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Backward-cpp

Backward is a beautiful stack trace pretty printer for C++.

If you are bored to see this:

default trace

Backward will spice it up for you:

pretty stackstrace

There is not much to say. Of course it will be able to display the code snippets only if the source files are accessible (else see trace #4 in the example).

All "Source" lines and code snippet prefixed by a pipe "|" are frames inline the next frame. You can see that for the trace #1 in the example, the function you_shall_not_pass() was inlined in the function ...read2::do_test() by the compiler.

##Installation

Install backward.hpp

Backward is a header only library. So installing Backward is easy, simply drop a copy of backward.hpp along with your other source files in your C++ project. You can also use a git submodule or really any other way that best fits your environment, as long as you can include backward.hpp.

Install backward.cpp

If you want Backward to automatically print a stack trace on most common fatal errors (segfault, abort, un-handled exception...), simply add a copy of backward.cpp to your project, and don't forget to tell your build system.

The code in backward.cpp is trivial anyway, you can simply copy what it's doing at your convenience.

##Configuration & Dependencies

Compile with debug info

You need to compile your project with generation of debug symbols enabled, usually -g with clang++ and g++.

Note that you can use -g with any level of optimization, with modern debug information encoding like DWARF, it only takes space in the binary (it'ss not loaded in memory until your debugger or Backward makes use of it, don't worry), and it doesn't impact the code generation (at least on GNU/Linux x86_64 for what I know).

If you are missing debug information, the stack trace will lack details about your sources.

Libraries to read the debug info

Backward support pretty printed stack traces on GNU/Linux only, it will compile fine under other platforms but will not do anything. Pull requests are welcome :)

Also, by default you will get a really basic stack trace, based on the backtrace_symbols API:

default trace

You will need to install some dependencies to get the ultimate stack trace. Two libraries are currently supported, the only difference is which one is the easiest for you to install, so pick your poison:

libbfd from the GNU/binutils

apt-get install binutils-dev (or equivalent)

And do not forget to link with the lib: g++/clang++ -lbfd ...

Then define the following before every inclusion of backward.hpp (don't forget to update backward.cpp as well):

#define BACKWARD_HAS_BFD 1

libdw from the elfutils

apt-get install libdw-dev (or equivalent)

And do not forget to link with the lib and inform Backward to use it:

#define BACKWARD_HAS_DW 1

Of course you can simply add the define (-DBACKWARD_HAS_...=1) and the linkage details in your build system and even auto-detect which library is installed, it's up to you.

That'ss it, you are all set, you should be getting nice stack traces like the one at the beginning of this document.

API

If you don't want to limit yourself to the defaults offered by backward.cpp, and you want to take some random stack traces for whatever reason and pretty print them the way you love or you decide to send them all to your buddies over the Internet, you will appreciate the simplicity of Backward's API.

Stacktrace

The Stacktrace class lets you take a "snapshot" of the current stack. You can use it like this:

using namespace backward;
Stacktrace st; st.load_here(32);
Printer p; p.print(st);

The public methods are:

class StackTrace { public:
	// Take a snapshot of the current stack, with at most "trace_cnt_max"
	// traces in it. The first trace is the most recent (ie the current
	// frame). You can also provide a trace address to load_from() assuming
	// the address is a valid stack frame (useful for signal handling traces).
	// Both function return size().
	size_t load_here(size_t trace_cnt_max)
	size_t load_from(void* address, size_t trace_cnt_max)

	// The number of traces loaded. This can be less than "trace_cnt_max".
	size_t size() const

	// A unique id for the thread in which the trace was taken. The value
	// 0 means the stack trace comes from the main thread.
	size_t thread_id() const

	// Retrieve a trace by index. 0 is the most recent trace, size()-1 is
	// the oldest one.
	Trace operator[](size_t trace_idx)
};

TraceResolver

The TraceResolver does the heavy lifting, and intends to transform a simple Trace from its address into a fully detailed ResolvedTrace with the filename of the source, line numbers, inlined functions and so on.

