POE WEB-MANAGED GIGABIT ETHERNET SWITCH USER MANUAL
Contents
1. Port Mode oe IP Netmask Port 1 IP Filter Dissble Port 2 IP Filter Disable Port 3 IP Filter Disable Port 4 IP Filter Disable Port 5 IP Filter Disable Part fi IP Filter Disahle Figure 38 IP Filter Configurations Hint The following parameters are shown on the IP Filter Configurations screen m Mode Configure the switch to filter traffic based on IP addresses Default IP Filter Disable Filter Disable Disable IP filtering on the port s Static Enable traffic filtering based on IP addresses configured in the table DHCP Enable traffic filtering based on IP addresses assigned through DHCP 50 m IP Address An IP address or an address specifying a range that is allowed access through the switch m IP Netmask A mask that specifies a single IP address or defines a range of IP addresses Default 255 255 255 0 m DHCP Server Allowed Permit traffic from a DHCP server through the specified ports Default ports allowed 51 Storm Control settings Broadcast storms may occur when a device on your network is malfunctioning or if application programs are not well designed or properly configured If there is too much broadcast traffic on your network performance can be severely degraded or everything can come to complete halt You can protect your network from broadcast storms by setting a threshold for broadcast traffic Any broadcast packets exceeding the specified threshold will then be2. m Defence Engine Enable or disable the feature Default Enabled 54 CHAPTERS Monitoring Port Statistics Information You can display standard statistics on network traffic passing through each port This information can be used to identify potential problems with the switch such as a faulty port or unusually heavy loading All values displayed have been accumulated since the last system reboot Web Smart switch interface Click Monitoring Port Statistics to display port statistics Port Statistics Information Port State Link Status TxGoodPkt TxBadPkt RxGoodPkt RxBadPkt 0 0 0 0 Port 1 Enabled Link Down Port 2 Enabled Link Down 0 0 0 0 Port 3 Ensbled Link Up 1854 0 1876 0 Port 4 Enabled Link Down 0 0 0 0 Port 5 Enabled Link Down 0 0 0 0 Port 6 Enabled Link Down 0 0 0 0 Port 7 Enabled Link Down 0 0 0 0 Port 8 Enabled Link Down 0 0 0 0 Port 9 Enabled Link Down 0 0 0 0 Port 10 Enabled Link Down 0 0 0 0 Port 11 Enabled Link Down 0 0 0 0 Port 12 Enabled Link Down 0 0 0 0 Port 13 Enabled Link Down 0 0 0 0 Port 14 Enabled Link Down 0 0 0 0 Port 15 Enabled Link Down 0 0 0 0 Port 16 Ensbled Link Down 0 0 0 0 Port 17 Enabled Link Down 0 0 0 0 Port 18 Ensbled Link Down 0 0 0 0 Figure 42 Port Statistics Information Hint The following parameters are shown on the Port Statistics Information screen m Port The port number m State Display the link state of port interfaces Enabled or Disabled m Link Status Display the
3. dropped Web Smart switch interface To configure Storm Control settings 1 Click Security Storm Control 2 Select the Storm Control type 3 Select one or more ports to configure 4 Set the State to On and set the threshold rate 5 Click Apply Storm Control Setting Port 1 Port 2 j Port 3 Broadcast v Port 4 off v 0 1000000 Port 5 Port 6 z Port Broadcast pps Multicast pps Unknown Unicast pps Unknown Multicast pps Off Off Off Off Port 1 Port 2 Off Off Off Off Port 3 Off Off Off Off Port 4 Off Off Off Off Port 5 Off Off Off Off Port 6 Off Off Off Off Port 7 Off Off Off Off Port 8 Off Off Off Off Port 9 Off Off Off Off Port 10 Off Off Off Off Figure 39 Storm Control settings Hint The following parameters are shown on the Storm Control screen m Storm Type Select the storm control type Broadcast Multicast Unknown Unicast Unknown Multicast Port Select port and trunk interfaces Port Range 1 18 m State Enable or disable storm control Default Off m Rate Threshold as packets per second pps Range 0 1000000 52 Port Isolation The feature provides port based security and isolation of local ports The switch isolates port traffic by specifying those ports to which it can forward or receive traffic Web Smart switch interface To configure Port Isolation settings 1 Click Security Port Isolation 2 Select one or more ports to configure 3 S
4. Figure 17 IGMP Snooping 22 IGMP Global Setting Web Smart switch interface To manage IGMP Snooping global settings 1 Click Configuration IGMP Snooping IGMP Snooping Setting 2 Enable IGMP Snooping on the switch 3 Modify other IGMP global settings as required 4 Click Update Hint The following parameters are shown on the IGMP Snooping global settings screen m IGMP Snooping When enabled the switch will monitor network traffic to determine which hosts want to receive multicast traffic Default Disabled This switch can passively snoop on IGMP Query and Report packets transferred between IP multicast routers switches and IP multicast host groups to identify the IP multicast group members The switch monitors the IGMP packets passing through it picks out the group registration information and configures the multicast filters accordingly m IGMP Fast Leave Immediately deletes a member port of a multicast service if a leave packet is received on that port Fast Leave can improve bandwidth usage for a network that frequently experiences many IGMP host add and leave requests Default Disabled m Unknown Multicast When the table used to store multicast entries for IGMP snooping is filled no new entries are learned If no router port is configured in the attached VLAN any subsequent multicast traffic not found in the table is either dropped or flooded throughout the VLAN Default Drop Query Interval Sets the freque
5. the intrusion will be detected and the switch can automatically take a specified action Web Smart switch interface To configure port security 1 Click Configuration Port Security 2 Select the ports to configure 3 Set Security to Enable 4 Configure the maximum number of MAC addresses allowed on the port 5 Set an action for port security violations 6 Click Apply Port Security Setting JI Disable amp ted 0 16447 Port 1 Dis abled Port 2 Dis abled Port 3 Disabled Port 4 Dis abled Port 5 Dis abled Port 6 Dis abled Port 7 Dis abled Port 8 Dissbled Port 9 Dis abled Port 10 Dis abled Figure 28 Port security Hint The following parameters are shown on the Port Security screen m Port Port number m Security Enable or disable port security for the selected ports Default Disabled 38 m Maximum L2 Entry The maximum number of MAC addresses that can be learned on a port Range 0 16447 where 0 means disabled Action Indicate the action to be taken when a port security violation is detected Trap to CPU Send an SNMP trap message This is the default Drop Drop other traffic from the port Forward No action is taken Traffic is forwarded as usual 39 Bandwidth Control Setting This function allows the network manager to control the maximum rate for traffic received on a port or transmitted from a port Rate limiting is configured on ports at the edge of a netw
6. Distribution Algorithm Parameters as required 4 Click Apply Trunk Distribution Algorithm Setting Group ID Distribution Algorithm Parameters Trunk1 a Port Source mac DL1source iP C Dest IP Apply Group ID Distribution Algorithm Parameters Trunk 1 SMAC Trunk 2 SMAC Trunk 3 SMAC Trunk 4 SMAC Trunk 5 SMAC Trunk 6 SMAC Trunk 7 SMAC Trunk 8 SMAC Figure 10 Trunk Distribution Algorithm Setting Hint The switch provides five load balancing methods to distribute a balanced load across all links in a trunk The following parameters are displayed on the Trunk Distribution Algorithm Setting screen m Distribution Algorithm Parameters To ensure the switch traffic load is distributed evenly across all links in a trunk the hash methods used in the load balance calculation can be selected to provide the best result for trunk connections The following options are supported Source Port traffic with the same source and destination TCP UDP port number is output on the same link in a trunk Avoid using this mode as a lone option as it may overload a single port member of the trunk for application traffic of a specific type such as Web browsing However it can be used effectively in combination with the IP Address option Source MAC traffic with the same source MAC address is output on the same link in a trunk This mode works best for switch to switch trunk links where traffic
