RedHatTraining/rht-labs-docs.git

wmcdonald404

2018-06-08 853f0c525a5523182c0e6d4f9289b059b388c86e

commit \| author \| age
3772d9	1	# Attack of the Pipelines
0f4d08	2
867471	3	> In this exercise we will explore the sample TODO List application and create a pipeline in Jenkins to build and deploy our code.
3772d9	4
D	5	![jenkins-time](../images/exercise2/jenkins-time.jpg)
	6
78b569	7	## Exercise Intro
853f0c	8	This lesson is focused on creating a pipeline for our application. What is a pipeline? A pipeline is a series of steps or stages that takes our code from source to a deployed application. There can be many stages to a pipeline but a simple flow is to run a `build > bake > deploy`. Usually the first stage is triggered by something like a git commit. There could be many steps in each of these stages; such as compiling code, running tests and linting. All of these are done to try and drive up code quality and give more assurance that what is deployed is behaving as expected. In the exercise we will create Jenkins pipeline by configuring it through the UI, this will create an un-gated pathway to production
78b569	9
5e7a31	10	First we will explore the sample application and get it running locally. The sample app is a `todolist` app - the `Hello World` app of the modern day.
78b569	11
D	12	#### Why create pipelines
	13	* Assurance - drive up code quality and remove the need for dedicated deployment / release management teams
	14	* Freedom - allow developers to take ownership of how and when code gets built and shipped
2059d3	15	* Reliability - pipelines are a bit boring; they execute the same way each and every time they're run!
78b569	16	* A pathway to production:
D	17	- Puts the product in the hands of the customer quicker
	18	- Enables seamless and repeatable deploys
	19	- More prod like infrastructure increases assurance
	20	- “We have already done it” behavior de-risks go live
	21
5a16fd	22	_____
0f4d08	23
D	24	## Learning Outcomes
3772d9	25	As a learner by the end of this lesson you will be able to
D	26
	27	- Build and run the full stack of the TODO List application locally
	28	- Create an un-gated pipeline using the Jenkins UI for the backend and frontend
	29	- Add branching to the pipeline to target specific namespace
0f4d08	30
D	31	## Tools and Frameworks
8a47e6	32	> The following tools are used throughout this exercise. Familiarity with them is not required but knowing what they are may help. You will not need to install Vue or Mongodb they are taken care of by our `todolist` app.
0f4d08	33
D	34	1. [Jenkins](https://jenkins.io/) - OpenSource build automation server; highly customisable through plugins
3772d9	35	1. [NodeJS](https://nodejs.org/en/) - Node.js® is a JavaScript runtime built on Chrome's V8 JavaScript engine. Node.js uses an event-driven, non-blocking I/O model that makes it lightweight and efficient. Node.js' package ecosystem, npm, is the largest ecosystem of open source libraries in the world.
D	36	1. [MongoDB](https://www.mongodb.com/what-is-mongodb) - MongoDB stores data in flexible, JSON-like documents, meaning fields can vary from document to document and data structure can be changed over time
	37	1. [VueJS](https://vuejs.org/) - Vue (pronounced /vjuː/, like view) is a progressive framework for building user interfaces. It is designed from the ground up to be incrementally adoptable, and can easily scale between a library and a framework depending on different use cases. It consists of an approachable core library that focuses on the view layer only, and an ecosystem of supporting libraries that helps you tackle complexity in large Single-Page Applications.
0f4d08	38
5a16fd	39	## Big Picture
3772d9	40	> From the previous exercise; we created some supporting tooling needed by our app/
5a16fd	41
D	42	_____
0f4d08	43
D	44	## 10,000 Ft View
3772d9	45	> _This lab requires users to take the sample TODO app and create a build pipeline in Jenkins by clicking your way to success ending up with an app deployed to each of the namespaces created previously_
5a16fd	46
853f0c	47	2. Import the projects into your gitlab instance. See the README of each for build instructions
5a16fd	48
3772d9	49	2. Deploy a `MongoDB` using the provided template to all project namespace.
D	50
5e7a31	51	2. Create 2 pipelines with three stages (`build`, `bake`, `deploy`) in Jenkins for `develop` & `master` branches on the `todolist-fe` such that:
c3a934	52	* a `Build` job is responsible for compiling and packaging our code:
3772d9	53	1. Checkout from source code (`develop` for `<yourname>-dev` & `master` for `<yourname>-test`)
D	54	2. Install node dependencies and run a build / package
c3a934	55	3. Send the package to Nexus
D	56	4. Archive the workspace to persist the workspace in case of failure
	57	4. Tag the GitLab repository with the `${JOB_NAME}.${BUILD_NUMBER}` from Jenkins. This is our `${BUILD_TAG}` which will be used on downstream jobs.
	58	5. Trigger the `bake` job with the `${BUILD_TAG}` param
	59	* a `Bake` job should take the package and put it in a Linux Container
3772d9	60	1. Take an input of the previous jobs `${BUILD_TAG}` ie `${JOB_NAME}.${BUILD_NUMBER}`.
a9efee	61	2. Checkout the binary from Nexus and unzip its contents
W	62	3. Run an oc start-build of the App's BuildConfig and tag its imagestream with the provided `${BUILD_TAG}`
3772d9	63	4. Trigger a deploy job using the parameter `${BUILD_TAG}`
c3a934	64	* a `deploy` job should roll out the changes by updating the image tag in the DC:
3772d9	65	1. Take an input of the `${BUILD_TAG}`
D	66	2. Patch / set the DeploymentConfig to the image's `${BUILD_TAG}`
	67	3. Rollout the changes
	68	4. Verify the deployment
	69
	70	2. Repeat the above setup for the backend `todolist-fe`. TIP - use the copy config to speed things up!
