Appendix B: Example production environment configuration

Appendix B: Example production environment configuration

Introduction

This appendix describes an example production environment for a working OpenStack-Ansible (OSA) deployment with high availability services.

This example environment has the following characteristics:

  • Three infrastructure (control plane) hosts
  • Two compute hosts
  • One NFS storage device
  • One log aggregation host
  • Multiple Network Interface Cards (NIC) configured as bonded pairs for each host
  • Full compute kit with the Telemetry service (ceilometer) included, with NFS configured as a storage back end for the Image (glance), and Block Storage (cinder) services
  • Internet access via the router address 172.29.236.1 on the Management Network
_images/arch-layout-production.png

Network configuration

Network CIDR/VLAN assignments

The following CIDR and VLAN assignments are used for this environment.

Network CIDR VLAN
Management Network 172.29.236.0/22 10
Tunnel (VXLAN) Network 172.29.240.0/22 30
Storage Network 172.29.244.0/22 20

IP assignments

The following host name and IP address assignments are used for this environment.

Host name Management IP Tunnel (VxLAN) IP Storage IP
lb_vip_address 172.29.236.9    
infra1 172.29.236.11    
infra2 172.29.236.12    
infra3 172.29.236.13    
log1 172.29.236.14    
NFS Storage     172.29.244.15
compute1 172.29.236.16 172.29.240.16 172.29.244.16
compute2 172.29.236.17 172.29.240.17 172.29.244.17

Host network configuration

Each host will require the correct network bridges to be implemented. The following is the /etc/network/interfaces file for infra1.

Note

If your environment does not have eth0, but instead has p1p1 or some other interface name, ensure that all references to eth0 in all configuration files are replaced with the appropriate name. The same applies to additional network interfaces.

# This is a multi-NIC bonded configuration to implement the required bridges
# for OpenStack-Ansible. This illustrates the configuration of the first
# Infrastructure host and the IP addresses assigned should be adapted
# for implementation on the other hosts.
#
# After implementing this configuration, the host will need to be
# rebooted.

# Assuming that eth0/1 and eth2/3 are dual port NIC's we pair
# eth0 with eth2 and eth1 with eth3 for increased resiliency
# in the case of one interface card failing.
auto eth0
iface eth0 inet manual
    bond-master bond0
    bond-primary eth0

auto eth1
iface eth1 inet manual
    bond-master bond1
    bond-primary eth1

auto eth2
iface eth2 inet manual
    bond-master bond0

auto eth3
iface eth3 inet manual
    bond-master bond1

# Create a bonded interface. Note that the "bond-slaves" is set to none. This
# is because the bond-master has already been set in the raw interfaces for
# the new bond0.
auto bond0
iface bond0 inet static
    bond-slaves none
    bond-mode active-backup
    bond-miimon 100
    bond-downdelay 200
    bond-updelay 200

# This bond will carry VLAN and VXLAN traffic to ensure isolation from
# control plane traffic on bond0.
auto bond1
iface bond1 inet manual
    bond-slaves none
    bond-mode active-backup
    bond-miimon 100
    bond-downdelay 250
    bond-updelay 250

# Container/Host management VLAN interface
auto bond0.10
iface bond0.10 inet manual
    vlan-raw-device bond0

# OpenStack Networking VXLAN (tunnel/overlay) VLAN interface
auto bond1.30
iface bond1.30 inet manual
    vlan-raw-device bond1

# Storage network VLAN interface (optional)
auto bond0.20
iface bond0.20 inet manual
    vlan-raw-device bond0

# Container/Host management bridge
auto br-mgmt
iface br-mgmt inet static
    bridge_stp off
    bridge_waitport 0
    bridge_fd 0
    bridge_ports bond0.10
    address 172.29.236.11
    netmask 255.255.252.0
    gateway 172.29.236.1
    dns-nameservers 8.8.8.8 8.8.4.4

# OpenStack Networking VXLAN (tunnel/overlay) bridge
#
# Only the COMPUTE and NETWORK nodes must have an IP address
# on this bridge. When used by infrastructure nodes, the
# IP addresses are assigned to containers which use this
# bridge.
#
auto br-vxlan
iface br-vxlan inet manual
    bridge_stp off
    bridge_waitport 0
    bridge_fd 0
    bridge_ports bond1.30

# compute1 VXLAN (tunnel/overlay) bridge config
#auto br-vxlan
#iface br-vxlan inet static
#    bridge_stp off
#    bridge_waitport 0
#    bridge_fd 0
#    bridge_ports bond1.30
#    address 172.29.240.16
#    netmask 255.255.252.0

