base/debug/stack_trace.h - chromium/src.git - Git at Google

 // Copyright 2012 The Chromium Authors
 // Use of this source code is governed by a BSD-style license that can be
 // found in the LICENSE file.

 #ifndef BASE_DEBUG_STACK_TRACE_H_
 #define BASE_DEBUG_STACK_TRACE_H_

 #include <stddef.h>

 #include <array>
 #include <iosfwd>
 #include <string>

 #include "base/base_export.h"
 #include "base/containers/span.h"
 #include "base/debug/debugging_buildflags.h"
 #include "base/memory/raw_ptr.h"
 #include "base/strings/cstring_view.h"
 #include "build/build_config.h"

 #if BUILDFLAG(IS_POSIX)
 #include <signal.h>
 #include <unistd.h>
 #endif

 #if BUILDFLAG(IS_WIN)
 struct _EXCEPTION_POINTERS;
 struct _CONTEXT;
 #endif

 namespace base::debug {

 // Enables stack dump to console output on exception and signals.
 // When enabled, the process will quit immediately. This is meant to be used in
 // unit_tests only! This is not thread-safe: only call from main thread.
 // In sandboxed processes, this has to be called before the sandbox is turned
 // on.
 // Calling this function on Linux opens /proc/self/maps and caches its
 // contents. In non-official builds, this function also opens the object files
 // that are loaded in memory and caches their file descriptors (this cannot be
 // done in official builds because it has security implications).
 BASE_EXPORT bool EnableInProcessStackDumping();

 #if BUILDFLAG(IS_WIN)
 // Returns `true` if EnableInProcessStackDumping() was called and succeeded.
 // Only supported on Windows.
 BASE_EXPORT bool InProcessStackDumpingEnabled();

 // Allows tests to exercise code that runs when symbolization is not available.
 BASE_EXPORT bool DisableInProcessStackDumpingForTesting();
 #endif  // BUILDFLAG(IS_WIN)

 #if BUILDFLAG(IS_POSIX)
 // Sets a first-chance callback for the stack dump signal handler. This callback
 // is called at the beginning of the signal handler to handle special kinds of
 // signals, like out-of-bounds memory accesses in WebAssembly (WebAssembly Trap
 // Handler).
 // {SetStackDumpFirstChanceCallback} returns {true} if the callback
 // has been set correctly. It returns {false} if the stack dump signal handler
 // has not been registered with the OS, e.g. because of ASAN.
 BASE_EXPORT bool SetStackDumpFirstChanceCallback(bool (*handler)(int,
                                                                  siginfo_t*,
                                                                  void*));
 #endif

 // Returns end of the stack, or 0 if we couldn't get it.
 #if BUILDFLAG(CAN_UNWIND_WITH_FRAME_POINTERS)
 BASE_EXPORT uintptr_t GetStackEnd();
 #endif

 // A stacktrace can be helpful in debugging. For example, you can include a
 // stacktrace member in a object (probably around #ifndef NDEBUG) so that you
 // can later see where the given object was created from.
 class BASE_EXPORT StackTrace {
  public:
   // LINT.IfChange(max_stack_frames)
 #if BUILDFLAG(IS_ANDROID)
   // TODO(crbug.com/41437515): Testing indicates that Android has issues
   // with a larger value here, so leave Android at 62.
   static constexpr size_t kMaxTraces = 62;
 #else
   // For other platforms, use 250. This seems reasonable without
   // being huge.
   static constexpr size_t kMaxTraces = 250;
 #endif
   // LINT.ThenChange(dwarf_line_no.cc:max_stack_frames)

   // Creates a stacktrace from the current location.
   StackTrace();

   // Creates a stacktrace from the current location, of up to |count| entries.
   // |count| will be limited to at most |kMaxTraces|.
   explicit StackTrace(size_t count);

   // Creates a stacktrace from an existing array of instruction pointers (such
   // as returned by Addresses()). Only the first `kMaxTraces` of the span will
   // be used.
   explicit StackTrace(span<const void* const> trace);

 #if BUILDFLAG(IS_WIN)
   // Creates a stacktrace for an exception.
   // Note: this function will throw an import not found (StackWalk64) exception
   // on system without dbghelp 5.1.
   StackTrace(_EXCEPTION_POINTERS* exception_pointers);
   StackTrace(const _CONTEXT* context);
 #endif

   // Returns true if this current test environment is expected to have
   // symbolized frames when printing a stack trace.
   static bool WillSymbolizeToStreamForTesting();

   // Initialize features.
   static void InitializeFeatures();

   // Copying and assignment are allowed with the default functions.

