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01-H3C_S12500-S_OpenFlow典型配置举例
本章节下载: 01-H3C_S12500-S_OpenFlow典型配置举例 (1.07 MB)
H3C S12500-S OpenFlow典型配置举例
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本文档介绍了OpenFlow的配置举例。
OpenFlow允许控制器直接访问和操作网络设备的转发平面,将控制平面和数据平面分离。交换机依据控制器下发的流表(Flow Table)对报文进行匹配和转发,在同一个流表中按照流表项的优先级大小进行匹配。一个OpenFlow交换机可以包含一个或者多个流表。
本文档中的配置均是在实验室环境下进行的配置和验证,配置前设备的所有参数均采用出厂时的缺省配置。如果您已经对设备进行了配置,为了保证配置效果,请确认现有配置和以下举例中的配置不冲突。本文档中所有配置举例中使用的控制器均为H3C VCF(Virtual Converged Framework,虚拟应用融合架构)控制器。
本文假设您已了解OpenFlow特性。
如图3-1所示,Host A和Host C属于VLAN 4092;Host B和Host D属于VLAN 4094;它们之间通过Switch A和Swtich B进行连接。现要求通过对Switch A和Switch B进行OpenFlow配置,使VLAN 4092和VLAN 4094内的主机基于控制器下发的流表项进行通信,即要求交换机对VLAN 4092和VLAN 4094内的数据进行OpenFlow转发。
图3-1 OpenFlow基本功能配置举例组网图
· 为了使控制器可以通过LLDP学习OpenFlow网络拓扑,设备上必须全局使能LLDP功能。
· 为了使OpenFlow实例与控制器建立连接,需要配置交换机与控制器之间路由可达,本例中以VLAN接口1作为与控制器通信的接口。
· 为了保持交换机与控制器之间连接的可靠性,需要使用TCP/SSL建立连接。本例中采用TCP方式建立交换机与控制器之间的连接。如果需要更高的连接可靠性,可以选择使用SSL建立连接。
· 为了使连接主机的Access类型的端口成为OpenFlow端口,配置映射VLAN 4092、VLAN 4094时,需要选择Loosen模式。
本举例是在S12500-S-CMW710-R7150P02版本上进行配置和验证的。
# 配置VLAN。
<SwitchA>system-view
[SwitchA]vlan 4092
[SwitchA-vlan4092]quit
[SwitchA]vlan 4094
[SwitchA-vlan4094]quit
# 配置Switch A上的接口GigabitEthernet3/0/1、GigabitEthernet3/0/2和GigabitEthernet3/0/3。
[SwitchA]interface GigabitEthernet 3/0/1
[SwitchA-GigabitEthernet3/0/1]port access vlan 4092
[SwitchA-GigabitEthernet3/0/1]quit
[SwitchA]interface GigabitEthernet 3/0/2
[SwitchA-GigabitEthernet3/0/2]port access vlan 4094
[SwitchA-GigabitEthernet3/0/2]quit
[SwitchA]interface GigabitEthernet 3/0/3
[SwitchA-GigabitEthernet3/0/3]port link-type trunk
[SwitchA-GigabitEthernet3/0/3]port trunk permit vlan 4092 4094
[SwitchA-GigabitEthernet3/0/3]quit
# 全局使能LLDP功能。
[SwitchA] lldp global enable
# 配置VLAN接口1用于和控制器建立连接。
[SwitchA]interface Vlan-interface 1
[SwitchA-Vlan-interface1]ip address 192.168.2.125 255.255.255.0
[SwitchA-Vlan-interface1]quit
# 创建OpenFlow实例1并映射VLAN 4092和VLAN 4094,同时选择映射模式为Loosen模式。
[SwitchA]openflow instance 1
[SwitchA-of-inst-1]classification vlan 4092 mask 4093 loosen
# 配置控制器0的IP地址并激活实例。
[SwitchA-of-inst-1]controller 0 address ip 192.168.2.225
[SwitchA-of-inst-1]active instance
[SwitchA-of-inst-1]quit
# 配置VLAN。
<SwitchB>system-view
[SwitchB]vlan 4092
[SwitchB-vlan4092]quit
[SwitchB]vlan 4094
[SwitchB-vlan4094]quit
# 配置Switch B上的接口GigabitEthernet3/0/1、GigabitEthernet3/0/2和GigabitEthernet3/0/3。
[SwitchB]interface GigabitEthernet 3/0/1
[SwitchB-GigabitEthernet3/0/1]port access vlan 4092
[SwitchB-GigabitEthernet3/0/1]quit
[SwitchB]interface GigabitEthernet 3/0/2
[SwitchB-GigabitEthernet3/0/2]port access vlan 4094
[SwitchB-GigabitEthernet3/0/2]quit
[SwitchB]interface GigabitEthernet 3/0/3
[SwitchB-GigabitEthernet3/0/3]port link-type trunk
[SwitchB-GigabitEthernet3/0/3]port trunk permit vlan 4092 4094
[SwitchB-GigabitEthernet3/0/3]quit
# 全局使能LLDP功能。
[SwitchB] lldp global enable
# 配置VLAN接口1用于和控制器建立连接。
[SwitchB]interface Vlan-interface 1
[SwitchB-Vlan-interface1]ip address 192.168.2.126 255.255.255.0
[SwitchB-Vlan-interface1]quit
# 创建OpenFlow实例1并映射VLAN 4092和VLAN 4094,同时选择映射模式为Loosen模式。
[SwitchB]openflow instance 1
[SwitchB-of-inst-1]classification vlan 4092 mask 4093 loosen
# 配置控制器0的IP地址并激活实例。
[SwitchB-of-inst-1]controller 0 address ip 192.168.2.225
[SwitchB-of-inst-1]active instance
[SwitchB-of-inst-1]quit
(1) 在Switch A上进行验证
# 查看Switch A上OpenFlow实例1的信息。
[SwitchA]display openflow instance 1
Instance 1 information:
Configuration information:
Description : --
Active status : Active
Inactive configuration:
None
Active configuration:
Classification VLAN, loosen mode, total VLANs(2)
4092, 4094
In-band management VLAN, total VLANs(0)
Empty VLAN
Connect mode: multiple
MAC address learning: Enabled
Flow table:
Table ID(type): 0(Extensibility), count: 1
Flow-entry max-limit: 8192
Datapath ID: 0x000174258a024c00
Default table-miss: Drop
Forbidden port: None
Port information:
GigabitEthernet3/0/1
GigabitEthernet3/0/2
