#!/bin/bash
REPO_URL_BLOB=$(cat /opt/config/repo_url_blob.txt)
REPO_URL_ARTIFACTS=$(cat /opt/config/repo_url_artifacts.txt)
DEMO_ARTIFACTS_VERSION=$(cat /opt/config/demo_artifacts_version.txt)
INSTALL_SCRIPT_VERSION=$(cat /opt/config/install_script_version.txt)
VPP_SOURCE_REPO_URL=$(cat /opt/config/vpp_source_repo_url.txt)
VPP_SOURCE_REPO_BRANCH=$(cat /opt/config/vpp_source_repo_branch.txt)
HC2VPP_SOURCE_REPO_URL=$(cat /opt/config/hc2vpp_source_repo_url.txt)
HC2VPP_SOURCE_REPO_BRANCH=$(cat /opt/config/hc2vpp_source_repo_branch.txt)
CLOUD_ENV=$(cat /opt/config/cloud_env.txt)
MUX_GW_IP=$(cat /opt/config/mux_gw_private_net_ipaddr.txt)
MUX_GW_CIDR=$(cat /opt/config/mux_gw_private_net_cidr.txt)
# Build states are:
# 'build' - just build the code
# 'done' - code is build, install and setup
# 'auto' - bulid, install and setup
BUILD_STATE="auto"
if [[ -f /opt/config/compile_state.txt ]]
then
BUILD_STATE=$(cat /opt/config/compile_state.txt)
fi
# Convert Network CIDR to Netmask
cdr2mask () {
# Number of args to shift, 255..255, first non-255 byte, zeroes
set -- $(( 5 - ($1 / 8) )) 255 255 255 255 $(( (255 << (8 - ($1 % 8))) & 255 )) 0 0 0
[ $1 -gt 1 ] && shift $1 || shift
echo ${1-0}.${2-0}.${3-0}.${4-0}
}
# OpenStack network configuration
if [[ $BUILD_STATE != "build" ]]
then
if [[ $CLOUD_ENV == "openstack" ]]
then
echo 127.0.0.1 $(hostname) >> /etc/hosts
# Allow remote login as root
mv /root/.ssh/authorized_keys /root/.ssh/authorized_keys.bk
cp /home/ubuntu/.ssh/authorized_keys /root/.ssh
MTU=$(/sbin/ifconfig | grep MTU | sed 's/.*MTU://' | sed 's/ .*//' | sort -n | head -1)
IP=$(cat /opt/config/oam_ipaddr.txt)
BITS=$(cat /opt/config/oam_cidr.txt | cut -d"/" -f2)
NETMASK=$(cdr2mask $BITS)
echo "auto eth2" >> /etc/network/interfaces
echo "iface eth2 inet static" >> /etc/network/interfaces
echo " address $IP" >> /etc/network/interfaces
echo " netmask $NETMASK" >> /etc/network/interfaces
echo " mtu $MTU" >> /etc/network/interfaces
ifup eth2
fi
fi # endif BUILD_STATE != "build"
if [[ $BUILD_STATE != "done" ]]
then
# Download required dependencies
echo "deb http://ppa.launchpad.net/openjdk-r/ppa/ubuntu $(lsb_release -c -s) main" >> /etc/apt/sources.list.d/java.list
echo "deb-src http://ppa.launchpad.net/openjdk-r/ppa/ubuntu $(lsb_release -c -s) main" >> /etc/apt/sources.list.d/java.list
apt-get --allow-unauthenticated update
apt-get install --allow-unauthenticated -y wget openjdk-8-jdk apt-transport-https ca-certificates g++ libcurl4-gnutls-dev
sleep 1
# Install the tools required for download codes
apt-get --allow-unauthenticated install -y expect git make linux-image-extra-`uname -r`
#Download and build the VPP codes
cd /opt
git clone ${VPP_SOURCE_REPO_URL} -b ${VPP_SOURCE_REPO_BRANCH} vpp
cd vpp
make install-dep
cd build-root
./bootstrap.sh
make V=0 PLATFORM=vpp TAG=vpp install-deb
# Install the VPP package
dpkg -i *.deb
systemctl stop vpp
fi # endif BUILD_STATE != "done"
if [[ $BUILD_STATE != "build" ]]
then
# Auto-start configuration for the VPP
cat > /etc/vpp/startup.conf << EOF
unix {
nodaemon
log /tmp/vpp.log
full-coredump
cli-listen localhost:5002
startup-config /etc/vpp/setup.gate
}
api-trace {
on
}
api-segment {
gid vpp
}
cpu {
## In the VPP there is one main thread and optionally the user can create worker(s)
## The main thread and worker thread(s) can be pinned to CPU core(s) manually or automatically
## Manual pinning of thread(s) to CPU core(s)
## Set logical CPU core where main thread runs
# main-core 1
## Set logical CPU core(s) where worker threads are running
# corelist-workers 2-3,18-19
## Automatic pinning of thread(s) to CPU core(s)
## Sets number of CPU core(s) to be skipped (1 ... N-1)
## Skipped CPU core(s) are not used for pinning main thread and working thread(s).
## The main thread is automatically pinned to the first available CPU core and worker(s)
## are pinned to next free CPU core(s) after core assigned to main thread
# skip-cores 4
## Specify a number of workers to be created
## Workers are pinned to N consecutive CPU cores while skipping "skip-cores" CPU core(s)
## and main thread's CPU core
# workers 2
## Set scheduling policy and priority of main and worker threads
## Scheduling policy options are: other (SCHED_OTHER), batch (SCHED_BATCH)
## idle (SCHED_IDLE), fifo (SCHED_FIFO), rr (SCHED_RR)
# scheduler-policy fifo
## Scheduling priority is used only for "real-time policies (fifo and rr),
## and has to be in the range of priorities supported for a particular policy
# scheduler-priority 50
}
# dpdk {
## Change default settings for all intefaces
# dev default {
## Number of receive queues, enables RSS
## Default is 1
# num-rx-queues 3
## Number of transmit queues, Default is equal
## to number of worker threads or 1 if no workers treads
# num-tx-queues 3
## Number of descriptors in transmit and receive rings
## increasing or reducing number can impact performance
## Default is 1024 for both rx and tx
# num-rx-desc 512
# num-tx-desc 512
## VLAN strip offload mode for interface
## Default is off
# vlan-strip-offload on
# }
## Whitelist specific interface by specifying PCI address
# dev 0000:02:00.0
## Whitelist specific interface by specifying PCI address and in
## addition specify custom parameters for this interface
# dev 0000:02:00.1 {
# num-rx-queues 2
# }
## Change UIO driver used by VPP, Options are: igb_uio, vfio-pci
## and uio_pci_generic (default)
# uio-driver vfio-pci
## Disable mutli-segment buffers, improves performance but
## disables Jumbo MTU support
# no-multi-seg
## Increase number of buffers allocated, needed only in scenarios with
## large number of interfaces and worker threads. Value is per CPU socket.
## Default is 16384
# num-mbufs 128000
## Change hugepages allocation per-socket, needed only if there is need for
## larger number of mbufs. Default is 256M on each detected CPU socket
# socket-mem 2048,2048
# }
EOF
# Get list of network device PCI bus addresses
get_nic_pci_list() {
while read -r line ; do
if [ "$line" != "${line#*network device}" ]; then
echo -n "${line%% *} "
fi
done < <(lspci)
}
NICS=$(get_nic_pci_list)
NICS=`echo ${NICS} | sed 's/[0]\+\([0-9]\)/\1/g' | sed 's/[.:]/\//g'`
MUX_GW_NIC=GigabitEthernet`echo ${NICS} | cut -d " " -f 2` # second interface in list
GW_PUB_NIC=GigabitEthernet`echo ${NICS} | cut -d " " -f 4` # fourth interface in list
touch /etc/vpp/setup.gate
cat > /etc/vpp/setup.gate << EOF
set int state ${MUX_GW_NIC} up
set int ip address ${MUX_GW_NIC} 10.5.0.21/24
set int state ${GW_PUB_NIC} up
set dhcp client intfc ${GW_PUB_NIC} hostname vg-1
tap connect lstack address 192.168.1.1/24
