Document number: P0881R5
Project: Programming Language C++
Audience: Library Working Group, Core Working Group
 
Alexey Gorgurov <leha-bot@yandex.ru>, <no-vista@yandex.ru>
Antony Polukhin, Yandex.Taxi Ltd, <antoshkka@gmail.com>, <antoshkka@yandex-team.ru>
 
Date: 2019-05-23

A Proposal to add stacktrace library

Significant changes since P0881R3 are marked with blue.

Show deleted lines from P0881R3.

I. Motivation

In the current working draft [N4741] there is no way to get, store and decode the current call sequence. Such call sequences are useful for debugging and post mortem debugging. They are popular in other programming languages (like Java, C#, Python).

Pretty often assertions can't describe the whole picture of a bug and do not provide enough information to locate the problem. For example, you can see the following message on out-of-range access:

boost/array.hpp:123: T& boost::array<T, N>::operator[](boost::array<T, N>::size_type): Assertion '(i < N)&&("out of range")' failed.
Aborted (core dumped)

That's not enough information in the assert message to locate the problem without debugger.

This paper proposes classes that could simplify debugging and may change the assertion message into the following:

Expression 'i < N' is false in function 'T& boost::array<T, N>::operator[](boost::array<T, N>::size_type)': out of range.
Backtrace:
 0# boost::assertion_failed_msg(char const*, char const*, char const*, char const*, long) at ../example/assert_handler.cpp:39
 1# boost::array<int, 5ul>::operator[](unsigned long) at ../../../boost/array.hpp:124
 2# bar(int) at ../example/assert_handler.cpp:17
 3# foo(int) at ../example/assert_handler.cpp:25
 4# bar(int) at ../example/assert_handler.cpp:17
 5# foo(int) at ../example/assert_handler.cpp:25
 6# main at ../example/assert_handler.cpp:54
 7# 0x00007F991FD69F45 in /lib/x86_64-linux-gnu/libc.so.6
 8# 0x0000000000401139

II. Design Decisions

The design is based on the Boost.Stacktrace library, a popular library that does not depend on any non-standard library components.

Note about signal safety: this proposal does not attempt to provide a signal-safe solution for capturing and decoding stacktraces. Such functionality currently is not implementable on some of the popular platforms. However, the paper attempts to provide extensible solution, that may be made signal safe some day by providing a signal safe allocator and changing the stacktrace implementation details.

Note on performance: during Boost.Stacktrace development phase many users requested a fast way to store stacktrace, without decoding the function names. This functionality is preserved in the paper. All the stack_frame functions and constructors are lazy and won't decode the pointer information if there was no explicit request from class user.

Note on allocations: initial (pre-Boost) implementations of Boost.Stacktrace were not using allocator and all the frames were placed inside a fixed size internal storage. That was a mistake! Sometimes the most important information is located at the bottom of the stack. For example if you run Boost.Test, then the test name will be located low on the stack. With a fixed size storage the bottom of the stack could be lost along with the information.

Current design assumes that by default users wish to see the whole stack and OK with dynamic allocations, because do not construct stacktrace in performance critical places. For those users, who wish to use stacktrace on a hot path or in embedded environments basic_stacktrace allows to provide a custom allocator that allocates on the stack or in some other place, where users thinks it is appropriate.

Custom allocators support for functions like to_string, source_file and description is not provided. Those functions usually require platform specific allocations, system calls and a lot of CPU intensive work. Custom allocator does not provide benefits for those functions as the platform specific operations take an order of magnitude more time than the allocation.

Note on returning std::string and not having noexcept on stack_frame::source_line(): Unfortunately this is a necessarity on some platforms, where getting source line requires allocating or where source file name returned into a storage provided by user.

Note on expected implementation: We assume that Standard Library implementations would allow to disable/enable gathering stacktraces by a compiler switch that does not require recompiling the whole project. In other words, we expect to see a compiler option like -fno-stacktrace or libstacktrace/lib_stacktrace_noop libraries with the same ABI that would force the constructor of the basic_stacktrace to do nothing. This feature is implemented in Boost.Stacktrace and is highly requested in big projects.

