HP StorageWorks DC and DC04 SAN Backbone Director Switches hardware reference guide Part number: 5697-8028 Third edition: March 2009
Legal and notice information © Copyright 2008-2009 Hewlett-Packard Development Company, L.P. © Copyright 2008 Brocade Communications Systems, Incorporated The information contained herein is subject to change without notice. The only warranties for HP products and services are set forth in the express warranty statements accompanying such products and services. Nothing herein should be construed as constituting an additional warranty.
Contents About this guide ................................................................................. 15 Intended audience .................................................................................................................... Related documentation .............................................................................................................. Document conventions and symbols .............................................................................................
Establishing a serial connection and log on to the DC SAN Director ................................................ Configuring IP addresses ........................................................................................................... Default IP addresses and password ....................................................................................... Establishing an Ethernet connection .............................................................................................
Verifying the need for replacing the chassis ......................................................................... 102 Recording critical DC SAN Director and SAN information ..................................................... 102 Disconnecting from the network and the fabric ..................................................................... 106 Removing components from the chassis ...............................................................................
Setting the time zone ........................................................................................................ Synchronizing local time ................................................................................................... Verifying the Port Identifier mode and connecting to the fabric ...................................................... Enabling software licenses .......................................................................................................
Installing the replacement chassis ....................................................................................... Installing components into the new chassis ........................................................................... Configuring the new chassis serial number .......................................................................... Verifying that the system is operating correctly ......................................................................
European Union Regulatory Notice .............................................................................. 239 Japanese notice ......................................................................................................... 240 Korean notices .......................................................................................................... 240 Korean Notice ...........................................................................................................
Figures 1 Port side of the DC SAN Director (sample configuration) .............................................. 22 2 Non-port side of the DC SAN Director (sample configuration) ....................................... 23 3 14U Rack Mount Kit contents .................................................................................... 36 4 Left and right shelf brackets installed on rails ..............................................................
33 Blower assembly ..................................................................................................... 95 34 WWN bezel (logo plate) and WWN card ................................................................ 99 35 Optical transceiver (SFP and XFP) extraction tool ....................................................... 101 36 Port side of the DC04 SAN Director (sample configuration) ........................................
70 Power supply ........................................................................................................ 191 71 Blower assembly ................................................................................................... 193 72 WWN bezel (logo plate) and WWN card .............................................................. 197 73 Optical transceiver (SFP and XFP) extraction tool .......................................................
Tables 1 Document conventions ............................................................................................. 16 2 Blades available for the DC SAN Director .................................................................. 24 3 Security features ..................................................................................................... 27 4 DC SAN Director orderable software .........................................................................
33 Power supply LED descriptions ................................................................................ 170 34 Blower assembly LED descriptions ........................................................................... 171 35 Messages that may indicate WWN card failure ....................................................... 172 36 WWN LED patterns .............................................................................................. 194 37 Commands identifying the WWN card status ........
About this guide This guide provides information about: • Setting up and configuring the HP StorageWorks DC SAN Backbone Director Switch (DC SAN Director) and the HP StorageWorks DC04 SAN Backbone Director Switch (DC04 SAN Director) • Maintaining and operating the products • Installing FRUs • Installing the optional blades • Diagnostics and troubleshooting • Technical specifications • Regulatory compliance and safety notices Intended audience This guide is intended for system administrators and technicians
Document conventions and symbols Table 1 Document conventions Convention Element Blue text: Table 1 Cross-reference links and e-mail addresses Blue, underlined text: http://www.hp.
Rack stability Rack stability protects personnel and equipment. WARNING! To reduce the risk of personal injury or damage to equipment: • Extend leveling jacks to the floor. • Ensure that the full weight of the rack rests on the leveling jacks. • Install stabilizing feet on the rack. • In multiple-rack installations, fasten racks together securely. • Extend only one rack component at a time. Racks can become unstable if more than one component is extended.
HP websites For additional information, see the following HP websites: • • • • • http://www.hp.com http://www.hp.com/go/storage http://www.hp.com/service_locator http://www.hp.com/support/manuals http://www.hp.com/support/downloads Documentation feedback HP welcomes your feedback. To make comments and suggestions about product documentation, please send a message to storagedocsFeedback@hp.com. All submissions become the property of HP.
