RedHatTraining/rht-labs-docs.git

donal

2018-07-03 2533e01df4306abbd8b24a08a55c2ed8c788d210

commit \| author \| age
5d0992	1	# The Manual Menace
1173e5	2	> In this exercise learners will use Ansible to drive automated provisioning of Projects in OpenShift, Git, Jenkins and Nexus.
c951f7	3
7c832b	4	![automation-xkcd](https://imgs.xkcd.com/comics/automation.png)
D	5
	6	## Exercise Intro
	7	In this exercise we will use automation tooling to create Project namespaces for our `CI/CD` tooling along with the `dev` and `test` namespaces for our deployments to live. We do this to manually using the OpenShift CLI; but as we go from cluster to cluster or project to project Dev and Ops teams often find themselves having to redo these tasks again and again. Configuring our cluster using code; we can easily store this in Git and repeat the process again and again. By minimising the time taken to do these repetitive tasks we can accelerate our ability to deliver value to our customers; working on the hard problems they face.
	8
	9	This exercise uses Ansible to drive the creation of the cluster content. In particular; we'll use a play book called the `OpenShift Applier`. Once the project namespace have been created; we will add some tools to support CI/CD such as Jenkins, Git and Nexus. These tools will be needed by later lessons to automate the build and deploy of our apps. Again; we will use OpenShift Templates and drive their creation in the cluster using Ansible. To prove things are working, finally we'll delete all our content and re-apply the inventory to re-create our clusters content.
5d0992	10
1173e5	11	#### Why is config-as-code important?
14cd2d	12	* Assurance - Prevents unwanted config changes from people making arbitrary changes to environments. No more Snowflake servers!
1173e5	13	* Traceability - Committing config as code means a user has approved and changes can be tracked.
14cd2d	14	* Phoenix Server - Burn it all to the ground and bring it back; exactly the way it was!
D	15
5d0992	16	_____
c951f7	17
D	18	## Learning Outcomes
	19	As a learner you will be able to
5d0992	20
D	21	1. Run the OpenShift Applier to automate creating cluster content
	22	1. Create and admin project namespaces in OpenShift
	23	1. Deploy commonly used applications to support the development process
c951f7	24
D	25	## Tools and Frameworks
	26
5d0992	27	* [GitLab](https://about.gitlab.com/) - Community driven Git server now with integrated DevOps Toolchain.
D	28	* [Nexus](https://www.sonatype.com/nexus-repository-sonatype) - Repository manager for storing lots of application types. Can also host `npm` and `Docker` registries.
	29	* [Jenkins](https://jenkins.io/) - OpenSource Build automation server. Highly customisable with plugins.
	30	* [Ansible](https://www.ansible.com/) - IT Automation tool used to provision and manage state of cloud and physical infrastructure.
dba30b	31	* [OpenShift Applier](https://github.com/redhat-cop/openshift-applier) - used to apply OpenShift objects to an OpenShift Cluster.
A	32
5d0992	33	## Big Picture
1173e5	34	> The Big Picture is our emerging architecture; starting with an empty cluster we populate it with projects and some ci/cd tooling.
5d0992	35
f52b28	36	![ds-messing-around.gif](../images/exercise1/ds-messing-around.gif)
2533e0	37
D	38	## The Practices
	39	[event-storming](https://rht-labs.github.io/practice-library/practices/impact-mapping/ ':include :type=iframe :')
f52b28	40
5d0992	41	_____
c951f7	42
D	43	## 10,000 Ft View
1173e5	44	> This exercise is aimed at the creation of the tooling that will be used to support the rest of the Exercises. The high-level goal is to create a collection of project namespaces and populate them with Git, Jenkins & Nexus.
5d0992	45
1173e5	46	If you're feeling confident and don't want to follow the step-by-step guide these high-level instructions should provide a challenge for you:
5d0992	47
2533e0	48	1. Clone the repo `https://github.com/rht-labs/enablement-ci-cd` which contains the scaffold of the project. Ensure you get all remote branches.