7. Protocol ID The Tag Protocol Identifier specifies the Ether type of incoming packets on a tunnel port Range 0 x 0600 0 x FFFF hexadecimal Default 0 x 88a8 m PVID The stacking VLAN Port VLAN Identifier The PVID determines the stacking VLAN tag for single tagged packets forwarded to an enabled S VLAN port m Provider Network Port This lets you set the S VLAN membership mode for the selected interface This mode is used to segregate and preserve customer VLAN IDs for traffic crossing the service provider network Default Disable Enable Indicate a port linked to a service provider an 802 1Q Tunnel port Disable Indicate a port linked to a customer 20 IGMP Multicast Group Information To display multicast group and router port information click Configuration IGMP Snooping Multicast Entry Table The IGMP Multicast Router Information table displays the current multicast groups learned through IGMP Snooping Multicast routers that are attached to ports on the switch use information obtained from IGMP along with a multicast routing protocol such as DVMRP or PIM to support IP multicasting across the Internet You can use the IGMP Multicast Router Information table to see which ports on the switch are attached to a neighboring multicast router IGMP Multicast Group Information VID VLAN Name Source IP Group Address Member Port IGMP Multicast Router Information VID VLAN Name Dynam ic Router Port Figure 1
8. VLAN 2 Select a VLAN ID number 3 Define a name to identify the VLAN 4 Mark the ports to be assigned to the new VLAN as tagged or untagged members 5 Click Add Modify Static VLAN Table Setting VLAN ID 1 4094 VLAN Name Port a Ep TE Al Joooooooooooooo tossed Not me mo er ETERETTIDEIENUUI Emm oo o o Ad d Modify VLAN ID VLAN NameMember Ports Tagged Ports Untagged zem default 1 18 1 18 Figure 12 Static VLAN Table Setting Hint The following parameters are shown on the Static VLAN Table Setting screen m Port Select VLAN membership for each interface by marking the appropriate radio button for a port or trunk as Untagged Tagged or Not Member m VLAN ID VLAN Identifier Range 1 4094 m VLAN Name Name of the VLAN 1 100 characters 16 VLAN Port Setting Arranging VLAN attributes for specific interfaces including the default Port VLAN identifier PVID Web Smart switch interface To specify attributes for VLAN port members 1 Click Configuration VLAN VLAN Setting 2 Select one or more ports or trunks to configure 3 Configure the required PVID setting 4 Click Apply VLAN Port Setting Front avin Port 1 1 Port 2 1 Port 3 1 Port 4 1 Port 5 1 Port 6 1 Port 7 1 Port 8 1 Port 9 1 Port 10 1 Figure 13 VLAN Port Setting Hint The following parameters are shown on the Static V
9. for a network Web Smart switch interface To configure port level DSCP remarking 1 Click Configuration QoS Priority to Queue Mapping 2 Map one or more priority values to a queue ID 3 Click Apply Priority to Queue Mapping Setting B O X he WN Miwes Apply 0 C w N OO wo Figure 22 Priority to Queue Mapping Setting Hint The following parameters are shown on the DSCP based Priority Setting screen m Priority CoS value Range 0 7 where 7 is the highest priority Queue ID Output queue buffer Range 1 8 where 8 is the highest priority queue 31 Packet Scheduling Setting You can set the switch to service the queues based on a strict rule that requires all traffic in a higher priority queue to be processed before lower priority queues are serviced Weighted Fair Queuing WFQ or Weighted Round Robin WRR queuing specifies a relative weight of each queue The traffic classes are mapped to one of the eight egress queues provided for each port You can assign a weight to each of these queues and thereby to the corresponding traffic priorities This weight sets the frequency at which each queue will be polled for service and subsequently affects the response time for software applications assigned a specific priority value Web Smart switch interface To configure port level DSCP remarking 1 Click Configuration QoS Packet Scheduling 2 Selec
10. link state of the port interface Link Up or Link Down m TxGoodPkt The total number of packets transmitted out of the interface m TxBadPkt The total number of outbound packets that could not be transmitted because of errors m RxGoodPkt The total number of packets received on the interface m RxBadPkt The total number of inbound packets that contained errors preventing them from being deliverable m Clear Click the button to reset all counters 55 CHAPTER 6 Tools Http Upgrade Use the HTTP Upgrade screen to upgrade the switch s system firmware by specifying a new software file You can also use the HTTP Upgrade screen to save the current configuration to a file on your computer or to restore previously saved configuration settings to the switch Web Smart switch interface To upgrade switch software 1 Click Tools HTTP Upgrade 2 Click Browse and select the firmware file 3 Click Upgrade to upgrade the switch s firmware After the software file is uploaded the switch prompts for a reboot HTTP Configuration Backup HTTP Configuration Restore Restore HTTP F irmware Upgrade Z Figure 43 Http Upgrade Hint The following parameters are shown on the Http Upgrade screen m HTTP Configuration Backup Click the Backup button to save the current configuration settings to a file on the local Web management station m HTTP Configuration Restore Restore previously saved con
11. new user name 3 Enter the new password 4 Enter the new password again to confirm your input 5 Click Save User Account Setting New Username Retype Password Apply Figure 7 User Account Setting Port Setting To specify options for enabling auto negotiation or manually setting the speed and duplex mode or for enabling flow control To set up port configuration in the Web browser 1 Click System Port Setting 2 Select one or more ports to configure 3 Make any required changes to the connection settings 4 Click Apply 10 Port Setting Enable ww Off Apply Speed Duple x Flow Control Port State Port 1 Ensbled Auto Link Down On Link Down Port 2 Ensbled Auto Link Down On Link Down Port 3 Ensbled Auto 100Full On Off Port 4 Ensbled Auto Link Down On Link Down Port 5 Ensbled Auto Link Down On Link Down Port 6 Enabled Auto Link Down On Link Down Port 7 Ensbled Auto Link Down On Link Down Port 8 Enabled Auto Link Down On Link Down Port9 Ensbled Auto Link Down On Link Down Figure 8 Port Setting Hint The following parameters are displayed on the Port Setting configuration screen Port Lets you set up one or more ports Hold down the CTRL key and click port numbers to select multiple ports Hold down the SHIFT key to select a range of ports m State Lets you set the link state of port interfaces Default Enabled m Speed Duplex Configures th
12. to uM ple 24 Spanning Tree RE EC 25 Spanning Tree Port Setting 27 Quality of Service QOS n 29 Port based Priority 29 DSCP based Priority Setting iios aeria Fes ribera d sa Fi 30 Priority to Queue Mapping 31 Packet Scheduling 32 EEDP Gonfig rations ios cnt ete Pte ee v o e 33 erp rrr tnter ertet EO ERE ERE 34 SNMP Setting eere eles de oie t e Auer ae 35 Trap Receivers Setting i e nnne nnns 36 Port Mirroring Setting siesena te E ee red eeu Ene e tere dn s 37 Port Security Setting idee o rU D UA doped ke ERR MEME 38 Bandwidth Control Setting Hee 40 Frame Setting ge taco aee used t cedat ot aca au Met 42 Management Access 43 CHAPTER 4 SecUrlty aite itane rt an d 45 MAC Address Information 45 Static Setting leet actu etr etes te oom petente tied 46 MAG Filtering Setting eet
13. 02 1x Port Setting screen m Mode Sets the authentication mode to one of the following options Force Authorized Force the port to grant access to all clients either dot x aware or otherwise Force Unauthorized Force the port to deny access to all clients either dotlx aware or otherwise Authentication Require a dotlx aware client to be authorized by the authentication server Clients that are not dot1x aware will be denied access No Authentication Disable 802 1x authentication on the port This is the default setting m State Show the current status of the 802 1x authentication process 49 IP Filter Configurations IP Filter Security is a feature that filters IP traffic on port interfaces based on manually configured entries in the IP Filter table or allowed IP address assignment through DHCP IP Filter Security can be used to prevent traffic attacks caused when a host tries to use the IP address of a neighbor to access the network Web Smart switch interface To configure IP Filter settings 1 Click Security IP Filter Setting 2 Select one or more ports to configure 3 Select the mode Static and set an IP address or select DHCP 4 Select ports on which to allow traffic to DHCP servers 5 Click Apply IP Filter Configurations Port Mode IP Address IP Netmask i v 0 0 0 0 255 255 255 0 Apply 2 5 9 12 DHCP Server Allowed 2 2
