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Beispiel für eine geroutete Umgebung¶
In diesem Abschnitt wird eine Beispielproduktionsumgebung für eine funktionierende OpenStack-Ansible-Bereitstellung (OSA) mit Hochverfügbarkeitsdiensten beschrieben, bei der Providernetzwerke und Verbindungen zwischen physischen Maschinen geroutet werden (Layer 3).
Diese Beispielumgebung weist die folgenden Merkmale auf:
Drei Infrastruktur (Kontrollebene) Hosts
Zwei Rechnerhosts
Ein NFS-Speichergerät
Ein Protokollaggregationshost
Mehrere Netzwerkschnittstellenkarten (Network Interface Cards, NIC), die als verbundene Paare für jeden Host konfiguriert sind
Komplettes Compute-Kit mit dem Telemetrie-Service (Ceilometer) im Lieferumfang enthalten, wobei NFS als Speicher-Backend für die Dienste Image (Glance) und Block Storage (Cinder) konfiguriert ist
Statische Routen werden hinzugefügt, um die Kommunikation zwischen den Verwaltungs-, Tunnel- und Speichernetzwerken jedes Pods zu ermöglichen. Die Gateway-Adresse ist die erste verwendbare Adresse innerhalb des Subnetzes jedes Netzwerks.
Netzwerkkonfiguration¶
Netzwerk CIDR / VLAN Zuweisungen¶
Die folgenden CIDR-Zuweisungen werden für diese Umgebung verwendet.
Netzwerk |
CIDR |
VLAN |
---|---|---|
POD 1 Verwaltungsnetzwerk |
172.29.236.0/24 |
10 |
POD 1 Tunnel (VXLAN) Netzwerk |
172.29.237.0/24 |
30 |
POD 1 Speichernetzwerk |
172.29.238.0/24 |
20 |
POD 2 Verwaltungsnetzwerk |
172.29.239.0/24 |
10 |
POD 2 Tunnel (VXLAN) Netzwerk |
172.29.240.0/24 |
30 |
POD 2-Speichernetzwerk |
172.29.241.0/24 |
20 |
POD 3 Verwaltungsnetzwerk |
172.29.242.0/24 |
10 |
POD 3 Tunnel (VXLAN) Netzwerk |
172.29.243.0/24 |
30 |
POD 3 Speichernetzwerk |
172.29.244.0/24 |
20 |
POD 4 Verwaltungsnetzwerk |
172.29.245.0/24 |
10 |
POD 4 Tunnel (VXLAN) Netzwerk |
172.29.246.0/24 |
30 |
POD 4 Speichernetzwerk |
172.29.247.0/24 |
20 |
IP-Zuweisungen¶
Die folgenden Hostnamen und IP-Adresszuweisungen werden für diese Umgebung verwendet.
Hostname |
Verwaltungs-IP |
Tunnel (VxLAN) IP |
Speicher-IP |
---|---|---|---|
lb_vip_adresse |
172.29.236.9 |
||
infra1 |
172.29.236.10 |
172.29.237.10 |
|
infra2 |
172.29.239.10 |
172.29.240.10 |
|
infra3 |
172.29.242.10 |
172.29.243.10 |
|
log1 |
172.29.236.11 |
||
NFS-Speicher |
172.29.244.15 |
||
compute1 |
172.29.245.10 |
172.29.246.10 |
172.29.247.10 |
compute2 |
172.29.245.11 |
172.29.246.11 |
172.29.247.11 |
Host-Netzwerkkonfiguration¶
Für jeden Host müssen die richtigen Netzwerkbrücken implementiert werden. Das Folgende ist die /etc/network/interfaces
Datei für `` infra1``.
Bemerkung
Wenn Ihre Umgebung nicht eth0
, sondern p1p1
oder einen anderen Namen hat, stellen Sie sicher, dass alle Verweise auf eth0
in allen Konfigurationsdateien durch den entsprechenden Namen ersetzt werden. Gleiches gilt für zusätzliche Netzwerkschnittstellen.
