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The auto-conversion from googlecode wiki format apparently wasn't perfect. This also fixes up some of the links to point to the new Breakpad repo. R=vapier@chromium.org BUG= Review URL: https://codereview.chromium.org/1823583002 .
110 lines
5.2 KiB
Markdown
110 lines
5.2 KiB
Markdown
# How To Add Breakpad To Your Linux Application
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This document is an overview of using the Breakpad client libraries on Linux.
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## Building the Breakpad libraries
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Breakpad provides an Autotools build system that will build both the Linux
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client libraries and the processor libraries. Running `./configure && make` in
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the Breakpad source directory will produce
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**src/client/linux/libbreakpad\_client.a**, which contains all the code
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necessary to produce minidumps from an application.
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## Integrating Breakpad into your Application
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First, configure your build process to link **libbreakpad\_client.a** into your
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binary, and set your include paths to include the **src** directory in the
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**google-breakpad** source tree. Next, include the exception handler header:
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```cpp
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#include "client/linux/handler/exception_handler.h"
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```
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Now you can instantiate an `ExceptionHandler` object. Exception handling is active for the lifetime of the `ExceptionHandler` object, so you should instantiate it as early as possible in your application's startup process, and keep it alive for as close to shutdown as possible. To do anything useful, the `ExceptionHandler` constructor requires a path where it can write minidumps, as well as a callback function to receive information about minidumps that were written:
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```cpp
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static bool dumpCallback(const google_breakpad::MinidumpDescriptor& descriptor,
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void* context, bool succeeded) {
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printf("Dump path: %s\n", descriptor.path());
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return succeeded;
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}
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void crash() { volatile int* a = (int*)(NULL); *a = 1; }
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int main(int argc, char* argv[]) {
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google_breakpad::MinidumpDescriptor descriptor("/tmp");
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google_breakpad::ExceptionHandler eh(descriptor, NULL, dumpCallback, NULL, true, -1);
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crash();
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return 0;
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}
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```
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Compiling and running this example should produce a minidump file in /tmp, and
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it should print the minidump filename before exiting. You can read more about
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the other parameters to the `ExceptionHandler` constructor [in the exception_handler.h source file][1].
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[1]: https://chromium.googlesource.com/breakpad/breakpad/+/master/src/client/linux/handler/exception_handler.h
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**Note**: You should do as little work as possible in the callback function.
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Your application is in an unsafe state. It may not be safe to allocate memory or
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call functions from other shared libraries. The safest thing to do is `fork` and
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`exec` a new process to do any work you need to do. If you must do some work in
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the callback, the Breakpad source contains [some simple reimplementations of libc functions][2], to avoid calling directly into
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libc, as well as [a header file for making Linux system calls][3] (in **src/third\_party/lss**) to avoid calling into other shared libraries.
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[2]: https://chromium.googlesource.com/breakpad/breakpad/+/master/src/common/linux/linux_libc_support.h
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[3]: https://chromium.googlesource.com/linux-syscall-support/+/master
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## Sending the minidump file
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In a real application, you would want to handle the minidump in some way, likely
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by sending it to a server for analysis. The Breakpad source tree contains [some
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HTTP upload source][4] that you might find useful, as well as [a minidump upload tool][5].
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[4]: https://chromium.googlesource.com/breakpad/breakpad/+/master/src/common/linux/http_upload.h
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[5]: https://chromium.googlesource.com/breakpad/breakpad/+/master/src/tools/linux/symupload/minidump_upload.cc
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## Producing symbols for your application
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To produce useful stack traces, Breakpad requires you to convert the debugging
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symbols in your binaries to [text-format symbol files][6]. First, ensure that you've compiled your binaries with `-g` to
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include debugging symbols. Next, compile the `dump_syms` tool by running
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`configure && make` in the Breakpad source directory. Next, run `dump_syms` on
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your binaries to produce the text-format symbols. For example, if your main
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binary was named `test`:
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[6]: https://chromium.googlesource.com/breakpad/breakpad/+/master/docs/symbol_files.md
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```
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$ google-breakpad/src/tools/linux/dump_syms/dump_syms ./test > test.sym
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```
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In order to use these symbols with the `minidump_stackwalk` tool, you will need
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to place them in a specific directory structure. The first line of the symbol
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file contains the information you need to produce this directory structure, for
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example (your output will vary):
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```
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$ head -n1 test.sym MODULE Linux x86_64 6EDC6ACDB282125843FD59DA9C81BD830 test
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$ mkdir -p ./symbols/test/6EDC6ACDB282125843FD59DA9C81BD830
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$ mv test.sym ./symbols/test/6EDC6ACDB282125843FD59DA9C81BD830
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```
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You may also find the [symbolstore.py][7] script in the Mozilla repository useful, as it encapsulates these steps.
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[7]: https://dxr.mozilla.org/mozilla-central/source/toolkit/crashreporter/tools/symbolstore.py
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## Processing the minidump to produce a stack trace
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Breakpad includes a tool called `minidump_stackwalk` which can take a minidump
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plus its corresponding text-format symbols and produce a symbolized stacktrace.
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It should be in the **google-breakpad/src/processor** directory if you compiled
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the Breakpad source using the directions above. Simply pass it the minidump and
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the symbol path as commandline parameters:
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```
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$ google-breakpad/src/processor/minidump_stackwalk minidump.dmp ./symbols
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```
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It produces verbose output on stderr, and the stacktrace on stdout, so you may
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want to redirect stderr.
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