2 OPERATING MANUAL MS1008-2G-4POE/PSX1008-2G-4PoE Switch Managed Switch with Eight 10/100/1000Base-TX Ports Plus One Mini GBIC slot for 1000Base-SX or LX fiber or one 10/100/1000Base-TX port Four PoE Ports CORPORATE HEADQUATERS MANUFACTURING/CUSTOMER SERVICE 5001 American Blvd. W., Suite 605 945 37 Avenue, NW Bloomington, MN 55437 Rochester, MN 55901 Phone: 800.441.5319 Phone: 800.328.2275 Phone: 952.831.5603 Phone: 507.252.1951 Fax: 952.831.5605 th Fax: 507.285.
Table of Contents 1.0 Specifications ......................................................................................................5 2.0 Package Contents ...............................................................................................8 3.0 Introduction..........................................................................................................8 3.1 Switch Features...................................................................................................
5.10 System Event Log Menu .....................................................................................30 5.11 SMTP Configuration.........................................................................................31 5.12 Event Configuration .............................................................................................32 5.13 SNTP Configuration.............................................................................................34 5.14 IP Security ................
5.31 Factory Default Settings ...................................................................................... 71 5.32 Save Configuration ..............................................................................................72 5.33 Reboot the System .............................................................................................. 72 6.0 CLI Commands ..................................................................................................73 7.0 Troubleshooting ...
1.0 Specifications OPERATIONAL CHARACTERISTICS: MAC Address Table: Switching Mode: Bandwidth: System Throughput: Memory Buffer Size: Performance: 8k Store-and-forward Up to 18Gbps Up to 26.
IEEE 802.1w IEEE 802.1d IEEE 802.1p IEEE 802.1q IEEE 802.
GSM2109: Dimensions: 8.5 x 5.5 x 1.75 in (216 x 140 x 45mm) Weight: 2 lbs (.91kg) GSM1009-1SFP: Dimensions: 11 x 10.5 x 2 in (279 x 267 x 51mm) Weight: 3.7lbs (1.
2.0 Package Contents Examine the shipping container for obvious damage prior to installing this product. Notify the carrier of any damage that you believe occurred during shipment. Ensure that the items listed below are included. supplier. If an item is missing, please contact your Both the MS1008-2G-4PoE and PSX1008-2G-4PoE switch package contains the following: Switch Power Cord Four Rubber Feet RS-232 cable User’s Guide 3.
The ninth port can be used for 1000Base-SX fiber connectivity or for 10/100/1000Base-TX connectivity. Four of the 10/100Base-TX ports provide Power over Ethernet (PoE) connectivity. The PoE ports eliminates the need to run 110/220 VAC power to other devices on the LAN. The same CAT5 Ethernet cable that carries data to each device can also deliver power over the same cable. This allows greater flexibility in the location of network devices and can help reduce installation costs.
eliminating congestion problems inherent with the carrier sense multiple access with the collision detection (CSMA/CD) protocol and greatly reduced unnecessary transmissions. This revolutionized networking. First, by allowing two-way, simultaneous transmissions over the same port (full-duplex), bandwidth was essentially doubled. Second, by reducing the collision domain to a single switch-port, the need for carrier sensing was eliminated.
5.6Gbps switch bandwidth IGMP snooping GVRP function 802.1x user authentication 802.1p CoS per port 4 queues Port based VLAN 802.1q VLAN 802.3ad port trunk with LACP STP/RSTP QoS • Port based / tag based • IPv4 Tos/Ipv4, Ipv6 DiffServe Port mirror and bandwidth control 802.
3.2 Software Features RFC Standard RFC2233 MIBII, RFC 1157 SNMP MIB, RFC 1493 Bridge MIB, RFC 2674 VLAN MIB, RFC 2665 Ethernet like MIB, RFC1215 Trap MIB, RFC 2819 RMON MIB, Private MIB, RFC2030 SNTP, RFC 2821 SMTP, RFC 1757 RMON1 MIB, RFC 1215 Trap Management SNMP v1, SNMP v2c, SNMP v3, Telnet, Console (CLI), Web management and menu driven SNMP Trap Cold start, warm start, link down, link up, authorization fail, Trap station up to 3. Port Trunk Supports IEEE802.3ad with LACP function.
Port Security Port Mirror Supports ingress and egress MAC address filter and static source MAC address lock. Global system supports 3 mirroring types: “RX, TX and Both packet”. The maximum of port mirror entries is 8. Ingress rate limiting packet type: all of frames, broadcast, Bandwidth Control multicast, unknown unicast and broadcast packet. Egress rate shaping supports all of packet. Rate limiting levels: 64kbps to 64Mbits or up to 256Mbits for Gigabit port. Support IEEE802.
