install/CreateInstaller.sh - voltha - Gitiles

 #!/bin/bash


 iVmName="vInstaller"
 vVmName="voltha_voltha"
 baseImage="Ubuntu1604LTS"
 iVmNetwork="vagrant-libvirt"
 installerArchive="installer.tar.bz2"
 installerDirectory="volthaInstaller"
 installerPart="installer.part"
 shutdownTimeout=5
 ipTimeout=10

 # Command line argument variables
 testMode="no"
 rebuildVoltha="no"
 useKubernetes="no"


 lBlue='\033[1;34m'
 green='\033[0;32m'
 orange='\033[0;33m'
 NC='\033[0m'
 red='\033[0;31m'
 yellow='\033[1;33m'
 dGrey='\033[1;30m'
 lGrey='\033[1;37m'
 lCyan='\033[1;36m'

 uId=`id -u`
 wd=`pwd`

 parse_args()
 {
 	for i in $@
 	do
 		case "$i" in
 			"test" )
 				testMode="yes"
 				echo -e "${lBlue}Test mode is ${green}enabled${NC}"
 				;;
 			"rebuild" )
 				rebuildVoltha="yes"
 				echo -e "${lBlue}Voltha rebuild is ${green}enabled${NC}"
 				;;
                         "k8s" )
                                 useKubernetes="yes"
                                 echo -e "${lBlue}Kubernetes framework is ${green}enabled${NC}"
                                 ;;
 		esac
 	done
 }


 ######################################
 # MAIN MAIN MAIN MAIN MAIN MAIN MAIN #
 ######################################
 parse_args $@
 # Validate that vagrant is installed.
 echo -e "${lBlue}Ensure that ${lCyan}vagrant${lBlue} is installed${NC}"
 vInst=`which vagrant`

 if [ -z "$vInst" ]; then
 	wget https://releases.hashicorp.com/vagrant/1.9.5/vagrant_1.9.5_x86_64.deb
 	sudo dpkg -i vagrant_1.8.5_x86_64.deb
 	rm vagrant_1.8.5_x86_64.deb
 fi
 unset vInst

 # Validate that ansible is installed
 echo -e "${lBlue}Ensure that ${lCyan}ansible${lBlue} is installed${NC}"
 aInst=`which ansible`

 if [ -z "$aInst" ]; then
 	sudo apt-get install -y software-properties-common
 	sudo apt-add-repository ppa:ansible/ansible
 	sudo apt-get update
 	sudo apt-get install -y ansible
 fi
 unset vInst

 # Verify if this is intended to be a test environment, if so
 # configure the 3 VMs which will be started later to emulate
 # the production installation cluster.
 if [ "$testMode" == "yes" ]; then
 	echo -e "${lBlue}Test mode ${green}enabled${lBlue}, configure the ${lCyan}ha-serv${lBlue} VMs${NC}"
 	# Update the vagrant settings file
 	sed -i -e '/server_name/s/.*/server_name: "ha-serv'${uId}'-"/' settings.vagrant.yaml
 	sed -i -e '/docker_push_registry/s/.*/docker_push_registry: "vinstall'${uId}':5000"/' ansible/group_vars/all
 	sed -i -e "/vinstall/s/vinstall/vinstall${uId}/" ../ansible/roles/docker/templates/daemon.json

 	# Set the insecure registry configuration based on the installer hostname
 	echo -e "${lBlue}Set up the insecure registry config for hostname ${lCyan}vinstall${uId}${NC}"
 	echo '{' > ansible/roles/voltha/templates/daemon.json
 	echo '"insecure-registries" : ["vinstall'${uId}':5000"]' >> ansible/roles/voltha/templates/daemon.json
 	echo '}' >> ansible/roles/voltha/templates/daemon.json

 	# Change the installer name
 	iVmName="vInstaller${uId}"
 else
 	rm -fr .test
 	# Clean out the install config file keeping only the commented lines
         # which serve as documentation.
 	sed -i -e '/^#/!d' install.cfg
 	# Set the insecure registry configuration based on the installer hostname
 	echo -e "${lBlue}Set up the inescure registry config for hostname ${lCyan}vinstall${NC}"
 	sed -i -e '/docker_push_registry/s/.*/docker_push_registry: "vinstall:5000"/' ansible/group_vars/all
 	echo '{' > ansible/roles/voltha/templates/daemon.json
 	echo '"insecure-registries" : ["vinstall:5000"]' >> ansible/roles/voltha/templates/daemon.json
 	echo '}' >> ansible/roles/voltha/templates/daemon.json
 fi

 # Check to make sure that the vagrant-libvirt network is both defined and started
 echo -e "${lBlue}Verify tha the ${lCyan}vagrant-libvirt${lBlue} network is defined and started${NC}"
 virsh net-list --all | grep "vagrant-libvirt" > /dev/null
 rtrn=$?
 if [ $rtrn -eq 1 ]; then
 	# Not defined
 	echo -e "${lBlue}Defining the ${lCyan}vagrant-libvirt${lBlue} network${NC}"
 	virsh net-define vagrant-libvirt.xml
 	echo -e "${lBlue}Starting the ${lCyan}vagrant-libvirt${lBlue} network${NC}"
 	virsh net-start vagrant-libvirt
 else
 	virsh net-list | grep "vagrant-libvirt" > /dev/null
 	rtrn=$?
 	if [ $rtrn -eq 1 ]; then
 		# Defined but not started
 		echo -e "${lBlue}Starting the ${lCyan}vagrant-libvirt${lBlue} network${NC}"
 		virsh net-start vagrant-libvirt

 	else
 		# Defined and running
 		echo -e "${lBlue}The ${lCyan}vagrant-libvirt${lBlue} network is ${green} running${NC}"
 	fi
 fi

