TranslateProject/sources/tech/20190924 CodeReady Containers- complex solutions on OpenShift - Fedora.md
DarkSun ea7c724d2d 选题: 20190924 CodeReady Containers: complex solutions on OpenShift + Fedora
sources/tech/20190924 CodeReady Containers- complex solutions on OpenShift - Fedora.md
2019-09-25 00:52:10 +08:00

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CodeReady Containers: complex solutions on OpenShift + Fedora

Want to experiment with (complex) solutions on OpenShift 4.1+? CodeReady Containers (CRC) on a physical Fedora server is a great choice. It lets you:

  • Configure the RAM available to CRC / OpenShift (this is key as well deploy Machine Learning, Change Data Capture, Process Automation and other solutions with significant memory requirements)
  • Avoid installing anything on your laptop
  • Standardize (on Fedora 30) so that you get the same results every time

Start by installing CRC and Ansible Agnostic Deployer (AgnosticD) on a Fedora 30 physical server. Then, youll use AgnosticD to deploy Open Data Hub on the OpenShift 4.1 environment created by CRC. Lets get started!

Set up CodeReady Containers

$ dnf config-manager --set-enabled fedora
$ su -c 'dnf -y install git wget tar qemu-kvm libvirt NetworkManager jq libselinux-python'
$ sudo systemctl enable --now libvirtd

Lets also add a user.

$ sudo adduser demouser
$ sudo passwd demouser
$ sudo usermod -aG wheel demouser

Download and extract CodeReady Containers:

$ su demouser
$ cd /home/demouser
$ wget https://mirror.openshift.com/pub/openshift-v4/clients/crc/1.0.0-beta.3/crc-linux-amd64.tar.xz
$ tar -xvf crc-linux-amd64.tar.xz
$ cd crc-linux-1.0.0-beta.3-amd64/
$ sudo cp ./crc /usr/bin

Set the memory available to CRC according to what you have on your physical server. For example, on a physical server with around 100GB you can allocate 80G to CRC as follows:

$ crc config set memory 81920
$ crc setup

Youll need your pull secret from https://cloud.redhat.com/openshift/install/metal/user-provisioned.

$ crc start

Thats it — you can now login to your OpenShift environment:

eval $(crc oc-env) && oc login -u kubeadmin -p <password> https://api.crc.testing:6443

Set up Ansible Agnostic Deployer

github.com/redhat-cop/agnosticd is a fully automated two-phase deployer. Lets deploy it!

$ su demouser
$ cd /home/demouser
$ git clone https://github.com/redhat-cop/agnosticd.git
$ cd agnosticd/ansible
$ python -m pip install --upgrade --trusted-host files.pythonhosted.org -r requirements.txt
$ python3 -m pip install --upgrade --trusted-host files.pythonhosted.org -r requirements.txt
$ pip3 install kubernetes
$ pip3 install openshift
$ pip install kubernetes
$ pip install openshift

Set up Open Data Hub on Code Ready Containers

Open Data Hub is a machine-learning-as-a-service platform built on OpenShift and Kafka/Strimzi. It integrates a collection of open source projects.

First, create an Ansible inventory file with the following content.

$ cat inventory
$ 127.0.0.1 ansible_connection=local

Set up the WORKLOAD environment variable so that Ansible Agnostic Deployer knows that we want to deploy Open Data Hub.

$ export WORKLOAD="ocp4-workload-open-data-hub"
$ sudo cp /usr/local/bin/ansible-playbook /usr/bin/ansible-playbook

We are only deploying one Open Data Hub project, so set user_count to 1. You can set up workshops for many students by setting user_count.

An OpenShift project (with Open Data Hub in our case) will be created for each student.

$ eval $(crc oc-env) && oc login -u kubeadmin -p <password> https://api.crc.testing:6443
$ ansible-playbook -i inventory  ./configs/ocp-workloads/ocp-workload.yml -e"ocp_workload=${WORKLOAD}" -e"ACTION=create" -e"user_count=1" -e"ocp_username=kubeadmin" -e"ansible_become_pass=<password>" -e"silent=False"
$ oc project open-data-hub-user1
$ oc get route
NAME         HOST/PORT                                         PATH   SERVICES     PORT       TERMINATION     WILDCARD
jupyterhub   jupyterhub-open-data-hub-user1.apps-crc.testing          jupyterhub   8080-tcp   edge/Redirect   None

On your laptop, add jupyterhub-open-data-hub-user1.apps-crc.testing to your /etc/hosts file. For example:

127.0.0.1 localhost fedora30 console-openshift-console.apps-crc.testing oauth-openshift.apps-crc.testing mapit-app-management.apps-crc.testing mapit-spring-pipeline-demo.apps-crc.testing jupyterhub-open-data-hub-user1.apps-crc.testing jupyterhub-open-data-hub-user1.apps-crc.testing

On your laptop:

$ sudo ssh marc@fedora30 -L 443:jupyterhub-open-data-hub-user1.apps-crc.testing:443

You can now browse to https://jupyterhub-open-data-hub-user1.apps-crc.testing.

Now that we have Open Data Hub ready, you could deploy something interesting on it. For example, you could deploy IBMs Qiskit open source framework for quantum computing. For more information, refer to Video no. 9 at this YouTube playlist, and the Github repo here.

You could also deploy plenty of other useful tools for Process Automation, Change Data Capture, Camel Integration, and 3scale API Management. You dont have to wait for articles on these, though. Step-by-step short videos are already available on YouTube.

The corresponding step-by-step instructions are also on YouTube. You can also follow along with this article using the GitHub repo.


Photo by Marta Markes on Unsplash.


via: https://fedoramagazine.org/codeready-containers-complex-solutions-on-openshift-fedora/

作者:Marc Chisinevski 选题:lujun9972 译者:译者ID 校对:校对者ID

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