	71
	72	2. Verify that both apps and the DB are talking to one another as expected.
0f4d08	73
D	74	## Step by Step Instructions
f2b1b4	75	> This is a fairly structured guide with references to exact filenames and sections of text to be added.
0f4d08	76
14268c	77	### Part 1 - Explore the Todo List App
f2b1b4	78	> _In this part of the exercise we will explore the sample application, become familiar with it locally before building and deploying in OCP Land_
5a16fd	79
752f2a	80	#### 1a Todolist-fe
256ca9	81
45eb81	82	2. Git clone the `todolist-fe` project to somewhere sensible and checkout the `develop` branch using the following.
f2b1b4	83	```bash
58480f	84	cd ~/innovation-labs
D	85	```
	86	```bash
ad8436	87	git clone https://github.com/rht-labs/todolist-fe.git
58480f	88	```
D	89	```bash
ad8436	90	cd todolist-fe
256ca9	91	```
ad8436	92	```bash
D	93	./git-pull-all.sh
58480f	94	```
D	95	```bash
	96	git checkout develop
0f4d08	97	```
f2b1b4	98
a9efee	99	2. Open up Gitlab and login. Create a new project (internal) in GitLab called `todolist-fe` to host your clone of the project and copy its remote address. ![new-gitlab-proj](../images/exercise2/new-gitlab-proj.png)
f2b1b4	100
D	101	2. In your local clone of the `todolist-fe`, remove the origin and add the GitLab origin by replacing `<YOUR_GIT_LAB_PROJECT>`. Push your app to GitLab
	102	```bash
ad8436	103	git remote set-url origin <YOUR_GIT_LAB_PROJECT>
486224	104	# verify the origin has been updated
ad8436	105	git remote -v
D	106	git push -u origin --all
0f4d08	107	```
f2b1b4	108
D	109	2. To get the app running locally; first check you've got node and npm installed
	110	```bash
ad8436	111	node -v
D	112	npm -v
f2b1b4	113	```
5e7a31	114	<p class="tip" >
f2b1b4	115	NOTE - If you are missing these dependencies; install them with ease using the [Node Version Manager](https://github.com/creationix/nvm)
D	116	</p>
	117	![node-version](../images/exercise2/node-version.png)
	118
853f0c	119	2. The `todolist-fe` has a package.json at the root of the project, this defines some configuration for the app including its dependencies, dev dependencies, scripts and other configuration. Install the app's dependencies
f2b1b4	120	```bash
ad8436	121	npm install
f2b1b4	122	```
D	123
514d1d	124	2. The `todolist-fe` has some scripts defined in the package.json at the root of the project. A snippet of the npm scripts are shown below. To run any of these scripts run `npm run <SCRIPT_NAME>`. Let's start by serving our application
f2b1b4	125	![npm-scripts](../images/exercise2/npm-scripts.png)
D	126	```bash
	127	npm run serve
	128	```
	129
486224	130	2. This will take sometime to execute; but once done it should open the browser for you displaying the homepage of the `todolist-fe` app.
f2b1b4	131	![todo-list-app](../images/exercise2/todo-list-app.png)
486224	132	* Click 'Todo' at the top of the home page to get to the above page.
514d1d	133	* The server hosting it live reloads; so if you make changes to your code base the app will live update
f2b1b4	134	* The Data you see in the screen is dummy / stubbed data. This is served up when there is no backend connection found
D	135
514d1d	136	2. The app is a todolist manager built in Vue.js. Play around with the App. You will notice when you add todos they appear and clear as expected. If you refresh the page you'll lose all additions. This is because there is no persistence layer. We will add one in the next part.
f2b1b4	137
D	138	3. The structure of the `todolist-fe` is as follows.
	139	```bash
	140	todolist-fe
	141	├── jest.config.js
	142	├── jsconfig.json
	143	├── nightwatch.config.js
	144	├── node_modules
	145	├── package.json
	146	├── public
	147	│ ├── favicon.ico
	148	│ ├── img
	149	│ ├── index.html
	150	│ └── manifest.json
	151	├── src
	152	│ ├── App.vue
	153	│ ├── assets
	154	│ ├── components
486224	155	│ │ └── *
f2b1b4	156	│ ├── config
D	157	│ ├── main.js
	158	│ ├── registerServiceWorker.js
	159	│ ├── router.js
	160	│ ├── scss
	161	│ ├── services
	162	│ ├── store
486224	163	│ │ └── *
f2b1b4	164	│ └── views
486224	165	│ └── *
f2b1b4	166	├── tests
D	167	│ ├── e2e
	168	│ └── unit
	169	└── vue.config.js
	170	```
	171	where the following are the important things:
	172	* `./src` is the main collection of files needed by the app. The entrypoint is the `main.js` which is used to load the root `App.vue` file.
	173	* `./node_modules` is where the dependencies are stored
867471	174	* `./test` contains our end-to-end tests and unit tests. More covered on these in later exercises.
