devstack/lib/neutron-legacy
Cedric Brandily b814b536c5 Prepare neutron "use_namespaces" option removal
The neutron use_namespaces option is deprecated since Kilo, it's time
remove it from neutron and devstack.

Related-bug: #1508188
Change-Id: I4feb2a15c7e1e4bfdbed2531b18b8e7d798ab3cc
2015-10-27 09:25:42 +09:00

1500 lines
56 KiB
Bash

#!/bin/bash
#
# lib/neutron
# functions - functions specific to neutron
# Dependencies:
# ``functions`` file
# ``DEST`` must be defined
# ``STACK_USER`` must be defined
# ``stack.sh`` calls the entry points in this order:
#
# - install_neutron_agent_packages
# - install_neutronclient
# - install_neutron
# - install_neutron_third_party
# - configure_neutron
# - init_neutron
# - configure_neutron_third_party
# - init_neutron_third_party
# - start_neutron_third_party
# - create_nova_conf_neutron
# - start_neutron_service_and_check
# - check_neutron_third_party_integration
# - start_neutron_agents
# - create_neutron_initial_network
# - setup_neutron_debug
#
# ``unstack.sh`` calls the entry points in this order:
#
# - teardown_neutron_debug
# - stop_neutron
# - stop_neutron_third_party
# - cleanup_neutron
# Functions in lib/neutron are classified into the following categories:
#
# - entry points (called from stack.sh or unstack.sh)
# - internal functions
# - neutron exercises
# - 3rd party programs
# Neutron Networking
# ------------------
# Make sure that neutron is enabled in ``ENABLED_SERVICES``. If you want
# to run Neutron on this host, make sure that q-svc is also in
# ``ENABLED_SERVICES``.
#
# See "Neutron Network Configuration" below for additional variables
# that must be set in localrc for connectivity across hosts with
# Neutron.
#
# With Neutron networking the NETWORK_MANAGER variable is ignored.
# Settings
# --------
# Neutron Network Configuration
# -----------------------------
# Subnet IP version
IP_VERSION=${IP_VERSION:-"4+6"}
# Validate IP_VERSION
if [[ $IP_VERSION != "4" ]] && [[ $IP_VERSION != "6" ]] && [[ $IP_VERSION != "4+6" ]]; then
die $LINENO "IP_VERSION must be either 4, 6, or 4+6"
fi
# Gateway and subnet defaults, in case they are not customized in localrc
NETWORK_GATEWAY=${NETWORK_GATEWAY:-10.0.0.1}
PUBLIC_NETWORK_GATEWAY=${PUBLIC_NETWORK_GATEWAY:-172.24.4.1}
PRIVATE_SUBNET_NAME=${PRIVATE_SUBNET_NAME:-"private-subnet"}
PUBLIC_SUBNET_NAME=${PUBLIC_SUBNET_NAME:-"public-subnet"}
if is_ssl_enabled_service "neutron" || is_service_enabled tls-proxy; then
Q_PROTOCOL="https"
fi
# Generate 40-bit IPv6 Global ID to comply with RFC 4193
IPV6_GLOBAL_ID=`uuidgen | sed s/-//g | cut -c 23- | sed -e "s/\(..\)\(....\)\(....\)/\1:\2:\3/"`
# IPv6 gateway and subnet defaults, in case they are not customized in localrc
IPV6_RA_MODE=${IPV6_RA_MODE:-slaac}
IPV6_ADDRESS_MODE=${IPV6_ADDRESS_MODE:-slaac}
IPV6_PUBLIC_SUBNET_NAME=${IPV6_PUBLIC_SUBNET_NAME:-ipv6-public-subnet}
IPV6_PRIVATE_SUBNET_NAME=${IPV6_PRIVATE_SUBNET_NAME:-ipv6-private-subnet}
FIXED_RANGE_V6=${FIXED_RANGE_V6:-fd$IPV6_GLOBAL_ID::/64}
IPV6_PRIVATE_NETWORK_GATEWAY=${IPV6_PRIVATE_NETWORK_GATEWAY:-fd$IPV6_GLOBAL_ID::1}
IPV6_PUBLIC_RANGE=${IPV6_PUBLIC_RANGE:-2001:db8::/64}
IPV6_PUBLIC_NETWORK_GATEWAY=${IPV6_PUBLIC_NETWORK_GATEWAY:-2001:db8::2}
IPV6_ROUTER_GW_IP=${IPV6_ROUTER_GW_IP:-2001:db8::1}
# Set up default directories
GITDIR["python-neutronclient"]=$DEST/python-neutronclient
NEUTRON_DIR=$DEST/neutron
NEUTRON_FWAAS_DIR=$DEST/neutron-fwaas
NEUTRON_LBAAS_DIR=$DEST/neutron-lbaas
NEUTRON_VPNAAS_DIR=$DEST/neutron-vpnaas
NEUTRON_AUTH_CACHE_DIR=${NEUTRON_AUTH_CACHE_DIR:-/var/cache/neutron}
# Support entry points installation of console scripts
if [[ -d $NEUTRON_DIR/bin/neutron-server ]]; then
NEUTRON_BIN_DIR=$NEUTRON_DIR/bin
else
NEUTRON_BIN_DIR=$(get_python_exec_prefix)
fi
NEUTRON_CONF_DIR=/etc/neutron
NEUTRON_CONF=$NEUTRON_CONF_DIR/neutron.conf
export NEUTRON_TEST_CONFIG_FILE=${NEUTRON_TEST_CONFIG_FILE:-"$NEUTRON_CONF_DIR/debug.ini"}
# Agent binaries. Note, binary paths for other agents are set in per-service
# scripts in lib/neutron_plugins/services/
AGENT_DHCP_BINARY="$NEUTRON_BIN_DIR/neutron-dhcp-agent"
AGENT_L3_BINARY=${AGENT_L3_BINARY:-"$NEUTRON_BIN_DIR/neutron-l3-agent"}
AGENT_META_BINARY="$NEUTRON_BIN_DIR/neutron-metadata-agent"
# Agent config files. Note, plugin-specific Q_PLUGIN_CONF_FILE is set and
# loaded from per-plugin scripts in lib/neutron_plugins/
Q_DHCP_CONF_FILE=$NEUTRON_CONF_DIR/dhcp_agent.ini
Q_L3_CONF_FILE=$NEUTRON_CONF_DIR/l3_agent.ini
Q_FWAAS_CONF_FILE=$NEUTRON_CONF_DIR/fwaas_driver.ini
Q_VPN_CONF_FILE=$NEUTRON_CONF_DIR/vpn_agent.ini
Q_META_CONF_FILE=$NEUTRON_CONF_DIR/metadata_agent.ini
# Default name for Neutron database
Q_DB_NAME=${Q_DB_NAME:-neutron}
# Default Neutron Plugin
Q_PLUGIN=${Q_PLUGIN:-ml2}
# Default Neutron Port
Q_PORT=${Q_PORT:-9696}
# Default Neutron Internal Port when using TLS proxy
Q_PORT_INT=${Q_PORT_INT:-19696}
# Default Neutron Host
Q_HOST=${Q_HOST:-$SERVICE_HOST}
# Default protocol
Q_PROTOCOL=${Q_PROTOCOL:-$SERVICE_PROTOCOL}
# Default listen address
Q_LISTEN_ADDRESS=${Q_LISTEN_ADDRESS:-$SERVICE_LISTEN_ADDRESS}
# Default admin username
Q_ADMIN_USERNAME=${Q_ADMIN_USERNAME:-neutron}
# Default auth strategy
Q_AUTH_STRATEGY=${Q_AUTH_STRATEGY:-keystone}
# RHEL's support for namespaces requires using veths with ovs
Q_OVS_USE_VETH=${Q_OVS_USE_VETH:-False}
Q_USE_ROOTWRAP=${Q_USE_ROOTWRAP:-True}
Q_USE_ROOTWRAP_DAEMON=$(trueorfalse True Q_USE_ROOTWRAP_DAEMON)
