Uvod
Iako na prvi pogled trijvijalna kako su dostupni odlični OpenShift Ansible playbookovi, vrlo lako postane zamorna i prepuna grešaka ukoliko se ne pripazi na par ključnih “zamki”. Kroz ovaj post pokušati ću opisati kroz cijeli postupak instalacije OpenShift Origin (tj. OKD) okuženja na 3 nodea , jedan master i dva compute. Logging i monitoring nisam uključio u ovaj post kako na računalu nemam dovoljno resursa za tu komponentu.
Za potrebe instalacije biti će potrebne 4 virtualke (može i 3 ako će na jednom od OpenShift nodeova biti Ansible) sa pripremljenom mrežnom infrastrukturom. Svaki node mora moći komunicirati sa drugim prema OKD dokumentaciji. Također, biti će potreban DNS server kako bi mogao resolvati potrebne adrese (npr. apps.lab.local, console.lab.local, itd). Za PV u ovom primjeru koristiti će se NFS koji se više ne preporuča pa i samo setup PV-a na NFS nije ovdje prikazan.
Česti propusti na koje treba obratiti pozornost
DNS – DNS je obavezan te bez DNS-a instalacija neće biti uspješna. Detalje oko DNS zapisa moguće je pronaći ovdje. Ukratko potrebno je kreirati DNS zapise za console.lab.local i console-int.lab.local za IP adresu mastera. Također, potrebno je kreirati DNS zapise na sve nodeove te je peporučljivo kreirati wildcard zapis npr. “*.apps.lab.local” da nije potrebno kreiati za svaku rutu novi DNS zapis
Hardverski resursi – OpenShift je hardverski zahtjevan. Detalji o hardverskim potrebama moguće je pronaći ovdje. Nakon puno pokušaja i promašaja, zaključak je da je apsolutni minimum za OpenShift instalaciju 4GB RAM za master, 1GB RAM za compute te 2vCPU za master i compute. Ispod navedenih minimuma instalacija neće uspješno završiti.
Konfiguracija nodeova – Obratiti posebnu pozornost na mrežnu konfiguraciju ETH adaptera na nodeovima (Gateway je obavezan iako možda imate sve repozitorije lokalno te NM_CONTROLED=yes je također obavezan). Također, konfiguracija hostname je obavezna.
OpenShift inventory – Greške i tipfeleri u inventory datoteci dovode nepotpune instalacije, grešaka u instalaciji, itd. Prije pokretanja Ansible playbooka potrebno je dobro provjeriti ispravnost inventory datoteke
Kompatibilnost Ansible i OpenShift – Ansible verzije i OpenShift verzije je potrebno uskladiti. Prilikom testiranja i čitanja dokumentacije i issuea na GitHubu, verzija Ansiblea koja je korištena je 2.7.9 za instalaciju OpenShift 3.11 pokazala se najbolja.
1. Okruženje
Za pokretanje VM-ova ja sam koristio Hyper-V, te se neću kroz post fokusirati na konfiguraciju Hyper-V. Za potrebe okruženja pripremio sam 4 VM-a:
- lab-centos01.lab.local (2vCPU, 1GB RAM, 1xHDD 50GB) za Ansible
- lab-os-master01.lab.local (2vCPU, 4GB RAM, 1xHDD 50GB, 1xHDD 40GB i 1xHDD 30GB) za OpenShift master node
- lab-os-node01.lab.local (2vCPU, 1GB RAM, 1xHDD 50GB, 1xHDD 40GB i 1xHDD 30GB) za OpenShift compute node
- lab-os-node02.lab.local (2vCPU, 1GB RAM, 1xHDD 50GB, 1xHDD 40GB i 1xHDD 30GB) za OpenShift compute node
Dodatni diskovi na OpenShift VM-ovima su za potrebe Dockera i OpenShifta. Mrežna infrastruktura između VM-ova nema ograničenja te svi VM-ovi mogu izaći prema Internetu.
2. Instalacija operativnog sustava
Nakon instalacije operativnog sustava (ja sam koristi Centos 7), potrebno je napraviti nadogradnju OS-a i aplikativnih paketa:
[root@localhost ~]# yum -y update
Nakon instalacije i nadogradnje potrebno je klonirati VM na ostala 3 VM-a (ili napraviti instalaciju OS-a od nule). Neke radnje biti će potrebno napraviti na samim poslužiteljima dok je za većinu pripremljen Ansible playbook.
