08-18-2017 07:25 PM - edited 03-21-2019 12:08 AM
Article ID:5555
Stacking allows you to expand your network capacity without the hassle of managing multiple devices. Stackable switches can be added or removed from a stack as needed without affecting the overall performance of the stack. Depending on its topology, a stack can continue to transfer data even if a link or unit within the stack fails. This makes stacking an effective, flexible, and scalable solution to expand network capacity.
By default, a switch is always stackable, but has no port configured as a stack port. All the ports in the devices are configured as network ports by default. A device without any stack port can be thought of as the master device in a stack of only itself or as a standalone device. To stack two or more switches, you can reconfigure the desired network ports as stack ports in the switches and connect them with the resulting stack ports in a ring or chain topology.
The units or switches in a stack are connected through stack ports. Stacked switches are then collectively managed as a single logical device. In some cases, stack ports can become members in a stack of Link Aggregation Groups (LAGs) increasing the bandwidth of the stack interfaces.
A stack provides the following benefits:
- The backup unit becomes the master of the stack if the original master fails.
- The stack system supports two types of topologies: Chain and Ring. Ring topology is more reliable than a chain topology. The failure of one link in a ring does not affect the function of the stack, whereas the failure of one link in a chain connection might cause the stack to be split.
This article provides instructions on how to configure stack settings through the Command Line Interface (CLI) of your switch.
Note: To know how to configure the stack settings of your SG350X or Sx550X switch through the web-based utility, click here for instructions. For Sx500 switches, click here. For SG350XG or SG550XG switches, click here.
Step 1. Determine the stack mode that you would want to configure. The options are:
Step 2. Connect one end of the Small Form-Factor Pluggable (SFP) cable that came with your device into the SFP+, XG3, or XG4 port of your switch.
Note: In this example, the cable is connected to XG3 port of the switch.
Step 3. Connect the other end of the SFP+ cable into the SFP+, XG3 or XG4 port of your switch.
Note: In this example, the cable is connected to XG3 port of the switch.
Step 4. Repeat Steps 2 to 3 to the remaining switches.
In this scenario, two switches are being configured for stacking and the SFP cables are connected to ports 3 and 4 on both switches.
You should now have connected your switches according to your desired topology.
Master Selection Process
The master unit is selected from the master-enabled units (1 or 2). The factors in selecting the master unit are taken into account in the following priority:
Note: The up time of the backup unit is retained when it is selected as master in the switch failover process.
Note: For a stack to operate, it must have a master unit. A master unit is defined as the active unit that assumes the master role. The stack must contain a Unit 1 and/or Unit 2 after the master selection process. Otherwise, the stack and all its units are partially shut down, not as a complete power-off, but with traffic-passing capabilities halted.
Follow these steps to configure stack settings on the Master switch:
Step 1. Log in to the console of the first switch. The default username and password is cisco/cisco. If you have configured a new username or password, enter the credentials instead.
Note: The available commands may vary depending on the exact model of your device. In this example, SG350X-48MP switch is used.The hostname of the backup switch is SG350X-2.
Step 2. Enter the Global Configuration mode of the switch by entering the following:
Step 3. To enter the context of the specified stack unit or all stack units, enter the stack unit command in the Global Configuration mode by entering the following:
Note: In this example, stack unit 1 is used.
Step 4. Enter the stack configuration command to configure the stack ports and unit ID after reboot by entering the following:
The options are:
Note: In this example, stack configuration links unit-id 1 is entered.
Step 5. (Optional) To remove stack configuration settings on the switch, use the no stack configuration command by entering the following:
Step 6. Enter the end command to go back to the Privileged EXEC mode of the switch.
Step 7. (Optional) To display the stack configuration settings, enter the following:
Note: In this example, the Master (Unit 1) switch now uses te3-4 as stack links. These settings will take effect after the switch reboots.
Step 8. (Optional) In the Privileged EXEC mode of the switch, save the configured settings to the startup configuration file, by entering the following:
Step 9. (Optional) Press Y for Yes or N for No on your keyboard once the Overwrite file [startup-config]… prompt appears.
Note: In this example, Y is pressed.
Step 10. Reload the switch to apply the configured stack settings by entering the following:
Important: When a switch is reloaded, the running configuration file is deleted. Before proceeding with the reload instructions, make sure to save all the running configuration settings to avoid data loss.
Step 11. Press Y for Yes or N for No on your keyboard once the Do you want to continue prompt appears.
Note: In this example, Y is pressed.
The Master unit will now reboot. You should now have configured the stack settings of your Master unit.
Step 1. Log in to the console of the second switch. The default username and password is cisco/cisco. If you have configured a new username or password, enter the credentials instead.
Note: The available commands may vary depending on the exact model of your device. In this example, SG350X-48MP switch is used.The hostname of the backup switch is SG350X-2.