3558ae	49
5d0992	50	2. Create `<your-name>-ci-cd`, `<your-name>-dev` and `<your-name>-test` project namespaces using the inventory and run them with the OpenShift Applier to populate the cluster
da614f	51
2533e0	52	3. Use the templates provided to create build of the jenkins-s2i. The templates are in `exercise1/jenkins-s2i`
3558ae	53
2533e0	54	4. Use the templates provided to create build and deployment configs in `<your-name>-ci-cd` for. Templates are on a branch called `exercise1/git-nexus` && `exercise1/jenkins`:
5d0992	55	* Nexus
D	56	* GitLab
1173e5	57	* Jenkins (using an s2i to pre-configure Jenkins)
3558ae	58
2533e0	59	5. Commit your `enablement-ci-cd` repository to the GitLab Instance you've created
3558ae	60
2533e0	61	6. Burn it all down and re-apply your inventory proving config-as-code works.
c951f7	62
D	63	## Step by Step Instructions
bc2e43	64	> This is a structured guide with references to exact filenames and explanations.
c951f7	65
bc2e43	66	### Part 1 - Create OpenShift Projects
de8ebb	67	> _Using the OpenShift Applier, we will add new project namespaces to the cluster which will be used throughout the exercise._
D	68
33c738	69	3. In this course three different git projects will be created. To setup your local machine for each of these, create a new folder on the terminal in the root of your HOME directory for convenience. To do this, open a new Terminal session and create the new folder using the following command (new terminal sessions will start in your HOME dir).
bc2e43	70	```bash
33c738	71	mkdir -p ~/innovation-labs && cd ~/innovation-labs
e7c877	72	```
f5f1ff	73	<p class="tip">
D	74	NOTE - If you do not want to have this folder at the root of your home dir that's fine, just ensure any parent directories of this `innovation-labs` folder do NOT have any spaces in them as it breaks Ansible in later labs...
	75	</p>
	76
	77	3. Clone the scaffold project to your local machine's `innovation-labs` folder and pull all remote branches for use in later exercises. Note - this may error saying `fatal: A branch named 'develop' already exists.` but it can be ignored
	78	```bash
	79	git clone https://github.com/rht-labs/enablement-ci-cd && cd enablement-ci-cd
e7c877	80	```
f5f1ff	81	```bash
D	82	./git-pull-all.sh
c951f7	83	```
D	84
f5f1ff	85	3. Open the `innovation-labs` folder in VSCode (or your favourite editor). The project is laid out as follows
bc2e43	86	```
D	87	.
	88	├── README.md
62db52	89	├── apply.yml
bc2e43	90	├── docker
D	91	├── inventory
62db52	92	│ ├── host_vars
D	93	│ │ ├── ci-cd-tooling.yml
	94	│ │ └── projects-and-policies.yml
	95	│ └── hosts
bc2e43	96	├── jenkins-s2i
D	97	├── params
62db52	98	│ └── project-requests-ci-cd
bc2e43	99	├── requirements.yml
D	100	└── templates
62db52	101	└── project-requests.yml
bc2e43	102	```
D	103	* `docker` folder contains our jenkins-slave images that will be used by the builds.
	104	* `jenkins-s2i` contains the configuration and plugins we want to bring jenkins to life with
	105	* `params` houses the variables we will load the templates with
	106	* `templates` is a collection of OpenShift templates
62db52	107	* `inventory/host_vars/*.yml` is the collection of objects we want to insert into the cluster.
bc2e43	108	* `requirements.yml` is a manifest which contains the ansible modules needed to run the playbook
62db52	109	* `apply.yml` is a playbook that sets up some variables and runs the OpenShift Applier role.
bc2e43	110
1173e5	111	3. Open the `apply.yml` file in the root of the project. Update the namespace variables by replacing the `<YOUR_NAME>` with your name or initials. Don't use uppercase or special characters. For example; my name is Dónal so I've created:
62db52	112	```yaml
e6805f	113	hosts: "{{ target }}"
62db52	114	vars:
D	115	ci_cd_namespace: donal-ci-cd
	116	dev_namespace: donal-dev
	117	test_namespace: donal-test
e6805f	118	tasks:
62db52	119	```
e6805f	120	<p class="tip">
D	121	NOTE - yaml is indentation sensitive so keep things lined up properly!
	122	</p>
62db52	123
D	124	3. Open the `inventory/host_vars/projects-and-policies.yml` file; you should see some variables setup already to create the `<YOUR_NAME>-ci-cd` namespace. This object is passed to the OpenShift Applier to call the `templates/project-requests.yml` template with the `params/project-requests-ci-cd` parameters. We will add some additional content here but first let's explore the parameters and the template
	125
1173e5	126	3. Open the `params/project-requests-ci-cd` and replace the `<YOUR_NAME>` with your name to create the corresponding projects in the cluster.
ff1bd7	127	![new-item](../images/exercise1/ci-cd-project-namespace.png)
bc2e43	128
1173e5	129	3. Let's add two more params files to pass to our template to be able to create a `dev` and `test` project.