1 HP StorageWorks DC SAN Backbone Director Switch Overview This chapter provides the following information: • • • • • • • • • • • • “HP StorageWorks DC SAN Director Power Pack” on page 19 “Features” on page 19 “Hardware components” on page 20 “DC Director blades” on page 24 “B-Series MP Router blade (FR4-18i) overview” on page 229 “Reliability” on page 25 “Serviceability” on page 26 “Software features” on page 26 “Security” on page 27 “Network manageability” on page 27 “Optional software licenses” on page
• Dual-redundant CP blades (CP8) and core switch blades (CR8) provide high availability and enable non-disruptive software upgrades. • Data cryptographic (encryption/decryption) and data compression capabilities through the FS818 encryption blade. • Redundant and hot-swappable CP8 and CR8 blades, power supplies, blower assemblies, and WWN cards enable a high availability platform for mission critical SAN applications. • Inter-chassis linking (ICL) through CR8 blades.
At 110 VAC, four power supplies are required when using the FR4-18i blade. • Two redundant WWN cards on the non-port side, to maintain chassis-specific information such as WWNs, IP addresses, and summary status information for each Director blade and power supply through LEDs • 4-Gb and 8-Gb Small Form-factor Pluggable (SFP) optical transceivers (4-Gb SFPs operate at 1 Gb, 2 Gb or 4 Gb. 8-Gb SFPs operate at 2 Gb, 4 Gb or 8 Gb.
1 2 3 4 5 25369a Figure 1 Port side of the DC SAN Director (sample configuration) 1. Exhaust Vent 2. Core switch blade (CR8) 3. CP blade (CP8 4. FC8-48 Director blade 5.
Non-port side of the DC SAN Director Figure 2 displays a sample configuration of the non-port side view of the DC SAN Director. 1 2 3 25370a Figure 2 Non-port side of the DC SAN Director (sample configuration) 1. WWN bezel (logo plate) 2. Power supply 3.
DC SAN Director blades Table 2 describes the Director, CP, and core switch blades that are available for the DC SAN Director. Table 2 Blades available for the DC SAN Director Description Name Function DC SAN Director CP blade CP8 The CP8 blade provides for management of all other blades in the DC SAN Director. There are two CP8 blades for redundancy. This CP blade is also compatible with the DC04 SAN Director.
Description Name HP DC Switch Encryption FC blade Function FS8-18 The FS8-18 blade enables data cryptographic (encryption/decryption) and data-compression capabilities. It has 16 Fibre Channel optical SFP ports. This blade requires the use of a 220 VAC power supply in the DC04 SAN Director. This application blade is compatible with the DC SAN Director and DC04 SAN Director.
Serviceability The DC SAN Director provides the following features to enhance and ensure serviceability: • Modular design with hot-swappable components • Flash memory that stores two firmware images per CP Blade • USB port on CP blades for all tasks that formerly required an FTP/SCP server, including software and firmware upgrades • Non-volatile random-access memory (NVRAM), containing the serial number, serial number, revision information, and part number information • Background health-check daemon • Memo
Security Table 3 highlights some of the key security features available for the DC SAN Director running Fabric OS 6.0.0b or later, and for other HP enterprise-class platforms running Fabric OS 5.2.0 or later. For details, contact HP.
The DC SAN Director supports SNMPv1 and SNPMv3. When SNMP devices send SNMP messages to a management console running SAN management software, the information is stored in a Management Information Base (MIB). Fabric OS 6.x supports the latest Fibre Alliance Fibre Channel Management (FCMGMT) and Storage Management Initiative (SMI) MIBs. These MIBs provide the SAN administrator with information for monitoring the network. Refer to the Fabric OS MIB ReferenceGuide.
Accessory Part number HP StorageWorks SAN Director 6 Port 10-Gb FC blade (FC10-6) AK861A HP StorageWorks B-Series Multi-protocol (MP) Router blade (FR4-18i) AG461A HP DC Switch Encryption FC blade (FS8-18) AR945A Optical transceivers HP 4Gb Short Wave B-Series FC SFP 1 Pack AJ715A HP 4Gb Long Wave B-Series FC SFP 1 Pack–10km AK870A HP 8Gb Short Wave B-Series FC SFP+ 1 Pack AJ716A HP BLc 10Gb SR XFP Opt Kit 443756-B21 HP BLc 10Gb LR XFP Opt Kit 443757-B21 HP 8Gb Long Wave B-Series FC SFP+ 1
HP StorageWorks DC SAN Backbone Director Switch Overview
2 DC SAN Director Installation This chapter provides the following information: • • • • • • • • “Time and items required for installation” on page 31 “Site preparation, unpacking the DC Director” on page 32 “Items included with the DC Director” on page 34 “Installing the DC Director in the 14U Rack Mount Kit” on page 34 “Powering on the DC Director” on page 44 “Port numbering” on page 44 “Managing cables” on page 45 “Using the optional HP StorageWorks DC SAN Backbone Director Inter-Chassis Link (ICL) cable
Installation task Time estimate Items required Installing SFP and XFP (10-Gb/s) optical transceivers 30 minutes SFP and XFP (10-Gb/s) optical transceivers Attaching fiber optic cables, cable ties, and cable guides 60 minutes Fiber optic cables, cable ties, and pillars Establishing serial connection, logging on to DC SAN Director, and configuring IP addresses 10 minutes Serial cable (provided in the DC SAN Director accessory kit) One workstation computer with a serial port or terminal server port
4.
Items included with the DC SAN Director Table 7 lists the items included with the standard shipment of the DC SAN Director.
14U Rack Mount Kit parts list Table 8 and Figure 3 identify the hardware provided in the 4U rack mount kit that ships with your DC SAN Director. Table 8 Items supplied with the 14U rack mount kit (DC SAN Director) Item Description Quantity For all types of installations A Left rack mount shelf bracket (rail brackets may differ from the illustration) 1 B Right rack mount shelf bracket (rail brackets may differ from the illustration) 1 C 10-32 x 5/8 inch (1.
26419a Figure 3 14U Rack Mount Kit contents 36 DC SAN Director Installation
Attaching the shelf brackets Attach the left and right rack mount shelf brackets (Items A and B) to the cabinet rails adjustable ends installed on the side of the rack on the intake air aisle. 1. Locate the shelf brackets in the 14U Rack Mount Kit.
2. Locate and loosen the adjusting screws on the brackets (see Figure 4, items A and B) to allow for adjustment to cabinet depth.
3. Position shelf brackets with adjustable ends on the intake aisle side of the cabinet (see Figure 5). • For rails with round holes: Position the left and right rack mount shelf brackets (items A and B) and attach to the cabinet rails. Use eight screws with lock washers per bracket (four on each end). Tighten the screws to a torque of 92 cm-kgs (80 in.-lbs). • For rails with square holes: Position the left and right rack mount shelf brackets (Items A and B) and attach to the cabinet rails.
5. Attach the clip or retainer nuts to the vertical rails on the exhaust aisle side of the cabinet (see Figure 5). These clip nuts are used for securing the port side of the chassis to the rack rails using 10-32 x 5/8-inch screws. Use three clips on each rail. Place the clips in optimum locations for securing the chassis to the rails. NOTE: Do not align the clip or retainer nuts with the top or bottom holes of the mounting bracket because the door will interfere with the screw heads.
5. Fasten the port side of the chassis to the cabinet rails. Use three 10-32 x 5/8 inch (1.58 cm) screws (Item C) per rail. Tighten the screws to a torque of 32 in.-lbs (37 cm-kgs). NOTE: Do not use the top or bottom holes of the DC SAN Director mounting bracket because the door will interfere with the screw heads. 2 1 26422a Figure 6 Positioning the DC SAN Director for installation in a cabinet 1. Rack cabinet (shown without sheet metal) 2.
26423a Figure 7 Attaching port side of chassis to rack rails Replacing the chassis door To reinstall the chassis door: NOTE: The door is not hinged. It installs on the chassis by snapping the four ball studs located on the chassis into the receiving hardware on the door. 1. Align the eight ball studs on the chassis with mounting hardware locations on the chassis door while pushing the door straight into the chassis. 2. Snap the door into place over the ball studs (see Figure 8 and Figure 9).
26424a Figure 8 Aligning the DC SAN Director door with the chassis Inside view of door Outside view of door 3 1 2 26425a Figure 9 Inserting DC SAN Director door on chassis ball studs 1. Ball stud on chassis (outside view of door) 2. Mounting hardware 3.
Powering on the DC SAN Director To power on the DC SAN Director: CAUTION: Use the supplied power cords. Ensure the facility power receptacle is the correct type, supplies the required voltage, and is properly grounded. 1. Connect the AC power cords to the power supply assemblies. One to four power cords are required depending on electrical service. 2.