486224	175	* `./src/components` contains small, lightweight reusable components for our app. For example, the `NewTodo` component which encapsulates the styling, logic and data for adding a new todo to our list
f2b1b4	176	* `./src/store` is the `vuex` files for managing application state and backend connectivity
D	177	* `./src/views` is the view containers; which are responsible for loading components and managing their interactions.
	178	* the `./src/router.js` controls routing logic. In our case the app only has one real endpoint.
5e7a31	179	* `./src/scss` contains custom SCSS used in the application.
f2b1b4	180	* `./*.js` is mostly config files for running and managing the app and the tests
0f4d08	181
45eb81	182	2. To prepare Nexus to host the binaries created by the frontend and backend builds we need to run a prepare-nexus script. Before we do this we need to export some variables and change `<YOUR_NAME>` accordingly in the below commands.
256ca9	183	```bash
12ca4a	184	export NEXUS_SERVICE_HOST=$(oc get route nexus --template='{{.spec.host}}' -n <YOUR_NAME>-ci-cd)
45eb81	185	```
D	186	```bash
256ca9	187	export NEXUS_SERVICE_PORT=80
45eb81	188	```
D	189	```bash
256ca9	190	npm run prepare-nexus
A	191	```
	192	<p class="tip">
	193	NOTE - This step in a residency would be automated by a more complex nexus deployment in the ci-cd project
	194	</p>
	195
752f2a	196	#### 1b Todolist-api
f9e311	197
3691a1	198	2. Now let's move on to the `todolist-api` and wire them together. As with the `todolist-fe` we need to clone the repo and add it to our GitLab in the cluster.
D	199	```bash
58480f	200	cd ~/innovation-labs
D	201	```
	202	```bash
ad8436	203	git clone https://github.com/rht-labs/todolist-api.git
58480f	204	```
D	205	```bash
ad8436	206	cd todolist-api
256ca9	207	```
ad8436	208	```bash
D	209	./git-pull-all.sh
58480f	210	```
D	211	```bash
	212	git checkout develop
3691a1	213	```
D	214
a9efee	215	2. On GitLab; create a new project (internal) called `todolist-api` to host your clone of the project and copy its remote address as you did for the previous repositories.
3691a1	216
D	217	2. In your local clone of the `todolist-api`, remove the origin and add the GitLab origin by replacing `<YOUR_GIT_LAB_PROJECT>`. Push your app to GitLab
	218	```bash
ad8436	219	git remote set-url origin <YOUR_GIT_LAB_PROJECT>
D	220	```
	221	```bash
	222	git push -u origin --all
3691a1	223	```
D	224
	225	2. Once pushed; explore the application. It is a NodeJS application with the Express.js framework and MongoDB for persistent storage. Same as before, the `package.json` defines most of the configuration etc. Install the dependencies
	226	```bash
ad8436	227	npm i
3691a1	228	```
D	229
	230	2. While the dependencies are being installed; explore the project structure.
	231	```bash
	232	todolist-api
	233	├── Dockerfile
	234	├── Gruntfile.js
	235	├── README.md
	236	├── node_modules
	237	├── package-lock.json
	238	├── package.json
	239	├── server
	240	│ ├── api
	241	│ │ └── todo
	242	│ ├── app.js
	243	│ ├── components
	244	│ │ └── errors
	245	│ ├── config
	246	│ │ ├── environment
	247	│ │ ├── express.js
	248	│ │ ├── local.env.sample.js
	249	│ │ └── seed.js
	250	│ ├── mocks
	251	│ │ ├── mock-routes-config.json
	252	│ │ ├── mock-routes.js
	253	│ │ └── mock-routes.spec.js
	254	│ ├── routes.js
	255	│ └── views
	256	│ └── 404.html
	257	└── tasks
	258	└── perf-test.js
	259	```
	260	where the following are the important things:
	261	* `./server` is the main collection of files needed by the app. The entrypoint is the `app.js`
	262	* `./node_modules` is where the dependencies are stored
5e7a31	263	* `./server/api` is where the api's controller, data model & unit test are stored.
3691a1	264	* `./server/mocks` is a mock server used for when there is no DB access
486224	265	* `./server/config` stores our Express JS config, header information and other middleware.
5e7a31	266	* `./server/config/environment` stores environment specific config; such as connectivity to backend services like MongoDB.
867471	267	* `./tasks` is a collection of additional `Grunt` tasks which will be used in later exercises
486224	268	* `Grunt` is a taskrunner for use with Node.JS projects
3691a1	269	* `package.json` contains the dependency list and a lot of very helpful scripts for managing the app lifecycle
D	270
1d9ebc	271	2. A snippet of the npm scripts are shown below. There are application start scripts, build and test items which will be used in the build. The ones for MongoDB are just provided for convenience and require Docker installed to execute.
3691a1	272	```json
D	273	"scripts": {
	274	"start": "node server/app.js",
	275	"dev": "./node_modules/.bin/grunt serve",
	276	"jshint": "./node_modules/.bin/grunt jshint",
	277	"clean": "rm -rf reports package-contents*",
	278	"package": "zip -r package-contents.zip package-contents",
	279	"test": "node_modules/.bin/nyc node_modules/.bin/mocha server/*/.spec.js --exit",
	280	"mongo" : "docker run -i -d --name mongo-local -p 27017:27017 mongo",
	281	"mongo:drop" : "npm run mongo:stop && docker rm mongo-local",
	282	"mongo:stop" : "docker stop mongo-local",
	283	"mongo:start" : "docker start mongo-local"
	284	},
f9e311	285	```
A	286
853f0c	287	2. To run the application; start a new instance of MongoDB by running the following. This will pull a mongodb image from Dockerhub and then start it for our API to connect to.