CM	130	* Create another two params files `params/project-requests-dev` & `params/project-requests-test`. On the terminal run
da614f	131	```bash
f5f1ff	132	touch params/project-requests-dev params/project-requests-test
da614f	133	```
f5f1ff	134	* In your editor; Open `params/project-requests-dev` and add the following by substituting `<YOUR_NAME>` accordingly
62db52	135	```
D	136	NAMESPACE=<YOUR_NAME>-dev
	137	NAMESPACE_DISPLAY_NAME=<YOUR-NAME> Dev
	138	```
f5f1ff	139	* In your editor; Open `params/project-requests-test` and add the following by substituting `<YOUR_NAME>` accordingly
62db52	140	```
D	141	NAMESPACE=<YOUR_NAME>-test
	142	NAMESPACE_DISPLAY_NAME=<YOUR-NAME> Test
	143	```
bc2e43	144
62db52	145	3. In the `inventory/host_vars/projects-and-policies.yml` file; add the new objects for the projects you want to create (dev & test) by adding another object to the content array for each. You can copy and paste them from the `ci-cd` example and update them accordingly. If you do this; remember to change the params file! e.g.
bc2e43	146	```yaml
62db52	147	- name: "{{ dev_namespace }}"
D	148	template: "{{ playbook_dir }}/templates/project-requests.yml"
ff1bd7	149	template_action: create
62db52	150	params: "{{ playbook_dir }}/params/project-requests-dev"
ff1bd7	151	tags:
D	152	- projects
62db52	153	- name: "{{ test_namespace }}"
D	154	template: "{{ playbook_dir }}/templates/project-requests.yml"
ff1bd7	155	template_action: create
62db52	156	params: "{{ playbook_dir }}/params/project-requests-test"
ff1bd7	157	tags:
D	158	- projects
bc2e43	159	```
ff1bd7	160	![project-request-yaml](../images/exercise1/project-request-yml.png)
bc2e43	161
D	162	3. With the configuration in place; install the OpenShift Applier dependency
	163	```bash
f5f1ff	164	ansible-galaxy install -r requirements.yml --roles-path=roles
bc2e43	165	```
D	166
1173e5	167	3. Apply the inventory by logging into OpenShift on the terminal and running the playbook as follows (<CLUSTER_URL> should be replaced with the one you've been sent as shown below). Accept any insecure connection warning 👍:
bc2e43	168	```bash
0d4d53	169	oc login https://console.lader.rht-labs.com
f5f1ff	170	```
D	171	```bash
	172	ansible-playbook apply.yml -i inventory/ -e target=bootstrap
62db52	173	```
D	174	where the `-e target=bootstrap` is passing an additional variable specifying that we run the `bootstrap` inventory
bc2e43	175
0d4d53	176	3. Once successful you should see an output similar to this (Cow's not included): ![playbook-success](../images/exercise1/play-book-success.png)
bc2e43	177
1173e5	178	3. You can check to see the projects have been created successfully by running
e6805f	179	```bash
f5f1ff	180	oc projects
e6805f	181	```
D	182	![project-success](../images/exercise1/project-success.png)
	183
f5f1ff	184	### Part 2 - Nexus
3f16e0	185	> _Now that we have our Projects setup; we can start to populate them with Apps to be used in our dev lifecycle_
bc2e43	186
3558ae	187	4. In the `enablement-ci-cd` repo, checkout the templates for Nexus by running
3f16e0	188	```bash
f5f1ff	189	git checkout exercise1/git-nexus templates/nexus.yml
3558ae	190	```
f79b6f	191	The template contains all the things needed to setup a persistent nexus server, exposing a service and route while also creating the persistent volume needed. Have a read through the template; at the bottom you'll see a collection of parameters we will pass to the template.
3558ae	192
1173e5	193	4. Add some parameters for running the template by creating a new file in the `params` directory.
3558ae	194	```bash
f5f1ff	195	touch params/nexus
3f16e0	196	```
D	197
90412a	198	4. The essential params to include in this file are:
3558ae	199	```bash
D	200	VOLUME_CAPACITY=5Gi
84a614	201	MEMORY_LIMIT=1Gi
3558ae	202	```
D	203
8894bf	204	4. Create a new object in the inventory variables `inventory/host_vars/ci-cd-tooling.yml` called `ci-cd-tooling` and populate its `content` is as follows
62db52	205
3558ae	206	```yaml
62db52	207	---
D	208	ansible_connection: local
	209	openshift_cluster_content:
	210	- object: ci-cd-tooling
	211	content:
f9e1bc	212	- name: "nexus"
D	213	namespace: "{{ ci_cd_namespace }}"
	214	template: "{{ playbook_dir }}/templates/nexus.yml"
	215	params: "{{ playbook_dir }}/params/nexus"
	216	tags:
	217	- nexus
3558ae	218	```
ff1bd7	219	![ci-cd-deployments-yml](../images/exercise1/ci-cd-deployments-yml.png)
3558ae	220
8894bf	221	4. Run the OpenShift applier, specifying the tag `nexus` to speed up its execution (`-e target=tools` is to run the other inventory).