# Meta data IP
Q_META_DATA_IP=${Q_META_DATA_IP:-$SERVICE_HOST}
# Allow Overlapping IP among subnets
Q_ALLOW_OVERLAPPING_IP=${Q_ALLOW_OVERLAPPING_IP:-True}
# Use neutron-debug command
Q_USE_DEBUG_COMMAND=${Q_USE_DEBUG_COMMAND:-False}
# The name of the default q-l3 router
Q_ROUTER_NAME=${Q_ROUTER_NAME:-router1}
Q_NOTIFY_NOVA_PORT_STATUS_CHANGES=${Q_NOTIFY_NOVA_PORT_STATUS_CHANGES:-True}
Q_NOTIFY_NOVA_PORT_DATA_CHANGES=${Q_NOTIFY_NOVA_PORT_DATA_CHANGES:-True}
VIF_PLUGGING_IS_FATAL=${VIF_PLUGGING_IS_FATAL:-True}
VIF_PLUGGING_TIMEOUT=${VIF_PLUGGING_TIMEOUT:-300}
# Specify if the initial private and external networks should be created
NEUTRON_CREATE_INITIAL_NETWORKS=${NEUTRON_CREATE_INITIAL_NETWORKS:-True}
## Provider Network Information
PROVIDER_SUBNET_NAME=${PROVIDER_SUBNET_NAME:-"provider_net"}
# Define the public bridge that will transmit traffic from VMs to the
# physical network - used by both the OVS and Linux Bridge drivers.
PUBLIC_BRIDGE=${PUBLIC_BRIDGE:-br-ex}
# Use flat providernet for public network
#
# If Q_USE_PROVIDERNET_FOR_PUBLIC=True, use a flat provider network
# for external interface of neutron l3-agent. In that case,
# PUBLIC_PHYSICAL_NETWORK specifies provider:physical_network value
# used for the network. In case of ofagent, you should add the
# corresponding entry to your OFAGENT_PHYSICAL_INTERFACE_MAPPINGS.
# For openvswitch agent, you should add the corresponding entry to
# your OVS_BRIDGE_MAPPINGS.
#
# eg. (ofagent)
# Q_USE_PROVIDERNET_FOR_PUBLIC=True
# Q_USE_PUBLIC_VETH=True
# PUBLIC_PHYSICAL_NETWORK=public
# OFAGENT_PHYSICAL_INTERFACE_MAPPINGS=public:veth-pub-int
#
# eg. (openvswitch agent)
# Q_USE_PROVIDERNET_FOR_PUBLIC=True
# PUBLIC_PHYSICAL_NETWORK=public
# OVS_BRIDGE_MAPPINGS=public:br-ex
Q_USE_PROVIDERNET_FOR_PUBLIC=${Q_USE_PROVIDERNET_FOR_PUBLIC:-False}
PUBLIC_PHYSICAL_NETWORK=${PUBLIC_PHYSICAL_NETWORK:-public}
# If Q_USE_PUBLIC_VETH=True, create and use a veth pair instead of
# PUBLIC_BRIDGE. This is intended to be used with
# Q_USE_PROVIDERNET_FOR_PUBLIC=True.
Q_USE_PUBLIC_VETH=${Q_USE_PUBLIC_VETH:-False}
Q_PUBLIC_VETH_EX=${Q_PUBLIC_VETH_EX:-veth-pub-ex}
Q_PUBLIC_VETH_INT=${Q_PUBLIC_VETH_INT:-veth-pub-int}
# The next two variables are configured by plugin
# e.g. _configure_neutron_l3_agent or lib/neutron_plugins/*
#
# The plugin supports L3.
Q_L3_ENABLED=${Q_L3_ENABLED:-False}
# L3 routers exist per tenant
Q_L3_ROUTER_PER_TENANT=${Q_L3_ROUTER_PER_TENANT:-True}
# List of config file names in addition to the main plugin config file
# See _configure_neutron_common() for details about setting it up
declare -a Q_PLUGIN_EXTRA_CONF_FILES
# List of (optional) config files for VPN device drivers to use with
# the neutron-q-vpn agent
declare -a Q_VPN_EXTRA_CONF_FILES
Q_RR_CONF_FILE=$NEUTRON_CONF_DIR/rootwrap.conf
if [[ "$Q_USE_ROOTWRAP" == "False" ]]; then
Q_RR_COMMAND="sudo"
else
NEUTRON_ROOTWRAP=$(get_rootwrap_location neutron)
Q_RR_COMMAND="sudo $NEUTRON_ROOTWRAP $Q_RR_CONF_FILE"
if [[ "$Q_USE_ROOTWRAP_DAEMON" == "True" ]]; then
Q_RR_DAEMON_COMMAND="sudo $NEUTRON_ROOTWRAP-daemon $Q_RR_CONF_FILE"
