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ISDN. Semester 4, Chapter 5. Table of Contents. Go There!. ISDN & The OSI Model. Go There!. ISDN Common Uses. Go There!. Configuring ISDN. Go There!. Dial-On-Demand Routing. ISDN & The OSI Model. Table of Contents. End Slide Show. What is ISDN?.
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ISDN Semester 4, Chapter 5
Table of Contents Go There! ISDN & The OSI Model Go There! ISDN Common Uses Go There! Configuring ISDN Go There! Dial-On-Demand Routing
ISDN & The OSI Model Table of Contents End Slide Show
What is ISDN? • Integrated Services Digital Networks allow digital signals to be transmitted over existing phone lines. • Provides connectivity for remote sites without the added expense of a leased line (e.g. T1) • ISDN has the following benefits: • Can carry voice, video, and data on B Channel • Faster call setup than modems (sometimes < 1 sec.) usingthe out-of-band D (or Delta) channel • Offers faster data transfer using the B (or Bearer) channels at 64kbps (2B+D=144kbps)
BRI versus PRI • Basic Rate Interface ISDN uses 2 Bearer channels at 64kbps ea. & a 16 kbps Delta channel for signaling.(2B+D) • Users get 128kbps although the link is really 144kbps plus • When not using voice communications, both B channels are available for data. • Primary Rate Interface ISDN uses 23 Bearer channels at 64kbps ea. & a 64kbps Delta channel for signaling • Also called a digital T1 because the total bandwidth is 1.544Mbps
Basic ISDN Components • The capabilities of Customer Premise Equipment varies. • Therefore, different types of equipment exist to provide virtually any user the ability to access the ISDN local loop. • Two questions to ask when determining the needed equipment: • Does my current equipment support ISDN? • Do I need to attach multiple devices to a single ISDN connection? • With those two questions in mind, let’s investigate the options.
Basic ISDN Components • Is device ISDN compatible? • “Yes, my device is compatible with ISDN.” • Then you have a Terminal Equipment Type 1 device (TE1) • “No, my device is not compatible with ISDN.” • Then you have a Terminal Equipment Type 2 device (TE2) and will require a Terminal Adapter (TA) to convert the electrical signals to ISDN • Connect multiple devices or a single device? • “No, I’m only connecting my computer.” • Then you only need a Network Termination 1 (NT1) to convert the 2-wire incoming phone line to 4-wire • “Yes, I’m connecting multiple devices.” • Then you also need a Network Termination 2 (NT2) to provide switching functions before attaching to the NT1. • With the answers in mind, let’s look at a graphic.
T interface BRI Local Loop S interface Basic ISDN Components • Notice, we’re using a NT2 to connect all devices to the NT1 • The NT1 is used to terminate the BRI local loop at the customer premise & convert 2-wire to 4-wire. • Notice also that the TE2 must have a TA since it is not compatible with ISDN. • The Reference Points (R,S,T,U) define the interface for connecting between the different devices.
S/T interface requires an NT1 connection. Cisco Interfaces • In the United States, the customer is required to provide the NT1. • In Europe and various other countries, the telephone company provides the NT1 function and presents an S/T interface to the customer.
Configuring ISDN interface Router(config)#interface bri number Router(config-if)# If the router is a TE2 device, which does not have a native BRI, it must use an external ISDN terminal adapter. On a TE2 router, configure the appropriate serial interface to send the ISDN traffic to the TA. Terminal Adapter
ISDN Switches & SPIDs • You must configure the router for the switch type your provider is using for ISDN service (Similar to configuring dial-up service for the right modem). • In addition, you must know the Service Profile Identifier (SPID) your ISP is using to identify you and configure your line. • SPIDs vary in length depending on the provider. They are usually some combination of the phone number and optional numbers • For example: • Phone Number: (510) 555-1234 • SPID: 51055512340001
ISDN Encapsulations • If you do not configure a data link layer encapsulation, ISDN will use the default HDLC. • However, PPP is the preferred method of encapsulating across ISDN links because… • PAP/CHAP Authentication • Link quality determination through LCPs • and other options available through PPP
ISDN Common Uses Table of Contents End Slide Show
Common Uses for ISDN: SOHO • Some of the characteristics of ISDN SOHOs include: • Support a limited number of simultaneous users • Use DHCP or NAT so only one outside IP address is needed • Save the cost of using dedicate connections such as a T1 by only using dialup connections.