3558ae	222	```bash
f5f1ff	223	ansible-playbook apply.yml -e target=tools \
3558ae	224	-i inventory/ \
ff1bd7	225	-e "filter_tags=nexus"
3558ae	226	```
D	227
b47510	228	4. Once successful; login to the cluster through the browser (using cluster URL) and navigate to the `<YOUR_NAME>-ci-cd`. You should see Nexus up and running. You can login with default credentials (admin / admin123) ![nexus-up-and-running](../images/exercise1/nexus-up-and-running.png)
3558ae	229
f5f1ff	230	### Part 3 - GitLab
D	231
1173e5	232	#### 3a - GitLab install
b43054	233	<p class="tip">
f5f1ff	234	NOTE - This section may already have been completed for you, please check with your tutor. If this is the case, skip to section 3b "Commit CI/CD" below to add your code to GitLab.
b43054	235	</p>
D	236
f79b6f	237	4. Now let's do the same thing for GitLab to get it up and running. Checkout the template and params provided by running
3558ae	238	```bash
f5f1ff	239	git checkout exercise1/git-nexus templates/gitlab.yml params/gitlab
1173e5	240	```
3558ae	241	Explore the template; it contains the PVC, buildConfig and services. The DeploymentConfig is made up of these apps
D	242	- Redis (3.2.3)
	243	- PostgreSQL (9.4)
	244	- GitLab CE (v10.2.3)
	245
b47510	246	4. Open the `params/gitlab` file and complete the following params
RH	247	<p class="tip">
	248	Note - The values here for the LDAP and BIND credentials will be provided by your tutor.
	249	</p>
3558ae	250	```
D	251	LDAP_BIND_DN=uid=<BIND_USER>,ou=People,dc=<YOUR_DOMAIN>,dc=com
	252	LDAP_USER_FILTER=(memberof=CN=YourGroup,OU=Users,DC=<YOUR_DOMAIN>,DC=com)
	253	LDAP_PASSWORD=<BIND_USER_PASSWORD>
	254	LDAP_HOST=<LDAP_HOST>
	255	LDAP_BASE=ou=People,dc=<YOUR_DOMAIN>,dc=com
	256	LDAP_LABEL="<LDAP_DESCRIPTION>"
	257	GITLAB_ROOT_PASSWORD=<GITLAB_ROOT_USER_PASSWORD>
	258	GITLAB_DATA_VOL_SIZE=2Gi
	259	POSTGRESQL_VOL_SIZE=1Gi
	260	APPLICATION_HOSTNAME=<GITLAB_URL>
c41b51	261	NAMESPACE=<YOUR_NAME>-ci-cd
3558ae	262	```
D	263	where the following need to be replaced by actual values:
	264	* `<BIND_USER>` is the user used to query the LDAP
	265	* `<BIND_USER_PASSWORD>` is the password used when querying the LDAP
	266	* `<YOUR_DOMAIN>` is the domain the LDAP is hosted on
	267	* `<LDAP_HOST>` is fqdn of the LDAP server
1173e5	268	* `<LDAP_DESCRIPTION>` is the description to be used on the sign-in header for GitLab e.g. "Name LDAP Login"
CM	269	* `<GITLAB_ROOT_USER_PASSWORD>` is the root user for GOD access on the GitLab instance e.g. password123
3558ae	270	* `<GITLAB_URL>` is the endpoint for gitlab. It will take the form `gitlab-<YOUR_NAME>-ci-cd.apps.<ENV_ID>.<YOUR_DOMAIN>.com`
D	271
62db52	272	4. Create another object in the inventory `inventory/host_vars/ci-cd-tooling.yml` file to run the build & deploy of this template. Add the following and update the `namespace:` accordingly
3558ae	273	```yaml
ff1bd7	274	- name: "gitlab"
62db52	275	namespace: "{{ ci_cd_namespace }}"
D	276	template: "{{ playbook_dir }}/templates/gitlab.yml"
	277	params: "{{ playbook_dir }}/params/gitlab"
ff1bd7	278	tags:
D	279	- gitlab
3558ae	280	```
D	281
8894bf	282	4. Run the OpenShift applier, specifying the tag `gitlab` to speed up its execution.