Configuration upload and download Spanning Tree Support binary format configuration file for system quick configuration. IEEE802.1d Spanning tree IEEE802.1w Rapid spanning tree Provides X-ring, dual homing and coupling ring. Provides redundant backup feature and recovery time below X-ring 300ms PoE Enable/Disable; Power limit by classification: Enable/ Disable PD power classification and output power will be limited by PD’s classification.
3.3.1 Console and Telnet Management Console Management is done through the RS-232 Console Port. Use the RS-232 cable supplied in your package to connect directly to a workstation from your switch. Use the default IP 192.168.16.1 to use Telnet or Web Management to login to the switch and modify the configuration. 3.3.2 Web-based Management The switch provides an embedded HTML web site residing in flash memory.
Figure 3.2 - Front Panel Rear Panel A three-pronged AC power plug is located on the rear panel of the switch. The switch operates in the range 100-240V AC, 50-60Hz. Figure 3.3 - Rear Panel Hardware Ports One slot for mini GBIC One 10/100/1000Base-TX port Eight 10/100Base-TX connections. MDI allows you to connect to another hub or switch and MDIX allows you to connect to a workstation or PC.
3.5 LED Indicators The following table provides the status and description of the LEDs. The LEDs provide a real-time indication of systematic operation status. LED Status Color Description Power On Green Power On On Green The port is operating at 1000Mbps. On Orange The port is operating at 100Mbps 1000M (Port 9) Off FWD (Ports On 5-8) Off 100M On No device attached Green The port is supplying power to the powered device. No powered device is attached or power failed.
3.6.1 Attaching Rubber Feet 1. Make sure the mounting surface on the bottom of the switch is free of grease and dust. 2. Remove adhesive backing from the rubber feet. 3. Apply the rubber feet to each corner on the bottom of the switch. 3.6.2 Power On Connect the power cord to the AC power socket on the rear panel of the switch. Check the power indicator on the front panel to see if power is properly supplied. 4.
Segment Application For enterprise networks where large data packets are constantly processed, this switch is suitable for department users to connect to the corporate backbone. The switch automatically learns node addresses, which are subsequently used to filter and forward all traffic based on the destination address. You can use any of the copper ports or the mini GBIC port to connect with another switch to interconnect each of your small-switched workgroups to form a larger switched network.
PoE The four-port PoE switch provides power to the powered devices that follow the IEEE 802.3af standard on the network. The following figure provides an example of a network application for PoE. Figure 4.3 – PoE Switch with Wireless Powered Device 4.1 Network Configuration This section explains how to configure console management via a direct connection to the console port of the switch. Console management involves the administration of the switch via a direct connection to the RS-232 console port.
Connecting a Terminal or PC to the Console Port Use the supplied RS-232 cable to connect a terminal or PC to the console port. The terminal or PC to be connected must support the terminal emulation program. After the connection between switch and PC is made, run a terminal emulation program or Hyper Terminal to match the following default characteristics of the console port: Baud Rate: 9600 bps Data Bits: 8 Parity: None Stop Bit: 1 Flow Control: None Figure 4.4 - Communication Parameters 1.
3. Enter the user name and password. 4. The default user name is root, and the default password is root. You may change the login identification to make it more secure for your network in the System Configuration menu. 5. Once you have logged into the system, a command prompt will be displayed. switch provides CLI (command line interface) console management. The Once you have logged into the switch, you can begin entering CLI commands. Section 6.0 lists the commands and their descriptions.
5.0 Web Based Management This section covers the functions of web based management. There is an embedded HTML web site residing in flash memory in the CPU board of the switch. Web based management provides advanced management features for the network administrator that can be accessed from anywhere on the network through a standard web browser such as Microsoft Internet Explorer (IE). The web based management supports IE 5.0.
6. The main menu of for web based management will be displayed. Figure 5.1 - Web Management Opening Screen 5.3 System Information Use the System Information menu to enter the following system information: System Name - assign a name for the switch. The maximum length is 64 bytes. System Description - displays the description for the switch. The information is read only and cannot be modified. System Location - assign the physical location for the switch. The maximum length is 64 bytes.
Figure 5.2 - System Information Screen 5.4 IP Configuration This menu allows you to change the IP address for the switch as well as reconfigure IP settings. Once the IP address has been set, the switch must be rebooted. DHCP Client is disabled by default. IP Address – Use this option to assign the switch IP address. The default IP address is 192.168.16.1. Subnet Mask - Use this option to assign the switch IP subnet mask. Gateway – Use this option to assign the switch gateway.
Figure 5.3 – IP Configuration 5.5 DHCP Server Dynamic Host Configuration Protocol (DHCP) is a protocol for assigning dynamic IP addresses to devices on a network. With dynamic addressing, a device may have a different IP address every time it connects to the network. In some systems, the IP address may change while connected. DHCP supports a combination of static and dynamic IP addresses.
