FUNC || st_type == object::elf::STT_OBJECT + }) + // skip anything that's in an undefined section header, + // since it means it's an imported function and we're only + // symbolicating with locally defined functions. + .filter(|sym| sym.st_shndx(endian) != object::elf::SHN_UNDEF) + .map(|sym| { + let address = sym.st_value(endian).into(); + let size = sym.st_size(endian).into(); + let name = sym.st_name(endian); + ParsedSym { + address, + size, + name, + } + }) + .collect::>(); + syms.sort_unstable_by_key(|s| s.address); + Some(Object { + endian, + data, + sections, + strings, + syms, + }) + } + + pub fn section(&self, stash: &'a Stash, name: &str) -> Option<&'a [u8]> { + if let Some(section) = self.section_header(name) { + let mut data = Bytes(section.data(self.endian, self.data).ok()?); + + // Check for DWARF-standard (gABI) compression, i.e., as generated + // by ld's `--compress-debug-sections=zlib-gabi` flag. + let flags: u64 = section.sh_flags(self.endian).into(); + if (flags & u64::from(SHF_COMPRESSED)) == 0 { + // Not compressed. + return Some(data.0); + } + + let header = data.read::<::CompressionHeader>().ok()?; + if header.ch_type(self.endian) != ELFCOMPRESS_ZLIB { + // Zlib compression is the only known type. + return None; + } + let size = usize::try_from(header.ch_size(self.endian)).ok()?; + let buf = stash.allocate(size); + decompress_zlib(data.0, buf)?; + return Some(buf); + } + + // Check for the nonstandard GNU compression format, i.e., as generated + // by ld's `--compress-debug-sections=zlib-gnu` flag. This means that if + // we're actually asking for `.debug_info` then we need to look up a + // section named `.zdebug_info`. + if !name.starts_with(".debug_") { + return None; + } + let debug_name = name[7..].as_bytes(); + let compressed_section = self + .sections + .iter() + .filter_map(|header| { + let name = self.sections.section_name(self.endian, header).ok()?; + if name.starts_with(b".zdebug_") && &name[8..] == debug_name { + Some(header) + } else { + None + } + }) + .next()?; + let mut data = Bytes(compressed_section.data(self.endian, self.data).ok()?); + if data.read_bytes(8).ok()?.0 != b"ZLIB\0\0\0\0" { + return None; + } + let size = usize::try_from(data.read::>().ok()?.get(BigEndian)).ok()?; + let buf = stash.allocate(size); + decompress_zlib(data.0, buf)?; + Some(buf) + } + + fn section_header(&self, name: &str) -> Option<&::SectionHeader> { + self.sections + .section_by_name(self.endian, name.as_bytes()) + .map(|(_index, section)| section) + } + + pub fn search_symtab<'b>(&'b self, addr: u64) -> Option<&'b [u8]> { + // Same sort of binary search as Windows above + let i = match self.syms.binary_search_by_key(&addr, |sym| sym.address) { + Ok(i) => i, + Err(i) => i.checked_sub(1)?, + }; + let sym = self.syms.get(i)?; + if sym.address <= addr && addr <= sym.address + sym.size { + self.strings.get(sym.name).ok() + } else { + None + } + } + + pub(super) fn search_object_map(&self, _addr: u64) -> Option<(&Context<'_>, u64)> { + None + } + + fn build_id(&self) -> Option<&'a [u8]> { + for section in self.sections.iter() { + if let Ok(Some(mut notes)) = section.notes(self.endian, self.data) { + while let Ok(Some(note)) = notes.next() { + if note.name() == ELF_NOTE_GNU && note.n_type(self.endian) == NT_GNU_BUILD_ID { + return Some(note.desc()); + } + } + } + } + None + } + + // The contents of the ".gnu_debuglink" section is documented at: + // https://sourceware.org/gdb/onlinedocs/gdb/Separate-Debug-Files.html + fn gnu_debuglink_path(&self, path: &Path) -> Option<(PathBuf, u32)> { + let section = self.section_header(".gnu_debuglink")?; + let data = section.data(self.endian, self.data).ok()?; + let len = data.iter().position(|x| *x == 0)?; + let filename = &data[..len]; + let offset = (len + 1 + 3) & !3; + let crc_bytes = data + .get(offset..offset + 4) + .and_then(|bytes| bytes.try_into().ok())?; + let crc = u32::from_ne_bytes(crc_bytes); + let path_debug = locate_debuglink(path, filename)?; + Some((path_debug, crc)) + } + + // The format of the ".gnu_debugaltlink" section is based on gdb. + fn gnu_debugaltlink_path(&self, path: &Path) -> Option<(PathBuf, &'a [u8])> { + let section = self.section_header(".gnu_debugaltlink")?; + let data = section.data(self.endian, self.data).ok()?; + let len = data.iter().position(|x| *x == 0)?; + let filename = &data[..len]; + let build_id = &data[len + 1..]; + let path_sup = locate_debugaltlink(path, filename, build_id)?; + Some((path_sup, build_id)) + } +} + +fn decompress_zlib(input: &[u8], output: &mut [u8]) -> Option<()> { + use miniz_oxide::inflate::core::inflate_flags::{ + TINFL_FLAG_PARSE_ZLIB_HEADER, TINFL_FLAG_USING_NON_WRAPPING_OUTPUT_BUF, + }; + use miniz_oxide::inflate::core::{decompress, DecompressorOxide}; + use miniz_oxide::inflate::TINFLStatus; + + let (status, in_read, out_read) = decompress( + &mut DecompressorOxide::new(), + input, + output, + 0, + TINFL_FLAG_USING_NON_WRAPPING_OUTPUT_BUF | TINFL_FLAG_PARSE_ZLIB_HEADER, + ); + if status == TINFLStatus::Done && in_read == input.len() && out_read == output.len() { + Some(()) + } else { + None + } +} + +const DEBUG_PATH: &[u8] = b"/usr/lib/debug"; + +fn debug_path_exists() -> bool { + cfg_if::cfg_if! { + if #[cfg(any(target_os = "freebsd", target_os = "linux"))] { + use core::sync::atomic::{AtomicU8, Ordering}; + static DEBUG_PATH_EXISTS: AtomicU8 = AtomicU8::new(0); + + let mut exists = DEBUG_PATH_EXISTS.load(Ordering::Relaxed); + if exists == 0 { + exists = if Path::new(OsStr::from_bytes(DEBUG_PATH)).is_dir() { + 1 + } else { + 2 + }; + DEBUG_PATH_EXISTS.store(exists, Ordering::Relaxed); + } + exists == 1 + } else { + false + } + } +} + +/// Locate a debug file based on its build ID. +/// +/// The format of build id paths is documented at: +/// https://sourceware.org/gdb/onlinedocs/gdb/Separate-Debug-Files.html +fn locate_build_id(build_id: &[u8]) -> Option { + const BUILD_ID_PATH: &[u8] = b"/usr/lib/debug/.build-id/"; + const BUILD_ID_SUFFIX: &[u8] = b".debug"; + + if build_id.len() < 2 { + return None; + } + + if !debug_path_exists() { + return None; + } + + let mut path = + Vec::with_capacity(BUILD_ID_PATH.len() + BUILD_ID_SUFFIX.len() + build_id.len() * 2 + 1); + path.extend(BUILD_ID_PATH); + path.push(hex(build_id[0] >> 4)); + path.push(hex(build_id[0] & 0xf)); + path.push(b'/'); + for byte in &build_id[1..] { + path.push(hex(byte >> 4)); + path.push(hex(byte & 0xf)); + } + path.extend(BUILD_ID_SUFFIX); + Some(PathBuf::from(OsString::from_vec(path))) +} + +fn hex(byte: u8) -> u8 { + if byte < 10 { + b'0' + byte + } else { + b'a' + byte - 10 + } +} + +/// Locate a file specified in a `.gnu_debuglink` section. +/// +/// `path` is the file containing the section. +/// `filename` is from the contents of the section. +/// +/// Search order is based on gdb, documented at: +/// https://sourceware.org/gdb/onlinedocs/gdb/Separate-Debug-Files.html +/// +/// gdb also allows the user to customize the debug search path, but we don't. +/// +/// gdb also supports debuginfod, but we don't yet. +fn locate_debuglink(path: &Path, filename: &[u8]) -> Option { + let path = fs::canonicalize(path).ok()?; + let parent = path.parent()?; + let mut f = PathBuf::from(OsString::with_capacity( + DEBUG_PATH.len() + parent.as_os_str().len() + filename.len() + 2, + )); + let filename = Path::new(OsStr::from_bytes(filename)); + + // Try "/parent/filename" if it differs from "path" + f.push(parent); + f.push(filename); + if f != path && f.is_file() { + return Some(f); + } + + // Try "/parent/.debug/filename" + let mut s = OsString::from(f); + s.clear(); + f = PathBuf::from(s); + f.push(parent); + f.push(".debug"); + f.push(filename); + if f.is_file() { + return Some(f); + } + + if debug_path_exists() { + // Try "/usr/lib/debug/parent/filename" + let mut s = OsString::from(f); + s.clear(); + f = PathBuf::from(s); + f.push(OsStr::from_bytes(DEBUG_PATH)); + f.push(parent.strip_prefix("/").unwrap()); + f.push(filename); + if f.is_file() { + return Some(f); + } + } + + None +} + +/// Locate a file specified in a `.gnu_debugaltlink` section. +/// +/// `path` is the file containing the section. +/// `filename` and `build_id` are the contents of the section. +/// +/// Search order is based on gdb: +/// - filename, which is either absolute or relative to `path` +/// - the build ID path under `BUILD_ID_PATH` +/// +/// gdb also allows the user to customize the debug search path, but we don't. +/// +/// gdb also supports debuginfod, but we don't yet. +fn locate_debugaltlink(path: &Path, filename: &[u8], build_id: &[u8]) -> Option { + let filename = Path::new(OsStr::from_bytes(filename)); + if filename.is_absolute() { + if filename.is_file() { + return Some(filename.into()); + } + } else { + let path = fs::canonicalize(path).ok()?; + let parent = path.parent()?; + let mut f = PathBuf::from(parent); + f.push(filename); + if f.is_file() { + return Some(f); + } + } + + locate_build_id(build_id) +} + +fn convert_path(r: &R) -> Result { + let bytes = r.to_slice()?; + Ok(PathBuf::from(OsStr::from_bytes(&bytes))) +} + +pub(super) fn handle_split_dwarf<'data>( + package: Option<&gimli::DwarfPackage>>, + stash: &'data Stash, + load: addr2line::SplitDwarfLoad>, +) -> Option>>> { + if let Some(dwp) = package.as_ref() { + if let Ok(Some(cu)) = dwp.find_cu(load.dwo_id, &load.parent) { + return Some(Arc::new(cu)); + } + } + + let mut path = PathBuf::new(); + if let Some(p) = load.comp_dir.as_ref() { + path.push(convert_path(p).ok()?); + } + + path.push(convert_path(load.path.as_ref()?).ok()?); + + if let Some(map_dwo) = super::mmap(&path) { + let map_dwo = stash.cache_mmap(map_dwo); + if let Some(dwo) = Object::parse(map_dwo) { + return gimli::Dwarf::load(|id| -> Result<_, ()> { + let data = id + .dwo_name() + .and_then(|name| dwo.section(stash, name)) + .unwrap_or(&[]); + Ok(EndianSlice::new(data, Endian)) + }) + .ok() + .map(|mut dwo_dwarf| { + dwo_dwarf.make_dwo(&load.parent); + Arc::new(dwo_dwarf) + }); + } + } + + None +} diff --git a/vendor/backtrace/src/symbolize/gimli/libs_dl_iterate_phdr.rs b/vendor/backtrace/src/symbolize/gimli/libs_dl_iterate_phdr.rs new file mode 100644 index 0000000..9f0304c --- /dev/null +++ b/vendor/backtrace/src/symbolize/gimli/libs_dl_iterate_phdr.rs @@ -0,0 +1,71 @@ +// Other Unix (e.g. Linux) platforms use ELF as an object file format +// and typically implement an API called `dl_iterate_phdr` to load +// native libraries. + +use super::mystd::borrow::ToOwned; +use super::mystd::env; +use super::mystd::ffi::{CStr, OsStr}; +use super::mystd::os::unix::prelude::*; +use super::{Library, LibrarySegment, OsString, Vec}; +use