In this lab you will integrate Docker Enterpise Edition Advanced in to your development pipeline. You will build your application from a Dockerfile and push your image to the Docker Trusted Registry (DTR). DTR will scan your image for vulnerabilities so they can be fixed before your application is deployed. This helps you build more secure apps!
Difficulty: Intermediate
Time: Approximately 90 minutes
Tasks:
- Prerequisites
- Introduction
- Task 1: Accessing PWD
- Task 2: Enable Docker Image Scanning
- Task 3: Create Jenkins User and Organization
- Task 4: Create DTR Repository
- Task 5: Pull / Tag / Push Docker Image
- Task 6: Review Scan Results
- Task 7: Extend with Image Mirroring
- Task 8: Docker Content Trust / Image Signing
- Task 9: Automate with Jenkins
- Task 10: Optional Jenkins Pipeline, DTR WebHook and Content Trust
When you encounter a phrase in between <
and >
you are meant to substitute in a different value.
We are going to leverage the power of Play With Docker.
The following abbreviations are used in this document:
- UCP = Universal Control Plane
- DTR = Docker Trusted Registry
- DCT = Docker Content Trust
- EE = Docker Enterprise Edition
- CVE = Common Vulnerabilities and Exposures
- PWD = Play With Docker
This lab requires an instance of Docker Enterprise Edition (EE). Docker Enterprise Edition includes Docker Universal Control Plane and Docker Trusted Registry. This lab provides Docker EE.
This workshop is only available to people in a pre-arranged workshop. That may happen through a Docker Meetup, a conference workshop that is being led by someone who has made these arrangements, or special arrangements between Docker and your company. The workshop leader will provide you with the URL to a workshop environment that includes Docker Enterprise Edition. The environment will be based on Play with Docker.
If none of these apply to you, contact your local Docker Meetup Chapter and ask if there are any scheduled workshops. In the meantime, you may be interested in the labs available through the Play with Docker Classroom.
There are three main components to the Play With Docker (PWD) interface.
Play with Docker provides access to the 3 Docker EE hosts in your Cluster. These machines are:
- A Linux-based Docker EE 2.0 (UCP 3.0.1 & 17.06.2-ee11) Manager node
- Three Linux-based Docker EE 2.0 (17.06.2-ee11) Worker nodes
- A Windows Server 2016-based Docker EE 17.06 Worker Node
By clicking a name on the left, the console window will be connected to that node.
Additionally, the PWD screen provides you with a one-click access to the Universal Control Plane (UCP)
web-based management interface as well as the Docker Trusted Registry (DTR) web-based management interface. Clicking on either the UCP
or DTR
button will bring up the respective server web interface in a new tab.
Throughout the lab you will be asked to provide either hostnames or login credentials that are unique to your environment. These are displayed for you at the bottom of the screen.
Note: There are a limited number of lab connections available for the day. You can use the same session all day by simply keeping your browser connection to the PWD environment open between sessions. This will help us get as many people connected as possible, and prevent you needing to get new credentials and hostnames in every lab. However, if you do lose your connection between sessions simply go to the PWD URL again and you will be given a new session.
This workshop is designed to demonstrate the power of Docker Secrets, Image Promotion, Scanning Engine, and Content Trust. We will walk through creating a few secrets. Deploying a stack that uses the secret. Then we will create a Docker Trusted Registry repository where we can create a promotion policy. The promotion policy leverages the output from Image Scanning result. This is the foundation of creating a Secure Supply Chain. You can read more about secure supply chains for our Secure Supply Chain reference architecture.
- Navigate in your web browser to the URL the workshop organizer provided to you.
PLEASE USE: https://dockr.ly/dceu-workshop
-
Fill out the form, and click
submit
. You will then be redirected to the PWD environment.It may take a minute or so to provision out your PWD environment.
We are going to use worker3
for ALL our command line work. Click on worker3
to activate the shell.