Subnet Mask - The dynamic IP assigned range for subnet mask. Gateway - The gateway of your network. DNS – The Domain Name Server IP Address of your network. Lease Time (sec) – Specifies in seconds the time period that the system will reset the dynamic IP assignment. Figure 5.4 - DHCP Server Configuration When the DHCP server function is enabled, the system will collect DHCP client information which will be displayed in the DHCP Client Entry screen. Figure 5.
5.6 Port and IP Bindings The switch allows you to assign a specific IP address that is in the dynamic IP range to a specific port. When the device is connecting to the port and requests a dynamic IP assignment, the system will assign the IP address that has been previously assigned to the connected device. Figure 5.6 - Port and IP Bindings Screen 5.7 TFTP Transaction The TFTP Transaction Menu allows you to update the switch firmware, restore EEPROM value or backup current EEPROM value. 1.
Figure 5.7 - Update Firmware Screen 5.8 Restore Configuration You can restore the EEPROM value from the TFTP server: 1. Fill in the TFTP server IP address. 2. Enter the correct Restore File Name. 3. Click Apply to proceed. Figure 5-8 - Restore Configuration Screen 5.9 Backup Configuration This menu allows you to save the current EEPROM value from the switch to the TFTP server. 1. Fill in the TFTP server IP address. 2. Enter the correct Backup File Name. 3. Click Apply to proceed.
Figure 5.9 - Backup Configuration Screen 5.10 System Event Log Menu The System Event Log Menu allows you to configure the switch so you can collect and view system events. 1. Select the System Log Mode: client only, server only, or both client and server. 2. Assign the system log server IP. 3. Click Reload to refresh the events log. 4. Click Clear to clear the current events log.
Figure 5.10 – System Log Configuration 5.11 SMTP Configuration The system can be configured to send an alert to an email account when specific events occur. The following options can be configured for event notification: Email alert – enable or disable the email alert function SMTP Server IP – assign the mail server IP address. (When the Email Alert is enabled, this function will be available.) Authentication –enable and configure the email account and password for authentication.
Confirm Password - confirm password Rcpt email address 1 ~ 6 – up to six email accounts can be assigned to receive the alert. 5.11 - SMTP Configuration Screen 5.12 Event Configuration The Event Configuration allows you to select SMTP events. occur, the system will send out the log information or alerts. When selected events Per port log and SMTP events can also be selected. Device cold start – the system will produce a log event when the device executes a cold start action.
Figure 5.12 - Event Configuration Screen Port Event Selection – There are three choices for per port events and per port SMTP events. Disabled indicates that no event is selected. o Link Up - the system will produce a log message when port connection is up only. o Link Down - the system will produce a log message when port connection is down only. o Link Up & Link Down - the system will produce a log message when port connection is up and down.
5.13 SNTP Configuration Use this menu to configure the Simple Network Time Protocol (SNTP) settings. The SNTP synchronizes the switch clock with the Internet. SNTP Client – set the SNTP function to enable or disable. SNTP is disabled by default. Daylight Savings Time - enable or disable the daylight savings time function. When daylight saving time is enabled, you must also set the daylight savings time period. UTC Timezone - set the switch location time zone.
Local Time Zone Conversion from UTC Time at 12:00 UTC ALA - Alaskan Standard -9 hours 3 am HAW - Hawaiian Standard -10 hours 2 am Nome, Alaska -11 hours 1 am +1 hour 1 pm +2 hours 2 pm +3 hours 3 pm ZP4 - USSR Zone 3 +4 hours 4 pm ZP5 - USSR Zone 4 +5 hours 5 pm ZP6 - USSR Zone 5 +6 hours 6 pm +7 hours 7 pm +8 hours 8 pm +9 hours 9 pm +10 hours 10 pm CET - Central European FWT - French Winter MET - Middle European MEWT - Middle European Winter SWT - Swedish Winter EET - Ea
Local Time Zone Conversion from UTC Time at 12:00 UTC Standard GST Guam Standard, USSR Zone 9 IDLE - International Date Line +12 hours NZST - New Zealand Midnight Standard NZT - New Zealand Table 5.1 – Time Zone Information SNTP Sever URL - set the SNTP server IP address. Daylight Saving Period – enter the start and end period for daylight savings time. The daylight savings ending time will different in every year. Daylight Saving Offset (mins) - set the offset time.
5.14 IP Security IP security allows you to assign ten specific IP addresses that have permission to access the switch through the web browser for secure switch management. The following lists the functions for IP security: IP Security Mode – The IP Security mode must be enabled in order to configure the HTTP server and the Telnet server. Enable HTTP Server – Once this is enabled, the ten IP addresses will be able to access the management functions via the web.
5.15 User Authentication User authentication is used to modify login user name and password: User name – key in the new user name. The default is root. Password - key in the new password. The default is root. Confirm password - Retype the new password for confirmation. Click Apply to save the configuration. Figure 5.15 – User Authentication 5.16 Port Menu This menu provides information for all switch ports. The Port Statistics screen provides statistics for current port traffic.
