Supercronic has an announcement blog post over here!
Supercronic is a crontab-compatible job runner, designed specifically to run in containers.
Crontabs are the lingua franca of job scheduling, but typical server cron implementations are ill-suited for container environments:
- They purge their environment before starting jobs. This is an important security feature in multi-user systems, but it breaks a fundamental configuration mechanism for containers.
- They capture the output from the jobs they run, and often either want to
email this output or simply discard it. In a containerized environment,
logging task output and errors to
stdout
/stderr
is often easier to work with. - They often don't respond gracefully to
SIGINT
/SIGTERM
/SIGQUIT
, and may leave running jobs orphaned when signaled. Again, this makes sense in a server environment whereinit
will handle the orphan jobs and Cron isn't restarted often anyway, but it's inappropriate in a container environment as it'll result in jobs being forcefully terminated (i.e.SIGKILL
'ed) when the container exits. - They often try to send their logs to syslog. This conveniently provides
centralized logging when a syslog server is running, but with containers,
simply logging to
stdout
orstderr
is preferred.
Finally, they are often quiet, making these issues difficult to understand and debug!
Supercronic's goal is to behave exactly how you would expect cron
running in
a container to behave:
- Your environment variables are available in jobs
- Job output is logged to
stdout
/stderr
SIGTERM
triggers a graceful shutdown (and so doesSIGINT
, which you can deliver via CTRL+C when used interactively)- Job return codes and schedules are logged to
stdout
/stderr
SIGUSR2
triggers a graceful shutdown and reloads the crontab configurationSIGQUIT
triggers a graceful shutdown
- Install Supercronic (see below)
- Point it at a crontab:
supercronic CRONTAB
- You're done!
We (Aptible) originally created Supercronic to make it easy for customers of our No Infrastructure Platform to incorporate periodic jobs in their apps, but it's more broadly applicable to anyone running cron jobs in containers.
To run supersonic as a Docker container, you can use the following command:
docker run -v /path/to/crontab:/etc/crontab -it ghcr.io/aptible/supercronic /etc/crontab
To include Supercronic in your Dockerfile, you can use the following:
FROM ubuntu:latest
COPY --from=ghcr.io/aptible/supercronic:latest /ko-app/supercronic /usr/local/bin/supercronic
COPY ./path/to/crontab /etc/custom-crontab
ENTRYPOINT ["/usr/local/bin/supercronic", "/etc/custom-crontab"]
You can as well download a pre-built binary.
Navigate to the releases page, and grab the build that suits your
system. The releases include example Dockerfile
stanzas to install
Supercronic that you can easily include in your own Dockerfile
or adjust as
needed.
Note: If you are unsure which binary is right for you, try
supercronic_{{vesion}}_linux_amd64
.
You can also build Supercronic from source.
Run the following to fetch Supercronic, install its dependencies, and install it:
go get -d github.com/aptible/supercronic
cd "${GOPATH}/src/github.com/aptible/supercronic"
go mod vendor
go install
Broadly speaking, Supercronic tries to process crontabs just like Vixie cron does. In most cases, it should be compatible with your existing crontab.
There are, however, a few exceptions:
- First, Supercronic supports second-resolution schedules: Under the hood,
Supercronic uses the
cronexpr
package, so refer to its documentation to know exactly what you can do. - Second, Supercronic does not support changing users when running tasks.
Setting
USER
in your crontab will have no effect. Changing users is usually best accomplished in container environments via other means, e.g., by adding aUSER
directive to your Dockerfile.
Here's an example crontab:
# Run every minute
*/1 * * * * echo "hello"
# Run every 2 seconds
*/2 * * * * * * ls 2>/dev/null
# Run once every hour
@hourly echo "$SOME_HOURLY_JOB"
Just like regular cron, Supercronic lets you specify environment variables in
your crontab using a KEY=VALUE
syntax.
However, this is only here for compatibility with existing crontabs, and using this feature is generally not recommended when using Supercronic.
Indeed, Supercronic does not wipe your environment before running jobs, so if you need environment variables to be available when your jobs run, just set them before starting Supercronic itself, and your jobs will inherit them.
For example, if you're using Docker, jobs started by Supercronic will inherit
the environment variables defined using ENV
directives in your Dockerfile
,
and variables passed when you run the container (e.g. via docker run -e SOME_VARIABLE=SOME_VALUE
).
Unless you've used cron before, this is exactly how you expect environment variables to work!
Supercronic uses your current timezone from /etc/localtime
to schedule jobs.
You can also override the timezone by setting the environment variable TZ
(e.g. TZ=Europe/Berlin
) when running Supercronic. You may need to install
tzdata
in order for Supercronic to find the supplied timezone.
