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Arsitektur jaringan¶
OpenStack-Ansible mendukung sejumlah arsitektur jaringan yang berbeda, dan dapat digunakan menggunakan antarmuka jaringan tunggal untuk beban kerja non-produksi atau menggunakan beberapa antarmuka jaringan atau antarmuka terikat untuk beban kerja produksi.
Referensi arsitektur OpenStack-Ansible mengelompokkan lalu lintas menggunakan VLAN di beberapa antarmuka jaringan atau obligasi. Jaringan umum yang digunakan dalam penyebaran OpenStack-Ansible dapat diamati pada tabel berikut:
Network |
CIDR |
VLAN |
---|---|---|
Management Network |
172.29.236.0/22 |
10 |
Jaringan overlay |
172.29.240.0/22 |
30 |
Storage Network (jaringan penyimpanan) |
172.29.244.0/22 |
20 |
Management Network
, juga disebut sebagai container network
, menyediakan manajemen dan komunikasi antara infrastruktur dan layanan OpenStack yang berjalan dalam container atau pada metal. Management network
menggunakan VLAN khusus yang biasanya terhubung ke jembatan br-mgmt
, dan juga dapat digunakan sebagai antarmuka utama yang digunakan untuk berinteraksi dengan server melalui SSH.
Overlay Network
, juga disebut sebagai tunnel network
, menyediakan konektivitas antar host untuk tujuan tunneling lalu lintas terenkapsulasi menggunakan VXLAN, GENEVE, atau protokol lainnya. Overlay network
menggunakan VLAN khusus yang biasanya terhubung ke jembatan br-vxlan
.
Storage Network
menyediakan akses terpisah ke Block Storage dari layanan OpenStack seperti Cinder dan Glance. Storage network
menggunakan VLAN khusus yang biasanya terhubung ke jembatan br-storage
.
Catatan
CIDR dan VLAN yang terdaftar untuk setiap jaringan adalah contoh dan mungkin berbeda di lingkungan Anda.
VLAN tambahan mungkin diperlukan untuk tujuan berikut:
Jaringan penyedia eksternal untuk Floating IP and instance
Jaringan project/tenant self-service untuk instance
Layanan OpenStack lainnya
Antarmuka jaringan¶
Configuring network interfaces¶
OpenStack-Ansible does not mandate any specific method of configuring network interfaces on the host. You may choose any tool, such as ifupdown, netplan, systemd-networkd, networkmanager or another operating-system specific tool. The only requirement is that a set of functioning network bridges and interfaces are created which match those expected by OpenStack-Ansible, plus any that you choose to specify for neutron physical interfaces.
A selection of network configuration example files are given in
the etc/network
and etc/netplan
for ubuntu systems, and it is
expected that these will need adjustment for the specific requirements
of each deployment.
If you want to delegate management of network bridges and interfaces to
OpenStack-Ansible, you can define variables
openstack_hosts_systemd_networkd_devices
and
openstack_hosts_systemd_networkd_networks
in group_vars/lxc_hosts,
for example:
openstack_hosts_systemd_networkd_devices:
- NetDev:
Name: vlan-mgmt
Kind: vlan
VLAN:
Id: 10
- NetDev:
Name: "{{ management_bridge }}"
Kind: bridge
Bridge:
ForwardDelaySec: 0
HelloTimeSec: 2
MaxAgeSec: 12
STP: off
openstack_hosts_systemd_networkd_networks:
- interface: "vlan-mgmt"
bridge: "{{ management_bridge }}"
- interface: "{{ management_bridge }}"
address: "{{ management_address }}"
netmask: "255.255.252.0"
gateway: "172.29.236.1"
- interface: "eth0"
vlan:
- "vlan-mgmt"
# NOTE: `05` is prefixed to filename to have precedence over netplan
filename: 05-lxc-net-eth0
address: "{{ ansible_facts['eth0']['ipv4']['address'] }}"
netmask: "{{ ansible_facts['eth0']['ipv4']['netmask'] }}"
If you need to run some pre/post hooks for interfaces, you will need to
configure a systemd service for that. It can be done using variable
openstack_hosts_systemd_services
, like that:
openstack_hosts_systemd_services:
- service_name: "{{ management_bridge }}-hook"
state: started
enabled: yes
service_type: oneshot
execstarts:
- /bin/bash -c "/bin/echo 'management bridge is available'"
config_overrides:
Unit:
Wants: network-online.target
After: "{{ sys-subsystem-net-devices-{{ management_bridge }}.device }}"
BindsTo: "{{ sys-subsystem-net-devices-{{ management_bridge }}.device }}"
Antarmuka tunggal atau rangkaian¶
OpenStack-Ansible mendukung penggunaan antarmuka tunggal atau serangkaian antarmuka terikat yang membawa lalu lintas untuk layanan OpenStack dan juga instance.