14. 6 Multicast Entry Table Hint The following parameters are shown on the Multicast Entry Table screen m VID A VLAN on the switch that is forwarding multicast traffic to downstream ports for the specified multicast group address VLAN Name The name of the VLAN on the switch that is forwarding multicast traffic m Source IP The IP address of one of the multicast servers transmitting traffic to the specified group m Group Address IP multicast group address with subscribers directly attached or downstream from the switch or a static multicast group assigned to this interface m Member Port A downstream port that is receiving traffic for the specified multicast group Dynamic Router Port The port interfaces dynamically discovered by the switch to be attached to multicast routers 21 IGMP Snooping IGMP Snooping Internet Group Management Protocol Snooping is a multicast constraining mechanism that runs on a Layer 2 switch to manage and control multicast groups IGMP Global Setting IGMP Snooping IGMP Fast Lea ve AH it Unknown Multicast Drop Query Interval 125 600 Sec Response Time 26 Sec Router T imeout eo eoo Sec Last Member Query Interval las Sec Robustness Variable 2 joe IGMP VLAN Setting VLAN ID Snooping State Querier State MEE Snooping State Qu erier State VLAN ID VLAN Name 1 defsult Ensbled Dissbled
15. LAN ID The VLAN identifier of a stacking VLAN Range 1 4094 m Member Ports Switch ports that are members of the stacking VLAN that is ports that will double tag ingress and egress packets 18 VLAN Stacking Setting After configuring port members for stacking VLANs on the switch the ports connected to a service provider network need to be enabled as double tagged ports Also the Tag Protocol Identifier TPID value must be set for the double tagged ports to identify 802 1Q tagged frames Web Smart switch interface To manage stacking VLAN port settings 1 Click Configuration VLAN Stacking S VLAN Setting 2 Specify the Tag Protocol ID number 3 Set the stacking PVID for service provider ports and configure them as Enabled 4 Click Apply Tag Protocol ID oxoeo0 oxf6 Ap ply S VLAN Port Configuration Disable Port PVID Provider Network Port Port 1 1 Dis abled Port 2 1 Disabled Port 3 1 Dissbled Port 4 1 Dissbled Port 5 1 Disabled Port 6 1 Dis abled Port 7 1 Dis abled Port 8 1 Dis abled Port 9 1 Dis abled Port 10 1 Dis abled Port 11 1 Dis abled Port 12 1 Dis abled Port 13 1 Dis abled Port 14 1 Dis abled Port 15 1 Dis abled Port 16 1 Dis abled Port 17 1 Dis abled Port 18 1 Dis abled Port 19 1 Dis abled Port 20 1 Dis abled Port 21 1 Dis abled Figure 15 VLAN Stacking Setting 19 Hint The following parameters are shown on the VLAN Stacking Table Setting screem m Tag
16. LAN Table Setting screen Port Lets you select one or more ports to configure Hold down the CTRL key and click port numbers to select multiple ports Hold down the SHIFT key to select a range of ports m The VLAN ID assigned to untagged frames received on the interface Range 1 4095 Default 1 Ports must be a member of the same VLAN as the Port VLAN ID 17 VLAN Stacking Table Setting Set the stacking VLAN membership for selected interfaces to be part of the Service Provider VLAN S VLAN that is uplink ports for a 802 1Q Tunnel This stacking VLAN is used to segregate and preserve customer VLAN IDs for traffic crossing the service provider network The switch supports up to 64 S VLAN IDs Web Smart switch interface To manage stacking VLAN port members 1 Click Configuration VLAN Stacking S VLAN Table 2 Specify the S VLAN ID number 3 Mark the ports to be included as stacking VLAN port members for specified S VLAN 4 Click Add Port 1 1 Dis abled Port 2 1 Dis abled Port 3 1 Dis abled Port 4 1 Disabled Port 5 1 Disabled Port 6 1 Dis abled Port 7 1 Dissbled Port 8 1 Disabled Port 9 1 Dis abled Port 10 1 Disabled Port 11 1 Dis abled Port 12 1 Dis abled Port 13 1 Dis abled Port 14 1 Dis abled Port 15 1 Disabled Port 16 1 Dissbled Port 17 1 Dissbled Port 18 1 Disabled Figure 14 VLAN Stacking Table Setting Hint The following parameters are shown on the VLAN Stacking Table Setting screen m S V
17. Root MAC Address 00 03 CE 0A 00 01 Root Path Cost Root Port No ne Root Maximum Age 20 Sec Root Hello Time 2Sec Root Forward Delay 15 Sec Topology Changes 0 Times Last Topology Change Time 0 gt o lt Figure 18 spanning tree settings Hint The following parameters are shown on the Spanning Tree settings screen m Spanning Tree Status Enable Spanning Tree on the switch Default Disabled m Force Version Select the type of spanning tree used on this switch Options or STP Default RSTP m Priority Bridge priority is used in selecting the root switch root port and designated port The switch with the highest priority becomes the STP root switch However if all switches have the same priority the switch with the lowest MAC address will then become the root switch Note that lower numeric values indicate higher priority Options 0 61440 in steps of 4096 Default 32768 Maximum Age The maximum time in seconds a switch can wait without receiving a configuration message before attempting to reconfigure All switch ports except for designated ports should receive 5 N configuration messages at regular intervals Any port that ages out STP information provided in the last configuration message becomes the designated port for the attached LAN If it is a root port a new root port is selected from among the switch ports attached to the network Note that references to ports in this sectio
18. USER MANUAL INTELLINET INTELLINET NETW OR K SOLUTION S INT 560535 560559 UM 0314 06 Contents CHAPTER 1 Jntroductiolh occi DIG adio bNE CK ER HM 5 Web Browser 2 5 Morello ERR 6 CHAPTER 2 8 System NFO isseire eenen ee aae 8 IP Address 8 Address SEUNG Meet 9 BI ees n 10 Port S BUB ii inthe st dat epp Ge etta a iudi testi um d E a OER 10 CHAPTER 3 Configuration os ciu thn ania anuo ta ix dt na aga ink a iK ou cx m cw R PER a Ru 12 Trunk Group Setting eiiie ee er tdeo e rt Peu KR RE HU rh Le RE evi 12 Trunk Distribution Algorithm 13 DG Po WING 15 Static VLAN Table Setting 16 VLAN POR Setting eani dett entum AT ute castae Lh daa situ 17 VLAN Stacking Table Setting 18 WEAN Stacking Setting sessiossa snoren eiva ae AE ine N 19 IGMP Multicast Group Information 21 IGMP SOO PIA NN NE o oL TD 22 IGMP Global Setting met Es 23 IGMP VLAN
19. ader allowing coding for up to 64 different forwarding behaviors The DSCP replaces the ToS bits but it retains backward compatibility with the three precedence bits so that non DSCP compliant ToS enabled devices will not conflict with the DSCP mapping Based on network policies different kinds of traffic can be marked for different kinds of forwarding Note that all the DSCP values that are not specified are mapped to priority value 0 Web Smart switch interface To configure port level DSCP remarking 1 Click Configuration QoS DSCP based Priority 2 Map one or more DSCP values to a priority value 3 Click Apply DSCP based Priority Setting 0 to N 9 Figure 21 DSCP based Priority Setting Hint The following parameters are shown on the DSCP based Priority Setting screen m DSCP List the DSCP values Range 0 63 m Priority Map a priority value to the selected DSCP Priority value Note that 0 represents low priority and 7 represent high priority DSCP Priority Table Show the DSCP to Priority map 30 Priority to Queue Mapping Setting The QoS technique known as class of service CoS is a three bit field within an Ethernet frame header when using tagged frames on an 802 1 network So up to eight separate traffic priorities are defined in IEEE 802 1p You can map the priority levels to the switch s output queues in any way that benefits application traffic
