171 lines
7.8 KiB
Markdown
171 lines
7.8 KiB
Markdown
# Troubleshooting Sidekiq
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Sidekiq is the background job processor GitLab uses to asynchronously run
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tasks. When things go wrong it can be difficult to troubleshoot. These
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situations also tend to be high-pressure because a production system job queue
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may be filling up. Users will notice when this happens because new branches
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may not show up and merge requests may not be updated. The following are some
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troubleshooting steps that will help you diagnose the bottleneck.
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> **Note:** GitLab administrators/users should consider working through these
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debug steps with GitLab Support so the backtraces can be analyzed by our team.
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It may reveal a bug or necessary improvement in GitLab.
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> **Note:** In any of the backtraces, be wary of suspecting cases where every
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thread appears to be waiting in the database, Redis, or waiting to acquire
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a mutex. This **may** mean there's contention in the database, for example,
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but look for one thread that is different than the rest. This other thread
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may be using all available CPU, or have a Ruby Global Interpreter Lock,
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preventing other threads from continuing.
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## Thread dump
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Send the Sidekiq process ID the `TTIN` signal and it will output thread
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backtraces in the log file.
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```
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kill -TTIN <sidekiq_pid>
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```
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Check in `/var/log/gitlab/sidekiq/current` or `$GITLAB_HOME/log/sidekiq.log` for
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the backtrace output. The backtraces will be lengthy and generally start with
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several `WARN` level messages. Here's an example of a single thread's backtrace:
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```
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2016-04-13T06:21:20.022Z 31517 TID-orn4urby0 WARN: ActiveRecord::RecordNotFound: Couldn't find Note with 'id'=3375386
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2016-04-13T06:21:20.022Z 31517 TID-orn4urby0 WARN: /opt/gitlab/embedded/service/gem/ruby/2.1.0/gems/activerecord-4.2.5.2/lib/active_record/core.rb:155:in `find'
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/opt/gitlab/embedded/service/gitlab-rails/app/workers/new_note_worker.rb:7:in `perform'
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/opt/gitlab/embedded/service/gem/ruby/2.1.0/gems/sidekiq-4.0.1/lib/sidekiq/processor.rb:150:in `execute_job'
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/opt/gitlab/embedded/service/gem/ruby/2.1.0/gems/sidekiq-4.0.1/lib/sidekiq/processor.rb:132:in `block (2 levels) in process'
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/opt/gitlab/embedded/service/gem/ruby/2.1.0/gems/sidekiq-4.0.1/lib/sidekiq/middleware/chain.rb:127:in `block in invoke'
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/opt/gitlab/embedded/service/gitlab-rails/lib/gitlab/sidekiq_middleware/memory_killer.rb:17:in `call'
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/opt/gitlab/embedded/service/gem/ruby/2.1.0/gems/sidekiq-4.0.1/lib/sidekiq/middleware/chain.rb:129:in `block in invoke'
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/opt/gitlab/embedded/service/gitlab-rails/lib/gitlab/sidekiq_middleware/arguments_logger.rb:6:in `call'
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...
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```
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In some cases Sidekiq may be hung and unable to respond to the `TTIN` signal.
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Move on to other troubleshooting methods if this happens.
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## Process profiling with `perf`
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Linux has a process profiling tool called `perf` that is helpful when a certain
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process is eating up a lot of CPU. If you see high CPU usage and Sidekiq won't
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respond to the `TTIN` signal, this is a good next step.
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If `perf` is not installed on your system, install it with `apt-get` or `yum`:
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```
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# Debian
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sudo apt-get install linux-tools
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# Ubuntu (may require these additional Kernel packages)
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sudo apt-get install linux-tools-common linux-tools-generic linux-tools-`uname -r`
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# Red Hat/CentOS
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sudo yum install perf
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```
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Run perf against the Sidekiq PID:
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```
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sudo perf record -p <sidekiq_pid>
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```
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Let this run for 30-60 seconds and then press Ctrl-C. Then view the perf report:
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```
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sudo perf report
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# Sample output
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Samples: 348K of event 'cycles', Event count (approx.): 280908431073
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97.69% ruby nokogiri.so [.] xmlXPathNodeSetMergeAndClear
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0.18% ruby libruby.so.2.1.0 [.] objspace_malloc_increase
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0.12% ruby libc-2.12.so [.] _int_malloc
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0.10% ruby libc-2.12.so [.] _int_free
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```
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Above you see sample output from a perf report. It shows that 97% of the CPU is
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being spent inside Nokogiri and `xmlXPathNodeSetMergeAndClear`. For something
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this obvious you should then go investigate what job in GitLab would use
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Nokogiri and XPath. Combine with `TTIN` or `gdb` output to show the
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corresponding Ruby code where this is happening.
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## The GNU Project Debugger (gdb)
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`gdb` can be another effective tool for debugging Sidekiq. It gives you a little
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more interactive way to look at each thread and see what's causing problems.
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> **Note:** Attaching to a process with `gdb` will suspends the normal operation
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of the process (Sidekiq will not process jobs while `gdb` is attached).