Na svakom od poslužitelja konfigurirati ETH adapter
[root@localhost ~]# vi /etc/sysconfig/network-scripts/ifcfg-eth0
Primjer ifcfg-eth0 je niže (obratite pozornost na BOOTPROTO=static, ONBOOT=yes, IPADDR zamijeniti prema viziji mrežne infrastrukture, GATEWAY je obavezan, DNS je obavezan te NM_CONTROLLED=yes)
TYPE=Ethernet PROXY_METHOD=none BROWSER_ONLY=no BOOTPROTO=static DEFROUTE=yes IPV4_FAILURE_FATAL=no IPV6INIT=no IPV6_AUTOCONF=yes IPV6_DEFROUTE=yes IPV6_FAILURE_FATAL=no IPV6_ADDR_GEN_MODE=stable-privacy NAME=eth0 DEVICE=eth0 ONBOOT=yes IPADDR=192.168.1.212 PREFIX=24 GATEWAY=192.168.1.254 DNS1=192.168.1.190 DNS2=192.168.1.254 DOMAIN=lab.local NM_CONTROLLED=yes
Također na svakom od poslužitelja konfigurirati hostname (zamijeniti prema shemi naziva servera.
[root@localhost ~]# hostnamectl set-hostname lab-centos01.lab.local
Dodano, u nekim uputama i rješavanjima grešaka, gore navedeno nije dovoljno (iz meni nepoznatih razloga) pa je dodatno poželjno editirati network
[root@localhost ~]# vi /etc/sysconfig/network
dodati liniju (zamijeniti sa nazivom servera)
HOSTNAME=lab-centos01.lab.local
te editirati hosts
[root@localhost ~]# vi /etc/hosts
i dodati zapis (zamijeniti IP adresu i nazive prema serveru na kojem se radi izmjena)
192.168.1.212 lab-centos01.lab.local lab-centos01
Nakon napravljenog, restartati servere.
[root@localhost ~]# reboot
3. Ansible priprema
Slijedeći koraci izvode se na Ansible serveru (lab-centos01.lab.local).
Kreirati folder za Ansible playbook za pripremu OpenShift nodeova
[root@lab-centos01 home]# mkdir /home/ansible_playbooks/
Dodati EPEL Release
[root@lab-centos01 ~]# yum -y install epel-release
Instalirati aplikacije potrebne za Ansible i playbook izvođenje
[root@lab-centos01 ~]# yum -y install nano git python2-pip httpd-tools java-1.8.0-openjdk-headless wget net-tools bind-utils yum-utils iptables-services bridge-utils bash-completion kexec-tools sos psacct openssl-devel python-cryptography python-devel python-passlib "@Development Tools"
Nadograditi PIP
[root@lab-centos01 ~]# pip install --upgrade pip
Instalirati Ansible (verzija 2.7.9)
[root@lab-centos01 ~]# pip install ansible==2.7.9
Kreirati hosts za Ansible
[root@lab-centos01 ~]# mkdir /etc/ansible/ [root@lab-centos01 ~]# nano /etc/ansible/hosts
Primjer hosts datoteke
[os-master] lab-os-master01.lab.local [os-non-master] lab-os-node01.lab.local lab-os-node02.lab.local
Kreirati SSH ključ
[root@lab-centos01 ~]# ssh-keygen -t RSA
Rezultat bi trebao biti
Generating public/private RSA key pair. Enter file in which to save the key (/root/.ssh/id_rsa): Enter passphrase (empty for no passphrase): Enter same passphrase again: Your identification has been saved in /root/.ssh/id_rsa. Your public key has been saved in /root/.ssh/id_rsa.pub. The key fingerprint is: xxx [email protected]
Deployati SSH ključ na OpenShift VM-ove
[root@lab-centos01 ~]]# ssh-copy-id [email protected] [root@lab-centos01 ~]]# ssh-copy-id [email protected] [root@lab-centos01 ~]]# ssh-copy-id [email protected]
A rezultat bi trebao biti
Number of key(s) added: 1
Provjeriti da li su Ansibleu dostupni OpenShift VM-ovi (sve bi trebalo biti zeleno :))
[root@lab-centos01 ~]]# ansible all -m setup
4. Priprema OpenShift nodeova za deploy
Slijedeći koraci izvode se na Ansible serveru (lab-centos01.lab.local).
Iako OpenShift Ansible playbook je “prerequisites” ne uključuje sve potrebno te sam iz tog razloga pripremio dodatne Ansible playbook koji su svi dostupni i na GitHub-u.
