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Cpptrace is a lightweight C++ stacktrace library supporting C++11 and greater on Linux, macOS, and Windows including MinGW and Cygwin environments. The goal: Make stack traces simple for once.
Some day C++23's <stacktrace> will be ubiquitous. And maybe one day the msvc implementation will be acceptable.
This library is in beta, if you run into any problems please open an issue!
With CMake FetchContent:
include(FetchContent)
FetchContent_Declare(
cpptrace
GIT_REPOSITORY https://github.com/jeremy-rifkin/cpptrace.git
GIT_TAG <HASH or TAG>
)
FetchContent_MakeAvailable(cpptrace)
target_link_libraries(your_target cpptrace)It's as easy as that. Cpptrace will automatically configure itself for your system.
Be sure to configure with -DCMAKE_BUILD_TYPE=Debug or -DDCMAKE_BUILD_TYPE=RelWithDebInfo for symbols and line
information.
git clone https://github.com/jeremy-rifkin/cpptrace.git
# optional: git checkout <HASH or TAG>
mkdir cpptrace/build
cd cpptrace/build
cmake .. -DCMAKE_BUILD_TYPE=Release -DBUILD_SHARED_LIBS=On
make -j
sudo make installUsing through cmake:
find_package(cpptrace REQUIRED)
target_link_libraries(<your target> cpptrace::cpptrace)Be sure to configure with -DCMAKE_BUILD_TYPE=Debug or -DDCMAKE_BUILD_TYPE=RelWithDebInfo for symbols and line
information.
Or compile with -lcpptrace:
g++ main.cpp -o main -g -Wall -lcpptrace
./mainIf you get an error along the lines of
error while loading shared libraries: libcpptrace.so: cannot open shared object file: No such file or directory
You may have to run sudo /sbin/ldconfig to create any necessary links and update caches so the system can find
libcpptrace.so (I had to do this on Ubuntu). Only when installing system-wide. Usually your package manger does this for
you when installing new libraries.
System-wide install on windows
git clone https://github.com/jeremy-rifkin/cpptrace.git
# optional: git checkout <HASH or TAG>
mkdir cpptrace/build
cd cpptrace/build
cmake .. -DCMAKE_BUILD_TYPE=Release
msbuild cpptrace.sln
msbuild INSTALL.vcxprojNote: You'll need to run as an administrator in a developer powershell, or use vcvarsall.bat distributed with visual studio to get the correct environment variables set.
To install just for the local user (or any custom prefix):
git clone https://github.com/jeremy-rifkin/cpptrace.git
# optional: git checkout <HASH or TAG>
mkdir cpptrace/build
cd cpptrace/build
cmake .. -DCMAKE_BUILD_TYPE=Release -DBUILD_SHARED_LIBS=On -DCMAKE_INSTALL_PREFIX=$HOME/wherever
make -j
sudo make installUsing through cmake:
find_package(cpptrace REQUIRED PATHS $ENV{HOME}/wherever)
target_link_libraries(<your target> cpptrace::cpptrace)Using manually:
g++ main.cpp -o main -g -Wall -I$HOME/wherever/include -L$HOME/wherever/lib -lcpptrace
Coming soon
cpptrace::print_trace() can be used to print a stacktrace at the current call site, cpptrace::generate_trace() can
be used to get raw frame information for custom use.
Note: Debug info (-g) is generally required for good trace information. Some back-ends read symbols from dynamic
export information which may require -rdynamic or manually marking symbols for exporting.
namespace cpptrace {
struct stacktrace_frame {
uintptr_t address;
std::uint_least32_t line;
std::uint_least32_t col;
std::string filename;
std::string symbol;
};
std::vector<stacktrace_frame> generate_trace(std::uint32_t skip = 0);
void print_trace(std::uint32_t skip = 0);
}Back-end libraries are required for unwinding the stack and resolving symbol information (name and source location) in order to generate a stacktrace.
The CMake script attempts to automatically choose good back-ends based on what is available on your system. You can also manually set which back-end you want used.
Unwinding
| Library | CMake config | Platforms | Info |
|---|---|---|---|
| libgcc unwind | CPPTRACE_UNWIND_WITH_UNWIND |
linux, macos, mingw | Frames are captured with libgcc's _Unwind_Backtrace, which currently produces the most accurate stack traces on gcc/clang/mingw. Libgcc is often linked by default, and llvm has something equivalent. |
| execinfo.h | CPPTRACE_UNWIND_WITH_EXECINFO |
linux, macos | Frames are captured with execinfo.h's backtrace, part of libc on linux/unix systems. |
| winapi | CPPTRACE_UNWIND_WITH_WINAPI |
windows, mingw | Frames are captured with CaptureStackBackTrace. |
| N/A | CPPTRACE_UNWIND_WITH_NOTHING |
all | Unwinding is not done, stack traces will be empty. |
These back-ends require a fixed buffer has to be created to read addresses into while unwinding. By default the buffer
can hold addresses for 100 frames (beyond the skip frames). This is configurable with CPPTRACE_HARD_MAX_FRAMES.