   // Gets an array of instruction pointer values. |*count| will be set to the
   // number of elements in the returned array. Addresses()[0] will contain an
   // address from the leaf function, and Addresses()[count-1] will contain an
   // address from the root function (i.e.; the thread's entry point).
   span<const void* const> addresses() const {
     return span(trace_).first(count_);
   }

   // Prints the stack trace to stderr.
   void Print() const;

   // Prints the stack trace to stderr, prepending the given string before
   // each output line.
   void PrintWithPrefix(cstring_view prefix_string) const;

 #if !defined(__UCLIBC__) && !defined(_AIX)
   // Resolves backtrace to symbols and write to stream.
   void OutputToStream(std::ostream* os) const;
   // Resolves backtrace to symbols and write to stream, with the provided
   // prefix string prepended to each line.
   void OutputToStreamWithPrefix(std::ostream* os,
                                 cstring_view prefix_string) const;
 #endif

   // Resolves backtrace to symbols and returns as string.
   std::string ToString() const;

   // Resolves backtrace to symbols and returns as string, prepending the
   // provided prefix string to each line.
   std::string ToStringWithPrefix(cstring_view prefix_string) const;

   // Sets a message to be emitted in place of symbolized stack traces. When
   // such a message is provided, collection and symbolization of stack traces
   // is suppressed. Suppression is cancelled if `message` is empty.
   static void SuppressStackTracesWithMessageForTesting(std::string message);

  private:
   // Prints `message` with an optional prefix.
   static void PrintMessageWithPrefix(cstring_view prefix_string,
                                      cstring_view message);

   void PrintWithPrefixImpl(cstring_view prefix_string) const;
 #if !defined(__UCLIBC__) && !defined(_AIX)
   void OutputToStreamWithPrefixImpl(std::ostream* os,
                                     cstring_view prefix_string) const;
 #endif

   // Returns true if generation of symbolized stack traces is to be suppressed.
   static bool ShouldSuppressOutput();

 #if BUILDFLAG(IS_WIN)
   void InitTrace(const _CONTEXT* context_record);
 #endif

   std::array<const void*, kMaxTraces> trace_;

   // The number of valid frames in |trace_|, or 0 if collection was suppressed.
   size_t count_ = 0;
 };

 // Forwards to StackTrace::OutputToStream().
 BASE_EXPORT std::ostream& operator<<(std::ostream& os, const StackTrace& s);

 // Record a stack trace with up to |count| frames into |trace|. Returns the
 // number of frames read.
 BASE_EXPORT size_t CollectStackTrace(span<const void*> trace);

 // A helper for tests that must either override the default suppression of
 // symbolized stack traces in death tests, or the default generation of them in
 // normal tests.
 class BASE_EXPORT OverrideStackTraceOutputForTesting {
  public:
   enum class Mode {
     kUnset,
     kForceOutput,
     kSuppressOutput,
   };
   explicit OverrideStackTraceOutputForTesting(Mode mode);
   OverrideStackTraceOutputForTesting(
       const OverrideStackTraceOutputForTesting&) = delete;
   OverrideStackTraceOutputForTesting& operator=(
       const OverrideStackTraceOutputForTesting&) = delete;
   ~OverrideStackTraceOutputForTesting();
 };

 #if BUILDFLAG(CAN_UNWIND_WITH_FRAME_POINTERS)

