Fedora 19 is when OpenShift Origin first became a feature.
This page is here to show how to setup OpenShift Origin on Fedora 19 using the packages in Fedora, as opposed to the packages published from upstream. These steps are written out to be done by hand. Yes, people can script and/or puppetize these steps. But these are written out so that people can see, and fine tune them.
Goal: By the end of this, you should have two machines. A broker machine, and one node machine. You should be able to create applications, that will be put on the node machine. You should be able to check the status of those applications. You should be able to point your web browser to the URL of those applications.
Note: There is no web console in Fedora 19. That will be in Fedora 20.
These instructions were created most from the following two places.
- https://www.openshift.com/wiki/build-your-own
- https://www.openshift.com/forums/openshift/fedora-18-openshift-origin-setup-steps-and-testing
Initial Setup of Broker and Node Machines
ON BOTH BROKER AND NODE
# Start with a Fedora 19 minimal install yum -y update # avoid clock skew yum -y install ntp /bin/systemctl enable ntpd.service /bin/systemctl start ntpd.service
Setup and Configure Broker
export DOMAIN="example.com"
export BROKERIP="$(nm-tool | grep Address | grep -v HW | awk '{print $2}')"
export BROKERNAME="broker.example.com"
Broker: Bind DNS
yum -y install bind bind-utils
KEYFILE=/var/named/${DOMAIN}.key
cd /var/named/
dnssec-keygen -a HMAC-MD5 -b 512 -n USER -r /dev/urandom ${DOMAIN}
KEY="$(grep Key: K${DOMAIN}*.private | cut -d ' ' -f 2)"
cd -
rndc-confgen -a -r /dev/urandom
echo $KEY
restorecon -v /etc/rndc.* /etc/named.* chown -v root:named /etc/rndc.key chmod -v 640 /etc/rndc.key
echo "forwarders { 8.8.8.8; 8.8.4.4; } ;" >> /var/named/forwarders.conf
restorecon -v /var/named/forwarders.conf
chmod -v 755 /var/named/forwarders.conf
rm -rvf /var/named/dynamic mkdir -vp /var/named/dynamic
cat <<EOF > /var/named/dynamic/${DOMAIN}.db
\$ORIGIN .
\$TTL 1 ; 1 seconds (for testing only)
${DOMAIN} IN SOA ns1.${DOMAIN}. hostmaster.${DOMAIN}. (
2011112904 ; serial
60 ; refresh (1 minute)
15 ; retry (15 seconds)
1800 ; expire (30 minutes)
10 ; minimum (10 seconds)
)
NS ns1.${DOMAIN}.
MX 10 mail.${DOMAIN}.
\$ORIGIN ${DOMAIN}.
ns1 A 127.0.0.1
EOF
cat <<EOF > /var/named/${DOMAIN}.key
key ${DOMAIN} {
algorithm HMAC-MD5;
secret "${KEY}";
};
EOF
cat /var/named/dynamic/${DOMAIN}.db
cat /var/named/${DOMAIN}.key
chown -Rv named:named /var/named
restorecon -rv /var/named
mv /etc/named.conf /etc/named.conf.openshift
cat <<EOF > /etc/named.conf
// named.conf
//
// Provided by Red Hat bind package to configure the ISC BIND named(8) DNS
// server as a caching only nameserver (as a localhost DNS resolver only).
//
// See /usr/share/doc/bind*/sample/ for example named configuration files.