Kreirati playbook za dodavanje EPEL
[root@lab-centos01 ~]# cd /home/ansible_playbooks/ [root@lab-centos01 ansible_playbooks]# nano 1_add_epel.yml
1_add_epel.yml
---
- hosts: all
sudo: yes
tasks:
- name: Add EPEL.
yum:
name: https://dl.fedoraproject.org/pub/epel/epel-release-latest-{{ ansible_distribution_major_version }}.noarch.rpm
state: present
- name: Import EPEL GPG.
rpm_key:
key: /etc/pki/rpm-gpg/RPM-GPG-KEY-EPEL-{{ ansible_distribution_major_version }}
state: present
Pokrenuti 1_add_epel.yml playbook
[root@lab-centos01 ansible_playbooks]# ansible-playbook 1_add_epel.yml
Kreirati playbook za instalaciju potrebno softvera
[root@lab-centos01 ansible_playbooks]# nano 2_install_apps.yml
2_install_apps.yml
---
- hosts: all
sudo: yes
tasks:
- name: Install nano (step 1/20)
yum:
name: nano
state: latest
- name: Install wget (step 2/20)
yum:
name: wget
state: latest
- name: Install git (step 3/20)
yum:
name: git
state: latest
- name: Install lvm2 (step 4/20)
yum:
name: lvm2
state: latest
- name: Install net-tools (step 5/20)
yum:
name: net-tools
state: latest
- name: Install Docker (step 6/20)
yum:
name: docker-1.13.1
state: latest
- name: Install bind-utils (step 7/20)
yum:
name: bind-utils
state: latest
- name: Install iptables-services (step 8/20)
yum:
name: iptables-services
state: latest
- name: Install bridge-utils (step 9/20)
yum:
name: bridge-utils
state: latest
- name: Install openssl-devel (step 10/20)
yum:
name: openssl-devel
state: latest
- name: Install bash-completion (step 11/20)
yum:
name: bash-completion
state: latest
- name: Install kexec-tools (step 12/20)
yum:
name: kexec-tools
state: latest
- name: Install sos (step 13/20)
yum:
name: sos
state: latest
- name: Install psacct (step 14/20)
yum:
name: psacct
state: latest
- name: Install python-cryptography (step 15/20)
yum:
name: python-cryptography
state: latest
- name: Install python2-pip (step 16/20)
yum:
name: python2-pip
state: latest
- name: Install python-devel (step 17/20)
yum:
name: python-devel
state: latest
- name: Install python-passlib (step 18/20)
yum:
name: python-passlib
state: latest
- name: Install java-1.8.0-openjdk-headless (step 19/20)
yum:
name: java-1.8.0-openjdk-headless
state: latest
- name: Install Development Tools (step 20/20)
yum:
name: "@Development Tools"
state: latest
Pokrenuti playbook za instalaciju softvera
[root@lab-centos01 ansible_playbooks]# ansible-playbook 2_install_apps.yml
Kreirati playbook za konfiguraciju diskova (volume za Docker i OpenShift)
[root@lab-centos01 ansible_playbooks]# nano 3_setup_volumes.yml
3_setup_volumes.yml
---
- hosts: all
tasks:
- name: Setup volumes (step 1/16)
lineinfile:
path: "/etc/sysconfig/docker-storage-setup"
line: "DEVS=/dev/sdb"
- name: Setup volumes (step 2/16)
lineinfile:
path: "/etc/sysconfig/docker-storage-setup"
line: "VG=docker-vg"
- name: Setup volumes (step 3/16)
shell: docker-storage-setup
- hosts: os-master
tasks:
- name: Setup volumes (step 5/16)
shell: "vgcreate etcd-vg /dev/sdc"
- name: Setup volumes (step 6/16)
shell: "lvcreate -n etcd-lv -l 100%VG etcd-vg"
- name: Setup volumes (step 7/16)
shell: "mkfs.xfs /dev/mapper/etcd--vg-etcd--lv"
- name: Setup volumes (step 8/16)
file:
path: "/var/lib/etcd"
state: directory
- name: Setup volumes (step 9/16)
lineinfile:
path: "/etc/fstab"
line: "/dev/mapper/etcd--vg-etcd--lv /var/lib/etcd xfs defaults 0 0"
- name: Setup volumes (step 10/16)
shell: "mount -a"
- hosts: os-non-master
tasks:
- name: Setup volumes (step 11/16)
shell: "vgcreate origin-vg /dev/sdc"
- name: Setup volumes (step 12/16)
shell: "lvcreate -n origin-lv -l 100%VG origin-vg"
- name: Setup volumes (step 13/16)
shell: "mkfs.xfs /dev/mapper/origin--vg-origin--lv"