5.17 Port Control Menu The section of this screen is used to configure each port. The bottom section displays the current settings for each port. Port - Select the port that you want to configure. State - Current port status. The port can be set to disable or enable mode. If a port is set to disable, it will not be able to receive or transmit packets. Negotiation - Set auto negotiation status of the port. There are two choices, auto and force.
To view the status of a single port, click on the port displayed on the switch panel at the top of your web management screen. Single port information will be displayed as shown in Figure 5.18. Figure 5.
5.18 Port Trunking The Link Aggregation Control Protocol (LACP) provides a standardized means for exchanging information between partner systems. The systems have to reach an agreement on the identity of the Link Aggregation Group to which the link belongs, move the link to that Link Aggregation Group and enable its transmission and reception functions. Link aggregation allows you to group up to eight consecutive ports into a single dedicated connection. network.
Figure 5.19 – Port Trunk Aggregator Setting Once the LACP aggregator has been configured, the information can be displayed through the Aggregator Information screen. Figure 5.
5.19 State Activity Once the LACP aggregator has been configured, you can configure the port state activity. Port state activity can be set to active or passive. Active – port automatically sends LACP protocol packets Passive – port does not automatically send LACP protocol packets and responds only if it receives LACP protocol packets from the opposite device. Note: A link having either two active LACP ports or one active port can perform dynamic LACP trunking.
o Both – RX and TX packet Source port – select the ports to be monitored. All monitored port traffic will be copied to the mirror port. You can select a maximum of 10 monitor ports in the switch. You can choose the port to monitor in only one mirror mode. Select the mirroring port state: o RX – RX packet only o TX – TX packet only o Both – RX and TX packet Click Apply to confirm the settings. Note: To disable the function, set the monitor port to none. Figure 5.
5.21 Rate Limiting Rate limiting allows you to set up the bandwidth rate and packet limitation type per port. Ingress Limit Packet Type – select the packet type to be filtered. The packet types include all types of packets: broadcast/multicast/unknown unicast packets; broadcast/ multicast packets; broadcast packets only. The broadcast/multicast/unknown unicast packets, broadcast/multicast packets and broadcast packets only used ingress packets. The egress rate supports all types of packets.
5.22 Protocol Menu Options 5.22.1 VLANs Virtual Local Area Networks (VLANs) are logical network groups that limit the broadcast domain. VLANs allows you to isolate network traffic so only members of the VLAN receive traffic from the other VLAN members and not from everyone on the network. Basically, creating a VLAN is the equivalent of reconnecting a group of network devices to another physical switch. However, all the network devices are still connected to the same physical switch.
In order for an end station to send packets to different VLANs, it has to be either capable of sending tagged or attached to a VLAN-aware bridge that is capable of classifying and tagging the packet with a different VLAN ID based on not only default PVID but also other information about the packet, such as the protocol. Figure 5.25 – VLAN Configuration 1. Click Add to create a new VLAN group. 2. Enter the Group Name and VLAN ID. 3. Select the members of the VLAN group. 4. Click apply.
Figure 5.26 – VLAN Configuration Screen 5. The VLANs will be displayed. 6. Use the Delete button to remove VLANs. 7. Use the Edit button to modify existing VLANs. 5.22.3 802.1q VLAN The IEEE 802.1q specification covers tagged-based. Therefore, it is possible to create a VLAN across devices from different switch venders. IEEE 802.1Q VLAN uses a technique to insert a “tag” into the Ethernet frames. The tag contains a VLAN Identifier (VID) that indicates the VLAN numbers.
on a Trunk Link are VLAN-tagged. A Hybrid Link can carry both VLAN-tagged frames and untagged frames. The technique of 802.1q tagging inserts a 4-byte tag, including the VLAN ID of the destination port—PVID in the frame. With the combination of Access, Trunk and Hybrid Links, communication across switches allows the packets to be sent through tagged and untagged ports. GVRP allows automatic VLAN configuration between the switch and nodes.
Figure 5.27 – VLAN 802.1q Configuration Screen Group Configuration To edit the existing VLAN Group: 1. Select the VLAN group in the table list. 2. Click apply. Figure 5.
3. You can change the VLAN group name and VLAN ID. 4. Once you have made the changes, click apply to save the changes. Figure 5.29 – Group Configuration Screen 5.23 RSTP (Rapid Spanning Tree Protocol) Menu RSTP is an evolution of the Spanning Tree Protocol and provides faster spanning tree convergence once a topology change has been made. This switch supports both STP and RSTP. The switch will auto detect the connected device that is running STP or RSTP protocol. 5.23.1 RSTP Configuration 1.
Max Age (6-40) - the number of seconds a bridge waits without receiving STP configuration messages before attempting a reconfiguration. Enter a value between 6 through 40. Hello Time (1-10) - Determines how often the switch broadcasts its hello message to other switches to check RSTP current status. Enter a value between 1 through 10. Forward Delay Time (4-30) - the number of seconds a port waits before changing from its RSTP learning and listening states to the forwarding state.