//
options {
listen-on port 53 { any; };
directory "/var/named";
dump-file "/var/named/data/cache_dump.db";
statistics-file "/var/named/data/named_stats.txt";
memstatistics-file "/var/named/data/named_mem_stats.txt";
allow-query { any; };
recursion yes;
/* Path to ISC DLV key */
bindkeys-file "/etc/named.iscdlv.key";
// set forwarding to the next nearest server (from DHCP response
forward only;
include "forwarders.conf";
};
logging {
channel default_debug {
file "data/named.run";
severity dynamic;
};
};
// use the default rndc key
include "/etc/rndc.key";
controls {
inet 127.0.0.1 port 953
allow { 127.0.0.1; } keys { "rndc-key"; };
};
include "/etc/named.rfc1912.zones";
include "${DOMAIN}.key";
zone "${DOMAIN}" IN {
type master;
file "dynamic/${DOMAIN}.db";
allow-update { key ${DOMAIN} ; } ;
};
EOF
cat /etc/named.conf
chown -v root:named /etc/named.conf
restorecon /etc/named.conf
firewall-cmd --add-service=dns
firewall-cmd --permanent --add-service=dns
firewall-cmd --list-all
/bin/systemctl enable named.service
/bin/systemctl start named.service
nsupdate -k ${KEYFILE}
> server 127.0.0.1
> update delete broker.example.com A
> update add **your broker full name ** 180 A **your broker ip address**
(example: update add broker.example.com 180 A 192.168.122.220 )
> send
> quit
ping broker.example.com dig @127.0.0.1 broker.example.com
Broker: DHCP client and hostname
echo "prepend domain-name-servers **your broker ip address**;" >> /etc/dhcp/dhclient-eth0.conf echo "supersede host-name \"broker\";" >> /etc/dhcp/dhclient-eth0.conf echo "supersede domain-name \"example.com\";" >> /etc/dhcp/dhclient-eth0.conf
Broker: hostname
echo "broker.example.com" > /etc/hostname
Broker: MongoDB
yum -y install mongodb-server
vi /etc/mongodb.conf # Uncomment auth = true # Add smallfiles = true
/usr/bin/systemctl enable mongod.service /usr/bin/systemctl status mongod.service /usr/bin/systemctl start mongod.service /usr/bin/systemctl status mongod.service
# Testing mongo > show dbs > exit
Broker: QPID
Activemq on F19 isn't ready for OpenShift production. When it is, we'll use that For now we'll use QPID with mcollective.
yum install mcollective-qpid-plugin qpid-cpp-server firewall-cmd --add-port=5672/tcp firewall-cmd --permanent --add-port=5672/tcp firewall-cmd --list-all
/usr/bin/systemctl enable qpidd.service /usr/bin/systemctl start qpidd.service /usr/bin/systemctl status qpidd.service
Broker: MCollective client ( using QPID)
yum -y install mcollective-client
mv /etc/mcollective/client.cfg /etc/mcollective/client.cfg.orig cat <<EOF > /etc/mcollective/client.cfg topicprefix = /topic/ main_collective = mcollective collectives = mcollective libdir = /usr/libexec/mcollective loglevel = debug logfile = /var/log/mcollective-client.log # Plugins securityprovider = psk plugin.psk = unset connector = qpid plugin.qpid.host=broker.example.com plugin.qpid.secure=false plugin.qpid.timeout=5 # Facts factsource = yaml plugin.yaml = /etc/mcollective/facts.yaml EOF
Broker: broker application
yum -y install openshift-origin-broker openshift-origin-broker-util rubygem-openshift-origin-auth-remote-user rubygem-openshift-origin-msg-broker-mcollective rubygem-openshift-origin-dns-bind
sed -i -e "s/ServerName .*$/ServerName broker.example.com/" /etc/httpd/conf.d/000002_openshift_origin_broker_servername.conf cat /etc/httpd/conf.d/000002_openshift_origin_broker_servername.conf
/usr/bin/systemctl enable httpd.service /usr/bin/systemctl enable ntpd.service /usr/bin/systemctl enable sshd.service
firewall-cmd --add-service=ssh firewall-cmd --add-service=http firewall-cmd --add-service=https firewall-cmd --permanent --add-service=ssh firewall-cmd --permanent --add-service=http firewall-cmd --permanent --add-service=https firewall-cmd --list-all
