6.4.2 Lab - Implement Etherchannel

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hi friends welcome to old in this video we are going to discuss this lab activity implement ethyl channel before coming to this activity furnace if you like to get any CCNA project support or CCNA version 7 online classes 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 considered subscribing also don't forget to enable that bell icon near to the subscribe button so that you will get notification message whenever we upload a new video okay coming back to our lab activity implemented our channel here we can see the topology we have to design the set apology in our cisco packet tracer also we can see our addressing table we learnt table ok we will go through the objectives build the network and configure basic device settings in party to create VLANs and assign as which ports then configure 8 node to dot1q trunks between the switches and they finally implement and verify and a third channel between the switches just we will go through this background link aggregation allows the creation of illogical links that are comprised of two or more physical links this provides increased the throughput beyond using only one physical link link aggregation also provides redundancy if one of the links fail in this lab we will configure a third channel a form of a link aggregation I used in switched networks we will configure a third channel using link aggregation control protocol that is LACP they given a note here LACP is a link aggregation protocol that is defined by i2 plate no 2.3 ad and it is not associated with any specific vendor ok LACP allows Cisco switches to manage a third and channels between switches that conform to the eight node 2.3 ad protocol we can configure up to 6 steam ports to form a channel using this LACP eight of the ports are in active mode and the other eight are in the Stan babe or when any of the active ports fail h tan babe prod becomes active standby mode works only for LACP and not for pagp okay these are these some of the instruction I mean some of the information regarding LACP again a note this which is used to be the CCNA hands-on labs are Cisco Catalyst 2 9 6 0 ok we will use this model catalyst 2 9 6 0 and other switches and the Cisco IOS versions can be used depending on the model and the Cisco IOS version the commands available and output produced might vary from what is shown in the labs ok anyways we are using latest cisco packet tracer version 7.3 so we can implement this ethyl channel also they given a node make sure that the switches have been erased and how no startup configurations if you are unsure contact your instructor yeah as always we say here we are going to implement this channel using cisco packet tracer so no need to worry about this not no need to arise startup configuration if you are implementing in a real-time I mean using real as witches then you have to check this startup configuration so now we will go to the recruiter resources we are accurately to switches and the Cisco tune and 6 0 is preferred to pcs console cables to configure the cisco iOS device why are the console ports the nether at cables as shown in the topology yes so these are the cradle sources coming to the instructions in part 1 build the network and configure basic device settings in part 1 we will a set up the network topology and configure basic settings from the PC host and switches so step one cable the network as shown in the topology attached to the devices as shown in the topology diagram and as necessary coming to a topology here we can see we believe design this topology Narciso pocket race or we created two switches and in two NT devices okay we will do it one by one even let's pay a little more it's like a tracer okay so here we can see network devices will choose switches and if we have a 2 9 6 0 series switch just press control and click on this actual + 6 0 switch so that we can add multiple as witches actually we record only two anyways in this press control and click on to name six zero then coming to our workspace here is one switch again a here is another switch then press escape and the hearing this a topology we can see the physical and name they given s 1 and s 2 we will rename these switches s 1 and s 2 just for identification also we are accurate 2 pcs PC - a PC - be coming 20 devices click on NT devices then I choose NT devices and here we can see PC we will add it to pieces so you can add like this or you just press ctrl and you can add multiple devices we will rename these devices PC - a and this is a PC - B now we will connect these devices coming to connections and to here we will choose copper straight through to connect from PC to switch so from PC - a faster third 0 then on s 1 FA 0 / 6 and here we can see they mentioned that port and your PC - B should be connected to FA 0 / 18 so coming to PC - be faster third R 0 yes - FA 0 / 18 now we have to connect these switches s 1 and s 2 okay here we can see we have to connect two FS 