core::slice; + +pub(super) fn native_libraries() -> Vec { + let mut ret = Vec::new(); + unsafe { + libc::dl_iterate_phdr(Some(callback), &mut ret as *mut Vec<_> as *mut _); + } + return ret; +} + +fn infer_current_exe(base_addr: usize) -> OsString { + if let Ok(entries) = super::parse_running_mmaps::parse_maps() { + let opt_path = entries + .iter() + .find(|e| e.ip_matches(base_addr) && e.pathname().len() > 0) + .map(|e| e.pathname()) + .cloned(); + if let Some(path) = opt_path { + return path; + } + } + env::current_exe().map(|e| e.into()).unwrap_or_default() +} + +// `info` should be a valid pointers. +// `vec` should be a valid pointer to a `std::Vec`. +unsafe extern "C" fn callback( + info: *mut libc::dl_phdr_info, + _size: libc::size_t, + vec: *mut libc::c_void, +) -> libc::c_int { + let info = &*info; + let libs = &mut *(vec as *mut Vec); + let is_main_prog = info.dlpi_name.is_null() || *info.dlpi_name == 0; + let name = if is_main_prog { + // The man page for dl_iterate_phdr says that the first object visited by + // callback is the main program; so the first time we encounter a + // nameless entry, we can assume its the main program and try to infer its path. + // After that, we cannot continue that assumption, and we use an empty string. + if libs.is_empty() { + infer_current_exe(info.dlpi_addr as usize) + } else { + OsString::new() + } + } else { + let bytes = CStr::from_ptr(info.dlpi_name).to_bytes(); + OsStr::from_bytes(bytes).to_owned() + }; + let headers = slice::from_raw_parts(info.dlpi_phdr, info.dlpi_phnum as usize); + libs.push(Library { + name, + segments: headers + .iter() + .map(|header| LibrarySegment { + len: (*header).p_memsz as usize, + stated_virtual_memory_address: (*header).p_vaddr as usize, + }) + .collect(), + bias: info.dlpi_addr as usize, + }); + 0 +} diff --git a/vendor/backtrace/src/symbolize/gimli/libs_haiku.rs b/vendor/backtrace/src/symbolize/gimli/libs_haiku.rs new file mode 100644 index 0000000..87e023e --- /dev/null +++ b/vendor/backtrace/src/symbolize/gimli/libs_haiku.rs @@ -0,0 +1,48 @@ +// Haiku implements the image_info struct and the get_next_image_info() +// functions to iterate through the loaded executable images. The +// image_info struct contains a pointer to the start of the .text +// section within the virtual address space, as well as the size of +// that section. All the read-only segments of the ELF-binary are in +// that part of the address space. + +use super::mystd::borrow::ToOwned; +use super::mystd::ffi::{CStr, OsStr}; +use super::mystd::mem::MaybeUninit; +use super::mystd::os::unix::prelude::*; +use super::{Library, LibrarySegment, Vec}; + +pub(super) fn native_libraries() -> Vec { + let mut libraries: Vec = Vec::new(); + + unsafe { + let mut info = MaybeUninit::::zeroed(); + let mut cookie: i32 = 0; + // Load the first image to get a valid info struct + let mut status = + libc::get_next_image_info(libc::B_CURRENT_TEAM, &mut cookie, info.as_mut_ptr()); + if status != libc::B_OK { + return libraries; + } + let mut info = info.assume_init(); + + while status == libc::B_OK { + let mut segments = Vec::new(); + segments.push(LibrarySegment { + stated_virtual_memory_address: 0, + len: info.text_size as usize, + }); + + let bytes = CStr::from_ptr(info.name.as_ptr()).to_bytes(); + let name = OsStr::from_bytes(bytes).to_owned(); + libraries.push(Library { + name: name, + segments: segments, + bias: info.text as usize, + }); + + status = libc::get_next_image_info(libc::B_CURRENT_TEAM, &mut cookie, &mut info); + } + } + + libraries +} diff --git a/vendor/backtrace/src/symbolize/gimli/libs_illumos.rs b/vendor/backtrace/src/symbolize/gimli/libs_illumos.rs new file mode 100644 index 0000000..e64975e --- /dev/null +++ b/vendor/backtrace/src/symbolize/gimli/libs_illumos.rs @@ -0,0 +1,99 @@ +use super::mystd::borrow::ToOwned; +use super::mystd::ffi::{CStr, OsStr}; +use super::mystd::os::unix::prelude::*; +use super::{Library, LibrarySegment, Vec}; +use core::mem; +use object::NativeEndian; + +#[cfg(target_pointer_width = "64")] +use object::elf::{FileHeader64 as FileHeader, ProgramHeader64 as ProgramHeader}; + +type EHdr = FileHeader; +type PHdr = ProgramHeader; + +#[repr(C)] +struct LinkMap { + l_addr: libc::c_ulong, + l_name: *const libc::c_char, + l_ld: *const libc::c_void, + l_next: *const LinkMap, + l_prev: *const LinkMap, + l_refname: *const libc::c_char, +} + +const RTLD_SELF: *const libc::c_void = -3isize as *const libc::c_void; +const RTLD_DI_LINKMAP: libc::c_int = 2; + +extern "C" { + fn dlinfo( + handle: *const libc::c_void, + request: libc::c_int, + p: *mut libc::c_void, + ) -> libc::c_int; +} + +pub(super) fn native_libraries() -> Vec { + let mut libs = Vec::new(); + + // Request the current link map from the runtime linker: + let map = unsafe { + let mut map: *const LinkMap = mem::zeroed(); + if dlinfo( + RTLD_SELF, + RTLD_DI_LINKMAP, + (&mut map) as *mut *const LinkMap as *mut libc::c_void, + ) != 0 + { + return libs; + } + map + }; + + // Each entry in the link map represents a loaded object: + let mut l = map; + while !l.is_null() { + // Fetch the fully qualified path of the loaded object: + let bytes = unsafe { CStr::from_ptr((*l).l_name) }.to_bytes(); + let name = OsStr::from_bytes(bytes).to_owned(); + + // The base address of the object loaded into memory: + let addr = unsafe { (*l).l_addr }; + + // Use the ELF header for this object to locate the program + // header: + let e: *const EHdr = unsafe { (*l).l_addr as *const EHdr }; + let phoff = unsafe { (*e).e_phoff }.get(NativeEndian); + let phnum = unsafe { (*e).e_phnum }.get(NativeEndian); + let etype = unsafe { (*e).e_type }.get(NativeEndian); + + let phdr: *const PHdr = (addr + phoff) as *const PHdr; + let phdr = unsafe { core::slice::from_raw_parts(phdr, phnum as usize) }; + + libs.push(Library { + name, + segments: phdr + .iter() + .map(|p| { + let memsz = p.p_memsz.get(NativeEndian); + let vaddr = p.p_vaddr.get(NativeEndian); + LibrarySegment { + len: memsz as usize, + stated_virtual_memory_address: vaddr as usize, + } + }) + .collect(), + bias: if etype == object::elf::ET_EXEC { + // Program header addresses for the base executable are + // already absolute. + 0 + } else { + // Other addresses are relative to the object base. + addr as usize + }, + }); + + l = unsafe { (*l).l_next }; + } + + libs +} diff --git a/vendor/backtrace/src/symbolize/gimli/libs_libnx.rs b/vendor/backtrace/src/symbolize/gimli/libs_libnx.rs new file mode 100644 index 0000000..93b5ba1 --- /dev/null +++ b/vendor/backtrace/src/symbolize/gimli/libs_libnx.rs @@ -0,0 +1,27 @@ +use super::{Library, LibrarySegment, Vec}; + +// DevkitA64 doesn't natively support debug info, but the build system will +// place debug info at the path `romfs:/debug_info.elf`. +pub(super) fn native_libraries() -> Vec { + extern "C" { + static __start__: u8; + } + + let bias = unsafe { &__start__ } as *const u8 as usize; + + let mut ret = Vec::new(); + let mut segments = Vec::new(); + segments.push(LibrarySegment { + stated_virtual_memory_address: 0, + len: usize::max_value() - bias, + }); + + let path = "romfs:/debug_info.elf"; + ret.push(Library { + name: path.into(), + segments, + bias, + }); + + ret +} diff --git a/vendor/backtrace/src/symbolize/gimli/libs_macos.rs b/vendor/backtrace/src/symbolize/gimli/libs_macos.rs new file mode 100644 index 0000000..438bbff --- /dev/null +++ b/vendor/backtrace/src/symbolize/gimli/libs_macos.rs @@ -0,0 +1,146 @@ +#![allow(deprecated)] + +use super::mystd::ffi::{CStr, OsStr}; +use super::mystd::os::unix::prelude::*; +use super::mystd::prelude::v1::*; +use super::{Library, LibrarySegment}; +use core::convert::TryInto; +use core::mem; + +pub(super) fn native_libraries() -> Vec { + let mut ret = Vec::new(); + let images = unsafe { libc::_dyld_image_count() }; + for i in 0..images { + ret.extend(native_library(i)); + } + return ret; +} + +fn native_library(i: u32) -> Option { + use object::macho; + use object::read::macho::{MachHeader, Segment}; + use object::NativeEndian; + + // Fetch the name of this library which corresponds to the path of + // where to load it as well. + let name = unsafe { + let name = libc::_dyld_get_image_name(i); + if name.is_null() { + return None; + } + CStr::from_ptr(name) + }; + + // Load the image header of this library and delegate to `object` to + // parse all the load commands so we can figure out all the segments + // involved here. + let (mut load_commands, endian) = unsafe { + let header = libc::_dyld_get_image_header(i); + if header.is_null() { + return None; + } + match (*header).magic { + macho::MH_MAGIC => { + let endian = NativeEndian; + let header = &*(header as *const macho::MachHeader32); + let data = core::slice::from_raw_parts( + header as *const _ as *const u8, + mem::size_of_val(header) + header.sizeofcmds.get(endian) as usize, + ); + (header.load_commands(endian, data, 0).ok()?, endian) + } + macho::MH_MAGIC_64 => { + let endian = NativeEndian; + let header = &*(header as *const macho::MachHeader64); + let data = core::slice::from_raw_parts( + header as *const _ as *const u8, + mem::size_of_val(header) + header.sizeofcmds.get(endian) as usize, + ); + (header.load_commands(endian, data, 0).ok()?, endian) + } + _ => return None, + } + }; + + // Iterate over the segments and register known regions for segments + // that we find. Additionally record information bout text segments + // for processing later, see comments below. + let mut segments = Vec::new(); + let mut first_text = 0; + let mut text_fileoff_zero = false; + while let Some(cmd) = load_commands.next().ok()? { + if let Some((seg, _)) = cmd.segment_32().ok()? { + if seg.name() == b"__TEXT" { + first_text = segments.len(); + if seg.fileoff(endian) == 0 && seg.filesize(endian) > 0 { + text_fileoff_zero = true; + } + } + segments.push(LibrarySegment { + len: seg.vmsize(endian).try_into().ok()?, + stated_virtual_memory_address: seg.vmaddr(endian).try_into().ok()?, + }); + } + if let Some((seg, _)) = cmd.segment_64().ok()? { + if seg.name() == b"__TEXT" { + first_text = segments.len(); + if seg.fileoff(endian) == 0 && seg.filesize(endian) > 0 { + text_fileoff_zero = true; + } + } + segments.push(LibrarySegment { + len: seg.vmsize(endian).try_into().ok()?, + stated_virtual_memory_address: seg.vmaddr(endian).try_into().ok()?, + }); + } + } + + // Determine the "slide" for this library which ends up being the + // bias we use to figure out where in memory objects are loaded. + // This is a bit of a weird computation though and is the result of + // trying a few things in the wild and seeing what sticks. + // + // The general idea is