15.6.1 Packet Tracer - Configure IPv4 and IPv6 Static and Default Routes

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hi dear friends welcome to techacad in this video we are going to discuss ccna version 7 packet tracer activity configure ipv4 and ipv6 static and default routes before coming to this activity friends if you like to get ccna version 7 online classes or any project support you can contact our team using our website link you will get from the description below and also if you like to get this type of technical videos in future consider subscribing and don't forget to enable that bell icon new to the subscribe button so that you will get notification message whenever we upload a new video coming back to our activity here we can see our addressing table with the devices interfaces and here are the given ipv4 as well as ipv6 address with its prefix coming to the objectives in this packet tracer summary activity we will configure static default and floating static routes for both the ipv4 and ipv6 protocols configure ipv4 static and floating static default routes configure ipv6 static and floating static default routes then configure ipv4 static and the floating static routes to internal lands configure ipv6 static and floating static routes to the internal lands then configure ipv for host routes also configure ipv6 host routes these are the objectives of this packet tracer activity also we will go through the scenario in this activity we will configure ipv4 and ipv6 a default static and floating static routes also the given endnote the static routing approach that is used in this lab is used to assess your ability to configure a different types of static routes only this approach may not reflect networking best practices yes it's really mean that so coming to the instructions part one configure ipv4 static and floating static default routes the packet resource network requires static roads to provide internet access to the internal land users through the isps in addition the isp routers require static roads to reach the internal lands in this part of the activity we will configure an ipv4 static default route and a floating default route to add redundancy to the network we will go ahead step one configure an ipv4 static default route on edge router configure a directly connected ipv4 a default static route this primary default route should be through a rotor isp1 coming to our topology here we can see our edge rotor and we are going to configure this uh directly connected ipv4 default static route towards this isp one and here we have to specify its exit interface so here we can see it's exit interface to this uh isp it's a serial zero slash zero smart zero even we can configure this ipv4 default static route uh using its next hope address uh that is so we have to specify the ip address of this interface uh serial 0 0 0 in this isp1 let me see that ip address isp1 when we can use this such as 10.10.10.1 okay okay fine i will go to this edge router and we will do the configuration enable conf t and here we will give ip root then 0.0.0.0 then we have to specify the mask 0.0.0.0 then we will give your exit interface uh it's a serial 0 right or as i told even we can assert with this and x2 address serial 0 0 0 now coming to step 2 configure an ipv for floating static default route on edge router configure a directly connected ipv4 floating static default route this default route should be through a router isp2 it should have an administrative distance of 5 so we have to set this administrative distance of 5 so it becomes this a floating floating static default route and here we can see we are going to configure on edge rotor uh through this isp2 here again it is specifically mentioned uh to configure a directly connected ipv4 default static route right so um yeah we will use this exit interface which is connecting to this isp2 we can verify it the interface is uh serial zero slot zero slash one okay we will configure this um a default uh floating i mean a floating static default router using this exit interface so again we will go to this edge router again we can give this command ip root 0.0.0.0 then it's uh exit interface i will verify once more serial 0 0 1 serial 0 0 1 then here we can specify its distance metric for this route so here we can see the specified to give this administrative distance of 5 we will give that here then press enter we will go to part two configure ipv6 static and floating static default rules in this part of the activity we will configure ipv6 static default and floating static default routes for ipv6 first of all we will configure an ipv6 static default route on edge router configure a next hope static default route see here this specifically mentioned we have to use next to hope address the primary default route should be through router isp1 as they specified we are going to use this next to hope address so we have to get the ipv6 address of this interface uh that is a serial 0 0 in this isp1 so just we will go to our addressing table isb1 and here we can see its ipv6 address so we will copy this address because we have to use this address as next to hop actions that's fine next we will go to this router that is the edge router and we will do that we have the command ipv6 root double colon slash 0 then we have to specify its next hope address i will put a question mark and we will see what is next here we can see ipv6 address of next hop we already copied that then press enter step 2 configure an ipv6 floating static default route on edge router configure a next hope ipv6 floating static default route the route should be via router isp2 also