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1、帧中继Frame Relay,深圳职业技术学院计算机系网络专业,教学目标(Objectives),1.帧中继概念(Frame Relay Concept)2.帧中继术语(Frame Relay Terminology)3.帧中继地址映射(Frame Relay Address Mapping)4.LMI操作(LMI Operation)5.帧中继反向ARP(Frame Relay Inverse ARP)6.配置基本的帧中继(Configuring Basic Frame Relay)7.配置帧中继子接口(Configuring Frame Relay Subinterfaces),帧中继预览
2、(Frame Relay Overview),帧中继用虚电路为面向连接的服务建立连接Virtual circuits make connections for Connection-oriented service,帧中继工作在这里Frame Relay works here.,DCE or FrameRelay Switch,CSU/DSU,帧中继协议族(Frame Relay Stack),OSI Reference Model,Frame Relay,Physical,Presentation,Session,Transport,Network,Data Link,Application
3、,EIA/TIA-232,EIA/TIA-449,V.35,X.21,EIA/TIA-530,Frame Relay,IP/IPX/AppleTalk,etc.,帧中继工作在OSI参考模型的物理层和数据链路层Frame Relay operate physical and datalink layer.,帧中继术语(Frame Relay Terminology),LocalAccessLoop=T1,Local AccessLoop=64 kbps,Local AccessLoop=64 kbps,DLCI:400,PVC,DLCI:500,LMI100=Active400=Active,D
4、LCI:200,DLCI:100,PVC,帧中继术语(Frame Relay Terminology),1.访问速率(Access rate):连接本地环到帧中继的端口速度。The clock speed(port speed)of the connection(local loop)to the Frame Relay cloud.2.数据链路连接标识(DLCI):在源和目的设备之间标识逻辑电路的一个数值。A number that identifies the end point in a Frame Relay network.3.本地管理接口(LMI);是客户前端设备和帧中继交换机之间
5、的信令标准,负责管理设备之间的连接、维护设备之间的连接状态。A signaling standard between the customer premises equipment(CPE)device and the Frame Relay switch that is responsible for managing the connection and maintaining status between the devices 4.承诺信息速率(CIR):ISP提供的有保障的速率。The guaranteed rate,in bits per second,which the serv
6、ice provider commits to providing.,帧中继术语(Frame Relay Terminology),5.前向显示拥塞通知(FECN):当网络发生拥塞的时候,向目的设备发送一个FECN数据包,来通知拥塞。A bit set in a frame that notifies a DTE that congestion avoidance procedures should be initiated by the sending device 6.后向显示拥塞通知(BECN):当网络发生拥塞的时候,向源路由器发送一个BECN数据包,来通知拥塞。同时按25%的比例降低数
7、据报发送速率。A bit set in a frame that notifies a DTE that congestion avoidance procedures should be initiated by the sending device.If the router receives any BECNs during the current time interval,it decreases the transmit rate by 25%.7.允许丢弃指示器(DE):当路由器检测到拥塞时,帧中继交换机将会首先丢弃那些DE位设置为1的数据包。A set bit that ind
8、icates the frame may be discarded in preference to other frames if congestion occurs.,CSU/DSU,帧中继地址映射(Frame Relay Address Mapping),从ISP获得本地意义的DLCI号码Get locally significant DLCIs from provider 把网络地址映射到DLCIMap your network addresses to DLCIs,DLCI:500,PVC,10.1.1.1,Inverse ARP orFrame Relay map,IP(10.1.
9、1.1),FrameRelay,DLCI(500),LMI类型(LMI TYPES),Cisco 支持三种类型的LMI标准Cisco supports three LMI standards:Cisco(默认)ANSI Q.933*在路由器上配置的LMI类型必须和SP提供的匹配。*LMI type configured on the router must match the type used by the service provider.,DLCI:400,PVC,Keepalive,CSU/DSU,DLCI:500,PVC,10.1.1.1,x,LMI500=Active400=Ina
10、ctive,帧中继反向ARP(Frame Relay Inverse ARP),Frame RelayCloud,1,DLCI=100,DLCI=400,172.168.5.5,172.168.5.7,帧中继反向ARP(Frame Relay Inverse ARP),2,Status Inquiry,2,Status Inquiry,Frame RelayCloud,1,DLCI=100,DLCI=400,172.168.5.5,172.168.5.7,帧中继反向ARP(Frame Relay Inverse ARP),3,Local DLCI 100=Active,4,Local DLCI
11、 400=Active,2,Status Inquiry,2,Status Inquiry,Frame RelayCloud,1,DLCI=100,DLCI=400,3,172.168.5.5,172.168.5.7,帧中继反向ARP(Frame Relay Inverse ARP),4,Hello,I am 172.168.5.5.,3,Local DLCI 100=Active,4,Local DLCI 400=Active,2,Status Inquiry,2,Status Inquiry,Frame RelayCloud,1,DLCI=100,DLCI=400,3,172.168.5.