You can override TZ
to use a different timezone, but if you need your cron
jobs to be scheduled in a timezone A and have them run in a timezone B, you can
run with /etc/localtime
or TZ
set to B
and add a CRON_TZ=A
line to your
crontab.
If you're unsure what timezone Supercronic is using, you can run it with the
-debug
flag to confirm.
Supercronic provides rich logging, and will let you know exactly what command triggered a given message. Here's an example:
$ cat ./my-crontab
*/5 * * * * * * echo "hello from Supercronic"
$ ./supercronic ./my-crontab
INFO[2017-07-10T19:40:44+02:00] read crontab: ./my-crontab
INFO[2017-07-10T19:40:50+02:00] starting iteration=0 job.command="echo "hello from Supercronic"" job.position=0 job.schedule="*/5 * * * * * *"
INFO[2017-07-10T19:40:50+02:00] hello from Supercronic channel=stdout iteration=0 job.command="echo "hello from Supercronic"" job.position=0 job.schedule="*/5 * * * * * *"
INFO[2017-07-10T19:40:50+02:00] job succeeded iteration=0 job.command="echo "hello from Supercronic"" job.position=0 job.schedule="*/5 * * * * * *"
INFO[2017-07-10T19:40:55+02:00] starting iteration=1 job.command="echo "hello from Supercronic"" job.position=0 job.schedule="*/5 * * * * * *"
INFO[2017-07-10T19:40:55+02:00] hello from Supercronic channel=stdout iteration=1 job.command="echo "hello from Supercronic"" job.position=0 job.schedule="*/5 * * * * * *"
INFO[2017-07-10T19:40:55+02:00] job succeeded iteration=1 job.command="echo "hello from Supercronic"" job.position=0 job.schedule="*/5 * * * * * *"
If your jobs aren't running, or you'd simply like to double-check your crontab
syntax, pass the -debug
flag for more verbose logging:
$ ./supercronic -debug ./my-crontab
INFO[2017-07-10T19:43:51+02:00] read crontab: ./my-crontab
DEBU[2017-07-10T19:43:51+02:00] try parse(7): */5 * * * * * * echo "hello from Supercronic"[0:15] = */5 * * * * * *
DEBU[2017-07-10T19:43:51+02:00] job will run next at 2017-07-10 19:44:00 +0200 CEST job.command="echo "hello from Supercronic"" job.position=0 job.schedule="*/5 * * * * * *"
Supercronic will wait for a given job to finish before that job is scheduled again (some cron implementations do this, others don't). If a job is falling behind schedule (i.e. it's taking too long to finish), Supercronic will warn you.
Here is an example:
$ cat ./my-crontab
# Sleep for 2 seconds every second. This will take too long.
* * * * * * * sleep 2
$ ./supercronic ./my-crontab
INFO[2017-07-11T12:24:25+02:00] read crontab: ./my-crontab
INFO[2017-07-11T12:24:27+02:00] starting iteration=0 job.command="sleep 2" job.position=0 job.schedule="* * * * * * *"
INFO[2017-07-11T12:24:29+02:00] job succeeded iteration=0 job.command="sleep 2" job.position=0 job.schedule="* * * * * * *"
WARN[2017-07-11T12:24:29+02:00] job took too long to run: it should have started 1.009438854s ago job.command="sleep 2" job.position=0 job.schedule="* * * * * * *"
INFO[2017-07-11T12:24:30+02:00] starting iteration=1 job.command="sleep 2" job.position=0 job.schedule="* * * * * * *"
INFO[2017-07-11T12:24:32+02:00] job succeeded iteration=1 job.command="sleep 2" job.position=0 job.schedule="* * * * * * *"
WARN[2017-07-11T12:24:32+02:00] job took too long to run: it should have started 1.014474099s ago job.command="sleep 2" job.position=0 job.schedule="* * * * * * *"
You can optionally disable this behavior and allow overlapping instances of
your jobs by passing the -overlapping
flag to Supercronic. Supercronic will
still warn about jobs falling behind, but will run duplicate instances of them.
Send SIGUSR2
to Supercronic to reload the crontab:
# docker environment (Supercronic needs to be PID 1 in the container)
docker kill --signal=USR2 <container id>
# shell
kill -USR2 <pid>
If you are running Supercronic in an environment were sending SIGUSR2
is a bit of a hassle, or you expect frequent updates to your crontab file, you may opt to run Supercronic with the -inotify
flag. This will start a watch on the crontab file, reloading it on changes. An example use case would be a kubernetes pod runnning Supercronic that mounts its crontab file from a configMap. With the -inotify
flag, any update to this configmap, provided it is not immutable, will trigger a reload in Supercronic, without you having to figure out a mechanism to send the SIGUSR2
signal to the pod. The watch on the crontab file triggers on Write
and Remove
events, the latter ensures detection of kubernetes' atomic writes.