that the `bias` plus a segment's + // `stated_virtual_memory_address` is going to be where in the + // actual address space the segment resides. The other thing we rely + // on though is that a real address minus the `bias` is the index to + // look up in the symbol table and debuginfo. + // + // It turns out, though, that for system loaded libraries these + // calculations are incorrect. For native executables, however, it + // appears correct. Lifting some logic from LLDB's source it has + // some special-casing for the first `__TEXT` section loaded from + // file offset 0 with a nonzero size. For whatever reason when this + // is present it appears to mean that the symbol table is relative + // to just the vmaddr slide for the library. If it's *not* present + // then the symbol table is relative to the vmaddr slide plus the + // segment's stated address. + // + // To handle this situation if we *don't* find a text section at + // file offset zero then we increase the bias by the first text + // sections's stated address and decrease all stated addresses by + // that amount as well. That way the symbol table is always appears + // relative to the library's bias amount. This appears to have the + // right results for symbolizing via the symbol table. + // + // Honestly I'm not entirely sure whether this is right or if + // there's something else that should indicate how to do this. For + // now though this seems to work well enough (?) and we should + // always be able to tweak this over time if necessary. + // + // For some more information see #318 + let mut slide = unsafe { libc::_dyld_get_image_vmaddr_slide(i) as usize }; + if !text_fileoff_zero { + let adjust = segments[first_text].stated_virtual_memory_address; + for segment in segments.iter_mut() { + segment.stated_virtual_memory_address -= adjust; + } + slide += adjust; + } + + Some(Library { + name: OsStr::from_bytes(name.to_bytes()).to_owned(), + segments, + bias: slide, + }) +} diff --git a/vendor/backtrace/src/symbolize/gimli/libs_windows.rs b/vendor/backtrace/src/symbolize/gimli/libs_windows.rs new file mode 100644 index 0000000..b47ed42 --- /dev/null +++ b/vendor/backtrace/src/symbolize/gimli/libs_windows.rs @@ -0,0 +1,89 @@ +use super::super::super::windows::*; +use super::mystd::os::windows::prelude::*; +use super::{coff, mmap, Library, LibrarySegment, OsString}; +use alloc::vec; +use alloc::vec::Vec; +use core::mem; +use core::mem::MaybeUninit; + +// For loading native libraries on Windows, see some discussion on +// rust-lang/rust#71060 for the various strategies here. +pub(super) fn native_libraries() -> Vec { + let mut ret = Vec::new(); + unsafe { + add_loaded_images(&mut ret); + } + return ret; +} + +unsafe fn add_loaded_images(ret: &mut Vec) { + let snap = CreateToolhelp32Snapshot(TH32CS_SNAPMODULE, 0); + if snap == INVALID_HANDLE_VALUE { + return; + } + + let mut me = MaybeUninit::::zeroed().assume_init(); + me.dwSize = mem::size_of_val(&me) as DWORD; + if Module32FirstW(snap, &mut me) == TRUE { + loop { + if let Some(lib) = load_library(&me) { + ret.push(lib); + } + + if Module32NextW(snap, &mut me) != TRUE { + break; + } + } + } + + CloseHandle(snap); +} + +unsafe fn load_library(me: &MODULEENTRY32W) -> Option { + let pos = me + .szExePath + .iter() + .position(|i| *i == 0) + .unwrap_or(me.szExePath.len()); + let name = OsString::from_wide(&me.szExePath[..pos]); + + // MinGW libraries currently don't support ASLR + // (rust-lang/rust#16514), but DLLs can still be relocated around in + // the address space. It appears that addresses in debug info are + // all as-if this library was loaded at its "image base", which is a + // field in its COFF file headers. Since this is what debuginfo + // seems to list we parse the symbol table and store addresses as if + // the library was loaded at "image base" as well. + // + // The library may not be loaded at "image base", however. + // (presumably something else may be loaded there?) This is where + // the `bias` field comes into play, and we need to figure out the + // value of `bias` here. Unfortunately though it's not clear how to + // acquire this from a loaded module. What we do have, however, is + // the actual load address (`modBaseAddr`). + // + // As a bit of a cop-out for now we mmap the file, read the file + // header information, then drop the mmap. This is wasteful because + // we'll probably reopen the mmap later, but this should work well + // enough for now. + // + // Once we have the `image_base` (desired load location) and the + // `base_addr` (actual load location) we can fill in the `bias` + // (difference between the actual and desired) and then the stated + // address of each segment is the `image_base` since that's what the + // file says. + // + // For now it appears that unlike ELF/MachO we can make do with one + // segment per library, using `modBaseSize` as the whole size. + let mmap = mmap(name.as_ref())?; + let image_base = coff::get_image_base(&mmap)?; + let base_addr = me.modBaseAddr as usize; + Some(Library { + name, + bias: base_addr.wrapping_sub(image_base), + segments: vec![LibrarySegment { + stated_virtual_memory_address: image_base, + len: me.modBaseSize as usize, + }], + }) +} diff --git a/vendor/backtrace/src/symbolize/gimli/macho.rs b/vendor/backtrace/src/symbolize/gimli/macho.rs new file mode 100644 index 0000000..74ed809 --- /dev/null +++ b/vendor/backtrace/src/symbolize/gimli/macho.rs @@ -0,0 +1,333 @@ +use super::{gimli, Box, Context, Endian, EndianSlice, Mapping, Path, Stash, Vec}; +use alloc::sync::Arc; +use core::convert::TryInto; +use object::macho; +use object::read::macho::{MachHeader, Nlist, Section, Segment as _}; +use object::{Bytes, NativeEndian}; + +#[cfg(target_pointer_width = "32")] +type Mach = object::macho::MachHeader32; +#[cfg(target_pointer_width = "64")] +type Mach = object::macho::MachHeader64; +type MachSegment = ::Segment; +type MachSection = ::Section; +type MachNlist = ::Nlist; + +impl Mapping { + // The loading path for macOS is so different we just have a completely + // different implementation of the function here. On macOS we need to go + // probing the filesystem for a bunch of files. + pub fn new(path: &Path) -> Option { + // First up we need to load the unique UUID which is stored in the macho + // header of the file we're reading, specified at `path`. + let map = super::mmap(path)?; + let (macho, data) = find_header(&map)?; + let endian = macho.endian().ok()?; + let uuid = macho.uuid(endian, data, 0).ok()?; + + // Next we need to look for a `*.dSYM` file. For now we just probe the + // containing directory and look around for something that matches + // `*.dSYM`. Once it's found we root through the dwarf resources that it + // contains and try to find a macho file which has a matching UUID as + // the one of our own file. If we find a match that's the dwarf file we + // want to return. + if let Some(uuid) = uuid { + if let Some(parent) = path.parent() { + if let Some(mapping) = Mapping::load_dsym(parent, uuid) { + return Some(mapping); + } + } + } + + // Looks like nothing matched our UUID, so let's at least return our own + // file. This should have the symbol table for at least some + // symbolication purposes. + Mapping::mk(map, |data, stash| { + let (macho, data) = find_header(data)?; + let endian = macho.endian().ok()?; + let obj = Object::parse(macho, endian, data)?; + Context::new(stash, obj, None, None) + }) + } + + fn load_dsym(dir: &Path, uuid: [u8; 16]) -> Option { + for entry in dir.read_dir().ok()? { + let entry = entry.ok()?; + let filename = match entry.file_name().into_string() { + Ok(name) => name, + Err(_) => continue, + }; + if !filename.ends_with(".dSYM") { + continue; + } + let candidates = entry.path().join("Contents/Resources/DWARF"); + if let Some(mapping) = Mapping::try_dsym_candidate(&candidates, uuid) { + return Some(mapping); + } + } + None + } + + fn try_dsym_candidate(dir: &Path, uuid: [u8; 16]) -> Option { + // Look for files in the `DWARF` directory which have a matching uuid to + // the original object file. If we find one then we found the debug + // information. + for entry in dir.read_dir().ok()? { + let entry = entry.ok()?; + let map = super::mmap(&entry.path())?; + let candidate = Mapping::mk(map, |data, stash| { + let (macho, data) = find_header(data)?; + let endian = macho.endian().ok()?; + let entry_uuid = macho.uuid(endian, data, 0).ok()??; + if entry_uuid != uuid { + return None; + } + let obj = Object::parse(macho, endian, data)?; + Context::new(stash, obj, None, None) + }); + if let Some(candidate) = candidate { + return Some(candidate); + } + } + + None + } +} + +fn find_header(data: &'_ [u8]) -> Option<(&'_ Mach, &'_ [u8])> { + use object::endian::BigEndian; + + let desired_cpu = || { + if cfg!(target_arch = "x86") { + Some(macho::CPU_TYPE_X86) + } else if cfg!(target_arch = "x86_64") { + Some(macho::CPU_TYPE_X86_64) + } else if cfg!(target_arch = "arm") { + Some(macho::CPU_TYPE_ARM) + } else if cfg!(target_arch = "aarch64") { + Some(macho::CPU_TYPE_ARM64) + } else { + None + } + }; + + let mut data = Bytes(data); + match data + .clone() + .read::>() + .ok()? + .get(NativeEndian) + { + macho::MH_MAGIC_64 | macho::MH_CIGAM_64 | macho::MH_MAGIC | macho::MH_CIGAM => {} + + macho::FAT_MAGIC | macho::FAT_CIGAM => { + let mut header_data = data; + let endian = BigEndian; + let header = header_data.read::().ok()?; + let nfat = header.nfat_arch.get(endian); + let arch = (0..nfat) + .filter_map(|_| header_data.read::().ok()) + .find(|arch| desired_cpu() == Some(arch.cputype.get(endian)))?; + let offset = arch.offset.get(endian); + let size = arch.size.get(endian); + data = data + .read_bytes_at(offset.try_into().ok()?, size.try_into().ok()?) + .ok()?; + } + + macho::FAT_MAGIC_64 | macho::FAT_CIGAM_64 => { + let mut header_data = data; + let endian = BigEndian; + let header = header_data.read::().ok()?; + let nfat = header.nfat_arch.get(endian); + let arch = (0..nfat) + .filter_map(|_| header_data.read::().ok()) + .find(|arch| desired_cpu() == Some(arch.cputype.get(endian)))?; + let offset = arch.offset.get(endian); + let size = arch.size.get(endian); + data = data + .read_bytes_at(offset.try_into().ok()?, size.try_into().ok()?) + .ok()?; + } + + _ => return None, + } + + Mach::parse(data.0, 0).ok().map(|h| (h, data.0)) +} + +// This is used both for executables/libraries and source object files. +pub struct Object<'a> { + endian: NativeEndian, + data: &'a [u8], + dwarf: Option<&'a [MachSection]>, + syms: Vec<(&'a [u8], u64)>, + syms_sort_by_name: bool, + // Only set for executables/libraries, and