You can use it like this:

using namespace backward;
Stacktrace st; st.load_here(32);

TraceResolver tr; tr.load_stacktrace(st);
for (size_t i = 0; i < st.size(); ++i) {
	ResolvedTrace trace = tr.resolve(st[i]);
	std::cout << "#" << i
		<< " " << trace.object_filename
		<< " " << trace.object_function
		<< " [" << trace.addr << "]"
	<< std::endl;
}

The public methods are:

class TraceResolver { public:
	// Pre-load whatever is necessary from the stack trace.
	template <class ST>
		void load_stacktrace(ST&)

	// Resolve a trace. It takes a ResolvedTrace, because a `Trace` or a
	// `TraceWithLocals` are implicitly convertible to a ResolvedTrace.
	ResolvedTrace resolve(ResolvedTrace t)
};

SnippetFactory

The SnippetFactory is a simple helper class to automatically load and cache source files in order to extract code snippets.

class SnippetFactory { public:
	// A snippet is a list of line numbers and line contents.
	typedef std::vector<std::pair<size_t, std::string> > lines_t;

	// Return a snippet starting at line_start with up to context_size lines.
	lines_t get_snippet(const std::string& filename,
			size_t line_start, size_t context_size)

	// Return a combined snippet from two different locations and combine them.
	// context_size / 2 lines will be extracted from each location.
	lines_t get_combined_snippet(
			const std::string& filename_a, size_t line_a,
			const std::string& filename_b, size_t line_b,
			size_t context_size)

	// Tries to return a unified snippet if the two locations from the same
	// file are close enough to fit inside one context_size, else returns
	// the equivalent of get_combined_snippet().
	lines_t get_coalesced_snippet(const std::string& filename,
			size_t line_a, size_t line_b, size_t context_size)

Printer

A simpler way to pretty print a stack trace to the terminal. It will automatically resolve the traces for you:

using namespace backward;
Stacktrace st; st.load_here(32);
Printer p;
p.object = true;
p.color = false;
p.address = true;
p.print(st, stderr);

You can set a few options:

class Printer { public:
	// Print a little snippet of code if possible.
	bool snippet = true;

	// Colorize the trace (only set a color when printing on a terminal)
	bool color = true;

	// Add the addresses of every source location to the trace.
	bool address = false;

	// Even if there is a source location, prints the object the trace comes
	// from as well.
	bool object = false;

	// Resolve and print a stack trace. It takes a C FILE* object, only because
	// it is possible to access the underalying OS-level file descriptor, which
	// is then used to determine if the output is a terminal to print in color.
	template <typename StackTrace>
		FILE* print(StackTrace& st, FILE* os = stderr)

SignalHandling

A simple helper class that registers for you the most common signals and other callbacks to segfault, hardware exception, un-handled exception etc.

backward.cpp simply uses it like that:

backward::SignalHandling sh;

Creating the object registers all the different signals and hooks. Destroying this object doesn't do anything. It exposes only one method:

bool loaded() const // true if loaded with success

Trace object

To keep the memory footprint of a loaded StackTrace on the low-side, there a hierarchy of trace object, from a minimal Trace to a ResolvedTrace.

Simple trace

struct Trace {
	void*  addr; // address of the trace
	size_t idx;  // its index (0 == most recent)
};

Trace with local variables

This is not used for now, but it might be used to carry Traces with snapshotted variables in the future.

struct TraceWithLocals: public Trace {
	std::vector<Variable> locals; // Locals variable and values.
};

Resolved trace

A ResolvedTrace should contains a maximum of details about the location of the trace in the source code. Note that not all fields might be set.

struct ResolvedTrace: public TraceWithLocals {

	struct SourceLoc {
		std::string function;
		std::string filename;
		size_t      line;
		size_t      col;
	};

	// In which binary object this trace is located.
	std::string                    object_filename;

	// The function in the object that contains the trace. This is not the same
	// as source.function which can be an function inlined in object_function.
	std::string                    object_function;

	// The source location of this trace. It is possible for filename to be
	// empty and for line/col to be invalid (value 0) if this information
	// couldn't be deduced, for example if there is no debug information in the
	// binary object.
	SourceLoc                      source;

	// An optional list of "inliners". All of these sources locations where
	// inlined in the source location of the trace (the attribute right above).
	// This is especially useful when you compile with optimizations turned on.
	typedef std::vector<SourceLoc> source_locs_t;
	source_locs_t                  inliners;
};

Contact and copyright

François-Xavier Bourlet [email protected]

Copyright 2013 Google Inc. All Rights Reserved. MIT License.

Disclaimer

Although this project is owned by Google Inc. this is not a Google supported or affiliated project.

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