20. blocked if the Spanning Tree Protocol 27 is detecting network loops Where more than one port is assigned the highest priority the port with the lowest numeric identifier will be enabled Range 0 240 in steps of 16 Default 128 m P2P The link type attached to an interface can be set to automatically detect the link type or to be manually configured as a point to point or shared medium Transition to the forwarding state is faster for point to point links than for shared media These options are described below Auto The switch automatically determines if the interface is attached to a point to point link or to a shared medium This is the default setting True A point to point connection to exactly one other bridge False A shared connection to two or more bridges m Edge Fast Forwarding You can enable this option if an interface is attached to a LAN segment that is at the end of a bridged LAN or to an end node Since end nodes cannot cause forwarding loops they can pass directly through to the spanning tree forwarding state Specifying edge ports provides quicker convergence for devices such as workstations or servers retains the current forwarding database to reduce the amount of frame flooding required to rebuild address tables during reconfiguration events does not cause the spanning tree to initiate reconfiguration when the interface changes state and also overcomes other STP related timeout problems However re
21. c beer cede dede d ere eh 47 802 1X Setting uote eie et ater e P ee ep qd ehe nde eap er doti ge 48 BOD Tx rr e ied E ERR ER oen E ON UEM 49 Filter Configurations os eases het eet oe Reiner xen en Ban Hane De eee 50 Storm Control settings eee 52 Port ISolati n e e e cem tbe nS CE THREE PRI EET Ie re ERAS 53 Defence Engine 54 CHAPTER 5 Monitoring etna dette s aede 55 Port Statistics Information tiet Gat ete et e RED ee 55 GHAPTER 6 TOOIS ziii eie aie ete invio arene des ot sans ees Lan 56 Http Upgrade in ned ene ee e ie bie edt 56 Reset Factory Defaults eee 57 Reboot sanen diee ea haee aed tee end e be ue ec Eee PD e ees 58 Thank you for purchasing the Intellinet Network Solutions PoE Web Managed Gigabit Ethernet Switch Model 560535 16 port or 560559 24 port This handy switch is designed to pass both data and electrical power to a number of PoE compatible devices via standard Cat5e or Cat6 network cables Easy to follow instructions in this user manual help make installation quick and simple so you ll also soon be enjoying the benefits of these additional features 10 100 1000 auto sensing ports automatically detect optimal network speeds Two small form factor pluggable GBIC module slots SFP IEEE 802 3at af compliant RJA5 PoE PoE output ports Total power budget of 166 watts for 16 port 164 watts
22. connection User name admin Password Figure 2 Login Popping Up Window NOTE If you do not see the login page check that Steps 1 and 2 were done correctly Step 4 Key in both the default user name admin and the password admin to pass the authentication After the authentication procedure the switch is operational and the interface menu below should display Configuration Link Aggregation VLAN fm VLAN Stacking IGMP Snooping E Spanning Tree MAC Address 802 1 Monitoring Tools Web Based Management Intertace CHAPTER2 System System Information To look up system information in the Web browser click System then Information Web Smart switch interface System Information IPv6 Address Intelligent Switch 00 03 CE 0A 00 00 192 168 1 1 255 255 255 0 192 168 1 254 fe80 203 ceff fe0a 0 64 v1 1 1 6 Wed Nov 24 18 48 51 CST 2010 Figure 4 System Information IP Address Setting To set up a static IP address for the switch Web Smart switch interface 1 Click System then IP Setting 2 Set the Mode to Static IP 3 Specify the IP address subnet mask and gateway address 4 Click Apply IP Address Setting IP Address Subnet Mask Gateway Static IP 192 168 1 1 255 255 255 0 192 168 1 254 Apply Figure 5 IP Setting IPv6 Address Setting IPv6 is an Internet Laye
23. e port speed and duplex mode using auto negotiation or manual selection Default Auto negotiation enabled Auto Enables auto negotiation When using auto negotiation the optimal settings will be negotiated between the link partners based on their advertised capabilities Auto must be enabled for all 1 Gbps connections 100M Full Supports 100 Mbps full duplex operation 100M Half Supports 100 Mbps half duplex operation 10M Full Supports 10 Mbps full duplex operation 10M Half Supports 10 Mbps half duplex operation m Flow Control Displays the following Config The configured flow control mode of the port Actual Indicates the link status of the port When a link is up indicates the operating flow control mode 11 CHAPTER 3 Configuration Trunk Group Setting To configure a trunk group Web Smart switch interface 1 Click Configuration Link Aggregation Trunk Group Setting 2 Select the trunk group ID to be created or modified 3 Select the trunk type Static or LACP 4 Assign up to four port members to the trunk 5 Click Add Modify Trunk Group Setting Trunk1 Static Add Modify Figure 9 Trunk Group Setting 12 Trunk Distribution Algorithm Setting To configure a trunk s load balancing settings Web Smart switch interface 1 Click Configuration Link Aggregation Trunk Setting 2 Select the trunk group ID to be configured or modified 3 Select the trunk
24. elect one or more ports to which traffic can be forwarded and received 4 Click Apply Port Isolation Setting Port Isolation List Port Isolation List Port 1 1 18 Port 2 1 18 Port 3 1 18 Port 4 1 18 Port 5 1 18 Port 6 1 18 Port 7 1 18 Port 8 1 18 Port 9 1 18 Port 10 1 18 Figure 40 Port Isolation Hint The following parameters are shown on the Port Isolation screen Port Select port and trunk interfaces Port Range 1 18 Port Isolation List Select port and trunk interfaces to which traffic can be forwarded and received Port Range 1 18 Default All ports and trunks 53 Defence Engine Defence sic Engine is an advanced feature that can prevent the switch s CPU from being overwhelmed by flooded packets such as unknown unicast unknown multicast or broadcast packets This function can be used to prevent malicious viruses or worm attacks Web Smart switch interface To configure Defence Engine settings 1 Click Security Defence Engine 2 Set Defence Engine status to Enabled 3 Click Apply Defence Engine Setting Defence Engine Enabled v Apply Defence Engine is a advanced feature that can prevent switch s CPU from overwhelming by flooding packets such as unknown unicast unknown multicast broadcast packets This function can be used to prevent malicious viruses or worm attacks Figure 41 Defence Engine Hint The following parameters are shown on the Defence Engine screen
25. f the LAN segment attached to this interface This parameter is determined by manual configuration or by auto detection s Edge The Edge setting for the port Config The administrator configured Edge setting Actual This parameter is initialized to the port setting for Edge that is True or False but will be set to false if a BPDU is received indicating that another bridge is attached to this port 28 Quality of Service QoS QoS is the evaluation on the service ability of network delivery or on the capacity of dealing with situations such as delay delay jitter and packet loss rate in packet delivery Port based Priority Setting Management of the default port priority for each port on the switch Web Smart switch interface To configure global settings for Spanning Tree 1 Click Configuration QoS Port based Priority 2 For one or a group of ports set the default priority value 3 Click Apply Port based Priority Setting i Port 1 0 Port 2 Port 3 Port 4 Port 5 Port 6 Port 7 Port 8 Port 9 Port 10 Figure 20 Port based Priority Setting Hint The following parameters are shown on the Port based Priority Setting screen m Priority The default priority used when adding a tag to untagged frames Range 0 7 Default 0 29 DSCP based Priority Setting The Differentiated Services Code Point DSCP is a six bit field in the IP he