not the source object files. + object_map: Option>, + // The outer Option is for lazy loading, and the inner Option allows load errors to be cached. + object_mappings: Box<[Option>]>, +} + +impl<'a> Object<'a> { + fn parse(mach: &'a Mach, endian: NativeEndian, data: &'a [u8]) -> Option> { + let is_object = mach.filetype(endian) == object::macho::MH_OBJECT; + let mut dwarf = None; + let mut syms = Vec::new(); + let mut syms_sort_by_name = false; + let mut commands = mach.load_commands(endian, data, 0).ok()?; + let mut object_map = None; + let mut object_mappings = Vec::new(); + while let Ok(Some(command)) = commands.next() { + if let Some((segment, section_data)) = MachSegment::from_command(command).ok()? { + // Object files should have all sections in a single unnamed segment load command. + if segment.name() == b"__DWARF" || (is_object && segment.name() == b"") { + dwarf = segment.sections(endian, section_data).ok(); + } + } else if let Some(symtab) = command.symtab().ok()? { + let symbols = symtab.symbols::(endian, data).ok()?; + syms = symbols + .iter() + .filter_map(|nlist: &MachNlist| { + let name = nlist.name(endian, symbols.strings()).ok()?; + if name.len() > 0 && nlist.is_definition() { + Some((name, u64::from(nlist.n_value(endian)))) + } else { + None + } + }) + .collect(); + if is_object { + // We never search object file symbols by address. + // Instead, we already know the symbol name from the executable, and we + // need to search by name to find the matching symbol in the object file. + syms.sort_unstable_by_key(|(name, _)| *name); + syms_sort_by_name = true; + } else { + syms.sort_unstable_by_key(|(_, addr)| *addr); + let map = symbols.object_map(endian); + object_mappings.resize_with(map.objects().len(), || None); + object_map = Some(map); + } + } + } + + Some(Object { + endian, + data, + dwarf, + syms, + syms_sort_by_name, + object_map, + object_mappings: object_mappings.into_boxed_slice(), + }) + } + + pub fn section(&self, _: &Stash, name: &str) -> Option<&'a [u8]> { + let name = name.as_bytes(); + let dwarf = self.dwarf?; + let section = dwarf.into_iter().find(|section| { + let section_name = section.name(); + section_name == name || { + section_name.starts_with(b"__") + && name.starts_with(b".") + && §ion_name[2..] == &name[1..] + } + })?; + Some(section.data(self.endian, self.data).ok()?) + } + + pub fn search_symtab<'b>(&'b self, addr: u64) -> Option<&'b [u8]> { + debug_assert!(!self.syms_sort_by_name); + let i = match self.syms.binary_search_by_key(&addr, |(_, addr)| *addr) { + Ok(i) => i, + Err(i) => i.checked_sub(1)?, + }; + let (sym, _addr) = self.syms.get(i)?; + Some(sym) + } + + /// Try to load a context for an object file. + /// + /// If dsymutil was not run, then the DWARF may be found in the source object files. + pub(super) fn search_object_map<'b>(&'b mut self, addr: u64) -> Option<(&Context<'b>, u64)> { + // `object_map` contains a map from addresses to symbols and object paths. + // Look up the address and get a mapping for the object. + let object_map = self.object_map.as_ref()?; + let symbol = object_map.get(addr)?; + let object_index = symbol.object_index(); + let mapping = self.object_mappings.get_mut(object_index)?; + if mapping.is_none() { + // No cached mapping, so create it. + *mapping = Some(object_mapping(object_map.objects().get(object_index)?)); + } + let cx: &'b Context<'static> = &mapping.as_ref()?.as_ref()?.cx; + // Don't leak the `'static` lifetime, make sure it's scoped to just ourselves. + let cx = unsafe { core::mem::transmute::<&'b Context<'static>, &'b Context<'b>>(cx) }; + + // We must translate the address in order to be able to look it up + // in the DWARF in the object file. + debug_assert!(cx.object.syms.is_empty() || cx.object.syms_sort_by_name); + let i = cx + .object + .syms + .binary_search_by_key(&symbol.name(), |(name, _)| *name) + .ok()?; + let object_symbol = cx.object.syms.get(i)?; + let object_addr = addr + .wrapping_sub(symbol.address()) + .wrapping_add(object_symbol.1); + Some((cx, object_addr)) + } +} + +fn object_mapping(path: &[u8]) -> Option { + use super::mystd::ffi::OsStr; + use super::mystd::os::unix::prelude::*; + + let map; + + // `N_OSO` symbol names can be either `/path/to/object.o` or `/path/to/archive.a(object.o)`. + let member_name = if let Some((archive_path, member_name)) = split_archive_path(path) { + map = super::mmap(Path::new(OsStr::from_bytes(archive_path)))?; + Some(member_name) + } else { + map = super::mmap(Path::new(OsStr::from_bytes(path)))?; + None + }; + Mapping::mk(map, |data, stash| { + let data = match member_name { + Some(member_name) => { + let archive = object::read::archive::ArchiveFile::parse(data).ok()?; + let member = archive + .members() + .filter_map(Result::ok) + .find(|m| m.name() == member_name)?; + member.data(data).ok()? + } + None => data, + }; + let (macho, data) = find_header(data)?; + let endian = macho.endian().ok()?; + let obj = Object::parse(macho, endian, data)?; + Context::new(stash, obj, None, None) + }) +} + +fn split_archive_path(path: &[u8]) -> Option<(&[u8], &[u8])> { + let (last, path) = path.split_last()?; + if *last != b')' { + return None; + } + let index = path.iter().position(|&x| x == b'(')?; + let (archive, rest) = path.split_at(index); + Some((archive, &rest[1..])) +} + +pub(super) fn handle_split_dwarf<'data>( + _package: Option<&gimli::DwarfPackage>>, + _stash: &'data Stash, + _load: addr2line::SplitDwarfLoad>, +) -> Option>>> { + None +} diff --git a/vendor/backtrace/src/symbolize/gimli/mmap_fake.rs b/vendor/backtrace/src/symbolize/gimli/mmap_fake.rs new file mode 100644 index 0000000..ce50964 --- /dev/null +++ b/vendor/backtrace/src/symbolize/gimli/mmap_fake.rs @@ -0,0 +1,25 @@ +use super::{mystd::io::Read, File}; +use alloc::vec::Vec; +use core::ops::Deref; + +pub struct Mmap { + vec: Vec, +} + +impl Mmap { + pub unsafe fn map(mut file: &File, len: usize) -> Option { + let mut mmap = Mmap { + vec: Vec::with_capacity(len), + }; + file.read_to_end(&mut mmap.vec).ok()?; + Some(mmap) + } +} + +impl Deref for Mmap { + type Target = [u8]; + + fn deref(&self) -> &[u8] { + &self.vec[..] + } +} diff --git a/vendor/backtrace/src/symbolize/gimli/mmap_unix.rs b/vendor/backtrace/src/symbolize/gimli/mmap_unix.rs new file mode 100644 index 0000000..261ffc1 --- /dev/null +++ b/vendor/backtrace/src/symbolize/gimli/mmap_unix.rs @@ -0,0 +1,49 @@ +use super::mystd::fs::File; +use super::mystd::os::unix::prelude::*; +use core::ops::Deref; +use core::ptr; +use core::slice; + +#[cfg(not(all(target_os = "linux", target_env = "gnu")))] +use libc::mmap as mmap64; +#[cfg(all(target_os = "linux", target_env = "gnu"))] +use libc::mmap64; + +pub struct Mmap { + ptr: *mut libc::c_void, + len: usize, +} + +impl Mmap { + pub unsafe fn map(file: &File, len: usize) -> Option { + let ptr = mmap64( + ptr::null_mut(), + len, + libc::PROT_READ, + libc::MAP_PRIVATE, + file.as_raw_fd(), + 0, + ); + if ptr == libc::MAP_FAILED { + return None; + } + Some(Mmap { ptr, len }) + } +} + +impl Deref for Mmap { + type Target = [u8]; + + fn deref(&self) -> &[u8] { + unsafe { slice::from_raw_parts(self.ptr as *const u8, self.len) } + } +} + +impl Drop for Mmap { + fn drop(&mut self) { + unsafe { + let r = libc::munmap(self.ptr, self.len); + debug_assert_eq!(r, 0); + } + } +} diff --git a/vendor/backtrace/src/symbolize/gimli/mmap_windows.rs b/vendor/backtrace/src/symbolize/gimli/mmap_windows.rs new file mode 100644 index 0000000..b39509d --- /dev/null +++ b/vendor/backtrace/src/symbolize/gimli/mmap_windows.rs @@ -0,0 +1,57 @@ +use super::super::super::windows::*; +use super::mystd::fs::File; +use super::mystd::os::windows::prelude::*; +use core::ops::Deref; +use core::ptr; +use core::slice; + +pub struct Mmap { + // keep the file alive to prevent it from being deleted which would cause + // us to read bad data. + _file: File, + ptr: *mut c_void, + len: usize, +} + +impl Mmap { + pub unsafe fn map(file: &File, len: usize) -> Option { + let file = file.try_clone().ok()?; + let mapping = CreateFileMappingA( + file.as_raw_handle() as *mut _, + ptr::null_mut(), + PAGE_READONLY, + 0, + 0, + ptr::null(), + ); + if mapping.is_null() { + return None; + } + let ptr = MapViewOfFile(mapping, FILE_MAP_READ, 0, 0, len); + CloseHandle(mapping); + if ptr.is_null() { + return None; + } + Some(Mmap { + _file: file, + ptr, + len, + }) + } +} +impl Deref for Mmap { + type Target = [u8]; + + fn deref(&self) -> &[u8] { + unsafe { slice::from_raw_parts(self.ptr as *const u8, self.len) } + } +} + +impl Drop for Mmap { + fn drop(&mut self) { + unsafe { + let r = UnmapViewOfFile(self.ptr); + debug_assert!(r != 0); + } + } +} diff --git a/vendor/backtrace/src/symbolize/gimli/parse_running_mmaps_unix.rs b/vendor/backtrace/src/symbolize/gimli/parse_running_mmaps_unix.rs new file mode 100644 index 0000000..5d4b346 --- /dev/null +++ b/vendor/backtrace/src/symbolize/gimli/parse_running_mmaps_unix.rs @@ -0,0 +1,295 @@ +// Note: This file is only currently used on targets that call out to the code +// in `mod libs_dl_iterate_phdr` (e.g. linux, freebsd, ...); it may be more +// general purpose, but it hasn't been tested elsewhere. + +use super::mystd::fs::File; +use super::mystd::io::Read; +use super::mystd::str::FromStr; +use super::{OsString, String, Vec}; + +#[derive(PartialEq, Eq, Debug)] +pub(super) struct MapsEntry { + /// start (inclusive) and limit (exclusive) of address range. + address: (usize, usize), + /// The perms field are the permissions for the entry + /// + /// r = read + /// w = write + /// x = execute + /// s = shared + /// p = private (copy on write) + perms: [char; 4], + /// Offset into the file (or "whatever"). + offset: usize, + /// device (major, minor) + dev: (usize, usize), + /// inode on the device. 0 indicates that no inode is associated with the memory region (e.g. uninitalized data aka BSS). + inode: usize, + /// Usually the file backing the mapping. + /// + /// Note: The man page for proc includes a note about "coordination" by + /// using readelf to see the Offset field in ELF program headers. pnkfelix + /// is not yet sure if that is intended to be a comment on pathname, or what + /// form/purpose such coordination is meant to have. + /// + /// There are also some pseudo-paths: + /// "[stack]": The initial process's (aka main thread's) stack. + /// "[stack:]": a specific thread's stack. (This was only present for a limited range of Linux verisons; it was determined to be too expensive to provide.) + /// "[vdso]": Virtual dynamically linked shared object + /// "[heap]": The process's heap + /// + /// The pathname can be blank, which means it is an anonymous mapping + /// obtained via mmap. + /// + /// Newlines in pathname are replaced with an octal escape sequence. + /// + /// The pathname may have "(deleted)" appended onto it if the file-backed + /// path has been deleted. + /// + /// Note that modifications like the latter two indicated above imply that + /// in general the pathname may be ambiguous. (I.e. you cannot tell if the + /// denoted filename actually ended with the text "(deleted)", or if that + /// was added by the maps rendering. + pathname: OsString, +} + +pub(super) fn parse_maps() -> Result, &'static str> { + let mut v = Vec::new(); + let mut proc_self_maps = + File::open("/proc/self/maps").map_err(|_| "Couldn't open /proc/self/maps")?; + let mut buf = String::new(); + let _bytes_read = proc_self_maps + .read_to_string(&mut buf) + .map_err(|_| "Couldn't read /proc/self/maps")?; + for line in buf.lines() { + v.push(line.parse()?); + } + + Ok(v) +} + +impl MapsEntry { + pub(super) fn pathname(&self) -> &OsString { + &self.pathname + } + + pub(super) fn ip_matches(&self, ip: usize) -> bool { + self.address.0 <= ip && ip < self.address.1 + } +} + +impl FromStr for MapsEntry { + type Err = &'static str; + + // Format: address perms offset dev inode pathname + // e.g.: "ffffffffff600000-ffffffffff601000 --xp 00000000 00:00 0 [vsyscall]" + // e.g.: "7f5985f46000-7f5985f48000 rw-p 00039000 103:06 76021795 /usr/lib/x86_64-linux-gnu/ld-linux-x86-64.so.2" + // e.g.: "35b1a21000-35b1a22000 rw-p 00000000 00:00 0" + // + // Note that paths may contain spaces, so we can't use `str::split` for parsing (until + // Split::remainder is stabilized #77998). + fn from_str(s: &str) -> Result { + let (range_str, s) = s.trim_start().split_once(' ').unwrap_or((s, "")); + if range_str.is_empty() { + return Err("Couldn't find address"); + } + + let (perms_str, s) = s.trim_start().split_once(' ').unwrap_or((s, "")); + if perms_str.is_empty() { + return Err("Couldn't find permissions"); + } + + let (offset_str, s) = s.trim_start().split_once(' ').unwrap_or((s, "")); + if offset_str.is_empty() { + return Err("Couldn't find offset"); + } + + let (dev_str, s) = s.trim_start().split_once(' ').unwrap_or((s, "")); + if dev_str.is_empty() { + return Err("Couldn't find dev"); + } + + let (inode_str, s) = s.trim_start().split_once(' ').unwrap_or((s, "")); + if inode_str.is_empty() { + return Err("Couldn't find inode"); + } + + // Pathname may be omitted in which case it will be empty + let pathname_str = s.trim_start(); + + let hex = |s| usize::from_str_radix(s, 16).map_err(|_| "Couldn't parse hex number"); + let address = if let Some((start, limit)) = range_str.split_once('-') { + (hex(start)?, hex(limit)?) + } else { + return Err("Couldn't parse address range"); + }; + let perms: [char; 4] = { + let mut chars = perms_str.chars(); + let mut c = || chars.next().ok_or("insufficient perms"); + let perms = [c()?, c()?, c()?, c()?]; + if chars.next().is_some() { + return Err("too many perms"); + } + perms + }; + let offset = hex(offset_str)?; + let dev = if let Some((major, minor)) = dev_str.split_once(':') { + (hex(major)?, hex(minor)?) + } else { + return Err("Couldn't parse dev"); + }; + let inode = hex(inode_str)?; + let pathname = pathname_str.into(); + + Ok(MapsEntry { + address, + perms, + offset, + dev, + inode, + pathname, + }) + } +} + +// Make sure we can parse 64-bit sample output if we're on a 64-bit target. +#[cfg(target_pointer_width = "64")] +#[test] +fn check_maps_entry_parsing_64bit() { + assert_eq!( + "ffffffffff600000-ffffffffff601000 --xp 00000000 00:00 0 \ + [vsyscall]" + .parse::() + .unwrap(), + MapsEntry { + address: (0xffffffffff600000, 0xffffffffff601000), + perms: ['-', '-', 'x', 'p'], + offset: 0x00000000, + dev: (0x00, 0x00), + inode: 0x0, + pathname: "[vsyscall]".into(), + } + ); + + assert_eq!( + "7f5985f46000-7f5985f48000 rw-p 00039000 103:06 76021795 \ + /usr/lib/x86_64-linux-gnu/ld-linux-x86-64.so.2" + .parse::() + .unwrap(), + MapsEntry { + address: (0x7f5985f46000, 0x7f5985f48000), + perms: ['r', 'w', '-', 'p'], + offset: 0x00039000, + dev: (0x103, 0x06), + inode: 0x76021795, + pathname: "/usr/lib/x86_64-linux-gnu/ld-linux-x86-64.so.2".into(), + } + ); + assert_eq!( + "35b1a21000-35b1a22000 rw-p 00000000 00:00 0" + .parse::() + .unwrap(), + MapsEntry { + address: (0x35b1a21000, 0x35b1a22000), + perms: ['r', 'w', '-', 'p'], + offset: 0x00000000, + dev: (0x00, 0x00), + inode: 0x0, + pathname: Default::default(), + } + ); +} + +// (This output was taken from a 32-bit machine, but will work on any target) +#[test] +fn check_maps_entry_parsing_32bit() { + /* Example snippet of output: + 08056000-08077000 rw-p 00000000 00:00 0 [heap] + b7c79000-b7e02000 r--p 00000000 08:01 60662705 /usr/lib/locale/locale-archive + b7e02000-b7e03000 rw-p 00000000 00:00 0 + */ + assert_eq!( + "08056000-08077000 rw-p 00000000 00:00 0 \ + [heap]" + .parse::() + .unwrap(), + MapsEntry { + address: (0x08056000, 0x08077000), + perms: ['r', 'w', '-', 'p'], + offset: 0x00000000, + dev: (0x00, 0x00), + inode: 0x0, + pathname: "[heap]".into(), + } + ); + + assert_eq!( + "b7c79000-b7e02000 r--p 00000000 08:01 60662705 \ + /usr/lib/locale/locale-archive" + .parse::() + .unwrap(), + MapsEntry { + address: (0xb7c79000, 0xb7e02000), + perms: ['r', '-', '-', 'p'], + offset: 0x00000000, + dev: (0x08, 0x01), + inode: 0x60662705, + pathname: "/usr/lib/locale/locale-archive".into(), + } + ); + assert_eq!( + "b7e02000-b7e03000 rw-p 00000000 00:00 0" + .parse::() + .unwrap(), + MapsEntry { + address: (0xb7e02000, 0xb7e03000), + perms: ['r', 'w', '-', 'p'], + offset: 0x00000000, + dev: (0x00, 0x00), + inode: 0x0, + pathname: Default::default(), + } + ); + assert_eq!( + "b7c79000-b7e02000 r--p 00000000 08:01 60662705 \ + /executable/path/with some spaces" + .parse::() + .unwrap(), + MapsEntry { + address: (0xb7c79000, 0xb7e02000), + perms: ['r', '-', '-', 'p'], + offset: 0x00000000, + dev: (0x08, 0x01), + inode: 0x60662705, + pathname: "/executable/path/with some spaces".into(), + } + ); + assert_eq!( + "b7c79000-b7e02000 r--p 00000000 08:01 60662705 \ + /executable/path/with multiple-continuous spaces " + .parse::() + .unwrap(), + MapsEntry { + address: (0xb7c79000, 0xb7e02000), + perms: ['r', '-', '-', 'p'], + offset: 0x00000000, + dev: (0x08, 0x01), + inode: 0x60662705, + pathname: "/executable/path/with multiple-continuous spaces ".into(), + } + ); + assert_eq!( + " b7c79000-b7e02000 r--p 00000000 08:01 60662705 \ + /executable/path/starts-with-spaces" + .parse::() + .unwrap(), + MapsEntry { + address: (0xb7c79000, 0xb7e02000), + perms: ['r', '-', '-', 'p'], + offset: 0x00000000, + dev: (0x08, 0x01), + inode: 0x60662705, + pathname: "/executable/path/starts-with-spaces".into(), + } + ); +} diff --git a/vendor/backtrace/src/symbolize/gimli/stash.rs b/vendor/backtrace/src/symbolize/gimli/stash.rs new file mode 100644 index 0000000..792f9a6 --- /dev/null +++ b/vendor/backtrace/src/symbolize/gimli/stash.rs @@ -0,0 +1,50 @@ +// only used on Linux right now, so allow dead code elsewhere +#![cfg_attr(not(target_os = "linux"), allow(dead_code))] + +use super::Mmap; +use alloc::vec; +use alloc::vec::Vec; +use core::cell::UnsafeCell; + +/// A simple arena allocator for byte buffers. +pub struct Stash { + buffers: UnsafeCell>>, + mmaps: UnsafeCell>, +} + +impl Stash { + pub fn new() -> Stash { + Stash { + buffers: UnsafeCell::new(Vec::new()), + mmaps: UnsafeCell::new(Vec::new()), + } + } + + /// Allocates a buffer of the specified size and returns a mutable reference + /// to it. + pub fn allocate(&self, size: usize) -> &mut [u8] { + // SAFETY: this is the only function that ever constructs a mutable + // reference to `self.buffers`. + let buffers = unsafe { &mut *self.buffers.get() }; + let i = buffers.len(); + buffers.push(vec![0; size]); + // SAFETY: we never remove elements from `self.buffers`, so a reference + // to the data inside any buffer will live as long as `self` does. + &mut buffers[i] + } + + /// Stores a `Mmap` for the lifetime of this `Stash`, returning a pointer + /// which is scoped to just this lifetime. + pub fn cache_mmap(&self, map: Mmap) -> &[u8] { + // SAFETY: this is the only location for a mutable pointer to + // `mmaps`, and this structure isn't threadsafe to shared across + // threads either. We also never remove elements from `self.mmaps`, + // so a reference to the data inside the map will live as long as + // `self` does. + unsafe { + let mmaps = &mut *self.mmaps.get(); + mmaps.push(map); + mmaps.last().unwrap() + } + } +} diff --git a/vendor/backtrace/src/symbolize/miri.rs b/vendor/backtrace/src/symbolize/miri.rs new file mode 100644 index 0000000..5b0dc30 --- /dev/null +++ b/vendor/backtrace/src/symbolize/miri.rs @@ -0,0 +1,56 @@ +use core::ffi::c_void; +use core::marker::PhantomData; + +use super::super::backtrace::miri::{resolve_addr, Frame}; +use super::BytesOrWideString; +use super::{ResolveWhat, SymbolName}; + +pub unsafe fn resolve(what: ResolveWhat<'_>, cb: &mut dyn FnMut(&super::Symbol)) { + let sym = match what { + ResolveWhat::Address(addr) => Symbol { + inner: resolve_addr(addr), + _unused: PhantomData, + }, + ResolveWhat::Frame(frame) => Symbol { + inner: frame.inner.clone(), + _unused: PhantomData, + }, + }; + cb(&super::Symbol { inner: sym }) +} + +pub struct Symbol<'a> { + inner: Frame, + _unused: PhantomData<&'a ()>, +} + +impl<'a> Symbol<'a> { + pub fn name(&self) -> Option> { + Some(SymbolName::new(&self.inner.inner.name)) + } + + pub fn addr(&self) -> Option<*mut c_void> { + Some(self.inner.addr) + } + + pub fn filename_raw(&self) -> Option> { + Some(BytesOrWideString::Bytes(&self.inner.inner.filename)) + } + + pub fn lineno(&self) -> Option { + Some(self.inner.inner.lineno) + } + + pub fn colno(&self) -> Option { + Some(self.inner.inner.colno) + } + + #[cfg(feature = "std")] + pub fn filename(&self) -> Option<&std::path::Path> { + Some(std::path::Path::new( + core::str::from_utf8(&self.inner.inner.filename).unwrap(), + )) + } +} + +pub unsafe fn clear_symbol_cache() {} diff --git a/vendor/backtrace/src/symbolize/mod.rs b/vendor/backtrace/src/symbolize/mod.rs new file mode 100644 index 0000000..a7c1995 --- /dev/null +++ b/vendor/backtrace/src/symbolize/mod.rs @@ -0,0 +1,485 @@ +use core::{fmt, str}; + +cfg_if::cfg_if! { + if #[cfg(feature = "std")] { + use std::path::Path; + use std::prelude::v1::*; + } +} + +use super::backtrace::Frame; +use super::types::BytesOrWideString; +use core::ffi::c_void; +use rustc_demangle::{try_demangle, Demangle}; + +/// Resolve an address to a symbol, passing the symbol to the specified +/// closure. +/// +/// This function will look up the given address in areas such as the local +/// symbol table, dynamic symbol table, or DWARF debug info (depending on the +/// activated implementation) to find symbols to yield. +/// +/// The closure may not be called if resolution could not be performed, and it +/// also may be called more than once in the case of inlined functions. +/// +/// Symbols yielded represent the execution at the specified `addr`, returning +/// file/line pairs for that address (if available). +/// +/// Note that if you have a `Frame` then it's recommended to use the +/// `resolve_frame` function instead of this one. +/// +/// # 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| { +/// let ip = frame.ip(); +/// +/// backtrace::resolve(ip, |symbol| { +/// // ... +/// }); +/// +/// false // only look at the top frame +/// }); +/// } +/// ``` +#[cfg(feature = "std")] +pub fn resolve(addr: *mut c_void, cb: F) { + let _guard = crate::lock::lock(); + unsafe { resolve_unsynchronized(addr, cb) } +} + +/// Resolve a previously capture frame to a symbol, passing the symbol to the +/// specified closure. +/// +/// This function performs the same function as `resolve` except that it takes a +/// `Frame` as an argument instead of an address. This can allow some platform +/// implementations of backtracing to provide more accurate symbol information +/// or information about inline frames for example. It's recommended to use this +/// if you can. +/// +/// # 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| { +/// backtrace::resolve_frame(frame, |symbol| { +/// // ... +/// }); +/// +/// false // only look at the top frame +/// }); +/// } +/// ``` +#[cfg(feature = "std")] +pub fn resolve_frame(frame: &Frame, cb: F) { + let _guard = crate::lock::lock(); + unsafe { resolve_frame_unsynchronized(frame, cb) } +} + +pub enum ResolveWhat<'a> { + Address(*mut c_void), + Frame(&'a Frame), +} + +impl<'a> ResolveWhat<'a> { + #[allow(dead_code)] + fn address_or_ip(&self) -> *mut c_void { + match self { + ResolveWhat::Address(a) => adjust_ip(*a), + ResolveWhat::Frame(f) => adjust_ip(f.ip()), + } + } +} + +// IP values from stack frames are typically (always?) the instruction +// *after* the call that's the actual stack trace. Symbolizing this on +// causes the filename/line number to be one ahead and perhaps into +// the void if it's near the end of the function. +// +// This appears to basically always be the case on all platforms, so we always +// subtract one from a resolved ip to resolve it to the previous call +// instruction instead of the instruction being returned to. +// +// Ideally we would not do this. Ideally we would require callers of the +// `resolve` APIs here to manually do the -1 and account that they want location +// information for the *previous* instruction, not the current. Ideally we'd +// also expose on `Frame` if we are indeed the address of the next instruction +// or the current. +// +// For now though this is a pretty niche concern so we just internally always +// subtract one. Consumers should keep working and getting pretty good results, +// so we should be good enough. +fn adjust_ip(a: *mut c_void) -> *mut c_void { + if a.is_null() { + a + } else { + (a as usize - 1) as *mut c_void + } +} + +/// Same as `resolve`, 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 `resolve` +/// function for more documentation and examples. +/// +/// # Panics +/// +/// See information on `resolve` for caveats on `cb` panicking. +pub unsafe fn resolve_unsynchronized(addr: *mut c_void, mut cb: F) +where + F: FnMut(&Symbol), +{ + imp::resolve(ResolveWhat::Address(addr), &mut cb) +} + +/// Same as `resolve_frame`, 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 +/// `resolve_frame` function for more documentation and examples. +/// +/// # Panics +/// +/// See information on `resolve_frame` for caveats on `cb` panicking. +pub unsafe fn resolve_frame_unsynchronized(frame: &Frame, mut cb: F) +where + F: FnMut(&Symbol), +{ + imp::resolve(ResolveWhat::Frame(frame), &mut cb) +} + +/// A trait representing the resolution of a symbol in a file. +/// +/// This trait is yielded as a trait object to the closure given to the +/// `backtrace::resolve` function, and it is virtually dispatched as it's +/// unknown which implementation is behind it. +/// +/// A symbol can give contextual information about a function, for example the +/// name, filename, line number, precise address, etc. Not all information is +/// always available in a symbol, however, so all methods return an `Option`. +pub struct Symbol { + // TODO: this lifetime bound needs to be persisted eventually to `Symbol`, + // but that's currently a breaking change. For now this is safe since + // `Symbol` is only ever handed out by reference and can't be cloned. + inner: imp::Symbol<'static>, +} + +impl Symbol { + /// Returns the name of this function. + /// + /// The returned structure can be used to query various properties about the + /// symbol name: + /// + /// * The `Display` implementation will print out the demangled symbol. + /// * The raw `str` value of the symbol can be accessed (if it's valid + /// utf-8). + /// * The raw bytes for the symbol name can be accessed. + pub fn name(&self) -> Option> { + self.inner.name() + } + + /// Returns the starting address of this function. + pub fn addr(&self) -> Option<*mut c_void> { + self.inner.addr().map(|p| p as *mut _) + } + + /// Returns the raw filename as a slice. This is mainly useful for `no_std` + /// environments. + pub fn filename_raw(&self) -> Option> { + self.inner.filename_raw() + } + + /// Returns the column number for where this symbol is currently executing. + /// + /// Only gimli currently provides a value here and even then only if `filename` + /// returns `Some`, and so it is then consequently subject to similar caveats. + pub fn colno(&self) -> Option { + self.inner.colno() + } + + /// Returns the line number for where this symbol is currently executing. + /// + /// This return value is typically `Some` if `filename` returns `Some`, and + /// is consequently subject to similar caveats. + pub fn lineno(&self) -> Option { + self.inner.lineno() + } + + /// Returns the file name where this function was defined. + /// + /// This is currently only available when libbacktrace or gimli is being + /// used (e.g. unix platforms other) and when a binary is compiled with + /// debuginfo. If neither of these conditions is met then this will likely + /// return `None`. + /// + /// # 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")] + #[allow(unreachable_code)] + pub fn filename(&self) -> Option<&Path> { + self.inner.filename() + } +} + +impl fmt::Debug for Symbol { + fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result { + let mut d = f.debug_struct("Symbol"); + if let Some(name) = self.name() { + d.field("name", &name); + } + if let Some(addr) = self.addr() { + d.field("addr", &addr); + } + + #[cfg(feature = "std")] + { + if let Some(filename) = self.filename() { + d.field("filename", &filename); + } + } + + if let Some(lineno) = self.lineno() { + d.field("lineno", &lineno); + } + d.finish() + } +} + +cfg_if::cfg_if! { + if #[cfg(feature = "cpp_demangle")] { + // Maybe a parsed C++ symbol, if parsing the mangled symbol as Rust + // failed. + struct OptionCppSymbol<'a>(Option<::cpp_demangle::BorrowedSymbol<'a>>); + + impl<'a> OptionCppSymbol<'a> { + fn parse(input: &'a [u8]) -> OptionCppSymbol<'a> { + OptionCppSymbol(::cpp_demangle::BorrowedSymbol::new(input).ok()) + } + + fn none() -> OptionCppSymbol<'a> { + OptionCppSymbol(None) + } + } + } else { + use core::marker::PhantomData; + + // Make sure to keep this zero-sized, so that the `cpp_demangle` feature + // has no cost when disabled. + struct OptionCppSymbol<'a>(PhantomData<&'a ()>); + + impl<'a> OptionCppSymbol<'a> { + fn parse(_: &'a [u8]) -> OptionCppSymbol<'a> { + OptionCppSymbol(PhantomData) + } + + fn none() -> OptionCppSymbol<'a> { + OptionCppSymbol(PhantomData) + } + } + } +} + +/// A wrapper around a symbol name to provide ergonomic accessors to the +/// demangled name, the raw bytes, the raw string, etc. +// Allow dead code for when the `cpp_demangle` feature is not enabled. +#[allow(dead_code)] +pub struct SymbolName<'a> { + bytes: &'a [u8], + demangled: Option>, + cpp_demangled: OptionCppSymbol<'a>, +} + +impl<'a> SymbolName<'a> { + /// Creates a new symbol name from the raw underlying bytes. + pub fn new(bytes: &'a [u8]) -> SymbolName<'a> { + let str_bytes = str::from_utf8(bytes).ok(); + let demangled = str_bytes.and_then(|s| try_demangle(s).ok()); + + let cpp = if demangled.is_none() { + OptionCppSymbol::parse(bytes) + } else { + OptionCppSymbol::none() + }; + + SymbolName { + bytes: bytes, + demangled: demangled, + cpp_demangled: cpp, + } + } + + /// Returns the raw (mangled) symbol name as a `str` if the symbol is valid utf-8. + /// + /// Use the `Display` implementation if you want the demangled version. + pub fn as_str(&self) -> Option<&'a str> { + self.demangled + .as_ref() + .map(|s| s.as_str()) + .or_else(|| str::from_utf8(self.bytes).ok()) + } + + /// Returns the raw symbol name as a list of bytes + pub fn as_bytes(&self) -> &'a [u8] { + self.bytes + } +} + +fn format_symbol_name( + fmt: fn(&str, &mut fmt::Formatter<'_>) -> fmt::Result, + mut bytes: &[u8], + f: &mut fmt::Formatter<'_>, +) -> fmt::Result { + while bytes.len() > 0 { + match str::from_utf8(bytes) { + Ok(name) => { + fmt(name, f)?; + break; + } + Err(err) => { + fmt("\u{FFFD}", f)?; + + match err.error_len() { + Some(len) => bytes = &bytes[err.valid_up_to() + len..], + None => break, + } + } + } + } + Ok(()) +} + +cfg_if::cfg_if! { + if #[cfg(feature = "cpp_demangle")] { + impl<'a> fmt::Display for SymbolName<'a> { + fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result { + if let Some(ref s) = self.demangled { + s.fmt(f) + } else if let Some(ref cpp) = self.cpp_demangled.0 { + cpp.fmt(f) + } else { + format_symbol_name(fmt::Display::fmt, self.bytes, f) + } + } + } + } else { + impl<'a> fmt::Display for SymbolName<'a> { + fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result { + if let Some(ref s) = self.demangled { + s.fmt(f) + } else { + format_symbol_name(fmt::Display::fmt, self.bytes, f) + } + } + } + } +} + +cfg_if::cfg_if! { + if #[cfg(all(feature = "std", feature = "cpp_demangle"))] { + impl<'a> fmt::Debug for SymbolName<'a> { + fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result { + use std::fmt::Write; + + if let Some(ref s) = self.demangled { + return s.fmt(f) + } + + // This may to print if the demangled symbol isn't actually + // valid, so handle the error here gracefully by not propagating + // it outwards. + if let Some(ref cpp) = self.cpp_demangled.0 { + let mut s = String::new(); + if write!