fi
fi
# Distributed Virtual Router (DVR) configuration
# Can be:
# - ``legacy`` - No DVR functionality
# - ``dvr_snat`` - Controller or single node DVR
# - ``dvr`` - Compute node in multi-node DVR
#
Q_DVR_MODE=${Q_DVR_MODE:-legacy}
if [[ "$Q_DVR_MODE" != "legacy" ]]; then
Q_ML2_PLUGIN_MECHANISM_DRIVERS=openvswitch,linuxbridge,l2population
fi
# Provider Network Configurations
# --------------------------------
# The following variables control the Neutron ML2 plugins' allocation
# of tenant networks and availability of provider networks. If these
# are not configured in ``localrc``, tenant networks will be local to
# the host (with no remote connectivity), and no physical resources
# will be available for the allocation of provider networks.
# To disable tunnels (GRE or VXLAN) for tenant networks,
# set to False in ``local.conf``.
# GRE tunnels are only supported by the openvswitch.
ENABLE_TENANT_TUNNELS=${ENABLE_TENANT_TUNNELS:-True}
# If using GRE tunnels for tenant networks, specify the range of
# tunnel IDs from which tenant networks are allocated. Can be
# overriden in ``localrc`` in necesssary.
TENANT_TUNNEL_RANGES=${TENANT_TUNNEL_RANGES:-1:1000}
# To use VLANs for tenant networks, set to True in localrc. VLANs
# are supported by the ML2 plugins, requiring additional configuration
# described below.
ENABLE_TENANT_VLANS=${ENABLE_TENANT_VLANS:-False}
# If using VLANs for tenant networks, set in ``localrc`` to specify
# the range of VLAN VIDs from which tenant networks are
# allocated. An external network switch must be configured to
# trunk these VLANs between hosts for multi-host connectivity.
#
# Example: ``TENANT_VLAN_RANGE=1000:1999``
TENANT_VLAN_RANGE=${TENANT_VLAN_RANGE:-}
# If using VLANs for tenant networks, or if using flat or VLAN
# provider networks, set in ``localrc`` to the name of the physical
# network, and also configure ``OVS_PHYSICAL_BRIDGE`` for the
# openvswitch agent or ``LB_PHYSICAL_INTERFACE`` for the linuxbridge
# agent, as described below.
#
# Example: ``PHYSICAL_NETWORK=default``
PHYSICAL_NETWORK=${PHYSICAL_NETWORK:-}
# With the openvswitch agent, if using VLANs for tenant networks,
# or if using flat or VLAN provider networks, set in ``localrc`` to
# the name of the OVS bridge to use for the physical network. The
# bridge will be created if it does not already exist, but a
# physical interface must be manually added to the bridge as a
# port for external connectivity.
#
# Example: ``OVS_PHYSICAL_BRIDGE=br-eth1``
OVS_PHYSICAL_BRIDGE=${OVS_PHYSICAL_BRIDGE:-}
# With the linuxbridge agent, if using VLANs for tenant networks,
# or if using flat or VLAN provider networks, set in ``localrc`` to
# the name of the network interface to use for the physical
# network.
#
# Example: ``LB_PHYSICAL_INTERFACE=eth1``
LB_PHYSICAL_INTERFACE=${LB_PHYSICAL_INTERFACE:-}
# When Neutron tunnels are enabled it is needed to specify the
# IP address of the end point in the local server. This IP is set
# by default to the same IP address that the HOST IP.
# This variable can be used to specify a different end point IP address
# Example: ``TUNNEL_ENDPOINT_IP=1.1.1.1``
TUNNEL_ENDPOINT_IP=${TUNNEL_ENDPOINT_IP:-$HOST_IP}
# With the openvswitch plugin, set to True in ``localrc`` to enable
# provider GRE tunnels when ``ENABLE_TENANT_TUNNELS`` is False.
#
# Example: ``OVS_ENABLE_TUNNELING=True``
OVS_ENABLE_TUNNELING=${OVS_ENABLE_TUNNELING:-$ENABLE_TENANT_TUNNELS}
# Use DHCP agent for providing metadata service in the case of
# without L3 agent (No Route Agent), set to True in localrc.
ENABLE_ISOLATED_METADATA=${ENABLE_ISOLATED_METADATA:-False}
# Add a static route as dhcp option, so the request to 169.254.169.254
# will be able to reach through a route(DHCP agent)
# This option require ENABLE_ISOLATED_METADATA = True
ENABLE_METADATA_NETWORK=${ENABLE_METADATA_NETWORK:-False}
# Neutron plugin specific functions
# ---------------------------------
# Please refer to ``lib/neutron_plugins/README.md`` for details.
if [ -f $TOP_DIR/lib/neutron_plugins/$Q_PLUGIN ]; then
source $TOP_DIR/lib/neutron_plugins/$Q_PLUGIN
fi
# Agent loadbalancer service plugin functions
# -------------------------------------------
# Hardcoding for 1 service plugin for now
source $TOP_DIR/lib/neutron_plugins/services/loadbalancer
# Agent metering service plugin functions
# -------------------------------------------
# Hardcoding for 1 service plugin for now
source $TOP_DIR/lib/neutron_plugins/services/metering
# VPN service plugin functions
# -------------------------------------------
# Hardcoding for 1 service plugin for now
source $TOP_DIR/lib/neutron_plugins/services/vpn
# Firewall Service Plugin functions
# ---------------------------------
source $TOP_DIR/lib/neutron_plugins/services/firewall
# Use security group or not
if has_neutron_plugin_security_group; then
Q_USE_SECGROUP=${Q_USE_SECGROUP:-True}
else
Q_USE_SECGROUP=False
fi
# Save trace setting
XTRACE=$(set +o | grep xtrace)
set +o xtrace
# Functions
# ---------
function _determine_config_server {
local cfg_file
local opts="--config-file $NEUTRON_CONF --config-file /$Q_PLUGIN_CONF_FILE"
for cfg_file in ${Q_PLUGIN_EXTRA_CONF_FILES[@]}; do
opts+=" --config-file /$cfg_file"
done
echo "$opts"
}
function _determine_config_vpn {
local cfg_file
local opts="--config-file $NEUTRON_CONF --config-file=$Q_L3_CONF_FILE --config-file=$Q_VPN_CONF_FILE"
if is_service_enabled q-fwaas; then
opts+=" --config-file $Q_FWAAS_CONF_FILE"
fi
for cfg_file in ${Q_VPN_EXTRA_CONF_FILES[@]}; do
opts+=" --config-file $cfg_file"
done
echo "$opts"
}
function _determine_config_l3 {
local opts="--config-file $NEUTRON_CONF --config-file=$Q_L3_CONF_FILE"
if is_service_enabled q-fwaas; then
opts+=" --config-file $Q_FWAAS_CONF_FILE"
fi
echo "$opts"
}
# For services and agents that require it, dynamically construct a list of
# --config-file arguments that are passed to the binary.
function determine_config_files {
local opts=""
case "$1" in
"neutron-server") opts="$(_determine_config_server)" ;;
"neutron-vpn-agent") opts="$(_determine_config_vpn)" ;;
"neutron-l3-agent") opts="$(_determine_config_l3)" ;;
esac
if [ -z "$opts" ] ; then
die $LINENO "Could not determine config files for $1."
fi
echo "$opts"
}
# Test if any Neutron services are enabled
# is_neutron_enabled
function is_neutron_enabled {
[[ ,${ENABLED_SERVICES} =~ ,"q-" ]] && return 0
return 1
}
# configure_neutron()
# Set common config for all neutron server and agents.
function configure_neutron {
_configure_neutron_common
iniset_rpc_backend neutron $NEUTRON_CONF
# goes before q-svc to init Q_SERVICE_PLUGIN_CLASSES
if is_service_enabled q-lbaas; then
_configure_neutron_lbaas
fi
if is_service_enabled q-metering; then
_configure_neutron_metering
fi
if is_service_enabled q-vpn; then
_configure_neutron_vpn
fi
if is_service_enabled q-fwaas; then
_configure_neutron_fwaas
fi
if is_service_enabled q-agt q-svc; then
_configure_neutron_service
fi
if is_service_enabled q-agt; then
_configure_neutron_plugin_agent
fi
if is_service_enabled q-dhcp; then
_configure_neutron_dhcp_agent
fi
if is_service_enabled q-l3; then
_configure_neutron_l3_agent
fi
if is_service_enabled q-meta; then
_configure_neutron_metadata_agent
fi
if [[ "$Q_DVR_MODE" != "legacy" ]]; then
_configure_dvr
fi
if is_service_enabled ceilometer; then
_configure_neutron_ceilometer_notifications
fi
_configure_neutron_debug_command
iniset $NEUTRON_CONF DEFAULT api_workers "$API_WORKERS"
}
function create_nova_conf_neutron {
iniset $NOVA_CONF DEFAULT network_api_class "nova.network.neutronv2.api.API"
iniset $NOVA_CONF neutron auth_plugin "v3password"
iniset $NOVA_CONF neutron auth_url "$KEYSTONE_SERVICE_PROTOCOL://$KEYSTONE_SERVICE_HOST:$KEYSTONE_AUTH_PORT/v3"
iniset $NOVA_CONF neutron username "$Q_ADMIN_USERNAME"
iniset $NOVA_CONF neutron password "$SERVICE_PASSWORD"
iniset $NOVA_CONF neutron user_domain_name "Default"
iniset $NOVA_CONF neutron project_name "$SERVICE_TENANT_NAME"
iniset $NOVA_CONF neutron project_domain_name "Default"
iniset $NOVA_CONF neutron auth_strategy "$Q_AUTH_STRATEGY"
iniset $NOVA_CONF neutron region_name "$REGION_NAME"
iniset $NOVA_CONF neutron url "${Q_PROTOCOL}://$Q_HOST:$Q_PORT"
if [[ "$Q_USE_SECGROUP" == "True" ]]; then
LIBVIRT_FIREWALL_DRIVER=nova.virt.firewall.NoopFirewallDriver
iniset $NOVA_CONF DEFAULT firewall_driver $LIBVIRT_FIREWALL_DRIVER
iniset $NOVA_CONF DEFAULT security_group_api neutron
fi
# optionally set options in nova_conf
neutron_plugin_create_nova_conf
iniset $NOVA_CONF DEFAULT linuxnet_interface_driver "$LINUXNET_VIF_DRIVER"
if is_service_enabled q-meta; then
iniset $NOVA_CONF neutron service_metadata_proxy "True"
fi
iniset $NOVA_CONF DEFAULT vif_plugging_is_fatal "$VIF_PLUGGING_IS_FATAL"
iniset $NOVA_CONF DEFAULT vif_plugging_timeout "$VIF_PLUGGING_TIMEOUT"
}
# create_neutron_cache_dir() - Part of the _neutron_setup_keystone() process
function create_neutron_cache_dir {
# Create cache dir
sudo install -d -o $STACK_USER $NEUTRON_AUTH_CACHE_DIR
rm -f $NEUTRON_AUTH_CACHE_DIR/*
}
# create_neutron_accounts() - Set up common required neutron accounts
# Tenant User Roles
# ------------------------------------------------------------------
# service neutron admin # if enabled
# Migrated from keystone_data.sh
function create_neutron_accounts {
if [[ "$ENABLED_SERVICES" =~ "q-svc" ]]; then
create_service_user "neutron"
if [[ "$KEYSTONE_CATALOG_BACKEND" = 'sql' ]]; then
get_or_create_service "neutron" "network" "Neutron Service"
get_or_create_endpoint "network" \
"$REGION_NAME" \
"$Q_PROTOCOL://$SERVICE_HOST:$Q_PORT/" \
"$Q_PROTOCOL://$SERVICE_HOST:$Q_PORT/" \
"$Q_PROTOCOL://$SERVICE_HOST:$Q_PORT/"
fi
fi
}
function create_neutron_initial_network {
TENANT_ID=$(openstack project list | grep " demo " | get_field 1)
die_if_not_set $LINENO TENANT_ID "Failure retrieving TENANT_ID for demo"
# Allow drivers that need to create an initial network to do so here
if type -p neutron_plugin_create_initial_network_profile > /dev/null; then
neutron_plugin_create_initial_network_profile $PHYSICAL_NETWORK
fi
if is_provider_network; then
die_if_not_set $LINENO PHYSICAL_NETWORK "You must specify the PHYSICAL_NETWORK"
die_if_not_set $LINENO PROVIDER_NETWORK_TYPE "You must specifiy the PROVIDER_NETWORK_TYPE"
NET_ID=$(neutron net-create $PHYSICAL_NETWORK --tenant_id $TENANT_ID --provider:network_type $PROVIDER_NETWORK_TYPE --provider:physical_network "$PHYSICAL_NETWORK" ${SEGMENTATION_ID:+--provider:segmentation_id $SEGMENTATION_ID} --shared | grep ' id ' | get_field 2)
die_if_not_set $LINENO NET_ID "Failure creating NET_ID for $PHYSICAL_NETWORK $TENANT_ID"
if [[ "$IP_VERSION" =~ 4.* ]]; then
SUBNET_ID=$(neutron subnet-create --tenant_id $TENANT_ID --ip_version 4 ${ALLOCATION_POOL:+--allocation-pool $ALLOCATION_POOL} --name $PROVIDER_SUBNET_NAME --gateway $NETWORK_GATEWAY $NET_ID $FIXED_RANGE | grep ' id ' | get_field 2)
die_if_not_set $LINENO SUBNET_ID "Failure creating SUBNET_ID for $PROVIDER_SUBNET_NAME $TENANT_ID"
fi
if [[ "$IP_VERSION" =~ .*6 ]]; then
SUBNET_V6_ID=$(neutron subnet-create --tenant_id $TENANT_ID --ip_version 6 --ipv6-address-mode slaac --gateway $V6_NETWORK_GATEWAY --name $PROVIDER_SUBNET_NAME_V6 $NET_ID $FIXED_RANGE_V6 | grep 'id' | get_field 2)
die_if_not_set $LINENO SUBNET_V6_ID "Failure creating SUBNET_V6_ID for $PROVIDER_SUBNET_NAME_V6 $TENANT_ID"
fi
sudo ip link set $OVS_PHYSICAL_BRIDGE up
sudo ip link set br-int up
sudo ip link set $PUBLIC_INTERFACE up
else
NET_ID=$(neutron net-create --tenant-id $TENANT_ID "$PRIVATE_NETWORK_NAME" | grep ' id ' | get_field 2)
die_if_not_set $LINENO NET_ID "Failure creating NET_ID for $PRIVATE_NETWORK_NAME $TENANT_ID"
if [[ "$IP_VERSION" =~ 4.* ]]; then
# Create IPv4 private subnet
SUBNET_ID=$(_neutron_create_private_subnet_v4)
fi
if [[ "$IP_VERSION" =~ .*6 ]]; then
# Create IPv6 private subnet
IPV6_SUBNET_ID=$(_neutron_create_private_subnet_v6)