5.23.2 Port Configuration The RSTP port configuration allows you to set the path cost and priority of each port. Figure 5.31 – RSTP – Port Configuration 1. Select the port from the port column. a. Path Cost – the cost of the path to the other bridge from the transmitting bridge at the specified port. Enter a number 1 through 200000000. b. Priority - decide which port should be blocked by priority in LAN. Enter a number 0 through 240. The value of priority must be a multiple of 16. 2.
include STP mathematic calculation. False includes the STP mathematic calculation. 5. Click Apply. 5.24 SNMP Configuration Simple Network Management Protocol (SNMP) is the protocol developed to manage nodes (servers, workstations, routers, switches and hubs etc.) on an IP network. SNMP enables network administrators to manage network performance, find and solve network problems, and plan for network growth.
Figure 5.32 – SNMP Configuration 5.24.2 Trap Configuration A trap manager is a management station that receives traps or system alerts generated by the switch. If a trap manager is not defined, no traps received. Create a trap manager by entering the IP address of the station and a community string. To define a trap manager, enter the following information. IP Address - enter the IP address of the trap manager. Community - enter the community string.
Figure 5.33 – Trap Configuration 5.24.3 SNMPV3 Configuration To configure the SNMP V3 function, the following tasks should be done. See Figure 5.32 – SNMP V3 Configuration Interface. Configure the Context Table. Assign the context name of the context table. Click Add. Click Remove to remove an unwanted context name. Configure User SNMP v3 User Table. User ID – Enter a user name. Authentication Password – Enter an authentication password. Privacy Password – Enter a private password.
Configure SNMP V3 Group Table. Security Name (User ID) – assign the user name that you set up in user table. Group Name – set up the group name. Click Add to add the group information. Click Remove to remove group information. Configure SNMP V3 Access Table Context Prefix – set up the context name.
Figure 5.
5.25 QoS Configuration Use the QoS configuration menus to configure the following: QoS policy Priority setting Per port priority setting COS TOS QoS Policy and Priority TYpe QoS Policy – select the QoS policy rule. • 8,4,2,1 weight fair queue scheme - the switch will follow the 8:4:2:1 rate to process priority queue from highest to lowest queue.
Figure 5.35 – QoS Configuration Port Based Priority Use this section of the screen to configure the priority level per port. Port 1 ~ G1 & G2 – each port has four priority levels – High, Middle, Low and Lowest. Click Apply to save the configuration. COS Configuration Use this section of the screen to set the COS priority level. COS priority - set the COS priority level 0~7: High, Middle, Low, Lowest. Click Apply to save the configuration.
TOS Configuration Use this section of the screen to set the TOS priority level. TOS priority - the system provides 0~63 TOS priority levels. Each level has four types of priority – high, mid, low, and lowest. The default value is the lowest priority for each level. When the IP packet is received, the system will check the TOS level value in the IP packet that has been received. For example: TOS level is set to 25. Port 1 will follow the TOS priority policy only.
IGMP Configuration IGMP is disabled by default. Use the IGMP Configuration menu to enable IGMP. IP multicast addresses range from 224.0.0.0 to 239.255.255.255. IGMP Protocol - enable or disable the IGMP protocol. IGMP Query - enable or disable the IGMP query function. The IGMP query information will be display in the IGMP status section. Click Apply to save the configuration. Figure 5.36 – IGMP Configuration 5.27 X-ring X-ring provides a faster redundant recovery than the spanning tree topology.
The switch can be set as the ring master or slave. The ring master has the rights to negotiate and send commands to other switches in the X-ring group. If there are two or more switches are in master mode, then the software will select the switch with lowest MAC address as the ring master. The system also supports a coupling ring that can connect two or more X-ring groups for redundant backup. Enable X-ring – use to enable the X-ring function.
Figure 5.37 - X-ring Interface Note: When the X-ring function is enabled, RSTP must be disabled. The X-ring function cannot exist at the same time as RSTP. 5.28 Security Menu Use the Security menu to configure 802.1x and port security by MAC address. 802.1x is an IEEE network standard that allows a client to connect to a wireless access point or wired switch, but prevents the client from gaining access to the Internet until proper authentication has taken place.
Shared Key - set an encryption key to be used during authentication sessions with the specified radius server. This key must match the encryption key used on the Radius Server. NAS, Identifier - set the identifier for the radius client. Click Apply to save the configuration. Figure 5.38 – 802.1x System Configuration 802.1x Port Configuration The 802.1x authentication state can be configured for each port. The State provides the following conditions. Use the Space bar to change the state value.