26. figuration settings to the switch from a file on the local Web management station Use the Browse button to locate the configuration file then click Restore m HTTP Firmware Upgrade Upgrade the switch software from a file on the local Web management station Use the Browse button to locate the software file then click Upgrade 56 Reset Factory Defaults To restore factory defaults Web Smart switch interface Click Tools Reset then click the Reset button The reset will be complete when the Web browser displays the login page Reset Reset to default factory settings and restart the system Figure 44 Reset 57 Reboot To restart the switch Web Smart switch interface To click Tools Reboot then click the Reboot button The reboot will be complete when the Web interface displays the login page Reboot Reboot the switch Figure 45 Reboot 58
27. for 24 port power output up to 30 watts per port Full half duplex operation Supports IEEE 802 3at and IEEE 802 3af compliant PoE devices LEDs for power link activity and PoE Supports IEEE 802 3at af detection and short circuit overload and high voltage protection All RJ45 ports with Auto MDIX and NWay auto negotiation support Web based configuration Supports bandwidth control per port Supports SNMP management Supports VLAN tag based and port based Provides IEEE 802 1x port based security Supports link aggregation trunking Supports port mirroring Supports two types of QoS port based and DSCP Broadcast storm control with multicast packet rate settings Store and forward switching architecture Supports jumbo frames up to 9 kBytes Supports Rapid Spanning Tree Spanning Tree protocol TEEE 802 3x flow control for full duplex Supports 16k MAC address entries 400 kBytes buffer memory Includes 19 rackmount brackets Three Year Warranty Total PoE budget for the 16 port switch is 166 watts 164 watts for the 24 port Per port average power distribution is 10 watts for 16 port 6 8 watts for 24 port Maximum per port power usage cannot exceed 30 watts 4 CHAPTER Introduction Web Browser You can log in to the Web Management Switch through a Web browser and manage and maintain the switch intuitively by interacting with the built in Web server The home page is displayed a
28. g settings 1 Click Configuration IGMP Snooping IGMP Snooping Setting 2 Specify the VLAN ID 3 Enable IGMP Snooping on the VLAN 4 Enable IGMP Querier on the VLAN if you want this switch to be elected as querier 5 Click Apply Hint The following parameters are shown on the IGMP Snooping VLAN settings screen m VLAN ID Specifies the ID of a configured VLAN on the switch Range 1 4094 VLAN Name Displays the name of the VLAN Snooping State Enable IGMP snooping on the VLAN Default Disabled m Querier State Enable IGMP querier on the VLAN Default Disabled 24 Spanning Tree The Spanning Tree Protocol is used to eliminate loops in a local area network A switch running this protocol detects any loop in the network by exchanging information with one another and eliminates the possible loop by blocking certain ports until the loop network is pruned into a loop free tree thereby avoiding infinite recycling of packets in a loop network Web Smart switch interface To manage global settings for Spanning Tree 1 Click Configuration Spanning Tree STP Global Setting 2 Set the Spanning Tree Status to enabled 3 Modify other required parameters 4 Click Apply Spanning Tree Setting Spanning Tree Status Disabled Vv Force Version RSTP v Priority 32768 Maximum Age 20 6 40 Sec Hello Time 2 1 10 Sec Forward Delay 15 4 30 Sec Root Priority 32768
29. gnment 5 Click Add Static MAC Setting MAC Address VLAN 1D 00 00 00 00 00 00 c1 a094 Pot1 Delete Figure 34 Static MAC Setting Hint The following parameters are shown on the Static MAC Setting screen m MAC Address Physical address of a device mapped to an interface m VLAN ID The ID of a configured VLAN 1 4094 m Port Port or trunk associated with the device that is assigned as a static address 46 MAC Filtering Setting The MAC Filtering screens are used to filter service to clients attempting to access the Internet based on protocol type destination source MAC address and the direction of traffic for each packet Web Smart switch interface To configure MAC Address Filtering 1 Click Security MAC Address MAC Address Filtering 2 Specify the MAC address to be filtered 3 Specify the VLAN ID 4 Select to filter the MAC address as the source destination or both 5 Set a name to describe the filter 6 Click Add MAC Filtering Setting 00 00 00 00 00 00 41 4094 Source MAC Delete Figure 35 MAC Filtering Setting Hint The following parameters are shown on the MAC Filtering screen m MAC Address Physical address of a device m VLAN ID The ID of a configured VLAN 1 4094 m Filter Filter traffic matching the MAC address in packets Options Source MAC Destination MAC Both Default Source MAC Destination MAC Filter packets with a matc
30. hing destination MAC address Source MAC Filter packets with a matching source MAC address Both Filter packets with a matching the source or destination MAC address m Name A descriptive name for the MAC address filter 47 802 1x Setting The 802 1x Protocol provides port authentication and must be enabled globally for the switch system before port settings are active Web Smart switch interface To configure 802 1x global settings 1 Click Security 802 1x 802 1x Setting 2 Set 802 1x to Enabled 3 Specify the RADIUS server IP address 4 Specify the RADIUS server shared key 5 Modified other parameters as required 6 Click Apply 802 1x Setting 802 1 KA Radius Server IP 1192 168 1 99 Retype Shared Key Reauth Enabled Enabled Reauth Period 30 6 55 3 5 sec 3600 Figure 36 802 1x Setting Hint The following parameters are shown on the 802 1x screen 1802 1x Sets the global setting for 802 1x Default Disabled s RADIUS Server IP Address of the authentication server Port Network UDP port of RADIUS server used for authentication messages Range 1024 65535 Default 1812 uShared Key Encryption key used RADIUS server messages Do not use blank spaces in the string Maximum length 30 characters Retype Shared Key Re type the string entered in the previous field to ensure no err
31. ing the PD s class maximum value from the overall power budget This allows for control and management of power allocation when there is not enough power available from the PSE to supply maximum power to all ports 44 CHAPTER 4 Security MAC Address Information To display the MAC address forwarding table Web Smart switch interface 1 Click Configuration 2 Then click Security MAC Address MAC Forwarding Table MAC A ddress Information 00 0C 6E DC C5 F5 Dynamic Unicast Clear Dynamic Entries Figure 33 MAC Address Information Hint The following parameters are shown on the MAC Address Information screen m No The number of the address entry in the forwarding table m MAC Address Physical address associated with this interface VLAN ID The ID of a configured VLAN 1 4094 m Type Indicates if the MAC address has been dynamically learned or configured as a static entry m Port Indicates the port m Clear Dynamic Entries Removes all dynamically learned addresses from the forwarding table 45 Static MAC Setting A static address can be assigned to a specific interface on the switch Static addresses are bound to the assigned interface and will not be moved Web Smart switch interface To configure static MAC addresses 1 Click Security MAC Address Static MAC 2 Specify the MAC address to be statically assigned 3 Specify the VLAN ID 4 Select the port or trunk interface for the static assi
32. member that this feature should only be enabled for ports connected to an end node device Default False m State Displays the current state of this port within the Spanning Tree Disabled There is no connection to the port Discarding Port receives STP configuration messages but does not forward packets Learning Port has transmitted configuration messages for an interval set by the Forward Delay parameter without receiving contradictory information The port address table is cleared and the port begins learning addresses Forwarding Port forwards packets and continues learning addresses Role Roles are assigned according to whether the port is part of the active topology connecting the bridge to the root bridge that is root port connecting a LAN through the bridge to the root bridge that is designated port or is an alternate or backup port that may provide connectivity if other bridges bridge ports or LANs fail or are removed The role is set to disabled that is disabled port if a port has no role within the spanning tree m Path Cost The path cost setting for the port Config The administrator configured path cost setting Actual The contribution of this port to the path cost of paths toward the spanning tree root that includes this port x P2P The point to point setting for the port Config The administrator configured P2P setting Actual The operational point to point status o