Should stacktrace be a class or a function?

class function 
struct promise_type {
    std::vector<stack_frame> frames;

    void append(const stacktrace& s) {
        frames.insert(frames.end(), s.begin(), s.end());
    }

    void print() {
        for (int i=0; auto& frame: frames) {
            std::cout << i++ << "  " << frame;
        }
    }
};

struct promise_type {
    std::vector<stack_frame> frames;

    void append(const std::vector<stack_frame>& s) {
        frames.insert(frames.end(), s.begin(), s.end());
    }

    void print() {
        std::cout << frames;
    }
};

class stacktrace {
    small_vector<stack_frame> frames_;
    platform-specific-cache-of-internals;

public:
    operator bool() const noexcept;
    // almost all the vector interface
};

template<class Allocator = allocator<stack_frame>>
vector<stack_frame, Allocator>
  stacktrace(const Allocator& alloc = Allocator{}) noexcept;


template<class Allocator = allocator<stack_frame>>
vector<stack_frame, Allocator>
  stacktrace(size_type skip, size_type max_depth,
    const Allocator& alloc = Allocator{}) noexcept;


template<class Allocator>
string to_string(const basic_stacktrace<Allocator>& st);

template<class charT, class traits, class Allocator>
basic_ostream<charT, traits>& operator<<
    (basic_ostream<charT, traits>& os,
        const basic_stacktrace<Allocator>& st);

template<class Allocator>
string to_string(const vector<stack_frame, Allocator>& st);

template<class charT, class traits, class Allocator>
basic_ostream<charT, traits>& operator<<
    (basic_ostream<charT, traits>& os,
        const vector<stack_frame, Allocator>& st);

    stacktrace s;
    if (s) {
        std::cout << "backtrace: " << s;
    }

    auto s = stacktrace();
    if (!s.empty()) {
        std::cout << "backtrace: " << s;
    }

LEWG decided to leave it a separate type: "Prefer stacktrace as a type rather than `vector`." SF:0, F:3, N:5, A:0, SA:0

III. Significant changes to review

Kona questions to LEWG:

  1. stack_frame is actually a pointer to some instruction. It's a static frame, not a dynamic one (the latter including the local variables and coroutines etc). Should stack_frame be renamed into invocation_info stacktrace::entry? Also note that the name stack_frame could be usable in the coroutines and fibers worlds.

    LEWG: Naming for stack_frame:
    2 stack_frame
    3 invocation_info
    9 stacktrace::entry
    3 stacktrace::frame
    5 stacktrace_entry
    1 stacktrace_frame
    2 frame_descriptor
    4 call_info
    2 call_descriptor
    2 frame_info.
    stacktrace::entry wins (Would be backtrace::entry if rename occurs).

    LEWG: Nest class inside stacktrace: SF 4 F 3 N 1 A 3 SA 1. Not concensus, status quo is against.

  2. If we now have invocation_info, should stacktrace be renamed into backtrace? Note that there is a ::backtrace function on GNU Linux.

    LEWG: stacktrace vs backtrace: SS 1 S 4 N 2 B 3 SB 3. Author decides.

  3. Querying information about the frame is a heavy operation. To be consistent with the Filesystem approach should the query functions become a free functions?

    LEWG: Leave expensive ops as member functions. Unanimous consent.

  4. There is a difference between "physical" and "logical" invocations. In other words std::stacktrace may have size N, while the implementation could decode N stack_frames into N+X records in the to_string function. Is LEWG OK with shipping the current design that gives no way to retrieve the logical invocations size?