(s, "{}", cpp).is_ok() { + return s.fmt(f) + } + } + + format_symbol_name(fmt::Debug::fmt, self.bytes, f) + } + } + } else { + impl<'a> fmt::Debug for SymbolName<'a> { + fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result { + if let Some(ref s) = self.demangled { + s.fmt(f) + } else { + format_symbol_name(fmt::Debug::fmt, self.bytes, f) + } + } + } + } +} + +/// Attempt to reclaim that cached memory used to symbolicate addresses. +/// +/// This method will attempt to release any global data structures that have +/// otherwise been cached globally or in the thread which typically represent +/// parsed DWARF information or similar. +/// +/// # Caveats +/// +/// While this function is always available it doesn't actually do anything on +/// most implementations. Libraries like dbghelp or libbacktrace do not provide +/// facilities to deallocate state and manage the allocated memory. For now the +/// `gimli-symbolize` feature of this crate is the only feature where this +/// function has any effect. +#[cfg(feature = "std")] +pub fn clear_symbol_cache() { + let _guard = crate::lock::lock(); + unsafe { + imp::clear_symbol_cache(); + } +} + +cfg_if::cfg_if! { + if #[cfg(miri)] { + mod miri; + use miri as imp; + } else if #[cfg(all(windows, target_env = "msvc", not(target_vendor = "uwp")))] { + mod dbghelp; + use dbghelp as imp; + } else if #[cfg(all( + any(unix, all(windows, target_env = "gnu")), + not(target_vendor = "uwp"), + not(target_os = "emscripten"), + any(not(backtrace_in_libstd), feature = "backtrace"), + ))] { + mod gimli; + use gimli as imp; + } else { + mod noop; + use noop as imp; + } +} diff --git a/vendor/backtrace/src/symbolize/noop.rs b/vendor/backtrace/src/symbolize/noop.rs new file mode 100644 index 0000000..c533365 --- /dev/null +++ b/vendor/backtrace/src/symbolize/noop.rs @@ -0,0 +1,41 @@ +//! Empty symbolication strategy used to compile for platforms that have no +//! support. + +use super::{BytesOrWideString, ResolveWhat, SymbolName}; +use core::ffi::c_void; +use core::marker; + +pub unsafe fn resolve(_addr: ResolveWhat<'_>, _cb: &mut dyn FnMut(&super::Symbol)) {} + +pub struct Symbol<'a> { + _marker: marker::PhantomData<&'a i32>, +} + +impl Symbol<'_> { + pub fn name(&self) -> Option> { + None + } + + pub fn addr(&self) -> Option<*mut c_void> { + None + } + + pub fn filename_raw(&self) -> Option> { + None + } + + #[cfg(feature = "std")] + pub fn filename(&self) -> Option<&::std::path::Path> { + None + } + + pub fn lineno(&self) -> Option { + None + } + + pub fn colno(&self) -> Option { + None + } +} + +pub unsafe fn clear_symbol_cache() {} diff --git a/vendor/backtrace/src/types.rs b/vendor/backtrace/src/types.rs new file mode 100644 index 0000000..c7e5510 --- /dev/null +++ b/vendor/backtrace/src/types.rs @@ -0,0 +1,83 @@ +//! Platform dependent types. + +cfg_if::cfg_if! { + if #[cfg(feature = "std")] { + use std::borrow::Cow; + use std::fmt; + use std::path::PathBuf; + use std::prelude::v1::*; + use std::str; + } +} + +/// A platform independent representation of a string. When working with `std` +/// enabled it is recommended to the convenience methods for providing +/// conversions to `std` types. +#[derive(Debug)] +pub enum BytesOrWideString<'a> { + /// A slice, typically provided on Unix platforms. + Bytes(&'a [u8]), + /// Wide strings typically from Windows. + Wide(&'a [u16]), +} + +#[cfg(feature = "std")] +impl<'a> BytesOrWideString<'a> { + /// Lossy converts to a `Cow`, will allocate if `Bytes` is not valid + /// UTF-8 or if `BytesOrWideString` is `Wide`. + /// + /// # Required features + /// + /// This function requires the `std` feature of the `backtrace` crate to be + /// enabled, and the `std` feature is enabled by default. + pub fn to_str_lossy(&self) -> Cow<'a, str> { + use self::BytesOrWideString::*; + + match self { + &Bytes(slice) => String::from_utf8_lossy(slice), + &Wide(wide) => Cow::Owned(String::from_utf16_lossy(wide)), + } + } + + /// Provides a `Path` representation of `BytesOrWideString`. + /// + /// # Required features + /// + /// This function requires the `std` feature of the `backtrace` crate to be + /// enabled, and the `std` feature is enabled by default. + pub fn into_path_buf(self) -> PathBuf { + #[cfg(unix)] + { + use std::ffi::OsStr; + use std::os::unix::ffi::OsStrExt; + + if let BytesOrWideString::Bytes(slice) = self { + return PathBuf::from(OsStr::from_bytes(slice)); + } + } + + #[cfg(windows)] + { + use std::ffi::OsString; + use std::os::windows::ffi::OsStringExt; + + if let BytesOrWideString::Wide(slice) = self { + return PathBuf::from(OsString::from_wide(slice)); + } + } + + if let BytesOrWideString::Bytes(b) = self { + if let Ok(s) = str::from_utf8(b) { + return PathBuf::from(s); + } + } + unreachable!() + } +} + +#[cfg(feature = "std")] +impl<'a> fmt::Display for BytesOrWideString<'a> { + fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result { + self.to_str_lossy().fmt(f) + } +} diff --git a/vendor/backtrace/src/windows.rs b/vendor/backtrace/src/windows.rs new file mode 100644 index 0000000..92c2b2e --- /dev/null +++ b/vendor/backtrace/src/windows.rs @@ -0,0 +1,693 @@ +//! A module to define the FFI definitions we use on Windows for `dbghelp.dll` +//! +//! This module uses a custom macro, `ffi!`, to wrap all definitions to +//! automatically generate tests to assert that our definitions here are the +//! same as `winapi`. +//! +//! This module largely exists to integrate into libstd itself where winapi is +//! not currently available. + +#![allow(bad_style, dead_code)] + +cfg_if::cfg_if! { + if #[cfg(feature = "verify-winapi")] { + pub use self::winapi::c_void; + pub use self::winapi::HINSTANCE; + pub use self::winapi::FARPROC; + pub use self::winapi::LPSECURITY_ATTRIBUTES; + #[cfg(target_pointer_width = "64")] + pub use self::winapi::PUNWIND_HISTORY_TABLE; + #[cfg(target_pointer_width = "64")] + pub use self::winapi::PRUNTIME_FUNCTION; + + mod winapi { + pub use winapi::ctypes::*; + pub use winapi::shared::basetsd::*; + pub use winapi::shared::minwindef::*; + pub use winapi::um::dbghelp::*; + pub use winapi::um::fileapi::*; + pub use winapi::um::handleapi::*; + pub use winapi::um::libloaderapi::*; + pub use winapi::um::memoryapi::*; + pub use winapi::um::minwinbase::*; + pub use winapi::um::processthreadsapi::*; + pub use winapi::um::synchapi::*; + pub use winapi::um::tlhelp32::*; + pub use winapi::um::winbase::*; + pub use winapi::um::winnt::*; + } + } else { + pub use core::ffi::c_void; + pub type HINSTANCE = *mut c_void; + pub type FARPROC = *mut c_void; + pub type LPSECURITY_ATTRIBUTES = *mut c_void; + #[cfg(target_pointer_width = "64")] + pub type PRUNTIME_FUNCTION = *mut c_void; + #[cfg(target_pointer_width = "64")] + pub type PUNWIND_HISTORY_TABLE = *mut c_void; + } +} + +macro_rules! ffi { + () => (); + + (#[repr($($r:tt)*)] pub struct $name:ident { $(pub $field:ident: $ty:ty,)* } $($rest:tt)*) => ( + #[repr($($r)*)] + #[cfg(not(feature = "verify-winapi"))] + #[derive(Copy, Clone)] + pub struct $name { + $(pub $field: $ty,)* + } + + #[cfg(feature = "verify-winapi")] + pub use self::winapi::$name; + + #[test] + #[cfg(feature = "verify-winapi")] + fn $name() { + use core::mem; + + #[repr($($r)*)] + pub struct $name { + $(pub $field: $ty,)* + } + + assert_eq!( + mem::size_of::<$name>(), + mem::size_of::(), + concat!("size of ", stringify!($name), " is wrong"), + ); + assert_eq!( + mem::align_of::<$name>(), + mem::align_of::(), + concat!("align of ", stringify!($name), " is wrong"), + ); + + type Winapi = winapi::$name; + + fn assert_same(_: T, _: T) {} + + unsafe { + let a = &*(mem::align_of::<$name>() as *const $name); + let b = &*(mem::align_of::() as *const Winapi); + + $( + ffi!(@test_fields a b $field $ty); + )* + } + } + + ffi!($($rest)*); + ); + + // Handling verification against unions in winapi requires some special care + (@test_fields $a:ident $b:ident FltSave $ty:ty) => ( + // Skip this field on x86_64 `CONTEXT` since it's a union and a bit funny + ); + (@test_fields $a:ident $b:ident D $ty:ty) => ({ + let a = &$a.D; + let b = $b.D(); + assert_same(a, b); + assert_eq!(a as *const $ty, b as *const $ty, "misplaced field D"); + }); + (@test_fields $a:ident $b:ident s $ty:ty) => ({ + let a = &$a.s; + let b = $b.s(); + assert_same(a, b); + assert_eq!(a as *const $ty, b as *const $ty, "misplaced field s"); + }); + + // Otherwise test all fields normally. + (@test_fields $a:ident $b:ident $field:ident $ty:ty) => ({ + let a = &$a.$field; + let b = &$b.$field; + assert_same(a, b); + assert_eq!(a as *const $ty, b as *const $ty, + concat!("misplaced field ", stringify!($field))); + }); + + (pub type $name:ident = $ty:ty; $($rest:tt)*) => ( + pub type $name = $ty; + + #[cfg(feature = "verify-winapi")] + #[allow(dead_code)] + const $name: () = { + fn _foo() { + trait SameType {} + impl SameType for (T, T) {} + fn assert_same() {} + + assert_same::<($name, winapi::$name)>(); + } + }; + + ffi!($($rest)*); + ); + + (pub const $name:ident: $ty:ty = $val:expr; $($rest:tt)*) => ( + pub const $name: $ty = $val; + + #[cfg(feature = "verify-winapi")] + #[allow(unused_imports)] + mod $name { + use super::*; + #[test] + fn assert_valid() { + let x: $ty = winapi::$name; + assert_eq!(x, $val); + } + } + + + ffi!($($rest)*); + ); + + ($(#[$meta:meta])* extern "system" { $(pub fn $name:ident($($args:tt)*) -> $ret:ty;)* } $($rest:tt)*) => ( + $(#[$meta])* extern "system" { + $(pub fn $name($($args)*) -> $ret;)* + } + + $( + #[cfg(feature = "verify-winapi")] + mod $name { + #[test] + fn assert_same() { + use super::*; + + assert_eq!($name as usize, winapi::$name as usize); + let mut x: unsafe extern "system" fn($($args)*) -> $ret; + x = $name; + let _ = x; + x = winapi::$name; + let _ = x; + } + } + )* + + ffi!($($rest)*); + ); + + (impl $name:ident { $($i:tt)* } $($rest:tt)*) => ( + #[cfg(not(feature = "verify-winapi"))] + impl $name { + $($i)* + } + + ffi!