33. n mean interfaces which includes both ports and trunks Minimum The higher of 6 or 2 x Hello Time 1 Maximum The lower of 40 or 2 x Forward Delay 1 Default 20 Hello Time The interval in seconds at which the root switch transmits a configuration message Default 2 Minimum 1 Maximum The lower of 10 or Max Message Age 2 1 Forward Delay The maximum time in seconds this switch will wait before changing states 1 discarding to learning to forwarding This delay is required because every switch must receive information about topology changes before it starts to forward frames In addition each port needs time to listen for conflicting information that would make it return to a discarding state otherwise temporary data loops might result Minimum The higher of 4 or Max Message Age 2 1 Maximum 30 Default 15 Root Priority The priority of the switch in the Spanning Tree that this switch has accepted as the root switch Root MAC Address The MAC address of the switch in the Spanning Tree that this switch has accepted as the root switch m Root Path Cost The path cost from the root port on this switch to the root switch Root Port The number of the port on this switch that is closest to the root This switch communicates with the root switch through this port If there is no root port then this switch has been accepted as the root switch of the Spanning Tree network Roo
34. nable LACP on the switch 3 Specify the LACP System Priority to identify LAGs link aggregation groups on the switch 4 Click Apply LACP Setting LACP Status Disable v System Priority 32768 0 65535 Apply Port1 Dis sbled Port2 Dis abled Port3 Dis abled Port4 Dis abled Port5 Dissbled Porte Dis abled Port Dis abled Ports Dis abled Port Disabled Port10 Dis abled Port1 1 Dis abled Port12 Dissbled Figure 11 LACP Setting Hint The following parameters are shown on the LACP Setting screen m Status Specify whether LACP is enabled on this switch LACP will aggregate two or more ports if they belong to the same group LACP can form up to 8 trunks per switch System Priority LACP system priority is used to identify LAGs membership of this switch to other switches during LAG negotiations Range 0 65535 Default 32768 15 Static VLAN Table Setting The VLAN virtual local area network technology is developed for switches to control broadcast operations in LANs By creating VLANs in a physical LAN you can divide the LAN into multiple logical LANs each of which has a broadcast domain of its own Hosts in the same VLAN communicate with each other as if they are in a LAN However hosts in different VLANs cannot communicate with each other directly In this way broadcast packets are confined within a VLAN Web Smart switch interface To manage VLAN groups 1 Click Configuration VLAN Static
35. ncy at which the switch sends IGMP host query messages Range 60 600 seconds Default 125 m Response Time Set the time between receiving an IGMP Report for an IP multicast address on a port before the switch sends an IGMP Query out of that port and removes the entry from its list Range 10 25 seconds Default 10 m Router Timeout On a multicast network running IGMP a Layer 3 multicast switch may exist that serves as an IGMP querier responsible for sending IGMP query messages The time the switch waits after the previous querier stops before it considers it to have expired Range 60 600 seconds Default 125 m Last Member Query Interval The interval to wait for a response to a group specific or group and source specific query message Range 1 25 seconds Default 1 second m Robustness Variable Specify the robustness or expected packet loss for interfaces The robustness value is used in calculating the appropriate range for other IGMP variables Range 1 255 Default 2 m Host Timeout The time the switch waits for an IGMP report from a host for a multicast group When IGMP reports are not received host ports are removed from the member list of that multicast group Querier Election Time The time the switch waits to receive IGMP queries from other routers If no queries are received the switch itself will become the querier when enabled 23 IGMP VLAN Setting Web Smart switch interface To manage IGMP Snoopin
36. nt to point link type Web Smart switch interface To configure port settings for Spanning Tree 1 Click Configuration Spanning Tree STP Port Setting 2 Modify the required attributes for one or a group of ports 3 Click Apply Spanning Tree Port Setting TT RN TN 1 200000000 0 Auto 128 M Auto Port State Priority Port 1 Dissble Auto 128 Auto False Port 2 Dissbled Auto 128 Auto False Port 3 Dis abled Auto 128 Auto False Port 4 Dis abled Auto 128 Auto False Port 5 Dissbled Auto 128 Auto False Port 6 Dissbled Auto 128 Auto False Port 7 Dis abled Auto 128 Auto False Port 8 Disabled Auto 128 Auto False Port 9 Dis abled Auto 128 Auto False Figure 19 spanning tree port settings Hint The following parameters are shown on the Spanning Tree Port settings screen m Path Cost This parameter is used by the STP to determine the best path between devices Therefore lower values should be assigned to ports attached to faster media and higher values assigned to ports with slower media Path cost takes precedence over port priority m Priority Specify the priority used for this port in the Spanning Tree Protocol If the path cost for all ports on a switch is the same the port with the highest priority 1 lowest value will be configured as an active link in the Spanning Tree This makes a port with higher priority less likely to be
37. ork to limit traffic into or out of the switch Packets that exceed the acceptable amount of traffic are dropped Rate limiting can be applied to individual ports or trunks When an interface is configured with this feature the traffic rate will be monitored by the hardware to verify conformity Non conforming traffic is dropped conforming traffic is forwarded without any changes Input and output rate limits can be enabled or disabled for individual interfaces Web Smart switch interface To configure bandwidth control 1 Click Configuration Bandwidth Control 2 Select the ports to configure 3 Set Type to Ingress or Egress 4 Set State to Enable 5 Configure the maximum rate allowed on the ports 6 Click Apply Bandwidth Control Setting Apply Ingress VETTENN nited 0 1048544 must bea multiple of 16 Port ingress Rate Rate sec Port 1 Port 2 Port 3 Port 4 Port 5 Port 6 Port 7 Port 8 Port 9 Port 10 Figure 29 bandwidth control Hint Un li mited Un li mited Un li mited Un li mited Un li mited Un li mited Un li mited Un li mited Un li mited Un li mited Un li mited Un li mited Un li mited Un li mited Un li mited Un li mited Un li mited Un li mited Un li mited Un li mited The following parameters are shown on the Bandwidth Control screen x Port Display the port trunk number 40 Type Specify ingress or egre
38. ors were made The switch will not change the encryption key if these two fields do not match zReauthEnabled Set clients to be re authenticated after the interval specified by the Reauth Period Re authentication can be used to detect if a new device is plugged into a switch port Default Enabled zReauth Period Set the time period after which a connected client must be re authenticated Range 30 65535 seconds Default 3600 seconds 48 802 1x Port Setting When 802 1x is enabled you need to configure the parameters for the authentication process that runs between the client and the switch that is authenticator as well as the client identity lookup process that runs between the switch and authentication server Web Smart switch interface 1 Click Security 802 1x 802 1x Port Setting 2 Select one or more ports to configure 3 Set the 802 1x Mode to Authentication 4 Click Apply 802 1x Port Setting Force Unauthorized v Port 6 Apply er Port 1 No Authentication In itialize Port 2 No Authentication In itialize Port 3 No Authentication In itialize Port 4 No Authentication Initialize Port 5 No Authentication In itialize Port 6 No Authentication In itislize Port 7 No Authentication In itislize Port 8 No Authentication In itialize Port 9 No Authenticati on Initislize Port 10 No Authentication Initialize Figure 37 802 1x Port Setting Hint The following parameters are shown on the 8