    LEWG: We are OK with the fact that N physical entries can become N+X logical entries after decoding (because of expanding inline functions). Unanimous consent.

stack_frame invocation_info 
  unordered_map<stack_frame, string> cache;
  // ...
  for (stack_frame f : stacktrace{}) {
      auto it = cache.find(f);
      if (it == cache.end()) {
          it = cache.emplace(f, f.description())->first;
      }
      cerr << it->second;
  }

  unordered_map<invocation_info, string> cache;
  // ...
  for (invocation_info f : backtrace{}) {
      auto it = cache.find(f);
      if (it == cache.end()) {
          it = cache.emplace(f, description(f))->first;
      }
      cerr << it->second;
  }

  void assertion_failed_msg(char const* expr) {
    std::stacktrace st(1, 1);
    stack_frame inf = st[0];
    std::cerr << "Expression '" << expr << "' is false in '"
        << inf.description() << " at " 
        << inf.source_file() << ':' << inf.source_line()
        << ".\n";
    std::abort();
  }

  void assertion_failed_msg(char const* expr) {
    std::backtrace st(1, 1);
    invocation_info inf = st[0];
    std::cerr << "Expression '" << expr << "' is false in '"
        << description(inf) << " at " 
        << source_file(inf) << ':' << source_line(inf)
        << ".\n";
    std::abort();
  }

struct promise_type {
    std::vector<stack_frame> trace;

    void append(const stacktrace& s) {
        trace.insert(trace.end(), s.begin(), s.end());
    }
    // ...
};

struct promise_type {
    std::vector<invocation_info> trace;

    void append(const backtrace& s) {
        trace.insert(trace.end(), s.begin(), s.end());
    }
    // ...
};

If the invocation_info and stack_frame are both not acceptable, the following input could be used to preview the above table with other names (like call_info,trace_info, stacktrace::record...):

LEWG:

LEWG was OK with the above changes.

SG16:

SG16 discussed a number of options including the possibility of source_file() returning std::filesystem::path. SG16 converged on the following recommendation: "Align behavior with source_location; remove wording regarding conversion; string contents are implementation defined. ". No objection to unanimous consent.

CWG question to LEWG:

LEWG in favour of instruction pointer: "stack_frame::address() should return (something like) the instruction pointer (only)." SF:4, F:7, N:0, A:0, SA:0.

Points of special interest for CWG:

IV. Wording Intent

Key features that should be preserved by implementations:

V. Wording

[Note for editor: Add the header <stacktrace> into the Table 19 in [headers] - end note]

20.? Stacktrace [stacktrace]

This subclause describes components that C++ programs may use to store the stacktrace of the current thread of execution and query information about the stored stacktrace at runtime.

20.?.1 Stacktrace definition[stacktrace.def]

The invocation sequence of the current evaluation x0 in the current thread of execution is a sequence (x0, ..., xn) of evaluations such that, for i >= 0, xi is within the function invocation xi-+1 (6.8.1 [intro.execution]).

A stacktrace is an approximate representation of an invocation sequence and consists of stack framestacktrace entries, where each. A stack framestacktrace entry represents an evaluation in a stacktrace.

20.?.2 Header <stacktrace> synopsis [stacktrace.syn]

namespace std {
  // 20.?.3, class stack_framestacktrace_entry
  class stack_framestacktrace_entry;

  // 20.?.4, class basic_stacktrace
  template<class Allocator>
  class basic_stacktrace;

  // basic_stacktrace typedef names
  using stacktrace = basic_stacktrace<allocator<stack_framestacktrace_entry>>;

  // 20.?.5, non-member functions
  void swap(stack_framestacktrace_entry& a, stack_framestacktrace_entry& b) noexcept;

  template<class Allocator>
  void swap(basic_stacktrace<Allocator>& a, basic_stacktrace<Allocator>& b);

  template<class Allocator>
  string to_string(const basic_stacktrace<Allocator>& st);

  string to_string(const stack_framestacktrace_entry& f);

  template<class charT, class traits, class Allocator>
  basic_ostream<charT, traits>& operator<<(basic_ostream<charT, traits>& os, const basic_stacktrace<Allocator>& st);

  template<class charT, class traits>
  basic_ostream<charT, traits>& operator<<(basic_ostream<charT, traits>& os, const stack_framestacktrace_entry& f);

  // 20.?.6, hash support
  template<class T> struct hash;
  template<> struct hash<stack_framestacktrace_entry>;
  template<class Allocator> struct hash<basic_stacktrace<Allocator>>;
}