Configuring ISDN Table of Contents End Slide Show
Summary of Configuration Tasks • The following assumes all normal global and interface configuration is complete. • Global: Router(config)# • Select your ISP’s switch type • Specify traffic to trigger DDR calls (“interesting traffic”) • Interface: Router(config-if)# • Select interface specifications • Configure ISDN addressing • Optional Configurations
Global: Switch Type • Since switch signaling differs across switch types, you must specify the switch type • Our Adtran unit is a “basic-ni” (There are about 10 switch types.) • Use the command isdn switch-type nnnn Router#config t Router(config)#isdn switch-type basic-ni ! !This command can also be entered on the interface ! Router(config)#int bri0 Router(config-if)#isdn switch-type basic-ni
Interface: SPIDs • SPIDs allow multiple ISDN devices, such as voice and data, to share the local loop. . SPIDs are obtained from your service provider. • To keep them simple, SPIDs are usually some combination of the phone number plus some optional numbers (and a Local Directory Number [LDN], if necessary) • The SPID commands for each B channel are: Router(config-if)#isdn spid1 spid-number [ldn] Router(config-if)#isdn spid2 spid-number [ldn] Router(config)#int bri0 Router(config-if)#isdn spid1 51055512340001 5551234 Router(config-if)#isdn spid2 51055512350001 5551235
Interface: Encapsulation • PPP is, by far, the most favored of the encapsulations on ISDN links because of its capabilities. • Since HDLC is on by default, you must configure PPP • The configuration steps are the same as we studied in Ch. 4 – PPP. • NOTE: The username name password password command must be entered in global configuration mode in order to make CHAP authenticate. Router(config-if)#encap ppp Router(config-if)#ppp authentication chap
Dial-On-Demand Routing Table of Contents End Slide Show
DDR Overview • A major benefit of using an ISDN link instead of a dedicated link is its significant savings in bandwidth costs. • Connections are initiated by remote offices and telecommuters on an as-needed basis. • Since the call setup time is significantly reduced compared to traditional analog modems, the user rarely experiences a delay. • When services are no longer needed (the user times out), the call is terminated. • However, interesting traffic must be defined and filtered. Otherwise, unexpected protocols (e.g. routing updates) could cause the router to dial continuously even when the network is not in use.
DDR Configuration • Four steps: • Define what is “interesting traffic” • Assign interesting traffic definition to ISDN • Define destination • Define call parameters
DDR: Interesting Traffic • Defining “interesting traffic” involves specifying what types of packets will initiate a call. • Use the dialer-list command in global configuration mode. • The command structure, similar to ACLs, is as follows: dialer-list dialer-group-number protocol protocol-name {permit | deny} • For example, you want IP traffic to initiate calls. Router(config)#dialer-list 1 protocol ip permit
DDR: Interesting Traffic • The simple form of the dialer-list command specifies whether a whole protocol suite, such as IP is permitted to trigger a call. • The more complex form of the command references an access list, allowing finer control of the definition of interesting traffic. • When a dialer-list command is used in conjunction with the access list, the access-list command specifies interesting traffic that initiates a DDR call. • By referencing an access list to specify interesting traffic , you have granular control of which protocols, sources, and destinations are worthy of bringing up a link.
