丁冉,pppoe拨号 上网出口链路负载 如何实现???
问题描述:
H3C F1000-AK125 防火墙 版本 H3C Comware Software, Version 7.1.064, Release 9514P1801
现有 一条 电信的公网IP 线路 两条 联通 的PPPoe拨号上网线路(无固定IP)
需求:内部用户 上网实现 出链路 负载均衡(上网 访问网页 随即出口就行),一条链路断了 能自动切到另一条链路 上网 不影响用户上网
求 如何实现??? 谢谢大家
组网及组网描述:
电信 223.144.166.45 防火墙 1口
联通1 账号 0531 254622 防火墙 2口
联通 2 账号 0531 589746 防火墙 3口
7小时前提问您好,使用NQA+track+静态路由
10-Track配置-新华三集团-H3C
1.9 Track典型配置举例
1.9.1 静态路由、Track与NQA联动配置举例
1. 组网需求
Device A、Device B、Device C和Device D连接了
Device A作为
· 下一跳为Device B的静态路由优先级高,作为主路由。该路由可达时,Device A通过Device B将报文转发到30.1.1.0/24网段。
· 下一跳为Device C的静态路由作为备份路由。
· 在Device A上通过静态路由、Track与NQA联动,实时判断主路由是否可达。当主路由不可达时,备份路由生效,Device A通过Device C将报文转发到30.1.1.0/24网段。
同样地,Device D作为30.1.1.0/24网段内主机的缺省网关,在Device D上存在两条到达
· 下一跳为Device B的静态路由优先级高,作为主路由。该路由可达时,Device D通过Device B将报文转发到
· 下一跳为Device C的静态路由作为备份路由。
· 在Device D上通过静态路由、Track与NQA联动,实时判断主路由是否可达。当主路由不可达时,备份路由生效,Device D通过Device C将报文转发到
2. 组网图
图1-2 静态路由、Track与NQA联动配置组网图
3. 配置Device A
根据组网图中规划的信息,配置各接口的IP地址,具体配置步骤如下。
<DeviceA> system-view
[DeviceA] interface gigabitethernet 1/0/1
[DeviceA-GigabitEthernet1/0/1] ip address 10.1.1.1 255.255.255.0
[DeviceA-GigabitEthernet1/0/1] quit
请参考以上步骤配置其他接口的IP地址,具体配置步骤略。
根据组网图中规划的信息,配置静态路由。
¡ 配置到达30.1.1.0/24网段的主用路由:下一跳地址为10.1.1.2,优先级为缺省值60,该路由与Track项1关联。
¡ 配置到达30.1.1.0/24网段的备用路由:下一跳地址为10.3.1.3,优先级为80。
¡ 配置到达10.2.1.4/24网段的路由:下一跳地址为10.1.1.2,优先级为缺省值60,该路由为NQA探测报文路由。
[DeviceA] ip route-static 30.1.1.0 24 10.1.1.2 track 1
[DeviceA] ip route-static 30.1.1.0 24 10.3.1.3 preference 80
[DeviceA] ip route-static 10.2.1.4 24 10.1.1.2
请根据组网图中规划的信息,将接口加入对应的安全域。
[DeviceA] security-zone name untrust
[DeviceA-security-zone-Untrust] import interface gigabitethernet 1/0/1
[DeviceA-security-zone-Untrust] import interface gigabitethernet 1/0/2
[DeviceA-security-zone-Untrust] quit
[DeviceA] security-zone name trust
[DeviceA-security-zone-Trust] import interface gigabitethernet 1/0/3
[DeviceA-security-zone-Trust] quit
(4) 配置安全策略。
# 配置名称为trust-untrust的安全策规则,使
[DeviceA] security-policy ip
[DeviceA-security-policy-ip] rule name trust-untrust
[DeviceA-security-policy-ip-1-trust-untrust] source-zone trust
[DeviceA-security-policy-ip-1-trust-untrust] destination-zone untrust
[DeviceA-security-policy-ip-1-trust-untrust] source-ip-subnet
[DeviceA-security-policy-ip-1-trust-untrust] destination-ip-subnet 30.1.1.0 24
[DeviceA-security-policy-ip-1-trust-untrust] action pass
[DeviceA-security-policy-ip-1-trust-untrust] quit
# 配置名称为untrust-trust的安全策规则,使30.1.1.0/24网段内主机可以访问
[DeviceA-security-policy-ip] rule name untrust-trust
[DeviceA-security-policy-ip-2-untrust-trust] source-zone untrust
[DeviceA-security-policy-ip-2-untrust-trust] destination-zone trust
[DeviceA-security-policy-ip-2-untrust-trust] source-ip-subnet 30.1.1.0 24