20.?.3 Class stack_framestacktrace_entry [stack_framestacktrace_entry]

namespace std {
  class stack_framestacktrace_entry {
  public:
    // 20.?.3.1, constructors
    constexpr stack_framestacktrace_entry() noexcept;
    constexpr stack_framestacktrace_entry(const stack_framestacktrace_entry& other) noexcept = default;
    constexpr stack_framestacktrace_entry& operator=(const stack_framestacktrace_entry& other) noexcept = default;

    ~stack_framestacktrace_entry() = default;

    // 20.?.3.2, observers
    constexpr const void* addressimplementation-defined native_handle() const noexcept;
    constexpr explicit operator bool() const noexcept;

    // 20.?.3.3, query
    string description() const;
    string source_file() const;
    uint_least32_t source_line() const;

    // 20.?.3.4, modifiers
    void swap(stack_framestacktrace_entry& other) noexcept;

    // 20.?.3.5, comparison
    constexpr bool operator==(const stacktrace_entry& other) const noexcept;
    constexpr strong_ordering operator<=>(const stacktrace_entry& other) const noexcept;
  };
}

An object of class stack_framestacktrace_entry represents a stack framestacktrace entry and provides operations for querying information about it.

20.?.3.1 Construct [stack_framestacktrace_entry.cons]

constexpr stack_framestacktrace_entry() noexcept;
Ensures: address() == nullptr.
Effects: Constructs a stack_framestacktrace_entry object that does not represent a stack framestacktrace entry.

20.?.3.2 Observers [stack_framestacktrace_entry.obs]

constexpr const void* addressimplementation-defined native_handle() const noexcept;
Returns: An unspecified representation of the evaluation represented by *this.
Remarks: Successive invocations of the address()native_handle() function for the same stack_framestacktrace_entry object return identical values.
constexpr explicit operator bool() const noexcept;
Returns: address() != nullptr.
Returns: true only if *this represents a stack framestacktrace entry.

20.?.3.3 Query [stack_framestacktrace_entry.query]

[Note: All the stack_framestacktrace_entry query functions treat errors other than memory allocation errors as "no information available" and do not throw in that case. - end note]

string description() const;
Returns: A description of the evaluation represented by *this, if such information is available, or an empty stringotherwise.
Throws: bad_alloc if memory for the internal data structures or the resulting string cannot be allocated.
string source_file() const;
Returns: The presumed or actual name of the source file [cpp.predefined] that lexically contains the expression or statement whose evaluation is represented by *this, if such information is available, or an empty stringotherwise.
Throws: bad_alloc if memory for the internal data structures or the resulting string cannot be allocated.
uint_least32_t source_line() const;
Returns: 0, or a 1-based line number that lexically relates to the evaluation represented by *this. If source_file returns the presumed name of the source file, returns the presumed line number; if source_file returns the actual name of the source file, returns the actual line number. If such information is not available, returns 0.
Throws: bad_alloc if memory for the internal data structures cannot be allocated.

20.?.3.4 Modifiers [stack_framestacktrace_entry.mod]

void swap(stack_framestacktrace_entry& other) noexcept;
Effects: Exchanges the contents of *this and other.

20.?.3.5 Comparison [stack_framestacktrace_entry.cmp]

constexpr bool operator==(const stacktrace_entry& other) const noexcept;
Returns: true only if *this and other represent the same stacktrace entry or neither *this nor other represent a stacktrace entry.
constexpr strong_ordering operator<=> (const stacktrace_entry& other) const noexcept;
Returns: A value such that operator<=> is a total ordering as described in [alg.sorting].

20.?.4 Class template basic_stacktrace [stacktrace.basic.template]

namespace std {
  template<class Allocator>
  class basic_stacktrace {
  public:
    using value_type = stack_framestacktrace_entry;
    using const_reference = const value_type&;
    using reference = value_type&;
    using const_iterator = implementation-defined;
    using iterator = const_iterator;
    using reverse_iterator = std::reverse_iterator<iterator>;
    using const_reverse_iterator = std::reverse_iterator<const_iterator>;
    using difference_type = typename iterator_traits<iterator>::difference_type;
    using size_type = typename allocator_traits<Allocator>::size_type;
    using allocator_type = Allocator;