Figure 5.39 – 802.1x Per Port Setting Interface Miscellaneous Configuration Quiet Period - set the period during which the port doesn’t try to acquire a supplicant. TX Period - set the period the port waits for retransmit (next EAPOL PDU) during an authentication session. Supplicant Timeout - set the period of time the switch waits for a supplicant response to an EAP request. Server Timeout - set the period of time the switch waits for a server response to an authentication request.
Figure 5.40 – 802.1x Miscellaneous Configuration 5.29 MAC Address Table In addition to the 802.1x security, the Port Security Configuration uses MAC addresses to ensure additional port security. Static MAC Address The Port Security Configuration menu allows you to add a static MAC address. The static MAC address will remain in the switch's address table, regardless of whether or not the device is physically connected to the switch.
Figure 5.41 – Static MAC Address Interface MAX Filtering By filtering MAC addresses, you can enhance the security on your network. The MAC Filtering screen allows you to add and delete MAC addresses. To add a MAC Address for filtering: 1. MAC Address - Enter the MAC address to be filtered. 2. VID – If the MAC address belongs to a VLAN group, enter the VLAN ID for the MAC address. 3. Click Add to save the configuration. 4. The MAC address will be displayed in the table.
Figure 5.42 – Filter MAC Address Interface All MAC Addresses You can view the MAC address and the related devices’ MAC address connected to the port. 1. Select the port. 2. The selected port for static MAC address information will be displayed. 3. Select Clear MAC Table to clear the current port static MAC address information.
Figure 5.43 – All MAC Address Interface 5.30 Power over Ethernet (PoE) The following list describes the PoE settings for the switch. Maximum Power Available - Displays the maximum watts. Actual Power Consumption – Real-time total power consumption. Power Source – Displays the supplying power source. Power Source 1 (AC) – Displays the supplying power of power source 1. Power Source 2 (AC+DC) – Displays the supplying power of power source 2 (may vary by model.
Enable State – PoE is enabled by default. You can check this box to disable the PoE function to the port. Power Limit From – Choose the power limit method. o Classification: The system will limit the power supply to the powered device in accordance with the related class. o Management: You can assign the power limit manually. Legacy – Used to support legacy power devices. Priority – Used to choose the priority of power supply.
Keep current IP address setting – You may either keep the current IP address or reset the IP to the default IP address. Use the Space key to make the change. Keep current username and password – You may either keep the current username and password or reset to default username and password (root/root). Use the Space key to make the change. Once you have checked the appropriate settings, click Default to reset. Figure 5.45 – Factory Default Interface 5.
6.0 CLI Commands To use the CLI commands, enter enable once you have logged into the switch. The following table lists the Command level of the CLI commands. Command Description User EXEC This command is a subset of switch> the commands available at the privileged level. Use this command to: Privileged EXEC Prompt Exit Method Logout or quit Enter the enable command while in EXEC mode.
f)# command (with a specific interface) while in the global configuration mode Commands Set List – Used in Next Table User EXEC E Privileged P EXEC Global G configuration VLAN V database Interface I Configuration The following table lists the System Commands.
Command description [system description] system contact [system contact] show system-info ip address] Level Description Example G Set switch system contact window string switch(config)#system contact xxx E Show system information switch>show system-info G Configure the IP address of switch switch(config)#ip address 192.168.1.1 255.255.255.0 192.168.1.
Command [low ip] dhcpserver highip Level Description Example G Configures high IP address number for IP pool switch(config)# dhcpserver highip 192.168.1.50 [high ip] dhcpserver subnetmask G Configures subnet mask for DHCP clients switch(config)#dhcpserver subnetmask 255.255.255.0 [subnet mask] dhcpserver gateway G Configures gateway for DHCP clients switch(config)#dhcpserver gateway 192.168.1.
Command Level security telnet G security ip G [Index(1..10)] [IP Address] show security P no security no security http no security telnet G G G Description server Enables IP security of telnet server Set the IP security list Example Displays IP security information Disables IP security function Disables IP security for HTTP server Disables IP security of telnet server switch#show security switch(config)#security telnet switch(config)#security ip 1.192.168.1.
Command bandwidth type all Level I Description Set interface ingress limit frame type to “accept all frame” bandwidth type I Set interface ingress limit frame type to “accept broadcast, multicast, and flooded unicast frame” broadcast-mul ticastflooded-unicas t bandwidth I type broadcast-mul ticast bandwidth I type broadcast-only bandwidth in [value] I bandwidth out I show bandwidth I state [enable | disable] I show interface configuration I Waters Network Systems Example switch(config)#inte
Command Level show interface status I show interface accounting I no accounting I Description Example interface configuration Displays the actual status of switch(config)#interface the interface fastEthernet 2 h(config-if)#show interface status Displaces statistic counter of switch(config)#interface interface fastEthernet 2 h(config-if)#show interface accounting Clears interface accounting switch(config)#interface information fastEthernet 2 switch(config-if)#no accounting The following table lists
Command Level show aggregator no aggregator lacp [GroupID] no aggregator group [GroupID] P G G Description list separate by a comma (ex.2, 3, 6) Displays the information of trunk group Disable the LACP function of trunk group Example Remove a trunk group switch(config)#no aggreator group 2 switch#show aggregator switch(config)#no aggregator lacp 1 The following table lists the VLAN Commands. Command vlan database vlanmode Level P V Description Enter VLAN configure mode Used to set VLAN mode.