3691a1	288	```bash
ad8436	289	npm run mongo
3691a1	290	```
D	291	<p class="tip">
e8cd20	292	NOTE - `npm run mongo:drop` is used to completely remove the running container. `npm run mongo:stop` & `npm run mongo:start` will preserve data in the container
3691a1	293	</p>
D	294
	295	2. Fire up the `todolist-api` by running.
	296	```bash
ad8436	297	npm run start
3691a1	298	```
D	299	![node-app-started](../images/exercise2/node-app-started.png)
	300
486224	301	2. Check things are up and running by testing the API with a `curl`. The API should return some seeded data (stored in `server/config/seed.js`)
3691a1	302	```bash
ad8436	303	curl localhost:9000/api/todos
3691a1	304	```
D	305	```json
	306	[{
	307	"_id": "5ac8ff1fdfafb02138698948",
	308	"title": "Learn some stuff about MongoDB",
	309	"completed": false,
	310	"__v": 0
	311	},
	312	{
	313	"_id": "5ac8ff1fdfafb02138698949",
	314	"title": "Play with NodeJS",
	315	"completed": true,
	316	"__v": 0
	317	}]
	318	```
	319
486224	320	2. Now let's check out `todolist-fe` app by reloading the browser. We should now see our dummy front end data is replaced by the backend seed data. Adding new todos will add them in the backend, these will persist when the page is refreshed.
3691a1	321	![fullstack-app](../images/exercise2/fullstack-app.png)
D	322
5e7a31	323	### Part 2 - Add configs to cluster
14268c	324	> _In this exercise; we will use the OpenShift Applier to drive the creation of cluster content required by the app such as MongoDB and the Apps Build / Deploy Config_
273e4c	325
5e7a31	326	4. On your terminal navigate to the root of the `todolist-fe` application. The app contains a hidden folder called `.openshift-applier`. Move into this `.openshift-applier` directory and you should see a familiar looking directory structure for an Ansible playbook.
d98f40	327	```
D	328	.openshift-applier
	329	├── README.md
	330	├── apply.yml
	331	├── inventory
	332	│ ├── group_vars
	333	│ │ └── all.yml
	334	│ └── hosts
	335	├── params
	336	│ ├── build
	337	│ ├── dev
3f9666	338	│ ├── ocp-pipeline
d98f40	339	│ └── test
D	340	├── requirements.yml
	341	└── templates
3f9666	342	├── ocp-pipeline.yml
D	343	├── todolist-fe-build.yml
	344	└── todolist-fe-deploy.yml
d98f40	345	```
2310e7	346	with the following
5e7a31	347	* the `apply.yml` file is the entrypoint.
d98f40	348	* the `inventory` contains the objects to populate the cluster with.
D	349	* the `params` contains the variables we'll apply to the `templates`
14268c	350	* the `templates` required by the app. These include the Build, Deploy configs as well as the services, health checks, and other app definitions.
d98f40	351
5e7a31	352	4. There are a few updates to these manifests we need to make before applying the cluster content. In the `apply.yml` update the namespace `<YOUR_NAME>` variables accordingly.
d98f40	353	```yaml
D	354	ci_cd_namespace: donal-ci-cd
	355	dev_namespace: donal-dev
	356	test_namespace: donal-test
	357	```
	358
5e7a31	359	4. In the `params` folder update the `dev` and `test` files with the correct `<YOUR_NAME>` as you've done above. Example for the `dev` file:
d98f40	360	```bash
D	361	PIPELINES_NAMESPACE=donal-ci-cd
261f19	362	NAME=todolist-fe
d98f40	363	DEPLOYER_USER=jenkins
D	364	APP_TAG=latest
	365	NAMESPACE=donal-dev
	366	```
	367
14268c	368	4. With those changes in place we can now run the playbook. First install the `openshift-applier` dependency and then run the playbook (from the `.openshift-applier` directory). This will populate the cluster with all the config needed for the front end app.
d98f40	369	```bash
ad8436	370	ansible-galaxy install -r requirements.yml --roles-path=roles
D	371	```
	372	```bash
	373	ansible-playbook apply.yml -i inventory/
d98f40	374	```
69a4e4	375	![ansible-success](../images/exercise2/ansible-success.png)
d98f40	376
14268c	377	4. Once successful, `commit` and `push` your changes to gitlab.
3f9666	378	```bash
ad8436	379	git add .
D	380	```
	381	```bash
	382	git commit -m "UPDATE - change namespace vars to donal"
	383	```
	384	```bash
	385	git push
3f9666	386	```
14268c	387
45eb81	388	4. Back on your terminal navigate to the root of the `todolist-api` application. Open the `.openshift-applier` directory in your editor. The same layout as seen in `todolist-fe` should be visible with one noticeable difference; the api requires `MongoDB` to connect to at runtime.