 // For stack scanning to be efficient it's very important for the thread to
 // be started by Chrome. In that case we naturally terminate unwinding once
 // we reach the origin of the stack (i.e. GetStackEnd()). If the thread is
 // not started by Chrome (e.g. Android's main thread), then we end up always
 // scanning area at the origin of the stack, wasting time and not finding any
 // frames (since Android libraries don't have frame pointers). Scanning is not
 // enabled on other posix platforms due to legacy reasons.
 #if BUILDFLAG(IS_LINUX) || BUILDFLAG(IS_CHROMEOS)
 constexpr bool kEnableScanningByDefault = true;
 #else
 constexpr bool kEnableScanningByDefault = false;
 #endif

 // Traces the stack by using frame pointers. This function is faster but less
 // reliable than StackTrace. It should work for debug and profiling builds,
 // but not for release builds (although there are some exceptions).
 //
 // Writes at most |max_depth| frames (instruction pointers) into |out_trace|
 // after skipping |skip_initial| frames. Note that the function itself is not
 // added to the trace so |skip_initial| should be 0 in most cases.
 // Returns number of frames written. |enable_scanning| enables scanning on
 // platforms that do not enable scanning by default.
 BASE_EXPORT size_t
 TraceStackFramePointers(span<const void*> out_trace,
                         size_t skip_initial,
                         bool enable_scanning = kEnableScanningByDefault);

 // Links stack frame |fp| to |parent_fp|, so that during stack unwinding
 // TraceStackFramePointers() visits |parent_fp| after visiting |fp|.
 // Both frame pointers must come from __builtin_frame_address().
 // Destructor restores original linkage of |fp| to avoid corrupting caller's
 // frame register on return.
 //
 // This class can be used to repair broken stack frame chain in cases
 // when execution flow goes into code built without frame pointers:
 //
 // void DoWork() {
 //   Call_SomeLibrary();
 // }
 // static __thread void*  g_saved_fp;
 // void Call_SomeLibrary() {
 //   g_saved_fp = __builtin_frame_address(0);
 //   some_library_call(...); // indirectly calls SomeLibrary_Callback()
 // }
 // void SomeLibrary_Callback() {
 //   ScopedStackFrameLinker linker(__builtin_frame_address(0), g_saved_fp);
 //   ...
 //   TraceStackFramePointers(...);
 // }
 //
 // This produces the following trace:
 //
 // #0 SomeLibrary_Callback()
 // #1 <address of the code inside SomeLibrary that called #0>
 // #2 DoWork()
 // ...rest of the trace...
 //
 // SomeLibrary doesn't use frame pointers, so when SomeLibrary_Callback()
 // is called, stack frame register contains bogus value that becomes callback'
 // parent frame address. Without ScopedStackFrameLinker unwinding would've
 // stopped at that bogus frame address yielding just two first frames (#0, #1).
 // ScopedStackFrameLinker overwrites callback's parent frame address with
 // Call_SomeLibrary's frame, so unwinder produces full trace without even
 // noticing that stack frame chain was broken.
 class BASE_EXPORT ScopedStackFrameLinker {
  public:
   ScopedStackFrameLinker(void* fp, void* parent_fp);

   ScopedStackFrameLinker(const ScopedStackFrameLinker&) = delete;
   ScopedStackFrameLinker& operator=(const ScopedStackFrameLinker&) = delete;

   ~ScopedStackFrameLinker();

  private:
   raw_ptr<void> fp_;
   raw_ptr<void> parent_fp_;
   raw_ptr<void> original_parent_fp_;
 };

 #endif  // BUILDFLAG(CAN_UNWIND_WITH_FRAME_POINTERS)

 namespace internal {

 #if BUILDFLAG(IS_POSIX) && !BUILDFLAG(IS_ANDROID)
 // POSIX doesn't define any async-signal safe function for converting
 // an integer to ASCII. We'll have to define our own version.
 // itoa_r() converts a (signed) integer to ASCII. It returns "buf", if the
 // conversion was successful or NULL otherwise. It never writes more than "sz"
 // bytes. Output will be truncated as needed, and a NUL character is always
 // appended.
 BASE_EXPORT void itoa_r(intptr_t i,
                         int base,
                         size_t padding,
                         base::span<char> buf);
 #endif  // BUILDFLAG(IS_POSIX) && !BUILDFLAG(IS_ANDROID)

 }  // namespace internal

 }  // namespace base::debug

 #endif  // BASE_DEBUG_STACK_TRACE_H_
	// Copyright 2012 The Chromium Authors
	// Use of this source code is governed by a BSD-style license that can be
	// found in the LICENSE file.