3558ae	283	```bash
f5f1ff	284	ansible-playbook apply.yml -e target=tools \
3558ae	285	-i inventory/ \
ff1bd7	286	-e "filter_tags=gitlab"
3558ae	287	```
D	288
ff1bd7	289	4. Once successful; login to the cluster and navigate to the `<YOUR_NAME>-ci-cd`. You should see GitLab up and running. ![gitlab-up-and-running](../images/exercise1/gitlab-up-and-running.png)
f5f1ff	290
D	291	#### 3b - Commit CI/CD
c41b51	292
1173e5	293	4. Navigate to GitLab (if you have just skipped straight to this step; ask your tutor for the URL). You can login using your cluster credentials using the LDAP tab
ff1bd7	294	![gitlab-ui](../images/exercise1/gitlab-ui.png)
c41b51	295
f9e1bc	296	4. Once logged in create a new project called `enablement-ci-cd` and mark it as internal. Once created; copy out the `git url` for use on the next step.
ff1bd7	297	![gitlab-new-project](../images/exercise1/gitlab-new-project.png)
D	298	<p class="tip">
de8ebb	299	Note - we would not normally make the project under your name but create an group and add the project there on residency but for simplicity of the exercise we'll do that here
ff1bd7	300	</p>
D	301
f5f1ff	302	4. If you have not used Git before; you may need to tell Git who you are and what your email is before we commit. Run the following commands, substitution your email and "Your Name". If you've done this before move on to the next step.
ff1bd7	303	```bash
f5f1ff	304	git config --global user.email "yourname@mail.com"
ff1bd7	305	```
f5f1ff	306	```bash
D	307	git config --global user.name "Your Name"
	308	```
	309
1173e5	310	4. Commit your local project to this new remote by first removing the existing origin (github) where the Ansible project was cloned from in the first steps. Remember to substitute `<GIT_URL>` accordingly with the one created for your `enablement-ci-cd` repository a moment ago.
f5f1ff	311	```bash
D	312	git remote set-url origin <GIT_URL>
	313	```
	314	```bash
	315	git add .
	316	```
	317	```bash
	318	git commit -m "Adding git and nexus config"
	319	```
	320	```bash
	321	git push -u origin --all
	322	```
	323
6c0958	324	### Part 4 MongoDB for CI tests
0d4d53	325	> In order to run our API tests in CI in later labs; we need there to be a MongoDB available for executing our tests. As this is part of our CI/CD Lifecycle; we will add it now.
D	326
	327	4. In our `enablement-ci-cd` repo; checkout the mongo templates as shown below to bring in the template and params. The mongodb template we're using is the same as the one for our `todolist-fe` created in previous exercise.
	328	```bash
d43bf4	329	git checkout exercise1/mongodb params/mongodb templates/mongodb.yml
0d4d53	330	```
D	331
1173e5	332	4. Open `enablement-ci-cd` in your favourite editor. Edit the `inventory/host_vars/ci-cd-tooling.yml` to include a new object for our mongodb as shown below. This item can be added below the Jenkins slave in the `ci-cd-tooling` section.
0d4d53	333	```yaml
D	334	- name: "jenkins-mongodb"
	335	namespace: "{{ ci_cd_namespace }}"
	336	template: "{{ playbook_dir }}/templates/mongodb.yml"
	337	params: "{{ playbook_dir }}/params/mongodb"
	338	tags:
	339	- mongodb
	340	```
d43bf4	341	![jenkins-mongo](../images/exercise1/jenkins-mongo.png)
0d4d53	342
D	343	4. Git commit your updates to the inventory to git for traceability.
	344	```bash
	345	git add .
	346	```
	347	```bash
	348	git commit -m "ADD - mongodb for use in the pipeline"
	349	```
	350	```bash
	351	git push
	352	```
	353
1173e5	354	4. Apply this change as done previously using Ansible. The deployment can be validated by going to your `<YOUR_NAME>-ci-cd` namespace and checking if it is there!
0d4d53	355	```bash
D	356	ansible-playbook apply.yml -e target=tools \
	357	-i inventory/ \
	358	-e "filter_tags=mongodb"
	359	```
	360	![ocp-mongo](../images/exercise3/ocp-mongo.png)
	361
06e3b4	362	Note - When making changes to enablement-ci-cd you should frequently commit the changes to git.
bc2e43	363
6c0958	364	### Part 5 - Jenkins & s2i
de8ebb	365	> _Create a build and deployment config for Jenkins. Add new configuration and plugins to the OCP Stock Jenkins using s2i_
bc2e43	366
ff1bd7	367	5. Add the Jenkins Build & Deployment configs to the `enablement-ci-cd` repo by merging the contents `exercise1/jenkins` in
D	368	```bash
f5f1ff	369	git checkout exercise1/jenkins templates/jenkins.yml
ff1bd7	370	```
1173e5	371	The Jenkins template is essentially the standard persistent Jenkins one with OpenShift.
ff1bd7	372
2e44a7	373	5. As before; create a new set of params by creating a `params/jenkins` file and adding some overrides to the template and updating the `<YOUR_NAME>` value accordingly.
D	374	```
84a614	375	MEMORY_LIMIT=3Gi
f54f70	376	VOLUME_CAPACITY=10Gi
ff1bd7	377	JVM_ARCH=x86_64
D	378	NAMESPACE=<YOUR_NAME>-ci-cd
	379	JENKINS_OPTS=--sessionTimeout=720
	380	```
62db52	381
1173e5	382	5. Add a `jenkins` variable to the Ansible inventory underneath the jenkins-mongo (and git if you have it) in `inventory/host_vars/ci-cd-tooling.yml`.
ff1bd7	383	```yaml
D	384	- name: "jenkins"
62db52	385	namespace: "{{ ci_cd_namespace }}"
D	386	template: "{{ playbook_dir }}/templates/jenkins.yml"
	387	params: "{{ playbook_dir }}/params/jenkins"
ff1bd7	388	tags:
D	389	- jenkins
	390	```
f79b6f	391	This configuration, if applied now, will create the deployment configuration needed for Jenkins but the `${NAMESPACE}:${JENKINS_IMAGE_STREAM_TAG}` in the template won't exist yet.
ff1bd7	392
1173e5	393	5. To create this image we will take the supported OpenShift Jenkins Image and bake into it some extra configuration using an [s2i](https://github.com/openshift/source-to-image) builder image. More information on Jenkins s2i is found on the [openshift/jenkins](https://github.com/openshift/jenkins#installing-using-s2i-build) GitHub page. To create an s2i configuration for Jenkins, check out the pre-canned configuration source in the `enablement-ci-cd` repo
ff1bd7	394	```bash
f5f1ff	395	git checkout exercise1/jenkins-s2i jenkins-s2i
ff1bd7	396	```
1173e5	397	The structure of the Jenkins s2i config is
ff1bd7	398	```
D	399	jenkins-s2i
	400	├── README.md
	401	├── configuration
	402	│ ├── build-failure-analyzer.xml
	403	│ ├── init.groovy
	404	│ ├── jenkins.plugins.slack.SlackNotifier.xml
2e44a7	405	│ ├── scriptApproval.xml
ff1bd7	406	│ └── jobs
D	407	│ └── seed-multibranch-job
	408	│ └── config.xml
	409	└── plugins.txt
	410	```
	411	* `plugins.txt` is a list of `pluginId:version` for Jenkins to pre-install when starting
	412	* `./configuration` contains content that is placed in `${JENKINS_HOME}`. A `config.xml` could be placed in here to control the bulk of Jenkins configuration.
	413	* `./configuration/jobs/*` contains job names and xml config that jenkins loads when starting. The seed job in there we will return to in later lessons.
de8ebb	414	* `build-failure-analyzer.xml` is config for the plugin to read the logs and look for key items based on a Regex. More on this in later lessons.
ff1bd7	415	* `init.groovy` contains a collection of settings jenkins configures itself with when launching
D	416
1173e5	417	5. Let's add a plugin for Jenkins to be started with, [green-balls](https://plugins.jenkins.io/greenballs). This simply changes the default `SUCCESS` status of Jenkins from Blue to Green. Append the `jenkins-s2i/plugins.txt` file with
ff1bd7	418	```txt
D	419	greenballs:1.15
1173e5	420	```
ff1bd7	421	![green-balls.png](../images/exercise1/green-balls.png)
D	422	Why does Jenkins have Blue Balls? More can be found [on reddit](https://www.reddit.com/r/programming/comments/4lu6q8/why_does_jenkins_have_blue_balls/) or the [jenkins blog](https://jenkins.io/blog/2012/03/13/why-does-jenkins-have-blue-balls/)
	423
1173e5	424	5. Before building and deploying the Jenkins s2i; add git credentials to it. These will be used by Jenkins to access the Git Repositories where our apps will be stored. We want Jenkins to be able to push tags to it so write access is required. There are a few ways we can do this; either adding them to the `template/jenkins.yml` as environment Variables and then including them in the `params/jenkins` file. We could also create a token in GitLab and use it as the source secret in the Jenkins template.