fi
fi
if [[ "$Q_L3_ENABLED" == "True" ]]; then
# Create a router, and add the private subnet as one of its interfaces
if [[ "$Q_L3_ROUTER_PER_TENANT" == "True" ]]; then
# create a tenant-owned router.
ROUTER_ID=$(neutron router-create --tenant-id $TENANT_ID $Q_ROUTER_NAME | grep ' id ' | get_field 2)
die_if_not_set $LINENO ROUTER_ID "Failure creating ROUTER_ID for $TENANT_ID $Q_ROUTER_NAME"
else
# Plugin only supports creating a single router, which should be admin owned.
ROUTER_ID=$(neutron router-create $Q_ROUTER_NAME | grep ' id ' | get_field 2)
die_if_not_set $LINENO ROUTER_ID "Failure creating ROUTER_ID for $Q_ROUTER_NAME"
fi
# Create an external network, and a subnet. Configure the external network as router gw
if [ "$Q_USE_PROVIDERNET_FOR_PUBLIC" = "True" ]; then
EXT_NET_ID=$(neutron net-create "$PUBLIC_NETWORK_NAME" -- --router:external=True --provider:network_type=flat --provider:physical_network=${PUBLIC_PHYSICAL_NETWORK} | grep ' id ' | get_field 2)
else
EXT_NET_ID=$(neutron net-create "$PUBLIC_NETWORK_NAME" -- --router:external=True | grep ' id ' | get_field 2)
fi
die_if_not_set $LINENO EXT_NET_ID "Failure creating EXT_NET_ID for $PUBLIC_NETWORK_NAME"
if [[ "$IP_VERSION" =~ 4.* ]]; then
# Configure router for IPv4 public access
_neutron_configure_router_v4
fi
if [[ "$IP_VERSION" =~ .*6 ]]; then
# Configure router for IPv6 public access
_neutron_configure_router_v6
fi
fi
}
# init_neutron() - Initialize databases, etc.
function init_neutron {
recreate_database $Q_DB_NAME
# Run Neutron db migrations
$NEUTRON_BIN_DIR/neutron-db-manage --config-file $NEUTRON_CONF --config-file /$Q_PLUGIN_CONF_FILE upgrade head
}
# install_neutron() - Collect source and prepare
function install_neutron {
git_clone $NEUTRON_REPO $NEUTRON_DIR $NEUTRON_BRANCH
setup_develop $NEUTRON_DIR
if is_service_enabled q-fwaas; then
git_clone $NEUTRON_FWAAS_REPO $NEUTRON_FWAAS_DIR $NEUTRON_FWAAS_BRANCH
setup_develop $NEUTRON_FWAAS_DIR
fi
if is_service_enabled q-lbaas; then
git_clone $NEUTRON_LBAAS_REPO $NEUTRON_LBAAS_DIR $NEUTRON_LBAAS_BRANCH
setup_develop $NEUTRON_LBAAS_DIR
fi
if is_service_enabled q-vpn; then
git_clone $NEUTRON_VPNAAS_REPO $NEUTRON_VPNAAS_DIR $NEUTRON_VPNAAS_BRANCH
setup_develop $NEUTRON_VPNAAS_DIR
fi
if [ "$VIRT_DRIVER" == 'xenserver' ]; then
local dom0_ip
dom0_ip=$(echo "$XENAPI_CONNECTION_URL" | cut -d "/" -f 3-)
local ssh_dom0
ssh_dom0="sudo -u $DOMZERO_USER ssh -o StrictHostKeyChecking=no -o UserKnownHostsFile=/dev/null root@$dom0_ip"
# Find where the plugins should go in dom0
local xen_functions
xen_functions=$(cat $TOP_DIR/tools/xen/functions)
local plugin_dir
plugin_dir=$($ssh_dom0 "$xen_functions; set -eux; xapi_plugin_location")
# install neutron plugins to dom0
tar -czf - -C $NEUTRON_DIR/neutron/plugins/openvswitch/agent/xenapi/etc/xapi.d/plugins/ ./ |
$ssh_dom0 "tar -xzf - -C $plugin_dir && chmod a+x $plugin_dir/*"
fi
}
# install_neutronclient() - Collect source and prepare
function install_neutronclient {
if use_library_from_git "python-neutronclient"; then
git_clone_by_name "python-neutronclient"
setup_dev_lib "python-neutronclient"
sudo install -D -m 0644 -o $STACK_USER {${GITDIR["python-neutronclient"]}/tools/,/etc/bash_completion.d/}neutron.bash_completion
fi
}
# install_neutron_agent_packages() - Collect source and prepare
function install_neutron_agent_packages {
# radvd doesn't come with the OS. Install it if the l3 service is enabled.
if is_service_enabled q-l3; then
install_package radvd
fi
# install packages that are specific to plugin agent(s)
if is_service_enabled q-agt q-dhcp q-l3; then
neutron_plugin_install_agent_packages
fi
if is_service_enabled q-lbaas; then
neutron_agent_lbaas_install_agent_packages
fi
}
# Start running processes, including screen
function start_neutron_service_and_check {
local cfg_file_options="$(determine_config_files neutron-server)"
local service_port=$Q_PORT
local service_protocol=$Q_PROTOCOL
if is_service_enabled tls-proxy; then
service_port=$Q_PORT_INT
service_protocol="http"
fi
# Start the Neutron service
run_process q-svc "$NEUTRON_BIN_DIR/neutron-server $cfg_file_options"
echo "Waiting for Neutron to start..."
if is_ssl_enabled_service "neutron"; then
ssl_ca="--ca-certificate=${SSL_BUNDLE_FILE}"
fi
local testcmd="wget ${ssl_ca} --no-proxy -q -O- $service_protocol://$Q_HOST:$service_port"
test_with_retry "$testcmd" "Neutron did not start" $SERVICE_TIMEOUT
# Start proxy if enabled
if is_service_enabled tls-proxy; then
start_tls_proxy '*' $Q_PORT $Q_HOST $Q_PORT_INT &
fi
}
# Control of the l2 agent is separated out to make it easier to test partial
# upgrades (everything upgraded except the L2 agent)
function start_neutron_l2_agent {
run_process q-agt "$AGENT_BINARY --config-file $NEUTRON_CONF --config-file /$Q_PLUGIN_CONF_FILE"
if is_provider_network; then
sudo ovs-vsctl --no-wait -- --may-exist add-port $OVS_PHYSICAL_BRIDGE $PUBLIC_INTERFACE
sudo ip link set $OVS_PHYSICAL_BRIDGE up
sudo ip link set br-int up
sudo ip link set $PUBLIC_INTERFACE up
if is_ironic_hardware; then
for IP in $(ip addr show dev $PUBLIC_INTERFACE | grep ' inet ' | awk '{print $2}'); do
sudo ip addr del $IP dev $PUBLIC_INTERFACE
sudo ip addr add $IP dev $OVS_PHYSICAL_BRIDGE
done
sudo ip route replace $FIXED_RANGE via $NETWORK_GATEWAY dev $OVS_PHYSICAL_BRIDGE
fi
fi
}
function start_neutron_other_agents {
run_process q-dhcp "$AGENT_DHCP_BINARY --config-file $NEUTRON_CONF --config-file=$Q_DHCP_CONF_FILE"
if is_service_enabled neutron-vpnaas; then
: # Started by plugin
elif is_service_enabled q-vpn; then
run_process q-vpn "$AGENT_VPN_BINARY $(determine_config_files neutron-vpn-agent)"
else
run_process q-l3 "$AGENT_L3_BINARY $(determine_config_files neutron-l3-agent)"
fi
run_process q-meta "$AGENT_META_BINARY --config-file $NEUTRON_CONF --config-file=$Q_META_CONF_FILE"
run_process q-lbaas "$AGENT_LBAAS_BINARY --config-file $NEUTRON_CONF --config-file=$LBAAS_AGENT_CONF_FILENAME"
run_process q-metering "$AGENT_METERING_BINARY --config-file $NEUTRON_CONF --config-file $METERING_AGENT_CONF_FILENAME"
if [ "$VIRT_DRIVER" = 'xenserver' ]; then
# For XenServer, start an agent for the domU openvswitch
run_process q-domua "$AGENT_BINARY --config-file $NEUTRON_CONF --config-file /$Q_PLUGIN_CONF_FILE.domU"
fi
}
# Start running processes, including screen
function start_neutron_agents {
# Start up the neutron agents if enabled
start_neutron_l2_agent
start_neutron_other_agents
}
function stop_neutron_l2_agent {
stop_process q-agt
}
function stop_neutron_other {
if is_service_enabled q-dhcp; then
stop_process q-dhcp
pid=$(ps aux | awk '/[d]nsmasq.+interface=(tap|ns-)/ { print $2 }')
[ ! -z "$pid" ] && sudo kill -9 $pid
fi
stop_process q-svc
stop_process q-l3
if is_service_enabled q-meta; then
sudo pkill -9 -f neutron-ns-metadata-proxy || :