# 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 manual
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 172.29.236.10
netmask 255.255.255.0
gateway 172.29.236.1
dns-nameservers 8.8.8.8 8.8.4.4
# OpenStack Networking VXLAN (tunnel/overlay) bridge
#
# The COMPUTE, NETWORK and INFRA nodes must have an IP address
# on this bridge.
#
auto br-vxlan
iface br-vxlan inet static
bridge_stp off
bridge_waitport 0
bridge_fd 0
bridge_ports bond1.30
address 172.29.237.10
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
# compute1 Network VLAN bridge
#auto br-vlan
#iface br-vlan inet manual
# bridge_stp off
# bridge_waitport 0
# bridge_fd 0
#
# For tenant vlan support, create a veth pair to be used when the neutron
# agent is not containerized on the compute hosts. 'eth12' is the value used on
# the host_bind_override parameter of the br-vlan network section of the
# openstack_user_config example file. The veth peer name must match the value
# specified on the host_bind_override parameter.
#
# When the neutron agent is containerized it will use the container_interface
# value of the br-vlan network, which is also the same 'eth12' value.
#
# Create veth pair, do not abort if already exists
# pre-up ip link add br-vlan-veth type veth peer name eth12 || true
# Set both ends UP
# pre-up ip link set br-vlan-veth up
# pre-up ip link set eth12 up
# Delete veth pair on DOWN
# post-down ip link del br-vlan-veth || true
# bridge_ports bond1 br-vlan-veth
# 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 172.29.247.10
# netmask 255.255.255.0
Bereitstellungskonfiguration¶
Umgebungslayout¶
Die Datei /etc/openstack_deploy/openstack_user_config.yml
definiert das Umgebungslayout.
Für jeden Pod muss eine Gruppe definiert werden, die alle Hosts innerhalb dieses Pods enthält.
Innerhalb definierter Provider-Netzwerke wird address_prefix` verwendet, um das Präfix des Schlüssels zu überschreiben, der jedem Host hinzugefügt wurde, der IP-Adressinformationen enthält. Dies sollte normalerweise entweder Container
, Tunnel
oder Speicher
sein. `` reference_group`` enthält den Namen einer definierten Pod-Gruppe und wird verwendet, um den Umfang jedes Provider-Netzwerks auf diese Gruppe zu beschränken.
Statische Routen werden hinzugefügt, um die Kommunikation von Provider-Netzwerken zwischen Pods zu ermöglichen.
Die folgende Konfiguration beschreibt das Layout für diese Umgebung.
---
cidr_networks:
pod1_container: 172.29.236.0/24
pod2_container: 172.29.237.0/24
pod3_container: 172.29.238.0/24
pod4_container: 172.29.239.0/24
pod1_tunnel: 172.29.240.0/24
pod2_tunnel: 172.29.241.0/24
pod3_tunnel: 172.29.242.0/24
pod4_tunnel: 172.29.243.0/24
pod1_storage: 172.29.244.0/24
pod2_storage: 172.29.245.0/24
pod3_storage: 172.29.246.0/24
pod4_storage: 172.29.247.0/24
used_ips:
- "172.29.236.1,172.29.236.50"
- "172.29.237.1,172.29.237.50"
- "172.29.238.1,172.29.238.50"
- "172.29.239.1,172.29.239.50"
- "172.29.240.1,172.29.240.50"
- "172.29.241.1,172.29.241.50"
- "172.29.242.1,172.29.242.50"
- "172.29.243.1,172.29.243.50"
- "172.29.244.1,172.29.244.50"
- "172.29.245.1,172.29.245.50"
- "172.29.246.1,172.29.246.50"
- "172.29.247.1,172.29.247.50"
global_overrides:
internal_lb_vip_address: internal-openstack.example.com
#
# The below domain name must resolve to an IP address
# in the CIDR specified in haproxy_keepalived_external_vip_cidr.
# If using different protocols (https/http) for the public/internal
# endpoints the two addresses must be different.
#
external_lb_vip_address: openstack.example.com
management_bridge: "br-mgmt"
provider_networks:
- network:
container_bridge: "br-mgmt"
container_type: "veth"
container_interface: "eth1"
ip_from_q: "pod1_container"
address_prefix: "container"
type: "raw"
group_binds:
- all_containers
- hosts
reference_group: "pod1_hosts"
is_container_address: true
# Containers in pod1 need routes to the container networks of other pods
static_routes:
# Route to container networks
- cidr: 172.29.236.0/22
gateway: 172.29.236.1
- network:
container_bridge: "br-mgmt"
container_type: "veth"
container_interface: "eth1"
ip_from_q: "pod2_container"
address_prefix: "container"
type: "raw"
group_binds:
- all_containers
- hosts
reference_group: "pod2_hosts"
is_container_address: true