Now we need to setup a few variables. We need to create DTR_URL
and DTR_USERNAME
. But the easiest way is to clone the Workshop Repo and run script.
git clone https://github.com/stevejr/dc18_supply_chain.git
Once cloned, now we can run the var_setup.sh
script.
. dc18_supply_chain/scripts/var_setup.sh
Now your PWD environment variables are setup. We will use the variables for some scripting.
Before we create the repositories, let's start with enabling the Docker Image Scanning engine.
-
From the main PWD screen click the
DTR
button on the left side of the screenNote: Because this is a lab-based install of Docker EE we are using the default self-signed certs. Because of this your browser may display a security warning. It is safe to click through this warning.
In a production environment you would use certs from a trusted certificate authority and would not see this screen.
-
Select
Enable Scanning
. Leave it inOnline
mode and selectEnable
. Press the buttonEnable Online Scanning
. The CVE database will start downloading. This can take a few minutes. Please be patient for it to complete.
In order to setup our automation we need to create an organization and a user account for Jenkins. We are going to create a user named jenkins
in the organization ci
.
- From the
PWD
main page click onDTR
.
- Once in
DTR
navigate toOrganizations
on the left. - Now click
New organization
. - Type in
ci
and clickSave
.
Now we should see the organization named ci
.
While remaining in DTR we can create the user from here.
- Click on the organization
ci
. - Click
Add user
. - Make sure you click the radio button
New
. Add a new user namejenkins
. Set a simple password that you can remember. Maybeadmin1234
?
Now change the permissions for the jenkins
account to Org Owner
.
Now that we have the jenkins
user created we need to add a token for use with DTR's API.
Navigate to Users
on the left pane. Click on jenkins
, then click the Access Tokens
tab.
Click New access token
. Enter api
into the description field and click Create
.
Write down the token that is displayed. You will need this again!
It should look like ee9d7ff2-6fd4-4a41-9971-789e06e0d5d5
. Click Done
.
Lets add it to the worker3
environment. Replace <TOKEN>
with the token from DTR.
#example
#export DTR_TOKEN=ee9d7ff2-6fd4-4a41-9971-789e06e0d5d5
export DTR_TOKEN=<TOKEN>
We now need to access Docker Trusted Registry to setup two repositories.
We have an easy way with a script or the hard way by using the GUI.
Either way we need to create two repositories, dc18_build
and dc18
. dc18_build
will be used for the private version of the image. dc18
will be the public version once an CVE scan is complete.
Easy Way:
Since we used git clone
to copy the repository to worker3
for this workshop, there is a script from that will create the DTR repositories.
./dc18_supply_chain/scripts/create_repos.sh
Feel free to cat
the file to see how we are using curl
and the API to create the repositories.
[worker3] (local) [email protected] ~
$ cat dc18_supply_chain/scripts/create_repos.sh
#!/bin/bash
# requires environment variables: DTR_HOST, DTR_USERNAME and DTR_TOKEN
if [ -z "$DTR_TOKEN" ]; then
echo " Please create a DTR_TOKEN variable before preceeding..."
exit
fi
curl -X POST -k -L \
-u $DTR_USERNAME:$DTR_TOKEN \
https://$DTR_URL/api/v0/repositories/ci \
-H 'Content-Type: application/json' \
-d '{
"enableManifestLists": true,
"immutableTags": true,
"longDescription": "",
"name": "dc18",
"scanOnPush": true,
"shortDescription": "Dockercon 2018 Example - public",
"visibility": "public"
}'
curl -X POST -k -L \
-u $DTR_USERNAME:$DTR_TOKEN \
https://$DTR_URL/api/v0/repositories/ci \
-H 'Content-Type: application/json' \
-d '{
"enableManifestLists": true,
"immutableTags": true,
"longDescription": "",
"name": "dc18_build",
"scanOnPush": true,
"shortDescription": "Dockercon 2018 Example - private",
"visibility": "public"
}'
Hard Way:
-
Navigate to
Repositories
on the left menu and clickNew repository
. -
Create that looks like
ci
/dc18_build
. Make sure you clickPrivate
. Do not clickCreate
yet! -
Click
Show advanced settings
and then clickOn Push
underSCAN ON PUSH
. This will ensure that the CVE scan will start right after every push to this repository. And turn onIMMUTABILITY
. Then clickCreate
. -
Repeat this for creating the
ci
/dc18
Public
repository withSCAN ON PUSH
set toOn Push
.