stop_process q-meta
fi
if is_service_enabled q-lbaas; then
neutron_lbaas_stop
fi
if is_service_enabled q-fwaas; then
neutron_fwaas_stop
fi
if is_service_enabled q-vpn; then
neutron_vpn_stop
fi
if is_service_enabled q-metering; then
neutron_metering_stop
fi
}
# stop_neutron() - Stop running processes (non-screen)
function stop_neutron {
stop_neutron_other
stop_neutron_l2_agent
}
# _move_neutron_addresses_route() - Move the primary IP to the OVS bridge
# on startup, or back to the public interface on cleanup. If no IP is
# configured on the interface, just add it as a port to the OVS bridge.
function _move_neutron_addresses_route {
local from_intf=$1
local to_intf=$2
local add_ovs_port=$3
local af=$4
if [[ -n "$from_intf" && -n "$to_intf" ]]; then
# Remove the primary IP address from $from_intf and add it to $to_intf,
# along with the default route, if it exists. Also, when called
# on configure we will also add $from_intf as a port on $to_intf,
# assuming it is an OVS bridge.
local IP_ADD=""
local IP_DEL=""
local DEFAULT_ROUTE_GW
DEFAULT_ROUTE_GW=$(ip r | awk "/default.+$from_intf/ { print \$3; exit }")
local ADD_OVS_PORT=""
if [[ $af == "inet" ]]; then
IP_BRD=$(ip -f $af a s dev $from_intf | grep inet | awk '{ print $2, $3, $4; exit }')
fi
if [[ $af == "inet6" ]]; then
IP_BRD=$(ip -f $af a s dev $from_intf | grep inet6 | awk '{ print $2, $3, $4; exit }')
fi
if [ "$DEFAULT_ROUTE_GW" != "" ]; then
ADD_DEFAULT_ROUTE="sudo ip r replace default via $DEFAULT_ROUTE_GW dev $to_intf"
fi
if [[ "$add_ovs_port" == "True" ]]; then
ADD_OVS_PORT="sudo ovs-vsctl --may-exist add-port $to_intf $from_intf"
fi
if [[ "$IP_BRD" != "" ]]; then
IP_DEL="sudo ip addr del $IP_BRD dev $from_intf"
IP_ADD="sudo ip addr add $IP_BRD dev $to_intf"
fi
$IP_DEL; $IP_ADD; $ADD_OVS_PORT; $ADD_DEFAULT_ROUTE
fi
}
# cleanup_neutron() - Remove residual data files, anything left over from previous
# runs that a clean run would need to clean up
function cleanup_neutron {
if [[ -n "$OVS_PHYSICAL_BRIDGE" ]]; then
_move_neutron_addresses_route "$OVS_PHYSICAL_BRIDGE" "$PUBLIC_INTERFACE" False "inet"
if [[ $(ip -f inet6 a s dev "$OVS_PHYSICAL_BRIDGE" | grep -c 'global') != 0 ]]; then
_move_neutron_addresses_route "$OVS_PHYSICAL_BRIDGE" "$PUBLIC_INTERFACE" False "inet6"
fi
if is_provider_network && is_ironic_hardware; then
for IP in $(ip addr show dev $OVS_PHYSICAL_BRIDGE | grep ' inet ' | awk '{print $2}'); do
sudo ip addr del $IP dev $OVS_PHYSICAL_BRIDGE
sudo ip addr add $IP dev $PUBLIC_INTERFACE
done
sudo route del -net $FIXED_RANGE gw $NETWORK_GATEWAY dev $OVS_PHYSICAL_BRIDGE
fi
fi
if is_neutron_ovs_base_plugin; then
neutron_ovs_base_cleanup
fi
if [[ $Q_AGENT == "linuxbridge" ]]; then
neutron_lb_cleanup
fi
# delete all namespaces created by neutron
for ns in $(sudo ip netns list | grep -o -E '(qdhcp|qrouter|qlbaas|fip|snat)-[0-9a-f-]*'); do
sudo ip netns delete ${ns}
done
}
function _create_neutron_conf_dir {
# Put config files in ``NEUTRON_CONF_DIR`` for everyone to find
sudo install -d -o $STACK_USER $NEUTRON_CONF_DIR
}
# _configure_neutron_common()
# Set common config for all neutron server and agents.
# This MUST be called before other ``_configure_neutron_*`` functions.
function _configure_neutron_common {
_create_neutron_conf_dir
cp $NEUTRON_DIR/etc/neutron.conf $NEUTRON_CONF
Q_POLICY_FILE=$NEUTRON_CONF_DIR/policy.json
cp $NEUTRON_DIR/etc/policy.json $Q_POLICY_FILE
# allow neutron user to administer neutron to match neutron account
sed -i 's/"context_is_admin": "role:admin"/"context_is_admin": "role:admin or user_name:neutron"/g' $Q_POLICY_FILE
# Set plugin-specific variables ``Q_DB_NAME``, ``Q_PLUGIN_CLASS``.
# For main plugin config file, set ``Q_PLUGIN_CONF_PATH``, ``Q_PLUGIN_CONF_FILENAME``.
# For addition plugin config files, set ``Q_PLUGIN_EXTRA_CONF_PATH``,
# ``Q_PLUGIN_EXTRA_CONF_FILES``. For example:
#
# ``Q_PLUGIN_EXTRA_CONF_FILES=(file1, file2)``
neutron_plugin_configure_common
if [[ "$Q_PLUGIN_CONF_PATH" == '' || "$Q_PLUGIN_CONF_FILENAME" == '' || "$Q_PLUGIN_CLASS" == '' ]]; then
die $LINENO "Neutron plugin not set.. exiting"
