Industrial Rack Mount Managed Switch 24 - 10/100BASE-TX Ports 4 - Gigabit RJ45/SFP Combo Ports User Guide
Copyright Notice Comtrol and RocketLinx are trademarks of Comtrol Corporation. Microsoft and Windows are trademarks of Microsoft Corporation. FireFox is a trademark of Mozilla Foundation. PuTTY is a copyright of Simon Tatham. Other product names mentioned herein may be trademarks and/or registered trademarks of their respective owners. Sixth Edition, October 9, 2014 Copyright © 2010 - 2014. Comtrol Corporation. All Rights Reserved.
Table of Contents Introduction .......................................................................................................................................... 7 Hardware Installation ........................................................................................................................ 9 Connect the Power ........................................................................................................................................ 9 Mount the ES9528 ....................
Table of Contents Firmware Upgrade ................................................................................................................................... 60 Upgrading Firmware (Local File)...................................................................................................... 61 Upgrading Firmware (TFTP Server)................................................................................................. 62 Load Default...........................................................
Table of Contents Warning........................................................................................................................................................ 113 Event Selection ....................................................................................................................................... 113 SysLog Configuration ............................................................................................................................. 114 SMTP Configuration....
Table of Contents ModBus TCP /IP Support ...............................................................................................................201 Overview...................................................................................................................................................... 201 Modbus TCP/IP Function Codes ............................................................................................................ 202 Error Checking ...................................
Introduction The ES9528 and ES9528-XT are rack mount managed Ethernet switches that are equipped with: • 24 Fast Ethernet ports • Four Gigabit RJ45/SFP Combo ports The ES9528 and ES9528-XT are referred to as the ES9528 unless there is model-specific information. The ES9528 family was designed for control rooms where high-port density and performance is required.
Introduction 8 - Introduction RocketLinx ES9528 and ES9528-XT User Guide: 2000508 Rev.
Hardware Installation You can use the following subsections to install the RocketLinx ES9528: • Connect the Power • Mount the ES9528 on Page 9 • Connect the Ethernet Ports on Page 10 • Connect SFP Transceivers (Combo Ports 25-28) on Page 11 • LED Descriptions on Page 11 Connect the Power Connect the power cord to the AC power input connector. The available AC power range is 90-264VAC. Mount the ES9528 You can use the following procedure to mount the ES9528 into a rack. 1.
Hardware Installation Connect the Ethernet Ports You can use the following information to connect standard Ethernet cables between the ES9528 Ethernet ports and the network nodes. • Ports 1-24 are Fast Ethernet (10/100BASE-TX) ports. • Ports 25-28 are RJ45/SFP Combo Gigabit ports that support (10/100/1000BASE-TX / 1000BASE-X). See Connect SFP Transceivers (Combo Ports 25-28) on Page 11 for information about SFP installation.
Hardware Installation Connect SFP Transceivers (Combo Ports 25-28) The ES9528 equips four Gigabit SFP ports combined with RJ45 Gigabit Ethernet ports (Ports 25-28). The SFP ports accept standard mini GBIC SFP transceivers that support 1000BASE-X (1000BASE-SX/LX/LHX/XD/ZX). To ensure system reliability, Comtrol recommends using Comtrol certified SFP Transceivers. The SFP cage is 2 x1 design. Note: 100BASE-FX is not supported in Gigabit Combo ports. 1.
Hardware Installation 12 - LED Descriptions RocketLinx ES9528 and ES9528-XT User Guide: 2000508 Rev.
Using PortVision DX There are several ways to configure network information. Comtrol Technical Support recommends connecting the ES9528 to a PC or laptop running Windows and installing PortVision DX for initial configuration.
Using PortVision DX PortVision DX Overview PortVision DX automatically detects Comtrol Ethernet attached products physically attached to the local network segment so that you can configure the network address, upload firmware, and manage the following products: • RocketLinx (managed) switches • DeviceMaster family - DeviceMaster PRO - DeviceMaster RTS - DeviceMaster Serial Hub - DeviceMaster 500 • DeviceMaster UP • DeviceMaster LT • IO-Link Master family In addition to identifying Comtrol
Using PortVision DX Installing PortVision DX During initial configuration, PortVision DX automatically detects and identifies ES9528 switches, if they are in the same network segment. Use the Software and Documentation CD that came with the ES9528 to check for the latest version of PortVision DX or use the link below to download the latest version. 1.
Using PortVision DX 6. Click Next to configure the shortcuts. 7. Click Install. 8. Depending on the operating system, you may need to click Yes to the Do you want to allow the following program to install software on this computer? query. 9. Click Launch PortVision DX and Finish in the last installation screen. 10. Depending on the operating system, you may need to click Yes to the Do you want to allow the following program to make changes to this computer? query. 11.
Using PortVision DX Configuring the Network Settings The ES9528 has the following default values when shipped from the factory: • IP address: 192.168.250.250 • Subnet mask: 255.255.0.0 • Gateway address: 192.168.250.1 Use the following procedure to change the default network settings on the ES9528 for your network. 1. If necessary, start PortVision DX using the PortVision DX desktop shortcut or from the Start button, click All Programs > Comtrol > PortVision DX > PortVision DX.
Using PortVision DX 4. Highlight the ES9528 for which you want to program network information and open the Properties screen using one of these methods. • Double-click the ES9528 in the Device Tree or Device List pane. • Highlight the ES9528 in the Device Tree or Device List pane and click the Properties button. • Right-click the ES9528 in the Device Tree or Device List pane and click Properties in the popup menu • Highlight the ES9528, click the Manage menu and then Properties.
Using PortVision DX 5. Optionally, rename the ES9528 in the Device Name field for a PortVision DX friendly name. The default name displays as Device and the last three sets of hex numbers from the MAC address. Note: The MAC address and Device Status fields are automatically populated and you cannot change these values. 6. Optionally, enter the serial number, which is on a label on the ES9528. 7. Select DHCP IP or Static IP for the IP Mode. • If you select DHCP IP, go to Step 8.
Using PortVision DX Checking the Firmware Version Checking your web interface and bootloader versions is easy in PortVision DX. Comtrol recommends loading the latest firmware and bootloader so that you have all of the latest feature enhancements and bug fixes. 1. If the ES9528 is not displayed in PortVision DX, click the Scan button. 2. Select the Comtrol Ethernet attached product type and click the Scan button. 3. Locate the ES9528 in the Device List pane.
Using PortVision DX Uploading the Latest Firmware or Bootloader You can use the following procedure to upload the latest firmware or bootloader. 1. If you have not done so, download the latest firmware and bootloader using the previous subsection. 2. Right-click the ES9528 in the Device List pane that you want to update, click Advanced --> Upload firmware. 3. Navigate to the location of the firmware files, select the appropriate file, and then click Open. 4. Click Yes to the Upload Firmware message. 5.
Using PortVision DX Uploading Firmware to Multiple ES9528 Switches You can use this procedure if your ES9528 is connected to the host PC, laptop, or if the ES9528 resides on the local network segment. Note: Technical support does not advise uploading bootloader to multiple ES9528 switches. Remember that uploading firmware reboots the ES9528, which depending on your network connections may cause firmware uploading to fail on another ES9528. 1.
Using PortVision DX Adding a New Device in PortVision DX You can add a new ES9528 manually, if you do not want to scan the network to locate it or you want to preconfigure an ES9528 before connecting it to the network. Optionally, you can also add unmanaged devices or RocketLinx switches to maintain information about devices on the network. See the PortVision DX help system for additional information about adding unmanaged RocketLinx switches or third party devices or switches.
Using PortVision DX 6. Enter the IP Address for the ES9528. It is not necessary to enter the Subnet Mask and Default Gateway 7. Click Ok to close the Add New Device window. It may take a few moments to save the ES9528. 8. If necessary, click Refresh for the new RocketLinx to display in the Device Tree or Device List panes. The RocketLinx shows OFF-LINE if it is not connected to the local network or if an incorrect IP address was entered.
Using PortVision DX Using the LED Tracker RocketLinx managed switches support the LED Tracker feature, which allows you to toggle on/off the LEDs on a specific device so that you can locate the physical unit. Use this procedure to toggle the LED Tracker feature on RocketLinx switches. 1. Right-click the ES9528 in the Device List pane, click Tracker, and then click ON. The ES9528 SYS LED will flash for five seconds. 2.
Using PortVision DX Customizing PortVision DX You can customize how PortVision DX displays the devices. You can even create sessions tailored for specific audiences. You can also add shortcuts to other applications using Tools > Applications > Customize feature. The following illustrates how you can customize your view. See the PortVision DX Help system for detailed information about modifying the view. For example, the above screen shot illustrates devices layered in folders.
Using PortVision DX Accessing RocketLinx Documentation from PortVision DX You can use this procedure in PortVision DX to download and open the previously downloaded documents for the RocketLinx. How to Download Documentation Use this procedure to initially download a document or documents. 1. If necessary, open PortVision DX. 2. Click Help > Documentation. 3.
Using PortVision DX How to Open Previously Downloaded Documents Use the following procedure to access previously downloaded documents in PortVision DX. Note: Optionally, you can browse to the Program Files (x86) > Comtrol > PortVision DX > Docs subdirectory and open the document. 1. If necessary, open PortVision DX > Start/Programs > Comtrol > PortVision DX > PortVision DX or use the desktop shortcut. 2. Click Help > Documentation. 3.
Configuration Using the Web User Interface The ES9528 provides in-band and out-band configuration methods: • Out-band management means that you configure the ES9528 using the RS-232 console cable and the Command Line Interface (CLI) to access the ES9528 without attaching an admin PC to the network. You can use out-band management if you lose the network connection to the ES9528. The CLI and Telnet are discussed in Configuration Using the Command Line Interface (CLI) on Page 125.
Configuration Using the Web User Interface Web User Interface The ES9528 web management page was developed with Java. You can use any standard web browser, which is compatible with the Java Runtime to configure and communicate with the ES9528 from anywhere on the network. If you did not program the IP address for your network using PortVision DX (Programming Network Information on Page 20), you need to change your computer IP address to 192.168.250.x (Network Mask: 255.255.0.0).
Configuration Using the Web User Interface 4. Enter the user name, the password, and click OK. The default user name and password are both admin. The Welcome page of the web management interface then appears. 5. If you have not done so, you can change the ES9528 IP address to meet your network environment. a. Double-click Basic Setting. b. Click IP Configuration. To use static addressing, enter a valid IP add dress, subnet mask and default gateway. To use DHCP, click Enable in the DHCP Client drop list.
