Memory Mapped I/O Trace
Mmiotrace is a toolbox for tracing memory mapped I/O access within the kernel. It can be used to record how a driver module uses MMIO reads and writes, for reverse engineering and debugging. For reverse engineering, you will need to have the proprietary driver, but it can also be useful for debugging the nouveau driver itself.
The supported architectures are x86 and x86_64, they both seem to be pretty stable. If you need help, you can try to ask on #nouveau IRC channel on Freenode.
- timestamped events
- a mechanism to inject markers into the log while tracing
- no kernel patching
The modern format of an mmiotrace log is described in MmioTraceLogFormat.
The latest kernel (or at least 2.6.29) is the recommended one, if you can choose.
Mmiotrace is in the kernel, no need to fetch or patch anything extra. Please read the instructions in Documentation/trace/mmiotrace.txt. No special programs are needed to record the output.
Tracing the NVIDIA proprietary driver
If you want to trace binary Nvidia drivers you might want to read Ubuntu X/MMIOTracing guide. Some basic steps are also available below:
- Start tracing
- Load nvidia.ko and start X up with the nvidia proprietary driver
- Run some 3d for a few seconds (e.g. fire up glxgears)
- Stop tracing and send the generated output to mmio.dumps at gmail.com
If you want to send mmiotrace dumps to us, please send them to mmio dot dumps at gmail dot com. Please, pack into a compressed archive (xz) the trace file and a free-form description about what you do during the trace. The output of
lspci is already included in the trace file, but do add the output of
uname -a and the driver version into your description. Tell also what display connectors you have, what kind of monitors you have connected to what outputs, whether it has tv-in/out, and what display mode you used. The name of the archive file should contain the PCI id and GPU family, or the commercial name of your card. Thank you.
There is a
demmio tool in envytools which annotates known registers based on its database of registers. It also adjusts addresses based on the PCI mappings, making it much easier to read/understand the trace.