fi
# If needed, move config file from ``$NEUTRON_DIR/etc/neutron`` to ``NEUTRON_CONF_DIR``
mkdir -p /$Q_PLUGIN_CONF_PATH
Q_PLUGIN_CONF_FILE=$Q_PLUGIN_CONF_PATH/$Q_PLUGIN_CONF_FILENAME
# NOTE(hichihara): Some neutron vendor plugins were already decomposed and
# there is no config file in Neutron tree. They should prepare the file in each plugin.
if [ -f $NEUTRON_DIR/$Q_PLUGIN_CONF_FILE ]; then
cp $NEUTRON_DIR/$Q_PLUGIN_CONF_FILE /$Q_PLUGIN_CONF_FILE
fi
iniset $NEUTRON_CONF database connection `database_connection_url $Q_DB_NAME`
iniset $NEUTRON_CONF DEFAULT state_path $DATA_DIR/neutron
iniset $NEUTRON_CONF DEFAULT use_syslog $SYSLOG
iniset $NEUTRON_CONF DEFAULT bind_host $Q_LISTEN_ADDRESS
# If addition config files are set, make sure their path name is set as well
if [[ ${#Q_PLUGIN_EXTRA_CONF_FILES[@]} > 0 && $Q_PLUGIN_EXTRA_CONF_PATH == '' ]]; then
die $LINENO "Neutron additional plugin config not set.. exiting"
fi
# If additional config files exist, copy them over to neutron configuration
# directory
if [[ $Q_PLUGIN_EXTRA_CONF_PATH != '' ]]; then
local f
for (( f=0; $f < ${#Q_PLUGIN_EXTRA_CONF_FILES[@]}; f+=1 )); do
Q_PLUGIN_EXTRA_CONF_FILES[$f]=$Q_PLUGIN_EXTRA_CONF_PATH/${Q_PLUGIN_EXTRA_CONF_FILES[$f]}
done
fi
if [ "$VIRT_DRIVER" = 'fake' ]; then
# Disable arbitrary limits
iniset $NEUTRON_CONF quotas quota_network -1
iniset $NEUTRON_CONF quotas quota_subnet -1
iniset $NEUTRON_CONF quotas quota_port -1
iniset $NEUTRON_CONF quotas quota_security_group -1
iniset $NEUTRON_CONF quotas quota_security_group_rule -1
fi
# Format logging
if [ "$LOG_COLOR" == "True" ] && [ "$SYSLOG" == "False" ]; then
setup_colorized_logging $NEUTRON_CONF DEFAULT project_id
else
# Show user_name and project_name by default like in nova
iniset $NEUTRON_CONF DEFAULT logging_context_format_string "%(asctime)s.%(msecs)03d %(levelname)s %(name)s [%(request_id)s %(user_name)s %(project_name)s] %(instance)s%(message)s"
fi
if is_service_enabled tls-proxy; then
# Set the service port for a proxy to take the original
iniset $NEUTRON_CONF DEFAULT bind_port "$Q_PORT_INT"
fi
if is_ssl_enabled_service "nova"; then
iniset $NEUTRON_CONF nova cafile $SSL_BUNDLE_FILE
fi
if is_ssl_enabled_service "neutron"; then
ensure_certificates NEUTRON
iniset $NEUTRON_CONF DEFAULT use_ssl True
iniset $NEUTRON_CONF DEFAULT ssl_cert_file "$NEUTRON_SSL_CERT"
iniset $NEUTRON_CONF DEFAULT ssl_key_file "$NEUTRON_SSL_KEY"
fi
_neutron_setup_rootwrap
}
function _configure_neutron_debug_command {
if [[ "$Q_USE_DEBUG_COMMAND" != "True" ]]; then
return
fi
cp $NEUTRON_DIR/etc/l3_agent.ini $NEUTRON_TEST_CONFIG_FILE
iniset $NEUTRON_TEST_CONFIG_FILE DEFAULT verbose False
iniset $NEUTRON_TEST_CONFIG_FILE DEFAULT debug False
iniset $NEUTRON_TEST_CONFIG_FILE AGENT root_helper "$Q_RR_COMMAND"
if [[ "$Q_USE_ROOTWRAP_DAEMON" == "True" ]]; then
iniset $NEUTRON_TEST_CONFIG_FILE AGENT root_helper_daemon "$Q_RR_DAEMON_COMMAND"
fi
_neutron_setup_interface_driver $NEUTRON_TEST_CONFIG_FILE
neutron_plugin_configure_debug_command
}
function _configure_neutron_dhcp_agent {
cp $NEUTRON_DIR/etc/dhcp_agent.ini $Q_DHCP_CONF_FILE
iniset $Q_DHCP_CONF_FILE DEFAULT verbose True
iniset $Q_DHCP_CONF_FILE DEFAULT debug $ENABLE_DEBUG_LOG_LEVEL
iniset $Q_DHCP_CONF_FILE AGENT root_helper "$Q_RR_COMMAND"
if [[ "$Q_USE_ROOTWRAP_DAEMON" == "True" ]]; then
iniset $Q_DHCP_CONF_FILE AGENT root_helper_daemon "$Q_RR_DAEMON_COMMAND"
fi
if ! is_service_enabled q-l3; then
if [[ "$ENABLE_ISOLATED_METADATA" = "True" ]]; then
iniset $Q_DHCP_CONF_FILE DEFAULT enable_isolated_metadata $ENABLE_ISOLATED_METADATA
iniset $Q_DHCP_CONF_FILE DEFAULT enable_metadata_network $ENABLE_METADATA_NETWORK
else
if [[ "$ENABLE_METADATA_NETWORK" = "True" ]]; then
die "$LINENO" "Enable isolated metadata is a must for metadata network"
fi
fi
fi
_neutron_setup_interface_driver $Q_DHCP_CONF_FILE
neutron_plugin_configure_dhcp_agent
}
function _configure_neutron_l3_agent {
Q_L3_ENABLED=True
if is_service_enabled q-vpn; then
neutron_vpn_configure_agent
fi
cp $NEUTRON_DIR/etc/l3_agent.ini $Q_L3_CONF_FILE
iniset $Q_L3_CONF_FILE DEFAULT verbose True
iniset $Q_L3_CONF_FILE DEFAULT debug $ENABLE_DEBUG_LOG_LEVEL
iniset $Q_L3_CONF_FILE AGENT root_helper "$Q_RR_COMMAND"
if [[ "$Q_USE_ROOTWRAP_DAEMON" == "True" ]]; then
iniset $Q_L3_CONF_FILE AGENT root_helper_daemon "$Q_RR_DAEMON_COMMAND"
fi
_neutron_setup_interface_driver $Q_L3_CONF_FILE
neutron_plugin_configure_l3_agent
_move_neutron_addresses_route "$PUBLIC_INTERFACE" "$OVS_PHYSICAL_BRIDGE" True "inet"
if [[ $(ip -f inet6 a s dev "$PUBLIC_INTERFACE" | grep -c 'global') != 0 ]]; then
_move_neutron_addresses_route "$PUBLIC_INTERFACE" "$OVS_PHYSICAL_BRIDGE" False "inet6"
fi
}
function _configure_neutron_metadata_agent {
cp $NEUTRON_DIR/etc/metadata_agent.ini $Q_META_CONF_FILE
iniset $Q_META_CONF_FILE DEFAULT verbose True
iniset $Q_META_CONF_FILE DEFAULT debug $ENABLE_DEBUG_LOG_LEVEL
iniset $Q_META_CONF_FILE DEFAULT nova_metadata_ip $Q_META_DATA_IP
iniset $Q_META_CONF_FILE AGENT root_helper "$Q_RR_COMMAND"
if [[ "$Q_USE_ROOTWRAP_DAEMON" == "True" ]]; then
iniset $Q_META_CONF_FILE AGENT root_helper_daemon "$Q_RR_DAEMON_COMMAND"
fi
# Configures keystone for metadata_agent
# The third argument "True" sets auth_url needed to communicate with keystone
_neutron_setup_keystone $Q_META_CONF_FILE DEFAULT True
}
function _configure_neutron_ceilometer_notifications {
iniset $NEUTRON_CONF DEFAULT notification_driver messaging
}
function _configure_neutron_lbaas {
if [ -f $NEUTRON_LBAAS_DIR/etc/neutron_lbaas.conf ]; then
cp $NEUTRON_LBAAS_DIR/etc/neutron_lbaas.conf $NEUTRON_CONF_DIR
fi
neutron_agent_lbaas_configure_common
neutron_agent_lbaas_configure_agent
}
function _configure_neutron_metering {
neutron_agent_metering_configure_common
neutron_agent_metering_configure_agent
}
function _configure_neutron_fwaas {
if [ -f $NEUTRON_FWAAS_DIR/etc/neutron_fwaas.conf ]; then
cp $NEUTRON_FWAAS_DIR/etc/neutron_fwaas.conf $NEUTRON_CONF_DIR
fi
neutron_fwaas_configure_common
neutron_fwaas_configure_driver
}
function _configure_neutron_vpn {
if [ -f $NEUTRON_VPNAAS_DIR/etc/neutron_vpnaas.conf ]; then
cp $NEUTRON_VPNAAS_DIR/etc/neutron_vpnaas.conf $NEUTRON_CONF_DIR
fi
neutron_vpn_install_agent_packages
neutron_vpn_configure_common
}
function _configure_dvr {
iniset $NEUTRON_CONF DEFAULT router_distributed True
iniset $Q_L3_CONF_FILE DEFAULT agent_mode $Q_DVR_MODE
}
# _configure_neutron_plugin_agent() - Set config files for neutron plugin agent
# It is called when q-agt is enabled.
function _configure_neutron_plugin_agent {
# Specify the default root helper prior to agent configuration to
# ensure that an agent's configuration can override the default
iniset /$Q_PLUGIN_CONF_FILE agent root_helper "$Q_RR_COMMAND"
if [[ "$Q_USE_ROOTWRAP_DAEMON" == "True" ]]; then
iniset /$Q_PLUGIN_CONF_FILE agent root_helper_daemon "$Q_RR_DAEMON_COMMAND"