GigabitEthernet3/0/3
Active channel information:
Controller 0 IP address: 192.168.2.225 port: 6633
以上信息表明以太接口GigabitEthernet3/0/1、GigabitEthernet3/0/2、GigabitEthernet3/0/3已配置为OpenFlow端口,即可以进行OpenFlow数据转发。
# 查看Switch A与控制器的连接信息。
<SwitchA>display openflow instance 1 controller
Instance 1 controller information:
Reconnect interval: 60 (s)
Echo interval : 5 (s)
Controller ID : 0
Controller IP address : 192.168.2.225
Controller port : 6633
Controller role : Equal
Connect type : TCP
Connect state : Established
Packets sent : 132
Packets received : 434
SSL policy : --
VRF name : --
以上信息表明Swithc A已与控制器建立连接。
# 查看Switch A上的流表信息。
<SwitchA>display openflow instance 1 flow-table
Instance 1 flow table information:
Table 0 information:
Table type: Extensibility, flow entry count: 1, total flow entry count: 1
MissRule (default) flow entry information:
cookie: 0x0, priority: 0, hard time: 0, idle time: 0, flags: flow_send_rem,
byte count: --, packet count: 0
Match information: any
Instruction information:
Write actions:
Output interface: Controller, send length: 65509 bytes
以上信息表明此时Switch A上只有一条优先级为0的TableMiss流表项,且该条流表项的动作为上送控制器。
# Host A ping Host B。
Ping 10.1.1.2 (10.1.1.2): 56 data bytes, press CTRL_C to break
56 bytes from 10.1.1.2: icmp_seq=0 ttl=255 time=4.582 ms
56 bytes from 10.1.1.2: icmp_seq=1 ttl=255 time=1.299 ms
56 bytes from 10.1.1.2: icmp_seq=2 ttl=255 time=1.389 ms
56 bytes from 10.1.1.2: icmp_seq=3 ttl=255 time=6.688 ms
56 bytes from 10.1.1.2: icmp_seq=4 ttl=255 time=1.294 ms
--- Ping statistics for 10.1.1.2 ---
5 packet(s) transmitted, 5 packet(s) received, 0.0% packet loss
round-trip min/avg/max/std-dev = 1.294/3.050/6.688/2.213 ms
以上信息表明Host A与Host B之间是互通的。
# 查看Switch A上的流表信息。
<SwitchA>display openflow instance 1 flow-table
Instance 1 flow table information:
Table 0 information:
Table type: Extensibility, flow entry count: 4, total flow entry count: 4
MissRule (default) flow entry information:
cookie: 0x0, priority: 0, hard time: 0, idle time: 0, flags: flow_send_rem,
byte count: --, packet count: 0
Match information: any
Instruction information:
Write actions:
Output interface: Controller, send length: 65509 bytes
Flow entry 1 information:
cookie: 0x2328, priority: 29999, hard time: 0, idle time: 300, flags:
flow_send_rem, byte count: --, packet count: 1
Match information:
Input interface: GE3/0/3
Ethernet destination MAC address: 0cda-41b1-d1c5
Ethernet destination MAC address mask: ffff-ffff-ffff
Ethernet source MAC address: 7425-8a0f-8034
Ethernet source MAC address mask: ffff-ffff-ffff
Ethernet type: 0x0806
Instruction information:
Write actions:
Output interface: GE3/0/1
Flow entry 2 information:
cookie: 0x2328, priority: 29999, hard time: 0, idle time: 300, flags:
flow_send_rem, byte count: --, packet count: 4
Match information:
Input interface: GE3/0/1
Ethernet destination MAC address: 7425-8a0f-8034
Ethernet destination MAC address mask: ffff-ffff-ffff
Ethernet source MAC address: 0cda-41b1-d1c5
Ethernet source MAC address mask: ffff-ffff-ffff
Ethernet type: 0x0800
Instruction information:
Write actions:
Output interface: GE3/0/3
Flow entry 3 information:
cookie: 0x2328, priority: 29999, hard time: 0, idle time: 300, flags:
flow_send_rem, byte count: --, packet count: 4
Match information:
Input interface: GE3/0/3
Ethernet destination MAC address: 0cda-41b1-d1c5
Ethernet destination MAC address mask: ffff-ffff-ffff
Ethernet source MAC address: 7425-8a0f-8034
Ethernet source MAC address mask: ffff-ffff-ffff
Ethernet type: 0x0800
Instruction information:
Write actions:
Output interface: GE3/0/1
以上信息表明Host A和Host C之间ARP应答报文和ICMP请求/应答报文成功触发控制器下发流表项,且相应的数据报文基于下发的流表项进行转发。
# Host C ping Host D。
Ping 20.1.1.2 (20.1.1.2): 56 data bytes, press CTRL_C to break
56 bytes from 20.1.1.2: icmp_seq=0 ttl=255 time=1.620 ms
56 bytes from 20.1.1.2: icmp_seq=1 ttl=255 time=6.625 ms
56 bytes from 20.1.1.2: icmp_seq=2 ttl=255 time=1.454 ms
56 bytes from 20.1.1.2: icmp_seq=3 ttl=255 time=1.134 ms