CM	425	But for simplicity just replace the `<USERNAME>` && `<PASSWORD>` in the `jenkins-s2i/configuration/init.groovy` with your LDAP credentials as seen below. This init file gets run when Jenkins launches and will setup the credentials for use in our Jobs in the next exercises
ff1bd7	426	```groovy
D	427	gitUsername = System.getenv("GIT_USERNAME") ?: "<USERNAME>"
	428	gitPassword = System.getenv("GIT_PASSWORD") ?: "<PASSWORD>"
	429	```
2e44a7	430	<p class="tip">
1173e5	431	Note in a residency we would not use your GitCredentials for pushing and pulling from Git, a service user would be created for this.
2e44a7	432	</p>
ff1bd7	433
832672	434	5. Checkout the params and the templates for the `jenkins-s2i`
2e44a7	435	```bash
f5f1ff	436	git checkout exercise1/jenkins-s2i params/jenkins-s2i templates/jenkins-s2i.yml
2e44a7	437	```
D	438
1173e5	439	5. Open `params/jenkins-s2i` and add the following content; replacing variables as appropriate.
ff1bd7	440	```
da614f	441	SOURCE_REPOSITORY_URL=<GIT_URL>
ff1bd7	442	NAME=jenkins
D	443	SOURCE_REPOSITORY_CONTEXT_DIR=jenkins-s2i
	444	IMAGE_STREAM_NAMESPACE=<YOUR_NAME>-ci-cd
da614f	445	SOURCE_REPOSITORY_USERNAME=<YOUR_LDAP_USERNAME>
D	446	SOURCE_REPOSITORY_PASSWORD=<YOUR_LDAP_PASSWORD>
ff1bd7	447	```
1173e5	448	where
da614f	449	* `<GIT_URL>` is the full path clone path of the repo where this project is stored (including the https && .git)
de8ebb	450	* `<YOUR_NAME>` is the prefix for your `-ci-cd` project.
D	451	* Explore some of the other parameters in `templates/jenkins-s2i.yml`
da614f	452	* `<YOUR_LDAP_USERNAME>` is the username builder pod will use to login and clone the repo with
D	453	* `<YOUR_LDAP_PASSWORD>` is the password the builder pod will use to authenticate and clone the repo using
de8ebb	454	<p class="tip">
da614f	455	Note in a residency we would not use your GitCredentials for pushing and pulling from Git, A service user would be created or a token generated.
de8ebb	456	</p>
ff1bd7	457
1173e5	458	5. Create a new object `ci-cd-builds` in the Ansible `inventory/host_vars/ci-cd-tooling.yml` to drive the s2i build configuration.
ff1bd7	459	```yaml
D	460	- object: ci-cd-builds
	461	content:
	462	- name: "jenkins-s2i"
62db52	463	namespace: "{{ ci_cd_namespace }}"
D	464	template: "{{ playbook_dir }}/templates/jenkins-s2i.yml"
	465	params: "{{ playbook_dir }}/params/jenkins-s2i"
ff1bd7	466	tags:
D	467	- jenkins
	468	```
	469
	470	5. Commit your code to your GitLab instance
	471	```bash
f5f1ff	472	git add .
D	473	```
	474	```bash
	475	git commit -m "Adding Jenkins and Jenkins s2i"
	476	```
	477	```bash
	478	git push
ff1bd7	479	```
D	480
1173e5	481	5. In order for Jenkins to be able to run `npm` builds and installs we must configure a `jenkins-build-slave` for Jenkins to use. This slave will be dynamically provisioned when we run a build. It needs to have NodeJS and npm installed in it. These slaves can take a time to build themselves so to speed up we have placed the slave within OpenShift and you can use the following commands to be able to use them in your project.
bce8a5	482	```bash
D	483	oc project <YOUR_NAME>-ci-cd
	484	```
5b1604	485	```bash
T	486	oc tag openshift/jenkins-slave-npm:latest jenkins-slave-npm:latest
	487	```
	488	```bash
	489	oc label is jenkins-slave-npm role=jenkins-slave
	490	```
bce8a5	491	This is pulling the container image into your namespace and then adding a label which will allow Jenkins to take notice of it. Don't worry if the label is already there and this last command fails!