 # Check that the default storage pool exists and create it if it doesn't
 virsh pool-list --all | grep default > /dev/null
 rtrn=$?
 if [ $rtrn -eq 1 ]; then
 	# Not defined
 	echo -e "${lBlue}Defining the ${lCyan}defaul${lBlue} storage pool${NC}"
 	virsh pool-define-as --name default --type dir --target /var/lib/libvirt/images/
 	virsh pool-autostart default
 	echo -e "${lBlue}Starting the ${lCyan}defaul${lBlue} storage pool${NC}"
 	virsh pool-start default
 else
 	virsh pool-list | grep default > /dev/null
 	rtrn=$?
 	if [ $rtrn -eq 1 ]; then
 		# Defined but not started
 		echo -e "${lBlue}Starting the ${lCyan}defaul${lBlue} storage pool${NC}"
 		virsh pool-start default
 	else
 		# Defined and running
 		echo -e "${lBlue}The ${lCyan}default${lBlue} storage pool ${green} running${NC}"
 	fi
 fi


 # Shut down the domain in case it's running.
 echo -e "${lBlue}Shut down the ${lCyan}$iVmName${lBlue} VM if running${NC}"
 ctr=0
 vStat=`virsh list | grep $iVmName`
 virsh shutdown $iVmName
 while [ ! -z "$vStat" ];
 do
 	echo "Waiting for $iVmName to shut down"
 	sleep 2
 	vStat=`virsh list | grep "$iVmName "`
 	ctr=`expr $ctr + 1`
 	if [ $ctr -eq $shutdownTimeout ]; then
 		echo -e "${red}Tired of waiting, forcing the VM off${NC}"
 		virsh destroy $iVmName
 		vStat=`virsh list | grep "$iVmName "`
 	fi
 done


 # Delete the VM and ignore any errors should they occur
 echo -e "${lBlue}Undefining the ${lCyan}$iVmName${lBlue} domain${NC}"
 virsh undefine $iVmName

 # Remove the associated volume
 echo -e "${lBlue}Removing the ${lCyan}$iVmName.qcow2${lBlue} volume${NC}"
 virsh vol-delete "${iVmName}.qcow2" default

 # Clone the base vanilla ubuntu install
 echo -e "${lBlue}Cloning the ${lCyan}$baseImage.qcow2${lBlue} to ${lCyan}$iVmName.qcow2${NC}"
 virsh vol-clone "${baseImage}.qcow2" "${iVmName}.qcow2" default

 # Create the xml file and define the VM for virsh
 echo -e "${lBlue}Defining the  ${lCyan}$iVmName${lBlue} virtual machine${NC}"
 cat vmTemplate.xml | sed -e "s/{{ VMName }}/$iVmName/g" | sed -e "s/{{ VMNetwork }}/$iVmNetwork/g" > tmp.xml

 virsh define tmp.xml

 rm tmp.xml

 # Start the VMm, if it's already running just ignore the error
 echo -e "${lBlue}Starting the ${lCyan}$iVmName${lBlue} virtual machine${NC}"
 virsh start $iVmName > /dev/null 2>&1

 # Generate a keypair for communicating with the VM
 echo -e "${lBlue}Generating the key-pair for communication with the VM${NC}"
 ssh-keygen -f ./key -t rsa -N ''

 mv key key.pem

 # Clone BashLogin.sh and add the public key to it for later use.
 echo -e "${lBlue}Creating the pre-configuration script${NC}"
 cp BashLogin.sh bash_login.sh
 echo "cat <<HERE > .ssh/authorized_keys" >> bash_login.sh
 cat key.pub >> bash_login.sh
 echo "HERE" >> bash_login.sh
 echo "chmod 400 .ssh/authorized_keys" >> bash_login.sh
 echo "rm .bash_login" >> bash_login.sh
 echo "logout" >> bash_login.sh
 rm key.pub


 # Get the VM's IP address
 ctr=0
 ipAddr=""
 while [ -z "$ipAddr" ];
 do
 	echo -e "${lBlue}Waiting for the VM's IP address${NC}"
 	ipAddr=`virsh domifaddr $iVmName | tail -n +3 | awk '{ print $4 }' | sed -e 's~/.*~~'`
 	sleep 3
 	if [ $ctr -eq $ipTimeout ]; then
 		echo -e "${red}Tired of waiting, please adjust the ipTimeout if the VM is slow to start${NC}"
 		exit
 	fi
 	ctr=`expr $ctr + 1`
 done

 echo -e "${lBlue}The IP address is: ${lCyan}$ipAddr${NC}"

 # Copy the pre-config file to the VM
 echo -e "${lBlue}Transfering pre-configuration script to the VM${NC}"
 scp -o UserKnownHostsFile=/dev/null -o StrictHostKeyChecking=no bash_login.sh vinstall@$ipAddr:.bash_login

 rm bash_login.sh

 # Run the pre-config file on the VM
 echo -e "${lBlue}Running the pre-configuration script on the VM${NC}"
 ssh -o UserKnownHostsFile=/dev/null -o StrictHostKeyChecking=no vinstall@$ipAddr

 # If we're in test mode, change the hostname of the installer vm
 # also start the 3 vagrant target VMs
 if [ "$testMode" == "yes" ]; then
 	echo -e "${lBlue}Test mode, change the installer host name to ${lCyan}vinstall${uId}${NC}"
 	ssh -o UserKnownHostsFile=/dev/null -o StrictHostKeyChecking=no -i key.pem vinstall@$ipAddr \
 		sudo hostnamectl set-hostname vinstall${uId}
 	ssh -o UserKnownHostsFile=/dev/null -o StrictHostKeyChecking=no -i key.pem vinstall@$ipAddr \
 		sudo service networking restart

 	echo -e "${lBlue}Testing, start the ${lCyan}ha-serv${lBlue} VMs${NC}"
 	vagrant destroy ha-serv${uId}-{1,2,3}
 	vagrant up ha-serv${uId}-{1,2,3}
 	./devSetHostList.sh