    // 20.?.4.1, construct/copy/destroy
    basic_stacktrace() noexcept;
    explicit basic_stacktrace(allocator_arg_t, const allocator_type& alloc) noexcept;
    basic_stacktrace(size_type skip, size_type max_depth, const allocator_type& alloc = allocator_type()) noexcept;
    basic_stacktrace(allocator_arg_t, const allocator_type& alloc, size_type skip, size_type max_depth) noexcept;

    basic_stacktrace(const basic_stacktrace& other) = default;
    basic_stacktrace(basic_stacktrace&& other) noexcept = default;
    basic_stacktrace(allocator_arg_t, const allocator_type& alloc, const basic_stacktrace& other);
    basic_stacktrace(allocator_arg_t, const allocator_type& alloc, basic_stacktrace&& other);
    basic_stacktrace& operator=(const basic_stacktrace& other) = default;
    basic_stacktrace& operator=(basic_stacktrace&& other) = default;

    ~basic_stacktrace() = default;

    // 20.?.4.2, observers
    allocator_type get_allocator() const;

    const_iterator begin() const noexcept;
    const_iterator end() const noexcept;
    const_reverse_iterator rbegin() const noexcept;
    const_reverse_iterator rend() const noexcept;

    const_iterator cbegin() const noexcept;
    const_iterator cend() const noexcept;
    const_reverse_iterator crbegin() const noexcept;
    const_reverse_iterator crend() const noexcept;

    explicit operator bool() const noexcept;
    [[nodiscard]] bool empty() const noexcept;
    size_type size() const noexcept;
    size_type max_size() const noexcept;

    const_reference operator[](size_type ) const;
    const_reference at(size_type ) const;

    // 20.?.4.3, comparisons
    template <class Allocator2>
    bool operator==(const basic_stacktrace< Allocator2 >& other) const noexcept;
    template <class Allocator2>
    strong_ordering operator<=>(const basic_stacktrace< Allocator2 >& other) const noexcept;

    // 20.?.4.4, modifiers
    void swap(basic_stacktrace& other);

  private:
    vector<value_type, allocator_type> frames; // exposition only
  };

}

The basic_stacktrace template class stores the stacktrace of the current thread of execution on construction and provides access to the stored stacktrace.

The class template basic_stacktrace satisfies the requirements of an allocator-aware container, of a sequence container and reversible container (21.2.1, 21.2.3) except that only operations defined for const-qualified sequence containers are supported and that the semantics of comparison functions and default constructor are different from those required for a container.

20.?.4.1 Construct/copy/destroy [stacktrace.basic.cons]

basic_stacktrace() noexcept;
explicit basic_stacktrace(allocator_arg_t, const allocator_type& alloc) noexcept;
Effects: Stores the stacktrace of the current evaluation in the current thread of execution in frames. alloc is passed to the frames constructor.
[Note: If the stacktrace was successfully obtained, then frames.front() is the stack_framestacktrace_entry representing approximately the current evaluation, and frames.back() is the stack_framestacktrace_entry representing approximately the initial function of the current thread of execution. - end note]
Ensures: !*this if failed to store stacktrace of the current thread of execution; !!*this otherwise.
basic_stacktrace(size_type skip, size_type max_depth, const allocator_type& alloc = allocator_type()) noexcept;
Let t be a stacktrace as-if obtained via basic_stacktrace(). Let n be t.size().
Expects: skip <= skip + max_depth.
Effects: frames(t.begin() + min(n, skip), t.begin() + min(n, skip + max_depth)).
basic_stacktrace(allocator_arg_t, const allocator_type& alloc, size_type skip, size_type max_depth) noexcept;
Let t be a stacktrace as-if obtained via basic_stacktrace(alloc). Let n be t.size().
Expects: skip <= skip + max_depth.
Effects: frames(t.begin() + min(n, skip), t.begin() + min(n, skip + max_depth), alloc).
basic_stacktrace(const basic_stacktrace& other) = default;
basic_stacktrace(allocator_arg_t, const allocator_type& alloc, const basic_stacktrace& other);
basic_stacktrace(allocator_arg_t, const allocator_type& alloc, basic_stacktrace&& other);
basic_stacktrace& operator=(const basic_stacktrace& other) = default;
basic_stacktrace& operator=(basic_stacktrace&& other) = default;
Remarks: Implementations may strengthen the exception specification for those functions [res.on.exception.handling] by ensuring that !*this is true on failed allocation.