fi
iniset $NEUTRON_CONF DEFAULT verbose True
iniset $NEUTRON_CONF DEFAULT debug $ENABLE_DEBUG_LOG_LEVEL
# Configure agent for plugin
neutron_plugin_configure_plugin_agent
}
# _configure_neutron_service() - Set config files for neutron service
# It is called when q-svc is enabled.
function _configure_neutron_service {
Q_API_PASTE_FILE=$NEUTRON_CONF_DIR/api-paste.ini
cp $NEUTRON_DIR/etc/api-paste.ini $Q_API_PASTE_FILE
# Update either configuration file with plugin
iniset $NEUTRON_CONF DEFAULT core_plugin $Q_PLUGIN_CLASS
if [[ $Q_SERVICE_PLUGIN_CLASSES != '' ]]; then
iniset $NEUTRON_CONF DEFAULT service_plugins $Q_SERVICE_PLUGIN_CLASSES
fi
iniset $NEUTRON_CONF DEFAULT verbose True
iniset $NEUTRON_CONF DEFAULT debug $ENABLE_DEBUG_LOG_LEVEL
iniset $NEUTRON_CONF oslo_policy policy_file $Q_POLICY_FILE
iniset $NEUTRON_CONF DEFAULT allow_overlapping_ips $Q_ALLOW_OVERLAPPING_IP
iniset $NEUTRON_CONF DEFAULT auth_strategy $Q_AUTH_STRATEGY
_neutron_setup_keystone $NEUTRON_CONF keystone_authtoken
# Configuration for neutron notifations to nova.
iniset $NEUTRON_CONF DEFAULT notify_nova_on_port_status_changes $Q_NOTIFY_NOVA_PORT_STATUS_CHANGES
iniset $NEUTRON_CONF DEFAULT notify_nova_on_port_data_changes $Q_NOTIFY_NOVA_PORT_DATA_CHANGES
iniset $NEUTRON_CONF nova auth_plugin password
iniset $NEUTRON_CONF nova auth_url $KEYSTONE_AUTH_URI
iniset $NEUTRON_CONF nova username nova
iniset $NEUTRON_CONF nova password $SERVICE_PASSWORD
iniset $NEUTRON_CONF nova user_domain_id default
iniset $NEUTRON_CONF nova project_name $SERVICE_TENANT_NAME
iniset $NEUTRON_CONF nova project_domain_id default
iniset $NEUTRON_CONF nova region_name $REGION_NAME
# Configure plugin
neutron_plugin_configure_service
}
# Utility Functions
#------------------
# _neutron_service_plugin_class_add() - add service plugin class
function _neutron_service_plugin_class_add {
local service_plugin_class=$1
if [[ $Q_SERVICE_PLUGIN_CLASSES == '' ]]; then
Q_SERVICE_PLUGIN_CLASSES=$service_plugin_class
elif [[ ! ,${Q_SERVICE_PLUGIN_CLASSES}, =~ ,${service_plugin_class}, ]]; then
Q_SERVICE_PLUGIN_CLASSES="$Q_SERVICE_PLUGIN_CLASSES,$service_plugin_class"
fi
}
# _neutron_deploy_rootwrap_filters() - deploy rootwrap filters to $Q_CONF_ROOTWRAP_D (owned by root).
function _neutron_deploy_rootwrap_filters {
if [[ "$Q_USE_ROOTWRAP" == "False" ]]; then
return
fi
local srcdir=$1
sudo install -d -o root -m 755 $Q_CONF_ROOTWRAP_D
sudo install -o root -m 644 $srcdir/etc/neutron/rootwrap.d/* $Q_CONF_ROOTWRAP_D/
}
# _neutron_setup_rootwrap() - configure Neutron's rootwrap
function _neutron_setup_rootwrap {
if [[ "$Q_USE_ROOTWRAP" == "False" ]]; then
return
fi
# Wipe any existing ``rootwrap.d`` files first
Q_CONF_ROOTWRAP_D=$NEUTRON_CONF_DIR/rootwrap.d
if [[ -d $Q_CONF_ROOTWRAP_D ]]; then
sudo rm -rf $Q_CONF_ROOTWRAP_D
fi
_neutron_deploy_rootwrap_filters $NEUTRON_DIR
# Set up ``rootwrap.conf``, pointing to ``$NEUTRON_CONF_DIR/rootwrap.d``
# location moved in newer versions, prefer new location
if test -r $NEUTRON_DIR/etc/neutron/rootwrap.conf; then
sudo install -o root -g root -m 644 $NEUTRON_DIR/etc/neutron/rootwrap.conf $Q_RR_CONF_FILE
else
sudo install -o root -g root -m 644 $NEUTRON_DIR/etc/rootwrap.conf $Q_RR_CONF_FILE
fi
sudo sed -e "s:^filters_path=.*$:filters_path=$Q_CONF_ROOTWRAP_D:" -i $Q_RR_CONF_FILE
sudo sed -e 's:^exec_dirs=\(.*\)$:exec_dirs=\1,/usr/local/bin:' -i $Q_RR_CONF_FILE
# Specify ``rootwrap.conf`` as first parameter to neutron-rootwrap
ROOTWRAP_SUDOER_CMD="$NEUTRON_ROOTWRAP $Q_RR_CONF_FILE *"
ROOTWRAP_DAEMON_SUDOER_CMD="$NEUTRON_ROOTWRAP-daemon $Q_RR_CONF_FILE"
# Set up the rootwrap sudoers for neutron
TEMPFILE=`mktemp`
echo "$STACK_USER ALL=(root) NOPASSWD: $ROOTWRAP_SUDOER_CMD" >$TEMPFILE
echo "$STACK_USER ALL=(root) NOPASSWD: $ROOTWRAP_DAEMON_SUDOER_CMD" >>$TEMPFILE
chmod 0440 $TEMPFILE
sudo chown root:root $TEMPFILE
sudo mv $TEMPFILE /etc/sudoers.d/neutron-rootwrap
# Update the root_helper
iniset $NEUTRON_CONF agent root_helper "$Q_RR_COMMAND"
if [[ "$Q_USE_ROOTWRAP_DAEMON" == "True" ]]; then
iniset $NEUTRON_CONF agent root_helper_daemon "$Q_RR_DAEMON_COMMAND"
fi
}
# Configures keystone integration for neutron service and agents
function _neutron_setup_keystone {
local conf_file=$1
local section=$2
local use_auth_url=$3
# Configures keystone for metadata_agent
# metadata_agent needs auth_url to communicate with keystone
if [[ "$use_auth_url" == "True" ]]; then
iniset $conf_file $section auth_url $KEYSTONE_SERVICE_URI/v2.0
fi
create_neutron_cache_dir
configure_auth_token_middleware $conf_file $Q_ADMIN_USERNAME $NEUTRON_AUTH_CACHE_DIR $section
}
function _neutron_setup_interface_driver {
# ovs_use_veth needs to be set before the plugin configuration
# occurs to allow plugins to override the setting.
iniset $1 DEFAULT ovs_use_veth $Q_OVS_USE_VETH
neutron_plugin_setup_interface_driver $1
}
# Create private IPv4 subnet
function _neutron_create_private_subnet_v4 {
local subnet_params="--tenant-id $TENANT_ID "
subnet_params+="--ip_version 4 "
subnet_params+="--gateway $NETWORK_GATEWAY "
subnet_params+="--name $PRIVATE_SUBNET_NAME "
subnet_params+="$NET_ID $FIXED_RANGE"
local subnet_id
subnet_id=$(neutron subnet-create $subnet_params | grep ' id ' | get_field 2)
die_if_not_set $LINENO subnet_id "Failure creating private IPv4 subnet for $TENANT_ID"
echo $subnet_id
}
# Create private IPv6 subnet
function _neutron_create_private_subnet_v6 {
die_if_not_set $LINENO IPV6_RA_MODE "IPV6 RA Mode not set"
die_if_not_set $LINENO IPV6_ADDRESS_MODE "IPV6 Address Mode not set"
local ipv6_modes="--ipv6-ra-mode $IPV6_RA_MODE --ipv6-address-mode $IPV6_ADDRESS_MODE"
local subnet_params="--tenant-id $TENANT_ID "
subnet_params+="--ip_version 6 "
subnet_params+="--gateway $IPV6_PRIVATE_NETWORK_GATEWAY "
subnet_params+="--name $IPV6_PRIVATE_SUBNET_NAME "
subnet_params+="$NET_ID $FIXED_RANGE_V6 $ipv6_modes"
local ipv6_subnet_id
ipv6_subnet_id=$(neutron subnet-create $subnet_params | grep ' id ' | get_field 2)
die_if_not_set $LINENO ipv6_subnet_id "Failure creating private IPv6 subnet for $TENANT_ID"
echo $ipv6_subnet_id
}
# Create public IPv4 subnet
function _neutron_create_public_subnet_v4 {
local subnet_params+="--ip_version 4 "
subnet_params+="${Q_FLOATING_ALLOCATION_POOL:+--allocation-pool $Q_FLOATING_ALLOCATION_POOL} "
subnet_params+="--gateway $PUBLIC_NETWORK_GATEWAY "
subnet_params+="--name $PUBLIC_SUBNET_NAME "
subnet_params+="$EXT_NET_ID $FLOATING_RANGE "
subnet_params+="-- --enable_dhcp=False"
local id_and_ext_gw_ip
id_and_ext_gw_ip=$(neutron subnet-create $subnet_params | grep -e 'gateway_ip' -e ' id ')
die_if_not_set $LINENO id_and_ext_gw_ip "Failure creating public IPv4 subnet"
echo $id_and_ext_gw_ip
}
# Create public IPv6 subnet
function _neutron_create_public_subnet_v6 {
local subnet_params="--ip_version 6 "
subnet_params+="--gateway $IPV6_PUBLIC_NETWORK_GATEWAY "
subnet_params+="--name $IPV6_PUBLIC_SUBNET_NAME "
subnet_params+="$EXT_NET_ID $IPV6_PUBLIC_RANGE "
subnet_params+="-- --enable_dhcp=False"
local ipv6_id_and_ext_gw_ip
ipv6_id_and_ext_gw_ip=$(neutron subnet-create $subnet_params | grep -e 'gateway_ip' -e ' id ')
die_if_not_set $LINENO ipv6_id_and_ext_gw_ip "Failure creating an IPv6 public subnet"
echo $ipv6_id_and_ext_gw_ip
}
# Configure neutron router for IPv4 public access
function _neutron_configure_router_v4 {
neutron router-interface-add $ROUTER_ID $SUBNET_ID
# Create a public subnet on the external network
local id_and_ext_gw_ip
id_and_ext_gw_ip=$(_neutron_create_public_subnet_v4 $EXT_NET_ID)
local ext_gw_ip
ext_gw_ip=$(echo $id_and_ext_gw_ip | get_field 2)
PUB_SUBNET_ID=$(echo $id_and_ext_gw_ip | get_field 5)
# Configure the external network as the default router gateway
neutron router-gateway-set $ROUTER_ID $EXT_NET_ID
# This logic is specific to using the l3-agent for layer 3
if is_service_enabled q-l3; then
# Configure and enable public bridge
local ext_gw_interface="none"
if is_neutron_ovs_base_plugin; then
ext_gw_interface=$(_neutron_get_ext_gw_interface)