 	if [ "$useKubernetes" == "yes" ]; then
 		./devSetKubernetes.sh
 	fi
 fi

 # Ensure that the voltha VM is running so that images can be secured
 echo -e "${lBlue}Ensure that the ${lCyan}voltha VM${lBlue} is running${NC}"
 vVm=`virsh list | grep "voltha_voltha${uId}"`
 #echo "vVm: $vVm"
 #echo "rebuildVoltha: $rebuildVoltha"


 if [ -z "$vVm" -o "$rebuildVoltha" == "yes" ]; then
 	if [ "$testMode" == "yes" ]; then
 		./BuildVoltha.sh "test"
 		rtrn=$?
 	else
 		# Default to installer mode
 		./BuildVoltha.sh "install"
 		rtrn=$?
 	fi
 	if [ $rtrn -ne 0 ]; then
 		echo -e "${red}Voltha build failed!! ${lCyan}Please review the log and correct${lBlue} is running${NC}"
 		exit 1
 	fi

         if [ "$useKubernetes" == "yes" ]; then
 		# Load required k8s libraries on the voltha instance
                 ./preloadKubernetes.sh
         fi
 fi

 # Extract all the image names and tags from the running voltha VM
 # when running in test mode. This will provide the entire suite
 # of available containers to the VM cluster.

 if [ "$testMode" == "yes" ]; then
 	echo -e "${lBlue}Extracting the docker image list from the voltha VM${NC}"
 	volIpAddr=`virsh domifaddr $vVmName${uId} | tail -n +3 | awk '{ print $4 }' | sed -e 's~/.*~~'`
 	ssh -o UserKnownHostsFile=/dev/null -o StrictHostKeyChecking=no -i ../.vagrant/machines/voltha${uId}/libvirt/private_key vagrant@$volIpAddr "docker image ls" > images.tmp
         # Construct list of images; exclude all entries that point to the registry
 	cat images.tmp | grep -v :5000 | tail -n +2 | awk '{printf("  - %s:%s\n", $1, $2)}' | grep -v "<none>" > image-list.cfg
 	rm -f images.tmp
 	sed -i -e '/voltha_containers:/,$d' ansible/group_vars/all
 	echo "voltha_containers:" >> ansible/group_vars/all
 	cat image-list.cfg >> ansible/group_vars/all
 	rm -f image-list.cfg
 	echo -e "${lBlue}Gussing at the cord home directory for ${yellow}`whoami`${NC}"
 	sed -i -e "/cord_home:/s#.*#cord_home: `pwd | sed -e 's~/incubator/voltha/install~~'`#" ansible/group_vars/all
 else
 	echo -e "${lBlue}Set up the docker image list from ${lCyan}containers.cfg${NC}"
 	sed -i -e '/voltha_containers:/,$d' ansible/group_vars/all

         if [ "$useKubernetes" == "yes" ]; then
 		cat containers.cfg.k8s >> ansible/group_vars/all
  	else
 		cat containers.cfg >> ansible/group_vars/all
 	fi
 fi


 # Install python which is required for ansible
 echo -e "${lBlue}Installing ${lCyan}Python${NC}"
 ssh -o UserKnownHostsFile=/dev/null -o StrictHostKeyChecking=no -i key.pem vinstall@$ipAddr sudo apt-get update
 ssh -o UserKnownHostsFile=/dev/null -o StrictHostKeyChecking=no -i key.pem vinstall@$ipAddr sudo apt-get -y install python python-netaddr

 # Move all the python deb files to their own directory so they can be installed first
 echo -e "${lBlue}Caching ${lCyan}Python${lBlue} install${NC}"
 ssh -o UserKnownHostsFile=/dev/null -o StrictHostKeyChecking=no -i key.pem vinstall@$ipAddr mkdir python-deb
 ssh -o UserKnownHostsFile=/dev/null -o StrictHostKeyChecking=no -i key.pem vinstall@$ipAddr "sudo mv /var/cache/apt/archives/*.deb /home/vinstall/python-deb"
 ssh -o UserKnownHostsFile=/dev/null -o StrictHostKeyChecking=no -i key.pem vinstall@$ipAddr "sudo chown -R vinstall.vinstall /home/vinstall/python-deb"

 if [ "$useKubernetes" == "yes" ]; then
        echo -e "${lBlue}Cloning ${lCyan}Kubespray${lBlue} repository${NC}"
        ssh -o UserKnownHostsFile=/dev/null -o StrictHostKeyChecking=no -i key.pem vinstall@$ipAddr "git clone --branch v2.5.0 https://github.com/kubernetes-incubator/kubespray.git /home/vinstall/kubespray"
        ssh -o UserKnownHostsFile=/dev/null -o StrictHostKeyChecking=no -i key.pem vinstall@$ipAddr "sudo chown -R vinstall.vinstall /home/vinstall/kubespray"
 fi

 # Create the docker.cfg file in the ansible tree using the VMs IP address
 echo 'DOCKER_OPTS="$DOCKER_OPTS --insecure-registry '$ipAddr':5000 -H tcp://0.0.0.0:2375 -H unix:///var/run/docker.sock --registry-mirror=http://'$ipAddr':5001"' > ansible/roles/docker/templates/docker.cfg

 # Add the voltha vm's information to the ansible tree
 echo -e "${lBlue}Add the voltha vm and key to the ansible accessible hosts${NC}"
 vIpAddr=`virsh domifaddr voltha_voltha${uId} | tail -n +3 | awk '{ print $4 }' | sed -e 's~/.*~~'`
 echo "[voltha]" > ansible/hosts/voltha
 echo $vIpAddr >> ansible/hosts/voltha
 echo "ansible_ssh_private_key_file: $wd/../.vagrant/machines/voltha${uId}/libvirt/private_key" > ansible/host_vars/$vIpAddr