# OpenStack Networking VLAN bridge
auto br-vlan
iface br-vlan inet manual
    bridge_stp off
    bridge_waitport 0
    bridge_fd 0
    bridge_ports bond1

# Storage bridge (optional)
#
# Only the COMPUTE and STORAGE nodes must have an IP address
# on this bridge. When used by infrastructure nodes, the
# IP addresses are assigned to containers which use this
# bridge.
#
auto br-storage
iface br-storage inet manual
    bridge_stp off
    bridge_waitport 0
    bridge_fd 0
    bridge_ports bond0.20

# compute1 Storage bridge
#auto br-storage
#iface br-storage inet static
#    bridge_stp off
#    bridge_waitport 0
#    bridge_fd 0
#    bridge_ports bond0.20
#    address 172.29.244.16
#    netmask 255.255.252.0

Deployment configuration

Environment layout

The /etc/openstack_deploy/openstack_user_config.yml file defines the environment layout.

The following configuration describes the layout for this environment.

---
cidr_networks:
  container: 172.29.236.0/22
  tunnel: 172.29.240.0/22
  storage: 172.29.244.0/22

used_ips:
  - "172.29.236.1,172.29.236.50"
  - "172.29.240.1,172.29.240.50"
  - "172.29.244.1,172.29.244.50"
  - "172.29.248.1,172.29.248.50"

global_overrides:
  internal_lb_vip_address: 172.29.236.9
  external_lb_vip_address: openstack.example.com
  tunnel_bridge: "br-vxlan"
  management_bridge: "br-mgmt"
  provider_networks:
    - network:
        container_bridge: "br-mgmt"
        container_type: "veth"
        container_interface: "eth1"
        ip_from_q: "container"
        type: "raw"
        group_binds:
          - all_containers
          - hosts
        is_container_address: true
        is_ssh_address: true
    - network:
        container_bridge: "br-vxlan"
        container_type: "veth"
        container_interface: "eth10"
        ip_from_q: "tunnel"
        type: "vxlan"
        range: "1:1000"
        net_name: "vxlan"
        group_binds:
          - neutron_linuxbridge_agent
    - network:
        container_bridge: "br-vlan"
        container_type: "veth"
        container_interface: "eth12"
        host_bind_override: "eth12"
        type: "flat"
        net_name: "flat"
        group_binds:
          - neutron_linuxbridge_agent
    - network:
        container_bridge: "br-vlan"
        container_type: "veth"
        container_interface: "eth11"
        type: "vlan"
        range: "1:1"
        net_name: "vlan"
        group_binds:
          - neutron_linuxbridge_agent
    - network:
        container_bridge: "br-storage"
        container_type: "veth"
        container_interface: "eth2"
        ip_from_q: "storage"
        type: "raw"
        group_binds:
          - glance_api
          - cinder_api
          - cinder_volume
          - nova_compute

###
### Infrastructure
###

# galera, memcache, rabbitmq, utility
shared-infra_hosts:
  infra1:
    ip: 172.29.236.11
  infra2:
    ip: 172.29.236.12
  infra3:
    ip: 172.29.236.13

# repository (apt cache, python packages, etc)
repo-infra_hosts:
  infra1:
    ip: 172.29.236.11
  infra2:
    ip: 172.29.236.12
  infra3:
    ip: 172.29.236.13

# load balancer
# Ideally the load balancer should not use the Infrastructure hosts.
# Dedicated hardware is best for improved performance and security.
haproxy_hosts:
  infra1:
    ip: 172.29.236.11
  infra2:
    ip: 172.29.236.12
  infra3:
    ip: 172.29.236.13

# rsyslog server
log_hosts:
  log1:
    ip: 172.29.236.14

###
### OpenStack
###

# keystone
identity_hosts:
  infra1:
    ip: 172.29.236.11
  infra2:
    ip: 172.29.236.12
  infra3:
    ip: 172.29.236.13

# cinder api services
storage-infra_hosts:
  infra1:
    ip: 172.29.236.11
  infra2:
    ip: 172.29.236.12
  infra3:
    ip: 172.29.236.13

# glance
# The settings here are repeated for each infra host.
# They could instead be applied as global settings in
# user_variables, but are left here to illustrate that
# each container could have different storage targets.
image_hosts:
  infra1:
    ip: 172.29.236.11
    container_vars:
      cinder_backends:
        limit_container_types: glance
        glance_nfs_client:
          - server: "172.29.244.15"
            remote_path: "/images"
            local_path: "/var/lib/glance/images"
            type: "nfs"
            options: "_netdev,auto"
  infra2:
    ip: 172.29.236.12
    container_vars:
      cinder_backends:
        limit_container_types: glance
        glance_nfs_client:
          - server: "172.29.244.15"
            remote_path: "/images"
            local_path: "/var/lib/glance/images"
            type: "nfs"
            options: "_netdev,auto"
  infra3:
    ip: 172.29.236.13
    container_vars:
      cinder_backends:
        limit_container_types: glance
        glance_nfs_client:
          - server: "172.29.244.15"
            remote_path: "/images"
            local_path: "/var/lib/glance/images"
            type: "nfs"
            options: "_netdev,auto"