set int state tap-0 up
create vxlan tunnel src 10.5.0.21 dst 10.5.0.20 vni 100
set interface l2 bridge tap-0 10 0
set interface l2 bridge vxlan_tunnel0 10 1
set bridge-domain arp term 10
loopback create
set int l2 bridge loop0 10 bvi 2
set int ip address loop0 192.168.1.254/24
set int state loop0 up
set int snat in loop0 out ${GW_PUB_NIC}
snat add int address ${GW_PUB_NIC}
EOF
fi # endif BUILD_STATE != "build"
if [[ $BUILD_STATE != "done" ]]
then
# Download and install HC2VPP from� source
cd /opt
git clone ${HC2VPP_SOURCE_REPO_URL} -b ${HC2VPP_SOURCE_REPO_BRANCH} hc2vpp
apt --allow-unauthenticated install -y python-ply-lex-3.5 python-ply-yacc-3.5 python-pycparser python-cffi
apt-get install -y maven
mkdir -p ~/.m2
cat > ~/.m2/settings.xml << EOF
fd.io-release
fd.io-mirror
fd.io-mirror
https://nexus.fd.io/content/groups/public/
true
never
false
fd.io-mirror
fd.io-mirror
https://nexus.fd.io/content/repositories/public/
true
never
false
fd.io-snapshots
fd.io-snapshot
fd.io-snapshot
https://nexus.fd.io/content/repositories/fd.io.snapshot/
false
true
fd.io-snapshot
fd.io-snapshot
https://nexus.fd.io/content/repositories/fd.io.snapshot/
false
true
opendaylight-snapshots
opendaylight-snapshot
opendaylight-snapshot
https://nexus.opendaylight.org/content/repositories/opendaylight.snapshot/
false
true
opendaylight-shapshot
opendaylight-snapshot
https://nexus.opendaylight.org/content/repositories/opendaylight.snapshot/
false
true
fd.io-release
fd.io-snapshots
opendaylight-snapshots
EOF
cd hc2vpp
mvn clean install
l_version=$(cat pom.xml | grep "" | head -1)
l_version=$(echo "${l_version%<*}")
l_version=$(echo "${l_version#*>}")
mv vpp-integration/minimal-distribution/target/vpp-integration-distribution-${l_version}-hc/vpp-integration-distribution-${l_version} /opt/honeycomb
sed -i 's/127.0.0.1/0.0.0.0/g' /opt/honeycomb/config/honeycomb.json
fi # endif BUILD_STATE != "done
if [[ $BUILD_STATE != "build" ]]
then
# Create systemctl service for Honeycomb
cat > /etc/systemd/system/honeycomb.service << EOF
[Unit]
Description=Honeycomb Agent for the VPP control plane
Documentation=https://wiki.fd.io/view/Honeycomb
Requires=vpp.service
After=vpp.service
[Service]
ExecStart=/opt/honeycomb/honeycomb
Restart=always
RestartSec=10
[Install]
WantedBy=multi-user.target
EOF
systemctl enable /etc/systemd/system/honeycomb.service
# Install the DHCP server and config
apt-get install -y isc-dhcp-server
cat >> /etc/dhcp/dhcpd.conf << EOF
subnet 192.168.1.0 netmask 255.255.255.0 {
range 192.168.1.2 192.168.1.253;
option subnet-mask 255.255.255.0;
option routers 192.168.1.254;
option broadcast-address 192.168.1.255;
default-lease-time 600;
max-lease-time 7200;
}
EOF
# Download DHCP config files
cd /opt
wget $REPO_URL_BLOB/org.onap.demo/vnfs/vcpe/$INSTALL_SCRIPT_VERSION/v_gw_init.sh
wget $REPO_URL_BLOB/org.onap.demo/vnfs/vcpe/$INSTALL_SCRIPT_VERSION/v_gw.sh
chmod +x v_gw_init.sh
chmod +x v_gw.sh
mv v_gw.sh /etc/init.d
sed "s/Provides:/$/ v_gw" /etc/init.d/v_gw.sh
update-rc.d v_gw.sh defaults
# Rename network interface in openstack Ubuntu 16.04 images. Then, reboot the VM to pick up changes
if [[ $CLOUD_ENV != "rackspace" ]]
then
sed -i "s/GRUB_CMDLINE_LINUX=.*/GRUB_CMDLINE_LINUX=\"net.ifnames=0 biosdevname=0\"/g" /etc/default/grub
grub-mkconfig -o /boot/grub/grub.cfg
sed -i "s/ens[0-9]*/eth0/g" /etc/network/interfaces.d/*.cfg
sed -i "s/ens[0-9]*/eth0/g" /etc/udev/rules.d/70-persistent-net.rules
echo 'network: {config: disabled}' >> /etc/cloud/cloud.cfg.d/99-disable-network-config.cfg
echo "APT::Periodic::Unattended-Upgrade \"0\";" >> /etc/apt/apt.conf.d/10periodic
reboot
fi
./v_gw_init.sh
fi # endif BUILD_STATE != "build"