Configuration Using the Web User Interface Secure Web User Interface The ES9528 web user interface also provides secured management through an HTTPS login so that all of the configuration commands are secure. If you did not program the IP address for your network using PortVision DX (Configuring the Network Settings on Page 17), you need to change your computer IP address to 192.168.250.x (Network Mask: 255.255.0.0). The default IP address for the ES9528 is 192.168.250.250. 1.
Configuration Using the Web User Interface Windows XP and Windows Server 2003 a. Click No when the popup screen appears and requests you to trust the secured HTTPS connection distributed by the ES9528. b. Click Always trust content from this publisher and then Run when requested to run the application (IP address) in the Warning - Security message. Windows Vista - Windows 7 a. Click the Continue button. b. If necessary, click Show all content. c.
Configuration Using the Web User Interface 4. Enter the user name and the password and click OK. The default user name and password are both admin. The Welcome page of the web management interface then appears. 5. If you have not done so, you can change the ES9528 IP address to meet your network environment. a. Double-click Basic Setting. b. Click IP Configuration. c. - To use static addressing, enter a valid IP address, subnet mask and default gateway.
Configuration Using the Web User Interface Feature Overview The following table provides detailed information about ES9528 features and provides the location of the configuration information in the web user interface. Type 802.1x Port-Based Network Access Control Configuration Category 802.
Configuration Using the Web User Interface Type Category Details • DHCP Server Configuration on Page 51 DHCP Server Configuration DHCP Leased Entries on Page 53 DHCP Relay Agent on Page 54 DSCP-Queuing Mapping Event Selection Filter Set/Attach GMRP Configuration GVRP Configuration IGMP Query IGMP Snooping DSCP-Queue Mapping on Page 95 Event Selection on Page 113 Security on Page 103 Multicast Filtering on Page 96 GVRP Configuration on Page 88 IGMP Query on Page 98 IGMP Snooping on Page 97
Configuration Using the Web User Interface Type Jumbo Frame MAC Address Table (8K) MSTP Configuration MSTP Information Category Basic Settings on Page 43 MAC Address Table on Page 116 MSTP Configuration on Page 75 Details • System MTU 1522 (Range 64-9216) • Aging Time (Sec) • Static Unicast MAC Address - MAC Address, VID, and Port • Port by Port MAC Address Table View - Static Unicast Dynamic Unicast Static Multicast Dynamic Multicast • MSTP Region Configuration - Name and Revision • New
Configuration Using the Web User Interface Type Port Control Port Mirror Mode Category Port Control on Page 63 Port Mirroring on Page 119 Details • Enable/Disable Port State • Speed/Duplex - Auto-Negotiation, 10 Full/Half, 100 Full/ Half, and 1000 Full (Ports 25-28) • Flow control - Disable/Symmetric • User-Defined Description • Port Mirror Mode - Enable/Disable • Port by Port - Source Port - Rx and Tx - Destination Port - Rx and Tx Port by Port Port Statistics Port Status Port Statist
Configuration Using the Web User Interface Type Category Details Port Configuration PVLAN Port Configuration PVLAN Port Configuration on Page 91 • PVLAN Port Type - Normal, Host, or Promiscuous • VLAN ID PVLAN Association • Secondary VLAN • Primary VLAN QoS Priority Mode QoS Setting QoS Setting on Page 93 • Port-Based • CoS • DSCP Queue scheduling • Use Weighted Round Robin Scheme • Use A Strict Priority Scheme • Rate Control Rate Control on Page 66 • Ingress Rate (1 Mbps to 10
Configuration Using the Web User Interface Type Reset/Reboot SNMP Configuration SNMP Traps Category Load Default on Page 62 Details • Reset to Factory Default Values • Reboot from Interface • V1/V2c Community • Public - Read Only or Read and Write • Private - Read Only or Read and Write • Enable/Disable • Trap Server - Server IP Address, Community, and Version (V1 or V2c) • Trap Server Profile - Displays Server IP, Community, and Version System Reboot on Page 62 SNMP Configuration on P
Configuration Using the Web User Interface Type Category Details • STP Information STP Information on Page 73 Root Information - • Root Address Root Priority Root Port Root Path Cost Maximum Age Hello Time Forward Delay Port Information - Role Port State Path Cost Port Priority Link Type Edge Port Aggregated (D/Type) Port by Port STP Port Configuration SYSLOG Mode System Event Logs Time Setting Topology Discovery Unknown Multicast STP Port Configuration on Page 72 SysLog Configuration on P
Configuration Using the Web User Interface Type Upgrade Firmware VLAN Configuration VLAN Port Configuration VLAN Table Warning - SMTP Configuration 42 - Feature Overview Category Firmware Upgrade on Page 60 VLAN Configuration on Page 85 VLAN Port Configuration on Page 84 VLAN Table on Page 89 SMTP Configuration on Page 115 Details Local or TFTP • Tunneling support for 256 • Management VLAN ID • Static VLAN - ID and Name • Static VLAN Configuration - VLAN ID, Name, and Ports (Options: No V
Configuration Using the Web Interface Basic Settings The Basic Setting group allows you the ability to configure switch information, IP address, User name/ Password of the system. It also allows you to do firmware upgrade, backup and restore configuration, reload factory default, and reboot the system.
Configuration Using the Web Interface Switch Setting Page (Continued) Firmware Version Displays the firmware version installed in this ES9528. Device MAC Displays a unique hardware address (MAC address) assigned at the factory. Click Apply to apply the settings. Apply Note: You must Save the settings (Page 124), if you want to maintain these settings if the ES9528 is powered off. Admin Password You can change the user name and the password here to enhance security.
Configuration Using the Web Interface IP Configuration This function allows you to configure the ES9528’s IP address settings. IP Configuration Page DHCP Client You can select to Enable or Disable the DHCP Client function. When the DHCP Client function is enabled, an IP address is assigned to the switch from the network’s DHCP server. In this mode, the default IP address is replaced by the one assigned by DHCP server. If DHCP Client is disabled, then the IP address that you specified is used.
Configuration Using the Web Interface IP Configuration Page (Continued) You can assign the subnet mask for the IP address here. If the DHCP Client function is enabled, you do not need to assign the subnet mask. The default Subnet Mask is 255.255.255.0. Subnet Mask Default Gateway Note: In the CLI, the enabled bit of the subnet mask is used to represent the number displayed in the web management interface. For example, 8 represents: 255.0.0.0,16 represents: 255.255.0.0, 24 represents: 255.255.255.0.
Configuration Using the Web Interface Time Setting Time Setting allows you to set the time manually or through a Network Time Protocol (NTP) server. NTP is used to synchronize computer clocks on the internet. You can configure NTP settings here to synchronize the clocks of several switches on the network. The ES9528 also provides Daylight Saving functionality. Time Setting Page Manual Setting: Click Manual Setting to change time as needed.
Configuration Using the Web Interface Switch(config)# clock timezone 01 (GMT-12:00) Eniwetok, Kwajalein 02 (GMT-11:00) Midway Island, Samoa 03 (GMT-10:00) Hawaii 04 (GMT-09:00) Alaska 05 (GMT-08:00) Pacific Time (US & Canada), Tijuana 06 (GMT-07:00) Arizona 07 (GMT-07:00) Mountain Time (US & Canada) 08 (GMT-06:00) Central America 09 (GMT-06:00) Central Time (US & Canada) 10 (GMT-06:00) Mexico City 11 (GMT-06:00) Saskatchewan 12 (GMT-05:00) Bogota, Lima, Quito 13 (GMT-05:00) Eastern Time (US & Canada) 14 (G
Configuration Using the Web Interface 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 72 73 74 (GMT+05:45) (GMT+06:00) (GMT+06:00) (GMT+06:00) (GMT+06:30) (GMT+07:00) (GMT+07:00) (GMT+08:00) (GMT+08:00) (GMT+08:00) (GMT+08:00) (GMT+08:00) (GMT+09:00) (GMT+09:00) (GMT+09:00) (GMT+09:30) (GMT+09:30) (GMT+10:00) (GMT+10:00) (GMT+10:00) (GMT+10:00) (GMT+10:00) (GMT+11:00) (GMT+12:00) (GMT+12:00) (GMT+13:00) Kathmandu Almaty, Novosibirsk Astana, Dhaka Sri Jayawardenepura Rangoon Bangkok,
Configuration Using the Web Interface Jumbo Frame The typical Ethernet frame range is from 64 to 1,522 bytes. This is sufficient for general usages. However, when users want to transmit large files, the files may be divided into many small size packets. When the transmission speed becomes slow, long size Jumbo frame may solve the issue. The ES9528 allows you configure the size of the Maximum Transmission Unit (MTU). The default value is 1,522 bytes.
Configuration Using the Web Interface DHCP Server Configuration Use this page to configure DHCP server services. DHCP Server Configuration Page DHCP Server You can select to Enable or Disable the DHCP Server function. The ES9528 assigns a new IP address to link partners. DHCP Server Configuration Network Enter the IPv4 address for the DHCP server. RocketLinx ES9528 and ES9528-XT User Guide: 2000508 Rev.
Configuration Using the Web Interface DHCP Server Configuration Page (Continued) Subnet Mask Enter the subnet mask for the DHCP server. Default Gateway Enter the IP gateway address for the DHCP server. Lease Time Enter the Lease Time in seconds for the client. Click Apply to apply the settings. Apply Note: You must Save the settings (Page 124), if you want to maintain these settings if the ES9528 is powered off.
Configuration Using the Web Interface DHCP Leased Entries The ES9528 provides an assigned IP address. DHCP Leased Entries Page Index Index of DHCP leased entries. Binding Manual or auto binding IP addresses and MAC addresses. IP Address The IP address of the leased entry. MAC Address The MAC Address of the leased entry. Lease Time(s) The lease time of the leased entry (in seconds). Reload Click to reload DHCP leased entries. RocketLinx ES9528 and ES9528-XT User Guide: 2000508 Rev.
Configuration Using the Web Interface DHCP Relay Agent This subsection discusses the DHCP Relay Agent page. DHCP Relay Agent Page Relay Agent You can select to Enable or Disable the DHCP Relay Agent function. The ES9528 assigns a new IP address to link partners. Relay Policy Relay policy drop Drops the option 82 field and do not add any option 82 field. Relay policy keep Keeps the original option 82 field and forwards to server.
Configuration Using the Web Interface DHCP Relay Agent Page (Continued) DHCP Option82 Relay Agent Default: Default value of the Circuit-ID. Port: Port of the switch. Circuit ID Circuit ID: The Circuit ID includes information specific to which circuit the request came in on. It is an identifier that is specific to the relay agent, so the type of circuit varies depending on the relay agent. Default: Default value of the Remote-ID. IP Address: IP Address of the switch.
