How to Master CCNP SWITCH. bestthing.info – René Molenaar. Page 3 of . Introduction. One of the things I do in life is work as a Cisco Certified System. although René Molenaar cannot attest to the accuracy of this information. Use of also love routing & switching because it's one of those fields in IT that doesn't. ow to master CCNP SWITCH shows you, step-by-step, everything you need to know to master the CCNP SWITCH exam. You will discover new.
|Language:||English, Portuguese, Dutch|
|ePub File Size:||15.69 MB|
|PDF File Size:||8.74 MB|
|Distribution:||Free* [*Sign up for free]|
CCNP Routing and Switching SWITCH Official Cert Guide. Pages· · MB·1, Downloads. bestthing.info How to Master CCNP SWITCH Rene Molenaar How to Master CCNP SWITCH. How to Master CCNP Route by Rene Molenaar, , available at Book Depository with free delivery worldwide. Garry Baker February 10, Book Details. How to Master CCNP Route. Rene Molenaar. EBook PDF via instant download with watermark. http://gns3vault.
Would you like to tell us about a lower price?
If you are a seller for this product, would you like to suggest updates through seller support? Plus you will receive an overview of switching labs that you should practice from GNS3vault. Read more Read less. Save Extra with 3 offers. Customers who bought this item also bought. Page 1 of 1 Start over Page 1 of 1. How to Master Ccnp Tshoot. Chris Bryant. Chris Bryant's Ccnp Route Customers who viewed this item also viewed.
To get the free app, enter mobile phone number. See all free site reading apps. Tell the Publisher!
I'd like to read this book on site Don't have a site? Product details Paperback: Createspace Independent Pub; edition 28 August Language: English ISBN Share your thoughts with other customers.
Write a product review. Top Reviews Most recent Top Reviews. There was a problem filtering reviews right now. Please try again later. Paperback Verified download. Contents are only black and white no colour pages. See the review. Most helpful customer reviews on site.
In this case that means that 1. Network 1. Does it matter? Yes and no. It will work but also means that every interface that falls within the 1. Network If you are working on a lab and are lazy like me you can also type in network 0. Use the passive interface command.
John config router eigrp 1 John config-router passive-interface loopback 0 This will advertise the 2. You can also configure passiveinterface default and only activate the interfaces you want to run EIGRP on. John is also receiving an update packet from router Jack and afterwards sending its own update packet.
If you want to see the whole process we can combine some debugging. Show ip protocols is a very useful and powerful command in your CCNP arsenal. It will show you for which networks you are routing, passive interfaces and the administrative distance. See the external administrative distance of ? As you can see we have one neighbor What else do we find here? Your first neighbor will have a value of 0, the second neighbor a value of 1 and so on.
Once this timer expires we will drop the neighbor adjacency.
How to Master CCNP Switch
The default holddown timer is 15 seconds. Ideally you want this number to be 0 otherwise it might be an indication of congestion on the network. It will go into active mode and send query packets to ALL its neighbors asking them if they know how to reach this network.
By setting the reply status flag it will do this. More on this later! In this case there is only one way to get to the destination.
The second value is the advertised distance. Does this make sense to you? Understanding the EIGRP topology table is very important for troubleshooting or when we start playing with load balancing.
What do we find here? In the examples above you could see that the feasible and advertise distance values are a bit higher which makes them annoying to work with. If you look at it you can see that it incorporates bandwidth, load, delay and reliability and you can see K1, K2, K3, K4 and K5 values.
These K values are only numbers to scale numbers in the metric calculation. Only K1 and K3 are enabled by default.
The example above only shows part of the output. You can see the bandwidth is Kbit which is a Mbit interface. Cisco IOS will have default delay values for the different types of interface. A FastEthernet interface has a default delay of usec.
If you are having issues this value will decrease. This means that only bandwidth and delay are used in the formula. Why not? Because loading and reliability are dynamic values and they can change over time. We want routing protocols to be nice and quiet and only base their routing decisions on static values like bandwidth and delay. As you can see there is an upper path with some T1 interfaces and a 64kbps link. The path below has two kbps links. A T1 interface has a bandwidth of 1.
Does this make your head spin? The important lesson I wanted to show you here is that EIGRP uses the slowest bandwidth in the path and the sum of delays. No need to do any manual calculations on the exam! Feel like playing with the metrics and some load balancing? Note the EIGRP will summarize to the classful network by default.
So what happens with router Hearts? It thinks it can reach the Obviously this is going to cause problems. Spade config router eigrp 1 Spade config-router no auto-summary Clubs config router eigrp 1 Clubs config-router no auto-summary Type in the no auto-summary command to make sure EIGRP behaves classless and sends the subnet mask along.