With the two repositories setup we can now define the promotion policy. The first policy we are going to create is for promoting an image that has passed a scan with zero (0) Critical vulnerabilities. The policy will target the ci
/dc_18
repository.
-
Navigate to the
ci
/dc18_build
repository. ClickPromotions
and clickNew promotion policy
. Note: Make sure theIs source
box is selected. -
In the
PROMOTE TO TARGET IF...
box selectCritical Vulnerabilities
and then checkequals
. In the box belowequals
enter the number zero (0) and clickAdd
. -
Set the
TARGET REPOSITORY
toci
/dc18
and clickSave & Apply
.
When we push an image to ci
/dc18_build
it will get scanned. Based on that scan report we could see the image moved to ci
/dc18
. Lets push a few images to see if it worked.
Lets pull, tag, and push a few images to YOUR DTR.
In order to push and pull images to DTR we will need to take advantage of PWD's Console Access.
-
Navigate back to the PWD tab in your browser.
-
Click on
worker3
. -
In the console we should already have a variable called
DTR_URL
. Lets check.echo $DTR_URL
If you are not sure please follow Task 1.1: Set Up Environment Variables.
-
Now we login to our DTR server using your
DTR_TOKEN
from Task 3.3: Create Jenkins DTR Token.docker login -u jenkins -p $DTR_TOKEN $DTR_URL
-
Now we can start pulling a few images.
docker image pull clemenko/dc18:0.1 docker image pull clemenko/dc18:0.2 docker image pull clemenko/dc18:0.3 docker image pull alpine
This command is pull a few images from hub.docker.com.
-
Now let's tag the image for our DTR instance. We will use the
URL
variable we set before.docker image tag clemenko/dc18:0.1 $DTR_URL/ci/dc18_build:0.1 docker image tag clemenko/dc18:0.2 $DTR_URL/ci/dc18_build:0.2 docker image tag clemenko/dc18:0.3 $DTR_URL/ci/dc18_build:0.3 docker image tag alpine $DTR_URL/ci/dc18_build:alpine
-
Now we can
docker image push
the images to DTR.docker image push $DTR_URL/ci/dc18_build:0.1 docker image push $DTR_URL/ci/dc18_build:0.2 docker image push $DTR_URL/ci/dc18_build:0.3 docker image push $DTR_URL/ci/dc18_build:alpine
Lets take a good look at the scan results from the images. Please keep in mind this will take a few minutes to complete.
-
Navigate to DTR -->
Repostories
-->ci/dc18_build
-->Images
.Don't worry if you see images in a
Scanning...
orPending
state. Please click to another tab and click back. If this is a large image or the first time any of the layers have been scanned it can take some time. -
Take a look at the details to see exactly what piece of the image is vulnerable.
Click
View details
for an image that has vulnerabilities. How about0.2
? There are two views for the scanning results, Layers and Components. The Layers view shows which layer of the image had the vulnerable binary. This is extremely useful when diagnosing where the vulnerability is in the Dockerfile.The vulnerable binary is displayed, along with all the other contents of the layer, when you click the layer itself. In this example there are a few potentially vulnerable binaries:
Now we have a chance to review each vulnerability by clicking the CVE itself, example
CVE-2018-0500
. This will direct you to Mitre's site for CVEs.Now that we know what is in the image. We should probably act upon it.
If we find that they CVE is a false positive. Meaning that it might be disputed, or from OS that you are not using. If this is the case we can simply hide
the vulnerability. This will not remove the fact that the CVE was found.
Click hide
for the one critical CVE.
If we click back to Images
we can now see that the image does not have a critical vulnerability.
Once we have hidden some CVEs we might want to perform a manual promotion of the image.
Manual promotions are useful for those times that you need to move an image from a Private
repository to a Public
one. To perform a manual promotion :
-
Click on an image's details. Lets go back to
0.2
, now clickPromote
. LetsPromote
the image toci
/dc18
with a tag ofpromoted
. -
Click
Promote
. Lets look at the promoted image. -
Navigate to
ci
/dc18
-->Images
. Thepromoted
TAG should exist.Now that we use automated and manual promotions. Maybe we can extend promoting images beyond DTR.
Docker Trusted Registry allows you to create mirroring policies for a repository. When an image gets pushed to a repository and meets a certain criteria, DTR automatically pushes it to repository in another DTR deployment or Docker Hub.
This not only allows you to mirror images but also allows you to create image promotion pipelines that span multiple DTR deployments and datacenters. Let's set one up. How about we mirror an image to hub.docker.com?
-
Go to hub.docker.com and create an login and repository.
-
Navigate to
Repositories
-->ci
/dc18
-->MIRRORS
-->New mirror
. Change theREGISTRY TYPE
toDocker Hub
and fill out the relevant information like: -
Click
Connect
and scroll down. -
Next create a
tag name
Trigger that is equal topromoted
-
Leave the
%n
tag renaming the same. -
Click
Save & Apply
.
Since we already had an image that had the tag promoted
we should see that the image was pushed to hub.docker.com. In fact we can click on the hub repository name to see if the image push was successful.
Docker Content Trust/Notary provides a cryptographic signature for each image. The signature provides security so that the image requested is the image you get. Read Notary's Architecture to learn more about how Notary is secure. Since Docker EE is "Secure by Default," Docker Trusted Registry comes with the Notary server out of the box.
We can create policy enforcement within Universal Control Plane (UCP) such that ONLY signed images from the ci
team will be allowed to run. Since this workshop is about DTR and Secure Supply Chain we will skip that step.
Let's sign our first Docker image?
-
Right now you should have a promoted image
$DTR_URL/ci/dc18:promoted
. We need to tag it with a newsigned
tag.docker image pull $DTR_URL/ci/dc18:promoted docker image tag $DTR_URL/ci/dc18:promoted $DTR_URL/ci/dc18:signed
-
Now lets use the Trust command... It will ask you for a BUNCH of passwords. Do yourself a favor in this workshop and use
admin1234
. :Ddocker trust sign $DTR_URL/ci/dc18:signed
Here is an example output:
[worker3] (local) [email protected] ~ $ docker trust sign $DTR_URL/ci/dc18:signed You are about to create a new root signing key passphrase. This passphrase will be used to protect the most sensitive key in your signing system. Please choose a long, complex passphrase and be careful to keep the password and the key file itself secure and backed up. It is highly recommended that you use a password manager to generate the passphrase and keep it safe. There will be no way to recover this key. You can find the key in your config directory. Enter passphrase for new root key with ID b975982: Repeat passphrase for new root key with ID b975982: Enter passphrase for new repository key with ID 61a14ae: Repeat passphrase for new repository key with ID 61a14ae: Enter passphrase for new jenkins key with ID ab5049d: Repeat passphrase for new jenkins key with ID ab5049d: Created signer: jenkins Finished initializing signed repository for ip172-18-0-5-bfu00sinjdg00099igu0.direct.ee-beta2.play-with-docker.com/ci/dc18:signed Signing and pushing trust data for local image ip172-18-0-5-bfu00sinjdg00099igu0.direct.ee-beta2.play-with-docker.com/ci/dc18:signed, may overwrite remote trust data The push refers to repository [ip172-18-0-5-bfu00sinjdg00099igu0.direct.ee-beta2.play-with-docker.com/ci/dc18] af9af2170d23: Layer already exists cd9a82baa926: Layer already exists c60ea83f6a45: Layer already exists cd7100a72410: Layer already exists signed: digest: sha256:5554013b565fc0ccf080f7cf4ad096ffb1dbc4f83496a86f9efa1252f26ed455 size: 1156 Signing and pushing trust metadata Enter passphrase for jenkins key with ID ab5049d: Successfully signed ip172-18-0-5-bfu00sinjdg00099igu0.direct.ee-beta2.play-with-docker.com/ci/dc18:signed [worker3] (local) [email protected] ~
Again please use the same password. It will simplify this part of the workshop.
-
And we can confirm the signature has been applied by inspecting the image:
docker trust inspect $DTR_URL/ci/dc18:signed
Here is the example output:
[worker3] (local) [email protected] ~ $ docker trust inspect $DTR_URL/ci/dc18:signed [ { "Name": "ip172-18-0-5-bfu00sinjdg00099igu0.direct.ee-beta2.play-with-docker.com/ci/dc18:signed", "SignedTags": [ { "SignedTag": "signed", "Digest": "5554013b565fc0ccf080f7cf4ad096ffb1dbc4f83496a86f9efa1252f26ed455", "Signers": [ "jenkins" ] } ], "Signers": [ { "Name": "jenkins", "Keys": [ { "ID": "ab5049def46b1b8070891981afe6091f95bf9017cdfc447866917f342810a302" } ] } ], "AdministrativeKeys": [ { "Name": "Root", "Keys": [ { "ID": "59eaa1440dfc9fbf709a9640e8b8fbcb636b019f6f70aa90451f361bbd1ecf58" } ] }, { "Name": "Repository", "Keys": [ { "ID": "61a14ae35425dde74dc5d18b292c613f613b357051862c18ca5d0a02a2f0d04e" } ] } ] } ] [worker3] (local) [email protected] ~
-
Back in DTR, Navigate to
Repositories
-->ci
/dc18
-->Tags
and you will now see the newsigned
tag with the textSigned
under theSigned
column: -
If you were to enable Docker Content Trust in UCP then you would need to upload the public certificate used to sign the image. As we did not perform the
docker trust signer add
command before step 2 above then a public certificate is automatically generated but is not associated to a user in UCP. This means when UCP tries to verify the signature on a signed image to a user it will fail and therefor not meet UCP's Content Trust policy.To resolve this issue you can upload the base64 encoded public certificate in
~/.docker/trust/tuf/$DTR_URL/ci/dc18/metadata/targets.json
- the certificate is located in the structure.signed.delegations.keys
with the key value ofpublic
.For example, use the command
cat ~/.docker/trust/tuf/$DTR_URL/ci/dc18/metadata/targets.json | jq '.signed.delegations.keys' | grep public
to extract the certificate.
In order to automate we need to deploy Jenkins. If you want I can point you to a few Docker Compose yamls. OR we have the easy way. The easy, aka script, deploys Jenkins quickly.
-
Take a look at the script. Also notice the script will check variables, and then runs
docker run
.cat ./dc18_supply_chain/scripts/jenkins.sh
-
Then run unset Docker Content Trust and instal Jenkins.
export DOCKER_CONTENT_TRUST=0 ./dc18_supply_chain/scripts/jenkins.sh
-
Pay attention to the url AND Jenkins password. It will look like :
[worker3] (local) [email protected] ~/ $ dc18_supply_chain/scripts/jenkins.sh ========================================================================================================= Jenkins URL : http://ip172-18-0-20-bcelih5dffhg00b2thog.direct.ee-beta2.play-with-docker.com:8080 ========================================================================================================= Waiting for Jenkins to start................ ========================================================================================================= Jenkins Setup Password = d32eda1cf2464b818826fd82b4f7c2cb =========================================================================================================
-
Now navigate to
http://$DOCS_URL:8080
by clicking on the url in the terminal. Let's start the setup of Jenkins and enter the password. It may take a minute or two for theUnlock Jenkins
page to load. Be patient. -
We don't need to install all plugins at this point. Click
none
at the top. -
Next Click
Continue as admin
in the lower right hand corner. We don't need to create another username for Jenkins. -
And we are done installing Jenkins. Click
Start using Jenkins
Now that we have Jenkins setup and running we need to add 3 additional plugins - Blue Ocean, Generic Webhook Trigger and Piepline:
-
Click on
Manage Jenkins
-->Manage Plugins
-->Available
and filter/search forBlue Ocean
,Generic Webhook Trigger
andPipeline
. When you have found each one check the checkbox to the left of the plugin name to select for installation. -
Click on
Install without restart
and wait for the plugins to install. When all plugins have installed naviagte back to the Jenkins homepage. -
Enter a name like
ci_dc18
, clickFreestyle project
and then clickOK
. -
Let's scroll down to the
Build
section. We will come back to theBuild Triggers
section in a bit. Now clickAdd build step
-->Execute shell
. -
You will now see a text box. Past the following build script into the text box.
Please replace the <DTR_URL> with your URL!
echo $DTR_URL
<--worker3
DTR_USERNAME=admin DTR_URL=<DTR_URL> docker login -u admin -p admin1234 $DTR_URL docker image pull clemenko/dc18:0.2 docker image tag clemenko/dc18:0.2 $DTR_URL/ci/dc18_build:jenkins_$BUILD_NUMBER docker image push $DTR_URL/ci/dc18_build:jenkins_$BUILD_NUMBER docker rmi clemenko/dc18:0.2 $DTR_URL/ci/dc18_build:jenkins_$BUILD_NUMBER
Now scroll down and click
Save
. -
You can watch the output of the
Build
by clicking on the task number in theBuild History
and then selectingBuild Output
-
The console output will show you all the details from the script execution.
-
Review the
ci
/dc18
repository in DTR. You should now see a bunch of tags that have been promoted.
Now that we have Jenkins setup we can extend with webhooks. In Jenkins speak a webhook is simply a build trigger. Let's configure one.
-
Navigate to Jenkins and click on the project/item called
ci_dc18
and click onConfigure
on the left hand side. -
Then scroll down to
Build Triggers
. Check the checkbox forGeneric Webhook Trigger
and enter a Token ofdc18_rocks
. Scroll down and clickSave
. -
Now in your browser goto YOUR
http://$DOCS_URL:8080/generic-webhook-trigger/invoke?token=dc18_rocks
It should look like:
http://ip172-18-0-6-bcg2h0npobfg00c4nrb0.direct.ee-beta2.play-with-docker.com:8080/generic-webhook-trigger/invoke?token=dc18_rocks
This optional task is to implement the following Jenkins Declarative Pipelines and DTR logic to achieve the following:
- retag the image
- push the image to DTR
- scan the image in DTR
- trigger a webhook when the image is promoted (assuming 0 critical vulnerabilities as per our earlier promotion policy)
- a 2nd Jenkins pipeline job will be triggered by the webhook which will use the webhook payload data
- pull the image
- use the
docker trust
command to sign and push the image back into DTR
Please make sure that the Promotion Policy created in Task 4.1: Create Promotion Policy - Private to Public is still ok - you may need to amend the criteria
As we are now looking to sign images from our Jenkins instance we need access to the signing keys that were created when Task 8: Docker Content Trust / Image Signing was performed.
-
Navigate back to the PWD tab in your browser.
-
Click on
worker3
-
In the console do:
cd ~/.docker/trust/private find . -type f -print -exec cat {} \;
Identify the file that contains the signing key used for the repository
ci/dc18
- it should have the textrole: jenkins
in it. Copy and paste the contents into a file on your laptop (this is needed so we can upload to Jenkins in the next steps). The complete file should look something like this:-----BEGIN ENCRYPTED PRIVATE KEY----- role: jenkins MIHuMEkGCSqGSIb3DQEFDTA8MBsGCSqGSIb3DQEFDDAOBAjK+Otu/r+HhQICCAAw HQYJYIZIAWUDBAEqBBDVwSbtnrMVUx57BJU+iDLPBIGgvWGhbZGygoFTK8vxD3xD VczBt6WRmHA7MLZSMUuqlBJ1zGlxOik53ZGO5d+DJO5eFeFkXQEIdSbZTOA+y0dG kNUnFVtvAQxz4y2Q1TUUhnIoY7PdyBm0MrHWeWbs+vKXgUljXoPVFSM8YfMq+bu2 YPJ0Ki7+mheeKp1Nr4vGPNixDUfs8rjOhRA+eaogQf/uEqcxp8FpNShHabBXHoic aQ== -----END ENCRYPTED PRIVATE KEY-----
Make sure to save the file as the same name as what it is on worker3 i.e. ddc83f21be40c524e4aff431c740fb05aa1fd7cff99c6f278283c3225ebb9b16.key
-
From the Jenkins homepage navigate to
Credentials
. Click on theSystem
link in the left-hand nav menu. Click onGlobal credentials (unrestricted)
in the main window. Click on theAdd Credentials
link in the left-hand nav menu. -
Select
Secret file
as theKind
-
Upload the file you just created in step 3 above by clicking on the
Choose file
button. -
Set the
ID
value todct_signing_key
-
Press the
OK
button.
-
From the Jenkins homepage Create a new Pipeline job called
ci_dc18_pipeline
. Copy and paste the below pipeline script into the Pipeline Script window at the end of the job:pipeline { agent any environment { APP_NAME = "${env.JOB_BASE_NAME}" BUILD_DATE = sh (returnStdout: true, script: "date -u +'%Y-%m-%dT%H:%M:%SZ'").trim() DTR_DOMAIN = "<DTR_DOMAIN>" DTR_URL = "https://${DTR_DOMAIN}" SHORTREV = '' TAG = '' VERSION = '' } stages { stage ('Login to DTR') { steps { sh "docker login ${DTR_URL} -u admin -p admin1234" } } stage ('Tag image') { steps { sh """ docker image pull alpine docker image tag alpine ${DTR_DOMAIN}/ci/dc18_build:alpine_jenkins_${env.BUILD_NUMBER} docker images """ } } stage ('Push image to DTR') { steps { sh """ docker image push ${DTR_DOMAIN}/ci/dc18_build:alpine_jenkins_${env.BUILD_NUMBER} docker image rm ${DTR_DOMAIN}/ci/dc18_build:alpine_jenkins_${env.BUILD_NUMBER} """ } } } }
Remember to change the value for <DTR_DOMAIN> to your DTR Domain value. Save the job.
-
Create a new Pipeline job called
ci_dc18_pipeline_sign
. Under theBuild Triggers
section check the box next toGeneric Webhook Trigger
which will enable you to enter some details about the trigger.In the
Post content parameters
section set theVariable
value torequestPayload
, set theExpression
value to$
and select the radio button forJSONPath
.In the
Token
section set the value toadmin1234
.Copy and paste the below pipeline script into the Pipeline Script window at the end of the job.
def payload = new groovy.json.JsonSlurperClassic().parseText(requestPayload) def skipRemainingStages = false pipeline { agent any environment { DTR_DOMAIN = "<DTR_DOMAIN>" DTR_URL = "https://${DTR_DOMAIN}" PROMOTED_AT = "${payload.contents.promotedAt}" SOURCE_IMAGE = "${payload.contents.sourceRepository}" SOURCE_TAG = "${payload.contents.sourceTag}" TARGET_IMAGE = "${payload.contents.targetRepository}" TARGET_TAG = "${payload.contents.targetTag}" } stages { stage('Validate Webhook Contents') { steps { script { println "The Promoted At time is: ${PROMOTED_AT}" if ("${PROMOTED_AT}" == "0001-01-01T00:00:00Z") { currentBuild.result = 'SUCCESS' println "Setting skipRemainingStages to true as promotedAt value is 0001-01-01T00:00:00Z" skipRemainingStages = true return } } } } stage('Setup Docker Config') { when { expression { !skipRemainingStages } } steps { withCredentials([[$class: 'FileBinding', credentialsId: 'dct_signing_key', variable: 'DCT_SIGNING_KEY']]) { sh 'mkdir -p ~/.docker/trust/private/' sh 'cp -p "$DCT_SIGNING_KEY" ~/.docker/trust/private/.' } } } stage ('Login to DTR') { when { expression { !skipRemainingStages } } steps { sh """ rm -fr ~/.docker/tls/$DTR_DOMAIN ~/.docker/tls mkdir ~/.docker/tls ~/.docker/tls/$DTR_DOMAIN curl -sSLk https://$DTR_DOMAIN/ca > ~/.docker/tls/$DTR_DOMAIN/ca.crt cat ~/.docker/tls/$DTR_DOMAIN/ca.crt docker login ${DTR_URL} -u admin -p admin1234 """ } } stage ('Pull image') { when { expression { !skipRemainingStages } } steps { sh """ docker image pull ${DTR_DOMAIN}/${TARGET_IMAGE}:${TARGET_TAG} docker images """ } } stage('Sign Image') { when { expression { !skipRemainingStages } } steps { withEnv(["DOCKER_CONTENT_TRUST=1", "DOCKER_CONTENT_TRUST_ROOT_PASSPHRASE=admin1234", "DOCKER_CONTENT_TRUST_REPOSITORY_PASSPHRASE=admin1234"]) { sh """ docker image tag ${DTR_DOMAIN}/${TARGET_IMAGE}:${TARGET_TAG} ${DTR_DOMAIN}/${TARGET_IMAGE}:${TARGET_TAG}-signed docker -D trust sign ${DTR_DOMAIN}/${TARGET_IMAGE}:${TARGET_TAG}-signed docker -D trust inspect ${DTR_DOMAIN}/${TARGET_IMAGE}:${TARGET_TAG}-signed """ } } } } post { always { sh """ docker image rm ${DTR_DOMAIN}/${TARGET_IMAGE}:${TARGET_TAG} --force docker image rm ${DTR_DOMAIN}/${TARGET_IMAGE}:${TARGET_TAG}-signed --force """ script { def summaryString = """\ Promotion Summary: Source Image Name: ${SOURCE_IMAGE}:${SOURCE_TAG} Target Image Name: ${TARGET_IMAGE}:${TARGET_TAG} Location: ${payload.location}""".stripIndent() currentBuild.displayName = "#${env.BUILD_NUMBER} - Triggered by PROMOTION webhook for ${SOURCE_IMAGE}:${SOURCE_TAG}" currentBuild.description = summaryString } } } }
Remember to change the value for <DTR_DOMAIN> to your DTR Domain value.
-
In the pipeline job
ci_dc18_pipeline_sign
we are making use of theJsonSlurperClassic
object which requires a script approval. Therefore we need to run this pipeline job outside of theGroovy Sandbox
. Make sure to uncheck the boxUse Groovy Sandbox
below the Pipeline Script window. Save the job
Now that we have our Jeknins pipeline jobs created we need to create a webhook in DTR so that we can trigger the signing job after the image has been promoted.
-
Navigate to DTR -->
Repostories
-->ci/dc18_build
-->Webhooks
. -
Click on the
New Webhook
button. -
Select
Image promoted from repository
as theNotification to receive
-
From
worker3
retrieve the DOCS_URL value -echo $DOCS_URL
<--worker3
-
Set the
Webhook URL
value to<DOCS_URL>:8080/generic-webhook-trigger/invoke?token=admin1234
Please replace <DOCS_URL> with your URL!
echo $DOCS_URL
<--worker3
-
Press the
Create
button
Now all the Jenkins and DTR setup has been done you can manually run the Jenkins job ci_dc18_pipeline
. This will cause the alpine image to be retagged and pushed to DTR. DTR will then scan the image and if there are 0 critical vulnerabilities it will promote the image into ci/dc18
. The webhook will then trigger and the 2nd Jenkins job ci_dc18_pipeline_sign
will start which will retag the image and then use the docker trust
command to sign the image and push it back into DTR.
In this workshop we were able to start deploying the basics of an Automated Secure Supply Chain. Hopefully with this foundation you can build your own organizations Secure Supply Chain!