261f19	389
D	390	4. In the `apply.yml` update the namespace `<YOUR_NAME>` variables accordingly. For example:
	391	```yaml
	392	ci_cd_namespace: donal-ci-cd
	393	dev_namespace: donal-dev
	394	test_namespace: donal-test
	395	```
	396
	397	4. In the `params` folder update the `dev` and `test` files with the correct `<YOUR_NAME>` as you've done above. Example for the `dev` file:
	398	```bash
	399	PIPELINES_NAMESPACE=donal-ci-cd
	400	NAME=todolist-api
	401	DEPLOYER_USER=jenkins
	402	APP_TAG=latest
	403	NAMESPACE=donal-dev
	404	```
	405
d362dc	406	4. Finally; run the Openshift Applier and install its dependencies to run the content into the cluster
261f19	407	```bash
ad8436	408	ansible-galaxy install -r requirements.yml --roles-path=roles
D	409	```
	410	```bash
	411	ansible-playbook apply.yml -i inventory/
261f19	412	```
273e4c	413
3f9666	414	4. Once successful, `commit` and `push` your changes to gitlab.
D	415	```bash
ad8436	416	git add .
D	417	```
	418	```bash
	419	git commit -m "UPDATE - change namespace vars to donal"
	420	```
	421	```bash
	422	git push
3f9666	423	```
176e08	424
3f9666	425	4. Validate the build and deploy configs have been created in Openshift by checking `<YOUR_NAME> CI-CD builds` for the `BuildConfigs`
D	426	![ocp-app-bc](../images/exercise2/ocp-app-bc.png)
	427
	428	4. Check `<YOUR_NAME>-dev` to see the deployment configs are in place
ee4a9b	429	![ocp-app-dc](../images/exercise2/ocp-app-dc.png)
176e08	430
5e7a31	431	### Part 3 - Build > Bake > Deploy
b15f06	432	> _In this exercise; we take what we have working locally and get it working in OpenShift_
273e4c	433
40ab32	434	This exercise will involve creating three stages (or items) in our pipeline, each of these is detailed below at a very high level. Move on to the next step to begin implementation.
D	435	* a build job is responsible for compiling and packaging our code:
	436	1. Checkout from source code (`develop` for `<yourname>-dev` & `master` for `<yourname>-test`)
	437	2. Install node dependencies and run a build / package
	438	3. Send the package to Nexus
	439	4. Archive the workspace to persist the workspace in case of failure
	440	4. Tag the GitLab repository with the `${JOB_NAME}.${BUILD_NUMBER}` from Jenkins. This is our `${BUILD_TAG}` which will be used on downstream jobs.
	441	5. Trigger the `bake` job with the `${BUILD_TAG}` param
	442	* a bake job should take the package and put it in a Linux Container
	443	1. Take an input of the previous jobs `${BUILD_TAG}` ie `${JOB_NAME}.${BUILD_NUMBER}`.
a9efee	444	2. Checkout the binary from Nexus and unzip its contents
W	445	3. Run an oc start-build of the App's BuildConfig and tag its imagestream with the provided `${BUILD_TAG}`
40ab32	446	4. Trigger a deploy job using the parameter `${BUILD_TAG}`
D	447	* a deploy job should roll out the changes by updating the image tag in the DC:
	448	1. Take an input of the `${BUILD_TAG}`
	449	2. Patch / set the DeploymentConfig to the image's `${BUILD_TAG}`
	450	3. Rollout the changes
	451	4. Verify the deployment
19df4d	452	* We will now go through these steps in detail.
273e4c	453
3437ff	454	#### 3a - Build
273e4c	455
261f19	456	5. With the BuildConfig and DeployConfig in place for both our apps (`-fe` & `-api`) from previous steps; Log into Jenkins and create a `New Item`. This is just jenkins speak for a new job configuration. ![new-item](../images/exercise2/new-item.png)
273e4c	457
caec0d	458	5. Name this job `dev-todolist-fe-build` and select `Freestyle Project`. All our jobs will take the form of `<ENV>-<APP_NAME>-<JOB_PURPOSE>`. ![freestyle-job](../images/exercise2/freestyle-job.png)
273e4c	459
853f0c	460	5. The page that loads is the Job Configuration page and it can be returned to at anytime from Jenkins. Let's start configuring our job. To conserve space; we will make sure Jenkins only keeps the last build's artifacts. Tick the `Discard old builds` checkbox, then `Advanced` and set `Max # of builds to keep with artifacts` to 1 as indicated below
1937a3	461	![keep-artifacts](../images/exercise2/keep-artifacts.png)
5a16fd	462
3437ff	463	5. Our NodeJS build needs to be run on the `jenkins-slave-npm` we bought in in the previous chapter. Specify this in the box labelled `Restrict where this project can be run` ![label-jenkins-slave](../images/exercise2/label-jenkins-slave.png)
0f4d08	464
19f0bd	465	5. On the Source Code Management tab, select the Git radio button, specify the endpoint for our GitLab `todolist-fe` Project and specify your credentials from the dropdown box. Set the Branch Specifier to `develop`. ![git-scm](../images/exercise2/git-scm.png)
0f4d08	466
dd060d	467	5. Scroll down to the Build Environment tab and select the `Color ANSI Console Output` checkbox ![ansi](../images/exercise2/ansi.png)
c3a934	468
19df4d	469	5. Move on to the Build section and select `Add build step`. From the dropdown select `Execute Shell`. On the box that appears; insert the following, to build package and deploy our app to Nexus:
c3a934	470	```bash
D	471	set -o xtrace
7a3088	472	npm install
D	473	npm run build:ci:dev
	474	npm run package
	475	npm run publish
c3a934	476	```
D	477	![build-step](../images/exercise2/build-step.png)
	478
dd060d	479	5. Scroll to the final section; the Post-build Actions. Add a new post-build action from the dropdown called `Archive the artifacts` and specify `**` in the box. This will zip the entire workspace and copy it back to Jenkins for inspection if needed. ![archive-artifacts](../images/exercise2/archive-artifacts.png)
c3a934	480
dd060d	481	5. On the Post-build Actions; Add another post-build action from the dropdown called `Git Publisher`. This is useful for tying the git check-in to the feature in your tracking tool to the built product.