39. r protocol for packet switched internetworking and provides end to end datagram transmission across multiple IP networks IPv6 includes two distinct address types link local unicast and global unicast Web Smart switch interface IPv6 Address Setting Auto Configuration Enabled v IPv6 Address 80 203 ceff fe0a 0 Prefix Length Router Apply Figure 6 IPv6 Address Setting Hint The following parameters are displayed on the IPv6 Address Setting page m Auto Configuration Enables stateless auto configuration of IPv6 addresses on the interface and enables IPv6 functionality on the interface m IPv6 Address Manually sets up a global unicast address by specifying the full address and network prefix length in the Prefix field Default null m Prefix Length Defines the prefix length as a decimal value indicating how many contiguous bits starting at the left of the address comprise the prefix that is the network portion of the address Default 0 Router Sets up the IPv6 address of the default next hop router An IPv6 default gateway must be defined if the management station is located in a different IPv6 segment An IPv6 default gateway can only be successfully set when a network interface that directly connects to the gateway has been configured on the switch User Account To set up the system password in the Web browser Web Smart switch interface 1 Click System then User Account 2 Enter the
40. ror Set Index 3 Select the Mirror Direction 4 Select the Mirroring target port 5 Select the one or more mirrored source ports 6 Click Apply Port Mirroring S etting Mirror Set Index Mirroring Port Mirrore d PortList Mirror Set Index Mirroring Port Mirrored Port List ER 1 o Dis abled 2 Dis abled o Figure 27 Port mirroring Hint The following parameters are shown on the Port Mirroring screen m Mirror Set Index Display a list of current mirror sessions m Mirror Direction Allows you to select which traffic to mirror to the target port Rx receive or Tx transmit Default Rx m Mirrored Port List One or more source ports whose traffic will be monitored Range 1 18 and configured trunks m Mirroring Port The target port that will mirror the traffic on the source ports Range 1 18 37 Port Security Setting Port security is a feature that allows you to configure a switch port with a maximum number of MAC addresses that are authorized to access the network through that port When port security is enabled on a port the switch stops learning new MAC addresses on the specified port when it has reached a configured maximum number Only incoming traffic with source addresses already stored in the dynamic or static address table will be accepted as authorized to access the network through that port If a device with an unauthorized MAC address attempts to use the switch port
41. s shown below It displays the Main Menu on the left side of the screen and an image of the front panel on the right side The Main Menu 15 used to navigate to other menus and to display configuration parameters and statistics Logout INTELLINET ia System m Contiguration ij Security Monitoring a 1 1 Tools System Information Device Type ntelligent Switch MAC Address 00 03 CE 04 00 04 IP Address 192 169 1 1 Subnet Mask 255 255 255 0 Gateway 192 168 1254 IPv6 Addrece fe80 2023 1003 4 64 IPv6 Router Firmware Version v1 1 17 Firmware Date Wed Nov 24 18 48 51 CST 2010 Figure 1 Home Page Logging In Follow these steps to configure this switch Step 1 Use Ethernet Cat5 cable to connect this switch to your PC Step 2 Check that your PC has an IP address on the same subnet as the switch For example the PC and the switch are on the same subnet if they both have addresses that start 192 168 1 x The subnet mask is 255 255 255 0 Step 3 Open the browser such as Microsoft Internet Explorer and go to http 192 168 1 1 which is the switch address If your PC is properly configured you will see the login page below Connect to 192 168 1 1 The server 192 168 11 at Switch requires a username and password Warning This server ts requesting that your username and password be sent in an insecure manner basic authentication without a secure
42. ss traffic Default Ingress s State Enable or disable the rate limit Default Disabled z Rate kbit sec Set the rate limit level Range 0 1048544 kbps in steps of 16 41 Jumbo Frame Setting The switch provides more efficient throughput for large sequential data transfers by supporting jumbo frames up to 9216 bytes Web Smart switch interface To configure Jumbo Frames 1 Click Configuration Jumbo Frames 2 Select the frame size to configure 3 Click Apply Jumbo Frame Setting Figure 30 Jumbo Frame Setting Hint The following parameters are shown on the Jumbo Frame screen m Jumbo Frame Bytes Configure support for jumbo frames Options 9216 1522 1536 1552 Bytes Default 9216 bytes 42 Management Access Filter To create up to eight IP addresses or IP address groups that are allowed access to the switch through the Web browser Web Smart switch interface 1 Click Configuration Management Access Filter 2 Enter an IP address 3 Specify a netmask to define a single IP address or an address range 4 Select the table entry to activate the filter 5 Click Apply Management Access Filter IP Address IP Netmask O 0000 255 255 255 255 O 00 00 255 255 255 255 O 00 00 255 255 255 255 E 00 00 255 255 255 255 O 0 0 0 0 255 255 255 255 E 00 0 0 255 255 255 255 o 0 0 0 0 255 255 255 255 O 00 00 255 255 255 255 Fig
43. t Maximum Age The maximum time in seconds this switch can wait without receiving a configuration message before attempting to reconfigure All switch ports except for designated ports should receive configuration messages at regular intervals If the root port ages out STA information provided in the last configuration message a new root port is selected from among the switch ports attached to the network References to ports in this section mean interfaces which includes both ports and trunks Root Hello Time The interval in seconds at which this switch transmits a configuration message Root Forward Delay The maximum time in seconds this switch will wait before changing states 1 discarding to learning to forwarding This delay is required because every switch must receive information about topology changes before it starts to forward frames In addition each port needs time to listen for conflicting information that would make it return to a discarding state otherwise temporary data loops might result m Topology Changes The number of times the Spanning Tree has been reconfigured m Last Topology Change Time The time since Spanning Tree was last reconfigured 26 Spanning Tree Port Setting Use the STP Port Setting screen to configure Spanning Tree attributes for specific interfaces including path cost port priority edge port for fast forwarding automatic detection of an edge port and poi
44. t how long to retain all information pertaining to the sending LLDP agent if it does not transmit updates in a timely manner TTL in seconds is based on the following rule Transmission Interval Transmission Hold Time lt 65536 Therefore the default TTL is 30 3 90 seconds m Port Port identifier Range 1 18 m State Enable LLDP message transmit and receive modes for LLDP Protocol Data Units Options Disabled Tx Rx Rx only Tx only Default Disabled LLDP Neighbors To display information about devices connected directly to the switch s ports that are advertising information through LLDP Web Smart switch interface To display LLDP neighbors click Configuration LLDP LLDP Neighbors Click Refresh to update the LLDP information LLDP Neighbors Local PortiChasis ID Rem ote Port IDiPort Description System Name System Capabilities na gem ent A ddr es s TT L LLDP Entry Num ber 0 Figure 25 LLDP Neighbors Hint The following parameters are shown on the LLDP Neighbors screen Local Port The local port to which a remote LLDP capable device is attached m Chassis ID An octet string indicating the specific identifier for the particular chassis in this system m TTL Indicate the time in seconds the remote device s information should be treated as valid a LLDP Entry Number The number of the LLDP table entry 34 SNMP Setting SNMP Simple Network Management Protocol monitors network switches through