56 bytes from 20.1.1.2: icmp_seq=4 ttl=255 time=1.260 ms
--- Ping statistics for 20.1.1.2 ---
5 packet(s) transmitted, 5 packet(s) received, 0.0% packet loss
round-trip min/avg/max/std-dev = 1.134/2.419/6.625/2.110 ms
以上信息表明Host C与Host D之间是互通的。
# 再次查看Switch A上的流表信息。
<SwitchA>display openflow instance 1 flow-table
Instance 1 flow table information:
Table 0 information:
Table type: Extensibility, flow entry count: 7, total flow entry count: 7
MissRule (default) flow entry information:
cookie: 0x0, priority: 0, hard time: 0, idle time: 0, flags: flow_send_rem,
byte count: --, packet count: 0
Match information: any
Instruction information:
Write actions:
Output interface: Controller, send length: 65509 bytes
Flow entry 1 information:
cookie: 0x2328, priority: 29999, hard time: 0, idle time: 300, flags:
flow_send_rem, byte count: --, packet count: 1
Match information:
Input interface: GE3/0/3
Ethernet destination MAC address: 0cda-41b1-d1c5
Ethernet destination MAC address mask: ffff-ffff-ffff
Ethernet source MAC address: 7425-8a0f-8034
Ethernet source MAC address mask: ffff-ffff-ffff
Ethernet type: 0x0806
Instruction information:
Write actions:
Output interface: GE3/0/1
Flow entry 2 information:
cookie: 0x2328, priority: 29999, hard time: 0, idle time: 300, flags:
flow_send_rem, byte count: --, packet count: 4
Match information:
Input interface: GE3/0/1
Ethernet destination MAC address: 7425-8a0f-8034
Ethernet destination MAC address mask: ffff-ffff-ffff
Ethernet source MAC address: 0cda-41b1-d1c5
Ethernet source MAC address mask: ffff-ffff-ffff
Ethernet type: 0x0800
Instruction information:
Write actions:
Output interface: GE3/0/3
Flow entry 3 information:
cookie: 0x2328, priority: 29999, hard time: 0, idle time: 300, flags:
flow_send_rem, byte count: --, packet count: 4
Match information:
Input interface: GE3/0/3
Ethernet destination MAC address: 0cda-41b1-d1c5
Ethernet destination MAC address mask: ffff-ffff-ffff
Ethernet source MAC address: 7425-8a0f-8034
Ethernet source MAC address mask: ffff-ffff-ffff
Ethernet type: 0x0800
Instruction information:
Write actions:
Output interface: GE3/0/1
Flow entry 4 information:
cookie: 0x2328, priority: 29999, hard time: 0, idle time: 300, flags:
flow_send_rem, byte count: --, packet count: 1
Match information:
Input interface: GE3/0/3
Ethernet destination MAC address: 0cda-41b1-d1c4
Ethernet destination MAC address mask: ffff-ffff-ffff
Ethernet source MAC address: 7425-8a0f-8035
Ethernet source MAC address mask: ffff-ffff-ffff
Ethernet type: 0x0806
Instruction information:
Write actions:
Output interface: GE3/0/2
Flow entry 5 information:
cookie: 0x2328, priority: 29999, hard time: 0, idle time: 300, flags:
flow_send_rem, byte count: --, packet count: 4
Match information:
Input interface: GE3/0/2
Ethernet destination MAC address: 7425-8a0f-8035
Ethernet destination MAC address mask: ffff-ffff-ffff
Ethernet source MAC address: 0cda-41b1-d1c4
Ethernet source MAC address mask: ffff-ffff-ffff
Ethernet type: 0x0800
Instruction information:
Write actions:
Output interface: GE3/0/3
Flow entry 6 information:
cookie: 0x2328, priority: 29999, hard time: 0, idle time: 300, flags:
flow_send_rem, byte count: --, packet count: 4
Match information:
Input interface: GE3/0/3
Ethernet destination MAC address: 0cda-41b1-d1c4
Ethernet destination MAC address mask: ffff-ffff-ffff
Ethernet source MAC address: 7425-8a0f-8035
Ethernet source MAC address mask: ffff-ffff-ffff
Ethernet type: 0x0800
Instruction information:
Write actions:
Output interface: GE3/0/2
以上信息表明Host B和Host D之间ARP应答报文和ICMP请求/应答报文也成功触发控制器下发流表项,且相应的数据报文基于下发的流表项进行转发。
(2) 在Switch B上进行验证
# Host A ping Host C后,查看Switch B上的流表信息。
<SwitchB>display openflow instance 1 flow-table
Instance 1 flow table information:
Table 0 information:
Table type: Extensibility, flow entry count: 4, total flow entry count: 4
MissRule (default) flow entry information:
cookie: 0x0, priority: 0, hard time: 0, idle time: 0, flags: flow_send_rem,