c3a934	482	* Tick the box `Push Only If Build Succeeds`
5e7a31	483	* Add the Tag to push of
c3a934	484	```bash
D	485	${JOB_NAME}.${BUILD_NUMBER}
	486	```
	487	* Specify the commit message to be
	488	```bash
	489	Automated commit by jenkins from ${JOB_NAME}.${BUILD_NUMBER}
	490	```
19f0bd	491
A	492	* Check `Create New Tag` and set `Target remote name` to `origin`
c3a934	493	![git-publisher](../images/exercise2/git-publisher.png)
D	494
5e7a31	495	5. Finally; add the trigger for the next job in the pipeline. This is to trigger the bake job with the current build tag. Add another post-build action from the dropdown called `Trigger parameterized build on other projects`.
CM	496	* Set the project to build to be `dev-todolist-fe-bake`
	497	* Set the condition to be `Stable or unstable but not failed`.
	498	* Click Add Parameters dropdown and select Predefined parameters.
c3a934	499	* In the box, insert our BUILD_TAG as follows
D	500	```bash
	501	BUILD_TAG=${JOB_NAME}.${BUILD_NUMBER}
	502	```
	503	![param-trigger](../images/exercise2/param-trigger.png)
	504	<p class="tip">
eaf747	505	NOTE - Jenkins might say "No such project ‘dev-todolist-fe-bake’. Did you mean ...." at this point. Don't worry; it's because we have not created the next job yet.
c3a934	506	</p>
D	507
dd060d	508	5. Hit `save` which will take you to the job overview page - and that's it; our build phase is complete!
c3a934	509
3437ff	510	#### 3b - Bake
40ab32	511
dd060d	512	5. Next we will setup our bake phase; which is a little simpler. Go to Jenkins home and create another Freestyle Job (as before) called `dev-todolist-fe-bake`.
c3a934	513
19f0bd	514	5. This job will take in the BUILD_TAG from the previous one so check the `This project is parameterized` box on the General tab.
eaf747	515	* Add string parameter type
19f0bd	516	* set the Name to `BUILD_TAG`. This will be available to the job as an Enviroment Variable.
eaf747	517	* You can set `dev-todolist-fe-build.` as the default value for ease when triggering manually.
5e7a31	518	* The description is not required but a handy one for reference would be `${JOB_NAME}.${BUILD_NUMBER} of previous build e.g. dev-todolist-fe-build.1232`
363974	519	<p class="tip">
A	520	NOTE - Don't forget to include the `.` after `dev-todolist-fe-build` in the Default Value box.
	521	</p>
	522
eaf747	523	![param-trigger-bake](../images/exercise2/param-trigger-bake.png)
0f4d08	524
dd060d	525	5. This time set the `Restrict where this project can be run` label to `master`.
eaf747	526	<p class="tip">
363974	527	NOTE - `Master` is the default node that jobs run on. We don't want jenkins to execute the bake on any other nodes if the `master` is busy so it is always safer to specify it here.
eaf747	528	</p>
D	529
dd060d	530	5. There is no Git or SCM needed for this job so move down to the Build Environment and tick `Delete workspace before build starts`
eaf747	531
dd060d	532	5. Scroll down to the Build Environment tab and select the `Color ANSI Console Output` checkbox ![delete-ansi](../images/exercise2/delete-ansi.png)
eaf747	533
dd060d	534	5. Move on to the Build section and select `Add build step`. From the dropdown select `Execute Shell`. On the box the appears; insert the following, to pull the package from Nexus. We patch the BuildConfig with the Jenkins Tag to get traceablility from feature to source code to built item. Finally; the oc start-build command is run:
19f0bd	535	Remember to replace `<YOUR_NAME>` accordingly.
eaf747	536	```bash
D	537	#!/bin/bash
35ca14	538	curl -v -f \
D	539	http://admin:admin123@${NEXUS_SERVICE_HOST}:${NEXUS_SERVICE_PORT}/repository/zip/com/redhat/todolist/${BUILD_TAG}/package-contents.zip \
	540	-o package-contents.zip
eaf747	541	unzip package-contents.zip
8a47e6	542	oc project <YOUR_NAME>-ci-cd
eaf747	543	NAME=todolist-fe
62d4b9	544	oc patch bc ${NAME} -p "{\"spec\":{\"output\":{\"to\":{\"kind\":\"ImageStreamTag\",\"name\":\"${NAME}:${BUILD_TAG}\"}}}}"
eaf747	545	oc start-build ${NAME} --from-dir=package-contents/ --follow
D	546	```
	547	![bake-step](../images/exercise2/bake-step.png)
	548
dd060d	549	5. Finally; add the trigger for the next job in the pipeline. Add a post-build action from the dropdown called `Trigger parameterized build on other projects`.
eaf747	550	* Set the project to build to be `dev-todolist-fe-deploy`
D	551	* Set the condition to be `Stable`.
ac41ef	552	* Click Add Parameters dropdown and select `Current build parameters`. This will pass the `${BUILD_TAG}` to the downstream job which we will create next.
eaf747	553	![downstream-trigger-deploy](../images/exercise2/downstream-trigger-deploy.png)
D	554
dd060d	555	5. Hit save! That's our bake phase done! Finally; on to our deploy
eaf747	556
3437ff	557	#### 3c - Deploy
40ab32	558
19f0bd	559	5. Next we will setup our deploy phase. This job is very similar in setup to the bake phase so this time go to Jenkins home and create `dev-todolist-fe-deploy` Job but scroll to the bottom and Copy from `dev-todolist-fe-bake`.
dd060d	560	![copy-from](../images/exercise2/copy-from.png)
D	561
19f0bd	562	5. The only two differences between these jobs is the Build Step and there are no Post Build Actions. First to the Build tab and add the following to the shell box. The process for running the deploy is to tag the image created previously for use in the `ci-cd` namespace for use in the dev project. Then update the DeploymentConfig to use the Jenkins Tag which kicked the process off. Once successful; the changes are rolled out. Remember to change `<YOUR_NAME>` accordingly.
dd060d	563	```bash
D	564	#!/bin/bash
	565	set -o xtrace
	566	# VARS
19f0bd	567	PIPELINES_NAMESPACE=<YOUR_NAME>-ci-cd
A	568	NAMESPACE=<YOUR_NAME>-dev
dd060d	569	NAME=todolist-fe
D	570	oc project ${NAMESPACE}
	571	oc tag ${PIPELINES_NAMESPACE}/${NAME}:${BUILD_TAG} ${NAMESPACE}/${NAME}:${BUILD_TAG}
	572	oc set env dc ${NAME} NODE_ENV=dev
	573	oc set image dc/${NAME} ${NAME}=docker-registry.default.svc:5000/${NAMESPACE}/${NAME}:${BUILD_TAG}
	574	oc rollout latest dc/${NAME}
	575	```
	576	![deploy-step](../images/exercise2/deploy-step.png)
	577
a9efee	578	5. When a deployment has completed; OpenShift can verify its success. Add another step by clicking the `Add build Step` on the Build tab then `Verify OpenShift Deployment` including the following:
dd060d	579	* Set the Project to your `<YOUR_NAME>-dev`
D	580	* Set the DeploymentConfig to your app's name `todolist-fe`
	581	* Set the replica count to `1`
	582	![verify-deployment](../images/exercise2/verify-deployment.png)
	583
	584	5. Finally; delete the Post Build Action to trigger another job (by hitting the red X). Save the configuration. We're almost ready to run the pipeline!
	585
3437ff	586	#### 3d - Pipeline
40ab32	587
ac41ef	588	5. With our Jenkins setup in place; now move to our `todolist-fe` app's source code. We have to add our configuration to the frontend to tell it where the API layer will be hosted. Open the source in your favourite editor and navigate to `src/config/dev.js`.
D	589
45eb81	590	5. Update `<YOUR_NAME>` accordingly with the route where the Todo List API will live when it is deployed. The correct full URL can also be found on the OpenShift Console; if you copy it from there remember to append `/api/todos` to the URL. For example:
40ab32	591	![fe-dev-config](../images/exercise2/fe-dev-config.png)
D	592
5e7a31	593	5. Repeat this for `src/config/test.js` file. If you copy the URL from the previous step; change `dev` to `test`.
45eb81	594	For example:
D	595	![fe-test-config](../images/exercise2/fe-test-config.png)
	596
c9032c	597	5. With the config in place; commit your changes and push them to GitLab:
40ab32	598	```bash
ad8436	599	git add .
D	600	```
	601	```bash
	602	git commit -m "ADD config for api"
	603	```
	604	```bash
	605	git push
40ab32	606	```
D	607
8a47e6	608	5. Back on Jenkins; We can tie all the jobs in the pipeline together into a nice single view using the Build Pipeline view. Back on the Jenkins home screen Click the + beside the all tab on the top.
D	609	![add-view](../images/exercise2/add-view.png)
	610
853f0c	611	5. On the view that loads; Give the new view a sensible name like `dev-todolist-fe-pipeline` and select Build Pipeline View
8a47e6	612	![new-pipeline](../images/exercise2/new-pipeline.png)
dd060d	613
D	614	5. Set the Pipeline Flow's Inital Job to `dev-todolist-fe-build` and save.
	615	![pipeline-flow](../images/exercise2/pipeline-flow.png)
	616
8a47e6	617	5. You should now see the pipeline view. Run the pipeline by hitting run (you can move onto the next part while it is running as it may take some time).
204a7b	618	![dev-pipeline-view](../images/exercise2/dev-pipeline-view.jpeg)
dd060d	619
35ca14	620	6. To check the deployment in OpenShift; open the web console and go to your `dev` namespace. You should see the deployment was successful; hit the URL to open the app (the screenshot below has both apps deployed).
8a47e6	621	![ocp-deployment](../images/exercise2/ocp-deployment.png)
D	622
35ca14	623	6. If it has been a success we should see our dummyData. This is because there is no backend deployed, in later labs we will deploy the backend and the mongodb for persistence but to do this we will use Jenkins Pipeline as code.