# nova api, conductor, etc services
compute-infra_hosts:
  infra1:
    ip: 172.29.236.11
  infra2:
    ip: 172.29.236.12
  infra3:
    ip: 172.29.236.13

# heat
orchestration_hosts:
  infra1:
    ip: 172.29.236.11
  infra2:
    ip: 172.29.236.12
  infra3:
    ip: 172.29.236.13

# horizon
dashboard_hosts:
  infra1:
    ip: 172.29.236.11
  infra2:
    ip: 172.29.236.12
  infra3:
    ip: 172.29.236.13

# neutron server, agents (L3, etc)
network_hosts:
  infra1:
    ip: 172.29.236.11
  infra2:
    ip: 172.29.236.12
  infra3:
    ip: 172.29.236.13

# ceilometer (telemetry API)
metering-infra_hosts:
  infra1:
    ip: 172.29.236.11
  infra2:
    ip: 172.29.236.12
  infra3:
    ip: 172.29.236.13

# aodh (telemetry alarm service)
metering-alarm_hosts:
  infra1:
    ip: 172.29.236.11
  infra2:
    ip: 172.29.236.12
  infra3:
    ip: 172.29.236.13

# gnocchi (telemetry metrics storage)
metrics_hosts:
  infra1:
    ip: 172.29.236.11
  infra2:
    ip: 172.29.236.12
  infra3:
    ip: 172.29.236.13

# nova hypervisors
compute_hosts:
  compute1:
    ip: 172.29.236.16
  compute2:
    ip: 172.29.236.17

# ceilometer compute agent (telemetry)
metering-compute_hosts:
  compute1:
    ip: 172.29.236.16
  compute2:
    ip: 172.29.236.17

# cinder volume hosts (NFS-backed)
# The settings here are repeated for each infra host.
# They could instead be applied as global settings in
# user_variables, but are left here to illustrate that
# each container could have different storage targets.
storage_hosts:
  infra1:
    ip: 172.29.236.11
    container_vars:
      cinder_backends:
        limit_container_types: cinder_volume
        cinder_nfs_client:
          nfs_shares_config: /etc/cinder/nfs_shares
          shares:
            - ip: "172.29.244.15"
              share: "/vol/cinder"
  infra2:
    ip: 172.29.236.12
    container_vars:
      cinder_backends:
        limit_container_types: cinder_volume
        cinder_nfs_client:
          nfs_shares_config: /etc/cinder/nfs_shares
          shares:
            - ip: "172.29.244.15"
              share: "/vol/cinder"
  infra3:
    ip: 172.29.236.13
    container_vars:
      cinder_backends:
        limit_container_types: cinder_volume
        cinder_nfs_client:
          nfs_shares_config: /etc/cinder/nfs_shares
          shares:
            - ip: "172.29.244.15"
              share: "/vol/cinder"

Environment customizations

The optionally deployed files in /etc/openstack_deploy/env.d allow the customization of Ansible groups. This allows the deployer to set whether the services will run in a container (the default), or on the host (on metal).

For this environment, the cinder-volume runs in a container on the infrastructure hosts. To achieve this, implement /etc/openstack_deploy/env.d/cinder.yml with the following content:

---
# This file contains an example to show how to set
# the cinder-volume service to run in a container.
#
# Important note:
# When using LVM or any iSCSI-based cinder backends, such as NetApp with
# iSCSI protocol, the cinder-volume service *must* run on metal.
# Reference: https://bugs.launchpad.net/ubuntu/+source/lxc/+bug/1226855

container_skel:
  cinder_volumes_container:
      is_metal: false

User variables

The /etc/openstack_deploy/user_variables.yml file defines the global overrides for the default variables.

For this environment, implement the load balancer on the infrastructure hosts. Ensure that keepalived is also configured with HAProxy in /etc/openstack_deploy/user_variables.yml with the following content.

---
# This file contains an example of the global variable overrides
# which may need to be set for a production environment.

## Load Balancer Configuration (haproxy/keepalived)
haproxy_keepalived_external_vip_cidr: "1.2.3.4/32"
haproxy_keepalived_internal_vip_cidr: "172.29.236.0/22"
haproxy_keepalived_external_interface: ens2
haproxy_keepalived_internal_interface: br-mgmt
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