Posts Tagged ‘12933’
Cisco CCNP / BCMSN Exam Tutorial: Static VLANs
April 9th, 2012 | 
Author: BCMSN exam success and earning your CCNP certification requires you to add to your knowledge of VLAN configuration. When you studied for your CCNA exam, you learned how to place ports into a VLAN and what the purpose of VLANs was, but you may not be aware that there are two types of VLAN membership. To pass the BCMSN exam, you must know the details of both types.
In this tutorial, we’ll take a look at the VLAN type you are most familiar with, the “static VLAN”. As you know, VLANs are a great way to create smaller broadcast domains in your network. Host devices connected to a port belonging to one VLAN will receive broadcasts and multicasts only if they were originated by another host in that same VLAN. The drawback is that without the help of a Layer 3 switch or a router, inter-VLAN communication cannot occur.
The actual configuration of a static VLAN is simple enough. In this example, by placing switch ports 0/1 and 0/2 into VLAN 12, the only broadcasts and multicasts hosts connected to those ports will receive are the ones transmitted by ports in VLAN 12.
SW1(config)#int fast 0/1
SW1(config-if)#switchport mode access
SW1(config-if)#switchport access vlan 12
% Access VLAN does not exist. Creating vlan 12
SW1(config-if)#int fast 0/2
SW1(config-if)#switchport mode access
SW1(config-if)#switchport access vlan 12
One of the many things I love about Cisco switches and routers is that if you have forgotten to do something, the Cisco device is generally going to remind you or in this case actually do it for you. I placed port 0/1 into a VLAN that did not yet exist, so the switch created it for me! Read the rest of this entry »
Cisco CCNP / BCMSN Exam Tutorial: Changing The Active Router In HSRP
To pass the BCMSN exam and earn your CCNP certification, you’ve got to know HSRP inside and out. While the operation and basic commands of HSRP are pretty simple, there are some important details that are easily overlooked but are vital in getting HSRP to work the way you want it to. Let’s take a look at using the priority command correctly on both the exam and in production networks.
A key value in the show standby command is the priority. The default is 100, and the router with the highest priority will be the primary HSRP router. We’ll raise the default priority on R2 and see the results. R3 is currently the Active router and R2 the standby, so let’s raise the priority on R2 and see what happens.
R2(config)#interface ethernet0
R2(config-if)#standby 5 priority 150
R2#show standby
Ethernet0 – Group 5
Local state is Standby, priority 150
Hellotime 4 sec, holdtime 12 sec
Next hello sent in 0.896
Virtual IP address is 172.12.23.10 configured
Active router is 172.12.23.3, priority 100 expires in 8.072
Standby router is local
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Posted in Computer Certification | 
Tags: 12933, active, bcmsn, ccie, ccnp, certification, cisco, exam, hsrp, pass, preempt, priority, standby | 
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Cisco CCNA Exam Tutorial And Case Study: VLANs and IP Connectivity
In this CCNA case study, we’ll take some basic switching and trunking theory and put it into action. We have two routers (R2 and R3) along with two switches (SW1 and SW2). R2 is connected to SW1 at fast 0/2, and R3 is connected to SW2 at fast 0/3. Both routers have IP addresses on the 172.12.23.0 /24 network.
For these routers to be able to ping each other, the switches must be able to communicate. These are two 2950 switches, and they’re connected via two crossover cables. Before we worry about the router connectivity, let’s make sure the trunk link is up between the switches with the “show interface trunk” command.
SW2#show interface trunk
Port Mode Encapsulation Status Native vlan
Fa0/11 desirable 802.1q trunking 1
Fa0/12 desirable 802.1q trunking 1
< output truncated for clarity >
The default mode of these switches is for the ports to run in dynamic desirable trunking mode, so we didn’t even need to write a configuration to have the trunk form – it’s already there!
Show vlan brief reinforces the theory that by default, all switch ports are placed into VLAN 1 (except the trunk ports).
R2 and R3’s Ethernet addresses have already been configured, the trunk line is operational, and both ports are in VLAN 1. We’ll ping R2’s Ethernet interface from R3, and then R3’s Ethernet interface from R2 to verify IP connectivity.
R2#ping 172.23.23.3
Type escape sequence to abort.
Sending 5, 100-byte ICMP Echos to 172.23.23.3, timeout is 2 seconds:
!!!!!
Success rate is 100 percent (5/5), round-trip min/avg/max = 4/4/8 ms
R3#ping 172.23.23.2
Type escape sequence to abort.
Sending 5, 100-byte ICMP Echos to 172.23.23.2, timeout is 2 seconds:
!!!!!
Success rate is 100 percent (5/5), round-trip min/avg/max = 4/4/8 ms
With pings, exclamation points indicate IP connectivity, and periods indicate no connectivity.
So we’ve got connectivity! Now let’s see if we still have that connectivity when the ports are placed into different VLANs. Cisco CCNA theory states that devices in different VLANs can’t communicate without the intervention of a Layer 3 device, but let’s see if that’s true by placing R2 into VLAN 23. (VTP is already running on these switches.)
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Cisco CCNA Exam Tutorial: Troubleshooting Directly Connected Serial Interfaces
CCNA exam success depends largely on noticing the details, and this is especially true of configurations involving directly connected serial interfaces. And of course, it’s not enough to notice these details – you’ve got to know what to do about them!
A Cisco router is a DTE by default, but directly connecting two DTEs with a DCE/DTE cable is not enough. In the following example, R1 and R3 are directly connected at their Serial1 interfaces. The line goes up briefly after being opened, but the line protocol goes down after about 30 seconds.
R3(config-if)#int s1
R3(config-if)#ip address 172.12.13.3 255.255.255.0
R3(config-if)#no shutdown
2d18h: %LINK-3-UPDOWN: Interface Serial1, changed state to up
2d18h: %LINEPROTO-5-UPDOWN: Line protocol on Interface Serial1, changed state to up
R3(config-if)#
2d18h: %LINEPROTO-5-UPDOWN: Line protocol on Interface Serial1, changed state to down
The problem is that one of the routers needs to act as the DCE in order for the line protocol to come up and stay up. If this were your CCNA / CCNP home lab, you could just go over and look at the DTE/DCE cable to see which router had the DCE end of the cable attached. In this example, though, we don’t have physical access to the routers. How can we tell which router has the DCE end of the cable attached?
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