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Start by attaching to the Sidekiq PID:
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```
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gdb -p <sidekiq_pid>
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```
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Then gather information on all the threads:
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```
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info threads
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# Example output
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30 Thread 0x7fe5fbd63700 (LWP 26060) 0x0000003f7cadf113 in poll () from /lib64/libc.so.6
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29 Thread 0x7fe5f2b3b700 (LWP 26533) 0x0000003f7ce0b68c in pthread_cond_wait@@GLIBC_2.3.2 () from /lib64/libpthread.so.0
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28 Thread 0x7fe5f2a3a700 (LWP 26534) 0x0000003f7ce0ba5e in pthread_cond_timedwait@@GLIBC_2.3.2 () from /lib64/libpthread.so.0
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27 Thread 0x7fe5f2939700 (LWP 26535) 0x0000003f7ce0b68c in pthread_cond_wait@@GLIBC_2.3.2 () from /lib64/libpthread.so.0
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26 Thread 0x7fe5f2838700 (LWP 26537) 0x0000003f7ce0b68c in pthread_cond_wait@@GLIBC_2.3.2 () from /lib64/libpthread.so.0
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25 Thread 0x7fe5f2737700 (LWP 26538) 0x0000003f7ce0b68c in pthread_cond_wait@@GLIBC_2.3.2 () from /lib64/libpthread.so.0
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24 Thread 0x7fe5f2535700 (LWP 26540) 0x0000003f7ce0b68c in pthread_cond_wait@@GLIBC_2.3.2 () from /lib64/libpthread.so.0
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23 Thread 0x7fe5f2434700 (LWP 26541) 0x0000003f7ce0b68c in pthread_cond_wait@@GLIBC_2.3.2 () from /lib64/libpthread.so.0
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22 Thread 0x7fe5f2232700 (LWP 26543) 0x0000003f7ce0b68c in pthread_cond_wait@@GLIBC_2.3.2 () from /lib64/libpthread.so.0
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21 Thread 0x7fe5f2131700 (LWP 26544) 0x00007fe5f7b570f0 in xmlXPathNodeSetMergeAndClear ()
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from /opt/gitlab/embedded/service/gem/ruby/2.1.0/gems/nokogiri-1.6.7.2/lib/nokogiri/nokogiri.so
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...
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```
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If you see a suspicious thread, like the Nokogiri one above, you may want
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to get more information:
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```
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thread 21
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bt
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# Example output
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#0 0x00007ff0d6afe111 in xmlXPathNodeSetMergeAndClear () from /opt/gitlab/embedded/service/gem/ruby/2.1.0/gems/nokogiri-1.6.7.2/lib/nokogiri/nokogiri.so
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#1 0x00007ff0d6b0b836 in xmlXPathNodeCollectAndTest () from /opt/gitlab/embedded/service/gem/ruby/2.1.0/gems/nokogiri-1.6.7.2/lib/nokogiri/nokogiri.so
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#2 0x00007ff0d6b09037 in xmlXPathCompOpEval () from /opt/gitlab/embedded/service/gem/ruby/2.1.0/gems/nokogiri-1.6.7.2/lib/nokogiri/nokogiri.so
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#3 0x00007ff0d6b09017 in xmlXPathCompOpEval () from /opt/gitlab/embedded/service/gem/ruby/2.1.0/gems/nokogiri-1.6.7.2/lib/nokogiri/nokogiri.so
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#4 0x00007ff0d6b092e0 in xmlXPathCompOpEval () from /opt/gitlab/embedded/service/gem/ruby/2.1.0/gems/nokogiri-1.6.7.2/lib/nokogiri/nokogiri.so
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#5 0x00007ff0d6b0bc37 in xmlXPathRunEval () from /opt/gitlab/embedded/service/gem/ruby/2.1.0/gems/nokogiri-1.6.7.2/lib/nokogiri/nokogiri.so
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#6 0x00007ff0d6b0be5f in xmlXPathEvalExpression () from /opt/gitlab/embedded/service/gem/ruby/2.1.0/gems/nokogiri-1.6.7.2/lib/nokogiri/nokogiri.so
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#7 0x00007ff0d6a97dc3 in evaluate (argc=2, argv=0x1022d058, self=<value optimized out>) at xml_xpath_context.c:221
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#8 0x00007ff0daeab0ea in vm_call_cfunc_with_frame (th=0x1022a4f0, reg_cfp=0x1032b810, ci=<value optimized out>) at vm_insnhelper.c:1510
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```
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To output a backtrace from all threads at once:
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```
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set pagination off
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thread apply all bt
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```
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Once you're done debugging with `gdb`, be sure to detach from the process and
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exit:
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```
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detach
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exit
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```
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## Check for blocking queries
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Sometimes the speed at which Sidekiq processes jobs can be so fast that it can
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cause database contention. Check for blocking queries when backtraces above
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show that many threads are stuck in the database adapter.
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The PostgreSQL wiki has details on the query you can run to see blocking
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queries. The query is different based on PostgreSQL version. See
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[Lock Monitoring](https://wiki.postgresql.org/wiki/Lock_Monitoring) for
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the query details.
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