Open Virtual Network (OVN)¶
The following diagrams demonstrate hosts using a single bond with OVN.
In the scenario below only Network node is connected to external network and computes do not have external connectivity, so routers are needed for external connectivity:
The following diagram demonstrates a compute node serving as an OVN gatway. It is connected to the public network, which enables to connect VMs to public networks not only through routers, but also directly:
Open vSwitch and Linux Bridge¶
The following diagram demonstrates hosts using a single interface for OVS and LinuxBridge Scenario:
Diagram berikut menunjukkan host menggunakan ikatan tunggal:
Setiap host akan membutuhkan jembatan jaringan yang benar untuk diimplementasikan. Berikut ini adalah file /etc/network/interfaces
untuk infra1
menggunakan satu ikatan.
Catatan
Jika lingkungan Anda tidak memiliki eth0
, tetapi sebaliknya memiliki p1p1
atau nama antarmuka lainnya, pastikan bahwa semua referensi ke eth0
di semua file konfigurasi diganti dengan nama yang sesuai. Hal yang sama berlaku untuk antarmuka jaringan tambahan.
# 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 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
auto eth2
iface eth2 inet manual
bond-master bond0
auto eth3
iface eth3 inet manual
# 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
# 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 bond0.30
iface bond0.30 inet manual
vlan-raw-device bond0
# 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
#
# Nodes hosting Neutron agents must have an IP address on this interface,
# including COMPUTE, NETWORK, and collapsed INFRA/NETWORK nodes.
#
auto br-vxlan
iface br-vxlan inet static
bridge_stp off
bridge_waitport 0
bridge_fd 0
bridge_ports bond0.30
address 172.29.240.16
netmask 255.255.252.0
# OpenStack Networking VLAN bridge
#
# The "br-vlan" bridge is no longer necessary for deployments unless Neutron
# agents are deployed in a container. Instead, a direct interface such as
# bond0 can be specified via the "host_bind_override" override when defining
# provider networks.
#
#auto br-vlan
#iface br-vlan inet manual
# bridge_stp off
# bridge_waitport 0
# bridge_fd 0
# bridge_ports bond0
# compute1 Network VLAN bridge
#auto br-vlan
#iface br-vlan inet manual
# bridge_stp off
# bridge_waitport 0
# bridge_fd 0
#
# 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
Berbagai antarmuka atau ikatan (bond)¶
OpenStack-Ansible mendukung penggunaan beberapa antarmuka atau set antarmuka terikat yang membawa lalu lintas untuk layanan dan instance OpenStack.
Open Virtual Network (OVN)¶
The following diagrams demonstrate hosts using multiple bonds with OVN.
In the scenario below only Network node is connected to external network and computes do not have external connectivity, so routers are needed for external connectivity:
The following diagram demonstrates a compute node serving as an OVN gatway. It is connected to the public network, which enables to connect VMs to public networks not only through routers, but also directly:
Open vSwitch and Linux Bridge¶
The following diagram demonstrates hosts using multiple interfaces for OVS and LinuxBridge Scenario:
Diagram berikut menunjukkan host menggunakan beberapa ikatan:
Setiap host akan membutuhkan jembatan jaringan yang benar untuk diimplementasikan. Berikut ini adalah file /etc/network/interfaces
untuk infra1
menggunakan banyak antarmuka terikat.
Catatan
Jika lingkungan Anda tidak memiliki eth0
, tetapi sebaliknya memiliki p1p1
atau nama antarmuka lainnya, pastikan bahwa semua referensi ke eth0
di semua file konfigurasi diganti dengan nama yang sesuai. Hal yang sama berlaku untuk antarmuka jaringan tambahan.
# 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 172.29.236.11
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
#
# Nodes hosting Neutron agents must have an IP address on this interface,
# including COMPUTE, NETWORK, and collapsed INFRA/NETWORK nodes.
#
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
#
# The "br-vlan" bridge is no longer necessary for deployments unless Neutron
# agents are deployed in a container. Instead, a direct interface such as
# bond1 can be specified via the "host_bind_override" override when defining
# provider networks.
#
#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
#
# 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
Sumber daya tambahan¶
Untuk informasi lebih lanjut tentang cara mengkonfigurasi dengan benar file antarmuka jaringan dan file konfigurasi OpenStack-Ansible untuk berbagai skenario penggunaan, silakan merujuk ke yang berikut:
Untuk agen jaringan dan toplogi jaringan kontainer, silakan merujuk ke yang berikut: