Debugging tools

There are several ways to debug Jami from a developer perspective, depending on what is required to be debugged.

Træværker

The first way is to use runtime loggers. Starting jami with -d will enable logging by the daemon (or the Troubleshoot section in the General settings). All logs are not enabled by default, as Jami uses several libraries. However, passing environment variables enables logs:

  • SIPLOGLEVEL=5 enables logs from PJSIP.

  • DHTLOGLEVEL=5 enables logs from OpenDHT.

  • AVLOGLEVEL=50 enables logs from ffmpeg.

Fjerner af fejl

Generally, the IDE has an embedded debugger. Otherwise, gdb can be used, for example, to be able to add breakpoints, backtraces from crashes, print internal structures, etc. To get debug symbols, it is required to compile the project in DEBUG mode.

Nogle nyttige kommandoer:

  • b file.cpp:line - add a breakpoint (file.cpp:line can be replaced by a symbol)

  • t a a bt - (tråd anvendes alle backtrace) for at få alle backtraces

  • Ctrl + X / A - pass i grafisk visning

  • p - tryk en intern værdi.

Bemærk

Visual Studio Code is fully supported by Jami and can be used to debug the project.

Profiler

Debuggers are useful, but they do not show real-time memory consumption/network activity/CPU usage. For this, an embedded profiler in the (Android Studio, Qt Creator/Visual Studio, etc.) IDE can be used.

AddressSanitizer

AddressSanitizer can be useful to detect leaks, crashes, and potential deadlocks at runtime. To enable this, compile the daemon with CXXFLAGS+="-fsanitize=address". Other flags like tsan may be useful.

Valgrind/Callgrind

Valgrind is a tool to watch allocations, CPU usage, and more and can be used via: valgrind --tool=callgrind ./jami -d. This will make the application very slow but can provide useful reports about memory allocation/performance usage (KCacheGrind can be used to read reports).

Test

Daemon has many tests and coverage enabled. If the daemon is built in static (else private symbols will not be available), adding new tests can help to reproduce bugs, solve bugs, and avoid any regression. (cf. daemon/tests/unitTests)

Agent.

Tests bruger kun en daemon til at simulere begge æres. Så det kan være svært at teste i forskellige miljøer. En anden mulighed er at skrive et scenario og køre en agent (dokumentation er tilgængelig i daemon’s repositori).

LTTng

Finally, tracepoints can be created and analyzed. daemon/tools/trace provide the documentation and some examples. The advantage of LTTng is that it is quicker than logs, can be triggered by system events and can be used with tracepoints already present in the kernel (so that it can be used with tracepoints from network interfaces).

Test

Both clients and daemon have tests. Daemon’s tests are written in C++ and use the cppunit framework. They are located in the daemon/tests directory.