Symbol resolution
| Library | CMake config | Platforms | Info |
|---|---|---|---|
| libbacktrace | CPPTRACE_GET_SYMBOLS_WITH_LIBBACKTRACE |
linux, macos*, mingw* | Libbacktrace is already installed on most systems or available through the compiler directly. For clang you must specify the absolute path to backtrace.h using CPPTRACE_BACKTRACE_PATH. |
| addr2line | CPPTRACE_GET_SYMBOLS_WITH_ADDR2LINE |
linux, macos, mingw | Symbols are resolved by invoking addr2line (or atos on mac) via fork() (on linux/unix, and popen under mingw). |
| dbghelp | CPPTRACE_GET_SYMBOLS_WITH_DBGHELP |
windows | Dbghelp.h allows access to symbols via debug info. |
| libdl | CPPTRACE_GET_SYMBOLS_WITH_LIBDL |
linux, macos | Libdl uses dynamic export information. Compiling with -rdynamic is needed for symbol information to be retrievable. Line numbers won't be retrievable. |
| N/A | CPPTRACE_GET_SYMBOLS_WITH_NOTHING |
all | No attempt is made to resolve symbols. |
*: Requires installation
Note for addr2line: By default cmake will resolve an absolute path to addr2line to bake into the library. This path can
be configured with CPPTRACE_ADDR2LINE_PATH, or CPPTRACE_ADDR2LINE_SEARCH_SYSTEM_PATH can be used to have the library
search the system path for addr2line at runtime. This is not the default to prevent against path injection attacks.
Demangling
Lastly, depending on other back-ends used a demangler back-end may be needed. A demangler back-end is not needed when doing full traces with libbacktrace, getting symbols with addr2line, or getting symbols with dbghelp.
| Library | CMake config | Platforms | Info |
|---|---|---|---|
| cxxabi.h | CPPTRACE_DEMANGLE_WITH_CXXABI |
Linux, macos, mingw | Should be available everywhere other than msvc. |
| N/A | CPPTRACE_DEMANGLE_WITH_NOTHING |
all | Don't attempt to do anything beyond what the symbol resolution back-end does. |
Full tracing
Libbacktrace can generate a full stack trace itself, both unwinding and resolving symbols. This can be chosen with
CPPTRACE_FULL_TRACE_WITH_LIBBACKTRACE. The auto config attempts to use this if it is available. Full tracing with
libbacktrace ignores CPPTRACE_HARD_MAX_FRAMES.
<stacktrace> can of course also generate a full trace, if you're using >=C++23 and your compiler supports it. This is
controlled by CPPTRACE_FULL_TRACE_WITH_LIBBACKTRACE. The cmake script will attempt to auto configure to this if
possible. CPPTRACE_HARD_MAX_FRAMES is ignored.
More?
There are plenty more libraries that can be used for unwinding, parsing debug information, and demangling. In the future more back-ends can be added. Ideally this library can "just work" on systems, without additional installation work.
Summary of all library configuration options:
Back-ends:
CPPTRACE_FULL_TRACE_WITH_LIBBACKTRACE=On/OffCPPTRACE_FULL_TRACE_WITH_STACKTRACE=On/OffCPPTRACE_GET_SYMBOLS_WITH_LIBBACKTRACE=On/OffCPPTRACE_GET_SYMBOLS_WITH_LIBDL=On/OffCPPTRACE_GET_SYMBOLS_WITH_ADDR2LINE=On/OffCPPTRACE_GET_SYMBOLS_WITH_DBGHELP=On/OffCPPTRACE_GET_SYMBOLS_WITH_NOTHING=On/OffCPPTRACE_UNWIND_WITH_UNWIND=On/OffCPPTRACE_UNWIND_WITH_EXECINFO=On/OffCPPTRACE_UNWIND_WITH_WINAPI=On/OffCPPTRACE_UNWIND_WITH_NOTHING=On/OffCPPTRACE_DEMANGLE_WITH_CXXABI=On/OffCPPTRACE_DEMANGLE_WITH_NOTHING=On/Off
Back-end configuration:
CPPTRACE_BACKTRACE_PATH=<string>: Path to libbacktrace backtrace.h, needed when compiling with clangCPPTRACE_HARD_MAX_FRAMES=<number>: Some back-ends write to a fixed-size buffer. This is the size of that buffer. Default is100.CPPTRACE_ADDR2LINE_PATH=<string>: Specify the absolute path to the addr2line binary for cpptrace to invoke. By default the config script will search for a binary and use that absolute path (this is to prevent against path injection).CPPTRACE_ADDR2LINE_SEARCH_SYSTEM_PATH=On/Off: Specifies whether cpptrace should let the system search the PATH environment variable directories for the binary.
Testing:
CPPTRACE_BUILD_TESTBuild a small test programCPPTRACE_BUILD_DEMOBuild a small demo programCPPTRACE_BUILD_TEST_RDYNAMICUse-rdynamicwhen compiling the test programCPPTRACE_BUILD_SPEEDTESTBuild a small speed test programCPPTRACE_BUILD_SPEEDTEST_DWARF4CPPTRACE_BUILD_SPEEDTEST_DWARF5
Cpptrace currently uses integration and functional testing, building and running under every combination of back-end
options. The implementation is based on github actions matrices and driven by python scripts located in the
ci/ folder. Testing used to be done by github actions matrices directly, however, launching hundreds of two
second jobs was extremely inefficient. Test outputs are compared against expected outputs located in
test/expected/. Stack trace addresses may point to the address after an instruction depending on the
unwinding back-end, and the python script will check for an exact or near-match accordingly.
The library is under the MIT license.