	#ifndef BASE_DEBUG_STACK_TRACE_H_
	#define BASE_DEBUG_STACK_TRACE_H_

	#include <stddef.h>

	#include <array>
	#include <iosfwd>
	#include <string>

	#include "base/base_export.h"
	#include "base/containers/span.h"
	#include "base/debug/debugging_buildflags.h"
	#include "base/memory/raw_ptr.h"
	#include "base/strings/cstring_view.h"
	#include "build/build_config.h"

	#if BUILDFLAG(IS_POSIX)
	#include <signal.h>
	#include <unistd.h>
	#endif

	#if BUILDFLAG(IS_WIN)
	struct _EXCEPTION_POINTERS;
	struct _CONTEXT;
	#endif

	namespace base::debug {

	// Enables stack dump to console output on exception and signals.
	// When enabled, the process will quit immediately. This is meant to be used in
	// unit_tests only! This is not thread-safe: only call from main thread.
	// In sandboxed processes, this has to be called before the sandbox is turned
	// on.
	// Calling this function on Linux opens /proc/self/maps and caches its
	// contents. In non-official builds, this function also opens the object files
	// that are loaded in memory and caches their file descriptors (this cannot be
	// done in official builds because it has security implications).
	BASE_EXPORT bool EnableInProcessStackDumping();

	#if BUILDFLAG(IS_WIN)
	// Returns `true` if EnableInProcessStackDumping() was called and succeeded.
	// Only supported on Windows.
	BASE_EXPORT bool InProcessStackDumpingEnabled();

	// Allows tests to exercise code that runs when symbolization is not available.
	BASE_EXPORT bool DisableInProcessStackDumpingForTesting();
	#endif // BUILDFLAG(IS_WIN)

	#if BUILDFLAG(IS_POSIX)
	// Sets a first-chance callback for the stack dump signal handler. This callback
	// is called at the beginning of the signal handler to handle special kinds of
	// signals, like out-of-bounds memory accesses in WebAssembly (WebAssembly Trap
	// Handler).
	// {SetStackDumpFirstChanceCallback} returns {true} if the callback
	// has been set correctly. It returns {false} if the stack dump signal handler
	// has not been registered with the OS, e.g. because of ASAN.
	BASE_EXPORT bool SetStackDumpFirstChanceCallback(bool (*handler)(int,
	siginfo_t*,
	void*));
	#endif

	// Returns end of the stack, or 0 if we couldn't get it.
	#if BUILDFLAG(CAN_UNWIND_WITH_FRAME_POINTERS)
	BASE_EXPORT uintptr_t GetStackEnd();
	#endif

	// A stacktrace can be helpful in debugging. For example, you can include a
	// stacktrace member in a object (probably around #ifndef NDEBUG) so that you
	// can later see where the given object was created from.
	class BASE_EXPORT StackTrace {
	public:
	// LINT.IfChange(max_stack_frames)
	#if BUILDFLAG(IS_ANDROID)
	// TODO(crbug.com/41437515): Testing indicates that Android has issues
	// with a larger value here, so leave Android at 62.
	static constexpr size_t kMaxTraces = 62;
	#else
	// For other platforms, use 250. This seems reasonable without
	// being huge.
	static constexpr size_t kMaxTraces = 250;
	#endif
	// LINT.ThenChange(dwarf_line_no.cc:max_stack_frames)

	// Creates a stacktrace from the current location.
	StackTrace();

	// Creates a stacktrace from the current location, of up to \|count\| entries.
	// \|count\| will be limited to at most \|kMaxTraces\|.
	explicit StackTrace(size_t count);

	// Creates a stacktrace from an existing array of instruction pointers (such
	// as returned by Addresses()). Only the first `kMaxTraces` of the span will
	// be used.
	explicit StackTrace(span<const void* const> trace);

	#if BUILDFLAG(IS_WIN)
	// Creates a stacktrace for an exception.
	// Note: this function will throw an import not found (StackWalk64) exception
	// on system without dbghelp 5.1.
	StackTrace(_EXCEPTION_POINTERS* exception_pointers);
	StackTrace(const _CONTEXT* context);
	#endif

	// Returns true if this current test environment is expected to have
	// symbolized frames when printing a stack trace.
	static bool WillSymbolizeToStreamForTesting();

	// Initialize features.
	static void InitializeFeatures();

	// Copying and assignment are allowed with the default functions.

