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Caution
You're viewing documentation for an unstable version of ScyllaDB Open Source. Switch to the latest stable version.
Flame Graphs are used as a debugging tool to identify latency and the part of the execution path that takes most of the CPU time. Use Flame Graphs when you:
Need to understand which ScyllaDB code path/functions are using the most time. For instance, when you have latency issues.
Need to compare time spent in particular ScyllaDB code paths/functions on different shards. For instance, when you have latency issues on one CPU but not on the other.
Procedure
Install flamegraph and flamegraph-stackcollapse-perf
From DNF
dnf install flamegraph.noarch flamegraph-stackcollapse-perf.noarch
If the above packages are not available in you distribution’s repositories, you can clone the FlameGraph git repository
git clone https://github.com/brendangregg/FlameGraph
cd FlameGraph
Run the following perf commands, using Map CPU to ScyllaDB Shards and Using the perf utility with ScyllaDB for reference.
sudo perf record --call-graph dwarf -C <CPU on which you are onrecording>
sudo perf script | stackcollapse-perf.pl | flamegraph.pl > some_name.svg
The result is an .svg file that is not just a picture but a dynamic diagram where you can search, zoom in, and zoom out. In order to enjoy a Flame Graph properly with all of its features you can open it in a browser such as Chrome or Firefox.
On the CPU you are recording, try to load ScyllaDB to consume 100% of the CPU runtime. Otherwise you’ll see a lot of OS functions related to the idle time handling
Recording on all shards (e.g. using “perf record” -p parameter) may lead to confusing results recording the same symbol called from different threads (shards). This is not recommended.
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