20.?.4.2 Observers [stacktrace.basic.obs]

allocator_type get_allocator() const;
Returns: frames.get_allocator().
const_iterator begin() const noexcept;
const_iterator cbegin() const noexcept;
Returns: frames.cbegin().
const_iterator end() const noexcept;
const_iterator cend() const noexcept;
Returns: frames.cend().
const_iterator rbegin() const noexcept;
const_iterator crbegin() const noexcept;
Returns: frames.crbegin().
const_iterator rend() const noexcept;
const_iterator crend() const noexcept;
Returns: frames.crend().
explicit operator bool() const noexcept;
Returns: !frames.empty().
[[nodiscard]] bool empty() const noexcept;
Returns: frames.empty().
size_type size() const noexcept;
Returns: frames.size().
size_type max_size() const noexcept;
Returns: frames.max_size().
const_reference operator[](size_type frame_no) const;
Expects: frame_no < size().
Returns: frames[frame_no].
Throws: Nothing.
const_reference at(size_type frame_no) const;
Throws: out_of_range if frame_no >= size().
Returns: frames[frame_no].

20.?.4.3 Comparisons [stacktrace.basic.comp]

template <class Allocator2>
bool operator==(const basic_stacktrace< Allocator2 >& other) const noexcept;
Returns: this->size() == other.size() && equal(this->begin(), this->end(), other.begin(), other.end())
template <class Allocator2>
strong_ordering operator<=>(const basic_stacktrace< Allocator2 >& other) const noexcept;
Returns: this->size() <=> other.size() if this->size() != other.size(). lexicographical_compare_3way(this->begin(), this->end(), other.begin(), other.end()) otherwise.

20.?.4.4 Modifiers [stacktrace.basic.mod]

void swap(basic_stacktrace& other);
Effects: Exchanges the contents of *this and other.

20.?.5 Non-member functions [stacktrace.nonmembers]

void swap(stack_framestacktrace_entry& a, stack_framestacktrace_entry& b) noexcept;
Effects: Equivalent to a.swap(b).
template<class Allocator>
void swap(basic_stacktrace<Allocator>& a, basic_stacktrace<Allocator>& b);
Effects: Equivalent to a.swap(b).
template<class Allocator>
string to_string(const basic_stacktrace<Allocator>& st);
Returns: A multiline string with a description of a stacktrace.
[Note: Number of lines is not guaranteed to be equal to st.size(). - end note]
string to_string(const stack_framestacktrace_entry& f);
Returns: A string with a description of f.
[Note: The description should provide information about contained evaluation, including information from source_file() and source_line(). - end note]
template<class charT, class traits, class Allocator>
basic_ostream<charT, traits>& operator<<(basic_ostream<charT, traits>& os, const basic_stacktrace<Allocator>& st);
Effects: As if by os << to_string(bt);
Returns: os.
template<class charT, class traits>
basic_ostream<charT, traits>& operator<<(basic_ostream<charT, traits>& os, const stack_framestacktrace_entry& f);
Returns: os << to_string(f).

20.?.6 Hash support [stacktrace.hash]

template<> struct hash<stack_framestacktrace_entry>;
template<class Allocator> struct hash<basic_stacktrace<Allocator>>;
The specialization is enabled (23.14.15).

Feature-testing macro

[Note for editor: Add a row into the "Standard library feature-test macros" table [support.limits.general] - end note]

__cpp_lib_stacktrace201811907<stacktrace>

VI. Acknowledgements

Many thanks to Jens Maurer, JF Bastien and Marshall Clow for pointing out many issues in the early wordings.

Special thanks to Jens Maurer for doing the core wordings.

Many many thanks to all the people who participated in the LWG meeting on 20th of August and reviewed early version of the wording.