 # Prepare to launch the ansible playbook to configure the installer VM
 echo -e "${lBlue}Prepare to launch the ansible playbook to configure the VM${NC}"
 echo "[installer]" > ansible/hosts/installer
 echo "$ipAddr" >> ansible/hosts/installer
 echo "ansible_ssh_private_key_file: $wd/key.pem" > ansible/host_vars/$ipAddr

 # Launch the ansible playbooks

 echo -e "${lBlue}Launching the ${lCyan}volthainstall${lBlue} ansible playbook on the installer vm${NC}"
 ansible-playbook ansible/volthainstall.yml -i ansible/hosts/installer
 rtrn=$?
 if [ $rtrn -ne 0 ]; then
 	echo -e "${red}PLAYBOOK FAILED, Exiting${NC}"
 	exit
 fi


 echo -e "${lBlue}Launching the ${lCyan}volthainstall${lBlue} ansible playbook on the voltha vm${NC}"
 ansible-playbook ansible/volthainstall.yml -i ansible/hosts/voltha
 rtrn=$?
 if [ $rtrn -ne 0 ]; then
 	echo -e "${red}PLAYBOOK FAILED, Exiting${NC}"
 	exit
 fi

 if [ "$testMode" == "yes" ]; then
 	echo -e "${lBlue}Testing, the install image ${red}WILL NOT${lBlue} be built${NC}"


 	# Reboot the installer
 	echo -e "${lBlue}Rebooting the installer${NC}"
 	ssh -o UserKnownHostsFile=/dev/null -o StrictHostKeyChecking=no -i key.pem vinstall@$ipAddr sudo telinit 6
 	# Wait for the host to shut down
 	sleep 5

 	ctr=0
 	ipAddr=""
 	while [ -z "$ipAddr" ];
 	do
 		echo -e "${lBlue}Waiting for the VM's IP address${NC}"
 		ipAddr=`virsh domifaddr $iVmName | tail -n +3 | awk '{ print $4 }' | sed -e 's~/.*~~'`
 		sleep 3
 		if [ $ctr -eq $ipTimeout ]; then
 			echo -e "${red}Tired of waiting, please adjust the ipTimeout if the VM is slow to start${NC}"
 			exit
 		fi
 		ctr=`expr $ctr + 1`
 	done

 	echo -e "${lBlue}Running the installer${NC}"
 	echo "~/installer.sh" > tmp_bash_login
 	echo "rm ~/.bash_login" >> tmp_bash_login
 	echo "logout" >> tmp_bash_login
 	scp -o UserKnownHostsFile=/dev/null -o StrictHostKeyChecking=no -i key.pem tmp_bash_login vinstall@$ipAddr:.bash_login
 	rm -f tmp_bash_login
 	ssh -o UserKnownHostsFile=/dev/null -o StrictHostKeyChecking=no -i key.pem vinstall@$ipAddr

 else
 	echo -e "${lBlue}Building, the install image (this can take a while)${NC}"
 	# Create a temporary directory for all the installer files
         mkdir tmp_installer
         cp vmTemplate.xml tmp_installer
 	# Shut down the installer vm
 	ctr=0
 	vStat=`virsh list | grep $iVmName`
 	virsh shutdown $iVmName
 	while [ ! -z "$vStat" ];
 	do
 		echo "Waiting for $iVmName to shut down"
 		sleep 2
 		vStat=`virsh list | grep "$iVmName "`
 		ctr=`expr $ctr + 1`
 		if [ $ctr -eq $shutdownTimeout ]; then
 			echo -e "${red}Tired of waiting, forcing the VM off${NC}"
 			virsh destroy $iVmName
 			vStat=`virsh list | grep "$iVmName "`
 		fi
 	done
         # Copy the install bootstrap script to the installer directory
         cp BootstrapInstaller.sh tmp_installer
         # Copy the private key to access the VM
         cp key.pem tmp_installer
         pushd tmp_installer > /dev/null 2>&1
         # Copy the vm image to the installer directory
 	virsh vol-dumpxml $iVmName.qcow2 default  | sed -e 's/<key.*key>//' | sed -e '/^[ ]*$/d' > ${iVmName}_volume.xml
 	virsh pool-create-as installer --type dir --target `pwd`
 	virsh vol-create-from installer ${iVmName}_volume.xml $iVmName.qcow2 --inputpool default
 	virsh pool-destroy installer
 	# The image is copied in as root. It needs to have ownership changed
 	# this will result in a password prompt.
 	sudo chown `whoami`.`whoami` $iVmName.qcow2
 	# Now create the installer tar file
         tar cjf ../$installerArchive .
         popd > /dev/null 2>&1
 	# Clean up
 	rm -fr tmp_installer
 	# Final location for the installer
 	rm -fr $installerDirectory
 	mkdir $installerDirectory
 	cp deployInstaller.sh $installerDirectory
 	# Check the image size and determine if it needs to be split.
         # To be safe, split the image into chunks smaller than 2G so that
         # it will fit on a FAT32 volume.
 	fSize=`ls -l $installerArchive | awk '{print $5'}`
 	if [ $fSize -gt 2000000000 ]; then
 		echo -e "${lBlue}Installer file too large, breaking into parts${NC}"
 		# The file is too large, breaking it up into parts
 		sPos=0
 		fnn="00"
 		while dd if=$installerArchive of=${installerDirectory}/${installerPart}$fnn \
 			bs=1900MB count=1 skip=$sPos > /dev/null 2>&1
 		do
 			sPos=`expr $sPos + 1`
 			if [ ! -s ${installerDirectory}/${installerPart}$fnn ]; then
 				rm -f ${installerDirectory}/${installerPart}$fnn
 				break
 			fi
 			if [ $sPos -lt 10 ]; then
 				fnn="0$sPos"
 			else
 				fnn="$sPos"
 			fi
 		done
 	else
 		cp $installerArchive $installerDirectory
 	fi
 	# Clean up
 	rm $installerArchive
 	echo -e "${lBlue}The install image is built and can be found in ${lCyan}$installerDirectory${NC}"
 	echo -e "${lBlue}Copy all the files in ${lCyan}$installerDirectory${lBlue} to the traasnport media${NC}"
 fi
	#!/bin/bash


	iVmName="vInstaller"
	vVmName="voltha_voltha"
	baseImage="Ubuntu1604LTS"
	iVmNetwork="vagrant-libvirt"
	installerArchive="installer.tar.bz2"
	installerDirectory="volthaInstaller"
	installerPart="installer.part"
	shutdownTimeout=5
	ipTimeout=10