436657	624	![no-backend-app](../images/exercise2/no-backend-app.png)
0f4d08	625
3437ff	626	### Part 4 - (Optional) GitLab Webhooks
b770c6	627	> _In this exercise we will link GitLab to Jenkins so that new build jobs are triggered on each push to the `develop` branch._
13e8fd	628
b770c6	629	<p class="tip" >
570732	630	NOTE - This section is optional! Git webhooks are useful but not needed for Enablement completion.
b770c6	631	</p>
D	632
853f0c	633	7. In order to allow GitLab to trigger Jenkins (because of the OpenShift Auth Plugin), we need to allow the `Anonymous` user triggered builds. Head to your Jenkins Dashboard and click on `Manage Jenkins` on the left hand side. Then scroll down and click `Configure Global Security`. Alternatively, type in `https://jenkins-<YOUR_NAME>-ci-cd.apps.some.domain.com/configureSecurity/` . You should see a screen like so:
f50a94	634	![jenkins-global-security](../images/exercise2/jenkins-global-security.png)
A	635
	636	7. Scroll down to the `Authorization` section and allow `Anonymous` to create jobs. Do this by navigating through the matrix of checkboxes and check `Build` and `Cancel` under the Job heading. Leave all other user behaviour as is. Anonymous is the user that GitLab will act as so this allows the WebHook to trigger builds. (The screenshot has been cropped to bring Job further to the left.) Hit `Save` or `Apply`.
	637	![jenkins-anon-permissions](../images/exercise2/jenkins-anon-permissions.png)
	638
30f5d9	639	7. Go to your `dev-todolist-fe-build` and head to the `configure` section (`https://jenkins-<YOUR_NAME>-ci-cd.apps.some.domain.com/job/dev-todolist-fe-build/configure`). Scroll down to the `Build Triggers` section and check the `Build when a change is pushed to GitLab` box. Leave all the other settings as they are but copy the `GitLab webhook URL`. `https://jenkins-<YOUR_NAME>-ci-cd.apps.some.domain.com/project/dev-todolist-fe-build`. Remember to Save and Apply this change.
c50c7b	640	![jenkins-build-triggers-gitlab](../images/exercise2/jenkins-build-triggers-gitlab.png)
13e8fd	641
db60b7	642	7. Switch over to GitLab and select your `todolist-fe` repository. On the left hand task bar hover over the settings cog and select `integrations`. (`https://gitlab-<YOUR_NAME>-ci-cd.apps.some.domain.com/<YOUR_NAME>/todolist-fe/settings/integrations`)
c50c7b	643	![gitlab-integrations](../images/exercise2/gitlab-integrations.png)
13e8fd	644
c50c7b	645	7. Paste the `GitLab webhook URL` that we copied earlier into the `URL` field. Check Push events as the trigger, and make sure you `uncheck` the `SSL verification` checkbox. Click Add webhook at the bottom.
A	646	![gitlab-integrations-details](../images/exercise2/gitlab-integrations-details.png)
13e8fd	647
c50c7b	648	7. Before we move on let's test the webhook. Select the Test drop down and click `Push events`. This will trigger the test and return a status code at the top of the page. If all goes well it should be a cool blue 200.
A	649	![gitlab-integrations-details](../images/exercise2/gitlab-webhook-test.png)
13e8fd	650
c50c7b	651	7. We can now test this properly by heading into the `todolist-fe` repository through <YOUR_FAVOURITE_EDITOR>. Make a small change to your code, then commit and push it, ensuring you're on the develop branch. Then head over to Jenkins and wait until the `dev-todolist-fe-build` job has been triggered.
13e8fd	652
c50c7b	653	7. We now have a working GitLab webhook so any time we push code it will automatically build! Next up we'll show you how to add tests to your pipeline.
b770c6	654
5a16fd	655	_____
D	656
0f4d08	657	## Extension Tasks
a4f42c	658	> _Ideas for go-getters. Advanced topic for doers to get on with if they finish early. These will usually not have a solution available and are provided for additional scope._
0f4d08	659
436657	660	- Pipeline Tasks
f9e311	661	* Add pipeline for `master` branch for each project. Use `test-` instead of `dev-` across all config and names in the pipeline
A	662	* Do the `.openshift-applier` steps as part of the pipeline for greater end to end automation.
c3a934	663	- Promote build
f9e311	664	* Create a _promote-to-uat_ phase after the `master` branch deploy
a4f42c	665	* Create a `uat` env using the OpenShift Applier as seen before
c3a934	666	* Tag and promote the image without rebuilding after the `test-**-deploy`
261f19	667	- MongoDB tasks
c3a934	668	* Add MongoDB Stateful set for the UAT environment (or test)
D	669	* Inject MongoDB config into the NodeJS app using config map & secrets.
a4f42c	670	* Improve the security of the DB by making the user /passwords randomly generated
c3a934	671	- Setup Nexus as an `npm` mirror registry and use it in the builds to speed up the build time
0f4d08	672
D	673	## Additional Reading
5a16fd	674	> List of links or other reading that might be of use / reference for the exercise
f2b1b4	675
5a16fd	676	## Slide links
9eed0b	677
4f0295	678	- [Intro](https://docs.google.com/presentation/d/1t1CONuy-_IRPZYmU010Qgk2rshiDJTennvLyQR8GllE)
RH	679	- [Wrap-up](https://docs.google.com/presentation/d/1kZ8SV6iJnrKk_AqPpyPuNZifv7VzItHOB9HYdOnNJjI)
3207b9	680	- [All Material](https://drive.google.com/drive/folders/1lf66ks2tT0eQ4A9RSU48u0ZhvBXzoHWJ)