Posts Tagged ‘free’
When you earned your CCNA, you thought you learned everything there is to know about RIP. Close, but not quite! There are some additional details you need to know to pass the BSCI exam and get one step closer to the CCNP exam, and one of those involves RIP update packet authentication.
You’re familiar with some advantages of using RIPv2 over RIPv1, support for VLSM chief among them. But one advantage that you’re not introduced to in your CCNA studies is the ability to configure routing update packet authentication.
You have two options, clear text and MD5. Clear text is just that – a clear text password that is visible by anyone who can pick a packet off the wire. If you’re going to go to the trouble of configuring update authentication, you should use MD5. The MD stands for “Message Digest”, and this is the algorithm that produces the hash value for the password that will be contained in the update packets.
Not only must the routers agree on the password, they must agree on the authentication method. If one router sends an MD5-hashed password to another router that is configured for clear-text authentication, the update will not be accepted. debug ip rip is a great command for troubleshooting authenticated updates.
R1, R2, and R3 are running RIP over a frame relay cloud. Here is how RIP authentication would be configured on these three routers.
R1#conf t
R1(config)#key chain RIP
< The key chain can have any name. >
R1(config-keychain)#key 1
< Key chains can have multiple keys. Number them carefully when using multiples. >
R1(config-keychain-key)#key-string CISCO
< This is the text string the key will use for authentication. >
R1(config)#int s0
R1(config-if)#ip rip authentication mode text
< The interface will use clear-text mode. >
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The free AllFun games are numerous in variety and the games gallery is growing daily. To be able to access the games on AllFun.com , all you need to do is go to the site and click on the Getting Started tab. You will be able to download AllFun free social game application in 3 easy steps. When the download is complete , you install the AllFun free game application no need to manually upload the new games daily. The game application downloads automatically.
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The BSCI exam and CCNP certification requires that you be well versed in the basics of IP Version 6, or IPv6. If you’re new to IPv6, you’ll quickly learn that it’s not exactly just two more octets slapped onto an IPv4 address! IPv6 addresses are quite long, but there are two ways to acceptably shorten IPv6 address expression. To pass the BSCI exam, become a CCNP, and get that all-important understanding of IPv6, you’ve got to understand these different methods of expressing an IPv6 address. My last IPv6 tutorial discussed zero compression; today we’ll take a look at leading zero compression.
Leading zero compression allows us to drop the leading zeroes from every field in the address. Where we could only use zero compression once in an IPv6 address expression, leading zero compression can be used as often as is appropriate. The key with leading zero compression is that there must be at least one number left in each field, even if that remaining number is a zero.
You sometimes see books or websites refer to leading zero compression as “dropping zeroes and replacing them with a colon”, but that explanation can be a little confusing, since the blocks are separated with a colon to begin with. You’re not really replacing the leading zeroes, you’re dropping them.
Let’s look at an example of leading zero compression. Taking the address 1234:0000:1234:0000:1234:0000:1234:0123, we have four different fields that have leading zeroes. The address could be written out as it is, or drop the leading zeroes.
BSCI exam success is all part of becoming a CCNP, and part of that success is now learning the basics of IP Version 6, or IPv6. One of the most difficult parts of learning IPv6 concepts is the radically different addressing scheme that IPv6 uses as compared to IPv4. Just look at these sample addresses:
Typical IPv4 address: 129.14.12.200
Typical IPv6 address: 1029:9183:81AE:0000:0000:0AC1:2143:019B
As you can see, IPv6 isn’t exactly just tacking two more octets onto an IPv4 address!
I haven’t met too many networkers who really like typing, particularly numbers. You’ll be happy to know there are some rules that will shorten those addresses a bit, and it’s a very good idea to be fluent with these rules for your exam.
You remember from your CCNA studies that there’s no difference between an upper-case letter and lower-case letter in hexadecimal. That’s one of three basic rules you need to know when working with IPv6 addressing. The other factors deal with all the zeroes you’ll run into in IPv6 addresses! One of these rules is the rule of zero compression.
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