	# Command line argument variables
	testMode="no"
	rebuildVoltha="no"
	useKubernetes="no"



	lBlue='\033[1;34m'
	green='\033[0;32m'
	orange='\033[0;33m'
	NC='\033[0m'
	red='\033[0;31m'
	yellow='\033[1;33m'
	dGrey='\033[1;30m'
	lGrey='\033[1;37m'
	lCyan='\033[1;36m'

	uId=`id -u`
	wd=`pwd`

	parse_args()
	{
	for i in $@
	do
	case "$i" in
	"test" )
	testMode="yes"
	echo -e "${lBlue}Test mode is ${green}enabled${NC}"
	;;
	"rebuild" )
	rebuildVoltha="yes"
	echo -e "${lBlue}Voltha rebuild is ${green}enabled${NC}"
	;;
	"k8s" )
	useKubernetes="yes"
	echo -e "${lBlue}Kubernetes framework is ${green}enabled${NC}"
	;;
	esac
	done
	}


	######################################
	# MAIN MAIN MAIN MAIN MAIN MAIN MAIN #
	######################################
	parse_args $@
	# Validate that vagrant is installed.
	echo -e "${lBlue}Ensure that ${lCyan}vagrant${lBlue} is installed${NC}"
	vInst=`which vagrant`

	if [ -z "$vInst" ]; then
	wget https://releases.hashicorp.com/vagrant/1.9.5/vagrant_1.9.5_x86_64.deb
	sudo dpkg -i vagrant_1.8.5_x86_64.deb
	rm vagrant_1.8.5_x86_64.deb
	fi
	unset vInst

	# Validate that ansible is installed
	echo -e "${lBlue}Ensure that ${lCyan}ansible${lBlue} is installed${NC}"
	aInst=`which ansible`

	if [ -z "$aInst" ]; then
	sudo apt-get install -y software-properties-common
	sudo apt-add-repository ppa:ansible/ansible
	sudo apt-get update
	sudo apt-get install -y ansible
	fi
	unset vInst

	# Verify if this is intended to be a test environment, if so
	# configure the 3 VMs which will be started later to emulate
	# the production installation cluster.
	if [ "$testMode" == "yes" ]; then
	echo -e "${lBlue}Test mode ${green}enabled${lBlue}, configure the ${lCyan}ha-serv${lBlue} VMs${NC}"
	# Update the vagrant settings file
	sed -i -e '/server_name/s/.*/server_name: "ha-serv'${uId}'-"/' settings.vagrant.yaml
	sed -i -e '/docker_push_registry/s/.*/docker_push_registry: "vinstall'${uId}':5000"/' ansible/group_vars/all
	sed -i -e "/vinstall/s/vinstall/vinstall${uId}/" ../ansible/roles/docker/templates/daemon.json

	# Set the insecure registry configuration based on the installer hostname
	echo -e "${lBlue}Set up the insecure registry config for hostname ${lCyan}vinstall${uId}${NC}"
	echo '{' > ansible/roles/voltha/templates/daemon.json
	echo '"insecure-registries" : ["vinstall'${uId}':5000"]' >> ansible/roles/voltha/templates/daemon.json
	echo '}' >> ansible/roles/voltha/templates/daemon.json

	# Change the installer name
	iVmName="vInstaller${uId}"
	else
	rm -fr .test
	# Clean out the install config file keeping only the commented lines
	# which serve as documentation.
	sed -i -e '/^#/!d' install.cfg
	# Set the insecure registry configuration based on the installer hostname
	echo -e "${lBlue}Set up the inescure registry config for hostname ${lCyan}vinstall${NC}"
	sed -i -e '/docker_push_registry/s/.*/docker_push_registry: "vinstall:5000"/' ansible/group_vars/all
	echo '{' > ansible/roles/voltha/templates/daemon.json
	echo '"insecure-registries" : ["vinstall:5000"]' >> ansible/roles/voltha/templates/daemon.json
	echo '}' >> ansible/roles/voltha/templates/daemon.json
	fi

	# Check to make sure that the vagrant-libvirt network is both defined and started
	echo -e "${lBlue}Verify tha the ${lCyan}vagrant-libvirt${lBlue} network is defined and started${NC}"
	virsh net-list --all \| grep "vagrant-libvirt" > /dev/null
	rtrn=$?
	if [ $rtrn -eq 1 ]; then
	# Not defined
	echo -e "${lBlue}Defining the ${lCyan}vagrant-libvirt${lBlue} network${NC}"
	virsh net-define vagrant-libvirt.xml
	echo -e "${lBlue}Starting the ${lCyan}vagrant-libvirt${lBlue} network${NC}"
	virsh net-start vagrant-libvirt
	else
	virsh net-list \| grep "vagrant-libvirt" > /dev/null
	rtrn=$?
	if [ $rtrn -eq 1 ]; then
	# Defined but not started
	echo -e "${lBlue}Starting the ${lCyan}vagrant-libvirt${lBlue} network${NC}"
	virsh net-start vagrant-libvirt

	else
	# Defined and running
	echo -e "${lBlue}The ${lCyan}vagrant-libvirt${lBlue} network is ${green} running${NC}"
	fi
	fi