[DeviceA-security-policy-ip-2-untrust-trust] destination-ip-subnet
[DeviceA-security-policy-ip-2-untrust-trust] action pass
[DeviceA-security-policy-ip-2-untrust-trust] quit
# 配置名称为nqalocalout的安全策规则,使DeviceA可以向DeviceD发送NQA探测报文。
[DeviceA-security-policy-ip] rule name nqalocalout
[DeviceA-security-policy-ip-3-nqalocalout] source-zone local
[DeviceA-security-policy-ip-3-nqalocalout] destination-zone untrust
[DeviceA-security-policy-ip-2-nqalocalout] service ping
[DeviceA-security-policy-ip-3-nqalocalout] action pass
[DeviceA-security-policy-ip-3-nqalocalout] quit
# 配置名称为nqalocalin的安全策规则,使DeviceA可以接收和处理DeviceD发来的NQA探测报文。
[DeviceA-security-policy-ip] rule name nqalocalin
[DeviceA-security-policy-ip-4-nqalocalin] source-zone untrust
[DeviceA-security-policy-ip-4-nqalocalin] destination-zone local
[DeviceA-security-policy-ip-4-nqalocalin] service ping
[DeviceA-security-policy-ip-4-nqalocalin] action pass
[DeviceA-security-policy-ip-4-nqalocalin] quit
[DeviceA-security-policy-ip] quit
(5) 创建并启用NQA测试组,检测Device A-Device B-Device D这条路径的连通性。
[DeviceA] nqa entry admin test
[DeviceA-nqa-admin-test] type icmp-echo
[DeviceA-nqa-admin-test-icmp-echo] destination ip 10.2.1.4
[DeviceA-nqa-admin-test-icmp-echo] next-hop ip 10.1.1.2
[DeviceA-nqa-admin-test-icmp-echo] frequency 100
[DeviceA-nqa-admin-test-icmp-echo] reaction 1 checked-element probe-fail threshold-type consecutive 5 action-type trigger-only
[DeviceA-nqa-admin-test-icmp-echo] quit
[DeviceA] nqa schedule admin test start-time now lifetime forever
(6) 配置Track项1与NQA测试组关联。
[DeviceA] track 1 nqa entry admin test reaction 1
[DeviceA-track-1] quit
4. 配置Device B
根据组网图中规划的信息,配置各接口的IP地址。
<DeviceB> system-view
[DeviceB] interface gigabitethernet 1/0/1
[DeviceB-GigabitEthernet1/0/1] ip address 10.1.1.2 255.255.255.0
[DeviceB-GigabitEthernet1/0/1] quit
请参考以上步骤配置其他接口的IP地址,具体配置步骤略。
根据组网图中规划的信息,配置静态路由。
[DeviceB] ip route-static 30.1.1.0 24 10.2.1.4
[DeviceB] ip route-static
5. 配置Device C
根据组网图中规划的信息,配置各接口的IP地址。
<DeviceC> system-view
[DeviceC] interface gigabitethernet 1/0/1
[DeviceC-GigabitEthernet1/0/1] ip address 10.3.1.3 255.255.255.0
[DeviceC-GigabitEthernet1/0/1] quit
请参考以上步骤配置其他接口的IP地址,具体配置步骤略。
根据组网图中规划的信息,配置静态路由。
[DeviceC] ip route-static 30.1.1.0 24 10.4.1.4
[DeviceC] ip route-static
6. 配置Device D
根据组网图中规划的信息,配置各接口的IP地址。
<DeviceD> system-view
[DeviceD] interface gigabitethernet 1/0/1
[DeviceD-GigabitEthernet1/0/1] ip address 10.2.1.4 255.255.255.0
[DeviceD-GigabitEthernet1/0/1] quit
请参考以上步骤配置其他接口的IP地址,具体配置步骤略。
根据组网图中规划的信息,配置静态路由。
¡ 配置到达
¡ 配置到达
¡ 配置到达10.1.1.4/24网段的路由:下一跳地址为10.1.1.2,优先级为缺省值60,该路由为NQA探测报文路由。
[DeviceD] ip route-static
[DeviceD] ip route-static
[DeviceD] ip route-static 10.1.1.1 24 10.2.1.2
请根据组网图中规划的信息,将接口加入对应的安全域。
[DeviceD] security-zone name untrust
[DeviceD-security-zone-Untrust] import interface gigabitethernet 1/0/1
[DeviceD-security-zone-Untrust] import interface gigabitethernet 1/0/2
[DeviceD-security-zone-Untrust] quit
[DeviceD] security-zone name trust
[DeviceD-security-zone-Trust] import interface gigabitethernet 1/0/3
[DeviceD-security-zone-Trust] quit
(4) 配置安全策略。
# 配置名称为trust-untrust的安全策规则,使30.1.1.0/24网段内主机可以访问
[DeviceD] security-policy ip
[DeviceD-security-policy-ip] rule name trust-untrust
[DeviceD-security-policy-ip-1-trust-untrust] source-zone trust
[DeviceD-security-policy-ip-1-trust-untrust] destination-zone untrust
[DeviceD-security-policy-ip-1-trust-untrust] source-ip-subnet 30.1.1.0 24
[DeviceD-security-policy-ip-1-trust-untrust] destination-ip-subnet
[DeviceD-security-policy-ip-1-trust-untrust] action pass
[DeviceD-security-policy-ip-1-trust-untrust] quit
# 配置名称为untrust-trust的安全策规则,使
[DeviceD-security-policy-ip] rule name untrust-trust
[DeviceD-security-policy-ip-2-untrust-trust] source-zone untrust
[DeviceD-security-policy-ip-2-untrust-trust] destination-zone trust
[DeviceD-security-policy-ip-2-untrust-trust] source-ip-subnet
[DeviceD-security-policy-ip-2-untrust-trust] destination-ip-subnet 30.1.1.0 24
[DeviceD-security-policy-ip-2-untrust-trust] action pass
[DeviceD-security-policy-ip-2-untrust-trust] quit
# 配置名称为nqalocalout的安全策规则,使DeviceD可以向DeviceA发送NQA探测报文。
[DeviceD-security-policy-ip] rule name nqalocalout
[DeviceD-security-policy-ip-3-nqalocalout] source-zone local
[DeviceD-security-policy-ip-3-nqalocalout] destination-zone untrust
[DeviceD-security-policy-ip-3-nqalocalout] service ping
[DeviceD-security-policy-ip-3-nqalocalout] action pass
[DeviceD-security-policy-ip-3-nqalocalout] quit
# 配置名称为nqalocalin的安全策规则,使DeviceD可以接收和处理DeviceA发来的NQA探测报文。
[DeviceD-security-policy-ip] rule name nqalocalin
[DeviceD-security-policy-ip-4-nqalocalin] source-zone untrust
[DeviceD-security-policy-ip-4-nqalocalin] destination-zone local
[DeviceD-security-policy-ip-4-nqalocalin] service ping
[DeviceD-security-policy-ip-4-nqalocalin] action pass
[DeviceD-security-policy-ip-4-nqalocalin] quit
[DeviceD-security-policy-ip] quit
(5) 创建NQA测试组,检测Device D-Device B-Device A这条路径的连通性。
[DeviceD] nqa entry admin test
[DeviceD-nqa-admin-test] type icmp-echo
[DeviceD-nqa-admin-test-icmp-echo] destination ip 10.1.1.1
[DeviceD-nqa-admin-test-icmp-echo] next-hop ip 10.2.1.2
[DeviceD-nqa-admin-test-icmp-echo] frequency 100
[DeviceD-nqa-admin-test-icmp-echo] reaction 1 checked-element probe-fail threshold-type consecutive 5 action-type trigger-only
[DeviceD-nqa-admin-test-icmp-echo] quit
[DeviceD] nqa schedule admin test start-time now lifetime forever
(6) 配置Track项1与NQA测试组关联。
[DeviceD] track 1 nqa entry admin test reaction 1
[DeviceD-track-1] quit
7. 验证配置
# 显示Device A上Track项的信息。
[DeviceA] display track all
Track ID: 1
State: Positive
Duration: 0 days 0 hours 0 minutes 32 seconds
Tracked object type: NQA
Notification delay: Positive 0, Negative 0 (in seconds)
Tracked object:
NQA entry: admin test
Reaction: 1
Remote IP/URL: 10.2.1.4
Local IP:--
Interface:--
# 显示Device A的路由表。
[DeviceA] display ip routing-table
Destinations : 10 Routes : 10
Destination/Mask Proto Pre Cost NextHop Interface
10.1.1.0/24 Direct 0 0 10.1.1.1 GE1/0/1
10.1.1.1/32 Direct 0 0 127.0.0.1 InLoop0
10.2.1.0/24 Static 60 0 10.1.1.2 GE1/0/1
10.3.1.0/24 Direct 0 0 10.3.1.1 GE1/0/2
10.3.1.1/32 Direct 0 0 127.0.0.1 InLoop0
30.1.1.0/24 Static 60 0 10.1.1.2 GE1/0/1
127.0.0.0/8 Direct 0 0 127.0.0.1 InLoop0
127.0.0.1/32 Direct 0 0 127.0.0.1 InLoop0
以上显示信息表示,NQA测试的结果为主路由可达(Track项状态为Positive),Device A通过Device B将报文转发到30.1.1.0/24网段。
# 在Device B上删除接口GigabitEthernet1/0/1的IP地址。
<DeviceB> system-view
[DeviceB] interface gigabitethernet 1/0/1
[DeviceB-GigabitEthernet1/0/1] undo ip address
# 显示Device A上Track项的信息。
[DeviceA] display track all
Track ID: 1
State: Negative
Duration: 0 days 0 hours 0 minutes 32 seconds
Tracked object type: NQA
Notification delay: Positive 0, Negative 0 (in seconds)
Tracked object:
NQA entry: admin test
Reaction: 1
Remote IP/URL: 10.2.1.4
Local IP:--
Interface:--
# 显示Device A的路由表。
[DeviceA] display ip routing-table
Destinations : 10 Routes : 10
Destination/Mask Proto Pre Cost NextHop Interface
10.1.1.0/24 Direct 0 0 10.1.1.1 GE1/0/1
10.1.1.1/32 Direct 0 0 127.0.0.1 InLoop0
10.2.1.0/24 Static 60 0 10.1.1.2 GE1/0/1
10.3.1.0/24 Direct 0 0 10.3.1.1 GE1/0/2
10.3.1.1/32 Direct 0 0 127.0.0.1 InLoop0
30.1.1.0/24 Static 80 0 10.3.1.3 GE1/0/2
127.0.0.0/8 Direct 0 0 127.0.0.1 InLoop0
127.0.0.1/32 Direct 0 0 127.0.0.1 InLoop0
以上显示信息表示,NQA测试的结果为主路由不可达(Track项状态为Negative),则备份路由生效,Device A通过Device C将报文转发到30.1.1.0/24网段。
# 主路由出现故障后,
[DeviceA] ping -a
Ping 30.1.1.1: 56 data bytes, press CTRL_C to break
Reply from 30.1.1.1: bytes=56 Sequence=1 ttl=254 time=2 ms
Reply from 30.1.1.1: bytes=56 Sequence=2 ttl=254 time=1 ms
Reply from 30.1.1.1: bytes=56 Sequence=3 ttl=254 time=1 ms
Reply from 30.1.1.1: bytes=56 Sequence=4 ttl=254 time=2 ms
Reply from 30.1.1.1: bytes=56 Sequence=5 ttl=254 time=1 ms
--- Ping statistics for 30.1.1.1 ---
5 packet(s) transmitted, 5 packet(s) received, 0.00% packet loss
round-trip min/avg/max/std-dev = 1/1/2/1 ms
# Device D上的显示信息与Device A类似。主路由出现故障后,30.1.1.0/24网段内的主机仍然可以与
[DeviceD] ping -a 30.1.1.1
Ping
Reply from
Reply from
Reply from
Reply from
Reply from
--- Ping statistics for
5 packet(s) transmitted, 5 packet(s) received, 0.00% packet loss
round-trip min/avg/max/std-dev = 1/1/2/1 ms
7小时前回答能实现 out链路负载嘛
丁冉无法实现负载均衡的效果啊
丁冉使用防火墙自带的负载均衡功能
7小时前回答两链路是pppoe的拨号 没法设置链路
丁冉你正在,pppoe拨号 上网出口链路负载 如何实现???