5b1604	492
T	493	5. Now your code is commited, and you have bought in the Jenkins slave; run the OpenShift Applier to add the config to the cluster
ff1bd7	494	```bash
f5f1ff	495	ansible-playbook apply.yml -e target=tools \
ff1bd7	496	-i inventory/ \
D	497	-e "filter_tags=jenkins"
	498	```
	499
de8ebb	500	5. This will trigger a build of the s2i and when it's complete it will add an imagestream of `<YOUR_NAME>-ci-cd/jenkins:latest` to the project. The Deployment config should kick in and deploy the image once it arrives. You can follow the build of the s2i by going to the OpenShift console's project
D	501	![jenkins-s2i-log](../images/exercise1/jenkins-s2i-log.png)
bc2e43	502
1173e5	503	5. When the Jenkins deployment has completed; login (using your OpenShift credentials) and accept the role permissions. You should now see a fairly empty Jenkins with just the seed job
3558ae	504
1173e5	505	### Part 6 - Jenkins Hello World
de8ebb	506	> _To test things are working end-to-end; create a hello world job that doesn't do much but proves we can pull code from git and that our balls are green._
D	507
	508	6. Log in to Jenkins and hit `New Item` ![new-item](../images/exercise1/new-item.png).
	509
e90e9c	510	6. Create a freestyle job called `hello-world` ![jenkins-new-hello-world](../images/exercise1/jenkins-new-hello-world.png).
de8ebb	511
f79b6f	512	6. On the Source Code Management tab; add your `enablement-ci-cd` git repo and hit the dropdown to add your credentials we baked into the s2i on previous steps ![jenkins-scm-git](../images/exercise1/jenkins-scm-git.png)
de8ebb	513
D	514	6. On the build tab add an Execute Shell step and fill it with `echo "Hello World"` ![jenkins-hello-world](../images/exercise1/jenkins-hello-world.png).
	515
1173e5	516	6. Run the build and we should see if pass successfully and with Green Balls! ![jenkins-green-balls](../images/exercise1/jenkins-green-balls.png)
de8ebb	517
6c0958	518	### Part 7 - Live, Die, Repeat
1173e5	519	> _In this section you will prove the infra as code is working by deleting your Cluster Content and recreating it all_
de8ebb	520
D	521	7. Commit your code to the new repo in GitLab
7c832b	522	```bash
f5f1ff	523	git add .
D	524	```
	525	```bash
	526	git commit -m "ADD - all ci/cd contents"
	527	```
	528	```bash
	529	git push
7c832b	530	```
de8ebb	531
D	532	7. Burn your OCP content to the ground
7c832b	533	```bash
f5f1ff	534	oc delete project <YOUR_NAME>-ci-cd
D	535	```
	536	```bash
	537	oc delete project <YOUR_NAME>-dev
	538	```
	539	```bash
	540	oc delete project <YOUR_NAME>-test
7c832b	541	```
de8ebb	542
da614f	543	7. Check to see the projects that were marked for deletion are removed.
D	544	```bash
f5f1ff	545	oc get projects \| egrep '<YOUR_NAME>-ci-cd\|<YOUR_NAME>-dev\|<YOUR_NAME>-test'
da614f	546	```
D	547
7c832b	548	7. Re-apply the inventory to re-create it all!
D	549	```bash
0d4d53	550	oc login https://console.lader.rht-labs.com
f5f1ff	551	```
D	552	```bash
	553	ansible-playbook apply.yml -i inventory/ -e target=bootstrap
	554	```
	555	```bash
	556	ansible-playbook apply.yml -i inventory/ -e target=tools
7c832b	557	```
c951f7	558
5d0992	559	_____
D	560
c951f7	561	## Extension Tasks
de8ebb	562	> _Ideas for go-getters. Advanced topic for doers to get on with if they finish early. These will usually not have a solution and are provided for additional scope._
c951f7	563
0d4d53	564	- Install Cowsay for 100% more Ansible Fun!
3558ae	565	- Add more secure access for Nexus (ie not admin / admin123) using the automation to drive secret creation
ff1bd7	566	- Add a SonarQube persistent deployment to the `ci-cd-deployments` section.
D	567	- Add `jenkins.plugins.slack.SlackNotifier.xml` to `jenkins-s2i/configuration` to include URL of Slack for team build notifications and rebuild Jenkins S2I
c951f7	568
5d0992	569	_____
D	570
c951f7	571	## Additional Reading
7c832b	572	> List of links or other reading that might be of use / reference for the exercise
01c4da	573
RH	574	## Slide links
	575
	576	- [Intro](https://docs.google.com/presentation/d/1LsfAkH8GfIhulEoy_yd-usWBfDHnZEyQdNvYeTmAg4A/)
	577	- [Wrap-up](https://docs.google.com/presentation/d/1cfyJ6SHddZNbM61oz67r870rLYVKY335zGclXN2uLMY/)
5d4563	578	- [All Material](https://drive.google.com/drive/folders/13Bt4BXf9P2OB8VI4YQNcNONF1786dqOx)