- name: Setup volumes (step 14/16)
file:
path: "/var/lib/origin"
state: directory
- name: Setup volumes (step 15/16)
lineinfile:
path: "/etc/fstab"
line: "/dev/mapper/origin--vg-origin--lv /var/lib/origin xfs defaults 0 0"
- name: Setup volumes (step 16/16)
shell: "mount -a"
Pokrenuti playbook za setup volumea
[root@lab-centos01 ansible_playbooks]# ansible-playbook 3_setup_volumes.yml
Kreirati playbook za post konfiguraciju (insecure registry i rješavanje jednog buga)
[root@lab-centos01 ansible_playbooks]# nano 4_post_config.yml
4_post_config.yml
---
- hosts: all
tasks:
- name: Setup insecure registry (step 1/2)
lineinfile:
path: "/etc/sysconfig/docker"
line: "OPTIONS='--insecure-registry=172.30.0.0/16 --selinux-enabled --log-opt max-size=1M --log-opt max-file=3'"
- name: IPv4 Forward (step 2/2)
shell: "sysctl -w net.ipv4.ip_forward=1"
Pokrenuti post config playbook
[root@lab-centos01 ansible_playbooks]# ansible-playbook 4_post_config.yml
I na kraju napraviti restart svih OpenShift VM-ova
[root@lab-centos01 ansible_playbooks]# ansible all -a 'reboot'
5. Instalacija OpenShift okruženja
Svi koraci se izvode na Ansible serveru (lab-centos01.lab.local)
Klonirati Ansible-OpenShift sa GitHuba
[root@lab-centos01 ~]# cd /opt [root@lab-centos01 opt]# git clone https://github.com/openshift/openshift-ansible.git [root@lab-centos01 opt]# cd openshift-ansible/ [root@lab-centos01 openshift-ansible]# git checkout release-3.11
Kreirati OpenShift inventory
[root@lab-centos01 openshift-ansible]# nano os_inventory
os_inventory (obratite pozornost na user/pass tj. htpasswd credentialse s čime se kasnije prijavljujete u OpenShift web konzolu; mogu se generirati i besplatnim alatima na webu)
[OSEv3:children]
masters
etcd
nodes
[OSEv3:vars]
# Ansible user who can login to all nodes through SSH
ansible_user=root
# Deployment type: "openshift-enterprise" or "origin"
openshift_deployment_type=origin
deployment_type=origin
# Version
openshift_release=v3.11
openshift_pkg_version=-3.11.0
openshift_image_tag=v3.11.0
openshift_service_catalog_image_version=v3.11.0
template_service_broker_image_version=v3.11.0
openshift_metrics_image_version="v3.11"
openshift_logging_image_version="v3.11"
openshift_logging_elasticsearch_proxy_image_version="v1.0.0"
osm_use_cockpit=true
openshift_metrics_install_metrics=false
openshift_logging_install_logging=false
# Service address space
openshift_portal_net=172.30.0.0/16
# Pod address space
osm_cluster_network_cidr=10.128.0.0/14
##Subnet Length of each node
osm_host_subnet_length=9
# Master API port
openshift_master_api_port=443
# Master console port
openshift_master_console_port=443
# Clustering method
openshift_master_cluster_method=native
# Hostname used by nodes and other cluster internals
openshift_master_cluster_hostname=console-int.lab.local
# Hostname used by platform users
openshift_master_cluster_public_hostname=console.lab.local
# Application wildcard subdomain
openshift_master_default_subdomain=apps.lab.local
# identity provider
openshift_master_identity_providers=[{'name': 'htpasswd_auth', 'login': 'true', 'challenge': 'true', 'kind': 'HTPasswdPasswordIdentityProvider'}]
# Users being created in the cluster
openshift_master_htpasswd_users={'admin': '$apr1$alusv16k$038bczg.ozez5yJIR4IzS1', 'osuser': '$apr1$alusv16k$038bczg.ozez5yJIR4IzS1'}
# Persistent storage, NFS
openshift_hosted_registry_storage_kind=nfs
openshift_hosted_registry_storage_access_modes=['ReadWriteMany']
openshift_hosted_registry_storage_host=lab-centos01.lab.local
openshift_hosted_registry_storage_nfs_directory=/openshift
openshift_hosted_registry_storage_volume_name=registry
openshift_hosted_registry_storage_volume_size=50Gi