elif [[ "$Q_AGENT" = "linuxbridge" ]]; then
# Search for the brq device the neutron router and network for $FIXED_RANGE
# will be using.
# e.x. brq3592e767-da for NET_ID 3592e767-da66-4bcb-9bec-cdb03cd96102
ext_gw_interface=brq${EXT_NET_ID:0:11}
fi
if [[ "$ext_gw_interface" != "none" ]]; then
local cidr_len=${FLOATING_RANGE#*/}
local testcmd="ip -o link | grep -q $ext_gw_interface"
test_with_retry "$testcmd" "$ext_gw_interface creation failed"
if [[ $(ip addr show dev $ext_gw_interface | grep -c $ext_gw_ip) == 0 && ( $Q_USE_PROVIDERNET_FOR_PUBLIC == "False" || $Q_USE_PUBLIC_VETH == "True" ) ]]; then
sudo ip addr add $ext_gw_ip/$cidr_len dev $ext_gw_interface
sudo ip link set $ext_gw_interface up
fi
ROUTER_GW_IP=`neutron port-list -c fixed_ips -c device_owner | grep router_gateway | awk -F '"' -v subnet_id=$PUB_SUBNET_ID '$4 == subnet_id { print $8; }'`
die_if_not_set $LINENO ROUTER_GW_IP "Failure retrieving ROUTER_GW_IP"
sudo ip route replace $FIXED_RANGE via $ROUTER_GW_IP
fi
_neutron_set_router_id
fi
}
# Configure neutron router for IPv6 public access
function _neutron_configure_router_v6 {
neutron router-interface-add $ROUTER_ID $IPV6_SUBNET_ID
# Create a public subnet on the external network
local ipv6_id_and_ext_gw_ip
ipv6_id_and_ext_gw_ip=$(_neutron_create_public_subnet_v6 $EXT_NET_ID)
local ipv6_ext_gw_ip
ipv6_ext_gw_ip=$(echo $ipv6_id_and_ext_gw_ip | get_field 2)
local ipv6_pub_subnet_id
ipv6_pub_subnet_id=$(echo $ipv6_id_and_ext_gw_ip | get_field 5)
# If the external network has not already been set as the default router
# gateway when configuring an IPv4 public subnet, do so now
if [[ "$IP_VERSION" == "6" ]]; then
neutron router-gateway-set $ROUTER_ID $EXT_NET_ID
fi
# This logic is specific to using the l3-agent for layer 3
if is_service_enabled q-l3; then
# Ensure IPv6 forwarding is enabled on the host
sudo sysctl -w net.ipv6.conf.all.forwarding=1
# Configure and enable public bridge
# Override global IPV6_ROUTER_GW_IP with the true value from neutron
IPV6_ROUTER_GW_IP=`neutron port-list -c fixed_ips | grep $ipv6_pub_subnet_id | awk -F '"' -v subnet_id=$ipv6_pub_subnet_id '$4 == subnet_id { print $8; }'`
die_if_not_set $LINENO IPV6_ROUTER_GW_IP "Failure retrieving IPV6_ROUTER_GW_IP"
if is_neutron_ovs_base_plugin; then
local ext_gw_interface
ext_gw_interface=$(_neutron_get_ext_gw_interface)
local ipv6_cidr_len=${IPV6_PUBLIC_RANGE#*/}
# Configure interface for public bridge
sudo ip -6 addr add $ipv6_ext_gw_ip/$ipv6_cidr_len dev $ext_gw_interface
sudo ip -6 route replace $FIXED_RANGE_V6 via $IPV6_ROUTER_GW_IP dev $ext_gw_interface
fi
_neutron_set_router_id
fi
}
# Explicitly set router id in l3 agent configuration
function _neutron_set_router_id {
if [[ "$Q_L3_ROUTER_PER_TENANT" == "False" ]]; then
iniset $Q_L3_CONF_FILE DEFAULT router_id $ROUTER_ID
fi
}
# Get ext_gw_interface depending on value of Q_USE_PUBLIC_VETH
function _neutron_get_ext_gw_interface {
if [[ "$Q_USE_PUBLIC_VETH" == "True" ]]; then
echo $Q_PUBLIC_VETH_EX
else
# Disable in-band as we are going to use local port
# to communicate with VMs
sudo ovs-vsctl set Bridge $PUBLIC_BRIDGE \
other_config:disable-in-band=true
echo $PUBLIC_BRIDGE
fi
}
# Functions for Neutron Exercises
#--------------------------------
function delete_probe {
local from_net="$1"
net_id=`_get_net_id $from_net`
probe_id=`neutron-debug --os-tenant-name admin --os-username admin --os-password $ADMIN_PASSWORD probe-list -c id -c network_id | grep $net_id | awk '{print $2}'`
neutron-debug --os-tenant-name admin --os-username admin probe-delete $probe_id
}
function setup_neutron_debug {
if [[ "$Q_USE_DEBUG_COMMAND" == "True" ]]; then
public_net_id=`_get_net_id $PUBLIC_NETWORK_NAME`
neutron-debug --os-tenant-name admin --os-username admin --os-password $ADMIN_PASSWORD probe-create --device-owner compute $public_net_id
private_net_id=`_get_net_id $PRIVATE_NETWORK_NAME`
neutron-debug --os-tenant-name admin --os-username admin --os-password $ADMIN_PASSWORD probe-create --device-owner compute $private_net_id
fi
}
function teardown_neutron_debug {
delete_probe $PUBLIC_NETWORK_NAME
delete_probe $PRIVATE_NETWORK_NAME
}
function _get_net_id {
neutron --os-tenant-name admin --os-username admin --os-password $ADMIN_PASSWORD net-list | grep $1 | awk '{print $2}'
}
function _get_probe_cmd_prefix {
local from_net="$1"
net_id=`_get_net_id $from_net`
probe_id=`neutron-debug --os-tenant-name admin --os-username admin --os-password $ADMIN_PASSWORD probe-list -c id -c network_id | grep $net_id | awk '{print $2}' | head -n 1`
echo "$Q_RR_COMMAND ip netns exec qprobe-$probe_id"
}
# ssh check
function _ssh_check_neutron {
local from_net=$1
local key_file=$2
local ip=$3
local user=$4
local timeout_sec=$5
local probe_cmd = ""
probe_cmd=`_get_probe_cmd_prefix $from_net`
local testcmd="$probe_cmd ssh -o StrictHostKeyChecking=no -i $key_file ${user}@$ip echo success"
test_with_retry "$testcmd" "server $ip didn't become ssh-able" $timeout_sec
}
# Neutron 3rd party programs
#---------------------------
# please refer to ``lib/neutron_thirdparty/README.md`` for details
NEUTRON_THIRD_PARTIES=""
for f in $TOP_DIR/lib/neutron_thirdparty/*; do
third_party=$(basename $f)
if is_service_enabled $third_party; then
source $TOP_DIR/lib/neutron_thirdparty/$third_party
NEUTRON_THIRD_PARTIES="$NEUTRON_THIRD_PARTIES,$third_party"
fi
done
function _neutron_third_party_do {
for third_party in ${NEUTRON_THIRD_PARTIES//,/ }; do
${1}_${third_party}
done
}
# configure_neutron_third_party() - Set config files, create data dirs, etc
function configure_neutron_third_party {
_neutron_third_party_do configure
}
# init_neutron_third_party() - Initialize databases, etc.
function init_neutron_third_party {
_neutron_third_party_do init
}
# install_neutron_third_party() - Collect source and prepare
function install_neutron_third_party {
_neutron_third_party_do install
}
# start_neutron_third_party() - Start running processes, including screen
function start_neutron_third_party {
_neutron_third_party_do start
}
# stop_neutron_third_party - Stop running processes (non-screen)
function stop_neutron_third_party {
_neutron_third_party_do stop
}
# check_neutron_third_party_integration() - Check that third party integration is sane
function check_neutron_third_party_integration {
_neutron_third_party_do check
}
function is_provider_network {
if [ "$Q_USE_PROVIDER_NETWORKING" == "True" ] && [ "$Q_L3_ENABLED" == "False" ]; then
return 0
fi
return 1
}
# Restore xtrace
$XTRACE
# Tell emacs to use shell-script-mode
## Local variables:
## mode: shell-script
## End: