xos/synchronizer/templates/start-container.sh.j2 - openstack - Gitiles

 #!/bin/bash

 iptables -L > /dev/null
 ip6tables -L > /dev/null

 CONTAINER={{ container_name }}
 IMAGE={{ docker_image }}

 function mac_to_iface {
     PARENT_MAC=$1
     ifconfig|grep $PARENT_MAC| awk '{print $1}'|grep -v '\.'
 }

 function encapsulate_stag {
     LAN_IFACE=$1
     STAG=$2
     ifconfig $LAN_IFACE >> /dev/null
     if [ "$?" == 0 ]; then
         STAG_IFACE=$LAN_IFACE.$STAG
         ifconfig $LAN_IFACE up
         ifconfig $STAG_IFACE
         if [ "$?" == 0 ]; then
             echo $STAG_IFACE is already created
         else
             ifconfig $STAG_IFACE >> /dev/null || ip link add link $LAN_IFACE name $STAG_IFACE type vlan id $STAG
         fi
             ifconfig $STAG_IFACE up
     else
         echo There is no $LAN_IFACE. Aborting.
         exit -1
     fi
 }


 {% if volumes %}
 {% for volume in volumes %}
 DEST_DIR=/var/container_volumes/$CONTAINER/{{ volume }}
 mkdir -p $DEST_DIR
 VOLUME_ARGS="$VOLUME_ARGS -v $DEST_DIR:{{ volume }}"
 {% endfor %}
 {% endif %}

 docker inspect $CONTAINER > /dev/null 2>&1
 if [ "$?" == 1 ]
 then
     docker pull $IMAGE
 {% if network_method=="host" %}
     docker run -d --name=$CONTAINER --privileged=true --net=host $VOLUME_ARGS $IMAGE
 {% elif network_method=="bridged" %}
     docker run -d --name=$CONTAINER --privileged=true --net=bridge $VOLUME_ARGS $IMAGE
 {% else %}
     docker run -d --name=$CONTAINER --privileged=true --net=none $VOLUME_ARGS $IMAGE
 {% endif %}
 else
     docker start $CONTAINER
 fi

 {% if ports %}
 {% for port in ports %}

 {% if port.next_hop %}
 NEXTHOP_ARG="@{{ port.next_hop }}"
 {% else %}
 NEXTHOP_ARG=""
 {% endif %}

 {% if port.c_tag %}
 CTAG_ARG="@{{ port.c_tag }}"
 {% else %}
 CTAG_ARG=""
 {% endif %}

 {% if port.parent_mac %}
 # container-in-VM
 SRC_DEV=$( mac_to_iface "{{ port.parent_mac }}" )
 CMD="docker exec $CONTAINER ifconfig $SRC_DEV >> /dev/null || pipework $SRC_DEV -i {{ port.device }} $CONTAINER {{ port.ip }}/24$NEXTHOP_ARG {{ port.mac }} $CTAG_ARG"
 echo $CMD
 eval $CMD

 {% else %}
 # container-on-metal
 IP="{{ port.ip }}"
 {% if port.mac %}
 MAC="{{ port.mac }}"
 {% else %}
 MAC=""
 {% endif %}

 DEVICE="{{ port.device }}"
 BRIDGE="{{ port.bridge }}"
 {% if port.s_tag %}
 # This is intended for lan_network. Assume that BRIDGE is set to br_lan. We
 # create a device that strips off the S-TAG.
 STAG="{{ port.s_tag }}"
 encapsulate_stag $BRIDGE $STAG
 SRC_DEV=$STAG_IFACE
 {% else %}
 # This is for a standard neutron private network. We use a donor VM to setup
 # openvswitch for us, and we snoop at its devices and create a tap using the
 # same settings.
 XOS_NETWORK_ID="{{ port.xos_network_id }}"
 INSTANCE_MAC="{{ port.snoop_instance_mac }}"
 INSTANCE_ID="{{ port.snoop_instance_id }}"
 INSTANCE_TAP=`virsh domiflist $INSTANCE_ID | grep -i $INSTANCE_MAC | awk '{print $1}'`
 INSTANCE_TAP=${INSTANCE_TAP:3}
 VLAN_ID=`ovs-vsctl show | grep -i -A 1 port.*$INSTANCE_TAP | grep -i tag | awk '{print $2}'`
 # One tap for all containers per XOS/neutron network. Included the VLAN_ID in the
 # hash, to cover the case where XOS is reinstalled and the XOS network ids
 # get reused.
 TAP="con`echo ${XOS_NETWORK_ID}_$VLAN_ID|md5sum|awk '{print $1}'`"
 TAP=${TAP:0:10}
 echo im=$INSTANCE_MAC ii=$INSTANCE_ID it=$INSTANCE_TAP vlan=$VLAN_ID tap=$TAP con=$CONTAINER dev=$DEVICE mac=$MAC
 ovs-vsctl show | grep -i $TAP
 if [[ $? == 1 ]]; then
     echo creating tap
     ovs-vsctl add-port $BRIDGE $TAP tag=$VLAN_ID -- set interface $TAP type=internal
 else
     echo tap exists
 fi
 SRC_DEV=$TAP
 {% endif %}

 CMD="docker exec $CONTAINER ifconfig $DEVICE >> /dev/null || pipework $SRC_DEV -i $DEVICE $CONTAINER $IP/24$NEXTHOP_ARG $MAC $CTAG_ARG"
 echo $CMD
 eval $CMD
 {% endif %}
 {% endfor %}
 {% endif %}

 # Attach to container
 # (this is only done when using upstart, since upstart expects to be attached
 #  to a running service)
 if [[ "$1" == "ATTACH" ]]; then
     docker start -a $CONTAINER
 fi
	#!/bin/bash

	iptables -L > /dev/null
	ip6tables -L > /dev/null

	CONTAINER={{ container_name }}
	IMAGE={{ docker_image }}

	function mac_to_iface {
	PARENT_MAC=$1
	ifconfig\|grep $PARENT_MAC\| awk '{print $1}'\|grep -v '\.'
	}

	function encapsulate_stag {
	LAN_IFACE=$1
	STAG=$2
	ifconfig $LAN_IFACE >> /dev/null
	if [ "$?" == 0 ]; then
	STAG_IFACE=$LAN_IFACE.$STAG
	ifconfig $LAN_IFACE up
	ifconfig $STAG_IFACE
	if [ "$?" == 0 ]; then
	echo $STAG_IFACE is already created
	else
	ifconfig $STAG_IFACE >> /dev/null \|\| ip link add link $LAN_IFACE name $STAG_IFACE type vlan id $STAG
	fi
	ifconfig $STAG_IFACE up
	else
	echo There is no $LAN_IFACE. Aborting.
	exit -1
	fi
	}


	{% if volumes %}
	{% for volume in volumes %}
	DEST_DIR=/var/container_volumes/$CONTAINER/{{ volume }}
	mkdir -p $DEST_DIR
	VOLUME_ARGS="$VOLUME_ARGS -v $DEST_DIR:{{ volume }}"
	{% endfor %}
	{% endif %}

	docker inspect $CONTAINER > /dev/null 2>&1
	if [ "$?" == 1 ]
	then
	docker pull $IMAGE
	{% if network_method=="host" %}
	docker run -d --name=$CONTAINER --privileged=true --net=host $VOLUME_ARGS $IMAGE
	{% elif network_method=="bridged" %}
	docker run -d --name=$CONTAINER --privileged=true --net=bridge $VOLUME_ARGS $IMAGE
	{% else %}
	docker run -d --name=$CONTAINER --privileged=true --net=none $VOLUME_ARGS $IMAGE
	{% endif %}
	else
	docker start $CONTAINER
	fi

	{% if ports %}
	{% for port in ports %}

	{% if port.next_hop %}
	NEXTHOP_ARG="@{{ port.next_hop }}"
	{% else %}
	NEXTHOP_ARG=""
	{% endif %}

	{% if port.c_tag %}
	CTAG_ARG="@{{ port.c_tag }}"
	{% else %}
	CTAG_ARG=""
	{% endif %}

	{% if port.parent_mac %}
	# container-in-VM
	SRC_DEV=$( mac_to_iface "{{ port.parent_mac }}" )
	CMD="docker exec $CONTAINER ifconfig $SRC_DEV >> /dev/null \|\| pipework $SRC_DEV -i {{ port.device }} $CONTAINER {{ port.ip }}/24$NEXTHOP_ARG {{ port.mac }} $CTAG_ARG"
	echo $CMD
	eval $CMD

	{% else %}
	# container-on-metal
	IP="{{ port.ip }}"
	{% if port.mac %}
	MAC="{{ port.mac }}"
	{% else %}
	MAC=""
	{% endif %}

	DEVICE="{{ port.device }}"
	BRIDGE="{{ port.bridge }}"
	{% if port.s_tag %}
	# This is intended for lan_network. Assume that BRIDGE is set to br_lan. We
	# create a device that strips off the S-TAG.
	STAG="{{ port.s_tag }}"
	encapsulate_stag $BRIDGE $STAG
	SRC_DEV=$STAG_IFACE
	{% else %}
	# This is for a standard neutron private network. We use a donor VM to setup
	# openvswitch for us, and we snoop at its devices and create a tap using the
	# same settings.
	XOS_NETWORK_ID="{{ port.xos_network_id }}"
	INSTANCE_MAC="{{ port.snoop_instance_mac }}"
	INSTANCE_ID="{{ port.snoop_instance_id }}"
	INSTANCE_TAP=`virsh domiflist $INSTANCE_ID \| grep -i $INSTANCE_MAC \| awk '{print $1}'`
	INSTANCE_TAP=${INSTANCE_TAP:3}
	VLAN_ID=`ovs-vsctl show \| grep -i -A 1 port.*$INSTANCE_TAP \| grep -i tag \| awk '{print $2}'`
	# One tap for all containers per XOS/neutron network. Included the VLAN_ID in the
	# hash, to cover the case where XOS is reinstalled and the XOS network ids
	# get reused.
	TAP="con`echo ${XOS_NETWORK_ID}_$VLAN_ID\|md5sum\|awk '{print $1}'`"
	TAP=${TAP:0:10}
	echo im=$INSTANCE_MAC ii=$INSTANCE_ID it=$INSTANCE_TAP vlan=$VLAN_ID tap=$TAP con=$CONTAINER dev=$DEVICE mac=$MAC
	ovs-vsctl show \| grep -i $TAP
	if [[ $? == 1 ]]; then
	echo creating tap
	ovs-vsctl add-port $BRIDGE $TAP tag=$VLAN_ID -- set interface $TAP type=internal
	else
	echo tap exists
	fi
	SRC_DEV=$TAP
	{% endif %}

	CMD="docker exec $CONTAINER ifconfig $DEVICE >> /dev/null \|\| pipework $SRC_DEV -i $DEVICE $CONTAINER $IP/24$NEXTHOP_ARG $MAC $CTAG_ARG"
	echo $CMD
	eval $CMD
	{% endif %}
	{% endfor %}
	{% endif %}

	# Attach to container
	# (this is only done when using upstart, since upstart expects to be attached
	# to a running service)
	if [[ "$1" == "ATTACH" ]]; then
	docker start -a $CONTAINER
	fi