openssl genrsa -out /etc/openshift/server_priv.pem 2048 openssl rsa -in /etc/openshift/server_priv.pem -pubout > /etc/openshift/server_pub.pem ssh-keygen -t rsa -b 2048 -f ~/.ssh/rsync_id_rsa cp -v ~/.ssh/rsync_id_rsa* /etc/openshift/
setsebool -P httpd_unified=on httpd_can_network_connect=on httpd_can_network_relay=on httpd_run_stickshift=on named_write_master_zones=on fixfiles -R rubygem-passenger restore fixfiles -R mod_passenger restore restorecon -rv /var/run restorecon -rv /usr/share/gems/gems/passenger-*
vi /etc/openshift/broker.conf # Might not have to do anything but make sure you have the following lines CLOUD_DOMAIN="example.com" VALID_GEAR_SIZES="small,medium"
Broker: broker plugins and MongoDB user accounts
cp /usr/share/gems/gems/openshift-origin-auth-remote-user-*/conf/openshift-origin- auth-remote-user.conf.example /etc/openshift/plugins.d/openshift-origin-auth-remote-user.conf cp /etc/openshift/plugins.d/openshift-origin-msg-broker-mcollective.conf.example /etc/openshift/plugins.d/openshift-origin-msg-broker-mcollective.conf
cd /var/named/
KEY="$(grep Key: K${DOMAIN}*.private | cut -d ' ' -f 2)"
cat $KEYFILE
echo $KEY
cat <<EOF > /etc/openshift/plugins.d/openshift-origin-dns-bind.conf
BIND_SERVER="127.0.0.1"
BIND_PORT=53
BIND_KEYNAME="${DOMAIN}"
BIND_KEYVALUE="${KEY}"
BIND_ZONE="${DOMAIN}"
EOF
cp -v /var/www/openshift/broker/httpd/conf.d/openshift-origin-auth-remote-user-basic.conf.sample /var/www/openshift/broker/httpd/conf.d/openshift-origin-auth-remote-user.conf htpasswd -c -b -s /etc/openshift/htpasswd demo demo # Don't forget your password. <demo password> cat /etc/openshift/htpasswd
grep MONGO /etc/openshift/broker.conf
mongo openshift_broker_dev --eval 'db.addUser("openshift", "mooo")'
# If you are going to change the username and/or password, change broker.conf
yum -y install rubygem-psych cd /var/www/openshift/broker gem install mongoid bundle --local
/usr/bin/systemctl enable openshift-broker.service /usr/bin/systemctl start httpd.service /usr/bin/systemctl start openshift-broker.service /usr/bin/systemctl status openshift-broker.service
curl -k -u demo:demopassword https://localhost/broker/rest/api
Setup and Configure Node
Initial setup/configure of the node host
- ON NODE
yum update yum -y install ntp /bin/systemctl enable ntpd.service /bin/systemctl start ntpd.service
- Find out the node ip address
nm-tool
- ON BROKER
domain=example.com keyfile=/var/named/${domain}.key
- Use the IP address from the node, found above
oo-register-dns -h node -d ${domain} -n 192.168.122.161 -k ${keyfile}
scp /etc/openshift/rsync_id_rsa.pub root@node.example.com:/root/.ssh/
- ON NODE
cat /root/.ssh/rsync_id_rsa.pub >> /root/.ssh/authorized_keys rm -f /root/.ssh/rsync_id_rsa.pub
- ON BROKER
ssh -i /root/.ssh/rsync_id_rsa root@node.example.com exit
- Find out the broker ip address
nm-tool
Configure the NODE DHCP client and hostname
- ON NODE
echo "prepend domain-name-servers **your broker ip address**;" >> /etc/dhcp/dhclient-eth0.conf echo "supersede host-name \"node\";" >> /etc/dhcp/dhclient-eth0.conf echo "supersede domain-name \"example.com\";" >> /etc/dhcp/dhclient-eth0.conf echo "node.example.com" > /etc/hostname
reboot
Setting up MCollective on the node host
- ON NODE
yum -y install openshift-origin-msg-node-mcollective mv /etc/mcollective/server.cfg /etc/mcollective/server.cfg.orig
cat <<EOF > /etc/mcollective/server.cfg topicprefix = /topic/ main_collective = mcollective collectives = mcollective libdir = /usr/libexec/mcollective logfile = /var/log/mcollective.log loglevel = debug daemonize = 1 direct_addressing = n
- Plugins
securityprovider = psk plugin.psk = unset connector = qpid plugin.qpid.host=broker.example.com plugin.qpid.secure=false plugin.qpid.timeout=5
- Facts
factsource = yaml plugin.yaml = /etc/mcollective/facts.yaml EOF