	# Check that the default storage pool exists and create it if it doesn't
	virsh pool-list --all \| grep default > /dev/null
	rtrn=$?
	if [ $rtrn -eq 1 ]; then
	# Not defined
	echo -e "${lBlue}Defining the ${lCyan}defaul${lBlue} storage pool${NC}"
	virsh pool-define-as --name default --type dir --target /var/lib/libvirt/images/
	virsh pool-autostart default
	echo -e "${lBlue}Starting the ${lCyan}defaul${lBlue} storage pool${NC}"
	virsh pool-start default
	else
	virsh pool-list \| grep default > /dev/null
	rtrn=$?
	if [ $rtrn -eq 1 ]; then
	# Defined but not started
	echo -e "${lBlue}Starting the ${lCyan}defaul${lBlue} storage pool${NC}"
	virsh pool-start default
	else
	# Defined and running
	echo -e "${lBlue}The ${lCyan}default${lBlue} storage pool ${green} running${NC}"
	fi
	fi


	# Shut down the domain in case it's running.
	echo -e "${lBlue}Shut down the ${lCyan}$iVmName${lBlue} VM if running${NC}"
	ctr=0
	vStat=`virsh list \| grep $iVmName`
	virsh shutdown $iVmName
	while [ ! -z "$vStat" ];
	do
	echo "Waiting for $iVmName to shut down"
	sleep 2
	vStat=`virsh list \| grep "$iVmName "`
	ctr=`expr $ctr + 1`
	if [ $ctr -eq $shutdownTimeout ]; then
	echo -e "${red}Tired of waiting, forcing the VM off${NC}"
	virsh destroy $iVmName
	vStat=`virsh list \| grep "$iVmName "`
	fi
	done


	# Delete the VM and ignore any errors should they occur
	echo -e "${lBlue}Undefining the ${lCyan}$iVmName${lBlue} domain${NC}"
	virsh undefine $iVmName

	# Remove the associated volume
	echo -e "${lBlue}Removing the ${lCyan}$iVmName.qcow2${lBlue} volume${NC}"
	virsh vol-delete "${iVmName}.qcow2" default

	# Clone the base vanilla ubuntu install
	echo -e "${lBlue}Cloning the ${lCyan}$baseImage.qcow2${lBlue} to ${lCyan}$iVmName.qcow2${NC}"
	virsh vol-clone "${baseImage}.qcow2" "${iVmName}.qcow2" default

	# Create the xml file and define the VM for virsh
	echo -e "${lBlue}Defining the ${lCyan}$iVmName${lBlue} virtual machine${NC}"
	cat vmTemplate.xml \| sed -e "s/{{ VMName }}/$iVmName/g" \| sed -e "s/{{ VMNetwork }}/$iVmNetwork/g" > tmp.xml

	virsh define tmp.xml

	rm tmp.xml

	# Start the VMm, if it's already running just ignore the error
	echo -e "${lBlue}Starting the ${lCyan}$iVmName${lBlue} virtual machine${NC}"
	virsh start $iVmName > /dev/null 2>&1

	# Generate a keypair for communicating with the VM
	echo -e "${lBlue}Generating the key-pair for communication with the VM${NC}"
	ssh-keygen -f ./key -t rsa -N ''

	mv key key.pem

	# Clone BashLogin.sh and add the public key to it for later use.
	echo -e "${lBlue}Creating the pre-configuration script${NC}"
	cp BashLogin.sh bash_login.sh
	echo "cat <<HERE > .ssh/authorized_keys" >> bash_login.sh
	cat key.pub >> bash_login.sh
	echo "HERE" >> bash_login.sh
	echo "chmod 400 .ssh/authorized_keys" >> bash_login.sh
	echo "rm .bash_login" >> bash_login.sh
	echo "logout" >> bash_login.sh
	rm key.pub



	# Get the VM's IP address
	ctr=0
	ipAddr=""
	while [ -z "$ipAddr" ];
	do
	echo -e "${lBlue}Waiting for the VM's IP address${NC}"
	ipAddr=`virsh domifaddr $iVmName \| tail -n +3 \| awk '{ print $4 }' \| sed -e 's~/.*~~'`
	sleep 3
	if [ $ctr -eq $ipTimeout ]; then
	echo -e "${red}Tired of waiting, please adjust the ipTimeout if the VM is slow to start${NC}"
	exit
	fi
	ctr=`expr $ctr + 1`
	done

	echo -e "${lBlue}The IP address is: ${lCyan}$ipAddr${NC}"

	# Copy the pre-config file to the VM
	echo -e "${lBlue}Transfering pre-configuration script to the VM${NC}"
	scp -o UserKnownHostsFile=/dev/null -o StrictHostKeyChecking=no bash_login.sh vinstall@$ipAddr:.bash_login

	rm bash_login.sh

	# Run the pre-config file on the VM
	echo -e "${lBlue}Running the pre-configuration script on the VM${NC}"
	ssh -o UserKnownHostsFile=/dev/null -o StrictHostKeyChecking=no vinstall@$ipAddr

	# If we're in test mode, change the hostname of the installer vm
	# also start the 3 vagrant target VMs
	if [ "$testMode" == "yes" ]; then
	echo -e "${lBlue}Test mode, change the installer host name to ${lCyan}vinstall${uId}${NC}"
	ssh -o UserKnownHostsFile=/dev/null -o StrictHostKeyChecking=no -i key.pem vinstall@$ipAddr \
	sudo hostnamectl set-hostname vinstall${uId}
	ssh -o UserKnownHostsFile=/dev/null -o StrictHostKeyChecking=no -i key.pem vinstall@$ipAddr \
	sudo service networking restart

	echo -e "${lBlue}Testing, start the ${lCyan}ha-serv${lBlue} VMs${NC}"
	vagrant destroy ha-serv${uId}-{1,2,3}
	vagrant up ha-serv${uId}-{1,2,3}
	./devSetHostList.sh