Command name [GroupName] vid [VID] vlan 8021q port [PortNumber] access-link untag [UntaggedVID] vlan 8021q port [PortNumber] trunk-link tag [TaggedVID List] vlan 8021q port [PortNumber] hybrid-link untag [UntaggedVID] tag [TaggedVID List] vlan 8021q trunk [PortNumber] access-link untag [UntaggedVID] vlan 8021q trunk [PortNumber] trunk-link tag [TaggedVID List] vlan 8021q trunk [PortNumber] hybrid-link untag Level Description group. If there is no group, this command can’t be applied.
Command Level [UntaggedVID] tag [TaggedVID List] show vlan V [GroupID] or show vlan no vlan group V [GroupID] Description Example trunk 3 hybrid-link untag 5 tag 6-8 Show VLAN information switch(vlan)#show vlan 23 Delete port based group ID switch(vlan)#no vlan group 2 The following table lists the Spanning Tree Commands.
Command Level stp-path-cost [1~200000000 ] I stp-pathpriority [Port Priority] I stp-admin-p2p [Auto|True| False] I Description time determines how long each of the listening and learning states last before the port begins forwarding. Use the spanning-tree cost interface configuration command to set the path cost for Spanning Tree Protocol (STP) calculations. In the event of a loop, spanning tree considers the path cost when selecting an interface to place into the forwarding state.
The following table lists the QoS Commands.
no igmp-query G Disable IGMP query switch#no igmp-query The following table lists the MAC/Filter Table Commands. Command Level mac-address-ta I ble static hwaddr [MAC] mac-addresstable filter hwaddr [MAC] show macaddress-table show macaddress-table static show macaddress-table filter no macaddress-table static hwaddr [MAC] G no macaddress-table filter hwaddr [MAC] no macaddress-table P Description Example Configure static MAC address switch(config)#interface table.
Command [System Location] snmp systemcontact [System Contact] snmp agent-mode [v1v2c|v3|v1v2 cv3] snmp communitystrings [Community] right [RO/RW] snmp-server host [IP address] community [Communitystring] trap-version [v1|v2c] snmpv3 context-name [Context Name ] snmpv3 user [User Name] group [Group Name] password [Authentication Password] [Privacy Password] snmpv3 access context-name [Context Name ] group Level Description Example G Set SNMP agent system contact switch(config)#snmp system-contact where
Command [Group Name ] security-level [NoAuthNoPriv| AuthNoPriv| AuthPriv] match-rule [Exact|Prifix] views [Read View Name] [Write View Name] [Notify View Name] snmpv3 mibview view [View Name] type [Excluded| Included] sub-oid [OID] show snmp no snmp communitystrings [Community] no snmp-server host [Host-address] no snmp-server host [Host-address] no snmpv3 user [User Name] no snmpv3 access context-name [Context Name ] group Level Description G Configure the mibview table of switch(config)#snmpv3 SNMPV3
Command Level [Group Name ] security-level [NoAuthNo Priv|AuthNoPriv |AuthPriv] match-rule [Exact|Prifix] views [Read View Name] [Write View Name] [Notify View Name] no snmpv3 G mibview view [View Name] type [Excluded| Included] sub-oid [OID] Description Example Remove specified mibview table of SNMPV3 agent. switch(config)#no snmpv3 mibview view V1 type Excluded sub-oid 1.3.6.1 The following table lists the commands for Port Mirroring.
The following table lists the commands for the 802.1x Security functions. Command 8021x enable Level G 8021x system radiusip [IP address] G 8021x system serverport [port ID] G 8021x system accountport [port ID] G 8021x system sharekey [ID] G 8021x system nasid [words] G 8021x misc quietperiod [sec.] G 8021x misc txperiod [sec.] G 8021x misc supportimeout [sec.] G The 802.
Command Level Description server timeout. Example 8021x misc maxrequest [number] G The 802.1x misc max request switch(config)# 8021x misc global configuration command maxrequest 3 is used to set the MAX requests. 8021x misc reauthperiod [sec.] G The 802.1x misc reauth period global configuration command is used to set the reauth period. switch(config)# 8021x misc reauthperiod 3000 8021x portstate [disable | reject | accept | authorize] I The 802.
The following table lists the SystemLog, SMTP and Events Commands. Command systemlog ip [IP address] Level G Description Set IP address of system log server Example switch(config)#systemlog ip 192.168.1.