# Misc
containerized=True
os_sdn_network_plugin_name='redhat/openshift-ovs-multitenant'
openshift_disable_check=disk_availability,docker_storage,memory_availability,docker_image_availability
# NFS check bug
openshift_enable_unsupported_configurations=True
# Another Bug 1569476
skip_sanity_checks=true
openshift_node_kubelet_args="{'eviction-hard': ['memory.available<100Mi'], 'minimum-container-ttl-duration': ['10s'], 'maximum-dead-containers-per-container': ['2'], 'maximum-dead-containers': ['5'], 'pods-per-core': ['10'], 'max-pods': ['25'], 'image-gc-high-threshold': ['80'], 'image-gc-low-threshold': ['60']}"
[OSEv3:vars]
[masters]
lab-os-master01.lab.local openshift_node_group_name=”node-config-master”
[etcd]
lab-os-master01.lab.local openshift_node_group_name=”node-config-master”
[nodes]
lab-os-master01.lab.local openshift_node_group_name=”node-config-master”
lab-os-node01.lab.local openshift_node_group_name=”node-config-compute”
lab-os-node02.lab.local openshift_node_group_name=”node-config-infra”
Provjeriti dostupnost nodeova Ansibleu (sve bi trebalo biti zeleno :))
[root@lab-centos01 openshift-ansible]# ansible -i os_inventory OSEv3 -m ping
A rezultat bi trebao biti
lab-os-master01.lab.local | SUCCESS => {
"changed": false,
"ping": "pong"
}
lab-os-node02.lab.local | SUCCESS => {
"changed": false,
"ping": "pong"
}
lab-os-node01.lab.local | SUCCESS => {
"changed": false,
"ping": "pong"
}
Ako je sve OK pokrenuti prvi dio instalacije (prerequisites)
[root@lab-centos01 openshift-ansible]# ansible-playbook -i os_inventory playbooks/prerequisites.yml
Ako sve završi OK pokrenuti deploy klastera
[root@lab-centos01 openshift-ansible]# ansible-playbook -i os_inventory playbooks/deploy_cluster.yml
I nadam se da je sve završilo OK. Ako nije Googlajte grešku, vrlo vjerojatno na GitHubu već postoji otvoren issue :)
Post instalacija
Slijedeće naredbe se izvršavaju na lab-os-master01.lab.local
Validirati da li je moguće ulogogiati se u OpenShift klaster
[root@lab-os-master01 ~]# oc login -u system:admin -n default
A rezultati bi trebao biti
Logged into "https://console-int.lab.local:443" as "system:admin" using existing credentials.
You have access to the following projects and can switch between them with 'oc project <projectname>':
* default
kube-public
kube-system
logging
management-infra
openshift
openshift-infra
openshift-node
openshift-web-console
Using project "default".
Provjeriti dostupnost OpenShift nodeova
[root@lab-os-master01 ~]# oc get no
A rezultati bi trebao biti
NAME STATUS ROLES AGE VERSION lab-os-master01.lab.local Ready master 4d v1.9.1+a0ce1bc657 lab-os-node01.lab.local Ready compute 4d v1.9.1+a0ce1bc657 lab-os-node02.lab.local Ready compute 4d v1.9.1+a0ce1bc657
Provjeriti dostupnost servisa
[root@lab-os-master01 ~]# oc get svc
A rezultat bi trebao biti
NAME TYPE CLUSTER-IP EXTERNAL-IP PORT(S) AGE docker-registry ClusterIP 172.30.45.136 <none> 5000/TCP 4d kubernetes ClusterIP 172.30.0.1 <none> 443/TCP,53/UDP,53/TCP 5d registry-console ClusterIP 172.30.17.1 <none> 9000/TCP 4d router ClusterIP 172.30.249.169 <none> 80/TCP,443/TCP,1936/TCP 4d
Dodati “osuser” korisnika u cluster-admin grupu kako bi se mogao prijaviti u OpenShift kao admin
[root@lab-os-master01 ~]# oc adm policy add-cluster-role-to-user cluster-admin osuser
Sad je moguće prijaviti se u OpenShift web konzolu sa “osuser” credentialsima.
Za kraj
Svi playbook za potrebe pripreme nodeova te primjer inventorya dostupni su na GitHubu. Svjestan sam da ima puno prostora za poboljšanja (npr. jedan playbook za sve radove) ali mora nešto ostati i za v1.1. :)
Svi komentari, kritike, prijedlozi su dobrodošli ili ovdje ili na GitHubu, birajte gdje se osjećate ugodnije :)