	if [ "$useKubernetes" == "yes" ]; then
	./devSetKubernetes.sh
	fi
	fi

	# Ensure that the voltha VM is running so that images can be secured
	echo -e "${lBlue}Ensure that the ${lCyan}voltha VM${lBlue} is running${NC}"
	vVm=`virsh list \| grep "voltha_voltha${uId}"`
	#echo "vVm: $vVm"
	#echo "rebuildVoltha: $rebuildVoltha"


	if [ -z "$vVm" -o "$rebuildVoltha" == "yes" ]; then
	if [ "$testMode" == "yes" ]; then
	./BuildVoltha.sh "test"
	rtrn=$?
	else
	# Default to installer mode
	./BuildVoltha.sh "install"
	rtrn=$?
	fi
	if [ $rtrn -ne 0 ]; then
	echo -e "${red}Voltha build failed!! ${lCyan}Please review the log and correct${lBlue} is running${NC}"
	exit 1
	fi

	if [ "$useKubernetes" == "yes" ]; then
	# Load required k8s libraries on the voltha instance
	./preloadKubernetes.sh
	fi
	fi

	# Extract all the image names and tags from the running voltha VM
	# when running in test mode. This will provide the entire suite
	# of available containers to the VM cluster.

	if [ "$testMode" == "yes" ]; then
	echo -e "${lBlue}Extracting the docker image list from the voltha VM${NC}"
	volIpAddr=`virsh domifaddr $vVmName${uId} \| tail -n +3 \| awk '{ print $4 }' \| sed -e 's~/.*~~'`
	ssh -o UserKnownHostsFile=/dev/null -o StrictHostKeyChecking=no -i ../.vagrant/machines/voltha${uId}/libvirt/private_key vagrant@$volIpAddr "docker image ls" > images.tmp
	# Construct list of images; exclude all entries that point to the registry
	cat images.tmp \| grep -v :5000 \| tail -n +2 \| awk '{printf(" - %s:%s\n", $1, $2)}' \| grep -v "<none>" > image-list.cfg
	rm -f images.tmp
	sed -i -e '/voltha_containers:/,$d' ansible/group_vars/all
	echo "voltha_containers:" >> ansible/group_vars/all
	cat image-list.cfg >> ansible/group_vars/all
	rm -f image-list.cfg
	echo -e "${lBlue}Gussing at the cord home directory for ${yellow}`whoami`${NC}"
	sed -i -e "/cord_home:/s#.*#cord_home: `pwd \| sed -e 's~/incubator/voltha/install~~'`#" ansible/group_vars/all
	else
	echo -e "${lBlue}Set up the docker image list from ${lCyan}containers.cfg${NC}"
	sed -i -e '/voltha_containers:/,$d' ansible/group_vars/all

	if [ "$useKubernetes" == "yes" ]; then
	cat containers.cfg.k8s >> ansible/group_vars/all
	else
	cat containers.cfg >> ansible/group_vars/all
	fi
	fi


	# Install python which is required for ansible
	echo -e "${lBlue}Installing ${lCyan}Python${NC}"
	ssh -o UserKnownHostsFile=/dev/null -o StrictHostKeyChecking=no -i key.pem vinstall@$ipAddr sudo apt-get update
	ssh -o UserKnownHostsFile=/dev/null -o StrictHostKeyChecking=no -i key.pem vinstall@$ipAddr sudo apt-get -y install python python-netaddr

	# Move all the python deb files to their own directory so they can be installed first
	echo -e "${lBlue}Caching ${lCyan}Python${lBlue} install${NC}"
	ssh -o UserKnownHostsFile=/dev/null -o StrictHostKeyChecking=no -i key.pem vinstall@$ipAddr mkdir python-deb
	ssh -o UserKnownHostsFile=/dev/null -o StrictHostKeyChecking=no -i key.pem vinstall@$ipAddr "sudo mv /var/cache/apt/archives/*.deb /home/vinstall/python-deb"
	ssh -o UserKnownHostsFile=/dev/null -o StrictHostKeyChecking=no -i key.pem vinstall@$ipAddr "sudo chown -R vinstall.vinstall /home/vinstall/python-deb"

	if [ "$useKubernetes" == "yes" ]; then
	echo -e "${lBlue}Cloning ${lCyan}Kubespray${lBlue} repository${NC}"
	ssh -o UserKnownHostsFile=/dev/null -o StrictHostKeyChecking=no -i key.pem vinstall@$ipAddr "git clone --branch v2.5.0 https://github.com/kubernetes-incubator/kubespray.git /home/vinstall/kubespray"
	ssh -o UserKnownHostsFile=/dev/null -o StrictHostKeyChecking=no -i key.pem vinstall@$ipAddr "sudo chown -R vinstall.vinstall /home/vinstall/kubespray"
	fi

	# Create the docker.cfg file in the ansible tree using the VMs IP address
	echo 'DOCKER_OPTS="$DOCKER_OPTS --insecure-registry '$ipAddr':5000 -H tcp://0.0.0.0:2375 -H unix:///var/run/docker.sock --registry-mirror=http://'$ipAddr':5001"' > ansible/roles/docker/templates/docker.cfg

	# Add the voltha vm's information to the ansible tree
	echo -e "${lBlue}Add the voltha vm and key to the ansible accessible hosts${NC}"
	vIpAddr=`virsh domifaddr voltha_voltha${uId} \| tail -n +3 \| awk '{ print $4 }' \| sed -e 's~/.*~~'`
	echo "[voltha]" > ansible/hosts/voltha
	echo $vIpAddr >> ansible/hosts/voltha
	echo "ansible_ssh_private_key_file: $wd/../.vagrant/machines/voltha${uId}/libvirt/private_key" > ansible/host_vars/$vIpAddr