# Containers in pod2 need routes to the container networks of other pods
static_routes:
# Route to container networks
- cidr: 172.29.236.0/22
gateway: 172.29.237.1
- network:
container_bridge: "br-mgmt"
container_type: "veth"
container_interface: "eth1"
ip_from_q: "pod3_container"
address_prefix: "container"
type: "raw"
group_binds:
- all_containers
- hosts
reference_group: "pod3_hosts"
is_container_address: true
# Containers in pod3 need routes to the container networks of other pods
static_routes:
# Route to container networks
- cidr: 172.29.236.0/22
gateway: 172.29.238.1
- network:
container_bridge: "br-mgmt"
container_type: "veth"
container_interface: "eth1"
ip_from_q: "pod4_container"
address_prefix: "container"
type: "raw"
group_binds:
- all_containers
- hosts
reference_group: "pod4_hosts"
is_container_address: true
# Containers in pod4 need routes to the container networks of other pods
static_routes:
# Route to container networks
- cidr: 172.29.236.0/22
gateway: 172.29.239.1
- network:
container_bridge: "br-vxlan"
container_type: "veth"
container_interface: "eth10"
ip_from_q: "pod1_tunnel"
address_prefix: "tunnel"
type: "vxlan"
range: "1:1000"
net_name: "vxlan"
group_binds:
- neutron_linuxbridge_agent
reference_group: "pod1_hosts"
# Containers in pod1 need routes to the tunnel networks of other pods
static_routes:
# Route to tunnel networks
- cidr: 172.29.240.0/22
gateway: 172.29.240.1
- network:
container_bridge: "br-vxlan"
container_type: "veth"
container_interface: "eth10"
ip_from_q: "pod2_tunnel"
address_prefix: "tunnel"
type: "vxlan"
range: "1:1000"
net_name: "vxlan"
group_binds:
- neutron_linuxbridge_agent
reference_group: "pod2_hosts"
# Containers in pod2 need routes to the tunnel networks of other pods
static_routes:
# Route to tunnel networks
- cidr: 172.29.240.0/22
gateway: 172.29.241.1
- network:
container_bridge: "br-vxlan"
container_type: "veth"
container_interface: "eth10"
ip_from_q: "pod3_tunnel"
address_prefix: "tunnel"
type: "vxlan"
range: "1:1000"
net_name: "vxlan"
group_binds:
- neutron_linuxbridge_agent
reference_group: "pod3_hosts"
# Containers in pod3 need routes to the tunnel networks of other pods
static_routes:
# Route to tunnel networks
- cidr: 172.29.240.0/22
gateway: 172.29.242.1
- network:
container_bridge: "br-vxlan"
container_type: "veth"
container_interface: "eth10"
ip_from_q: "pod4_tunnel"
address_prefix: "tunnel"
type: "vxlan"
range: "1:1000"
net_name: "vxlan"
group_binds:
- neutron_linuxbridge_agent
reference_group: "pod4_hosts"
# Containers in pod4 need routes to the tunnel networks of other pods
static_routes:
# Route to tunnel networks
- cidr: 172.29.240.0/22
gateway: 172.29.243.1
- 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: "101:200,301:400"
net_name: "vlan"
group_binds:
- neutron_linuxbridge_agent
- network:
container_bridge: "br-storage"
container_type: "veth"
container_interface: "eth2"
ip_from_q: "pod1_storage"
address_prefix: "storage"
type: "raw"
group_binds:
- glance_api
- cinder_api
- cinder_volume
- nova_compute
reference_group: "pod1_hosts"
# Containers in pod1 need routes to the storage networks of other pods
static_routes:
# Route to storage networks
- cidr: 172.29.244.0/22
gateway: 172.29.244.1
- network:
container_bridge: "br-storage"
container_type: "veth"
container_interface: "eth2"
ip_from_q: "pod2_storage"
address_prefix: "storage"
type: "raw"
group_binds:
- glance_api
- cinder_api
- cinder_volume
- nova_compute
reference_group: "pod2_hosts"
# Containers in pod2 need routes to the storage networks of other pods
static_routes:
# Route to storage networks
- cidr: 172.29.244.0/22
gateway: 172.29.245.1
- network:
container_bridge: "br-storage"
container_type: "veth"
container_interface: "eth2"
ip_from_q: "pod3_storage"
address_prefix: "storage"
type: "raw"
group_binds:
- glance_api
- cinder_api
- cinder_volume
- nova_compute
reference_group: "pod3_hosts"
# Containers in pod3 need routes to the storage networks of other pods
static_routes:
# Route to storage networks
- cidr: 172.29.244.0/22
gateway: 172.29.246.1
- network:
container_bridge: "br-storage"
container_type: "veth"
container_interface: "eth2"
ip_from_q: "pod4_storage"
address_prefix: "storage"
type: "raw"
group_binds:
- glance_api
- cinder_api
- cinder_volume
- nova_compute
reference_group: "pod4_hosts"