byte count: --, packet count: 0
Match information: any
Instruction information:
Write actions:
Output interface: Controller, send length: 65509 bytes
Flow entry 1 information:
cookie: 0x2328, priority: 29999, hard time: 0, idle time: 300, flags:
flow_send_rem, byte count: --, packet count: 0
Match information:
Input interface: GE3/0/1
Ethernet destination MAC address: 0cda-41b1-d1c5
Ethernet destination MAC address mask: ffff-ffff-ffff
Ethernet source MAC address: 7425-8a0f-8034
Ethernet source MAC address mask: ffff-ffff-ffff
Ethernet type: 0x0806
Instruction information:
Write actions:
Output interface: GE3/0/3
Flow entry 2 information:
cookie: 0x2328, priority: 29999, hard time: 0, idle time: 300, flags:
flow_send_rem, byte count: --, packet count: 5
Match information:
Input interface: GE3/0/3
Ethernet destination MAC address: 7425-8a0f-8034
Ethernet destination MAC address mask: ffff-ffff-ffff
Ethernet source MAC address: 0cda-41b1-d1c5
Ethernet source MAC address mask: ffff-ffff-ffff
Ethernet type: 0x0800
Instruction information:
Write actions:
Output interface: GE3/0/1
Flow entry 3 information:
cookie: 0x2328, priority: 29999, hard time: 0, idle time: 300, flags:
flow_send_rem, byte count: --, packet count: 4
Match information:
Input interface: GE3/0/1
Ethernet destination MAC address: 0cda-41b1-d1c5
Ethernet destination MAC address mask: ffff-ffff-ffff
Ethernet source MAC address: 7425-8a0f-8034
Ethernet source MAC address mask: ffff-ffff-ffff
Ethernet type: 0x0800
Instruction information:
Write actions:
Output interface: GE3/0/3
以上信息表明Host A和Host C之间ARP应答报文和ICMP请求/应答报文也成功触发控制器下发流表项,且相应的数据报文基于下发的流表项进行转发。
# Host B ping Host D后,再次查看Switch B上的流表信息。
<SwitchB>display openflow instance 1 flow-table
Instance 1 flow table information:
Table 0 information:
Table type: Extensibility, flow entry count: 7, total flow entry count: 7
MissRule (default) flow entry information:
cookie: 0x0, priority: 0, hard time: 0, idle time: 0, flags: flow_send_rem,
byte count: --, packet count: 0
Match information: any
Instruction information:
Write actions:
Output interface: Controller, send length: 65509 bytes
Flow entry 1 information:
cookie: 0x2328, priority: 29999, hard time: 0, idle time: 300, flags:
flow_send_rem, byte count: --, packet count: 0
Match information:
Input interface: GE3/0/1
Ethernet destination MAC address: 0cda-41b1-d1c5
Ethernet destination MAC address mask: ffff-ffff-ffff
Ethernet source MAC address: 7425-8a0f-8034
Ethernet source MAC address mask: ffff-ffff-ffff
Ethernet type: 0x0806
Instruction information:
Write actions:
Output interface: GE3/0/3
Flow entry 2 information:
cookie: 0x2328, priority: 29999, hard time: 0, idle time: 300, flags:
flow_send_rem, byte count: --, packet count: 5
Match information:
Input interface: GE3/0/3
Ethernet destination MAC address: 7425-8a0f-8034
Ethernet destination MAC address mask: ffff-ffff-ffff
Ethernet source MAC address: 0cda-41b1-d1c5
Ethernet source MAC address mask: ffff-ffff-ffff
Ethernet type: 0x0800
Instruction information:
Write actions:
Output interface: GE3/0/1
Flow entry 3 information:
cookie: 0x2328, priority: 29999, hard time: 0, idle time: 300, flags:
flow_send_rem, byte count: --, packet count: 4
Match information:
Input interface: GE3/0/1
Ethernet destination MAC address: 0cda-41b1-d1c5
Ethernet destination MAC address mask: ffff-ffff-ffff
Ethernet source MAC address: 7425-8a0f-8034
Ethernet source MAC address mask: ffff-ffff-ffff
Ethernet type: 0x0800
Instruction information:
Write actions:
Output interface: GE3/0/3
Flow entry 4 information:
cookie: 0x2328, priority: 29999, hard time: 0, idle time: 300, flags:
flow_send_rem, byte count: --, packet count: 0
Match information:
Input interface: GE3/0/2
Ethernet destination MAC address: 0cda-41b1-d1c4
Ethernet destination MAC address mask: ffff-ffff-ffff
Ethernet source MAC address: 7425-8a0f-8035
Ethernet source MAC address mask: ffff-ffff-ffff
Ethernet type: 0x0806
Instruction information:
Write actions:
Output interface: GE3/0/3
Flow entry 5 information:
cookie: 0x2328, priority: 29999, hard time: 0, idle time: 300, flags:
flow_send_rem, byte count: --, packet count: 5
Match information:
Input interface: GE3/0/3
Ethernet destination MAC address: 7425-8a0f-8035
Ethernet destination MAC address mask: ffff-ffff-ffff
Ethernet source MAC address: 0cda-41b1-d1c4
Ethernet source MAC address mask: ffff-ffff-ffff
Ethernet type: 0x0800
Instruction information:
Write actions:
Output interface: GE3/0/2
Flow entry 6 information:
cookie: 0x2328, priority: 29999, hard time: 0, idle time: 300, flags:
flow_send_rem, byte count: --, packet count: 4
Match information:
Input interface: GE3/0/2
Ethernet destination MAC address: 0cda-41b1-d1c4
Ethernet destination MAC address mask: ffff-ffff-ffff
Ethernet source MAC address: 7425-8a0f-8035
Ethernet source MAC address mask: ffff-ffff-ffff
Ethernet type: 0x0800
Instruction information:
Write actions:
Output interface: GE3/0/3
以上信息表明Host B和Host D之间ARP应答报文和ICMP请求/应答报文也成功触发控制器下发流表项,且相应的数据报文基于下发的流表项进行转发。
· Switch A:
#
lldp global enable
#
openflow instance 1
classification vlan 4092 mask 4093 loosen
controller 0 address ip 192.168.2.225
#
interface Vlan-interface1
ip address 192.168.2.125 255.255.255.0
#
interface GigabitEthernet3/0/1
port link-mode bridge
port access vlan 4092
#
interface GigabitEthernet3/0/2
port link-mode bridge
port access vlan 4094
#
interface GigabitEthernet3/0/3
port link-mode bridge
port link-type trunk
port trunk permit vlan 1 4092 4094
#
· Switch B:
#
lldp global enable
#
openflow instance 1
classification vlan 4092 mask 4093 loosen
controller 0 address ip 192.168.2.225
#
interface Vlan-interface1
ip address 192.168.2.126 255.255.255.0
#
interface GigabitEthernet3/0/1
port link-mode bridge
port access vlan 4092
#
interface GigabitEthernet3/0/2
port link-mode bridge
port access vlan 4094
#
interface GigabitEthernet3/0/3
port link-mode bridge
port link-type trunk
port trunk permit vlan 1 4092 4094
#
如图4-1所示,Host A和Host C属于VLAN 4092;Host B和Host D属于VLAN 4094;它们之间通过Switch A和Swtich B进行连接。现要求通过对Switch A和Switch B进行OpenFlow配置,使VLAN 4092和VLAN 4094内的主机基于控制器静态下发的流表项进行通信,即要求交换机对VLAN 4092和VLAN 4094内的数据进行OpenFlow转发。
图4-1 OpenFlow基本功能配置举例组网图
· 为了使控制器可以通过LLDP学习OpenFlow网络拓扑,设备上必须全局使能LLDP功能。
· 为了使OpenFlow实例与控制器建立连接,需要配置交换机与控制器之间路由可达,本例中以VLAN接口1作为与控制器通信的接口。
· 为了保持交换机与控制器之间连接的可靠性,需要使用TCP/SSL建立连接。本例中采用TCP方式建立交换机与控制器之间的连接。如果需要更高的连接可靠性,可以选择使用SSL建立连接。
· 为了使连接主机的Access类型的端口成为OpenFlow端口,配置映射VLAN 4092、VLAN 4094时,需要选择Loosen模式。
本举例是在S12500-S-CMW710-R7150P02版本上进行配置和验证的。
# 配置VLAN。
<SwitchA>system-view
[SwitchA]vlan 4092
[SwitchA-vlan4092]quit
[SwitchA]vlan 4094
[SwitchA-vlan4094]quit
# 配置Switch A上的接口GigabitEthernet3/0/1、GigabitEthernet3/0/2和GigabitEthernet3/0/3。
[SwitchA]interface GigabitEthernet 3/0/1
[SwitchA-GigabitEthernet3/0/1]port access vlan 4092
[SwitchA-GigabitEthernet3/0/1]quit
[SwitchA]interface GigabitEthernet 3/0/2
[SwitchA-GigabitEthernet3/0/2]port access vlan 4094
[SwitchA-GigabitEthernet3/0/2]quit
[SwitchA]interface GigabitEthernet 3/0/3
[SwitchA-GigabitEthernet3/0/3]port link-type trunk
[SwitchA-GigabitEthernet3/0/3]port trunk permit vlan 4092 4094
[SwitchA-GigabitEthernet3/0/3]quit
# 全局使能LLDP功能。
[SwitchA] lldp global enable
# 配置VLAN接口1用于和控制器建立连接。
[SwitchA]interface Vlan-interface 1
[SwitchA-Vlan-interface1]ip address 192.168.2.125 255.255.255.0
[SwitchA-Vlan-interface1]quit
# 创建OpenFlow实例1并映射VLAN 4092和VLAN 4094,同时选择映射模式为Loosen模式。
[SwitchA]openflow instance 1
[SwitchA-of-inst-1]classification vlan 4092 mask 4093 loosen
# 配置控制器0的IP地址并激活实例。
[SwitchA-of-inst-1]controller 0 address ip 192.168.2.225
[SwitchA-of-inst-1]active instance
[SwitchA-of-inst-1]quit
# 配置VLAN。
<SwitchB>system-view
[SwitchB]vlan 4092
[SwitchB-vlan4092]quit
[SwitchB]vlan 4094
[SwitchB-vlan4094]quit
# 配置Switch B上的接口GigabitEthernet3/0/1、GigabitEthernet3/0/2和GigabitEthernet3/0/3。
[SwitchB]interface GigabitEthernet 3/0/1
[SwitchB-GigabitEthernet3/0/1]port access vlan 4092
[SwitchB-GigabitEthernet3/0/1]quit
[SwitchB]interface GigabitEthernet 3/0/2
[SwitchB-GigabitEthernet3/0/2]port access vlan 4094
[SwitchB-GigabitEthernet3/0/2]quit
[SwitchB]interface GigabitEthernet 3/0/3
[SwitchB-GigabitEthernet3/0/3]port link-type trunk
[SwitchB-GigabitEthernet3/0/3]port trunk permit vlan 4092 4094
[SwitchB-GigabitEthernet3/0/3]quit
# 全局使能LLDP功能。
[SwitchB] lldp global enable
# 配置VLAN接口1用于和控制器建立连接。
[SwitchB]interface Vlan-interface 1
[SwitchB-Vlan-interface1]ip address 192.168.2.126 255.255.255.0
[SwitchB-Vlan-interface1]quit
# 创建OpenFlow实例1并映射VLAN 4092和VLAN 4094,同时选择映射模式为Loosen模式。
[SwitchB]openflow instance 1
[SwitchB-of-inst-1]classification vlan 4092 mask 4093 loosen
# 配置控制器0的IP地址并激活实例。
[SwitchB-of-inst-1]controller 0 address ip 192.168.2.225
[SwitchB-of-inst-1]active instance
[SwitchB-of-inst-1]quit
· VCF控制器在下发流表时,将会用到OpenFlow实例的DPID(Datapath ID)和端口的端口号这两个参数。
· DPID用来在控制器上唯一标识一个OpenFlow实例。
· 端口号是在控制器上唯一标识一个物理接口(比如二层以太网接口)或逻辑接口(比如二次聚合接口)的数值,控制器下发流表时只能通过端口号(例如:159)来识别物理端口(例如:GigabitEthernet3/0/3)。
(1) 在浏览器中输入H3C VCF GUI登录地址(格式为:https://vcf_ip_address:8443/sdn/ui/,本文中以https://192.168.2.225:8443/sdn/ui/为例),回车后会打开如图4-2所示登录界面。
¡ vcf_ip_address为控制器软件安装所在服务器或虚拟机的IP地址;
¡ 8443为缺省端口号。
图4-2 H3C VCF GUI登录界面
(2) 输入用户名(缺省为sdn)和密码(缺省为skyline)后,单击<登录>按钮进入控制器GUI首页,如图4-3所示。
(3) 单击界面左侧导航树中的<OpenFlow监控>菜单项,打开OpenFlow监控视图,如图4-4所示,获取实例对应的DPID。
图4-4 获取OpenFlow实例的DPID
(4) 如图4-5所示,选中实例(Switch A)对应的DPID,然后单击<端口>按钮,打开端口视图。
(5) 获取端口GigabitEthernet3/0/1对应的端口号157、GigabitEthernet3/0/2对应的端口号158和GigabitEthernet3/0/3对应的端口号159,如图4-6所示。
图4-6 OpenFlow实例对应的端口视图
登录API界面后需要进行认证,认证成功后才可以进行下发流表操作,每次进入这个页面都需要进行认证。
(1) 在浏览器中输入控制器RSdoc登录地址(格式为:https://vcf_ip_address:8443/api/,本文中以https://192.168.2.225:8443/api/为例),回车后打开如图4-7所示RSdoc界面。
¡ vcf_ip_address为控制器软件安装所在服务器或虚拟机的IP地址;
¡ 8443为缺省端口号。
(2) 在/auth项中输入如下内容,然后单击<Try it out!>按钮,获取认证token,如图4-8所示。{"login":{"user":"username","password":"password","domain":"sdn"}}
¡ username为用户名(缺省为sdn);
¡ password为用户密码(缺省为skyline)。
(3) 将获取的认证token复制并粘贴到RSdoc首页右上角的空白框中,然后单击<Explore>按钮,如图4-9所示。之后只要认证token正确且在有效期内,RSdoc对控制器进行的请求即可获得认证。
(1) 单击API界面的/datapaths项,打开如图4-10所示的datapaths菜单界面。
(2) 单击/datapaths项下的POST /of/datapaths/{dpid}/flows,将打开如图4-11所示页面。
(3) 如图4-12所示,在dpid参数后面的Value框中输入DPID并在flowJson参数后面的Value框中输入如下即将下发的flowJson结构的静态流表项内容。
{
"version": "1.3.0",
"flow": {
"table_id": 0,
"priority": 30010,
"idle_timeout": 0,
"hard_timeout": 0,
"flow_mod_cmd": "add",
"cookie": "0x1234",
"cookie_mask": "0xffff",
"out_port": 159,
"flow_mod_flags": [
"send_flow_rem"
],
"match": [
{"in_port": "157"},
{"vlan_vid": "4092" } ] ,
"instructions": [
{
"write_actions": [
{
"output":159
}
]
}
]
}
}
通过POST /of/datapaths/{dpid}/flows创建流表项时,如果flowJson中的priority字段和match字段都与已经下发的某条流表项相同,则仅更新该流表项的其它参数,并不会创建新的流表项。
表4-1 flowJson结构的流表项信息描述表
|
字段 |
描述 |
|
version |
OpenFlow协议的版本 |
|
Table_id |
流表ID |
|
priority |
流表项的优先级,数值越大,优先级越高 |
|
idle_timeout |
流表项的idle time超时时间,单位为秒,0代表永不超时。如果idle time超时时间内没有数据流匹配到该流表项,该流表项被清除 |
|
hard_timeout |
流表项的hard time超时时间,单位为秒,0代表永不超时。hard time超时后不论有没有数据流匹配到该流表项,该流表项都将被清除 |
|
flow_mod_cmd |
控制对流表项的操作类型: add:创建或修改流表项 modify:修改流表项的指令集 modify_strict:严格修改流表项的指令集 delete:删除流表项 delete_strict:严格删除流表项 |
|
cookie |
流表项cookie |
|
cookie_mask |
流表项的cookie掩码,与cookie进行“与运算” |
|
out_port |
报文的出端口。删除流表项时out_port字段和cookie字段、match字段三者唯一标识一条流表项 |
|
flow_mod_flags |
流表项的标志位: send_flow_rem_:发送流表项删除消息 no_packet_counts:不统计报文计数 no_byte_counts:不统计字节计数 none:无标志位 |
|
match |
匹配规则信息: In_port:匹配指定入端口的报文 vlan_vid:匹配指定VLAN内的报文 各匹配项之间是“与”的关系 |
|
instructions |
动作指令集信息: meter:应用指定的Meter表 write_actions:更改动作集中的动作 clear_actions:清除动作集中的所有动作 apply_actions:立即执行动作集中的动作 |
|
output |
从指定端口发送报文。关于如何获取对应的端口号,请参见“1. 获取OpenFlow实例的DPID及端口的端口号信息” |
(4) 点击<Try it out!>按钮下发流表项配置,如图4-13所示,响应码为2xx即表示成功下发流表项配置。
下发流表项配置成功后,Switch A上打印如下提示信息:
%Jun 28 11:55:05:227 2024 SwitchA OFP/5/OFP_FLOW_ADD: -MDC=1; Openflow instance
1 controller 0: add flow entry 1, xid 0x79, cookie 0x1234, table id 0.
