评分并提供意见反馈 :
华为采用机器翻译与人工审校相结合的方式将此文档翻译成不同语言,希望能帮助您更容易理解此文档的内容。 请注意:即使是最好的机器翻译,其准确度也不及专业翻译人员的水平。 华为对于翻译的准确性不承担任何责任,并建议您参考英文文档(已提供链接)。
配置iPCA实现区域网络的丢包统计示例
组网需求
在图5-20所示的网络中,企业在广域网租用了运营商专线用于总部与分支间某重要业务数据流(源地址网段为10.1.1.0/24,目的地址网段为10.2.0.0/16)的传输。由于租用专线的费用昂贵且经过了运营商专线网络大量的公用路由交换设备,用户希望能够及时获取租用专线网络的丢包数据,以促进运营商提供物有所值的专线服务。
配置思路
采用如下的思路配置对租用专线网络的丢包统计:
将在专线中传输的企业的重要业务数据流(源地址网段为10.1.1.0/24,目的地址网段为10.2.0.0/16)做为目标流,该业务流是一条单向的业务流。
各分支的出口设备Switch_1和Switch_2作为DCP,其接口GE1/0/1作为目标流经过的接口与DCP的Out-Point Ingress TLP进行绑定。Switch_1和Switch_2作为DCP,分别定义统计实例1汇总各自TLP收集到的目标流统计数据。
总部的出口设备Switch_3作为DCP,其接口GE1/0/1作为目标流经过的接口与DCP的In-Point Egress TLP进行绑定。Switch_3作为DCP定义统计实例1其TLP收集到的目标流统计数据。
企业总部网管中心的交换机Switch_4作为MCP,收集并汇总各个DCP收集到的统计数据,当目标流的丢包率超出5%时触发丢包率超限告警,当丢包率低于3%触发丢包率超限恢复告警。
DCP上染色位、统计周期和UDP端口号等均使用缺省值。
配置iPCA实现区域网络的丢包统计前,请先保证已配置静态或者动态路由协议,实现Switch_1、Switch_2、Switch_3和Switch_4在网络层互通。各个交换机的DCP ID或MCP ID必须为各个交换机上实际存在的IP地址,且彼此之间路由可达。
配置iPCA实现区域网络的丢包统计前,请先保证已经配置NTP协议,实现Switch_1、Switch_2和Switch_3的时间同步。
操作步骤
- 配置Switch_1作为DCP1,10.10.1.1为Switch_1的Router ID,其测量点TLP的编号为1。
<Quidway> system-view [Quidway] sysname Switch_1 [Switch_1] nqa ipfpm dcp [Switch_1-nqa-ipfpm-dcp] dcp id 10.10.1.1 [Switch_1-nqa-ipfpm-dcp] instance 1 [Switch_1-nqa-ipfpm-dcp-instance-1] mcp 10.10.4.1 [Switch_1-nqa-ipfpm-dcp-instance-1] flow forward source 10.1.1.0 24 destination 10.2.0.0 16 [Switch_1-nqa-ipfpm-dcp-instance-1] tlp 1 out-point ingress [Switch_1-nqa-ipfpm-dcp-instance-1] quit [Switch_1-nqa-ipfpm-dcp] quit [Switch_1] interface gigabitethernet 1/0/1 [Switch_1-GigabitEthernet1/0/1] ipfpm tlp 1 [Switch_1-GigabitEthernet1/0/1] quit [Switch_1] nqa ipfpm dcp [Switch_1-nqa-ipfpm-dcp] instance 1 [Switch_1-nqa-ipfpm-dcp-instance-1] loss-measure enable continual [Switch_1-nqa-ipfpm-dcp-instance-1] quit [Switch_1-nqa-ipfpm-dcp] quit
- 配置Switch_2作为DCP2,10.10.2.1为Switch_2的Router ID,其测量点TLP的编号为2。
<Quidway> system-view [Quidway] sysname Switch_2 [Switch_2] nqa ipfpm dcp [Switch_2-nqa-ipfpm-dcp] dcp id 10.10.2.1 [Switch_2-nqa-ipfpm-dcp] instance 1 [Switch_2-nqa-ipfpm-dcp-instance-1] mcp 10.10.4.1 [Switch_2-nqa-ipfpm-dcp-instance-1] flow forward source 10.1.1.0 24 destination 10.2.0.0 16 [Switch_2-nqa-ipfpm-dcp-instance-1] tlp 2 out-point ingress [Switch_2-nqa-ipfpm-dcp-instance-1] quit [Switch_2-nqa-ipfpm-dcp] quit [Switch_2] interface gigabitethernet 1/0/1 [Switch_2-GigabitEthernet1/0/1] ipfpm tlp 2 [Switch_2-GigabitEthernet1/0/1] quit [Switch_2] nqa ipfpm dcp [Switch_2-nqa-ipfpm-dcp] instance 1 [Switch_2-nqa-ipfpm-dcp-instance-1] loss-measure enable continual [Switch_2-nqa-ipfpm-dcp-instance-1] quit [Switch_2-nqa-ipfpm-dcp] quit
- 配置Switch_3作为DCP3,10.10.3.1为Switch_3的Router ID,其测量点TLP的编号为3。
<Quidway> system-view [Quidway] sysname Switch_3 [Switch_3] nqa ipfpm dcp [Switch_3-nqa-ipfpm-dcp] dcp id 10.10.3.1 [Switch_3-nqa-ipfpm-dcp] instance 1 [Switch_3-nqa-ipfpm-dcp-instance-1] mcp 10.10.4.1 [Switch_3-nqa-ipfpm-dcp-instance-1] flow forward source 10.1.1.0 24 destination 10.2.0.0 16 [Switch_3-nqa-ipfpm-dcp-instance-1] tlp 3 in-point egress [Switch_3-nqa-ipfpm-dcp-instance-1] quit [Switch_3-nqa-ipfpm-dcp] quit [Switch_3] interface gigabitethernet 1/0/1 [Switch_3-GigabitEthernet1/0/1] ipfpm tlp 3 [Switch_3-GigabitEthernet1/0/1] quit [Switch_3] nqa ipfpm dcp [Switch_3-nqa-ipfpm-dcp] instance 1 [Switch_3-nqa-ipfpm-dcp-instance-1] loss-measure enable continual [Switch_3-nqa-ipfpm-dcp-instance-1] quit [Switch_3-nqa-ipfpm-dcp] quit
- 配置Switch_4作为MCP,10.10.4.1为Switch_4的Router ID。
<Quidway> system-view [Quidway] sysname Switch_4 [Switch_4] nqa ipfpm mcp [Switch_4-nqa-ipfpm-mcp] mcp id 10.10.4.1 [Switch_4-nqa-ipfpm-mcp] instance 1 [Switch_4-nqa-ipfpm-mcp-instance-1] dcp 10.10.1.1 [Switch_4-nqa-ipfpm-mcp-instance-1] dcp 10.10.2.1 [Switch_4-nqa-ipfpm-mcp-instance-1] dcp 10.10.3.1 [Switch_4-nqa-ipfpm-mcp-instance-1] loss-measure ratio-threshold upper-limit 5 lower-limit 3 [Switch_4-nqa-ipfpm-mcp-instance-1] quit [Switch_4-nqa-ipfpm-mcp] quit [Switch_4] quit
- 检查配置结果。
# 在作为MCP的Switch_4上执行display ipfpm statistic-type loss instance 1查看丢包统计结果。
<Switch_4> display ipfpm statistic-type loss instance 1 Latest loss statistics of forward flow: Unit: p - packet, b - byte ------------------------------------------------------------------------------------------ Period Loss(p) LossRatio(p) Loss(b) LossRatio(b) ------------------------------------------------------------------------------------------ 127636768 381549 4.514649% 40444194 4.514649% 127636767 381528 4.514620% 40441968 4.514620% 127636766 381318 4.514996% 40419708 4.514996% 127636765 381192 4.514686% 40406352 4.514686% 127636764 381381 4.514679% 40426386 4.514679% 127636763 381402 4.514748% 40428612 4.514748% 127636762 381081 4.514797% 40394586 4.514797% 127636761 381324 4.514702% 40420344 4.514702% 127636760 381549 4.514870% 40444194 4.514870% 127636759 381066 4.514638% 40392996 4.514638% 127636758 381570 4.514836% 40446420 4.514836% 127636757 382452 4.514757% 40539912 4.514757% Latest loss statistics of backward flow: Unit: p - packet, b - byte ------------------------------------------------------------------------------------------ Period Loss(p) LossRatio(p) Loss(b) LossRatio(b) ------------------------------------------------------------------------------------------
配置文件
Switch_1的配置文件
# sysname Switch_1 # interface GigabitEthernet1/0/1 ipfpm tlp 1 # nqa ipfpm dcp dcp id 10.10.1.1 instance 1 mcp 10.10.4.1 flow forward source 10.1.1.0 24 destination 10.2.0.0 16 tlp 1 out-point ingress loss-measure enable continual # return
Switch_2的配置文件
# sysname Switch_2 # interface GigabitEthernet1/0/1 ipfpm tlp 2 # nqa ipfpm dcp dcp id 10.10.2.1 instance 1 mcp 10.10.4.1 flow forward source 10.1.1.0 24 destination 10.2.0.0 16 tlp 2 out-point ingress loss-measure enable continual # return
Switch_3的配置文件
# sysname Switch_3 # interface GigabitEthernet1/0/1 ipfpm tlp 3 # nqa ipfpm dcp dcp id 10.10.3.1 instance 1 mcp 10.10.4.1 flow forward source 10.1.1.0 24 destination 10.2.0.0 16 tlp 3 in-point egress loss-measure enable continual # return
Switch_4的配置文件
# sysname Switch_4 # nqa ipfpm mcp mcp id 10.10.4.1 instance 1 dcp 10.10.1.1 dcp 10.10.2.1 dcp 10.10.3.1 loss-measure ratio-threshold upper-limit 5.000000 lower-limit 3.000000 # return