	// Gets an array of instruction pointer values. \|*count\| will be set to the
	// number of elements in the returned array. Addresses()[0] will contain an
	// address from the leaf function, and Addresses()[count-1] will contain an
	// address from the root function (i.e.; the thread's entry point).
	span<const void* const> addresses() const {
	return span(trace_).first(count_);
	}

	// Prints the stack trace to stderr.
	void Print() const;

	// Prints the stack trace to stderr, prepending the given string before
	// each output line.
	void PrintWithPrefix(cstring_view prefix_string) const;

	#if !defined(__UCLIBC__) && !defined(_AIX)
	// Resolves backtrace to symbols and write to stream.
	void OutputToStream(std::ostream* os) const;
	// Resolves backtrace to symbols and write to stream, with the provided
	// prefix string prepended to each line.
	void OutputToStreamWithPrefix(std::ostream* os,
	cstring_view prefix_string) const;
	#endif

	// Resolves backtrace to symbols and returns as string.
	std::string ToString() const;

	// Resolves backtrace to symbols and returns as string, prepending the
	// provided prefix string to each line.
	std::string ToStringWithPrefix(cstring_view prefix_string) const;

	// Sets a message to be emitted in place of symbolized stack traces. When
	// such a message is provided, collection and symbolization of stack traces
	// is suppressed. Suppression is cancelled if `message` is empty.
	static void SuppressStackTracesWithMessageForTesting(std::string message);

	private:
	// Prints `message` with an optional prefix.
	static void PrintMessageWithPrefix(cstring_view prefix_string,
	cstring_view message);

	void PrintWithPrefixImpl(cstring_view prefix_string) const;
	#if !defined(__UCLIBC__) && !defined(_AIX)
	void OutputToStreamWithPrefixImpl(std::ostream* os,
	cstring_view prefix_string) const;
	#endif

	// Returns true if generation of symbolized stack traces is to be suppressed.
	static bool ShouldSuppressOutput();

	#if BUILDFLAG(IS_WIN)
	void InitTrace(const _CONTEXT* context_record);
	#endif

	std::array<const void*, kMaxTraces> trace_;

	// The number of valid frames in \|trace_\|, or 0 if collection was suppressed.
	size_t count_ = 0;
	};

	// Forwards to StackTrace::OutputToStream().
	BASE_EXPORT std::ostream& operator<<(std::ostream& os, const StackTrace& s);

	// Record a stack trace with up to \|count\| frames into \|trace\|. Returns the
	// number of frames read.
	BASE_EXPORT size_t CollectStackTrace(span<const void*> trace);

	// A helper for tests that must either override the default suppression of
	// symbolized stack traces in death tests, or the default generation of them in
	// normal tests.
	class BASE_EXPORT OverrideStackTraceOutputForTesting {
	public:
	enum class Mode {
	kUnset,
	kForceOutput,
	kSuppressOutput,
	};
	explicit OverrideStackTraceOutputForTesting(Mode mode);
	OverrideStackTraceOutputForTesting(
	const OverrideStackTraceOutputForTesting&) = delete;
	OverrideStackTraceOutputForTesting& operator=(
	const OverrideStackTraceOutputForTesting&) = delete;
	~OverrideStackTraceOutputForTesting();
	};

	#if BUILDFLAG(CAN_UNWIND_WITH_FRAME_POINTERS)

	// For stack scanning to be efficient it's very important for the thread to
	// be started by Chrome. In that case we naturally terminate unwinding once
	// we reach the origin of the stack (i.e. GetStackEnd()). If the thread is
	// not started by Chrome (e.g. Android's main thread), then we end up always
	// scanning area at the origin of the stack, wasting time and not finding any
	// frames (since Android libraries don't have frame pointers). Scanning is not
	// enabled on other posix platforms due to legacy reasons.
	#if BUILDFLAG(IS_LINUX) \|\| BUILDFLAG(IS_CHROMEOS)
	constexpr bool kEnableScanningByDefault = true;
	#else
	constexpr bool kEnableScanningByDefault = false;
	#endif