($($rest)*); + ); +} + +ffi! { + #[repr(C)] + pub struct STACKFRAME64 { + pub AddrPC: ADDRESS64, + pub AddrReturn: ADDRESS64, + pub AddrFrame: ADDRESS64, + pub AddrStack: ADDRESS64, + pub AddrBStore: ADDRESS64, + pub FuncTableEntry: PVOID, + pub Params: [DWORD64; 4], + pub Far: BOOL, + pub Virtual: BOOL, + pub Reserved: [DWORD64; 3], + pub KdHelp: KDHELP64, + } + + pub type LPSTACKFRAME64 = *mut STACKFRAME64; + + #[repr(C)] + pub struct STACKFRAME_EX { + pub AddrPC: ADDRESS64, + pub AddrReturn: ADDRESS64, + pub AddrFrame: ADDRESS64, + pub AddrStack: ADDRESS64, + pub AddrBStore: ADDRESS64, + pub FuncTableEntry: PVOID, + pub Params: [DWORD64; 4], + pub Far: BOOL, + pub Virtual: BOOL, + pub Reserved: [DWORD64; 3], + pub KdHelp: KDHELP64, + pub StackFrameSize: DWORD, + pub InlineFrameContext: DWORD, + } + + pub type LPSTACKFRAME_EX = *mut STACKFRAME_EX; + + #[repr(C)] + pub struct IMAGEHLP_LINEW64 { + pub SizeOfStruct: DWORD, + pub Key: PVOID, + pub LineNumber: DWORD, + pub FileName: PWSTR, + pub Address: DWORD64, + } + + pub type PIMAGEHLP_LINEW64 = *mut IMAGEHLP_LINEW64; + + #[repr(C)] + pub struct SYMBOL_INFOW { + pub SizeOfStruct: ULONG, + pub TypeIndex: ULONG, + pub Reserved: [ULONG64; 2], + pub Index: ULONG, + pub Size: ULONG, + pub ModBase: ULONG64, + pub Flags: ULONG, + pub Value: ULONG64, + pub Address: ULONG64, + pub Register: ULONG, + pub Scope: ULONG, + pub Tag: ULONG, + pub NameLen: ULONG, + pub MaxNameLen: ULONG, + pub Name: [WCHAR; 1], + } + + pub type PSYMBOL_INFOW = *mut SYMBOL_INFOW; + + pub type PTRANSLATE_ADDRESS_ROUTINE64 = Option< + unsafe extern "system" fn(hProcess: HANDLE, hThread: HANDLE, lpaddr: LPADDRESS64) -> DWORD64, + >; + pub type PGET_MODULE_BASE_ROUTINE64 = + Option DWORD64>; + pub type PFUNCTION_TABLE_ACCESS_ROUTINE64 = + Option PVOID>; + pub type PREAD_PROCESS_MEMORY_ROUTINE64 = Option< + unsafe extern "system" fn( + hProcess: HANDLE, + qwBaseAddress: DWORD64, + lpBuffer: PVOID, + nSize: DWORD, + lpNumberOfBytesRead: LPDWORD, + ) -> BOOL, + >; + + #[repr(C)] + pub struct ADDRESS64 { + pub Offset: DWORD64, + pub Segment: WORD, + pub Mode: ADDRESS_MODE, + } + + pub type LPADDRESS64 = *mut ADDRESS64; + + pub type ADDRESS_MODE = u32; + + #[repr(C)] + pub struct KDHELP64 { + pub Thread: DWORD64, + pub ThCallbackStack: DWORD, + pub ThCallbackBStore: DWORD, + pub NextCallback: DWORD, + pub FramePointer: DWORD, + pub KiCallUserMode: DWORD64, + pub KeUserCallbackDispatcher: DWORD64, + pub SystemRangeStart: DWORD64, + pub KiUserExceptionDispatcher: DWORD64, + pub StackBase: DWORD64, + pub StackLimit: DWORD64, + pub BuildVersion: DWORD, + pub Reserved0: DWORD, + pub Reserved1: [DWORD64; 4], + } + + #[repr(C)] + pub struct MODULEENTRY32W { + pub dwSize: DWORD, + pub th32ModuleID: DWORD, + pub th32ProcessID: DWORD, + pub GlblcntUsage: DWORD, + pub ProccntUsage: DWORD, + pub modBaseAddr: *mut u8, + pub modBaseSize: DWORD, + pub hModule: HMODULE, + pub szModule: [WCHAR; MAX_MODULE_NAME32 + 1], + pub szExePath: [WCHAR; MAX_PATH], + } + + pub const MAX_SYM_NAME: usize = 2000; + pub const AddrModeFlat: ADDRESS_MODE = 3; + pub const TRUE: BOOL = 1; + pub const FALSE: BOOL = 0; + pub const PROCESS_QUERY_INFORMATION: DWORD = 0x400; + pub const IMAGE_FILE_MACHINE_ARM64: u16 = 43620; + pub const IMAGE_FILE_MACHINE_AMD64: u16 = 34404; + pub const IMAGE_FILE_MACHINE_I386: u16 = 332; + pub const IMAGE_FILE_MACHINE_ARMNT: u16 = 452; + pub const FILE_SHARE_READ: DWORD = 0x1; + pub const FILE_SHARE_WRITE: DWORD = 0x2; + pub const OPEN_EXISTING: DWORD = 0x3; + pub const GENERIC_READ: DWORD = 0x80000000; + pub const INFINITE: DWORD = !0; + pub const PAGE_READONLY: DWORD = 2; + pub const FILE_MAP_READ: DWORD = 4; + pub const TH32CS_SNAPMODULE: DWORD = 0x00000008; + pub const INVALID_HANDLE_VALUE: HANDLE = -1isize as HANDLE; + pub const MAX_MODULE_NAME32: usize = 255; + pub const MAX_PATH: usize = 260; + + pub type DWORD = u32; + pub type PDWORD = *mut u32; + pub type BOOL = i32; + pub type DWORD64 = u64; + pub type PDWORD64 = *mut u64; + pub type HANDLE = *mut c_void; + pub type PVOID = HANDLE; + pub type PCWSTR = *const u16; + pub type LPSTR = *mut i8; + pub type LPCSTR = *const i8; + pub type PWSTR = *mut u16; + pub type WORD = u16; + pub type ULONG = u32; + pub type ULONG64 = u64; + pub type WCHAR = u16; + pub type PCONTEXT = *mut CONTEXT; + pub type LPDWORD = *mut DWORD; + pub type DWORDLONG = u64; + pub type HMODULE = HINSTANCE; + pub type SIZE_T = usize; + pub type LPVOID = *mut c_void; + pub type LPCVOID = *const c_void; + pub type LPMODULEENTRY32W = *mut MODULEENTRY32W; + + #[link(name = "kernel32")] + extern "system" { + pub fn GetCurrentProcess() -> HANDLE; + pub fn GetCurrentThread() -> HANDLE; + pub fn RtlCaptureContext(ContextRecord: PCONTEXT) -> (); + pub fn LoadLibraryA(a: *const i8) -> HMODULE; + pub fn GetProcAddress(h: HMODULE, name: *const i8) -> FARPROC; + pub fn GetModuleHandleA(name: *const i8) -> HMODULE; + pub fn OpenProcess( + dwDesiredAccess: DWORD, + bInheitHandle: BOOL, + dwProcessId: DWORD, + ) -> HANDLE; + pub fn GetCurrentProcessId() -> DWORD; + pub fn CloseHandle(h: HANDLE) -> BOOL; + pub fn CreateFileA( + lpFileName: LPCSTR, + dwDesiredAccess: DWORD, + dwShareMode: DWORD, + lpSecurityAttributes: LPSECURITY_ATTRIBUTES, + dwCreationDisposition: DWORD, + dwFlagsAndAttributes: DWORD, + hTemplateFile: HANDLE, + ) -> HANDLE; + pub fn CreateMutexA( + attrs: LPSECURITY_ATTRIBUTES, + initial: BOOL, + name: LPCSTR, + ) -> HANDLE; + pub fn ReleaseMutex(hMutex: HANDLE) -> BOOL; + pub fn WaitForSingleObjectEx( + hHandle: HANDLE, + dwMilliseconds: DWORD, + bAlertable: BOOL, + ) -> DWORD; + pub fn CreateFileMappingA( + hFile: HANDLE, + lpFileMappingAttributes: LPSECURITY_ATTRIBUTES, + flProtect: DWORD, + dwMaximumSizeHigh: DWORD, + dwMaximumSizeLow: DWORD, + lpName: LPCSTR, + ) -> HANDLE; + pub fn MapViewOfFile( + hFileMappingObject: HANDLE, + dwDesiredAccess: DWORD, + dwFileOffsetHigh: DWORD, + dwFileOffsetLow: DWORD, + dwNumberOfBytesToMap: SIZE_T, + ) -> LPVOID; + pub fn UnmapViewOfFile(lpBaseAddress: LPCVOID) -> BOOL; + pub fn CreateToolhelp32Snapshot( + dwFlags: DWORD, + th32ProcessID: DWORD, + ) -> HANDLE; + pub fn Module32FirstW( + hSnapshot: HANDLE, + lpme: LPMODULEENTRY32W, + ) -> BOOL; + pub fn Module32NextW( + hSnapshot: HANDLE, + lpme: LPMODULEENTRY32W, + ) -> BOOL; + } +} + +#[cfg(target_pointer_width = "64")] +ffi! { + #[link(name = "kernel32")] + extern "system" { + pub fn RtlLookupFunctionEntry( + ControlPc: DWORD64, + ImageBase: PDWORD64, + HistoryTable: PUNWIND_HISTORY_TABLE, + ) -> PRUNTIME_FUNCTION; + } +} + +#[cfg(target_arch = "aarch64")] +ffi! { + #[repr(C, align(16))] + pub struct CONTEXT { + pub ContextFlags: DWORD, + pub Cpsr: DWORD, + pub u: CONTEXT_u, + pub Sp: u64, + pub Pc: u64, + pub V: [ARM64_NT_NEON128; 32], + pub Fpcr: DWORD, + pub Fpsr: DWORD, + pub Bcr: [DWORD; ARM64_MAX_BREAKPOINTS], + pub Bvr: [DWORD64; ARM64_MAX_BREAKPOINTS], + pub Wcr: [DWORD; ARM64_MAX_WATCHPOINTS], + pub Wvr: [DWORD64; ARM64_MAX_WATCHPOINTS], + } + + #[repr(C)] + pub struct CONTEXT_u { + pub s: CONTEXT_u_s, + } + + impl CONTEXT_u { + pub unsafe fn s(&self) -> &CONTEXT_u_s { + &self.s + } + } + + #[repr(C)] + pub struct CONTEXT_u_s { + pub X0: u64, + pub X1: u64, + pub X2: u64, + pub X3: u64, + pub X4: u64, + pub X5: u64, + pub X6: u64, + pub X7: u64, + pub X8: u64, + pub X9: u64, + pub X10: u64, + pub X11: u64, + pub X12: u64, + pub X13: u64, + pub X14: u64, + pub X15: u64, + pub X16: u64, + pub X17: u64, + pub X18: u64, + pub X19: u64, + pub X20: u64, + pub X21: u64, + pub X22: u64, + pub X23: u64, + pub X24: u64, + pub X25: u64, + pub X26: u64, + pub X27: u64, + pub X28: u64, + pub Fp: u64, + pub Lr: u64, + } + + pub const ARM64_MAX_BREAKPOINTS: usize = 8; + pub const ARM64_MAX_WATCHPOINTS: usize = 2; + + #[repr(C)] + pub struct ARM64_NT_NEON128 { + pub D: [f64; 2], + } +} + +#[cfg(target_arch = "x86")] +ffi! { + #[repr(C)] + pub struct CONTEXT { + pub ContextFlags: DWORD, + pub Dr0: DWORD, + pub Dr1: DWORD, + pub Dr2: DWORD, + pub Dr3: DWORD, + pub Dr6: DWORD, + pub Dr7: DWORD, + pub FloatSave: FLOATING_SAVE_AREA, + pub SegGs: DWORD, + pub SegFs: DWORD, + pub SegEs: DWORD, + pub SegDs: DWORD, + pub Edi: DWORD, + pub Esi: DWORD, + pub Ebx: DWORD, + pub Edx: DWORD, + pub Ecx: DWORD, + pub Eax: DWORD, + pub Ebp: DWORD, + pub Eip: DWORD, + pub SegCs: DWORD, + pub EFlags: DWORD, + pub Esp: DWORD, + pub SegSs: DWORD, + pub ExtendedRegisters: [u8; 512], + } + + #[repr(C)] + pub struct FLOATING_SAVE_AREA { + pub ControlWord: DWORD, + pub StatusWord: DWORD, + pub TagWord: DWORD, + pub ErrorOffset: DWORD, + pub ErrorSelector: DWORD, + pub DataOffset: DWORD, + pub DataSelector: DWORD, + pub RegisterArea: [u8; 80], + pub Spare0: DWORD, + } +} + +#[cfg(target_arch = "x86_64")] +ffi! { + #[repr(C, align(8))] + pub struct CONTEXT { + pub P1Home: DWORDLONG, + pub P2Home: DWORDLONG, + pub P3Home: DWORDLONG, + pub P4Home: DWORDLONG, + pub P5Home: DWORDLONG, + pub P6Home: DWORDLONG, + + pub ContextFlags: DWORD, + pub MxCsr: DWORD, + + pub SegCs: WORD, + pub SegDs: WORD, + pub SegEs: WORD, + pub SegFs: WORD, + pub SegGs: WORD, + pub SegSs: WORD, + pub EFlags: DWORD, + + pub Dr0: DWORDLONG, + pub Dr1: DWORDLONG, + pub Dr2: DWORDLONG, + pub Dr3: DWORDLONG, + pub Dr6: DWORDLONG, + pub Dr7: DWORDLONG, + + pub Rax: DWORDLONG, + pub Rcx: DWORDLONG, + pub Rdx: DWORDLONG, + pub Rbx: DWORDLONG, + pub Rsp: DWORDLONG, + pub Rbp: DWORDLONG, + pub Rsi: DWORDLONG, + pub Rdi: DWORDLONG, + pub R8: DWORDLONG, + pub R9: DWORDLONG, + pub R10: DWORDLONG, + pub R11: DWORDLONG, + pub R12: DWORDLONG, + pub R13: DWORDLONG, + pub R14: DWORDLONG, + pub R15: DWORDLONG, + + pub Rip: DWORDLONG, + + pub FltSave: FLOATING_SAVE_AREA, + + pub VectorRegister: [M128A; 26], + pub VectorControl: DWORDLONG, + + pub DebugControl: DWORDLONG, + pub LastBranchToRip: DWORDLONG, + pub LastBranchFromRip: DWORDLONG, + pub LastExceptionToRip: DWORDLONG, + pub LastExceptionFromRip: DWORDLONG, + } + + #[repr(C)] + pub struct M128A { + pub Low: u64, + pub High: i64, + } +} + +#[repr(C)] +#[cfg(target_arch = "x86_64")] +#[derive(Copy, Clone)] +pub struct FLOATING_SAVE_AREA { + _Dummy: [u8; 512], +} + +#[cfg(target_arch = "arm")] +ffi! { + // #[repr(C)] + // pub struct NEON128 { + // pub Low: ULONG64, + // pub High: LONG64, + // } + + // pub type PNEON128 = *mut NEON128; + + #[repr(C)] + pub struct CONTEXT_u { + // pub Q: [NEON128; 16], + pub D: [ULONG64; 32], + // pub S: [DWORD; 32], + } + + pub const ARM_MAX_BREAKPOINTS: usize = 8; + pub const ARM_MAX_WATCHPOINTS: usize = 1; + + #[repr(C)] + pub struct CONTEXT { + pub ContextFlags: DWORD, + pub R0: DWORD, + pub R1: DWORD, + pub R2: DWORD, + pub R3: DWORD, + pub R4: DWORD, + pub R5: DWORD, + pub R6: DWORD, + pub R7: DWORD, + pub R8: DWORD, + pub R9: DWORD, + pub R10: DWORD, + pub R11: DWORD, + pub R12: DWORD, + pub Sp: DWORD, + pub Lr: DWORD, + pub Pc: DWORD, + pub Cpsr: DWORD, + pub Fpsrc: DWORD, + pub Padding: DWORD, + pub u: CONTEXT_u, + pub Bvr: [DWORD; ARM_MAX_BREAKPOINTS], + pub Bcr: [DWORD; ARM_MAX_BREAKPOINTS], + pub Wvr: [DWORD; ARM_MAX_WATCHPOINTS], + pub Wcr: [DWORD; ARM_MAX_WATCHPOINTS], + pub Padding2: [DWORD; 2], + } +} // IFDEF(arm) -- cgit v1.2.3