Configuration Using the Web Interface Backup & Restore Page (Continued) Backup Configuration • Local File: The ES9528 acts as the file server, see Backup the Configuration - Local File Method. • TFTP Server: The ES9528 acts as a TFTP client, see Backup the Configuration - TFTP Server Method. Note: Pointing to the wrong file causes the entire configuration to be skipped. • The ES9528 provides a default configuration file in the ES9528.
Configuration Using the Web Interface j. There should be three new entries in your Windows Firewall exception list: • Java(TM) Platform SE binary • Java(TM) Platform SE binary • Java(TM) Web Start Launcher. You will have to ensure that the Private box is checked for all three. 2. Open the web user interface for the ES9528 and open the Backup and Restore page under Basic Settings. 3. Select Local File for Backup Configuration. 4.
Configuration Using the Web Interface Restore the Configuration - Local Method You can use Local File method to restore with a Windows XP system. Note: If you have a Windows operating system above Windows XP, you can use the TFTP Server method, the CLI, PortVision DX, or apply exclusions for Java for the Windows firewall to backup or restore configuration files. PortVision DX supports saving and loading configuration files, without any Windows operating system firewall restrictions. 1.
Configuration Using the Web Interface Backup the Configuration - TFTP Server Method If you do not have a TFTP server, you can download one from Comtrol using the Start the TFTP Server subsection. Start the TFTP Server Use this procedure to download either the 32-bit or the 64-bit version from Comtrol. 1. If necessary, download the appropriate .zip file for your operating system from: ftp://ftp.comtrol.com/ contribs/free_3rd_party_utils/tftp_server/ to your system and unzip the file. 2.
Configuration Using the Web Interface Restore the Configuration - TFTP Server Method To restore a configuration file, you must open a TFTP server. If necessary, use Start the TFTP Server on Page 59. The backup file must be located in the same directory that the TFTP server resides for this procedure to work. 1. Open the web user interface for the ES9528, open the Backup and Restore page under Basic Settings. 2.
Configuration Using the Web Interface Upgrading Firmware (Local File) You can use this procedure to upgrade the web interface firmware (not Bootloader). Note: You can also use PortVision DX to upload the web interface firmware. You must use PortVision DX or the CLI to upload the Bootloader firmware. 1. Windows operating systems after Windows XP: you must add Java to your Windows firewall exclusion list. See Step 1 on Page 56 if you need to add Java exclusions for the Windows firewall. 2.
Configuration Using the Web Interface Upgrading Firmware (TFTP Server) You can use this procedure to upgrade the firmware (not Bootloader) using a Windows operating systems. Note: You can also use PortVision DX to upload firmware. You must use PortVision DX or the CLI to upload Bootloader. 1. Open a TFTP server, if necessary, see Start the TFTP Server on Page 59. 2. Place the ES9528 .bin file in the same directory where the TFTP server resides. 3.
Configuration Using the Web Interface Port Configuration The Port Configuration group allows you to enable/disable port state, or configure port auto-negotiation, speed, duplex, flow control, port aggregation settings (port trunking), and rate limit control. It also allows you to view port status and aggregation information.
Configuration Using the Web Interface Port Configuration Page State You can enable or disable the state of this port. Once you click Disable, the port stops to link to the other end and stops to forward any traffic. The default setting is Enable which means all the ports are workable when you receive the ES9528. You can configure port speed and duplex mode of each port.
Configuration Using the Web Interface Port Status The Port Status page displays the current port status. Port Status Page 100BASE-TX displays for Fast Ethernet copper ports Type 1000BASE-TX displays for Gigabit Ethernet Copper ports 1000BASE-X displays for Gigabit Fiber Ports Link Shows link status; Up means the link is up and Down means that the link is down. State Shows the port state. If the state is enabled it displays Enable. If the port is disabled or shutdown, it displays Disable.
Configuration Using the Web Interface Rate Control Rate limiting is a form of flow control used to enforce a strict bandwidth limit at a port. You can program separate transmit (Egress Rule) and receive (Ingress Rule) rate limits at each port, and even apply the limit to certain packet types as described below. You can increment the volume step by 8Kbps in the blank. Rate Control Page The ports support port Ingress and Egress rate control.
Configuration Using the Web Interface Storm Control The Storm Control is similar to Rate Control. Rate Control filters all the traffic over the threshold you input by the user interface. Storm Control allows you to define the rate for specific Packet Types. Storm Control Page Rate Configuration Broadcast Rate (Kbits/sec) Broadcast rate limit range from 0 to 100000 Kbits/sec, zero means no limit.
Configuration Using the Web Interface Port Trunking Port Trunking allows you to group multiple Ethernet ports in parallel to increase link bandwidth. The aggregated ports can be viewed as a physical port that has a bandwidth equal to the combined bandwidth of each trunked port.The member ports of the same trunk group can balance the loading and backup for each other. The Port Trunking feature is usually used when you need higher bandwidth for the network backbone.
Configuration Using the Web Interface Aggregation Status The Port Trunk - Aggregation Information page shows the status of port aggregation. Once the aggregation ports are negotiated, you see the following status. Aggregation Status Page Group ID Displays Trunk 1 to Trunk 8 set up. Type The Type is Static or LACP. Static means that LACP is disabled and configured statically by the Administrator. Aggregated Ports When LACP links, you can see the member ports in the Aggregated column.
Configuration Using the Web Interface Network Redundancy It is critical for industrial applications that the network remains running at all times. The ES9528 supports: • Standard Rapid Spanning Tree Protocol (STP) and Rapid Spanning Tree Protocol (RSTP) The ES9528 supports RSTP versions IEEE 802.1D-2004, IEEE 802.1D-1998 STP, and IEEE 802.1w RSTP. • Multiple Spanning Tree Protocol (MSTP) MSTP implements IEEE 802.
Configuration Using the Web Interface STP Configuration This page allows you to select the STP mode and configure the global STP/RSTP bridge configuration. Spanning Tree Protocol (STP; IEEE 802.1D) provides a loop-free topology for any LAN or bridged network. Rapid Spanning Tree Protocol (RSTP; IEEE 802.1w) is an evolution of the Spanning Tree Protocol (STP), and was introduced with the IEEE 802.1w standard, and provides faster spanning tree convergence after a topology change. In most cases, IEEE 802.
Configuration Using the Web Interface STP Port Configuration This page allows you to configure the port parameter after you have enabled STP, RSTP, or MSTP. STP Port Configuration Page You can enable/disable STP/RSTP/MSTP on a port by port basis. STP State You can disable the STP state when connecting a device in order to avoid STP waiting periods. Path Cost The cost of the path to the other bridge from this transmitting bridge at the specified port. Enter a number from 1 through 200000000.
Configuration Using the Web Interface STP Information The STP Information page allows you to see the ES9528 root information and port status. STP Information Page Root Information Root Address Root bridge address, which is the bridge with the smallest (lowest) bridge ID. Root Priority Root bridge priority, the bridge with the lowest value has the highest priority and is selected as the root. Root Port Root port of this bridge. Root Path Cost Root path cost.
Configuration Using the Web Interface STP Information Page (Continued) Port Information Port Role Descriptive information about the STP/RSTP switch port role. Role: Root, Designated, Alternate, Backup, Disabled, Unknown. Port State Descriptive information about the STP/RSTP switch port state. State: Blocking, Listening, Learning, Forwarding, Disabled, Unknown. Path Cost The cost of the path to the other bridge from this transmitting bridge at the specified port. Path cost range is 1 through 200000000.
Configuration Using the Web Interface MSTP Configuration Multiple Spanning Tree Protocol (MSTP) is a direct extension of RSTP. It can provide an independent spanning tree for different VLANs. It simplifies network management, creates a faster convergence than RSTP by limiting the size of each region, and prevents VLAN members from being segmented from the rest of the group (as sometimes occurs with IEEE 802.1D STP). While using MSTP, there are some new concepts of network architecture.
Configuration Using the Web Interface This is the MSTP Configuration page. MSTP Configuration Page MST Region Configuration Region Name A name used to identify the MST Region. Revision A value used to identify the MST Region. Apply Click the Apply button to apply the MST Region Configuration. New MST Instance Instance ID A value used to identify the MST instance, valid value are 1 through 15.
Configuration Using the Web Interface MSTP Configuration Page (Continued) Current MST Instance Configuration Instance ID A value used to identify the MST instance. Instance 0 (CIST, Common Internal Spanning Tree) is a special instance of spanning-tree known as IST or Internal Spanning Tree (=MSTI00). VLAN Group Provide a VLAN group to map this MST instance. Use the VLAN number, for example: 10. You can set a range, for example: 1-10) or set specific VLANs, for example: 2,4,6,4-7.
Configuration Using the Web Interface MSTP Port Configuration This page allows you to configure the port settings. Choose the Instance ID that you want to configure. MSTP Port Configuration Page Instance ID Select an Instance ID to display and modify MSTP instance setting. Port Configuration Path Cost The cost of the path to the other bridge from this transmitting bridge at the specified port. Enter a number from 1 through 200000000.
Configuration Using the Web Interface MSTP Information This page allows you to see the current MSTP information. Choose the Instance ID first. If the instance is not added, the information remains blank. RocketLinx ES9528 and ES9528-XT User Guide: 2000508 Rev.
Configuration Using the Web Interface MSTP Information Page Instance ID Select an instance ID to display MSTP instance information. Instance 0 (CIST, Common Internal Spanning Tree) is a special instance of spanning-tree known as IST or Internal Spanning Tree (=MSTI00). Root Information Root Address Root bridge address, which is the bridge with the smallest (lowest) bridge ID. Root Priority Root bridge priority, the bridge with the lowest value has the highest priority and is selected as the root.
Configuration Using the Web Interface Redundant Ring The most common industrial network redundancy is to form a ring or loop. Typically, managed switches are connected in series and the last switch is connected back to the first one. In such connection, you can implement Redundant Ring technology. Redundant Ring Page New Ring (Ring ID/Name) To create a Redundant Ring enter the Ring ID, which has range from 0 to 31.
Configuration Using the Web Interface Redundant Ring Information This page shows Redundant Ring information. Redundant Ring Information Page ID The Ring ID. Version Displays the ring version, this field could be Super Ring or Rapid Super Ring. Role This ES9528 is the RM (Ring Master) or nonRM (non-ring master). Status If this field is Normal it means the redundancy is approved. If any one of the link in this Ring is broken, then the status is Abnormal.
Configuration Using the Web Interface VLAN A Virtual LAN (VLAN) is a logical grouping of nodes for the purpose of limiting a broadcast domain to specific members of a group without physically grouping the members. The VLAN allows you to isolate network traffic so that only members of the VLAN could receive traffic from the same VLAN members.
Configuration Using the Web Interface VLAN Port Configuration The VLAN Port Configuration page allows you to configure VLAN port parameters on a specific port. These parameters include the port VLAN ID (PVID), Tunnel Mode, Accept Frame Type and Ingress Filtering VLAN Port Configuration Page PVID Enter the port VLAN ID (PVID). The PVID allows the switches to identify which port belongs to which VLAN. To keep things simple, it is recommended that PVID is equivalent to VLAN IDs.
Configuration Using the Web Interface VLAN Port Configuration Page (Continued) Ingress filtering instructs the VLAN engine to filter out undesired traffic on a port. • When you Enable Ingress Filtering, the port checks whether the incoming frames belong to the VLAN they claimed or not. The port then determines if the frames can be processed or not.
Configuration Using the Web Interface VLAN Configuration Page The management VLAN ID is the VLAN ID of the CPU interface so that only member Management VLAN ports of the management VLAN can ping and access the switch. The default management VLAN ID is 1. ID Click Apply after you enter the VLAN ID. You can assign a VLAN ID and VLAN Name for the new static VLAN. Static VLAN • VLAN ID: This is used by the switch to identify different VLANs. A valid VLAN ID is between 1 and 4,094, 1 is the default VLAN.
Configuration Using the Web Interface This figure displays how to configure the Egress rule of the ports. Use the following steps to configure Egress rules: 1. Select the VLAN ID. The entry of the selected VLAN turns to light blue. 2. Assign Egress rule of the ports to U or T. 3. Press Apply to apply the setting. If you want to remove one VLAN, select the VLAN entry and then click the Remove button. RocketLinx ES9528 and ES9528-XT User Guide: 2000508 Rev.
Configuration Using the Web Interface GVRP Configuration GARP VLAN Registration Protocol (GVRP) allows you to set-up VLANs automatically rather than manual configuration on every port on every switch in the network. GVRP conforms to the IEEE 802.1Q specification. This defines a method of tagging frames with VLAN configuration data that allows network devices to dynamically exchange VLAN configuration information with other devices.
Configuration Using the Web Interface VLAN Table This table displays the current settings of your VLAN table, including VLAN ID, Name, Status, and Egress rule of the ports. VLAN Table Page VLAN ID The ID of the VLAN. Name The name of the VLAN. Static means that this is a manually configured static VLAN. Unused means this VLAN is created by web user interface/CLI and has no member ports and the VLAN is not workable yet. Dynamic means this VLAN was learnt by GVRP. Status • -- No VLAN setting.
Configuration Using the Web Interface Private VLAN A private VLAN helps to resolve the primary VLAN ID shortage, client ports’ isolation and network security issues. The private VLAN features provides primary and secondary VLANs within a single switch. Primary VLAN: The uplink port is usually a member of the primary VLAN. A primary VLAN contains promiscuous ports that can communicate with Secondary VLANs. Secondary VLAN: The client ports are usually defined within secondary VLAN.
Configuration Using the Web Interface Private VLAN Configuration Page (Continued) Private VLAN Type • None: The VLAN is not included in private VLAN. • Primary: A primary VLAN contains promiscuous ports that can communicate with the secondary VLANs. • Isolated: The member ports of the VLAN are isolated. • Community: The member ports of the VLAN can communicate with each other. Click Apply to apply the settings.
Configuration Using the Web Interface For example: 1. VLAN Create: VLANs 2-5 are created in the VLAN Configuration page. 2. Private VLAN Type: VLANs 2-5 has their own Private VLAN Type configured in the Private VLAN Configuration page. VLAN 2 belongs to the Primary VLAN. VLANs 3-5 belong to the secondary VLAN (Isolated or Community). 3. Private VLAN Association: Associate VLANs 3-5 to VLAN 2 in the Private VLAN Association first. 4.
Configuration Using the Web Interface Traffic Prioritization Quality of Service (QoS) provides a traffic prioritization mechanism which allows you to deliver better service to certain flows. QoS can also help to alleviate congestion problems and ensure high-priority traffic is delivered first. This section allows you to configure Traffic Prioritization settings for each port with regard to setting priorities.
Configuration Using the Web Interface Port-Based Queue Mapping Choose the Queue value of each port, the port then has its default priority. Queue 3 is the highest port-based queue, 0 is the lowest queue. The traffic injected to the port follows the queue level to be forwarded, but the outgoing traffic does not bring the queue level to the next switch. After configuration, press Apply to enable the settings.
Configuration Using the Web Interface After configuration, press Apply to enable the settings. Note: You must Save the settings (Page 124), if you want to maintain these settings if the ES9528 is powered off. DSCP-Queue Mapping Use this page to change DSCP values to Physical Queue mapping table. Since the switch fabric of the ES9528 only supports four queues. Lowest, Low, Middle and High users should therefore assign how to map DSCP values to the level of the physical queue.
Configuration Using the Web Interface Multicast Filtering For multicast filtering, the ES9528 uses IGMP (Internet Group Management Protocol) Snooping technology. IGMP is an internet protocol that provides a way for internet device to report its multicast group membership to adjacent routers. Multicasting allows one computer on the internet to send data to a multitude of other computers that have identified themselves as being interested in receiving the originating computer’s data.
Configuration Using the Web Interface IGMP Snooping Use this page to enable the IGMP Snooping feature, assign IGMP Snooping for specific VLANs, and view the IGMP Snooping table from a dynamic learnt or static that you provide. IGMP Snooping Page You can select Enable or Disable. After enabling IGMP Snooping, you can then enable IGMP Snooping for specific VLAN. IGMP Snooping You can Enable IGMP Snooping for some VLANs so that some of the VLANs support IGMP Snooping and others do not.
Configuration Using the Web Interface IGMP Query Use this page to configure the IGMP Query feature. Since the ES9528 can only be configured by member ports of the management VLAN, the IGMP Query can only be enabled on the management VLAN. If you want to run IGMP Snooping feature in several VLANs, first check to see whether each VLAN has its own IGMP Querier. The IGMP querier periodically sends query packets to all end-stations on the LANs or VLANs that are connected to it.
Configuration Using the Web Interface GMRP Configuration GARP Multicast Registration Protocol (GMRP) is a Generic Registration Protocol (GARP) application that provides a multicast traffic management facility at Layer 2 similar to what IGMP provides at Layer 3. GMRP and GARP are industry-standard protocols first introduced as part of IEEE 802.1D. GMRP Configuration GMRP Protocol Enable/Disable GMRP protocol. State The state of the GMRP operation on this port.
Configuration Using the Web Interface SNMP Simple Network Management Protocol (SNMP) is a protocol to exchange management information between network devices. SNMP is a member of the TCP/IP protocol suite. The ES9528 supports SNMP v1 and v2c and v3. An SNMP managed network consists of two main components: agents and a manager. An agent is a management software module that resides in a managed switch. An agent translates the local management information from the managed device into a SNMP compatible format.
Configuration Using the Web Interface SNMP V3 Profile SNMP v3 can provide more security functions when you perform remote management through SNMP protocol. It delivers SNMP information to the administrator with user authentication; all of data between the ES9528 and the administrator are encrypted to ensure secure communication. SNMP V3 Profile Page User Name SNMP v3 user name. Security Level Select the following levels of security: None, Authentication, and Authentication and Privacy.
Configuration Using the Web Interface SNMP Traps SNMP Trap is the notification feature defined by SNMP protocol. All the SNMP management applications can understand such trap information. So you do not need to install new applications to read the notification information. SNMP Trap Page SNMP Trap Click Enable or Disable SNMP trap functionality. Click Apply to apply the settings. Apply Note: You must Save the settings (Page 124), if you want to maintain these settings if the ES9528 is powered off.
Configuration Using the Web Interface Security The ES9528 provides several security features for you to secure your connection. The following pages are included in this group: • Filter Set (Access Control List) - MAC Filter (Port Security) on Page 104 IP Filter on Page 106 Filter Attach on Page 108 • 802.1x Configuration on Page 109 • 802.1x Port Configuration on Page 110 • 802.1x Port Status on Page 112 Optionally, you can use the CLI for configuration, see Security (CLI) on Page 172.
Configuration Using the Web Interface MAC Filter (Port Security) The MAC Filter allows you to define the Access Control List for a specific MAC address or a group of MAC addresses. To access the options in the following web page, you must first enter the name of the MAC filter in the Name text box in the Filter Set web page, highlight the MAC filter name, click Edit, and then this page appears. Filter Type: MAC Standard/Extended Filter ID/Name The name for this MAC Filter entry.
Configuration Using the Web Interface Wildcard Any Number of Allowances Bit 1111.1111.1111 Host Note All 1 0000.0000.0003 0000.0000.000(00000011) 3 0000.0000.0007 0000.0000.000(00000111) 7 0000.0000.000F 0000.0000.000(11111111) 15 Only the source or destination .... Once you finish configuring the MAC settings, click Add to apply your configuration. The following example shows: • Permit Source MAC address from 00c0.4e33.0000 to Destination MAC 00c0.4e33.0002.
Configuration Using the Web Interface IP Filter Click IP Filter and type ID/Name to configure security using IP addresses. Click Reload to reload setting and Remove to remove one of the entries. IP Filter Set ID/Name You can enter an ID for the IP access list or you can enter an ACL name ID/Name field. If you enter an ACL name, the entry uses IP Extended mode and supports IP Standard and IP Extended.
Configuration Using the Web Interface Highlight an IP Filter ID/Name and click Edit to configure the IP Filter Rules. Filter Type: IP Standard/Extended Filter ID/Name The ID or the name for this IP Filter entry. Action Select Permit to permit traffic from specified sources and Deny to deny traffic from those sources. Source/Destination Address Type the source/destination IP address you want configured.
Configuration Using the Web Interface Wildcard Bit Number of Allowances Note Any 11111111.11111111 All All IP addresses or a mask 255.255.255.255 Host 0.0.0.0 1 Only the source or destination 0.0.0.3 0.0.0.0.(00000011) 3 0.0.0.7 0.0.0.0.(00000111) 7 0000.0000.000F 0.0.0.0.(11111111) 15 .... Note: The mask is a wildcard mask: the high-order bits of the mask that are binary zeros determine how many corresponding high-order bits in the IP address are significant.
Configuration Using the Web Interface 802.1x Configuration IEEE 802.1x is the protocol that performs authentication to obtain access to IEEE 802 LANs. It is port-base network access control. With the function, the ES9528 could control which connection is available or not. IEEE 802.1x Page System Auth Control Enable or Disable the IEEE 802.1x authentication. Authentication Method RADIUS is an authentication server that provides a key for authentication.
Configuration Using the Web Interface IEEE 802.1x Page (Continued) Shows the account information, select Remove to remove a selected account. Local RADIUS User List • User name: The user name of the local RADIUS user. • Password: The password of the local RADIUS user. • VID: The VLAN ID (VID) of the local RADIUS user. 802.
Configuration Using the Web Interface 802.1x Port Configuration Page Port control Force Authorized means that this port is authorized; the data is free to move in/out. Force unauthorized is just the opposite, the port is blocked. To control this port with a RADIUS server, select Auto for port control. Reauthentication If this field is enabled, the ES9528 requests the client to re-authenticate. The default time interval is 3600 seconds.
Configuration Using the Web Interface 802.1x Port Status Use the 802.1x Port Status page to observe the port status for Port Control Status, Authorize Status, Authorized Supplicant, and Oper Control Direction for each port. 112 - 802.1x Port Status RocketLinx ES9528 and ES9528-XT User Guide: 2000508 Rev.
Configuration Using the Web Interface Warning The ES9528 provides several types of warning features for you to remotely monitor the status of the attached devices or changes in your network. The features include System Log and SMTP Email Alert. The following web pages are included in this group: • Event Selection on Page 113 • SysLog Configuration on Page 114 • SMTP Configuration on Page 115 Optionally, you can use the CLI for configuration, see Warnings (CLI) on Page 176.
Configuration Using the Web Interface Port Event Warning Event is sent when….. Click Apply to apply the settings. Apply Note: You must Save the settings (Page 124), if you want to maintain these settings if the ES9528 is powered off. SysLog Configuration The System Log provides the system administrator ES9528 events history. There are two System Log modes provided by the ES9528, Local mode and Remote mode.
Configuration Using the Web Interface SMTP Configuration The ES9528 supports an email alert feature. The ES9528 sends the events that have occurred to a remote email server. The email warning conforms to the SMTP standard. The E-mail Alert page allows you to assign the SMTP Server IP, Sender E-mail, and Receiver E-mail. If the SMTP server requests authentication, you can set up the user name and password. SMTP Configuration Page SMTP Server IP Address Enter the IP address of the email server.
Configuration Using the Web Interface Monitor and Diag The ES9528 provides several web user interface pages for you to monitor the status of the switch or diagnostics when encountering problems related to the ES9528. The features include MAC Address Table, Port Statistics, Port Mirror, Event Log, and Ping.
Configuration Using the Web Interface MAC Address Table Page Each switch fabric has a size limit to write the learnt MAC address. To save more entries for a new MAC address, the switch fabric ages out a non-used MAC address entry per the Aging Time timeout. Aging Time (Sec) This value determines the interval that an automatically learnt MAC address entry remains valid in the forwarding database, since its last access as a source address, before being purged.
Configuration Using the Web Interface Port Statistics Use this page to view operation statistics for each port. The statistics that can be viewed include Link Type, Link State, Rx Good, Rx Bad, Rx Abort, Tx Good, Tx Bad and Collisions. Note: If you see an increase of Bad, Abort or Collision counts, that may mean the network cable is not properly connected or the network performance of the port is poor.
Configuration Using the Web Interface Port Mirroring Port mirroring (also called port spanning) is a tool that allows you to mirror the traffic from one or more ports onto another port, without disrupting the flow of traffic on the original port. Any traffic that goes into or out of the Source Ports is duplicated at the Destination Ports. This traffic can then be analyzed at the Destination Port using a monitoring device or application.
Configuration Using the Web Interface Event Log The System Log feature was introduced in SysLog Configuration on Page 114. When System Log Local mode is selected, the ES9528 records events that occurred in the local log table. This page shows the log table. The entry includes the index, occurred data and time, and content of the events. Click Clear to clear the entries. Click Reload to refresh the table. 120 - Event Log RocketLinx ES9528 and ES9528-XT User Guide: 2000508 Rev.
Configuration Using the Web Interface Topology Discovery (LLDP) The ES9528 supports topology discovery or LLDP (IEEE 802.1AB Link Layer Discovery Protocol) functionality that can help to discovery multi-vendor’s network devices on the same segment by a network monitoring system (NMS) that supports LLDP functionality. With LLDP functionality, NMS can easily maintain the topology map, display port ID, port description, system description, and VLAN ID.
Configuration Using the Web Interface Ping Utility This page provides a Ping Utility to ping a remote device and check whether the device is alive or not. Type the Target IP address of the target device and click Start to start the ping. After few seconds, you can see the result in the Result field. 122 - Ping Utility RocketLinx ES9528 and ES9528-XT User Guide: 2000508 Rev.
Configuration Using the Web Interface Device Front Panel The Device Front Panel allows you to see the LED status of the ES9528. LED Name LED On/Link Up LED Off/Link Down PWR (Power) Green Black R.M. (Ring Master) Green Black LEDs 1-24 Green Black: Not connected LEDs 25-28 Green Black: Not connected Green: On SFP Link State Gray: Plugged in but not linked up Black: Not connected Note: There is not a CLI command for this feature.
Configuration Using the Web Interface Save to Flash The Save Configuration page saves any changes to the configuration to the flash. If the switch loses power before clicking Save Configuration causes loss of the new settings. Applying changes on web user interface pages do not save the changes to the flash. After selecting Save Configuration, click Save to Flash to save your new configuration. Optionally, you can use the CLI, see Saving to Flash (CLI) on Page 181.
Configuration Using the Command Line Interface (CLI) Overview The ES9528 provides in-band and out-band configuration methods: • Out-band management means that you configure the ES9528 using the RS-232 console cable and the Command Line Interface (CLI) to access the ES9528 without attaching an admin PC to the network. You can use out-band management if you lose the network connection to the ES9528. • In-band management means that you connect remotely using the ES9528 IP address through the network.
Configuration Using the Command Line Interface (CLI) Using the Serial Console Comtrol provides one RS-232 DB9 console cable with the ES9528. Note: A system COM port is required to use a serial console connection. If you do not have an available COM port, use the Using a Telnet/SSH Console procedure on Page 129. 1. Attach one end of the RS-232 DB9 connector to your PC COM port and connect the other end to the Console port of the ES9528.
Configuration Using the Command Line Interface (CLI) 5. Type a Host Name to represent the COM port. 6. Click Serial on the left side under Category. 7. Configure the serial line with the following characteristics. Serial Settings Baud Rate Data bits Parity Stop Bit Flow Control Value 9600 8 None 1 None 8. Click Session under Category in the menu. 9. Type an appropriate Saved Session name and click Save. 10. Click Open. RocketLinx ES9528 and ES9528-XT User Guide: 2000508 Rev.
Configuration Using the Command Line Interface (CLI) 11. Press Enter. 12. Log in to the switch. The default user name is admin, password, admin. a. Type the login and press the Enter key. b. Type the password and press the Enter key. Switch login: admin Password: Switch (version 1.4b_b4-20140902:16:03:22). Switch> 13. If necessary, configure the IP address for your network. The following example shows how to program an IP address of 192.168.11.252 with a Class B subnet mask (255.255.0.0).
Configuration Using the Command Line Interface (CLI) Using a Telnet/SSH Console The ES9528 supports a Telnet console or SSH console with the Command Line Interface (CLI), which is the same as what you see using the RS-232 console port. The SSH connection can secure all the configuration commands you send to the ES9528. SSH is a client/server architecture while the ES9528 is the SSH server. When you want to make SSH connection with the ES9528, you can use PortVision DX or download an SSH client tool.
Configuration Using the Command Line Interface (CLI) If you selected SSH, click Yes. • Enter the user name (default = admin). • Enter the password (default = admin). If you selected Telnet: • Enter the user name (default = admin). • Enter the password (default = admin). All the commands you see in SSH are the same as the CLI commands you see through the RS-232 console. For more information about using the CLI, see Command Line Interface Introduction on Page 130.
Configuration Using the Command Line Interface (CLI) User EXEC Mode When you login to the ES9528 with the CLI, you are in User EXEC mode. In User EXEC mode, you can ping, telnet to a remote device, and show some basic information.
Configuration Using the Command Line Interface (CLI) 4. Type show ip route and press the Enter key to view the IP routing tables for the ES9528. Switch> show ip route Codes: K - kernel route, C - connected, S - static, R - RIP, O - OSPF, B - BGP, > - selected route, * - FIB route S>* 0.0.0.0/0 [1/0] via 192.168.0.254, vlan1 C>* 127.0.0.0/8 is directly connected, lo C>* 192.168.0.0/16 is directly connected, vlan1 5.
Configuration Using the Command Line Interface (CLI) Privileged EXEC Mode If you type enable in User EXEC mode, you can access Privileged EXEC mode. In this mode, the ES9528 allows you to view current configuration, reset default, reload switch, show system information, save configuration, and enter Global Configuration mode. Type the following commands and press the Enter key: • configure terminal to access Global Configuration mode (Global Configuration Mode on Page 134). • exit to close the CLI.
Configuration Using the Command Line Interface (CLI) Global Configuration Mode If you type configure terminal in Privileged EXEC mode, you can then access Global Configuration mode. In Global Configuration mode, you can configure all ES9528 features. Type the following commands and press the Enter key: • interface IFNAME/VLAN, to access the corresponding Interface Configuration mode. • exit to return to Privileged EXEC mode. • ? to see the command list.
Configuration Using the Command Line Interface (CLI) (Port) Interface Configuration When you type interface IFNAME in Global Configuration mode, you can access Interface Configuration mode. In this mode you can configure port settings. The port interface names for the Fast Ethernet ports are fa1 through fa28 Type the following commands and press the Enter key: • exit to return to Privileged EXEC mode. • ? to see the command list.
Configuration Using the Command Line Interface (CLI) (VLAN) Interface Configuration If you type interface VLAN VLAN-ID in Global Configuration mode, you can access VLAN Interface Configuration mode. In this mode, you can configure the settings for the specific VLAN. Switch(config)# interface vlan 1 Switch(config-if)# The VLAN interface name of VLAN 1 is VLAN 1, VLAN 2 is VLAN 2. Type exit to return to the previous mode. Type ? to see the available command list.
Configuration Using the Command Line Interface (CLI) Mode: Main Function Access and Exit Mode • VLAN Interface Configuration: Configure settings for a • specific VLAN. • Prompt Access VLAN Interface Configuration mode: Type interface VLAN VID in Global Configuration mode. Exit: Type exit or Ctrl+Z to return to Global Configuration mode. Switch(config-vlan)# Type end to return to Privileged EXEC mode. The following are useful commands to save you typing time and to avoid typing errors.
Configuration Using the Command Line Interface (CLI) VTY Configuration Locked (Error Message) An alert message (VTY configuration is locked by another VTY) appears when multiple users are attempting to configure the ES9528. If the administrator is in Configuration mode, then the web users cannot change settings. The ES9528 allows only one administrator to configure the switch at a time. 138 - VTY Configuration Locked (Error Message) RocketLinx ES9528 and ES9528-XT User Guide: 2000508 Rev.
Configuration Using the Command Line Interface (CLI) Basic Settings (CLI) The Basic Setting group provides you with the ability to configure switch information, IP address, User name/ Password of the system. It also allows you to do firmware upgrade, backup and restore configuration, reload factory default, and reboot the system. Optionally, you can use the web user interface for configuration, see Basic Settings on Page 43.
Configuration Using the Command Line Interface (CLI) IP Configuration IP Address/Mask (192.168.250.250, 255.255.255.0 The enabled bit of the subnet mask is used to represent the number displayed in the web user interface. For example, 8 represents: 255.0.0.0, 16 represents: 255.255.0.0, 24 represents:255.255.255.0. Switch(config)# int vlan 1 Switch(config-if)# ip address dhcp Switch(config-if)# ip address 192.168.250.
Configuration Using the Command Line Interface (CLI) Time Setting (Continued) Display Switch # sh ntp associations Network time protocol Status: Disabled Primary peer: N/A Secondary peer: N/A Switch # show clock Sun Jan 1 04:14:19 2006 (GMT) Greenwich Mean Time: Dublin, Edinburgh, Lisbon, London Switch # show clock timezone clock timezone (26) (GMT) Greenwich Mean Time: Dublin, Edinburgh, Lisbon, London Switch# show ptpd PTPd is enabled Mode: Slave Jumbo Frame Jumbo Frame Switch(config)# system mtu jum
Configuration Using the Command Line Interface (CLI) DHCP Server (Continued) Show DHCP server information Switch# show ip dhcp server statistics DHCP Server ON Address Pool 1 network:192.168.17.0/24 default-router:192.168.17.
Configuration Using the Command Line Interface (CLI) DHCP Server (Continued) DHCP Server – Static IP and MAC binding Switch(config-dhcp)# ip dhcp static MACADDR MAC address Switch(config-dhcp)# ip dhcp static 00C0.4E33.0001 A.B.C.D leased IP address Switch(config-dhcp)# ip dhcp static 00C0.4E33.0001 192.168.10.
Configuration Using the Command Line Interface (CLI) Firmware Upgrade Firmware Upgrade Switch# archive download-sw /overwrite tftp 192.168.11.33 ES9528.bin Firmware upgrading, don't turn off the switch! Tftping file ES9528.bin Firmware upgrading ............................................................ .................... ............................................................ .................... ........................... Firmware upgrade success!! Rebooting.......
Configuration Using the Command Line Interface (CLI) Port Configuration (CLI) The Port Configuration group allows you to enable/disable port state, or configure port auto-negotiation, speed, duplex, flow control, rate limit control, and port aggregation settings. It also allows you to view port status and aggregation information. Optionally, you can use the web user interface for configuration, see Port Configuration on Page 63.
Configuration Using the Command Line Interface (CLI) Rate Control Rate Control – Ingress or Egress Rate Control Bandwidth Switch(config-if)# rate-limit egress Outgoing packets ingress Incoming packets Note: To enable rate control, you should select the Ingress or Egress rule first; then assign the packet type and bandwidth.
Configuration Using the Command Line Interface (CLI) Port Trunking (Continued) Switch# show trunk group 1 FLAGS: I -> Individual D -> Port Down Display - Trunk P -> In channel Trunk Group GroupID Protocol Ports --------+---------+-----------------------------------1 LACP 8(D) 9(D) 10(D) Switch# show trunk group 2 FLAGS: I -> Individual P -> In channel D -> Port Down Trunk Group GroupID Protocol Ports --------+---------+-----------------------------------2 Static 6(D) 7(P) Switch# RocketLinx ES9528 and
Configuration Using the Command Line Interface (CLI) Network Redundancy (CLI) It is critical for industrial applications that the network remains running at all times. The ES9528 supports: • Standard Rapid Spanning Tree Protocol (STP) and Rapid Spanning Tree Protocol (RSTP) The ES9528 supports RSTP versions IEEE 802.1D-2004, IEEE 802.1D-1998 STP, and IEEE 802.1w RSTP. • Multiple Spanning Tree Protocol (MSTP) MSTP implements IEEE 802.
Configuration Using the Command Line Interface (CLI) Forward Delay Switch(config)# spanning-tree forward-time <4-30> the value of forward delay time in seconds Switch(config)# spanning-tree forward-time 15 Max Age Switch(config)# spanning-tree max-age <6-40> the value of message maximum age time in seconds Switch(config)# spanning-tree max-age 20 Hello Time Switch(config)# spanning-tree hello-time <1-10> the value of hello time in seconds Switch(config)# spanning-tree hello-time 2 MSTP Switch(config)
Configuration Using the Command Line Interface (CLI) MSTP (Continued) Switch(config-mst)# show current Current MST configuration Name [comtrol] Revision 65535 Instance Vlans Mapped Display Current -------- -------------------------------------0 1,4-4094 MST Configuration 1 2 2 3 -----------------------------------------------Config HMAC-MD5 Digest: 0xB41829F9030A054FB74EF7A8587FF58D ------------------------------------------------ Remove Region Name Switch(config-mst)# no name name configure revision rev
Configuration Using the Command Line Interface (CLI) MSTP (Continued) Switch(config-mst)# abort discard all mst configuration changes Switch(config)# spanning-tree mst configuration Switch(config-mst)# show pending Abort the Pending MST configuration Setting and go Name [comtrol] (->The name is not applied after Abort settings.) to the configuration Revision 65535 mode.
Configuration Using the Command Line Interface (CLI) Port Configuration Mode (Continued) Link Type – Share Switch(config-if)# spanning-tree link-type shared Edge Port Switch(config-if)# spanning-tree edge-port enable Switch(config-if)# spanning-tree edge-port disable MSTP Port Configuration Switch(config-if)# spanning-tree mst MSTMAP cost <1-200000000> the value of mst instance port cost Switch(config-if)# spanning-tree mst MSTMAP port-priority <0-240> the value of mst instance port priority in multip
Configuration Using the Command Line Interface (CLI) Global Information (Continued) Port Info Switch# show spanning-tree interface fa1 Interface fastethernet1 of Bridge is Alternate Blocking Edge Port : Edge (Non-Edge) BPDU Filter : Disabled Link Type : Auto (Point-to-point) BPDU Guard : Disabled Timers : message-age 4, forward-delay 0 BPDUs : sent 26, received 34037 TCNs : sent 0, received 0 Message Expired Count : 0 Forward Transition Count : 8 Aggregation Group: N/A Type: N/A Aggregated with : N/A Por
Configuration Using the Command Line Interface (CLI) MSTP Information (Continued) Switch# show spanning-tree mst ###### MST00 vlans mapped: 1-4094 Bridge address 00c0.4e30.0001 priority 32768 (sysid 0) Root address 00c0.4e2c.004f priority 32768 (sysid 0) port 10 path cost 400000 Regional root this switch Display all MST Operational max-age 2, hello-time 15, forward-delay 20 Information Configured max-age 2, hello-time 15, forward-delay 20, max-hops 20 Port Role State Cost Prio.
Configuration Using the Command Line Interface (CLI) Redundant Ring Switch(config)# redundant-ring 1 Ring 1 created Create or configure a Ring Switch(config-redundant-ring)# Note: 1 is the target Ring ID which is going to be created or configured.
Configuration Using the Command Line Interface (CLI) Ring Info Ring Info Switch# show redundant-ring [Ring ID] [Ring1] Ring1 Current Status : Disabled Role : Disabled Ring Status : Abnormal Ring Manager : 0000.0000.
Configuration Using the Command Line Interface (CLI) VLAN (CLI) A Virtual LAN (VLAN) is a logical grouping of nodes for the purpose of limiting a broadcast domain to specific members of a group without physically grouping the members. The VLAN allows you to isolate network traffic so that only members of the VLAN could receive traffic from the same VLAN members.
Configuration Using the Command Line Interface (CLI) VLAN Port Configuration (continued) Switch# show running-config …… ! interface fastethernet1 Display – Port switchport access vlan 1 Egress Rule (Egress switchport access vlan 3 rule, IP address, switchport trunk native vlan 2 status) ……. interface vlan1 ip address 192.168.250.
Configuration Using the Command Line Interface (CLI) VLAN Configuration (continued) Display – VLAN table Switch# sh vlan VLAN Name Status Trunk Ports Access Ports ---- --------- ------------ -------------------------1 VLAN1 Static fa1-7,gi25-28 2 VLAN2 Unused 3 test Static fa4-7,gi25-28 fa1-3,fa7,gi25-28 Display – VLAN interface information Switch# show interface vlan1 interface vlan1 is up, line protocol detection is disabled index 14 metric 1 mtu 1500 HWaddr: 00:c0:4e
Configuration Using the Command Line Interface (CLI) Private VLAN (CLI) A private VLAN helps to resolve the primary VLAN ID shortage, client ports’ isolation and network security issues. The Private VLAN features provides primary and secondary VLANs within a single switch. Primary VLAN: The uplink port is usually a member of the primary VLAN. A primary VLAN contains promiscuous ports that can communicate with Secondary VLANs. Secondary VLAN: The client ports are usually defined within secondary VLAN.
Configuration Using the Command Line Interface (CLI) Private VLAN Port Configuration Go to the port configuration Private VLAN Port Type Promiscuous Port Type Switch(config)# interface (port_number, ex: fa1) Switch(config-if)# switchport private-vlan host-association Set the private VLAN host association mapping map primary VLAN to secondary VLAN Switch(config-if)# switchport mode private-vlan Set private-vlan mode Switch(config-if)# switchport mode private-vlan host Set the mode to private-vlan host pro
Configuration Using the Command Line Interface (CLI) Private VLAN Information (Continued) Switch# show run Building configuration... Current configuration: hostname Switch vlan learning independent ! vlan 1 Running Config ! Information vlan 2 private-vlan primary ! vlan 3 private-vlan isolated ! vlan 4 private-vlan community ! vlan 5 private-vlan community Private VLAN Type ! ……….. ………..