0 / 1 - FS 0 / 1 + FS 0 / 2 - FS 0 / 2 so redundancy right so we are connecting the same devices so we can go for copper core server click on copper crossover you can press ctrl from keyboard and you can click on this copper crossover so that we can do multiple connections then from s 1 FA 0 / 1 coming to s 2 FA 0 / 1 next is again on s 1 FA 0 / 2 then coming to s 2 FA 0 / 2 okay just to press escape and we are ready with our topology in a cisco packet tracer okay now in step 2 configure basic settings for each switch I seen a device name to the switch okay we can do that many times we configured house name but still we will do that yes one CLI enable kunti we will set the hostname as s1 then we will go to as to CL I enable kunti this is a short for configure terminal ok hostname as s2 next is disable dns lookup to prevent the rotor from attempting to translate incorrectly entered commands as through they were host names ok we will disable this a DNS lookup now we are in s2 okay first of all we will do in s2 you have to give the command in no IP domain lookup press enter then we will go to s1 no IP domain lookup next is our same class as the privileged exec encrypted password yeah this is enabled secret right see we are doing all these basic configurations and many times so what happens we just remember these commands and we never forget all these commands so that is the advantage okay so we will go to this assign classes the privileged exec encrypted password first of all we will go to s 1 we know encrypted we have to use a secret enable secret enable password is a plaintext password right so enable secret enable space secret password as I think class right yes then we will go to s to enable secret test class next is our sane Cisco as the console password and enable login at the same time we will do Cisco as the VT my password and enable login we will do this at T and E together because we have to go to these lines ok we will do it in s1 first we will go to line console 0 we will assert the password as cisco then we have to give the command in Logan we will exit then we will go to a line vty for all the lines so 0 to 15 that means total 16 lines then we will less at the password its cisco then login command right then we can give and then we will go to s2 first of all we will go to line console 0 you will set the password as specified its cisco then login command then exit from line console then we will go to line vty 0 to 15 all the lines then we will have set the password as Cisco then login command then end next is encrypted the plaintext passwords yes we know the command a service password encryption in a global configuration mode okay confetti we have a service password - encryption okay this presenter coming to s to configure terminal courier to give a service password - encryption coming to the next basic configuration create a banner that wants anyone accessing the device that unauthorized access is prohibited okay we will exit the banner motd message of the day with just a message for the interests warning message okay we can set that in global configuration mode right banner motd we let's start with a delimiter any character or symbol can be used we will use this double court we will give okay we can give authorized access only okay now we will go to s - banner and more chili then our massage with the delimiter authorized access only and we have to enter be the same delimiter wat be used in the beginning ok then press Enter next T says save the running configuration to the startup configuration file but before that - here we can see the emotion to set the cloak on the switch - today's a time and a date so we will set this clock faster than we will sa from RAM to NB ROM use the question mark to help you with the correct sequence of parameters and either to execute this command yeah we can do that so we'll go to s1 we will go to global configuration mode so we'll exit from here because we can do this in a privileged exit mode we have the commander clock then a space will protect ocean mark we can see the set command then space again patient mark we have to give the time in this format h/h mmm yes yes ok we can set that time then we have to specify the day of the month we will give it 25 then month June your 20/20 yes so now we can give copy running-config startup-config we can give run a space start presenter destination file name start up - config yeah we are fine with that now we will go to s to exit from this global configuration mode then we have a clock set ok then day of the month then month of the year then here to specify the year now copy running-config startup config copy space run space stat we can give in short or even we can make the maximum short we can give a C or P space or space HT so this is the shortest command presenter destination file name start up - config yeah press ENTER again so be done basic settings on both switches coming to step 3 configure PC host refer to the addressing table for PC host address information ok we will configure this PC - a and PC - be coming to our addressing table here we can see PC - a IP address I will copy that also we can see it's a selector mask ok coming to PC - a will go to desktop IP configuration and here we can give that address certain to mask it's correct now we'll close it then we will get the IP address of PC - B people copy this address 20.4 coming to PC - B desktop IP configuration IP address we pasted that something to mask default a certain to mask not change now we will go to party to create VLANs and are seen as which ports it's really interesting in part 2 we will create VLANs as specified in the table above on both switches we will then assign the VLANs to the appropriate interface and verify your configuration settings complete the following task on each switch ok in step 1 we will create VLANs on the switches on both switches create and in name the recreative VLANs from the Beland table a bow okay coming to reveal and table it's your we can see we will create this surveillance VLAN 1022 plan and 1000 in s 1 as well as s 2 and we can see its name here we will create it as per this surveillance table first of all we will do it in s1 I will keep it here yeah so that we can view this a VLAN table as well as or is one CLI prompt is visible now okay kunti will create the VLAN 10 first and its name is a management okay I will move here oh right then we will create a VLAN 20 I will do like this we lent 20 slimes okay VLAN 20 name is clients correct presenter then we will create this a triple 9 it's name is a parking underscore a lot VLAN triple n right yeah name is a parking underscore a lot also we have this 1000 and its name is an 18 done now we will close this s1 and we will do it on s2 we will create these the same bee lands in this switch s2 also coming to s2 VLAN 10 management will give a confetti VLAN 10 name is management next is VLAN 20 it's a name is a Klein's okay next we have VLAN triple-n it's name is parking Andres car lot correct then we have this 1000 name is an 80 VLAN 1000 names net team coming to be configure and activate the management interface on each switch using the IP address information in that dressing table okay coming to our addressing table here we can see IEP address for the device s1 and s2 and we can see for the interface VLAN Chen okay we will I said this IP address for the SP ice so first of all we'll go to s1 just I will copy this IP address and here we can see it's a certain to mask we will exit from this VLAN then we will go to interface VLAN 10 ok then dávila set the IP address then it's not a mask in order to give no sir don't command because your agency interface VLAN 10 change this date to up okay next we will set IP address for this switch s2 and I will copy this address coming to s2 exit then go to the interface VLAN 10 okay now we can see interface VLAN 10 changed stay to up just press enter then we have to set the IP address as per our addressing table I already copied that I have to give you this certain to mask yeah next is a sane all unused two ports on the switch to the parking underscore a lot VLAN configure them for a static access mode and administratively deactivate them that means we have to shut down all the unused ports in these switches okay I think coming to our veal and table here we can see all the unused two ports or even we can verify from this a topology veteran we used FA 0/6 also we cannot use the FS 0 / 1 + FS or 0 / 2 so we have to shut down all other ports we will go to this switch s1 ok then we will exit from this interface then we will go to the interfaces a server range because here we are going to select multiple interfaces right so we have to use range we will give a phase 0 / 1 and it to be used so we'll give from 3 till 5 because of 6 be used then we have comma F a0 / 7 till 24 right also we have two gigabit ethernet ports we had to specify that also it's a G 0 / 1 - 2 that means a gigabit the third 0 / 1 and Giga a deterrent 0 / 2 press ENTER and we have to give switch for the modest access also we have to assign these ports to the VLAN parking lots right such a port access VLAN it's a parking lot to plan okay so we land to plan then we have to shut down these unused 2 ports you with the command shuttle in the same way we have to do in s 2 ok right so just will exit from this interface and we will go to the interfaces as a range FA 0 / 1 and it to be used so we let's turn from 3 till 15 because we used to 16 right I will verify it oh it's 18 that means we are toward God till 17 okay coma FA 0 / 19 till 24 correct also we have a two gigabit ethernet ports G 0 / 1 - 2 ok we will give a switch port modest access support access read and triple 9 and we have to shut down these ports now we will go to step 2 assign bill ends to the characters which interfaces a scene used 2 ports to the appropriate VLAN specified in the VLAN table a bow and configure them for static access mode ok coming to our villain table here we can see VLAN 10 is used for the management purpose he has we already configured this management interface on s1 as well as s2 now here we can see we have to our say in this port FA 0 / 6 in s1 to VLAN 20 also we can see FS 0 / 18 - we land 20 and we can see these ports are connecting to these clients right PC - a and the PC - B so we will do it in yes one first that is FS 0 / 6 which is connected to this PC - a here you can see that means we are going to add this a PC in VLAN 20 okay you will go to s1 just takes it from these interfaces you will go to only the interface FA 0 / 6 I have to verify it yeah it's 6 then we will give a support the modest access then a switch port access VLAN 20 right this is for VLAN 20 now we will go to s 2 we will exit from these interfaces then we will go to interface FA 0 / 18 only one interface so cheap or too modest access switch port access its a VLAN 20 right next we will issue the show villain brief command and verified that the villains are assigned to the corrective force okay we will go to s 1 CL I will expand this vinter so that you can view it clearly we will give end show wheel and brief and here we can see the details we can see FA 0 / 1 + FA 0 / 2 is still with default VLAN that is VLAN 1 because we have to make these supports as trunk we will do that then here we can see FA 0 / 6 is a saint - VLAN 20 and all other unused ports we can see in VLAN triple 9 that is parking lot that's correct we will go to s 2 and we will verify it exit sorry we can give ang or show VLAN brief and here we can see FA 0 / 18 is a saint - wheel and 20 that is clients and we can see two ports FA 0 / 1 + fa 0 / 2 is in a default VLAN 1 and all other unused - pores are saying - VLAN triple 9 that is parking lot now we will go to part 3 configure 8 node to dot1q chunks between the switches in part 3 we will manually configure interfaces FA 0 / 1 + fa 0 / 2 as a node - dot1q trunks change the switch / - more on the interfaces to force tracking use the interface arrange command to reduce the number of commands requite make sure to do this on both switches quite simple and interesting right ok so first of all we will do it in s1 configure terminal we will go to interfaces and cell range because we have a FA 0 / 1 and it - we can give FA 0 / 1 - 2 then we have to give a support the more trunk presenter ok now we will go to s 2 even we can verify it in s 1 better I just have it verify and they will go Yente we have the command to show interfaces trunk and here we can see this support FA 0 / 1 + fa 0 / 2 is tracking and we can see it's a mod is on that means manually be configured a trunk and in a to VLAN it's in the default in a TV line 1 now we will go to s 2 and we will verify this tracking because it become trunk automatically show interfaces a trunk and here we can see these two ports FA 0 / 1 + fa 0 starts - is trunking but here we can see the Modi's auto that means automatically become trunk when we configured the other side this side become automatically trunk but in the instruction they specified we must configure manually on both switches right so it should be the mode should be on here ok we will do that kunti interface as a range fa 0 / 1 - 2 so it report the motor set trunk ok just end and again we will give that command as show interfaces trunk now we can see this mode is on coming to the next instruction as a part of the trunk configuration set the native VLAN to 1000 on both switches you may see error messages temporarily while the two interfaces are configured for a different native VLANs yeah that native VLAN mismatch right okay we will configure this an 18-wheel and first of all we'll go to s1 to go to those interfaces again you know props configure terminal interface as arranged fa 0 / 1 - 2 and here we are going to give a support trunk native VLAN be have 1000 right yeah then press enter and here we can see that message in consistently local VLAN anyways we have to configure in this a switch s2 also so that we can restore that problem coming to s2 see that mismatched native VLAN mismatch discovered on this interface with s1 a faster third 0 stars - okay bill de configure terminal interface has a range fa 0 / 1 - 2 then here we will give a support Frank native VLAN 1000 here we can see that command presenter next is as another part of a trunk configuration specify that the villians a 10 20 and 1000 are allowed to cross the trunk okay we can do that so we'll go to s1 and we will go to those interfaces okay Oh password is cisco enable password is class configure a terminal we will go to those interfaces as a range efface euro / 1 & 2 so 1 - 2 here we will give the command so to port the trunk we have a allowed register tab allowed VLAN we will give let me see that it's a 10 20 and 1000 right we can do that here 10 20 and 1000 then press Enter in the same way coming to us - oh you're also we have to keep the password cisco enable password is class kunti configure terminal you will go to those interfaces as arranged fa 0 / 1 - 2 then we will give a support that trunk and we have to give only allowed VLANs a load of villains such as 10 comma 20 comma 100 1000 right yeah then press Enter no issue the show interfaces trunk command to verify that wrangling ports native VLAN and allowed will be lanced across the trunk okay coming to s1 we can give that it maximize it you will give an end show command show wheelin briefs and here we can see the details okay so just will give a show interface as trunk we can see port FS 0 / 1 FA 0 / 2 mode is own status at ranking and we can see native VLAN is 1000 also we can see a load of islands 10 20 and 1000 only the same way we can verify in s2 end show interfaces a trunk and here we can sea ports native VLAN 1000 also we can see a load of violence at 10:20 and two 1000 only no here we have a question why is the violence in spanning tree for waiting state and not pruned in three different for FS 0 / 1 + FS 0 / - okay we will verify that on s 1 and here we can see that VLANs in a spanning tree for waiting state and not pruned here we can see FA 0 / 2 is shows and none coming to our topology here we can see this link FA 0 / 2 is in amber it's a blocked state right due to a spanning tree I mean a due to redundancy so a spanning tree is in effect so that's why we can see this FA 0 / 2 given us and none okay now coming to Pat for implement and verify and a third channel between the switches okay this is also really interesting approach a neural VLANs all these are quite simple and interesting yeah so create a LACP based a third channel using FS 0 / 1 + fa 0 / 2 using group number 1 with both switches actively negotiating death or channel protocol use the interface range command to reduce the number of commands or a create we will do this configuration first of all we will go to s1 okay kunti you will go to those interfaces arranged that is FA 0 / 1 - 2 102 and here we will give channel group deny protection mark we have to specify the channel group a number so as specified it's 1 space again protection marker we can see we have to specify the mode LACP or pH which mode we have to use more space and we can see here we have the mode active means enable LACP and conditionally yeah clearly dimensioned we have to do this LACP and here we can see they mentioned let me see that actively negotiating the aether channel protocol so we have to use this active mod right on both side yeah mode active then press enter okay here we can see creating a poor channel interface for channel 1 now we will go to s to configure a terminal you will go to those in the interface as a range FA 0 / 1 - 2 then we will create that channel group it's 1 mode is active right presenter the after the third channel is configured the virtual port channel interface is automatically created now interface port channel one represents the logical interface of the bundled physical ports FS 0 / 1 + FS 0 starts - yes that's correct additionally the port channel will inherit the configuration of the first physical port added to the eternal now issue the show interface trunk command to verify trunking is still in place what does the port po1 represent this is for channel 1 right yeah so we will go to s1 and we will give this a show command again give end show interfaces trunk now we can see it shows po1 that means sport channel 1 mode we can see own encapsulation ok status trunking and we can see native VLAN 1000 also we will verify in s to give the command end show interfaces trunk and to here we can see port channel 1 stairs trunking native VLAN is 1000 now finally use the show a third channel summary command to verify the a third channel configuration ok show a third channel summary and here we can see the details so we can see support channel one protocol we used LACP and here we can see these ports are bundled it together FS 0 / 1 + FS 0 / 2 + b code this port channel 1 right we can verify in s to show a third channel summary and here we can see the protocol LACP and these pores are bundled FS 0 / 1 + FS 0 / 2 + become this for channel 1 actually here we did not do any NT to int connectivity testing right so just I will a ping from PC - a to PC - B so we will get the IP address or PC - B just copy that then coming to PC - a we will go to command prompt here we will a ping to PC - B here is the address and we can see we get the replies so you can see packets as Center for a receiver for lost 0 ok that's all in this a lab activity implement a third channel now dereference if you have any doubt any suggestions please comment below or you can contact our team using our website link you will get from the description below and if you liked our video give it thumb and share with all your friends stay tuned and the we will meet again with the next video thank you

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Channel: Tech Acad

Views: 9,708

Rating: undefined out of 5

Keywords: CISCO, CISCO Certification, CCNA, CCNAv7, Routing and Switching, Packet Tracer, Etherchannel

Id: TiQAOUsaIJY

Channel Id: undefined

Length: 41min 31sec (2491 seconds)

Published: Mon Jun 29 2020