12、5,172.168.5.7,帧中继反向ARP(Frame Relay Inverse ARP),Hello,I am 172.168.5.7.,4,5,Frame Relay Map172.168.5.5 DLCI 400 Active,Frame RelayCloud,DLCI=100,DLCI=400,Frame Relay Map172.168.5.7 DLCI 100 Active,5,172.168.5.5,172.168.5.7,帧中继反向ARP(Frame Relay Inverse ARP),Hello,I am 172.168.5.7.,4,5,Frame Relay Map
13、172.168.5.5 DLCI 400 Active,Frame RelayCloud,DLCI=100,DLCI=400,Frame Relay Map172.168.5.7 DLCI 100 Active,5,Hello,I am 172.168.5.5.,6,172.168.5.5,172.168.5.7,帧中继反向ARP(Frame Relay Inverse ARP),Keepalives,Keepalives,Hello,I am 172.168.5.7.,4,5,Frame Relay Map172.168.5.5 DLCI 400 Active,Frame RelayClou
14、d,DLCI=100,DLCI=400,Frame Relay Map172.168.5.7 DLCI 100 Active,5,Hello,I am 172.168.5.5.,6,7,7,172.168.5.5,172.168.5.7,interface Serial10/1 ip address 10.16.0.1 255.255.255.0 encapsulation frame-relay bandwidth 64Frame-relay lmi-type cisco,interface Serial0/1 ip address 10.16.0.2 255.255.255.0 encap
15、sulation frame-relay bandwidth 64 frame-relay lmi-type cisco,HQ,Branch,配置基本的帧中继(Configuring Basic Frame Relay),反向ARP默认被启动Inverse ARP is enabled by default,DLCI=110IP address=10.16.0.1/24,p1r1,DLCI=100IP address=10.16.0.2/24,interface Serial1ip address 10.16.0.1 255.255.255.0encapsulation frame-relay
16、bandwidth 64frame-relay map ip 10.16.0.2 110 broadcast,HQ,Branch,配置帧中继静态映射(Configuring a Static Frame Relay Map),验证帧中继配置(Verifying Frame Relay Operation),Router#show interface s0/0Serial0 is up,line protocol is up Hardware is HD64570 Internet address is 10.140.1.2/24 MTU 1500 bytes,BW 1544 Kbit,DLY
17、20000 usec,rely 255/255,load 1/255 Encapsulation FRAME-RELAY,loopback not set,keepalive set(10 sec)LMI enq sent 19,LMI stat recvd 20,LMI upd recvd 0,DTE LMI up LMI enq recvd 0,LMI stat sent 0,LMI upd sent 0 LMI DLCI 1023 LMI type is CISCO frame relay DTE FR SVC disabled,LAPF state down Broadcast que
18、ue 0/64,broadcasts sent/dropped 8/0,interface broadcasts 5 Last input 00:00:02,output 00:00:02,output hang never Last clearing of show interface counters never Queueing strategy:fifo Output queue 0/40,0 drops;input queue 0/75,0 drops,show frame-relay lmi:命令显示LMI信息show frame-relay lmi:Displays LMI in
19、formation,Router#show frame-relay lmi LMI Statistics for interface Serial0(Frame Relay DTE)LMI TYPE=CISCO Invalid Unnumbered info 0 Invalid Prot Disc 0 Invalid dummy Call Ref 0 Invalid Msg Type 0 Invalid Status Message 0 Invalid Lock Shift 0 Invalid Information ID 0 Invalid Report IE Len 0 Invalid R
20、eport Request 0 Invalid Keep IE Len 0 Num Status Enq.Sent 113100 Num Status msgs Rcvd 113100 Num Update Status Rcvd 0 Num Status Timeouts 0,验证帧中继配置(Verifying Frame Relay Operation),show frame-relay pvc 100:显示PVC状态信息show frame-relay pvc 100:Displays PVC traffic statistics,验证帧中继配置(Verifying Frame Rela