Command [Systemlog| SMTP|Both] event systemlog [Link-UP|LinkDown|Both] event smtp [Link-UP|LinkDown|Both] Level Description Example I Set port event for system log I Set port event for SMTP show event no event device-coldstart no event authenticationfailure no event X -ring-topologychange no event systemlog P G Display event selection Disable cold start event type switch(config)#interface fastethernet 3 switch(config-if)#event systemlog both switch(config)#interface fastethernet 3 switch(config-i
Command [Start time] [End time] Level sntp daylight-offset [Minute] G sntp ip [IP] G sntp timezone [Timezone] G show sntp show sntp timezone no sntp no sntp daylight P P G G Description disabled, this command can’t be applied. Parameter format: [yyyymmdd-hh:mm] Set offset of daylight saving time. If SNTP function is disabled, this command can’t be applied. Set SNTP server IP. If SNTP function is disabled, this command can’t be applied.
Command [Control Port] X - ring homingport [Dual Homing Port] show X - ring no X - ring no X - ring master no X - ring couplering no X - ring dualhoming Level Description Example G Configure dual homing port switch(config)#Xring homingport 3 P G G Display X-ring information Disable X-ring Disable ring master G Disable coupling ring G Disable dual homing switch#show Xring switch(config)#no X ring switch(config)# no Xring master switch(config)# no Xring couplering switch(config)# no Xring dualhom
7.0 Troubleshooting All Waters’ switching products are designed to provide reliability and consistently high performance in all network environments. The installation of Waters’ MS1008-2G-4POE/PSX1008-2G-4PoE switch is a straightforward procedure (See Sections 3-5). Should problems develop during installation or operation, this section is intended to help locate, identify and correct these types of problems. Please follow the suggestions listed below prior to contacting your supplier.
800.328.2275 or email carolynl@watersnet.com for assistance. When Calling for Assistance Please be prepared to provide the following information. 1. A complete description of the problem, including the following: a. The nature and duration of the problem b. Situations when the problem occurs c. The components involved in the problem d. Any particular application that, when used, appears to create the problem 2. An accurate list of Waters Network Systems product model(s) involved.
repair products that are under warranty at no charge, and will return the warranty-repaired units to the sender with shipping charges prepaid (see Warranty Information at the end of this manual for complete details). However, if Waters cannot duplicate the problem or condition causing the return, the unit will be returned as: No Problem Found. Waters Network Systems reserves the right to charge for the testing of non-defective units under warranty.
8.0 Warranty Waters Network Systems’ Warranty Statement Waters Network Systems’ products are warranted against defects in materials and workmanship. The warranty period for each product will be provided upon request at the time of purchase. Unless otherwise stated, the warranty period is for the useable life of the product.
Systems. Returned product accompanied with the issued RMA number and prepaid shipping will be repaired or replaced by Waters Network Systems. Repaired or replaced products will be returned at no cost to the original Buyer and shipped via the carrier and method of delivery chosen by Waters Network Systems. A product’s lifetime ends when service and repair for the product can no longer be obtained from the original manufacturer or its direct successor or assignee.
WATERS NETWORK SYSTEMS’ LIABILITY UNDER THE WARRANTY SHALL BE LIMITED TO PRODUCT REPAIR, OR REPLACEMENT OF THE BUYER’S PURCHASE PRICE. IN NO EVENT SHALL WATERS NETWORK SYSTEMS BE LIABLE FOR THE COST OF PROCUREMENT OF SUBSTITUTE GOODS BY THE CUSTOMER OR FOR ANY CONSEQENTIAL OR INCIDENTAL DAMAGES FOR BREACH OR WARRANTY.
WILL MAKE REASONABLE EFFORTS TO PROVE COMPATIBILITY, EXCEPT WHERE THE NON-COMPATIBILITY IS CAUSED BY A “BUG” OR DEFECT IN THE THIRD PARTY’S PRODUCT. WARRANTIES EXCLUSIVE: IF A WATERS PRODUCT DOES NOT OPERATE AS WARRANTED ABOVE, CUSTOMER’S SOLE REMEDY SHALL BE REPAIR, OR REPLACEMENT, AT WATERS OPTION.
THE SALE, INSTALLATION, MAINTENANCE, USE, PERFORMANCE, FAILURE, OR INTERRUPTION OF ITS PRODUCTS, EVEN IF WATERS OR ITS AUTHORIZED RESELLER HAS BEEN ADVISED OF THE POSSIBILITY OF SUCH DAMAGES. NOTHING HEREIN SHALL HAVE THE EFFECT OF LIMITING OR EXCLUDING WATERS’S LIABILITY FOR DEATH OR PERSONAL INJURY CAUSED BY NEGLIGENCE. Waters Network Systems, LLC 5001 American Blvd. West, Suite 605 Minneapolis, MN 55437 Phone Number: Fax Number: Waters Network Systems 952.831.5604 952.831.