	# Prepare to launch the ansible playbook to configure the installer VM
	echo -e "${lBlue}Prepare to launch the ansible playbook to configure the VM${NC}"
	echo "[installer]" > ansible/hosts/installer
	echo "$ipAddr" >> ansible/hosts/installer
	echo "ansible_ssh_private_key_file: $wd/key.pem" > ansible/host_vars/$ipAddr

	# Launch the ansible playbooks

	echo -e "${lBlue}Launching the ${lCyan}volthainstall${lBlue} ansible playbook on the installer vm${NC}"
	ansible-playbook ansible/volthainstall.yml -i ansible/hosts/installer
	rtrn=$?
	if [ $rtrn -ne 0 ]; then
	echo -e "${red}PLAYBOOK FAILED, Exiting${NC}"
	exit
	fi


	echo -e "${lBlue}Launching the ${lCyan}volthainstall${lBlue} ansible playbook on the voltha vm${NC}"
	ansible-playbook ansible/volthainstall.yml -i ansible/hosts/voltha
	rtrn=$?
	if [ $rtrn -ne 0 ]; then
	echo -e "${red}PLAYBOOK FAILED, Exiting${NC}"
	exit
	fi

	if [ "$testMode" == "yes" ]; then
	echo -e "${lBlue}Testing, the install image ${red}WILL NOT${lBlue} be built${NC}"


	# Reboot the installer
	echo -e "${lBlue}Rebooting the installer${NC}"
	ssh -o UserKnownHostsFile=/dev/null -o StrictHostKeyChecking=no -i key.pem vinstall@$ipAddr sudo telinit 6
	# Wait for the host to shut down
	sleep 5

	ctr=0
	ipAddr=""
	while [ -z "$ipAddr" ];
	do
	echo -e "${lBlue}Waiting for the VM's IP address${NC}"
	ipAddr=`virsh domifaddr $iVmName \| tail -n +3 \| awk '{ print $4 }' \| sed -e 's~/.*~~'`
	sleep 3
	if [ $ctr -eq $ipTimeout ]; then
	echo -e "${red}Tired of waiting, please adjust the ipTimeout if the VM is slow to start${NC}"
	exit
	fi
	ctr=`expr $ctr + 1`
	done

	echo -e "${lBlue}Running the installer${NC}"
	echo "~/installer.sh" > tmp_bash_login
	echo "rm ~/.bash_login" >> tmp_bash_login
	echo "logout" >> tmp_bash_login
	scp -o UserKnownHostsFile=/dev/null -o StrictHostKeyChecking=no -i key.pem tmp_bash_login vinstall@$ipAddr:.bash_login
	rm -f tmp_bash_login
	ssh -o UserKnownHostsFile=/dev/null -o StrictHostKeyChecking=no -i key.pem vinstall@$ipAddr

	else
	echo -e "${lBlue}Building, the install image (this can take a while)${NC}"
	# Create a temporary directory for all the installer files
	mkdir tmp_installer
	cp vmTemplate.xml tmp_installer
	# Shut down the installer vm
	ctr=0
	vStat=`virsh list \| grep $iVmName`
	virsh shutdown $iVmName
	while [ ! -z "$vStat" ];
	do
	echo "Waiting for $iVmName to shut down"
	sleep 2
	vStat=`virsh list \| grep "$iVmName "`
	ctr=`expr $ctr + 1`
	if [ $ctr -eq $shutdownTimeout ]; then
	echo -e "${red}Tired of waiting, forcing the VM off${NC}"
	virsh destroy $iVmName
	vStat=`virsh list \| grep "$iVmName "`
	fi
	done
	# Copy the install bootstrap script to the installer directory
	cp BootstrapInstaller.sh tmp_installer
	# Copy the private key to access the VM
	cp key.pem tmp_installer
	pushd tmp_installer > /dev/null 2>&1
	# Copy the vm image to the installer directory
	virsh vol-dumpxml $iVmName.qcow2 default \| sed -e 's/<key.key>//' \| sed -e '/^[ ]$/d' > ${iVmName}_volume.xml
	virsh pool-create-as installer --type dir --target `pwd`
	virsh vol-create-from installer ${iVmName}_volume.xml $iVmName.qcow2 --inputpool default
	virsh pool-destroy installer
	# The image is copied in as root. It needs to have ownership changed
	# this will result in a password prompt.
	sudo chown `whoami`.`whoami` $iVmName.qcow2
	# Now create the installer tar file
	tar cjf ../$installerArchive .
	popd > /dev/null 2>&1
	# Clean up
	rm -fr tmp_installer
	# Final location for the installer
	rm -fr $installerDirectory
	mkdir $installerDirectory
	cp deployInstaller.sh $installerDirectory
	# Check the image size and determine if it needs to be split.
	# To be safe, split the image into chunks smaller than 2G so that
	# it will fit on a FAT32 volume.
	fSize=`ls -l $installerArchive \| awk '{print $5'}`
	if [ $fSize -gt 2000000000 ]; then
	echo -e "${lBlue}Installer file too large, breaking into parts${NC}"
	# The file is too large, breaking it up into parts
	sPos=0
	fnn="00"
	while dd if=$installerArchive of=${installerDirectory}/${installerPart}$fnn \
	bs=1900MB count=1 skip=$sPos > /dev/null 2>&1
	do
	sPos=`expr $sPos + 1`
	if [ ! -s ${installerDirectory}/${installerPart}$fnn ]; then
	rm -f ${installerDirectory}/${installerPart}$fnn
	break
	fi
	if [ $sPos -lt 10 ]; then
	fnn="0$sPos"
	else
	fnn="$sPos"
	fi
	done
	else
	cp $installerArchive $installerDirectory
	fi
	# Clean up
	rm $installerArchive
	echo -e "${lBlue}The install image is built and can be found in ${lCyan}$installerDirectory${NC}"
	echo -e "${lBlue}Copy all the files in ${lCyan}$installerDirectory${lBlue} to the traasnport media${NC}"
	fi