Configuration Using the Command Line Interface (CLI) Private VLAN Information (Continued) PVLAN Type Switch# show vlan private-vlan type Vlan Type Ports ---- ----------------- ----------------2 primary fa3 3 isolated fa2 4 community fa1 5 community fa4,fa5 10 primary - Host List Switch# show vlan Ports Mode ----- ----------1 normal 2 normal 3 normal 4 normal 5 normal 6 normal 7 host 8 host 9 host 10 promiscuous private-vlan port-list Vlan ---5 4 3 2 RocketLinx ES9528 and ES9528-XT User Guide: 2000508
Configuration Using the Command Line Interface (CLI) Traffic Prioritization (CLI) Quality of Service (QoS) provides a traffic prioritization mechanism which allows you to deliver better service to certain flows. QoS can also help to alleviate congestion problems and ensure high-priority traffic is delivered first. This section allows you to configure Traffic Prioritization settings for each port with regard to setting priorities.
Configuration Using the Command Line Interface (CLI) QoS Setting (Continued) QoS Priority Mode Switch(config)# qos priority cos CoS dscp DSCP/TOS port-based Port-based Switch(config)# qos priority dscp Switch# show qos priority QoS Priority Mode: DSCP Display - Queue Scheduling Switch# show qos queue-sched QoS queue scheduling scheme : Weighted Round Robin COS queue 0 = 1 COS queue 1 = 2 COS queue 2 = 3 COS queue 3 = 4 Display – Port Priority Setting (Port Default Priority) Switch# show qos port-prio
Configuration Using the Command Line Interface (CLI) CoS-Queue Mapping (cont) Map CoS 5 to Queue 2 Switch(config)# qos cos-map 5 2 The CoS to queue mapping is set ok. Map CoS 6 to Queue 3 Switch(config)# qos cos-map 6 3 The CoS to queue mapping is set ok. Map CoS 7 to Queue 3 Switch(config)# qos cos-map 7 3 The CoS to queue mapping is set ok.
Configuration Using the Command Line Interface (CLI) Multicast Filtering (CLI) For multicast filtering, the ES9528 uses IGMP (Internet Group Management Protocol) Snooping technology. IGMP is an internet protocol that provides a way for internet device to report its multicast group membership to adjacent routers. Multicasting allows one computer on the internet to send data to a multitude of other computers that have identified themselves as being interested in receiving the originating computers data.
Configuration Using the Command Line Interface (CLI) IGMP Snooping (Continued) Switch# sh ip igmp interface vlan1 enabled: Yes version: IGMPv1 query-interval; 125s Display – IGMP Snooping Setting query-max-response-time: 10s Switch# sh ip igmp snooping IGMP snooping is globally enabled Vlan1 is IGMP snooping enabled Vlan2 is IGMP snooping enabled Vlan3 is IGMP snooping disabled Switch# sh ip igmp snooping multicast all VLAN IP Address Display – IGMP Table ---- --------------- 1 1 Type Ports -------
Configuration Using the Command Line Interface (CLI) IGMP Query (Continued) Switch# sh ip igmp interface vlan1 enabled: Yes version: IGMPv2 query-interval: 125s query-max-response-time: 10s Display Switch# show running-config …. ! interface vlan1 ip address 192.168.250.17/24 ip igmp no shutdown ! …….
Configuration Using the Command Line Interface (CLI) GMRP Configuration Enable GMRP globally Switch(config)# gmrp mode enable Gmrp is enabled on the switch! Disable GMRP globally Switch(config)# gmrp mode disable Enable GMRP on a port Switch(config)# gmrp mode enable fa1 Disable GMRP on a port Switch(config)# gmrp mode disable fa2 Gmrp is disabled on the switch! Gmrp enabled on port 1 ! Gmrp disabled on port 2 ! Switch# sh gmrp GMRP global enabled port 1 : enabled port 2 : enabled port 3 : disabl
Configuration Using the Command Line Interface (CLI) SNMP (CLI) Simple Network Management Protocol (SNMP) is a protocol used for exchanging management information between network devices. SNMP is a member of the TCP/IP protocol suite. The ES9528 supports SNMP v1 and v2c and V3. An SNMP managed network consists of two main components: agents and a manager. An agent is a management software module that resides in a managed switch.
Configuration Using the Command Line Interface (CLI) Security (CLI) The ES9528 provides several security features for you to secure your connection. Optionally, you can use the web user interface for configuration, see Security on Page 103. This table provides information about the command lines for security configuration.
Configuration Using the Command Line Interface (CLI) Port Security (Continued) Switch(config)# ip access-list extended <100-199> Extended IP access-list number <2000-2699> Extended IP access-list number (expanded range) WORD access-list name Switch(config)# ip access-list extended 100 Switch(config-ext-acl)# deny Specify packets to reject Add IP Extended access list permit Specify packets to forward end End current mode and down to previous mode exit Exit current mode and down to previous mode list Print c
Configuration Using the Command Line Interface (CLI) Port Security (Continued) Example 1: Edit IP Extended access list Switch(config)# ip access-list extended 100 Switch(config-ext-acl)#permit ip Any Internet Protocol tcp Transmission Control Protocol udp User Datagram Protocol icmp Internet Control Message Protocol Switch(config-ext-acl)#permit ip A.B.C.D Source address any Any source host host A single source host Switch(config-ext-acl)#permit ip 192.168.10.1 A.B.C.
Configuration Using the Command Line Interface (CLI) 802.
Configuration Using the Command Line Interface (CLI) Warnings (CLI) The ES9528 provides several types of warning features for you to remotely monitor the status of the attached devices or changes in your network. The features include System Log and SMTP Email Alert. Optionally, you can use the web user interface for configuration, see Warning on Page 113. This table provides detailed information about the command lines of the warning configuration.
Configuration Using the Command Line Interface (CLI) Syslog Configuration Local Mode Switch(config)# log syslog local Server Mode Switch(config)# log syslog remote 192.168.250.33 Both Switch(config)# log syslog local Switch(config)# log syslog remote 192.168.250.33 Disable Switch(config)# no log syslog local SMTP Configuration SMTP Enable Switch(config)# smtp-server enable email-alert SMTP Email Alert set enable ok. Sender mail Switch(config)# smtp-server server 192.168.250.
Configuration Using the Command Line Interface (CLI) Monitor and Diag (CLI) The ES9528 provides several types of features for you to monitor the status of the switch or diagnostic for you to check the problem when encountering problems related to the switch. The features include MAC Address Table, Port Statistics, Port Mirror, Event Log, and Ping. Optionally, you can use the web user interface for configuration, see Monitor and Diag on Page 116.
Configuration Using the Command Line Interface (CLI) MAC Address Table (continued) Show MAC Address Table – Static MAC addresses Switch# show mac-address-table static Destination Address Address Type Vlan ------------------- --------------- ------00c0.4e33.0101 Static 1 00c0.4e33.0102 Static 1 Show Aging timeout time Switch# show mac-address-table aging-time the mac-address-table aging-time is 300 sec.
Configuration Using the Command Line Interface (CLI) Port Mirroring (continued) Display Switch# show mirror Mirror Status : Enabled Ingress Monitor Destination Port : fa6 Egress Monitor Destination Port : fa6 Ingress Source Ports :fa1,fa2, Egress Source Ports :fa1,fa2, Event Log Display Switch# <1>Jan <2>Jan <3>Jan <4>Jan show event-log 1 02:50:47 snmpd[101]: 1 02:50:50 snmpd[101]: 1 02:50:51 snmpd[101]: 1 02:50:53 snmpd[101]: Event: Event: Event: Event: Link Link Link Link 4 5 5 4 Down. Up.
Configuration Using the Command Line Interface (CLI) Saving to Flash (CLI) Save Configuration allows you to save any configuration you just made to the flash. Powering off the switch without saving the configuration causes loss of the new settings. Saving to Flash SWITCH# write Building Configuration… [OK] Save to Flash Switch# copy running-config startup-config Building Configuration...
Configuration Using the Command Line Interface (CLI) 182 - Service (CLI) RocketLinx ES9528 and ES9528-XT User Guide: 2000508 Rev.
Complete CLI List This section provides the complete listing of RocketLinx ES9528 commands with the supporting options: • User EXEC Mode • Privileged EXEC Mode on Page 184 • Global Configuration Mode on Page 189 • Port Interface Configuration Mode on Page 198 • VLAN Interface Configuration Mode on Page 200 User EXEC Mode For information about accessing User EXEC mode, see User EXEC Mode on Page 183. Switch> list enable exit list ping A.B.C.
Complete CLI List Privileged EXEC Mode For information about accessing Privileged EXEC mode, see Privileged EXEC Mode on Page 184.
Complete CLI List Privileged EXEC Mode (continued) debug trunk debug vlan (all|trace|debug) disable dot1x initialize interface IFNAME dot1x reauthenticate interface IFNAME end exit list mac access-group dump <1-1536> mac access-group show no debug dot1x all no debug dot1x errors no debug dot1x events no debug dot1x packets no debug dot1x registry no debug dot1x state-machine no debug gmrp no debug gvrp (all|rcv|tx|gvrp_event|vlan_event) no debug ip dhcp (all|event) no debug ip igmp no debug ip igmp snoopin
Complete CLI List Privileged EXEC Mode (continued) show show show show show show show show show show show show show show show show show show show show show show show show show show show show show show show show show show show show show show show show show show show show show show show show show show show show debugging ip dhcp debugging ip igmp debugging ip igmp snooping debugging lacp debugging snmp debugging spanning-tree deny host mac-address dot1q-tunnel dot1x dot1x all dot1x authentic-method dot1x in
Complete CLI List Privileged EXEC Mode (continued) show show show show show show show show show show show show show show show show show show show show show show show show show show show show show show show show show show show show show show show show show show show show show show show show show show show show lacp internal [1-8] lacp neighbor [1-8] lacp port-setting [IFNAME] lacp system-id lacp system-priority lldp lldp neighbors lldp statistics mac access-group [INTERFACE] mac access-list [WORD] mac-addr
Complete CLI List Privileged EXEC Mode (continued) show spanning-tree active show spanning-tree interface IFNAME show spanning-tree mst show spanning-tree mst <0-15> show spanning-tree mst <0-15> interface IFNAME show spanning-tree mst configuration show spanning-tree mst interface IFNAME show spanning-tree mst root show spanning-tree summary show startup-config show storm-control show storm-control IFNAME (broadcast|dlf|multicast) show system mtu show trunk group [1-8] show version show vlan show vlan (st
Complete CLI List Global Configuration Mode For information about accessing Global Configuration mode, see Global Configuration Mode on Page 189. Switch(config)# list access-list (<1-99>|<100-199>|<1300-1999>|<2000-2699>) remark .LINE access-list (<1-99>|<1300-1999>) (deny|permit) A.B.C.D A.B.C.D [IFNAME] access-list (<1-99>|<1300-1999>) (deny|permit) A.B.C.D [IFNAME] access-list (<1-99>|<1300-1999>) (deny|permit) any [IFNAME] access-list (<1-99>|<1300-1999>) (deny|permit) host A.B.C.
