iSR6200 Intelligent Storage Router Installation Guide ISR651101-00 G
iSR6200 Intelligent Storage Router Installation Guide Information furnished in this manual is believed to be accurate and reliable. However, QLogic Corporation assumes no responsibility for its use, nor for any infringements of patents or other rights of third parties which may result from its use. QLogic Corporation reserves the right to change product specifications at any time without notice. Applications described in this document for any of these products are for illustrative purposes only.
Table of Contents Preface Intended Audience . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . What’s in This Guide . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Related Materials . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Documentation Conventions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Communications Statements . . . . . . . . . . . . . . . . . . . . . .
iSR6200 Intelligent Storage Router Installation Guide Router Blade LEDs . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Heartbeat LED (Green) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . System Fault LED (Amber). . . . . . . . . . . . . . . . . . . . . . . . . . . . . Input Power LED (Green) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Beacon Indicator (Blue) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Maintenance Button. . . .
iSR6200 Intelligent Storage Router Installation Guide 3 Installation Site Requirements . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Management Workstation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Power Requirements . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Environmental Conditions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Installing the iSR6200 Router. . . . . . . . . . . . . .
iSR6200 Intelligent Storage Router Installation Guide Determining WAN Characteristics . . . . . . . . . . . . . . . . . . . . . . . . . . . . Round-Trip Time . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Link Data Rate . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Link Quality . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Firewall . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
iSR6200 Intelligent Storage Router Installation Guide Device Management . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Mechanical . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . High Availability . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Protocols . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
iSR6200 Intelligent Storage Router Installation Guide List of Figures Figure Page 1-1 iSR6200 Router . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-2 1-2 iSR6200 Router Chassis—Front and Back Plates. . . . . . . . . . . . . . . . . . . . . . . . . . 1-3 1-3 PCM—Front . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-3 1-4 PCM—Back Plate . . . . . . . . . . . . . . . . . . . . . . . . . .
iSR6200 Intelligent Storage Router Installation Guide 5-2 5-3 5-4 6-1 7-1 7-2 7-3 7-4 7-5 7-6 7-7 7-8 7-9 7-10 7-11 7-12 7-13 E_Port Extension, Dual ISLs . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . F_Port Extension, Remote Storage . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . F_Port Extension, Server . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Router Blade Diagnostic LEDs. . . . . . . . . . .
iSR6200 Intelligent Storage Router Installation Guide List of Tables Table 1-1 1-2 1-3 1-4 2-1 2-2 2-3 2-4 2-5 3-1 3-2 3-3 5-1 5-2 5-3 5-4 5-5 5-6 5-7 5-8 5-9 5-10 5-11 5-12 6-1 B-1 B-2 C-1 x Internal Temperature Sensor Limits . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10GbE Port LED Scheme . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . System Fault LED Blink Patterns . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Preface This user’s guide describes and provides installation procedures for the QLogic iSR6200 Series Intelligent Storage Router (iSR6200), also referred to as the iSR6200 router or simply router. Intended Audience This guide is for users who are responsible for installing, managing, and servicing the iSR6200 router and the SAN equipment to which it is attached. What’s in This Guide This guide contains the information needed to install and configure the iSR6200 router.
Preface Related Materials Chapter 7 Removal and Replacement describes how to remove and replace the following field replaceable units (FRUs): small form-factor pluggable (SFP) transceivers, iSR6200 chassis blades, and PCMs.
Preface Documentation Conventions TCP Extensions for High Performance, RFC1323 TCP Congestion Control, RFC2581 ANSI SCSI: SCSI-3 Architecture Model (SAM), X3T10/994D/Rev 18, SCSI-3 Controller Command Set, X3T10/Project 1047D/Rev 6c. IEEE: 802.1Q Virtual LAN (VLAN), 802.1p Priority of Service, 802.3x Flow Control, 802.3ad Link Aggregation SCSI-3 Fibre Channel Protocol (SCSI-FCP), X3.269:1996 Fibre Channel Physical and Signaling Interface (FC-PH), X3.
Preface Communications Statements Text in bold font indicates user interface elements such as a menu items, buttons, check boxes, or column headings. For example: Click the Start button, point to Programs, point to Accessories, and then click Command Prompt. Under Notification Options, select the Warning Alarms check box. Text in Courier font indicates a file name, directory path, or command line text.
Preface Communications Statements Federal Communications Commission (FCC) Class A Statement This equipment has been tested and found to comply with the limits for a Class A digital device, pursuant to Part 15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful interference when the equipment is operated in a commercial environment.
Preface Communications Statements CE Statement The CE symbol on the equipment indicates that this system complies with the EMC (Electromagnetic Compatibility) directive of the European Community (89/336/EEC) and to the Low Voltage (Safety) Directive (73/23/EEC). Such marking indicates that this system meets or exceeds the following technical standards: xvi EN60950-1, A11:2004 – “Safety of Information Technology Equipment, Including Electrical Business Equipment”.
Preface Laser Safety Information VCCI Class A Statement This is a Class A product based on the standard of the Voluntary Control Council For Interference by Information Technology Equipment (VCCI). If this equipment is used in a domestic environment, radio disturbance may arise. When such trouble occurs, the user may be required to take corrective actions. Laser Safety Information This product may use Class 1 laser optical transceivers to communicate over the fiber optic conductors. The U.S.
Preface Accessible Parts Accessible Parts The the iSR6200 router supports the following FRUs: iSR6200 chassis blades PCMs SFP optical transceivers License Agreements Refer to the QLogic Software End User License Agreement for a complete list of all license agreements affecting this product. Technical Support Customers should contact their authorized maintenance provider for technical support of their QLogic products.
Preface Technical Support Contact Information QLogic Technical Support for products under warranty is available during local standard working hours excluding QLogic Observed Holidays. For customers with extended service, consult your plan for available hours. For Support phone numbers, see the Contact Support link at support.qlogic.com. Support Headquarters QLogic Corporation 4601 Dean Lakes Blvd. Shakopee, MN 55379 USA QLogic Web Site www.qlogic.com Technical Support Web Site http://support.qlogic.
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1 Introduction This chapter illustrates and describes QLogic’s iSR6200 Intelligent Storage Router, including the components contained within the iSR6200 router chassis: router blades, chassis mid-plane, and PCMs. The iSR6200 router is designed to provide: Storage consolidation on Fibre Channel arrays by providing iSCSI server connectivity for Fibre Channel arrays. Solution for distance replication and backup by providing SAN over WAN connectivity.
1–Introduction iSR6200 Router Chassis iSR6200 Router Chassis The iSR6200 router chassis includes the following hardware components: Full-wide, 1U, rack mount Two bays for hot-replaceable ISR blades Two bays for hot-replaceable PCMs One mid-plane with two × EEPROMs Dual 275-watt power supplies The iSR6200 router chassis contains one or two router blades, along with a PCM for each blade. Figure 1-1 illustrates an iSR6200 chassis with two router blades installed.
1–Introduction Power and Cooling Module (PCM) Front Plate iSR6200 Blade 1 10GbE2 10GbE1 Front Plate iSR6200 Blade 2 iSR6250 10GbE2 10GbE1 iSR6250 Intelligent Storage Router FC1 MGMT Intelligent Storage Router FC2 FC1 IOIOI MGMT Back Plate PCM for Blade 2 FC2 IOIOI Back Plate PCM for Blade 1 Figure 1-2. iSR6200 Router Chassis—Front and Back Plates Power and Cooling Module (PCM) Each iSR6200 chassis blade has a PCM located on the backside of the chassis.
1–Introduction Power and Cooling Module (PCM) Each blade is capable of simultaneously driving all six fans in both PCMs. Generally, only one blade controls both fans, running them at a normal speed. However, if the system detects a higher-than-expected temperature on either side of the blade, it forces the fans to run at full speed. After the temperature is back to normal, the fans resume running at their normal speed.
1–Introduction iSR6200 Router Blades iSR6200 Router Blades Each chassis supports one or two hot-pluggable blades. The base configuration of an iSR6200 router blade has a dual-core CPU, 1,024MB memory, boot Flash, and internal and external I/O ports. (For detailed specifications, see Appendix A.
1–Introduction iSR6200 Router Blades iSR6250 Router Blade The iSR6250 router blade adds two 10Gb Ethernet (GbE) ports to the blade configuration. Each port has the following capacity: 10GbE iSCSI ports that run in full duplex mode Support for jumbo frames IPv4 and IPv6 protocol support iSCSI header and data digest in the software SAN (Green) LAN (Green) Figure 1-6. 10GbE Ports on the iSR6250 Router Blade Table 1-2.
1–Introduction iSR6200 Router Blades iSCSI header and data digest in the hardware IPv4 and IPv6 protocol support iSCSI offload Activity Link Status Figure 1-7. iSCSI (GE) Ports on the iSR6240 Router Blade Router Blade LEDs Each chassis blade provides LEDs and connectors that face the front of the chassis and may also provide expansion ports, depending on its model. The router blade LEDs shown in Figure 1-8 provide information about the router’s operational status.
1–Introduction iSR6200 Router Blades Table 1-3. System Fault LED Blink Patterns System Fault LED Condition OFF OK (operational) 1 Blink Beacon; synchronized with the heartbeat LED 3 Blinks System error 4 Blinks Management port IP address conflict 5 Blinks Over-temperature Input Power LED (Green) The power LED shows the voltage status of the router logic circuit board.
1–Introduction iSR6200 Router Blades The maintenance button is a multifunction momentary switch on the front panel. It has the following functions: “Reset a Router Blade” on page 1-9 “Reset and Select Boot Image” on page 1-9 “Reset IP Address” on page 1-9 “Enable DHCP” on page 1-10 “Restore Factory Defaults” on page 1-10 Reset a Router Blade To reset the router blade, use a pointed, nonmetallic tool to momentarily press and release (less than two seconds) the maintenance button.
1–Introduction iSR6200 Router Blades Enable DHCP To reset the router and configure the maintenance port to use dynamic host configuration protocol (DHCP) to acquire its IP address, use a pointed, nonmetallic tool to press and hold the maintenance button until the heartbeat LED flashes seven times, and then release the button. The router boots and configures the maintenance port for DHCP. The boot time is less than one minute.
1–Introduction iSR6200 Router Blades Each port has three LEDs: The amber (top) LED shows activity for data passing through the port at 2Gbps speed. The green LED (middle) shows activity for data passing through the port at 4Gbps speed. The yellow LED (bottom) shows activity for data passing through the port at 8Gbps speed. Table 1-4 describes the port LED blink patterns and their meanings. Table 1-4.
1–Introduction iSR6200 Router Blades The iSR6200 router supports SFP optical transceivers for the Fibre Channel ports. A transceiver converts electrical signals to and from optical laser signals to transmit and receive data. Duplex fiber optic cables plug into the transceivers, which then connect to the devices. For example, a 2Gbps or 4Gbps Fibre Channel port can transmit at 2Gbps or 4Gbps; however, the transceiver must also be capable of delivering these rates. The SFP transceivers are hot pluggable.
1–Introduction iSR6200 Router Blades GE4 10GbE2 GE3 10GbE1 iSR6240 iSR6250 Intelligent Storage Router Intelligent Storage Router iSR6200 System MGMT Activity IOIOI FC1 FC2 GE1 GE1 Link Status Figure 1-12. Ethernet Management Port A management workstation can be a Windows®, Solaris®, or a Linux® workstation that configures and manages the router. You can manage the router over an Ethernet connection using either SANsurfer Router Manager, the CLI, or SNMP.
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2 Planning This chapter describes how to plan for the iSR6200 router.
2–Planning Fibre Channel Switches Required for VPGroups Fibre Channel The Fibre Channel ports automatically discover all Fibre Channel target devices, whether connected directly (loop) or by fabric (switch). iSCSI The iSCSI ports automatically present targets discovered on the Fibre Channel ports. If the Fibre Channel target’s LUN 0 is a controller LUN, it becomes accessible (mapped) to all iSCSI initiators. All data LUNs are inaccessible until mapped.
2–Planning iSCSI Performance Bandwidth Bandwidth is a measure of the volume of data that can be transmitted at a specific transmission rate. A 2Gbps Fibre Channel port can transmit or receive at nominal rates of 2Gbps, depending on the device to which it is connected. This corresponds to actual bandwidth value of 212MB. Latency Latency is a measure of how fast a transaction travels through the router.
2–Planning Performance Tuning Performance Tuning Proper configuration maximizes the router’s performance. Knowing the round-trip delay (distance between the router and iSCSI initiators) and WAN effective data rate (connection type) allows you to tune the router for optimal performance. The following tables provide TCP Window Size settings for specific WAN environments. The TCP Window Size is configured as two parameters: Window Size and Scaling Factor.
2–Planning Performance Tuning Table 2-2. T3—45Mbps Round-Trip Delay (ms) TCP Window Size (kbytes) ≤ 1.4 8 ≤ 2.9 16 ≤ 5.7 32 ≤ 11.4 64 ≤ 22.9 128 ≤ 45.8 256 ≤ 91.6 512 ≤ 183.1 1024 ≤ 366.2 2048 a ≤ 732.5 4096 a Table Notes Supported in FC-IP mode only. a Table 2-3. OC-1—51Mbps Round-Trip Delay (ms) TCP Window Size (kbytes) ≤ 1.2 8 ≤ 2.5 16 ≤ 4.9 32 ≤ 9.9 64 ≤ 19.8 128 ≤ 39.5 256 ≤ 79.0 512 ≤ 158.0 1024 ≤ 316.1 2048 a ≤ 632.
2–Planning Performance Tuning Table 2-4. OC-3—156Mbps Round-Trip Delay (ms) TCP Window Size (bytes) ≤ 0.4 8 ≤ 0.8 16 ≤ 1.6 32 ≤ 3.3 64 ≤ 6.6 128 ≤ 13.2 256 ≤ 26.3 512 ≤ 52.7 1024 ≤ 105.4 2048 ≤ 210.7 4096 Table 2-5. OC-12—621Mbps 2-6 Round-Trip Delay (ms) TCP Window Size (bytes) ≤ 0.1 8 ≤ 0.2 16 ≤ 0.4 32 ≤ 0.8 64 ≤ 1.6 128 ≤ 3.3 256 ≤ 6.6 512 ≤ 13.2 1024 ≤ 26.3 2048 ≤ 52.
2–Planning High Availability High Availability A dual-blade iSR6200 router supports high availability, which provides link-level, switch-level, and blade-level failure protection. To make this effective, you must connect the iSCSI hosts to both iSR6200 blades. For details, see “Connecting iSCSI Hosts to the iSR6200” on page 4-16. Management SANsurfer Router Manager and the CLI run on a management workstation used to configure, control, and maintain the router.
2–Planning Services Want to duplicate the LUN mapping on a second router (for redundancy) NOTE: For more details on recovering a router blade, see “iSR6200 Chassis Blades” on page 7-1. Services You can configure your router to suit the demands of your environment using a variety of router services. Familiarize yourself with the following router services and determine which ones you need: Telnet enables you to manage the router over a Telnet connection.
3 Installation This chapter describes how to install and configure an iSR6200 router, including: “Site Requirements” on page 3-1 “Installing the iSR6200 Router” on page 3-2 “Installing New Firmware” on page 3-15 Site Requirements The following sections describe the requirements for installing an iSR6200 router: Management Workstation “Power Requirements” on page 3-2 “Environmental Conditions” on page 3-2 Management Workstation Table 3-1 lists the requirements for the management work
3–Installation Installing the iSR6200 Router Table 3-1. Management Workstation Requirements (Continued) Item Internet browser Description One of the following: Microsoft Internet Explorer 5.0 and later Mozilla® Firefox® 1.02 and later Java™ 2 runtime environment to support the Web applet Power Requirements The iSR6200 router requires the following power supply: 235W maximum, 200W typical 100V AC to 240V AC; 50Hz to 60Hz 1.9A at 100–125V AC; 1.
3–Installation Installing the iSR6200 Router 5. Connect the management workstation to the router (see page 3-8). 6. Configure the management workstation (see page 3-9). 7. Install the management utility (see page 3-11). 8. Start the management utility (see page 3-14). 9. Configure the router (see page 3-14). 10. Cable devices to the router (Fibre Channel and iSCSI) (see page 3-15).
3–Installation Installing the iSR6200 Router Table 3-2. Worksheet for Router Blade 1 (left) Parameters (Continued) iSCSI port 4 IP address, subnet mask, and gateway for the optional (FC4, GE-4, or 10GE-4) port IP address of the iSNS server for iSCSI port 4 (if iSNS will be enabled) Table 3-3.
3–Installation Installing the iSR6200 Router Table 3-3. Worksheet for Router Blade 2 (right) Parameters (Continued) IP address of the iSNS server for iSCSI port 4 (if iSNS will be enabled) Mounting the Router You can either place the router on a flat surface or mount it in a 19-inch Electronic Industries Alliance (EIA) rack. See the product specification for weight and dimensions. Rack mounting requires a QLogic rack mounting kit; contact QLogic for more information.
3–Installation Installing the iSR6200 Router CAUTION! If the router is mounted in a closed or multi-rack assembly, the operating temperature of the rack environment may be greater than the ambient temperature. Be sure to install the chassis in an environment that is compatible with the maximum rated ambient temperature. Do not restrict chassis air flow. Allow 16cm (6.5 inches) minimum clearance at the front and rear of the router (surface mount) or rack for service access and ventilation.
3–Installation Installing the iSR6200 Router Connecting the Router to AC Power WARNING!! This product is supplied with a three-wire power cable and plug for the user’s safety. Use this power cable in conjunction with a properly grounded outlet to avoid electrical shock. An electrical outlet that is not correctly wired could place hazardous voltage on metal parts of the router chassis. The customer must make sure the outlet is correctly wired and grounded to prevent electrical shock.
3–Installation Installing the iSR6200 Router To power on the router: 1. Attach the AC power cord to the power connector, located on the back side of the PCM connected directly behind the router blade. 2. Connect the opposite end of the power cord to a grounded AC wall outlet or power strip. 3. Check the PCM power LED to make sure the fan is operational (green = OK, yellow = no AC power).
3–Installation Installing the iSR6200 Router Direct Ethernet connection from the management workstation to the router RJ45 Ethernet connector. This requires a 10 or 100 Base-T crossover cable. Serial port connection from the management workstation to the router RS-232 serial port connector. This requires a 10 or 100 Base-T straight cable and a dongle. Configuring the Management Workstation The router comes from the factory with a default IP address (10.0.0.1).
3–Installation Installing the iSR6200 Router Configuring the Workstation Serial Port To configure the workstation serial port: 1. Connect the cable with an RJ45 to DB9F adapter from a COM port on the management workstation to the serial port on the router. 2. Configure the workstation serial port according to your platform. These steps may vary according to the operating system version you use: For Windows: a.
3–Installation Installing the iSR6200 Router Where /dev/term/a refers to serial port a. Choose the dv setting to match the workstation port to which you connected the router. 3. Connect the router to the power (see page 3-14). Installing SANsurfer Router Manager You can manage the router using SANsurfer Router Manager. The following sections describe how to download this utility from the QLogic Web site and install it on a Windows, Linux, or Mac OS X workstation.
3–Installation Installing the iSR6200 Router Figure 3-3. Search Support Dialog Box (Example) The Downloads page lists the search results; Figure 3-4 shows an example. Figure 3-4. Guided Search Results 3-12 4. Under Resource Name, click the SANsurfer Router Manager for that you want to install. 5. Under SANsurfer Router Manager for , click the Download link. 6. On the File Download dialog box, click Save.
3–Installation Installing the iSR6200 Router 7. On the Save As dialog box, specify a location on your local machine to store the installation file, and then click Save. The installer shows the download progress. 8. Continue with the steps for your operating system, either: Windows Installation Linux Installation Mac OS X Installation Windows Installation To install SANsurfer Router Manager on a Windows PC workstation: 1.
3–Installation Installing the iSR6200 Router Starting SANsurfer Router Manager To start SANsurfer Router Manager, use the applicable method: For Windows, either double-click the SANsurfer Router Manager desktop shortcut, or click Start, point to All Programs, point to QLogic Management Suite, and then click SANsurfer Router Manager, depending on how you installed the SANsurfer Router Manager utility. From a Windows command line, issue the following command: SANsurferRouterManager.
3–Installation Installing New Firmware 2. Open an admin session, select a blade (1 or 2), and then enter the commands to set up both iSCSI ports and the management interface. (See the iSR6200 CLI User’s Guide for command descriptions.) iSR6200 #> admin start Password : ****** iSR6200 (admin) #> set mgmt ……………………… iSR6200 (admin) #> set iscsi 1 ……………………… iSR6200 (admin) #> set iscsi 2 ……………………… Connecting Cable Devices to the Router Connect cables to the SFP transceivers and their corresponding devices.
3–Installation Installing New Firmware NOTE: Installing new firmware disrupts the router blade connectivity because you must reboot the router blade to activate the new firmware. Using SANsurfer Router Manager to Install Firmware SANsurfer Router Manager provides the FW Update Wizard with the steps required to update the iSR6200 firmware on selected iSR6200 router blades. To install firmware using SANsurfer Router Manager: 1. On the File menu, click FW Update Wizard. 2.
3–Installation Installing New Firmware 3. At the ftp prompt, type bin to set binary mode. For example: ftp> bin 200 Type set to I. 4. Use the put command to transfer the firmware image file from the workstation to the router. For example: ftp> put isr-6200-3_0_0_5.bin 200 PORT command successful. 150 Opening BINARY mode data connection for 'isr-6200-3_0_0_5.bin'. 226 Transfer complete. ftp: 4822816 bytes sent in 0.41Seconds 11878.86Kbytes/sec. 5. Enter quit.
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4 Configuration This chapter describes how to configure the iSR6200 router to support virtual port groups (VPGroups or VPGs) and LUN mapping. Some storage arrays limit the number of LUNs exposed to a host to 256 LUNs. Each iSR6200 router blade supports up to four VPGs, making it possible for these storage arrays to present up to 1,024 LUNs per blade.
4–Configuration Enabling Virtual Port Groups Enabling Virtual Port Groups Each iSR6250 router blade has one virtual port group (VPG) enabled by default, which gives the iSCSI hosts access to 256 LUNs. You can enable and configure additional VPGs to give the iSCSI hosts access to more than 256 distinct LUNS from a specific Fibre Channel target array. Each blade has VPG 1 enabled by default; VPG 1 is the primary virtual port group and cannot be disabled.
4–Configuration Enabling Virtual Port Groups Using SANsurfer Router Manager, select one of the VP Group nodes in the left pane to view that VP Group’s information in the right pane, as shown in Figure 4-1. Figure 4-1. SANsurfer Router Manager VPGroup You can enable or disable virtual port groups on your blade using either SANsurfer Router Manager or the CLI. To enable or disable a VPGroup using SANsurfer Router Manager: 1. In the system tree pane on the left, click the VP Group.
4–Configuration Enabling Virtual Port Groups Figure 4-2. Chassis Information for Selected VPGROUP 3. Click Save. 4. In the System Check dialog box, type the system password, and then click OK. The Set VPGroup message box opens, as shown in Figure 4-3. Figure 4-3. Set VPGroup Message Box 5. Click OK to close the message box. To enable or disable a VPGroup using the CLI: The following example shows how to enable VPGroups 2 and 3 by issuing the CLI set vpgroups command.
4–Configuration Enabling Virtual Port Groups If you wish to terminate this wizard before reaching the end of the list press 'q' or 'Q' and the ENTER key to do so. Configuring VpGroup: 1 ------------------------Status (0=Enable, 1=Disable) [Enabled ] VpGroup Name (Max = 64 characters) [VPGROUP_1 ] All attribute values for VpGroup 1 that have been changed will now be saved.
4–Configuration Enabling Virtual Port Groups Index 2 VpGroup Name VPGROUP_2 Status Enabled WWPNs 21:01:00:c0:dd:13:16:f8 21:01:00:c0:dd:13:16:f9 Index 3 VpGroup Name VPGROUP_3 Status Enabled WWPNs 21:02:00:c0:dd:13:16:f8 21:02:00:c0:dd:13:16:f9 Index 4 VpGroup Name VPGROUP_4 Status Disabled WWPNs N/A In the preceding examples, the second byte from the left (in bold text) denotes the virtual port group ID, and the right-most byte (in italic text) denotes the physical Fibre Channel po
4–Configuration Enabling Virtual Port Groups Port ID 0a-04-02 (VPGROUP_3) Firmware Revision No. 4.05.
4–Configuration Enabling Virtual Port Groups To see this information using SANsurfer Router Manager, select one of the Fibre Channel ports, as shown in Figure 4-4. Figure 4-4. FC Port Information Page NOTE: For more details on using the utility, use the SANsurfer Router Manager Help or refer to the iSR6200 Router Manager User’s Guide.
4–Configuration Zoning Virtual Port Groups on the SAN Zoning Virtual Port Groups on the SAN When zoning the iSR6200 virtual port group WWPNs to a Fibre Channel array, you must ensure all WWPNs of a virtual port group are zoned to any single Fibre Channel target WWPN. Figure 4-5 shows the proper zoning for a single blade iSR6200 with three VP groups enabled using a single Fibre Channel switch.
4–Configuration Zoning Virtual Port Groups on the SAN When connecting a single-bladed iSR6200 to two independent SANs, connect one Fibre Channel port from your iSR6200 blade to each SAN (see Figure 4-6). This topology ensures Fibre Channel link-level and switch-level failure protection.
4–Configuration Zoning Virtual Port Groups on the SAN When connecting a dual-blade iSR6200 for high availability, connect one Fibre Channel port from each blade to each of your fabrics (see Figure 4-7). This topology provides link-level, switch-level, and blade-level failure protection. To make this effective, you must connect the iSCSI hosts to both iSR6200 blades. For details, see “Connecting iSCSI Hosts to the iSR6200” on page 4-16.
4–Configuration Configuring Fibre Channel Array Hosts and LUN Assignments Configuring Fibre Channel Array Hosts and LUN Assignments When configuring Fibre Channel array hosts, you must treat each iSR6200 virtual port group (VPG) as its own unique Fibre Channel host within the virtualized storage array. This means if you have only one VPG enabled, the iSR6200 will have only one host entity. If you enable two more VPGs, the iSR6200 presents three separate host entities to your storage array.
4–Configuration Configuring Fibre Channel Array Hosts and LUN Assignments Figure 4-9 illustrates this incorrect configuration. Figure 4-9. Incorrectly Configuring All Groups to One Host Entity Figure 4-10 shows an incorrect assignment of virtual port group WWPNs. Notice that host entity 1 and host entity 2 both contain ports from more than one VPGroup. Figure 4-10.
4–Configuration Configuring Fibre Channel Array Hosts and LUN Assignments If you are using two blades in a high availability configuration, assign each VPG from the second 6200 blade in the same chassis to the same host entity as VPG from blade 1, as shown in Figure 4-11. Figure 4-11. Correct VPG Assignments for High Availability Configuration Do not put VPG ports in host entities with other Fibre Channel hosts.
4–Configuration Configuring Fibre Channel Array Hosts and LUN Assignments When assigning LUNs to your VPG host entities, you must not assign the same LUN to two VPG host entities. Figure 4-12 shows a valid LUN presentation. Each LUN is presented to only one VPG. Any of these LUNs can be presented to any number of other Fibre Channel hosts on the array, but can be presented to one and only one VPG of the iSR6200.
4–Configuration Connecting iSCSI Hosts to the iSR6200 Figure 4-13 shows presenting LUN 3 incorrectly. If an iSCSI host logged into both VPG0 and VPG1, it would have access to LUN 3 through two virtual port groups. This is invalid and will lead to serious problems.
4–Configuration Connecting iSCSI Hosts to the iSR6200 The following example shows the anatomy of a sample IQN string from an iSR6200 router: iqn.2004-08.com.qlogic:iSR6200.0834e00019.b1.01.20030020c2075970 1 2 1. Vendor name and registration date 2. Product Name 3. iSR6200 Chassis Serial Number 4. Blade (b1 or b2) 5. VPGroup (01 through 04) 6.
4–Configuration Connecting iSCSI Hosts to the iSR6200 To view presented target information using SANsurfer Router Manager, expand the iSCSI Presented Targets node in the left pane, and then select the device, as shown in Figure 4-14. Figure 4-14. Selecting the iSCSI Presented Targets in SANsurfer Router Manager Enabling additional VP Groups can create multiple IQN strings for the same Fibre Channel WWPN.
4–Configuration Connecting iSCSI Hosts to the iSR6200 iSR6200 <1> #> show vpgroups VpGroup Information --------------------Index 1 VpGroup Name VPGROUP_1 Status Enabled WWPNs 21:00:00:c0:dd:13:16:f8 21:00:00:c0:dd:13:16:f9 Index 2 VpGroup Name VPGROUP_2 Status Enabled WWPNs 21:01:00:c0:dd:13:16:f8 21:01:00:c0:dd:13:16:f9 Index 3 VpGroup Name VPGROUP_3 Status Enabled WWPNs 21:02:00:c0:dd:13:16:f8 21:02:00:c0:dd:13:16:f9 Index 4 VpGroup Name VPGROUP_4 Status Disabled WWPNs N/A
4–Configuration Connecting iSCSI Hosts to the iSR6200 Alias WWNN 10:00:00:20:c2:07:59:70 WWPN 21:04:00:20:c2:07:59:70 Name iqn.2004-08.com.qlogic:iSR6200.0834e00019.r1.02.20030020c2075970 Alias WWNN 10:00:00:20:c2:07:59:70 WWPN 20:03:00:20:c2:07:59:70 Name iqn.2004-08.com.qlogic:iSR6200.0834e00019.r1.02.21040020c2075970 Alias WWNN 10:00:00:20:c2:07:59:70 WWPN 21:04:00:20:c2:07:59:70 Name iqn.2004-08.com.qlogic:iSR6200.0834e00019.r1.03.
4–Configuration Connecting iSCSI Hosts to the iSR6200 In Figure 4-15, the iSCSI host has logged into iSCSI target for VPG0. The host can access VPG0 LUNs 1 and 2 from the storage array. Storage Array iSR6200 21:00:00:c0:dd:13:16:f8 21:01:00:c0:dd:13:16:f8 21:02:00:c0:dd:13:16:f8 FC1 Blade 1 21:00:00:c0:dd:13:16:f9 21:01:00:c0:dd:13:16:f9 21:02:00:c0:dd:13:16:f9 FC2 Host Entities SAN iqn.2004-08.com:isr6200.0834e00019.r1.00.20030020c2075970 iqn.2004-08.com:isr6200.0834e00019.r1.00.
4–Configuration Controlling per-Host LUN Access on the iSR6200 In Figure 4-17, the iSCSI host has logged into iSCSI targets for both VPG1 and VPG2. The host can access both VPG1 and VPG2 LUNs 3 and 4. Storage Array iSR6200 21:00:00:c0:dd:13:16:f8 21:01:00:c0:dd:13:16:f8 21:02:00:c0:dd:13:16:f8 FC1 Blade 1 21:00:00:c0:dd:13:16:f9 21:01:00:c0:dd:13:16:f9 21:02:00:c0:dd:13:16:f9 FC2 Host Entities SAN iqn.2004-08.com:isr6200.0834e00019.r1.00.20030020c2075970 iqn.2004-08.com:isr6200.0834e00019.r1.00.
4–Configuration Controlling per-Host LUN Access on the iSR6200 iqn.2004-08.com:isr6200.0834e00019.r1.00.20030020c2075970 iqn.2004-08.com:isr6200.0834e00019.r1.00.20030020c2075970 iqn.2004-08.com:isr6200.0834e00019.r1.00.
4–Configuration Controlling per-Host LUN Access on the iSR6200 1 50:06:01:60:c1:e0:0d:a2,50:06:01:68:41:e0:0d:a2 Please select a Target from the list above ('q' to quit): Index (LUN/VpGroup) Vendor ----- ------------- ------ 1 1/VPGROUP_1 DGC 2 2/VPGROUP_1 DGC 3 3/VPGROUP_1 DGC 0 Please select a LUN to present to the initiator ('q' to quit): 1 All attribute values that have been changed will now be saved.
4–Configuration Controlling per-Host LUN Access on the iSR6200 Figure 4-20. Target Presentation/LUN Mapping Wizard—Select the Initiators 3. On the LUN Selection window, select LUN1 as shown in Figure 4-21, and then click Next. Figure 4-21. Target Presentation/LUN Mapping Wizard—LUN Selection The LUN Masking Configuration Status window opens, and the Security Check dialog box prompts you to enter the admin password.
4–Configuration Controlling per-Host LUN Access on the iSR6200 4. In the Security Check dialog box, type the system password (the default is config), and then click Next. The LUN Masking Configuration Status window lists the mapping requests, as shown in Figure 4-22. Figure 4-22. Target Presentation/LUN Mapping Wizard—LUN Masking Configuration Status 5. Verify the completion status shown on the LUN Masking Configuration Status window, and then click Finish to close the wizard.
4–Configuration Controlling per-Host LUN Access on the iSR6200 iqn.2004-08.com:isr6200.0834e00019.r1.00.20030020c2075970 iqn.2004-08.com:isr6200.0834e00019.r1.00.20030020c2075970 iqn.2004-08.com:isr6200.0834e00019.r1.00.
4–Configuration Controlling per-Host LUN Access on the iSR6200 Target Access Control (0=Enable, 1=Disable) [Disabled ] Telnet (0=Enable, 1=Disable) [Enabled ] SSH (0=Enable, 1=Disable) [Enabled ] All attribute values that have been changed will now be saved. NOTE: You must reboot the router to change the LUN mapping status, whether you are enabling it or disabling it. If you are running a dual-blade HA configuration, make sure both blades have the same setting.
4–Configuration Controlling per-Host LUN Access on the iSR6200 Figure 4-25 shows host LUN access with the LUN Mask Mode set to disabled. iqn.2004-08.com:isr6200.0834e00019.r1.00.20030020c2075970 iqn.2004-08.com:isr6200.0834e00019.r1.00.20030020c2075970 iqn.2004-08.com:isr6200.0834e00019.r1.00.
4–Configuration Controlling per-Host LUN Access on the iSR6200 4-30 ISR651101-00 G
5 Fibre Channel over IP Fibre Channel over IP (FCIP) is a protocol used to transport Fibre Channel frames over TCP/IP, thus providing SAN over WAN capabilities. FCIP is commonly used to interconnect (merge) SANs that are separated by such a distance that a direct connection is cost prohibitive or technically unfeasible. This chapter provides the following information: FCIP Attributes lists the attributes of FCIP implementation in the iSR6200.
5–Fibre Channel over IP Configuring FCIP Links up to two locations per blade, four locations per chassis (two blades) FICON® support Configuring FCIP To successfully configure FCIP, you need to assess both the SAN and WAN environments. The following list is provided to support the assessment. Extension port type: E_Port—See “E_Port Extension” on page 5-52.2 for a description and examples. F_Port—See “F_Port Extension” on page 5-7 for a description and examples.
5–Fibre Channel over IP Configuring FCIP Table 5-1. FCIP Preconfiguration Information Router Being Configured IP Address Subnet Mask Gateway VLAN ID and Priority Peer Router (Remote) IP Address Configuring an FCIP Route Using the CLI This section shows an example of the fciproute add command and provides the steps to configure an FCIP route in the CLI (the GUI procedure is essentially the same). iSR6200 <1> (admin) #> fciproute add A list of attributes with formatting and current values will follow.
5–Fibre Channel over IP Configuring FCIP Window Scaling (0=Enable, 1=Disable) [Enabled ] Window Scaling Factor (Min=0, Max=9) [7 ] TCP Port No. (Min=1024, Max=65535) [3225 ] GE Port Speed (0=Auto, 1=100Mb, 2=1Gb) [Auto ] Bandwidth, Mbit/sec (Min=1, Max=1000) [1000 ] VLAN (0=Enable, 1=Disable) [Disabled ] FCIP SW Compression (0=Enable, 1=Disable) [Disabled ] All attribute values for FCIP Route 1 will now be saved.
5–Fibre Channel over IP Configuring FCIP 11. At the Window Scaling prompt, enable or disable this setting. Window scaling must be enabled when using a Window Scaling Factor (see next step) greater than zero. 12. At the Window Scaling Factor prompt, enter a value from 0 through 9 as scaling factor, based on the TCP Window Size for the WAN specified in Step 10 (see “TCP Window Settings” on page 5-14). 13. (Optional) Changing the TCP port number at the TCP Port No. prompt should not be required.
5–Fibre Channel over IP Configuring FCIP Local Router Remote Router LAN/WAN Fibre Channel Switch Fibre Channel Switch Local Storage Array Remote Storage Array Figure 5-1. E_Port Extension, Single ISL Figure 5-2 shows an example of a two FCIP routes (dual ISLs). This example assumes that the Fibre Channel switches have the ability to load-balance between the ISLs to enhance performance. iSR6240 Router iSR6240 Router LAN/WAN Fibre Channel Switch Fibre Channel Switch Figure 5-2.
5–Fibre Channel over IP Configuring FCIP F_Port Extension The FCIP configuration used to connect a distant F_Port to a SAN is referred to as an F_Port extension. This configuration is used to connect remote (stranded) servers to a SAN or to connect remote storage to a SAN. In the F_Port extension configuration, one of the FCIP routers (local) is connected to a Fibre Channel switch (SAN), and the other FCIP router (remote) is directly connected to a Fibre Channel port on the server or storage.
5–Fibre Channel over IP Configuring FCIP Figure 5-4 shows an example of F_Port extension used to connect a remote (stranded) server. Local Router Remote Router LAN/WAN Fibre Channel Switch Local Storage Array Remote Server Figure 5-4.
5–Fibre Channel over IP Configuring FCIP Round-Trip Time RTT is the time required for a packet to travel from the sender to the receiver, and then return to the sender. The router’s ping feature, either CLI or GUI, can help determine the RTT. The following is an example of the CLI ping command executed on GE port 1. iSR6200 <1> (admin) #> ping A list of attributes with formatting and current values will follow. Enter a new value or simply press the ENTER key to accept the current value.
5–Fibre Channel over IP Configuring FCIP Link Data Rate The available link data rate is not typically the same as the connection speed at the router’s GE port. The GE port is typically connected to a local IP switch with ports running at 1 gigabit. The provider of the long-distance connection (WAN) provides the link data rate. Table 5-2 lists some examples of data rates for commonly used WANs. Table 5-2. WAN Data Rates Link Type Speed T1 and DS-1 1.
5–Fibre Channel over IP Configuring FCIP TCP Retransmit Timer Expired—The sender of a packet did not receive an ACK for a packet within the retransmit time-out window. The sender will retransmit the packet. This is typically the result of the ACK being dropped somewhere in the WAN due to congestion or corruption of the ACK (less likely). The following example shows the FCIP link statistics from the router’s CLI show statistics command.
5–Fibre Channel over IP Configuring FCIP MAC Xmit Bytes 1534059818 MAC Xmit Multi Count 6 MAC Xmit Broad Count 2 MAC Xmit Pause Count 0 MAC Xmit Control Frames 0 MAC Xmit Deferrals 0 MAC Xmit Late Collisions 0 MAC Xmit Aborted 0 MAC Xmit Multiple Collisions 0 MAC Xmit Single Collisions 0 MAC Xmit Collisions 0 MAC Xmit Dropped Frames 0 MAC Xmit Jumbo Frames 0 MAC Rcvd Frames 1761672 MAC Rcvd Bytes 1537825039 MAC Rcvd Multi Count 35 MAC Rcvd Broad Count 6 MAC Rcvd Pause Coun
5–Fibre Channel over IP Configuring FCIP Table 5-3.
5–Fibre Channel over IP Configuring FCIP Data Compression Data compression is an option that in some configurations can provide a data throughput rate greater than the capability of the IP link. The iSR6200 is capable of compressing data at rates up to 190Mbps. The iSR6200 can automatically enable or disable compression to achieve maximum throughput on a real-time basis, depending on the compressibility of the data and the configured bandwidth for the FCIP route.
5–Fibre Channel over IP Configuring FCIP Table 5-4. T1 / DS-1—1.554Mbps Round-Trip Time (ms) Window Size (bytes) Scaling Factor (2n) 250 64K 1 100 32K 0 50 32K 0 25 32K 0 20 32K 0 15 32K 0 10 32K 0 5 32K 0 2.5 32K 0 1 or less 32K 0 Table 5-5. T3 / DS-3—45Mbps ISR651101-00 G Round-Trip Time (ms) Window Size (bytes) Scaling Factor (2n) 250 1M 5 100 512K 4 50 256K 3 25 128K 2 20 128k 2 15 64K or 128K 1 or 2 10 64K 1 5 32K 0 2.
5–Fibre Channel over IP Configuring FCIP Table 5-6. DS-5—400Mbps Round-Trip Time (ms) Window Size (bytes) Scaling Factor (2n) 250 8M or 16M 8 or 9 100 4M 7 50 2M 6 25 1M 5 20 1M 5 15 1M 5 10 512K 4 5 256K 3 2.5 128K 2 1 or less 64K 1 Table 5-7. OC-1—50Mbps 5-16 Round-Trip Time (ms) Window Size (bytes) Scaling Factor (2n) 250 1M or 2M 5 or 6 100 512K 4 50 256K 3 25 128K 2 20 128k 2 15 64K or 128K 1 or 2 10 64K 1 5 32K 0 2.
5–Fibre Channel over IP Configuring FCIP Table 5-8. OC-3—150Mbps Round-Trip Time (ms) Window Size (bytes) Scaling Factor (2n) 250 1M or 2M 5 or 6 100 1M or 2M 5 or 6 50 1M 5 25 512K 4 20 512K 4 15 256K 3 10 256K 3 5 128K 2 2.5 64K 1 1 or less 32K 0 Table 5-9. OC-3—150Mbps ISR651101-00 G Round-Trip Time (ms) Window Size (bytes) Scaling Factor (2n) 250 4M 7 100 1M or 2M 5 or 6 50 1M 5 25 512K 4 20 512K 4 15 256K 3 10 256K 3 5 128K 2 2.
5–Fibre Channel over IP Configuring FCIP Table 5-10. OC-12 and Above—621Mbps Round-Trip Time (ms) Window Size (bytes) Scaling Factor (2n) 250 16M 9 100 8M 8 50 4M 7 25 2M 6 20 1M 5 15 1M 5 10 1M 5 5 512K 4 2.5 256K 3 1 or less 64K 1 Table 5-11. OC-24 and Above—1.244Gbps 5-18 Round-Trip Time (ms) Window Size (bytes) Scaling Factor (2n) 250 16M 9 100 16M 9 50 8M 8 25 4M 7 20 2M or 4M 6 or 7 15 2M 6 10 2M 6 5 1M 5 2.
5–Fibre Channel over IP Configuring FCIP Router TCP Window Setup Table 5-12 contains router settings for the listed TCP window sizes. Table 5-12.
5–Fibre Channel over IP Configuring FCIP 5-20 ISR651101-00 G
6 Diagnostics and Troubleshooting Diagnostic information about the router is available through the chassis LEDs and the port LEDs. Diagnostic information is also available through SANsurfer Router Manager and CLI event logs and error displays.
6–Diagnostics and Troubleshooting Power-On Self-Test Diagnostics Inspect power cord and connectors. Is the cord unplugged? Is the cord or connector damaged? Yes—Make necessary corrections or repairs. If the condition remains, continue. No—Continue. Inspect AC power source. Is the power source delivering the proper voltage? Yes—Continue. No—Make the necessary repairs. If the condition remains, continue. Replace the router.
6–Diagnostics and Troubleshooting LED Blink Patterns Table 6-1. System Fault LED Blink Patterns (Continued) System Fault LED Condition 4 Blinks, followed by pause Management port IP address conflict 5 Blinks, followed by pause Over-temperature Heartbeat Blink Pattern A blink pattern on the heartbeat LED of one second ON followed by one second OFF means that the router is operating normally. The heartbeat LED shows this pattern when the router firmware is operational.
6–Diagnostics and Troubleshooting Recovering a Router If the system fault LED shows the over-temperature blink pattern, follow these steps: Inspect the chassis air vents. Are the intake and exhaust vents clear? Yes—Continue. No—Remove any debris from the fan intake and exhaust if necessary. If the condition remains, continue. Consider the ambient air temperature near the router and clearance around the router. Make necessary corrections.
7 Removal and Replacement This chapter describes how to remove and replace the following FRUs: SFP Transceivers iSR6200 Chassis Blades “Power and Cooling Modules” on page 7-10 SFP Transceivers You can remove and replace the SFP transceivers while the iSR6200 router is operating without damaging the router or the transceiver. However, this interrupts transmission on the affected port until you install the transceiver.
7–Removal and Replacement iSR6200 Chassis Blades The blade replacement feature ensures that the replaced unit retains the MAC addresses for the management ports and iSCSI ports, as well as the world wide port number (WWPN) and world wide node number (WWNN) for the Fibre Channel ports. Retaining these values ensures that the Fibre Channel zoning, LUN masking, and iSCSI login sessions previously established are still valid after replacing the blade.
7–Removal and Replacement iSR6200 Chassis Blades (1) (2) Figure 7-2. Removing the Chassis Blade Installing the Replacement Blade Before replacing a blade for a dual-blade router installation, you must first remove it (as described on page 7-2). To install a replacement blade in an iSR6200 chassis with a dual blade: 1. Unlatch the lever on the new blade prior to inserting it into the chassis, as shown in Figure 7-3. Figure 7-3.
7–Removal and Replacement iSR6200 Chassis Blades 2. Insert the new blade into the chassis slot. Figure 7-4 shows how to push the blade straight into the chassis (1), and then seat the blade onto the chassis mid-plane by pushing up the right side lever and latching it into place (2). The blade powers on and boots up. (1) (2) Figure 7-4. Inserting the New Blade into the Chassis Slot 3. Reconnect all cables to the new blade.
7–Removal and Replacement iSR6200 Chassis Blades Removing the Failed Blade To remove a failed blade from an iSR6200 chassis with a single blade: 1. Prior to replacing the iSR6200 router blade, log out all iSCSI initiators from the iSR6200 blade you are replacing. 2. Save the blade’s FRU using either SANsurfer Router Manager or the CLI fru save command. The following example shows how to perform this using CLI commands.
7–Removal and Replacement iSR6200 Chassis Blades 150 Here comes the directory listing. iSR6200_FRU.bin 226 Directory send OK. ftp: 17 bytes received in 0.00Seconds 17000.00Kbytes/sec. ftp> get iSR6200_FRU.bin 200 PORT command successful. Consider using PASV. 150 Opening BINARY mode data connection for iSR6200_FRU.bin (20010 bytes). 226 File send OK. ftp: 20010 bytes received in 0.00Seconds 20010000.00Kbytes/sec. ftp> bye 221 Goodbye. 4. Disconnect all cables from the iSR6200 blade.
7–Removal and Replacement iSR6200 Chassis Blades (1) (2) Figure 7-6. Removing the Chassis Blade Installing the Replacement Blade Before replacing a blade for a single-blade router installation, you must first remove it (as described on page 7-5). To install a replacement blade in an iSR6200 chassis with a single blade: 1. Unlatch the lever on the new blade prior to inserting it into the chassis, as shown in Figure 7-7. Figure 7-7.
7–Removal and Replacement iSR6200 Chassis Blades 2. Insert the new blade into the chassis slot. Figure 7-8 shows how to push the blade straight into the chassis (1), seat the blade onto the chassis mid-plane by pushing the right side lever up, and then latching it into place (2). The blade powers on and boots up. (1) (2) Figure 7-8. Inserting the New Blade into the Chassis Slot 3. Wait until the blade finishes booting up. The system runs the POST.
7–Removal and Replacement iSR6200 Chassis Blades >ftp 10.0.0.1 Connected to 10.0.0.1. 220 (vsFTPd 2.0.5) User (10.0.0.1:(none)): ftp 331 Please specify the password. Password: ftp 230 Login successful. ftp> bin 200 Switching to Binary mode. ftp> put iSR6200_FRU.bin 200 PORT command successful. Consider using PASV. 150 Ok to send data. 226 File receive OK. ftp: 20010 bytes sent in 0.00Seconds 20010000.00Kbytes/sec. ftp> bye 221 Goodbye. 10: Telnet to 10.0.0.1, and run the ‘fru restore’ command.
7–Removal and Replacement Power and Cooling Modules FRU restore completed. Please reboot the system for configuration to take affect. iSR6200 <1> (admin) #> reboot Are you sure you want to reboot the System (y/n): y System will now be rebooted... iSR6200 #> Connection to host lost. The replacement blade should now be operational. Power and Cooling Modules Each iSR6200 chassis blade has a PCM, located on the back side of the chassis.
7–Removal and Replacement Power and Cooling Modules Figure 7-9. Back Side of Two PCMs with Fault (left) and Good (right) Status Indicators 2. Check the second (GOOD) PCM to make sure it is ready to support storage connectivity while you are replacing the failed PCM unit. Make sure the second PCM’s power cable is connected to the cable with the other end plugged into a live power source, and that it shows a green status LED.
7–Removal and Replacement Power and Cooling Modules Installing the Replacement PCM To install a replacement PCM in the iSR6200 chassis: 1. Before you insert the new PCM into the chassis, unlatch the lever on the new PCM (see Figure 7-11.) Figure 7-11. Unlatching Lever on New PCM 2. Insert the replacement PCM into the iSR6200 chassis.
7–Removal and Replacement Power and Cooling Modules 3. Connect the power cable to the newly inserted PCM. Its status LED color should change from amber to green within five seconds. Figure 7-13. Back Side of Two PCMs, Both With Good Status Indicators 4. ISR651101-00 G Verify that the airflow through both PCMs is in the same direction.
7–Removal and Replacement Power and Cooling Modules 7-14 ISR651101-00 G
A Technical Specifications This appendix provides the following technical specification for the iSR6200 router: Interface Specifications “Expansion Configurations” on page A-2 “Performance Features” on page A-2 “iSCSI Initiator Support” on page A-3 “Device Management” on page A-3 “Mechanical” on page A-3 “High Availability” on page A-4 “Protocols” on page A-4 “Protocols” on page A-4 “Environmental and Safety” on page A-4 Interface Specifications The iSR6200 router can support one or t
A–Technical Specifications Expansion Configurations Expansion Configurations One expansion card per router blade can add one of the following optional port configurations to the system: Two 1Gb Ethernet modules Two 10Gb Ethernet FCoE or iSCSI modules (standard configuration) Two 8Gb Fibre Channel ports Performance Features Maximum Data Rates: iSCSI: 2.6Gbps aggregate (1.3Gbps per blade) Fibre Channel: 12.8Gbps aggregate (6.
A–Technical Specifications iSCSI Initiator Support iSCSI Initiator Support Microsoft: Windows 2000, 2003, and 2008 Solaris: SPARC 2.6, 8, 9, 10: X86 Linux: Red Hat AS 3, 4, 5; SUSE Enterprise Server 8, 9, 10 VMware: ESX Server v3.0.x, v3.
A–Technical Specifications High Availability Power Supply: 235W maximum (two blades and two expansion cards) 106W typical (one blade and two power modules) 100V AC to 240V AC; 50Hz to 60Hz 1.9A at 100–125V AC; 1.
A–Technical Specifications Environmental and Safety ISR651101-00 G Non-operating: Temperature: -40°C to +70°C (-40°F to158°F) Humidity: 5 percent to 93 percent non-condensing Altitude: 0 to 50,000 feet Vibration: IEC 68-2, 5–500Hz, random, 2.
A–Technical Specifications Environmental and Safety A-6 ISR651101-00 G
B Simple Network Management Protocol Simple network management protocol (SNMP) provides monitoring and trap functions for managing the router through third-party applications that support SNMP. The router firmware supports SNMP versions 1 and 2 and a QLogic management information base (MIB) (see page B-4). You may format traps using SNMP version 1 or 2.
B–Simple Network Management Protocol SNMP Parameters SNMP Parameters You can set the SNMP properties using SANsurfer Router Manager or the CLI. For SNMP configuration details, see the iSR6200 Router Manager User’s Guide or the iSR6200 CLI User’s Guide. Table B-1 describes the SNMP parameters. Table B-1. SNMP Parameters Parameter Description Read community A password that authorizes an SNMP management server to read information from the router. This is a write-only field.
B–Simple Network Management Protocol SNMP Trap Configuration SNMP Trap Configuration SNMP trap configuration lets you set up to eight trap destinations. Choose from Traps 1–Trap 8 to configure each trap. Table B-2 describes the parameters for configuring an SNMP trap. Table B-2. SNMP Trap Configuration Parameters Parameter Description Trap n enabled Enables or disables trap n. If disabled, the trap is not configured. Trap address* Specifies the IP address to which the SNMP traps are sent.
B–Simple Network Management Protocol Management Information Base (MIB) Management Information Base (MIB) This section describes the QLogic management information base (MIB).
B–Simple Network Management Protocol Management Information Base (MIB) Network Port Table The network port table contains a list of network ports that are operational on the router. The entries in this table include the management port (labeled MGMT), and the gigabit Ethernet ports (labeled GE1 and GE2). qsrNwPortTable Syntax SEQUENCE OF QsrNwPortEntry Access Not accessible Description Entries in this table include the management port, and the iSCSI ports on the router.
B–Simple Network Management Protocol Management Information Base (MIB) qsrNwPortRole Syntax QsrPortRole Access Not accessible Description Operational role of this port: management port or iSCSI port. qsrNwPortIndex Syntax Unsigned32 Access Not accessible Description A positive integer indexing each network port in a specific role. qsrNwPortAddressMode Syntax INTEGER 1 = Static 2 = DHCP 3 = Bootp 4 = RARP Access Read-only Description Method by which the port gets its IP address.
B–Simple Network Management Protocol Management Information Base (MIB) qsrNetMask Syntax InetAddress Access Read-only Description Subnet mask for this port. qsrGateway Syntax InetAddress Access Read-only Description Gateway for this port. qsrMacAddress Syntax IMacAddress Access Read-only Description MAC address for this port. qstNwLinkStatus Syntax QsrLinkStatus Access Read-only Description Operational link status for this port.
B–Simple Network Management Protocol Management Information Base (MIB) FC Port Table This table contains a list of the Fibre Channel (FC) ports on the router. There are as many entries in this table as there are Fibre Channel ports on the router. qsrFcPortTable Syntax SEQUENCE OF QsrFcPortEntry Access Not accessible Description A list of the Fibre Channel ports on the router.The table contains as many entries as there are Fibre Channel ports on the router.
B–Simple Network Management Protocol Management Information Base (MIB) qsrFcPortRole Syntax QsrPortRole Access Not accessible Description Operational role of this port: FCP mode or frame shuttle mode. qsrFcPortIndex Syntax Unsigned32 Access Not accessible Description A positive integer indexing each Fibre Channel port in a specific role. qsrFcPortNodeWwn Syntax PhysAddress Access Read-only Description World wide name of the node that contains this port.
B–Simple Network Management Protocol Management Information Base (MIB) qsrFcPortType Syntax Unsigned32 Access Read-only Description Type of Fibre Channel port, as indicated by the use of the appropriate value assigned by the Internet Assigned Numbers Authority (IANA). The IANA-maintained registry for Fibre Channel port types is located here: www.iana.org/assignments/fc-port-types qsrFcLinkStatus Syntax QsrLinkStatus Access Read-only Description Current link status for this port.
B–Simple Network Management Protocol Management Information Base (MIB) qsrIsInitEntry Syntax QsrIsInitEntry Access Not accessible Description Each entry (row) contains information about a specific iSCSI initiator.
B–Simple Network Management Protocol Management Information Base (MIB) qsrIsInitAddressType Syntax InetAddressType Access Read-only Description Type of iSCSI initiator’s IP address (IPv4 or IPv6). qsrIsInitAddress Syntax InetAddress Access Read-only Description IP address of the iSCSI initiator.
B–Simple Network Management Protocol Management Information Base (MIB) LUN Table These tables contains information about the logical unit number (LUN) list. qsrLunTable Syntax SEQUENCE OF QsrLunEntry Access Not accessible Description A list of the LUNs on the Fibre Channel targets discovered by the router. There are as many entries in this table as there are Fibre Channel targets on the router.
B–Simple Network Management Protocol Management Information Base (MIB) qsrLunVendorId Syntax SnmpAdminString Access Read-only Description Vendor ID for the LUN. qsrLunProductId Syntax SnmpAdminString Access Read-only Description Product ID for the LUN. qsrLunProdRevLevel Syntax SnmpAdminString Access Read-only Description Product revision level for the LUN. qsrLunSize OBJECT-TYPE Syntax Units Access Description Unsigned32 Megabytes Read-only Size of the LUN (in megabytes).
B–Simple Network Management Protocol Management Information Base (MIB) qsrLunVPGroupid Syntax Integer Access Read-only Description ID of the VP group to which this LUN belongs. qsrLunVPGroupname OBJECT-TYPE Syntax SnmpAdminString Access Read-only Description VP group name to which this LUN belongs. VP Group Table This table contains a list of virtual port groups (VPGs). There are four entries in this table at any point of time.
B–Simple Network Management Protocol Management Information Base (MIB) qsrVPGroupIndex OBJECT-TYPE Syntax Unsigned32 Access Read-only Description VP group index. qsrVPGroupId OBJECT-TYPE Syntax Integer Access Read-only Description VP group ID. qsrVPGroupName Syntax SnmpAdminString Access Read-only Description VP group name or host group name. qsrVPGroupWWNN Syntax VpGroupWwnnAndWwpn Access Read-only Description Worldwide node name (WWNN) for VP group.
B–Simple Network Management Protocol Management Information Base (MIB) Sensor Table The sensor table lists all the sensors on the router. Each table row specifies a single sensor. qsrSensorTable Syntax SEQUENCE OF QsrSensorEntry Access Not accessible Description List of all the sensors on the router. The table contains as many entries (rows) as there are sensors. qsrSensorEntry Syntax QsrSensorEntry Access Not accessible Description Each entry (row) corresponds to a single sensor.
B–Simple Network Management Protocol Management Information Base (MIB) qsrSensorIndex Syntax Unsigned32 Access Not accessible Description A positive integer identifying each sensor of a specific type. qsrSensorUnits Syntax INTEGER Celsius = 1 Access Read-only Description Unit of measurement for the sensor. qsrSensorValue Syntax Integer32 Access Read-only Description Current value of the sensor.
B–Simple Network Management Protocol Notifications qsrSensorState Syntax INTEGER Access Read-only Description State of this sensor, indicating the health of the system: Unknown = The sensor value/thresholds cannot be determined. Normal = The sensor value is within normal operational limits. Warning = The sensor value is approaching a threshold. Critical = The sensor value has crossed a threshold.
B–Simple Network Management Protocol Notifications qsrSerialNumber Syntax SnmpAdminString Access Read-only Description System serial number. qsrHwVersion Syntax SnmpAdminString Access Read-only Description System hardware version number. qsrSwVersion Syntax SnmpAdminString Access Read-only Description System software (firmware) version number. qsrNoOfFcPorts Syntax Unsigned32 Access Read-only Description Quantity of Fibre Channel ports on the system.
B–Simple Network Management Protocol Notifications Notification Objects This section defines the objects used in notifications. qsrEventSeverity Syntax INTEGER Access Accessible for notify Description Indicates the severity of the event. The value clear specifies that a condition that caused an earlier trap is no longer present. qsrEventDescription Syntax SnmpAdminString Access Accessible for notify Description A text description of the event that occurred.
B–Simple Network Management Protocol Notifications Network Port Down Notification The network port down notification indicates that the specified network port is down. The next time the port comes up, this event is sent with the qsrEventSeverity object set to clear.
B–Simple Network Management Protocol Notifications Target WWPN Blade number (1 or 2) Target Presentation (Mapping) The target presentation notification indicates that the specified target has been presented (mapped) or unpresented (unmapped).
B–Simple Network Management Protocol Notifications qsrEventTimeStamp qsrEventSeverity Sensor notifications are sent for the following events: Over-temperature: Temperature returned to normal PCM number (1 or 2) Fan number (1 of 3) Fan returned to operational state: B-24 PCM number (1 or 2) Fan failed: PCM number (1 or 2) PCM not powered (AC power removed): PCM number (1 or 2) PCM powered (AC power connected): PCM number (1 or 2) PCM removed: PCM
B–Simple Network Management Protocol Notifications Generic Notification The generic notification reports events other than the defined event types. It provides a description object that identifies the event in clear text.
B–Simple Network Management Protocol Notifications B-26 ISR651101-00 G
C Log Messages This appendix provides details about messages logged to a file. (For details about viewing the router logs, see the iSR6200 CLI User’s Guide or the iSR6200 Router Manager User’s Guide.) The message log is persistent because it is maintained across router power cycles and reboots. Information in Table C-1 is organized as follows: The ID column specifies the message identification numbers in ascending order.
C–Log Messages The Msg. Type column specifies the log message type, where: TOE = TCP/IP offload engine module User = User module Error = Error log message Fatal = Fatal log message Info = Informational log message The Description column provides additional information about the log message. Table C-1. iSR6200 Router Log Messages ID Log Message Module Type Msg.
C–Log Messages Table C-1. iSR6200 Router Log Messages (Continued) ID Log Message Module Type Msg. Type Description 41077 QLBA_CreateInitiatorObject: Too many initiators App Error Unable to create an object for initiator object; exceeded the maximum number of initiators. 41096 QLBA_DisplayTargetOperationStatus: PCI Error, Status 0x%.2x App Error Process control block status indicates that a peripheral component interconnect (PCI) error occurred during a target operation.
C–Log Messages Table C-1. iSR6200 Router Log Messages (Continued) ID Log Message Module Type Msg. Type Description 41268 QLIS_LoginPduContinue: Missing target name App Error iSCSI Login PDU received without a target name for a normal session. 41270 QLIS_LoginPduContinue: TSIH is 0 but InitiatorName key/value not provided App Error iSCSI Login PDU received without an initiator name key or value.
C–Log Messages Table C-1. iSR6200 Router Log Messages (Continued) Module Type Msg. Type QLBI_SetPortInfo: QLUT_AllocatePortalObject failed (PortType 0x%x, PortId 0x%x) App Error 41626 QLBI_GetLunInfo: INQUIRY failed, TPB status 0x%x App Error Inquiry command failed. The Inquiry command was issued by the router as part of its discovery process. 41629 QLBI_GetLunInfo: INQUIRY failed, TPB status 0x%x App Error Pass-Through command for Inquiry command for page 83 failed.
C–Log Messages Table C-1. iSR6200 Router Log Messages (Continued) ID Log Message Module Type Msg. Type Description 41717 QLBI_Passthru: Invalid data length %d bytes App Error Pass-Through command issued by management application (such as GUI) was interrupted or timed out. 41750 QLBI_Ioctl: ERROR: Operation (0x%x) not supported in this mode App Error IOCTL operation unsupported. Operation code provided in log message.
C–Log Messages Table C-1. iSR6200 Router Log Messages (Continued) ID Log Message Module Type Msg. Type 42027 QLFC_Logout: VP Index 0x%x not configured App Error Logout attempted using Fibre Channel VP index that has not been configured. Operation attempted on an unconfigured VP. 42068 QLFC_HandleTeb: System Error App Error Event notification; Fibre Channel processor encountered a system error (unrecoverable firmware error).
C–Log Messages Table C-1. iSR6200 Router Log Messages (Continued) ID Log Message Module Type Msg. Type Description 42649 QLIS_HandleTeb: Unload Driver App Error Event notification; an IOCTL request was received to unload the iSCSI driver. 42654 QLIS_HandleTeb: iSNS Connection Failed App Error Event notification; attempt to connect to the iSNS server failed. 43265 QLUT_AllocateTpbExtension: TPB allocation failed App Error Failed to allocate memory for TPB extension.
C–Log Messages Table C-1. iSR6200 Router Log Messages (Continued) Module Type Msg. Type QLFC_Login: Origin 0x%x, VP Index 0x%x, Id 0x%x App Info Fibre Channel login occurred, origin xx (1 = adapter, 2 = target, 3 = initiator), VP (virtual port) xx, ID (loop ID) xx. 54275 QLFC_Login: Port ID App Info Fibre Channel login occurred with port ID xx.xx.xx. 54276 QLFC_Login: Node Name %.2x%.2x%.2x%.2x%.2x%.2x%.2x%.2x App Info Fibre Channel login occurred with WWNN xx.xx.xx.xx.xx.xx.xx.xx.
C–Log Messages Table C-1. iSR6200 Router Log Messages (Continued) ID Log Message Module Type Msg. Type Description 54939 QLIS_HandleTeb: UTM_EC_CLOSE_CONNECTION or UTM_EC_CONNECTION_CLOSED App Info Event notification; iSCSI close connection request or connection closed. 54940 QLIS_HandleTeb: UTM_EC_CLOSE_CONNECTION or UTM_EC_CONNECTION_CLOSED App Info Event notification; iSCSI connection closed.
C–Log Messages Table C-1. iSR6200 Router Log Messages (Continued) Module Type Msg. Type QLDM_ResumeMigration: Failed to resume job: %d, job's current state: 0x%x, error: %d App Info Failed to resume a paused job. 56865 QLDM_DelayedStart:%d Failed to start job : Job ID: %d App Info Failed to start a delayed schedule job. 56866 Lun is already used for of some other migration job App Info Migration add failed because LUN is part of another migration job.
C–Log Messages Table C-1. iSR6200 Router Log Messages (Continued) Module Type Msg. Type Start time got from user %lu Cur Time: %lu Diff: %d App Info The log shows the configured start time and current time for a delayed migration job. 56881 Failed to stop migration job id %u App Info Failed to stop a migration job; the error message includes the job ID. 56884 QLDM_DeleteMigrationJobByLun: Could not find migration object App Info Did not find a migration job for the associated LUN object.
C–Log Messages Table C-1. iSR6200 Router Log Messages (Continued) Module Type Msg. Type #%d: QLEnable: QLRebootTimer failed AF %x RS %x Time %d iSCSI Fatal Port enable reboot timer failed. 70224 #%d: QLProcSrblessiSNSResponse: Invalid handle %x iSCSI Fatal iSNS response contains an invalid handle. 70400 #%d: QLInitializeDevice: QLStartAdapter failed iSCSI Fatal Start iSCSI processor failed.
C–Log Messages Table C-1. iSR6200 Router Log Messages (Continued) ID Log Message Module Type Msg. Type Description 70524 #%d: QLProcessAen: Invalid event %x iSCSI Fatal Asynchronous event for unknown event type. 70544 #%d: QLRebootTimer: Reboot failed! iSCSI Fatal Reboot timer failed. 70563 #%d: QLRebootTimer: Reboot failed! iSCSI Fatal iSCSI driver missed iSCSI processor heartbeat. iSCSI processor rebooted.
C–Log Messages Table C-1. iSR6200 Router Log Messages (Continued) ID Log Message Module Type Msg. Type Description 73990 #%d: QLUtmIoctlEnable: Initialize FW failed iSCSI Error The iSCSI processor failed firmware initialization. 74056 #%d: QLRunDiag: MBOX Diag test internal loopback failed %x %x iSCSI Error The iSCSI processor failed the internal loopback test.
C–Log Messages Table C-1. iSR6200 Router Log Messages (Continued) ID Log Message Module Type Msg. Type Description 74659 #%d: QLReadyTimer: Adapter missed heartbeat for 0x%x seconds iSCSI Error The iSCSI processor (adapter) failed to provide a heartbeat for x seconds. 74660 #%d: QLReadyTimer: Abort pTpb=%p failed, DrvCount 0x%x iSCSI Error The iSCSI processor failed to complete an abort request.
C–Log Messages Table C-1. iSR6200 Router Log Messages (Continued) ID Log Message Module Type Msg. Type Description 86347 #%d: QLDisable: Restart RISC iSCSI Info Restart iSCSI processor (RISC). 86349 #%d: QLEnable: Restart RISC to update EEPROM iSCSI Info EEPROM updated, restart iSCSI processor (RISC). 86874 #%d: QLIsrDecodeMailbox: Link up iSCSI Info Link up reported by iSCSI processor for GE1 or GE2.
C–Log Messages Table C-1. iSR6200 Router Log Messages (Continued) ID Log Message Module Type Msg. Type Description 102657 #%d: QLInitializeAdapter: Load RISC code failed FC Fatal Fibre Channel processor firmware load failed. 102658 #%d: QLInitializeAdapter: Load ISP2322 receive sequencer code failed FC Fatal Fibre Channel processor receive sequencer code load failed.
C–Log Messages Table C-1. iSR6200 Router Log Messages (Continued) ID Log Message Module Type Msg. Type Description 102755 #%d: QLTimer: Heartbeat failed FC Fatal Fibre Channel processor heartbeat failed. 102800 #%d: QLRestartRisc: restart RISC FC Fatal Fibre Channel processor being restarted.
C–Log Messages Table C-1. iSR6200 Router Log Messages (Continued) ID Log Message Module Type Msg. Type Description 106851 #%d: QLTimer: Heartbeat failed FC Error The Fibre Channel controller failed to provide a heartbeat. 106853 #%d: QLTimer: Link error count (0x%x) exceeded, link down FC Error The driver has determined that the Fibre Channel link is unreliable and unusable due to the number of errors encountered. The link has been taken down.
C–Log Messages Table C-1. iSR6200 Router Log Messages (Continued) ID Log Message Module Type Msg. Type Description 107078 #%d: QLUpdatePort 0x%x: out of slots in host database FC Error The driver was unable to re-establish connection to the target within the timeout and retry counts, and is therefore marking it offline. 107984 #%d: QLWriteFlashDword: Write fails at addr 0x%x data 0x%x FC Error The Fibre Channel controller failed a Flash write (address x data x).
C–Log Messages Table C-1. iSR6200 Router Log Messages (Continued) ID Log Message Module Type Msg. Type Description 119089 #%d: QLIsrEventHandler: LIP reset occurred (%x): mailbox1 = %x FC Info Fibre Channel LIP reset occurred. The LIP reset type is reported, as is the contents of the Fibre Channel processor’s mailbox 1 register. 119090 #%d: QLIsrEventHandler: Link up (%x) mailbox1 = %x FC Info Fibre Channel link up occurred.
C–Log Messages Table C-1. iSR6200 Router Log Messages (Continued) ID Log Message Module Type Msg. Type Description 120375 #%d: QLIsrEventHandler: IDC Notification (%x), %x, %x, %x, %x, %x, %x, %x FC Info For FCoE protocol, the IDC notification comes from another driver. 120376 #%d: QLIsrEventHandler: IDC Time Extended (%x), %x, %x, %x, %x, %x, %x, %x FC Info For FCoE protocol, the IDC time extended notification receives.
C–Log Messages Table C-1. iSR6200 Router Log Messages (Continued) ID Log Message Module Type Msg. Type Description 139271 QBRPC_Initialize:GetIsns Mem Allocation error User Error Get iSNS API memory allocation failed. 139272 QBRPC_Initialize:GetFcIntfc Mem Allocation error User Error Get Fibre Channel Interface API memory allocation failed. 139273 QBRPC_Initialize:GetFcAdv Mem Allocation error User Error Get Fibre Channel Advanced API memory allocation failed.
C–Log Messages Table C-1. iSR6200 Router Log Messages (Continued) ID Log Message Module Type Msg. Type Description 139288 QBRPC_Initialize:Init Mem Allocation error User Error Failed memory allocation for Initiator API. 139289 QBRPC_Initialize:TgtDevice Mem Allocation error User Error Failed memory allocation for Target Device API. 139296 QBRPC_Initialize:FcTgt Mem Allocation error User Error Failed memory allocation for Fibre Channel Target API.
C–Log Messages Table C-1. iSR6200 Router Log Messages (Continued) ID Log Message Module Type Msg. Type Description 139305 QBRPC_Initialize:LunList MemAlloc error User Error Failed memory allocation for LUN List API. 139315 QBRPC_FreeResources:Entered User Error RPC free resources entry point. 139553 checkDuplicateIp: Detected Error %08x %08x%04x User Error Detected duplicate IP address for management port.
C–Log Messages Table C-1. iSR6200 Router Log Messages (Continued) ID Log Message Module Type Msg. Type Description 139936 FcipRoute#%d Failed with Persistence Write Failure User Error Write of FCIP route definition to persistent memory failed. Retry the route add or modify if the retry failed reboot the router. 139937 FcipRoute#%d Failed with IP Address Reuse Error User Error Specified IP address is already in use in another FCIP route definition.
C–Log Messages Table C-1. iSR6200 Router Log Messages (Continued) ID Log Message Module Type Msg. Type Description 151893 #%d: qapisetvlanparams_1_svc: VLAN configuration changed User Info The VLAN configuration has changed. 151894 qapisetlunmask_1_svc: Lunmask added for LUN %d User Info A LUN mask was added for LUN %d. 151895 qapisetlunmask_1_svc: Lunmask removed for LUN %d User Info The LUN mask was removed for LUN %d.
C–Log Messages Table C-1. iSR6200 Router Log Messages (Continued) Module Type Msg. Type qapimaptargetdevice_1_svc: Target WWPN: %.2x%.2x%.2x%.2x%.2x%.2x%.2x%.2x unmapped from iSCSI portal %d. User Info The target at WWPN: xx.xx.xx.xx.xx.xx.xx.xx has been unmapped from iSCSI portal %d 152082 qapiaddmodifyinitiator_1_svc : Initiator Configuration Changed User Info An initiator’s configuration has changed.
C–Log Messages Table C-1. iSR6200 Router Log Messages (Continued) ID Log Message Module Type Msg. Type Description 152105 qapireadjustpriority_1_svc: Readjust Priority Done User Info Completed readjusting the serial schedule priority of migration jobs. 152106 qapiupdatemigration_1_svc: Update Migration returned with error %d User Info An update migration action [Start, Stop, Pause, or Resume] has failed.
C–Log Messages Table C-1. iSR6200 Router Log Messages (Continued) ID Log Message Module Type Msg. Type Description 152137 sysTempMon: Slot 1 (R1) PCM Fan%d faulty User Info The left PCM (#1) is reporting a faulty fan. 152138 sysTempMon: Slot 2 (R2) PCM Fan%d faulty User Info The left PCM (#1) is reporting a healthy fan. 152139 sysTempMon: Slot 1 (R1) PCM Fan%d healthy User Info The right PCM (#2) is reporting a faulty fan.
C–Log Messages Table C-1. iSR6200 Router Log Messages (Continued) ID Log Message Module Type Msg. Type Description 172238 FcipRoute#%d: Synchronization Error on Receive FCIP Error Indicates an error in the received FCIP PDU framing; router will disconnect and reconnect with remote router to clear the error. 172239 FcipRoute#%d: Decompression Error on Receive FCIP Error Indicates the receiver could not decompress a received FCIP frame.
C–Log Messages Table C-1. iSR6200 Router Log Messages (Continued) ID Log Message Module Type Msg. Type Description 172250 FcipRoute#%d: TCP Link Down FCIP Error The TCP link went down. Check the Ethernet cabling and Ethernet switch or peer device statistics. 172253 FcipRoute#%d: Remote Peer IP Address Validation Failed FCIP Error An TCP client attempted to connect to the router but the IP address did not match the address of the remote router specified in the route definition.
C–Log Messages Table C-1. iSR6200 Router Log Messages (Continued) ID Log Message Module Type Msg. Type Description 204835 QL3xxx:eth%x PHY Downshift occurred TOE Error The Ethernet device could not successfully communicate with the link peer at the highest negotiated port rate. Check the Ethernet cabling and Ethernet switch statistics of the corresponding port. 204837 QL3xxx:eth%x Link Down TOE Error The Ethernet link is down.
Glossary activity LED A port LED that indicates when frames are entering or leaving the port. adapter The board that interfaces between the host system and the target devices. Adapter is synonymous with host bus adapter, host adapter, and adapter board. adapter port A port on the adapter board. adapter port beacon An LED on the adapter. Flashing it enables you to locate the adapter. alarm A message generated by the switch that specifically requests attention.
iSR6200 Intelligent Storage Router Installation Guide comma separated values file See CSV file. command line interface See CLI. Converged Network Adapter QLogic adapter that supports both data networking (TCP/IP) and storage networking (Fibre Channel) traffic on a single I/O adapter using two new technologies: Enhanced Ethernet and Fibre Channel over Ethernet (FCoE). CRC Cyclic redundancy check. A type of check value designed to catch most transmission errors. CSV file Comma separated values file.
iSR6200 Intelligent Storage Router Installation Guide F_Port The fabric port in a Fibre Channel fabric switch provides a point-to-point link attachment to a single N_Port. F_Ports are intermediate ports in virtual point-to-point links between end ports, for example N_Port to F_Port to F_Port to N_Port using a single Fibre Channel fabric switch. fabric A fabric consists of cross-connected Fibre Channel devices and switches. fabric port See F_Port. fabric switch Also, switched fabric.
iSR6200 Intelligent Storage Router Installation Guide FL_Port Fabric loop port. In a Fibre Channel, the fabric switch is capable of Fibre Channel arbitrated loop operations and is connected to one or more NL_Ports by a Fibre Channel Arbitrated Loop. An FL_Port becomes a shared entry point for public NL_Port devices to a Fibre Channel fabric.
iSR6200 Intelligent Storage Router Installation Guide ioctl Input/output control. A system call in UNIX®/Linux systems that allows an application to control or communicate with a device driver outside usual read/write operations. IP Internet Protocol. A method by which data is sent from one computer to another over the Internet. IP specifies the format of packets, also called datagrams, and the addressing scheme. LIP Loop initialization process.
iSR6200 Intelligent Storage Router Installation Guide management workstation PC workstation used to manage routers remotely by connecting to the routers using SANsurfer Router Manager or CLI commands. maximum transmission unit See MTU. Mbps Megabits (millions of bits) per second. A measure of data transfer rates. media Physical-layer information carriers. Fibre Channel supports several different physical media: copper, multimode optical, and single-mode optical.
iSR6200 Intelligent Storage Router Installation Guide NTP Network time protocol. NTP is used for distributing the Coordinated Universal Time (UTC) by means of synchronizing the clocks of computer systems over packet-switched, variable-latency data networks. NVRAM Non-volatile random access memory. NVRAM is a type of memory that retains data (including configuration settings) even when power is removed. You can configure NVRAM settings manually or restore them from a file.
iSR6200 Intelligent Storage Router Installation Guide Fibre Channel—a port in a fabric where an N_Port can attach. Fibre Channel—a port in a fabric where an NL_Port can attach. port instance The number of the port in the system. Each adapter may have one or multiple ports, identified with regard to the adapter as port 0, port 1 and so forth. To avoid confusion when dealing with a system containing numerous ports, each port is assigned a port instance number when the system boots up.
iSR6200 Intelligent Storage Router Installation Guide small form factor See SFF. small form-factor pluggable See SFP. SMI-S Storage management initiative–specification. A standard that provides for the management of the switch through third-party management applications. SNMP Simple network management protocol. SNMP is a networking protocol that enables you to monitor the router using third-party applications that use SNMP. SSH Secure SHell.
iSR6200 Intelligent Storage Router Installation Guide VPGs Virtual port group. VPG is the iSR6200 software component used to create additional logical Fibre Channel adapter initiator ports on the fabric. world wide node name See WWNN. world wide port name See WWPN. world wide unique LUN name See WWULN. WWNN World wide node name. Unique 64-bit address assigned to a device. WWPN World wide port name. Unique 64-bit address assigned to each port on a device. One WWNN may contain multiple WWPN addresses.
Index A AC power 3-7 activity LED definition of Glossary-1 port data indicator 1-12, 1-13 port indicator 1-12, 1-13 adapter cable for router 3-2 connecting to router 3-10 heartbeat missed error C-15 login message C-9 port beacon, definition of Glossary-1 transmission speed compatibility with 2-1 definition of Glossary-1 port, definition of Glossary-1 address identifier, FC port B-9 IP of port B-6 MAC, of port B-7 mode, port B-6 agent shutdown notification B-21 software version number B-20 startup notificati
iSR6200 Intelligent Storage Router Installation Guide CLI definition of Glossary-1 installing firmware 3-16 set vpgroups 4-4 show vpgroups 4-2, 4-5 CNA, See Converged Network Adapter command line interface, See CLI community read, setting SNMP properties B-2 trap, setting SNMP properties B-2 compatibility with vendor fabrics 5-1 compressing data, FCIP 5-14 conditions, environmental 3-2 configurations, expansion card A-2 configuring FC arrays 4-12 FC port for FCIP 5-4 FCIP 5-2 GE port for FCIP 5-4 managemen
iSR6200 Intelligent Storage Router Installation Guide Ethernet management port 1-12 Ethernet ports LEDs 1-12 showing B-20 event description B-21 event severity B-21 expansion card configurations A-2 F F_Port definition of Glossary-3 extension, configuring FCIP 5-7 fabric port, definition of Glossary-3 fabric switch, definition of Glossary-3 fabric, compatibility with vendor 5-1 fabric, definition of Glossary-3 factory, restoring defaults 1-10 failed blade removing 7-2, 7-5 replacing 7-3, 7-7 failed PCM, r
iSR6200 Intelligent Storage Router Installation Guide G G_Port, definition of Glossary-4 gateway IP address, FCIP, configuring 5-4 gateway, port B-7 GBIC cable devices, connecting 3-15 definition of Glossary-4 transceivers for devices 2-1 Gbps, definition of Glossary-4 GE ports bandwidth, limiting 5-14 FCIP, configuring 5-4 showing B-5, B-20 speed, FCIP 5-5 generic notifications B-25 gigabit Ethernet ports showing B-5, B-20 gigabit interface converter, See GBIC glossary of terms Glossary-1 H HA definition
iSR6200 Intelligent Storage Router Installation Guide iSR6200 router device access to 2-1 devices attached to 2-1 high availability 2-7 services for 2-8 software 2-7 K knowledge database xix L L_Port, definition of Glossary-5 latency, definition of Glossary-5 LEDs activity, definition of Glossary-1 beacon 1-8 blink patterns 6-2 chassis 1-7 definition of Glossary-5 heartbeat 1-7 heartbeat, definition of Glossary-4 input power 6-1 iSCSI Ethernet port 1-12 link status 1-12, 1-13 port activity 1-12, 1-13 pow
iSR6200 Intelligent Storage Router Installation Guide MIB definition of Glossary-6 object groups, FC port table B-8 object groups, network port table B-5 object groups, sensor table B-17 object groups, system information B-19 sensor table B-17 tables B-4 mid-plane, definition of Glossary-6 mounting the router 3-5 MTU definition of Glossary-6 FCIP, configuring 5-4 N N_Port (node port), definition of Glossary-6 network interface card, definition of Glossary-6 network port down notification B-22 network port
iSR6200 Intelligent Storage Router Installation Guide P parameters, SNMP B-2 password, SNMP default B-2 path, definition of Glossary-7 PCI definition of Glossary-7 device discovery 6-2 error in target operation C-3 power state for critical temperature 1-4 PCM definition of Glossary-7 installing 7-12 log messages for C-30 replacing 7-10 sensor notifications B-24 performance features A-2 peripheral component interface/interconnect, See PCI PID definition of Glossary-7 login error C-22 ping command, determini
iSR6200 Intelligent Storage Router Installation Guide qsrDscTgtStatusChanged notification B-22 qsrEventDescription object B-21 qsrEventSeverity object B-21 qsrEventTimeStamp notification B-21 qsrFcLinkRate table B-10 qsrFcLinkStatus table B-10 qsrFcPortDown notification B-22 qsrFcPortEntry table B-8 qsrFcPortId table B-9 qsrFcPortIndex table B-9 qsrFcPortNodeWwn table B-9 qsrFcPortRole table B-9 qsrFcPortTable table B-8 qsrFcPortType table B-10 qsrFcPortWwn table B-9 qsrGateway table B-7 qsrGenericEvent no
iSR6200 Intelligent Storage Router Installation Guide remote IP address, FCIP 5-4 storage, FCIP 5-7 removing failed blade 7-2, 7-5 failed PCM 7-10 replacing failed blade 7-3, 7-7 requirements browser 3-2 power 3-2 site 3-1 workstation 3-1 resetting router blade 1-9 restoring factory defaults 1-10 RISC definition of Glossary-8 FC processor firmware failed C-18 FC processor paused C-18 FC processor restarted C-19 iSCSI processor restarted C-17 round-trip time (RTT), FCIP 5-9 router blade, resetting 1-9 confi
iSR6200 Intelligent Storage Router Installation Guide SFF definition of Glossary-8 router, connecting cables 3-15 SFP definition of Glossary-8 optical transceivers, removing and replacing 7-1 transceivers 1-11 showing number of FC ports B-20 system hardware version number B-20 system serial number B-20 shutdown notification, agent B-21 simple network management protocol, See SNMP site requirements 3-1 small computer system interface, See SCSI small form factor, See SFF small form-factor pluggable, See SFP
iSR6200 Intelligent Storage Router Installation Guide tables (continued) qsrIPAddressType B-6 qsrIsInitAddress B-12 qsrIsInitAddressType B-12 qsrIsInitAlias B-11 qsrIsInitChapEnabled B-12 qsrIsInitEntry B-11 qsrIsInitIndex B-11 qsrIsInitName B-11 qsrIsInitOsType B-12 qsrIsInitStatus B-12 qsrIsInitTable B-10 qsrLowerThreshold B-18 qsrLunEntry B-13 qsrLunProdRevLevel B-14 qsrLunProductId B-14 qsrLunSize B-14 qsrLunState B-14 qsrLunTable B-13 qsrLunVendorId B-14 qsrLunVPGroupname B-15 qsrLunWwuln B-13 qsrMacA
iSR6200 Intelligent Storage Router Installation Guide U unblocking ports in firewall 5-12 V version number hardware, showing B-20 software/firmware, showing B-20 virtual LAN, definition of Glossary-9 virtual logical area network (LAN), See VLAN VLAN definition of Glossary-9 FCIP, configuring 5-5 VPGs definition of Glossary-10 enabling 4-2 enabling and disabling 4-3 enabling/disabling with CLI 4-4 enabling/disabling with GUI 4-3, 4-4 guidelines 4-1 information 4-3 notifications B-23 required FC switches 2-
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