# Containers in pod4 need routes to the storage networks of other pods
static_routes:
# Route to storage networks
- cidr: 172.29.244.0/22
gateway: 172.29.247.1
###
### Infrastructure
###
pod1_hosts:
infra1:
ip: 172.29.236.10
log1:
ip: 172.29.236.11
pod2_hosts:
infra2:
ip: 172.29.239.10
pod3_hosts:
infra3:
ip: 172.29.242.10
pod4_hosts:
compute1:
ip: 172.29.245.10
compute2:
ip: 172.29.245.11
# galera, memcache, rabbitmq, utility
shared-infra_hosts:
infra1:
ip: 172.29.236.10
infra2:
ip: 172.29.239.10
infra3:
ip: 172.29.242.10
# repository (apt cache, python packages, etc)
repo-infra_hosts:
infra1:
ip: 172.29.236.10
infra2:
ip: 172.29.239.10
infra3:
ip: 172.29.242.10
# 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: 172.29.236.10
infra2:
ip: 172.29.239.10
infra3:
ip: 172.29.242.10
# rsyslog server
log_hosts:
log1:
ip: 172.29.236.11
###
### OpenStack
###
# keystone
identity_hosts:
infra1:
ip: 172.29.236.10
infra2:
ip: 172.29.239.10
infra3:
ip: 172.29.242.10
# cinder api services
storage-infra_hosts:
infra1:
ip: 172.29.236.10
infra2:
ip: 172.29.239.10
infra3:
ip: 172.29.242.10
# 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:
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:
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:
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: 172.29.236.10
infra2:
ip: 172.29.239.10
infra3:
ip: 172.29.242.10
# heat
orchestration_hosts:
infra1:
ip: 172.29.236.10
infra2:
ip: 172.29.239.10
infra3:
ip: 172.29.242.10
# horizon
dashboard_hosts:
infra1:
ip: 172.29.236.10
infra2:
ip: 172.29.239.10
infra3:
ip: 172.29.242.10
# neutron server, agents (L3, etc)
network_hosts:
infra1:
ip: 172.29.236.10
infra2:
ip: 172.29.239.10
infra3:
ip: 172.29.242.10
# ceilometer (telemetry data collection)
metering-infra_hosts:
infra1:
ip: 172.29.236.10
infra2:
ip: 172.29.239.10
infra3:
ip: 172.29.242.10
# aodh (telemetry alarm service)
metering-alarm_hosts:
infra1:
ip: 172.29.236.10
infra2:
ip: 172.29.239.10
infra3:
ip: 172.29.242.10
# gnocchi (telemetry metrics storage)
metrics_hosts:
infra1:
ip: 172.29.236.10
infra2:
ip: 172.29.239.10
infra3:
ip: 172.29.242.10
# nova hypervisors
compute_hosts:
compute1:
ip: 172.29.245.10
compute2:
ip: 172.29.245.11
# ceilometer compute agent (telemetry data collection)
metering-compute_hosts:
compute1:
ip: 172.29.245.10
compute2:
ip: 172.29.245.11
# 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
nfs_volume:
volume_backend_name: NFS_VOLUME1
volume_driver: cinder.volume.drivers.nfs.NfsDriver
nfs_mount_options: "rsize=65535,wsize=65535,timeo=1200,actimeo=120"
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
nfs_volume:
volume_backend_name: NFS_VOLUME1
volume_driver: cinder.volume.drivers.nfs.NfsDriver
nfs_mount_options: "rsize=65535,wsize=65535,timeo=1200,actimeo=120"
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
nfs_volume:
volume_backend_name: NFS_VOLUME1
volume_driver: cinder.volume.drivers.nfs.NfsDriver
nfs_mount_options: "rsize=65535,wsize=65535,timeo=1200,actimeo=120"
nfs_shares_config: /etc/cinder/nfs_shares
shares:
- ip: "172.29.244.15"
share: "/vol/cinder"
Umgebungsanpassungen¶
Die optional bereitgestellten Dateien in /etc/openstack_deploy/env.d
ermöglichen die Anpassung von Ansible-Gruppen. Dadurch kann der Deployer festlegen, ob die Dienste in einem Container (Standard) oder auf dem Host (auf Metall) ausgeführt werden.
Für diese Umgebung wird das cinder-volume
in einem Container auf den Infrastrukturhosts ausgeführt. Um dies zu erreichen, implementieren Sie /etc/openstack_deploy/env.d/cinder.yml
mit folgendem Inhalt:
---
# 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:
properties:
is_metal: false
Benutzervariablen¶
Die Datei /etc/openstack_deploy/user_variables.yml
definiert die globalen Überschreibungen für die Standardvariablen.
Implementieren Sie für diese Umgebung den Lastenausgleich auf den Infrastrukturhosts. Stellen Sie sicher, dass keepalived auch mit HAProxy in /etc/ openstack_deploy/user_variables.yml
mit folgendem Inhalt konfiguriert ist.
---
# 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: "<external_vip_address>/<netmask>"
haproxy_keepalived_internal_vip_cidr: "172.29.236.9/32"
haproxy_keepalived_external_interface: ens2
haproxy_keepalived_internal_interface: br-mgmt