DDR: Defining Interesting Traffic • Router(config) dialer-listdialer-grouplistaccess-list-number . • The following configuration commands permits a single host to initiate DDR: • RTA(config) access-list 24 permit host 192.168.1.2 • RTA(config) dialer-list 1 list 24
DDR: Assign Interesting Traffic • Once the dialer-list is created, it needs to be assigned to the interface responsible for initiating the call. • The command structure is: dialer-group dialer-group-number Router(config)#int bri0 Router(config-if)dialer-group 1
DDR: Define Destination • Now configure the interface with all the parameters necessary to reach the destination • With the dialer-map command, we are “mapping” (or bundling) Layer 3 addressing with Layer 2 addressing. • In our example: • Layer 3: IP address • Layer 2: LDN • The command structure is: Router(config-if)#dialer map protocol next-hop-address [name hostname] dial-string • dial-string is the ldn of the next hop address • [name hostname]is the hostname of the connected router Router(config-if)dialer map ip 172.16.20.1 name Lab-A 5551234
Multi dialer Maps on a DDR Interface • Ip route 172.10.10.0 255.255.255.0 10.1.1.2 • Ip route 172.10.11.0 255.255.255.0 10.1.1.3 • Ip route 172.10.12.0 255.255.255.0 10.1.1.4 • Dialer map ip 10.1.1.2 name SOHO1 5551212 • Dialer map ip 10.1.1.3 name SOHO2 5551213 • Dialer map ip 10.1.1.4 name SOHO3 5551214
DDR: Passive Interface/Static Routes • When configuring your routing protocol, you want to stop routing updates from going across your ISDN link. Why? • However in order to connect to networks beyond the next hop network, you must enter a static route.
Using ACLs To Prevent RIP From Bringing Up a DDR Interface • The following configuration is done at the Central Router end: • (config)# access list 101 deny udp any any eq rip • (config)#access list 101 permit ip any any • (config) dialer-list 1 list 101 • (config)#int bri0 • (config-if) dialer group 1
Defining Optional Call Parameters • Dial-up connections are subject to an idle timer, which keeps track of how much time has passed since interesting traffic was routed out the interface. By default, the idle-timeout is set to 120 seconds. • Router(config-if)#dialer idle-timeoutseconds • When the router is waiting to use a line to make another call, it uses a more aggressive idle timeout called fast-idle. The fast-idle time is the number of seconds that a line can remain idle before the current call is disconnected to allow another call that is waiting to use the line. • Router(config-if)#dialer idle-timeout 60Router(config-if)#dialer fast-idle 15
Defining Optional Call Parameters • The dialer load-threshold command is used to specify the interface load at which the router will initiate another call to the destination. This command is typically used with Multi-link PPP
Multi Link PPP • MLP provides the following: • load balancing over multiple WAN links • Packet fragmentation, proper sequencing • Load calculation on both inbound and outbound traffic
Configuring The BRI Interface To Forward Incoming Voice Calls • (config-if) ISDN incoming-voice modem • Switch to dial-peer sub configuration mode: • Dial-peer voice 1 pots • (config-dial-peer) port 1 • (config-dial-peer) destination-pattern 5551234
Verifying ISDN Operation • To confirm ISDN is up and running, use the command show isdn status • To see an ISDN call in progress and the number called…. • First, ping the destination to activate the link. • Then, use the command show isdn active to see information about the call
Verifying ISDN Operation #show int bri 0 • Spoofing is necessary because the router removes a route from it routing table if the route points to a "down" interface.
Show ISDN Status Command • This command displays ISDN status information for Layer 1, Layer 2, and Layer 3.
Verifying PPP Multilink As soon as you configure a BRI interface with the ppp multilink command, the router will create a virtual interface called a virtual access interface
Verifying PPP Multilink The output of this command displays which links are members of the bundle
Verifying PPP Multilink • The debug dialer command indicates whether the multilink is up after authentication, and also indicates when the overload occurs. • The debug ppp multilink command displays packet sequence numbers. It is useful only as a last resort because it does not help troubleshoot when connections are not being bundled.
ISDN Debug Commands Identification Assignment Identification Request Action Indicator Set Asynchronous Balanced Mode Extended