In the picture below we have router Jack and John, router Jack has the following networks configured: You need to specify the AS number and the subnet mask to send along the network. We reduced its routing table from 4 entries to just 1 entry. Look at router Jack above and check out the last entry. Our Null0 interface is like a black hole sucking up packets never to return again…ouch! Let me show you another example. If you look at the example above I made a change.
I created the summary This is a C- example! You have to remove the old one yourself. So what happens when we send a ping towards an IP address within the John ping Jack config access-list permit ip any Debug ip packet is VERY useful but you need to use an access-list otherwise you drown in information. What if there was a 3rd router in our topology and router Jack has a default route pointing to this router? We will end up forwarding packets for Internet Jack John Route Advertisement: Router John has another interface connected to the Internet.
Router John has a default Route to the Internet.
How to master CCNP Route
Since we want Internet access on router Jack as well we configure a default route on router Jack towards router John. Router John has the Router John sends an IP packet to X network in its routing table but does have a default route. Router Jack will forward the IP packet to router John. Uh-oh…we have a routing loop!
Thanks to our Null0 interface this is not going to happen, watch this: John ping Our entry with Packets will be forwarded to Null0 and are gone! No more routing loops… Creating summaries has one more advantage besides reducing the size of routing tables. You will also have less routing updates on your network.
The whole network is updating itself because just a single interface went down. Summaries can help us here. Summary: All the routers on the right side have Did you enjoy this? We only use them within our autonomous system but they are not scalable to use for something as large as the Internet.
There is only one routing protocol we currently use on the Internet which is BGP. Our ISP is making sure we have Internet access. This scenario is excellent when you only have clients that need Internet access.
We could use port forwarding and forward the correct ports to these servers so we still only need a single IP address. Another option would be to get more public IP addresses from our ISP and use these to configure the different servers.
We could add another router at the customer side and connect it to the ISP. You can use the primary link for all traffic and have another link as the backup. This will make sure that your IGP sends all traffic to the primary link.
Once the link fails your IGP will make sure all traffic is sent down the backup link. Let me ask you something to think about…can we do any load balancing across those two links? Your IGP will send all traffic down the primary link and nothing down the backup link unless there is a failure. What about our Customer network? We still have those 2 servers that need to be reachable from the Internet.
An AS is a collection of networks under a single administrative domain. The Internet is nothing more but a bunch of autonomous systems that are connected to each other.
For routing between the different autonomous systems we use an EGP external gateway protocol. How do we get an autonomous system number? Autonomous system numbers are bit which means we have AS 1 up to Since January we can also use bit numbers for autonomous systems. External BGP is to exchange routing information between the different autonomous systems.
We can reach the internet through both ISPs. The customer router will advertise its We have connectivity because of the default routes but this can lead to sub-optimal routing. If we only have the default routes then we will send all traffic to one of the ISPs. Our customer network only received a default route from both ISPs and we have chosen to use the default route of ISP1 to send all our outgoing traffic to. This means that whenever we send traffic meant for This partial update might include all the IP address space that the ISPs have assigned to their customers.
Just like in real life…the more you know the better off you are. In the world of routing having more routing information means you can make better routing decisions. This of course requires more memory and CPU power to maintain! On the internet there are a number of looking glass servers. These are routers that have public view access and you can use them to look at the Internet routing table. You can telnet to these devices and use show ip route and show ip bgp to check the BGP or routing table.
All our IGPS have in common that they want to find the fastest path to the destination. BGP is also called a policybased routing protocol. Influencing traffic with BGP is very easy to do. Look at the image above. We have 4 autonomous systems and we are running BGP to exchange routing information. In AS 1 we have network This is one of the looking glass servers.
By using the show ip bgp command I can look at the BGP table and we see this router knows about network 1. The next-hop IP address is At the end of the line you see path with the numbers These are the autonomous systems we have to get through in order to get to this network. In the picture above I have 9 autonomous systems and in AS 9 we have network If we look at AS 1 then we have a lot of different paths we can take to reach network Does this mean the network administrator at AS 1 can choose the path we are going to use?Salaque on Feb 05, Well ,This is the best book for practical oriented study.
I have tried to put all the important keywords in bold.
As soon as you send hello packets and receive them your EIGRP routers will try to form the neighbor adjacency. Conclusion I downloadd this book after have visited gns3vault.
And that really matters to me, because after all the time I spent working on Cisco, I was recently hired in an all Juniper service provider! Cisco IOS will have default delay values for the different types of interface. Router Ann now knows the metric for the total path to the destination, this total path is called the feasible distance and it will be saved in the topology table.