# 查看Switch A上已下发的流表信息
<SwitchA>display openflow instance 1 flow-table
Instance 1 flow table information:
Table 0 information:
Table type: Extensibility, flow entry count: 2, total flow entry count: 2
MissRule (default) flow entry information:
cookie: 0x0, priority: 0, hard time: 0, idle time: 0, flags: flow_send_rem,
byte count: --, packet count: 0
Match information: any
Instruction information:
Write actions:
Output interface: Controller, send length: 65509 bytes
Flow entry 1 information:
cookie: 0x1234, priority: 30010, hard time: 0, idle time: 0, flags:
flow_send_rem, byte count: --, packet count: 0
Match information:
Input interface: GE3/0/1
VLAN ID: 4092, mask: 0xfff
Instruction information:
Write actions:
Output interface: GE3/0/3
以上信息表明第一条流表项已下发成功
(1) 所有流表项均下发完成后,查看Switch A上的流表项信息。
<SwitchA>display openflow instance 1 flow-table
Instance 1 flow table information:
Table 0 information:
Table type: Extensibility, flow entry count: 5, total flow entry count: 5
MissRule (default) flow entry information:
cookie: 0x0, priority: 0, hard time: 0, idle time: 0, flags: flow_send_rem,
byte count: --, packet count: 0
Match information: any
Instruction information:
Write actions:
Output interface: Controller, send length: 65509 bytes
Flow entry 1 information:
cookie: 0x1234, priority: 30010, hard time: 0, idle time: 0, flags:
flow_send_rem, byte count: --, packet count: 0
Match information:
Input interface: GE3/0/1
VLAN ID: 4092, mask: 0xfff
Instruction information:
Write actions:
Output interface: GE3/0/3
Flow entry 2 information:
cookie: 0x1234, priority: 30010, hard time: 0, idle time: 0, flags:
flow_send_rem, byte count: --, packet count: 0
Match information:
Input interface: GE3/0/3
VLAN ID: 4092, mask: 0xfff
Instruction information:
Write actions:
Output interface: GE3/0/1
Flow entry 3 information:
cookie: 0x1234, priority: 30010, hard time: 0, idle time: 0, flags:
flow_send_rem, byte count: --, packet count: 0
Match information:
Input interface: GE3/0/2
VLAN ID: 4094, mask: 0xfff
Instruction information:
Write actions:
Output interface: GE3/0/3
Flow entry 4 information:
cookie: 0x1234, priority: 30010, hard time: 0, idle time: 0, flags:
flow_send_rem, byte count: --, packet count: 0
Match information:
Input interface: GE3/0/3
VLAN ID: 4094, mask: 0xfff
Instruction information:
Write actions:
Output interface: GE3/0/2
(2) 所有流表项均下发完成后,查看Switch B上的流表项信息。
<SwitchB>display openflow instance 1 flow-table
Instance 1 flow table information:
Table 0 information:
Table type: Extensibility, flow entry count: 5, total flow entry count: 5
MissRule (default) flow entry information:
cookie: 0x0, priority: 0, hard time: 0, idle time: 0, flags: flow_send_rem,
byte count: --, packet count: 0
Match information: any
Instruction information:
Write actions:
Output interface: Controller, send length: 65509 bytes
Flow entry 1 information:
cookie: 0x1234, priority: 30010, hard time: 0, idle time: 0, flags:
flow_send_rem, byte count: --, packet count: 0
Match information:
Input interface: GE3/0/1
VLAN ID: 4092, mask: 0xfff
Instruction information:
Write actions:
Output interface: GE3/0/3
Flow entry 2 information:
cookie: 0x1234, priority: 30010, hard time: 0, idle time: 0, flags:
flow_send_rem, byte count: --, packet count: 0
Match information:
Input interface: GE3/0/3
VLAN ID: 4092, mask: 0xfff
Instruction information:
Write actions:
Output interface: GE3/0/1
Flow entry 3 information:
cookie: 0x1234, priority: 30010, hard time: 0, idle time: 0, flags:
flow_send_rem, byte count: --, packet count: 0
Match information:
Input interface: GE3/0/2
VLAN ID: 4094, mask: 0xfff
Instruction information:
Write actions:
Output interface: GE3/0/3
Flow entry 4 information:
cookie: 0x1234, priority: 30010, hard time: 0, idle time: 0, flags:
flow_send_rem, byte count: --, packet count: 0
Match information:
Input interface: GE3/0/3
VLAN ID: 4094, mask: 0xfff
Instruction information:
Write actions:
Output interface: GE3/0/2
(3) 在Switch A上进行Ping操作验证
# Host A ping Host B。
Ping 10.1.1.2 (10.1.1.2): 56 data bytes, press CTRL_C to break
56 bytes from 10.1.1.2: icmp_seq=0 ttl=255 time=4.582 ms
56 bytes from 10.1.1.2: icmp_seq=1 ttl=255 time=1.299 ms
56 bytes from 10.1.1.2: icmp_seq=2 ttl=255 time=1.389 ms
56 bytes from 10.1.1.2: icmp_seq=3 ttl=255 time=6.688 ms
56 bytes from 10.1.1.2: icmp_seq=4 ttl=255 time=1.294 ms
--- Ping statistics for 10.1.1.2 ---
5 packet(s) transmitted, 5 packet(s) received, 0.0% packet loss
round-trip min/avg/max/std-dev = 1.294/3.050/6.688/2.213 ms
以上信息表明Host A与Host B之间是互通的。
#查看Switch A上的流表信息。
<SwitchA>display openflow instance 1 flow-table
Instance 1 flow table information:
Table 0 information:
Table type: Extensibility, flow entry count: 5, total flow entry count: 5
MissRule (default) flow entry information:
cookie: 0x0, priority: 0, hard time: 0, idle time: 0, flags: flow_send_rem,
byte count: --, packet count: 0
Match information: any
Instruction information:
Write actions:
Output interface: Controller, send length: 65509 bytes
Flow entry 1 information:
cookie: 0x1234, priority: 30010, hard time: 0, idle time: 0, flags:
flow_send_rem, byte count: --, packet count: 6
Match information:
Input interface: GE3/0/1
VLAN ID: 4092, mask: 0xfff
Instruction information:
Write actions:
Output interface: GE3/0/3
Flow entry 2 information:
cookie: 0x1234, priority: 30010, hard time: 0, idle time: 0, flags:
flow_send_rem, byte count: --, packet count: 6
Match information:
Input interface: GE3/0/3
VLAN ID: 4092, mask: 0xfff
Instruction information:
Write actions:
Output interface: GE3/0/1
Flow entry 3 information:
cookie: 0x1234, priority: 30010, hard time: 0, idle time: 0, flags:
flow_send_rem, byte count: --, packet count: 0
Match information:
Input interface: GE3/0/2
VLAN ID: 4094, mask: 0xfff
Instruction information:
Write actions:
Output interface: GE3/0/3
Flow entry 4 information:
cookie: 0x1234, priority: 30010, hard time: 0, idle time: 0, flags:
flow_send_rem, byte count: --, packet count: 0
Match information:
Input interface: GE3/0/3
VLAN ID: 4094, mask: 0xfff
Instruction information:
Write actions:
Output interface: GE3/0/2
以上信息表示Host A与Host B之间的数据已匹配流表项1和2进行转发。
# Host C ping Host D。
Ping 20.1.1.2 (20.1.1.2): 56 data bytes, press CTRL_C to break
56 bytes from 20.1.1.2: icmp_seq=0 ttl=255 time=1.620 ms
56 bytes from 20.1.1.2: icmp_seq=1 ttl=255 time=6.625 ms
56 bytes from 20.1.1.2: icmp_seq=2 ttl=255 time=1.454 ms
56 bytes from 20.1.1.2: icmp_seq=3 ttl=255 time=1.134 ms
56 bytes from 20.1.1.2: icmp_seq=4 ttl=255 time=1.260 ms
--- Ping statistics for 20.1.1.2 ---
5 packet(s) transmitted, 5 packet(s) received, 0.0% packet loss
round-trip min/avg/max/std-dev = 1.134/2.419/6.625/2.110 ms
以上信息表明Host C与Host D之间是互通的。
# 再次查看Switch A上的流表信息。
<SwitchA>display openflow instance 1 flow-table
Instance 1 flow table information:
Table 0 information:
Table type: Extensibility, flow entry count: 5, total flow entry count: 5
MissRule (default) flow entry information:
cookie: 0x0, priority: 0, hard time: 0, idle time: 0, flags: flow_send_rem,
byte count: --, packet count: 0
Match information: any
Instruction information:
Write actions:
Output interface: Controller, send length: 65509 bytes
Flow entry 1 information:
cookie: 0x1234, priority: 30010, hard time: 0, idle time: 0, flags:
flow_send_rem, byte count: --, packet count: 6
Match information:
Input interface: GE3/0/1
VLAN ID: 4092, mask: 0xfff
Instruction information:
Write actions:
Output interface: GE3/0/3
Flow entry 2 information:
cookie: 0x1234, priority: 30010, hard time: 0, idle time: 0, flags:
flow_send_rem, byte count: --, packet count: 6
Match information:
Input interface: GE3/0/3
VLAN ID: 4092, mask: 0xfff
Instruction information:
Write actions:
Output interface: GE3/0/1
Flow entry 3 information:
cookie: 0x1234, priority: 30010, hard time: 0, idle time: 0, flags:
flow_send_rem, byte count: --, packet count: 6
Match information:
Input interface: GE3/0/2
VLAN ID: 4094, mask: 0xfff
Instruction information:
Write actions:
Output interface: GE3/0/3
Flow entry 4 information:
cookie: 0x1234, priority: 30010, hard time: 0, idle time: 0, flags:
flow_send_rem, byte count: --, packet count: 6
Match information:
Input interface: GE3/0/3
VLAN ID: 4094, mask: 0xfff
Instruction information:
Write actions:
Output interface: GE3/0/2
以上信息表示Host C与Host D之间的数据已匹配流表项3和4进行转发。
(4) 在Switch B上进行Ping操作验证
Switch B上的流表信息与Switch A上的流表信息相同,略。
· Switch A:
#
lldp global enable
#
openflow instance 1
classification vlan 4092 mask 4093 loosen
controller 0 address ip 192.168.2.225
#
interface Vlan-interface1
ip address 192.168.2.125 255.255.255.0
#
interface GigabitEthernet3/0/1
port link-mode bridge
port access vlan 4092
#
interface GigabitEthernet3/0/2
port link-mode bridge
port access vlan 4094
#
interface GigabitEthernet3/0/3
port link-mode bridge
port link-type trunk
port trunk permit vlan 1 4092 4094
#
· Switch B:
#
lldp global enable
#
openflow instance 1
classification vlan 4092 mask 4093 loosen
controller 0 address ip 192.168.2.225
#
interface Vlan-interface1
ip address 192.168.2.126 255.255.255.0
#
interface GigabitEthernet3/0/1
port link-mode bridge
port access vlan 4092
#
interface GigabitEthernet3/0/2
port link-mode bridge
port access vlan 4094
#
interface GigabitEthernet3/0/3
port link-mode bridge
port link-type trunk
port trunk permit vlan 1 4092 4094
#
· H3C S12500-S系列以太网交换机 OpenFlow配置指导-Release 7150P02
· H3C S12500-S系列以太网交换机 OpenFlow命令参考-Release 7150P02
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