use an administrative distance of 5 so here we can see we have to configure this ipv6 uh static default route and we are going to configure with its administrative distance through this isp2 and here we will configure using its next to hope ipv6 address hence we have to get the ipv6 address of this interface uh that is serial 0 0 1 in isp2 you will go to addressing table isp2 serial 0 0 1 here we can see its ipv6 address we'll copy that okay again we will go to this router and we will set that ipv6 root double colon slash zero and here is its ipv6 and x24 petras then we have to set it administrative distance it's f5 coming to part three configure ipv4 static and the floating static routes to the internal lands in this part of the lab we will configure static and floating static routes from the isp routers to the internal lens step 1 configure ipv4 static routes to the internal lens on isp1 configure a next hope ipv4 static route to the lan 1 network through edge router now coming to the topology uh here we can see uh two internal lands uh such as lan one and land two and here they given uh its network address lan 1 192.168.10.16 slash 28 and land2 192.168.11.32 27. here these two networks i mean these two remote networks it's unknown to this isp1 hence we are going to configure this uh static ipv4 static routes in this isp1 and here they specifically mentioned uh use a next-hope ipv4 that means to this land one and land two i mean to reach to this land one and land two we have to use this next to a ip address i mean the ip address of this interface serial 0 0 0 in this edge router we will go to our addressing table and here we can see the ip address of this interface serial 0 0 0 in this edge router here we can see that 10.10.10.2 just i will copy this address then we will go to isp1 okay i will keep this here enable conf t ip root then we will specify the network address 192.168.10.16 and prefix given is slash 28. space i will put a question mark here and you can see we have to give a destination prefix mask 255.255.255 dot it's 28 means at 240. also we have to specify its next to hope address we already copied that ip address 10.10.10.2 also we will configure this lan 2 network also ip root 192.168.11.32 and it's uh to mask prefix given slash 27. it's a 224 and again here also we have to use the same and next co petrus uh to reach to this land2 10.10.10.2 step two configure ipv4 floating static roads to the internal lands on isp1 configure a directly connected floating static route to lan one through the isp to a rotor use an administrative distance of five then on isp 1 configure a directly connected floating static route to lan 2 through the isp2 router use an administrative distance of 5. we will configure this ipv for floating static routes uh to this internal landsat land1 and land2 and it's through isp2 so what will be the next hope address and here let me see yeah they clearly mentioned configure directly connected floating static routes so we have to use its exit interface right and here we can see exit interface which is connecting to this isp2 0 0 we will do the configuration coming to isp 1 again we will configure ip root i think we can copy the same command to be given here that's fine just i will copy from here because instead of this uh next two options we have to use its uh exit interface through isp2 so it's a g 0 slash 0 so we will give a g 0 0 also we have to specify its administrative distance of 5 i'll mention that here 5. also we can copy this line this is to uh lan 2 using exit interface that is g 0 slash 0 with the ad5 coming to part 4 configure ipv6 static and floating static routes to the internal lens step one configure ipv6 static routes to the internal lens one isp1 configure a next hope ipv6 static route to the lan one network through edge router also on isp1 configured a next to hope ipv6 static route to the lan 2 network through edge router we have to configure using it's a next hope ipv6 address we can see to reach this lan one and land two uh we have to go through this uh next hope that is uh uh serial zero zero zero we have to get the ipv6 address of this interface serial zero zero zero in this edge router serial here we can see just i will copy this address yes now we will go to this isp one here we will give ip v6 root and here we can see the network address for this lan one 0 0 1 colon db 8 colon 1 colon 10 double colon slash 64. correct here we can see that now we have to give its next hope address already copied it i will show in single line here we can see that okay that's fine now again here we can see our land2 we will configure this ipv6 root it's uh 2 0 0 1 colon db 8 colon 1 colon 11 double colon slash 64 right and we have to give it some next cup address we already copied it then press enter step two configure ipv6 floating static routes to the internal lens isp one configure a next hope ipv6 floating static route to lan one through the isp2 router use an administrative distance of five okay then on isp1 configure nxt hope ipv6 floating static route 2 lan 2 through the isp2 router use an administrative distance of 5. if your configuration has been completed correctly you should be able to ping the web server from the host on lan one and land two in addition if the primary route link is down connectivity between the lan host and the web server should still exist okay we will configure this ipv6 uh floating static roads uh to this lan one and land two and it's through this isp2 so here we have to use uh its next to hope address as this ipv6 address of this interface so that is g 0 0 okay i will get the ipv6 address of this interface g 0 0 in the in