	// Traces the stack by using frame pointers. This function is faster but less
	// reliable than StackTrace. It should work for debug and profiling builds,
	// but not for release builds (although there are some exceptions).
	//
	// Writes at most \|max_depth\| frames (instruction pointers) into \|out_trace\|
	// after skipping \|skip_initial\| frames. Note that the function itself is not
	// added to the trace so \|skip_initial\| should be 0 in most cases.
	// Returns number of frames written. \|enable_scanning\| enables scanning on
	// platforms that do not enable scanning by default.
	BASE_EXPORT size_t
	TraceStackFramePointers(span<const void*> out_trace,
	size_t skip_initial,
	bool enable_scanning = kEnableScanningByDefault);

	// Links stack frame \|fp\| to \|parent_fp\|, so that during stack unwinding
	// TraceStackFramePointers() visits \|parent_fp\| after visiting \|fp\|.
	// Both frame pointers must come from __builtin_frame_address().
	// Destructor restores original linkage of \|fp\| to avoid corrupting caller's
	// frame register on return.
	//
	// This class can be used to repair broken stack frame chain in cases
	// when execution flow goes into code built without frame pointers:
	//
	// void DoWork() {
	// Call_SomeLibrary();
	// }
	// static __thread void* g_saved_fp;
	// void Call_SomeLibrary() {
	// g_saved_fp = __builtin_frame_address(0);
	// some_library_call(...); // indirectly calls SomeLibrary_Callback()
	// }
	// void SomeLibrary_Callback() {
	// ScopedStackFrameLinker linker(__builtin_frame_address(0), g_saved_fp);
	// ...
	// TraceStackFramePointers(...);
	// }
	//
	// This produces the following trace:
	//
	// #0 SomeLibrary_Callback()
	// #1 <address of the code inside SomeLibrary that called #0>
	// #2 DoWork()
	// ...rest of the trace...
	//
	// SomeLibrary doesn't use frame pointers, so when SomeLibrary_Callback()
	// is called, stack frame register contains bogus value that becomes callback'
	// parent frame address. Without ScopedStackFrameLinker unwinding would've
	// stopped at that bogus frame address yielding just two first frames (#0, #1).
	// ScopedStackFrameLinker overwrites callback's parent frame address with
	// Call_SomeLibrary's frame, so unwinder produces full trace without even
	// noticing that stack frame chain was broken.
	class BASE_EXPORT ScopedStackFrameLinker {
	public:
	ScopedStackFrameLinker(void* fp, void* parent_fp);

	ScopedStackFrameLinker(const ScopedStackFrameLinker&) = delete;
	ScopedStackFrameLinker& operator=(const ScopedStackFrameLinker&) = delete;

	~ScopedStackFrameLinker();

	private:
	raw_ptr<void> fp_;
	raw_ptr<void> parent_fp_;
	raw_ptr<void> original_parent_fp_;
	};

	#endif // BUILDFLAG(CAN_UNWIND_WITH_FRAME_POINTERS)

	namespace internal {

	#if BUILDFLAG(IS_POSIX) && !BUILDFLAG(IS_ANDROID)
	// POSIX doesn't define any async-signal safe function for converting
	// an integer to ASCII. We'll have to define our own version.
	// itoa_r() converts a (signed) integer to ASCII. It returns "buf", if the
	// conversion was successful or NULL otherwise. It never writes more than "sz"
	// bytes. Output will be truncated as needed, and a NUL character is always
	// appended.
	BASE_EXPORT void itoa_r(intptr_t i,
	int base,
	size_t padding,
	base::span<char> buf);
	#endif // BUILDFLAG(IS_POSIX) && !BUILDFLAG(IS_ANDROID)

	} // namespace internal

	} // namespace base::debug

	#endif // BASE_DEBUG_STACK_TRACE_H_