By default DevStack is run with all the services as systemd unit files. Systemd is now the default init system for nearly every Linux distro, and systemd encodes and solves many of the problems related to poorly running processes.
The screen model for DevStack was invented when the number of services that a DevStack user was going to run was typically < 10. This made screen hot keys to jump around very easy. However, the landscape has changed (not all services are stoppable in screen as some are under Apache, there are typically at least 20 items)
There is also a common developer workflow of changing code in more than one service, and needing to restart a bunch of services for that to take effect.
Note
Originally we actually wanted to do this as user units, however there are issues with running this under non interactive shells. For now, we’ll be running as system units. Some user unit code is left in place in case we can switch back later.
All DevStack user units are created as a part of the DevStack slice
given the name devstack@$servicename.service
. This makes it easy
to understand which services are part of the devstack run, and lets us
disable / stop them in a single command.
Assuming the unit n-cpu
to make the examples more clear.
Enable a unit (allows it to be started):
sudo systemctl enable devstack@n-cpu.service
Disable a unit:
sudo systemctl disable devstack@n-cpu.service
Start a unit:
sudo systemctl start devstack@n-cpu.service
Stop a unit:
sudo systemctl stop devstack@n-cpu.service
Restart a unit:
sudo systemctl restart devstack@n-cpu.service
See status of a unit:
sudo systemctl status devstack@n-cpu.service
Systemd supports wildcarding for unit operations. To restart every service in devstack you can do that following:
sudo systemctl restart devstack@*
Or to see the status of all Nova processes you can do:
sudo systemctl status devstack@n-*
We’ll eventually make the unit names a bit more meaningful so that it’s easier to understand what you are restarting.
One of the other major things that comes with systemd is journald, a
consolidated way to access logs (including querying through structured
metadata). This is accessed by the user via journalctl
command.
Logs can be accessed through journalctl
. journalctl has powerful
query facilities. We’ll start with some common options.
Follow logs for a specific service:
sudo journalctl -f --unit devstack@n-cpu.service
Following logs for multiple services simultaneously:
sudo journalctl -f --unit devstack@n-cpu.service --unit devstack@n-cond.service
or you can even do wild cards to follow all the nova services:
sudo journalctl -f --unit devstack@n-*
Use higher precision time stamps:
sudo journalctl -f -o short-precise --unit devstack@n-cpu.service
By default, journalctl strips out “unprintable” characters, including
ASCII color codes. To keep the color codes (which can be interpreted by
an appropriate terminal/pager - e.g. less
, the default):
sudo journalctl -a --unit devstack@n-cpu.service
When outputting to the terminal using the default pager, long lines
will be truncated, but horizontal scrolling is supported via the
left/right arrow keys. You can override this by setting the
SYSTEMD_LESS
environment variable to e.g. FRXM
.
You can pipe the output to another tool, such as grep
. For
example, to find a server instance UUID in the nova logs:
sudo journalctl -a --unit devstack@n-* | grep 58391b5c-036f-44d5-bd68-21d3c26349e6
See man 1 journalctl
for more.
In order to break into a regular pdb session on a systemd-controlled service, you need to invoke the process manually - that is, take it out of systemd’s control.
Discover the command systemd is using to run the service:
systemctl show devstack@n-sch.service -p ExecStart --no-pager
Stop the systemd service:
sudo systemctl stop devstack@n-sch.service
Inject your breakpoint in the source, e.g.:
import pdb; pdb.set_trace()
Invoke the command manually:
/usr/local/bin/nova-scheduler --config-file /etc/nova/nova.conf
remote-pdb works while the process is under systemd control.
Make sure you have remote-pdb installed:
sudo pip install remote-pdb
Inject your breakpoint in the source, e.g.:
import remote_pdb; remote_pdb.set_trace()
Restart the relevant service:
sudo systemctl restart devstack@n-api.service
The remote-pdb code configures the telnet port when set_trace()
is
invoked. Do whatever it takes to hit the instrumented code path, and
inspect the logs for a message displaying the listening port:
Sep 07 16:36:12 p8-100-neo devstack@n-api.service[772]: RemotePdb session open at 127.0.0.1:46771, waiting for connection ...
Telnet to that port to enter the pdb session:
telnet 127.0.0.1 46771
See the remote-pdb home page for more options.
Be careful about systemd python libraries. There are 3 of them on
pypi, and they are all very different. They unfortunately all install
into the systemd
namespace, which can cause some issues.
systemd-python
- this is the upstream maintained library, it has
a version number like systemd itself (currently 234
). This is
the one you want.systemd
- a python 3 only library, not what you want.python-systemd
- another library you don’t want. Installing it
on a system will break ansible’s ability to run.If we were using user units, the [Service]
- Group=
parameter
doesn’t seem to work with user units, even though the documentation
says that it should. This means that we will need to do an explicit
/usr/bin/sg
. This has the downside of making the SYSLOG_IDENTIFIER
be sg
. We can explicitly set that with SyslogIdentifier=
, but
it’s really unfortunate that we’re going to need this work
around. This is currently not a problem because we’re only using
system units.
It would be great if we could do services as user units, so that there is a clear separation of code being run as not root, to ensure running as root never accidentally gets baked in as an assumption to services. However, user units interact poorly with devstack-gate and the way that commands are run as users with ansible and su.
Maybe someday we can figure that out.
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