Step 2. Enter the Global Configuration mode of the switch by entering the following:
Step 3. To enter the context of the specified stack unit or all stack units, enter the stack unit command in the Global Configuration mode by entering the following:
Note: In this example, stack unit 1 is used.
Step 4. Enter the stack configuration command to configure the stack ports and unit ID after reboot by entering the following:
The options are:
Note: In this example, stack configuration links unit-id 2 is entered.
Step 5. (Optional) To remove stack configuration settings on the switch, use the no stack configuration command by entering the following:
Step 6. Enter the end command to go back to the Privileged EXEC mode of the switch.
Step 7. (Optional) To display the stack configuration settings, enter the following:
Note: In this example, the Unit 2 switch now uses te3-4 as stack links. These settings will take effect after the switch reboots.
Step 8. (Optional) In the Privileged EXEC mode of the switch, save the configured settings to the startup configuration file, by entering the following:
Step 9. (Optional) Press Y for Yes or N for No on your keyboard once the Overwrite file [startup-config]… prompt appears.
Note: In this example, Y is pressed.
Step 10. Reload the switch to apply the configured stack settings by entering the following:
Important: When a switch is reloaded, the running configuration file is deleted. Before proceeding with the reload instructions, make sure to save all the running configuration settings to avoid data loss.
Step 11. Press Y for Yes or N for No on your keyboard once the Do you want to continue prompt appears.
After the switch reboots, the backup switch will no longer be a standalone device and will only be accessible through the Master switch.
Step 12. Repeat steps 1 to 11 for the configuration of the slave switch or switches.
You should now have configured the stack settings on your backup and/or slave switches.
Step 1. Log back in to the console of the Master unit.
Quick Tip: Access the Master unit while configuring the backup and/or slave switches to monitor the progress. Once the backup or slave switch reboots, the Master switch will be notified with the stacking activities.
Step 2. In the Privileged EXEC mode of the switch, use the show stack command to show the stack settings on the switch by entering the following:
Note: In this example, the configured unit 2 is now known as the backup switch of the stack.
Step 3. Enter the show stack links command to show the stack links on the switch by entering the following:
The options are:
Step 4. (Optional) To access the backup switch, enter the stack unit ID of the switch in the Global Configuration context by entering the following:
Note: In this example, the configured backup switch is now accessible as unit 2.
You should now have configured the stack settings on your switches.
very helpfull...
But I have a question.
What If I don't want to use SFP for stacking, but a simple interface. I don't want to use SFP for this reason, can't find a reason to use Fiber for Stacking.
Could I use 2 interfaces as portchannels for stacking?
Cisco sais yes....but its too vague.
"Using standard 10G fiber or copper connections, the Cisco 550X Series supports both local and horizontal stacking deployments and the flexibility of ring or chain topology. The switches also have the capability to use link aggregation port as the stacking port, providing even higher stacking bandwidth for demanding applications."
Thank you
Thank you.
I can not figure out how to create a ring topology over the cli interface.
Could somebody share their "show running-config" output with a ring topology stack on sge550 series?
SGE550XG-01#show stack links details Topology is Chain UNIT ID Link Status Speed Neighbor Neighbor Neighbor Unit ID Link MAC Address ------- -------- ---------- ----- -------- -------- ------------------- 1 te15 Active 10G 2 te16 c4:44:a0:2f:16:e7 1 te16 Active 10G 2 te15 c4:44:a0:2f:16:e7 2 te15 Active 10G 1 te16 c4:44:a0:30:9a:6c 2 te16 Active 10G 1 te15 c4:44:a0:30:9a:6c SGE550XG-01#show version Active-image: flash://system/images/image1.bin Version: 2.3.5.63 MD5 Digest: 5881484e04bcdcc17c32872445e3ab8d Date: 20-Aug-2017 Time: 19:04:55 Inactive-image: flash://system/images/_image1.bin Version: 2.3.5.63 MD5 Digest: 5881484e04bcdcc17c32872445e3ab8d Date: 20-Aug-2017 Time: 19:04:55 SGE550XG-01#show system System Description: SG550XG-8F8T System Up Time (days,hour:min:sec): 00,00:40:53 System Contact: System Name: SGE550XG-01 System Location: System MAC Address: c4:44:a0:30:9a:6c System Object ID: 1.3.6.1.4.1.9.6.1.90.16.9 Unit Type ---- ---------------------- 1 SG550XG-8F8T 2 SG550XG-8F8T Unit Main Power Supply Redundant Power Supply ---- ----------------- ---------------------- 1 Active Not Connected 2 Active Not Connected Unit Fans Status ---- ------------------------------------- 1 FANs OK, redundant fan Ready 2 FANs OK, redundant fan Ready Unit Temperature (Celsius) Status ---- --------------------- ---------- 1 37 OK 2 37 OK
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