Complete CLI List Global Configuration Mode (continued) access-list (<100-199>|<2000-2699>) (deny|permit) (tcp|udp) any eq <0-65535> any [IFNAME] access-list (<100-199>|<2000-2699>) (deny|permit) (tcp|udp) any eq <0-65535> any eq <0-65535> [IFNAME] access-list (<100-199>|<2000-2699>) (deny|permit) (tcp|udp) any eq <0-65535> host A.B.C.D [IFNAME] access-list (<100-199>|<2000-2699>) (deny|permit) (tcp|udp) any eq <0-65535> host A.B.C.
Complete CLI List Global Configuration Mode (continued) access-list (<100-199>|<2000-2699>) (deny|permit) icmp host A.B.C.D A.B.C.D A.B.C.D <1-255> code <1-255> [IFNAME] access-list (<100-199>|<2000-2699>) (deny|permit) icmp host A.B.C.D any <1-255> [IFNAME] access-list (<100-199>|<2000-2699>) (deny|permit) icmp host A.B.C.D any <1-255> code <1-255> [IFNAME] access-list (<100-199>|<2000-2699>) (deny|permit) icmp host A.B.C.D host A.B.C.
Complete CLI List Global Configuration Mode (continued) ip route A.B.C.D/M (A.B.C.D|INTERFACE) ip route A.B.C.D/M (A.B.C.D|INTERFACE) <1-255> ip security ip security host A.B.C.D ipv6 route X:X::X:X/M (X:X::X:X|INTERFACE) lacp group <1-8> IFLIST lacp system-priority <1-65535> list lldp holdtime <10-255> lldp run lldp timer <5-254> log file FILENAME log stdout log syslog local log syslog remote A.B.C.
Complete CLI List Global Configuration Mode (continued) no access-list (<100-199>|<2000-2699>) (deny|permit) (ip|tcp|udp|icmp) host A.B.C.D host A.B.C.D [IFNAME] no access-list (<100-199>|<2000-2699>) (deny|permit) (tcp|udp) A.B.C.D A.B.C.D A.B.C.D A.B.C.D eq <0-65535> [IFNAME] no access-list (<100-199>|<2000-2699>) (deny|permit) (tcp|udp) A.B.C.D A.B.C.D eq <0-65535> A.B.C.D A.B.C.D [IFNAME] no access-list (<100-199>|<2000-2699>) (deny|permit) (tcp|udp) A.B.C.D A.B.C.D eq <0-65535> A.B.C.D A.B.C.
Complete CLI List Global Configuration Mode (continued) no access-list (<100-199>|<2000-2699>) (deny|permit) (tcp|udp)) A.B.C.D A.B.C.D eq <0-65535> any [IFNAME] no access-list (<100-199>|<2000-2699>) (deny|permit) (tcp|udp)) A.B.C.D A.B.C.D eq <0-65535> any eq <0-65535> [IFNAME] no access-list (<100-199>|<2000-2699>) (deny|permit) icmp A.B.C.D A.B.C.D A.B.C.D A.B.C.D <1-255> [IFNAME] no access-list (<100-199>|<2000-2699>) (deny|permit) icmp A.B.C.D A.B.C.D A.B.C.D A.B.C.
Complete CLI List Global Configuration Mode (continued) no no no no no no no no no no no no no no no no no no no no no no no no no no no no no no no no no no no no no no no no no no no no no no no no no no no no ip access-list extended (<100-199>|<2000-2699>|WORD) ip access-list standard (<1-99>|<1300-1999>|WORD) ip forwarding ip igmp snooping ip igmp snooping immediate-leave ip igmp snooping immediate-leave vlan (VLANLIST|all) ip igmp snooping last-member-query-interval ip igmp snooping last-member-query
Complete CLI List Global Configuration Mode (continued) no spanning-tree bridge-times no spanning-tree forward-time no spanning-tree hello-time no spanning-tree max-age no spanning-tree mst MSTMAP priority no spanning-tree mst configuration no spanning-tree mst forward-time no spanning-tree mst hello-time no spanning-tree mst max-age no spanning-tree mst max-hops no spanning-tree priority no spanning-tree transmission-limit no storm-control (broadcast|dlf|multicast) no system mtu no trunk group <1-8> no vl
Complete CLI List Global Configuration Mode (continued) spanning-tree (enable|disable) spanning-tree bridge-times <4-30> <6-40> <1-10> spanning-tree forward-time <4-30> spanning-tree hello-time <1-10> spanning-tree max-age <6-40> spanning-tree mode (stp|rst) spanning-tree mode mst spanning-tree mst MSTMAP priority <0-61440> spanning-tree mst configuration spanning-tree mst forward-time <4-30> spanning-tree mst hello-time <1-10> spanning-tree mst max-age <6-40> spanning-tree mst max-hops <1-40> spanning-tre
Complete CLI List Port Interface Configuration Mode For information about accessing Port Interface Configuration mode, see Port Interface Configuration Mode on Page 198. Switch(config)# interface fa1 Switch(config-if)# list acceptable frame type (all|vlantaggedonly) auto-negotiation description .
Complete CLI List Port Interface Configuration Mode (continued) no qos priority no rate-limit egress bandwidth no rate-limit ingress bandwidth no shutdown no spanning-tree bpdufilter no spanning-tree bpduguard no spanning-tree cost no spanning-tree edge-port no spanning-tree link-type no spanning-tree mst MSTMAP cost no spanning-tree mst MSTMAP port-priority no spanning-tree port-priority no spanning-tree stp-state no speed no storm-control (broadcast|dlf|multicast) no switchport access vlan VLANID no swit
Complete CLI List Port Interface Configuration Mode (continued) switchport trunk native vlan VLANID VLAN Interface Configuration Mode For information about accessing VLAN Interface Configuration mode, see VLAN Interface Configuration Mode on Page 200. Switch(config-if)# interface vlan1 Switch(config-if)# list description .LINE end exit ip address A.B.C.
ModBus TCP /IP Support This section provides the following information: • Modbus TCP/IP Function Codes on Page 202 • Error Checking on Page 202 • Exception Response on Page 203 • Modbus TCP Register Table on Page 203 • CLI Commands for Modbus TCP/IP on Page 210 Overview The ES9528 supports Modbus TCP/IP communications through the CLI, which does not support Modbus ASCII or Modbus RTU. This functionality is not available on a web user interface page.
ModBus TCP /IP Support The ES9528 operates as slave/server device, while a typical master/client device is a host computer running appropriate application software, for example, a SCADA / HMI system. The ES9528 can be polled through Ethernet, thus the Modbus TCP/IP master can read or write to the Modbus registers provided by the Modbus TCP/IP.
ModBus TCP /IP Support Exception Response If an error occurs, the slave sends an exception response message to master consisting of the slave address, function code, exception response code and error check field. In an exception response, the slave sets the highorder bit (MSB) of the response function code to one. Code Name Descriptions 01 Illegal Function The message function received is not an allowable action. 02 Illegal Data Address The address referenced in the data field is not valid.
ModBus TCP /IP Support Word Address Data Type Description System Information (cont.
ModBus TCP /IP Support Word Address Data Type Description Firmware Release Date 0x020A 2 words Firmware was released on 2010-08-11 at 09 o’clock Word 0 = 0x0B09 3 words Word 1 = 0x0A08 Ethernet MAC Address For example: MAC = 01-02-03-04-05-06 Word 0 Hi byte = 0x01 Word 0 Lo byte = 0x02 0x020C Word 1 Hi byte = 0x03 Word 1 Lo byte = 0x04 Word 2 Hi byte = 0x05 Word 2 Lo byte = 0x06 IP address For example: IP = 192.168.250.
ModBus TCP /IP Support Word Address Data Type Description System Information (cont.
ModBus TCP /IP Support Word Address Data Type Description Port Information (32 Ports) 0x1000 to 0x11FF 16 words Port Description Administrative Status 0x1200 to 0x121F 1 word 0x0000: disable 0x0001: enable Operating Status 0x1220 to 0x123F 1 word 0x0000: disable 0x0001: enable 0xFFFF: unavailable Duplex 0x0000: half 0x0001: full 0x1240 to 0x125F 1 word 0x0003: auto (half) 0x0004: auto (full) 0x0005: auto 0xFFFF: unavailable Speed 0x0001: 10 0x0002: 100 0x0003: 1000 0x0004: 2500 0x0005: 10000
ModBus TCP /IP Support Word Address Data Type Description Port Information (32 Ports - cont.
ModBus TCP /IP Support Word Address Data Type Description SFP DDM Information (32 Ports) 0x1800 to 0x181F 1 words Temperature 0x1820 to 0x185F 2 words Alarm Temperature 0x1860 to 0x187F 1 words Tx power 0x1880 to 0x18BF 2 words Warning Tx power 0x18C0 to 0x18DF 1 words Rx power 0x18E0 to 0x191F 2 words Warning Rx power 0x1920 to 0x1FFF 1760 words Reserved address space Inbound Packet Information 0x2000 to 0x203F 0x2040 to 0x207F 0x2080 to 0x20BF 0x20C0 to 0x20FF 0x2100 to 0x213F 0x2
ModBus TCP /IP Support Word Address Data Type Description Number of Frames Received and Transmitted with a Length (Octets) 0x2A00 to 0x2A3F 0x2A40 to 0x2A7F 0x2A80 to 0x2ABF 0x2AC0 to 0x2AFF 0x2B00 to 0x2B3F 0x2B40 to 0x2B7F 2 words 2 words 2 words 2 words 2 words 2 words 64 65 to 127 128 to 255 256 to 511 512 to 1023 1024 to maximum size CLI Commands for Modbus TCP/IP The CLI commands for Modbus TCP/IP are listed in the following table.
Technical Support Comtrol SFP Modules Comtrol provides a variety of SFP transceivers. These certified SFP transceivers can be identified by the RocketLinx ES9528 and displayed in the web user interface. We recommend using Comtrol SFP transceivers when configuring your RocketLinx ES9528. Note: Low quality SFP transceivers may result in poor network performance and may not meet claimed distance or temperature ratings.
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