21、y Operation),Router#show frame-relay pvc 100PVC Statistics for interface Serial0(Frame Relay DTE)DLCI=100,DLCI USAGE=LOCAL,PVC STATUS=ACTIVE,INTERFACE=Serial0 input pkts 28 output pkts 10 in bytes 8398 out bytes 1198 dropped pkts 0 in FECN pkts 0 in BECN pkts 0 out FECN pkts 0 out BECN pkts 0 in DE
22、pkts 0 out DE pkts 0 out bcast pkts 10 out bcast bytes 1198 pvc create time 00:03:46,last time pvc status changed 00:03:47,show frame-relay map:显示帧中继映射信息,包括静态或动态show frame-relay map:Displays the route maps,either static or dynamic,Router#show frame-relay mapSerial0(up):ip 10.140.1.1 dlci 100(0 x64,0
23、 x1840),dynamic,broadcast,status defined,active,验证帧中继配置(Verifying Frame Relay Operation),问题:广播流量必须被发送到每一条PVCProblem:Broadcast traffic must be replicated for each pvc,RoutingUpdate,A,C,B,路由更新的可达性问题(Reachability Issues with Routing Updates),B,C,D,A,解决可达性问题(Resolving Reachability Issues),方案(Solution):在
24、NBMA环境下,存在水平分割的问题Split horizon can cause problems in NBMA environments子接口可以解决水平分割的问题Subinterfaces can resolve split horizon issues一个单一的物理接口模拟多个逻辑接口A single physical interface simulates multiple logical interfaces,Subnet A,Subnet B,Subnet C,S0,PhysicalInterface,Logical Interface,配置子接口(Configuring Sub
25、interfaces),点到点(Point-to-Point)子接口充当专线Subinterfaces act as leased line 每一个子接口有自己的子网Each point-to-point subinterface requires its own subnet 应用在hub and spoke 拓扑中Applicable to hub and spoke topologies,配置子接口(Configuring Subinterfaces),多点(Multipoint)向NBMA网络一样,不能解决水平分割的问题Subinterfaces act as NBMA network
26、 so they do not resolve the split horizon issue使用同一子网,可以节省地址空间Can save address space because uses single subnet应用在partial-mesh 和 full-mesh 拓扑中Applicable to partial-mesh and full-mesh topology,A,10.17.0.1s0.2,B,配置点到点子接口实例(Configuring Point-to-Point Subinterfaces Example),interface Serial0 no ip addre
27、ss encapsulation frame-relay!interface Serial0.2 point-to-point ip address 10.17.0.1 255.255.255.0bandwidth 64 frame-relay interface-dlci 110!interface Serial0.3 point-to-point ip address 10.18.0.1 255.255.255.0bandwidth 64 frame-relay interface-dlci 120!,s0.310.18.0.1,C,10.17.0.2,10.18.0.2,DLCI=110
28、,DLCI=120,interface Serial2 no ip address encapsulation frame-relay!interface Serial2.2 multipoint ip address 10.17.0.1 255.255.255.0bandwidth 64 frame-relay map ip 10.17.0.2 120 broadcast frame-relay map ip 10.17.0.3 130 broadcast frame-relay map ip 10.17.0.4 140 broadcast,s2.1=10.17.0.2/24,s2.2=10.17.0.1/24,s2.1=10.17.0.4/24,s2.1=10.17.0.3/24,RTR1,B,RTR3,RTR4,配置多点子接口实例(Multipoint Subinterfaces Configuration Example),DLCI=120,DLCI=130,DLCI=140,思考题(Questions),1.什么是帧中继?2.什么是DLCI?它是局部意义还是全局意义?3.LMI有几种类型?4.FECN和BECN的区别是什么?5.如何查看帧中继PVC的状态?6.如何建立一条帧中继的交换记录?,