this isp 2 here we can see the interface g 0 slash 0 and here we can see it's ipv6 address just will copy that then we will come back okay that's fine so we'll go to isp1 okay here already we given these commands here we have to change only this uh you know next to hope address right so already copied it just i will paste here then i will copy this command okay then in the beginning we will paste it with the space so here we can see only changes this next four patches then we have to specify its administrative distance right uh it's five okay that's fine next we will copy this second line here this is for land2 copy and paste here then we have to give its oh sorry it's ip it's ipv4 i have to copy ipv6 it's here right okay then we have to give its uh next to hope address you can copy and paste here also we have to give its administrative distance that is five now we will go to part five configure host routes users from the corporate network frequently access a server that is owned by an important customer in this part of the activity we will configure static host routes to the server one route will be a floating static route to support the redundant isp connections step one configure ipv4 host roads on edge router configure an ipv4 directly connected host root to the customer server so coming to topology here we can see our customer server and we are going to configure uh host or root so from this edge router okay then on edge router configure an ipv4 a directly connected floating host route to the customer server use an administrative distance of 5. we will configure that and here we can see customer server address 198.0.0.10 and we have to configure it in this edge router uh through this isp1 and we have to use its exit interface it's a serial zero slash zero slash zero so coming to this edge router again enable conf t and here we will give ip root then we have to give its ip address this customer server ip address not the network address 198.0.0.10 okay then we have to give this destination prefix mask 255 okay then exit interface it's a serial zero slash 0 0 that's fine and now we will configure this uh host routes uh through this isp2 so uh to reach this customer server exit interface will be serial 0 0 1 here we can see that which goes to isb2 right okay we will do that here i will copy this command because we have to change this interface exit interface that is serial 0 slash 0 slash 1 also we have to give its administrator distance of 5. here we can see the command in single line coming to step two configure ipv6 host roads on edger rotor configure an ipv6 next to hope host route to the customer server through the isp one router so here we have to use a next to hope address that means the ipv6 address of this interface serial 0 0 0 in this isp 1 and here we can see our customer server ipv6 address we have to configure with this and i will get the ipv6 address of that interface serial 0 0 0 in isp 1 here we can see that sorry it's ipv6 address so i will copy this right serial zero zero zero it's correct then we will go to this router and here we have to give its uh ipv6 address we can give ipv6 root uh it's a 2 0 0 1 colon dba db8 colon f colon f then a double colon 10 and we have to give prefix 128 then we will give its next cop address already we copied it okay and finally we will configure this ipv6 directly connected floating housed route here we can see the exit interface the iep address of this interface serial 0 0 1 in this isb2 uh isp2 serial 001 it's your right so before that just i will copy this command it's same we have to change only this next to hope address and also we have to add administrative distance of 5. now we will get its ip address ipv6 address isp serial 0 0 1 we can copy this ipv6 address and paste here then give its administrative distance of 5. then press enter perfect so we configured everything we can verify the configuration you can go to this router at the router you exit show ip root we can go to the root and we can verify it here you can see uh static route also we can give a show ipv6 root here we can see ip v6 static route we configured now we can go to this isp1 [Music] enable show ip root and here we can see the router we configured statically also we can give a show ip v6 root it's here even we can attest to the connectivity we will ping from uh from pca to customer using ipv4 as well as ipv6 we'll go to pc a then i will go to command prompt let me try to ping to customer server ping 198.0.0.10 and let me try the connectivity i will give fast forward and we can see we get the replies once more i will try it it's working right even we can ping to uh customer server ipv6 address 2001 colon db8 sorry db8 colon f colon f double colon 10 and we can see it's working perfect okay right so friends in this video we learned how to configure ipv4 and ipv6 static and default routes and here we can see it's a completion status it's hundred percent now dear friends if you have any doubt any suggestions regarding this packet tracer activity please comment below or you can reach our uh technical team using our website link you will get from the description and also if you like our video if you like our channel give a thumb and share with all your friends stay tuned and we will meet again with the next video thank you

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Channel: Tech Acad

Views: 30,504

Rating: undefined out of 5

Keywords: CISCO, CISCO Certification, CCNA, Packet Tracer, IPv4, IPv6, Static Route, Default Routes, CCNAv7, Routing and Switching

Id: pC0kvQpGhSg

Channel Id: undefined

Length: 27min 52sec (1672 seconds)

Published: Tue Aug 04 2020