/bin/systemctl enable mcollective.service /bin/systemctl start mcollective.service
- ON BROKER
mco ping
Setting up node packages on the node host
- ON NODE
yum -y install rubygem-openshift-origin-node rubygem-passenger-native openshift-origin-port-proxy openshift-origin-node-util yum -y install openshift-origin-cartridge-cron-1.4 openshift-origin-cartridge-diy-0.1
firewall-cmd --add-service=ssh firewall-cmd --add-service=http firewall-cmd --add-service=https firewall-cmd --permanent --add-service=ssh firewall-cmd --permanent --add-service=http firewall-cmd --permanent --add-service=https firewall-cmd --list-all
Configuring PAM namespace module, cgropus, and user quotas on the node host
- ON NODE
- PAM
sed -i -e 's|pam_selinux|pam_openshift|g' /etc/pam.d/sshd
for f in "runuser" "runuser-l" "sshd" "su" "system-auth-ac" do
t="/etc/pam.d/$f" if ! grep -q "pam_namespace.so" "$t" then echo -e "session\t\trequired\tpam_namespace.so no_unmount_on_close" >> "$t" fi
done
- CGROUPS
- echo "mount {" >> /etc/cgconfig.conf
- echo " cpu = /cgroup/all;" >> /etc/cgconfig.conf
- echo " cpuacct = /cgroup/all;" >> /etc/cgconfig.conf
- echo " memory = /cgroup/all;" >> /etc/cgconfig.conf
- echo " freezer = /cgroup/all;" >> /etc/cgconfig.conf
- echo " net_cls = /cgroup/all;" >> /etc/cgconfig.conf
- echo "}" >> /etc/cgconfig.conf
- restorecon -v /etc/cgconfig.conf
- mkdir /cgroup
- restorecon -RFvv /cgroup
/bin/systemctl enable cgconfig.service /bin/systemctl enable cgred.service /usr/sbin/chkconfig openshift-cgroups on /bin/systemctl restart cgconfig.service /bin/systemctl restart cgred.service /usr/sbin/service openshift-cgroups restart
- DISK QUOTA
- Edit fstab and add usrquota to whichever filesystem
- has /var/lib/openshift on it
UUID=b9e21eae-4b8c-4936-9f5d-d10631ff535e / ext4 defaults,usrquota 1 1
- reboot or remount
mount -o remount / quotacheck -cmug /
Configuring SELinux and System Control on the node host
- ON NODE
- SELINUX
setsebool -P httpd_unified=on httpd_can_network_connect=on httpd_can_network_relay=on httpd_read_user_content=on httpd_enable_homedirs=on httpd_run_stickshift=on allow_polyinstantiation=on
restorecon -rv /var/run restorecon -rv /usr/sbin/mcollectived /var/log/mcollective.log /var/run/mcollectived.pid restorecon -rv /var/lib/openshift /etc/openshift/node.conf /etc/httpd/conf.d/openshift
- SYSTEM CONTROL SETTINGS
echo "# Added for OpenShift" >> /etc/sysctl.d/openshift.conf echo "kernel.sem = 250 32000 32 4096" >> /etc/sysctl.d/openshift.conf echo "net.ipv4.ip_local_port_range = 15000 35530" >> /etc/sysctl.d/openshift.conf echo "net.netfilter.nf_conntrack_max = 1048576" >> /etc/sysctl.d/openshift.conf sysctl -p /etc/sysctl.d/openshift.conf
Configuring SSH, Port Proxy, and Node on the node host
- ON NODE
- SSH
vi /etc/ssh/sshd_config > AcceptEnv GIT_SSH perl -p -i -e "s/^#MaxSessions .*$/MaxSessions 40/" /etc/ssh/sshd_config perl -p -i -e "s/^#MaxStartups .*$/MaxStartups 40/" /etc/ssh/sshd_config /bin/systemctl restart sshd.service
- PORT PROXY
firewall-cmd --add-port=35531-65535/tcp firewall-cmd --permanent --add-port=35531-65535/tcp firewall-cmd --list-all /bin/systemctl enable openshift-port-proxy.service /bin/systemctl restart openshift-port-proxy.service
- NODE SETUP
/bin/systemctl enable openshift-gears.service # Find node and broker IP address nm-tool vi /etc/openshift/node.conf > PUBLIC_HOSTNAME="node.example.com" > PUBLIC_IP="192.168.122.161" (Node IP Address) > BROKER_HOST="192.168.122.220" (Broker IP Address) > CLOUD_DOMAIN="example.com" /etc/cron.minutely/openshift-facts
Reboot Node
- ON NODE
reboot
Test
- ON BROKER (after node is back up)
mco ping curl -k -u demo:demo https://localhost/broker/rest/api
yum -y install rubygem-rhc LIBRA_SERVER=broker.example.com rhc setup