$ ./supercronic -inotify ./my-crontab
...
time="2024-09-11T09:23:18+02:00" level=debug msg="event: CHMOD \"./my-crontab\", watch-list: []"
time="2024-09-11T09:23:18+02:00" level=debug msg="event: REMOVE \"./my-crontab\", watch-list: []"
time="2024-09-11T09:23:18+02:00" level=debug msg="watched file changed"
time="2024-09-11T09:23:18+02:00" level=info msg="received user defined signal 2, reloading crontab"
time="2024-09-11T09:23:18+02:00" level=info msg="waiting for jobs to finish"
time="2024-09-11T09:23:18+02:00" level=debug msg="shutting down" job.command="sleep 2" job.position=0 job.schedule="* * * * *"
time="2024-09-11T09:23:18+02:00" level=info msg="read crontab: ./my-crontab"
time="2024-09-11T09:23:18+02:00" level=debug msg="try parse (7 fields): '* * * * * sleep 5'"
time="2024-09-11T09:23:18+02:00" level=debug msg="failed to parse (7 fields): '* * * * * sleep 5': failed: syntax error in day-of-week field: 'sleep'"
time="2024-09-11T09:23:18+02:00" level=debug msg="try parse (6 fields): '* * * * * sleep'"
time="2024-09-11T09:23:18+02:00" level=debug msg="failed to parse (6 fields): '* * * * * sleep': failed: syntax error in year field: 'sleep'"
time="2024-09-11T09:23:18+02:00" level=debug msg="try parse (5 fields): '* * * * *'"
time="2024-09-11T09:23:18+02:00" level=debug msg="job will run next at 2024-09-11 09:24:00 +0200 CEST" job.command="sleep 5" job.position=0 job.schedule="* * * * *"
Use the -test
flag to prompt Supercronic to verify your crontab, but not
execute it. This is useful as part of e.g. a build process to verify the syntax
of your crontab.
By default, Supersonic routes all logs to stderr
. If you wish to change this
behaviour to level-based logging, pass the -split-logs
flag to route debug
and info level logs to stdout
:
$ ./supercronic -split-logs ./my-crontab 1>./stdout.log
$ cat ./stdout.log
time="2019-01-12T19:34:57+09:00" level=info msg="read crontab: ./my-crontab"
time="2019-01-12T19:35:00+09:00" level=info msg=starting iteration=0 job.command="echo \"hello from Supercronic\"" job.position=0 job.schedule="*/5 * * * * * *"
time="2019-01-12T19:35:00+09:00" level=info msg="hello from Supercronic" channel=stdout iteration=0 job.command="echo \"hello from Supercronic\"" job.position=0 job.schedule="*/5 * * * * * *"
time="2019-01-12T19:35:00+09:00" level=info msg="job succeeded" iteration=0 job.command="echo \"hello from Supercronic\"" job.position=0 job.schedule="*/5 * * * * * *"
Supercronic offers integration with Sentry for real-time error tracking and reporting. This feature helps in identifying, triaging, and fixing crashes in your cron jobs.
To enable Sentry reporting, configure the Sentry Data Source Name (DSN) e.g. use the -sentry-dsn
argument when starting Supercronic
$ ./supercronic -sentry-dsn DSN
You can also specify the DSN via the SENTRY_DSN
environment variable.
When a DSN is specified via both the environment variable and the command line parameter
the parameter's DSN has priority.
You can also specify the environment and release for Sentry to provide more context to the error reports:
Environment: Use the -sentry-environment
flag or the SENTRY_ENVIRONMENT
environment variable to set the environment tag in Sentry.
$ ./supercronic -sentry-dsn YOUR_SENTRY_DSN -sentry-environment YOUR_ENVIRONMENT
Release: Use the -sentry-release
flag or the SENTRY_RELEASE
environment variable to set the release tag in Sentry.
$ ./supercronic -sentry-dsn YOUR_SENTRY_DSN -sentry-release YOUR_RELEASE
Please feel free to open an issue in this repository if you have any question about Supercronic!
Note that if you're trying to use Supercronic on Aptible App, we have a dedicated support article.
PRs are always welcome! Before undertaking a major change, consider opening an issue for some discussion.
See LICENSE.md.
Copyright (c) 2019 Aptible. All rights reserved.