45. t the scheduling algorithm WFQ or WRR 3 Map scheduling weights to a queue ID or select Strict 4 Click Apply Packet Scheduling Setting Scheduling Algorithm Weightfairqueue Apply Que ue ID Weight Strict priority CELLES Apply 1 Weight fair queue 1 2 Weight fair queue 2 3 Weight fair queue 3 4 Weight fair queue 4 Weight fair queue 5 Weight fair queue Weight fair queue Weight fair queue Figure 23 Packet Scheduling Setting Hint The following parameters are shown on the DSCP based Priority Setting screen m Scheduling Algorithm Select the service method used for port egress queues Weight fair queue Service the egress queues containing data based on the weight of the queue compared to the sum of the weights of all queues This is the default selection 32 Weight round robin Share bandwidth at the egress ports by using the scheduling weights for queues 1 through 8 respectively WRR specifies a relative weight for each queue that determines the percentage of service time the switch services each queue before moving on to the next queue Queue ID Output queue buffer Range 1 8 where 8 is the highest priority queue m Weight Set a new weight for the selected traffic class Range Strict 1 15 Use queue weights 1 15 for queues to allocate service time based on WFQ or WRR Queue weights must be configured in ascendant manner assigning more
46. te access Range 1 32 characters case sensitive m Type Specifies the access rights for the community string Read Only Authorized management stations are only able to retrieve MIB objects Read Write Authorized management stations are able to both retrieve and modify MIB objects Trap Receivers Setting Traps indicating status changes are issued by the switch to specified trap managers You must specify trap managers so that key events are reported by this switch to your management station using network management software Web Smart switch interface To configure SNMP system settings 1 Click Configuration SNMP Setting 2 Specify the IP address of management station that will receive SNMP trap messages 3 Specify a configured community string for the trap receiver 4 Click Apply Hint The following parameters are shown on the Trap Receivers Setting screen m IP Address IP address of a new management station to receive notification messages Community String Specify a valid community string for the new trap manager entry The string must already be defined in the Community String Setting section Range 1 32 characters case sensitive 36 Port Mirroring Setting Port mirroring includes local mirroring groups remote source mirroring groups and remote destination mirroring groups Web Smart switch interface To configure port mirroring 1 Click Configuration Port Mirroring 2 Select the Mir
47. the TCP IP protocol suite It offers automatic network management and avoids the physical differences between various switches and thus provides automatic management of products from different manufacturers Web Smart switch interface To specify SNMP system settings 1 Click Configuration SNMP Setting 2 Enable SNMP for the switch 3 Configure the Name Location and Contact information 4 Define at least one new community string with read write access 5 Delete the default private string for security reasons 6 Click Apply SNMP Setting SNMP Status Dissbled v System Name Layer 2 Switch System Location Location SOLI EV fidNocConsct Community Strings Setting read only CNN 773 public read only Fj Oo prite read write Trap Receivers Setting a IP Address Com mu nity String Figure 26 SNMP Setting Community Strings Setting Trap Receivers Setting Hint The following parameters are shown on the SNMP Setting Community Strings Setting SNMP Status Enable or disable SNMP service Default Disabled m System Name A name assigned to the switch system m System Location Specify the system location m System Contact An administrator responsible for the system m String A community string that acts like a password and permits access to the SNMP protocol Default strings public read only access private read wri
48. through the switch is received from many different hosts 13 Destination MAC AII traffic with the same destination MAC address is output on the same link in a trunk This mode works best for switch to switch trunk links where traffic through the switch is destined for many different hosts Do not use this mode for switch to router trunk links where the destination MAC address is the same for all traffic Source IP All traffic with the same source and destination IP address is output on the same link in a trunk This mode works best for switch to router trunk links where traffic through the switch is destined for many different hosts Do not use this mode for switch to server trunk links where the destination IP address is the same for all traffic Destination IP All traffic with the same source and destination IP address is output on the same link in a trunk This mode works best for switch to router trunk links where traffic through the switch is destined for many different hosts Do not use this mode for switch to server trunk links where the destination IP address is the same for all traffic 14 LACP Setting The LACP Link Aggregation Control Protocol dynamically aggregates ports and removes aggregations LACP interacts with its peer by sending LACPDUS Link Aggregation Control Protocol data units Web Smart switch interface To arrange LACP settings 1 Click Configuration Link Aggregation LACP Setting 2 E
49. ure 31 Management Access Filter Hint The following parameters are shown on the Management Access Filter screen m IP Address An IP address specifies a range that is allowed management access to the switch m IP Netmask A mask that specifies a single IP address or a range of IP addresses Default 255 255 255 255 for a single IP address 43 Power over Ethernet Setting Power over Ethernet PoE means that power sourcing equipment PSE supplies power to powered devices PD such as IP telephones wireless LAN access points and Web camera from Ethernet interfaces through twisted pair cables Web Smart switch interface 1 Click Configuration Power over Ethernet 2 Select the port number of the connected PD 3 Specify the PD on 4 Click Apply Power Over Ethernet Setting Port 1 Port 2 3 Pot3 Port 4 Port 5 Port 6 v otf Apply 0 0 Port 1 Off Port 2 Off 0 0 Port 3 Off 0 0 Port 4 Off 0 0 Port 5 On Class3 0 800 Port 6 Off 0 0 Port 7 Off 0 0 Port 8 Off 0 0 Figure 32 Power over Ethernet Hint The following parameters are shown on the Power over Ethernet screen m PD Enable the powered devices The consumption power in Watts will be shown in the table below m Class Indicates the PD classification m Consumption Power W Indicates the PD power consumption Once the PSE has detected the PD s power class the PSE can manage the power allocation by subtract
50. weight to each higher numbered queue Strict priority requires all traffic in the queue to be processed before lower priority queues are serviced LLDP Configurations LLDP is a Layer 2 protocol that uses periodic broadcasts to advertise information about the sending device Web Smart switch interface To configure global and port settings for LLDP 1 Click Configuration LLDP LLDP Settings 2 Enable LLDP for the switch 3 If required modify other LLDP parameters 4 For one or a group of ports set the LLDP mode 5 Click Apply LLDP Configurations LLDP Status Disable Hold Time Mutiplier 1 40 Apply LLDP Port State Port State Port 1 TX and RX Port2 TX and RX Port3 TX and RX Port4 TX and RX Port 5 TX and RX Port6 TX and RX Port7 TX and RX Figure 24 LLDP Settings Hint The following parameters are shown on the LLDP Settings screen m LLDP Status Enable LLDP the switch Default Disabled 33 Transmission Interval Configure the periodic transmit interval for LLDP advertisements Range 5 32768 seconds Default 30 seconds This attribute must comply with the following rule Transmission Interval Transmission Hold Time lt 65536 and Transmission Interval gt 4 Transmission Delay Hold Time Multiplier Configure the time to live TTL value sent in LLDP advertisements as shown in the formula below Range 2 10 Default 3 The time to live tells the receiving LLDP agen
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