• FC8-32 port blade—ports are numbered from 0 through 15 from bottom to top on the left set of ports and 16 through 31 from bottom to top on the right set of ports. • FC8-48 port blade—ports are numbered from 0 through 23 from bottom to top on the left set of ports and 24 through 47 from bottom to top on the right set of ports. • FC10-6 port blade—ports are numbered from 0 through 5 from bottom to top.
2 1 LINK ATTN ICL 1 3 LINK ATTN 4 ICL 0 LINK ATTN ICL 0 5 26378a Figure 10 ICL connectors on CR8 blade 1. Status LED 2. Power LED 3. LINK LED 4. ATTN LED 5.
1 2 3 4 5 6 7 8 26372a Figure 11 Inter-chassis link (ICL) connections (configuration 1) 1. Chassis 1 2. Core switch blades (CR8) 3. Core Processor blades (CP8) 4. Port blades 5. ICL connector (ICL 1) 6. ICL connector (ICL 0) 7. ICL cables 8.
1 2 3 4 5 6 7 8 26373a Figure 12 Inter-chassis link (ICL) connections (configuration 2) 1. Chassis 1 2. Core switch blades (CR8) 3. Core Processor blades (CP8) 4. Port blades 5. ICL connector (ICL 1) 6.ICL connector (ICL 0) 7. ICL cables 8.
1 2 3 4 5 6 7 8 26374a Figure 13 Inter-chassis link (ICL) connections (configuration 3) 1. Chassis 1 2. Core switch blades (CR8) 3. Core Processor blades (CP8) 4. Port blades 5. ICL connector (ICL 1) 6.ICL connector (ICL 0) 7. ICL cables 8.
1 2 3 4 5 6 7 8 26375a Figure 14 Inter-chassis link (ICL) connections (configuration 4) 1. Chassis 1 2. Core switch blades (CR8) 3. Core Processor blades (CP8) 4. Port blades 5. ICL connector (ICL 1) 6.ICL connector (ICL 0) 7. ICL cables 8.
3 DC SAN Director log in and configuration This chapter provides the following information: • • • • • • • • • “Configuration overview” on page 51 “Establishing a serial connection and log on to the DC SAN Director” on page 52 “Configuring IP addresses” on page 53 “Establishing an Ethernet connection” on page 54 “Customizing a switch name” on page 55 “Setting the domain ID” on page 55 “Verifying the Port Identifier mode and connecting to the fabric” on page 56 “Enable software licenses” on page 56 “Back up
Establishing a serial connection and log on to the DC SAN Director To establish a serial connection and log on to the DC SAN Director: 1. Verify that the DC SAN Director is powered on and that POST is complete by verifying that all power LED indicators on the port, control processor, and core switch blades display a steady green light. 2. Remove the shipping cap from the SERVICE port on the active CP.
7. Modify passwords (optional step). Passwords can be 8 to 40 characters long. They must begin with an alphabetic character. They can include numeric characters, a period (.), or an underscore (_). Passwords are case-sensitive, and they are not displayed when you enter them on the command line. To skip modifying the password, press Ctrl-C. For more information on passwords, refer to the HP StorageWorks Fabric OS 6.x administrator guide.
4. Set up the CP1 IP address by entering the ipaddrset -cp 1 command: swDir:admin> ipAddrSet -cp 1 Enter the information at the prompts. This is a sample IP configuration: swDir:admin> ipaddrset -sw 0 Ethernet IP Address [0.0.0.0]: 123.123.123.120 Ethernet Subnetmask [0.0.0.0]: 123.123.123.123 Fibre Channel IP Address [0.0.0.0]: Fibre Channel Subnetmask [0.0.0.0]: Issuing gratuitous ARP...Done. Committing configuration...Done. swDir:admin> ipaddrset -cp 0 Host Name [cp0]: Ethernet IP Address [10.77.77.
2. Insert one end of an Ethernet cable into the Ethernet port. 3. Connect the other end to an Ethernet 10/100/1000 Base-T LAN. The DC SAN Director can be accessed by remote connection using any of the management tools, such as Telnet, Web Tools, or Fabric Manager. 4. To complete any additional DC SAN Director configuration procedures through a Telnet session, log in to the DC SAN Director by Telnet, using the admin login. The default password is “password”.
Verifying the Port Identifier mode and connecting to the fabric Before connecting the DC SAN Director to the fabric, verify that the port identifier (PID) mode on the DC SAN Director matches the other switches in the fabric. This parameter must be identical for all switches in the fabric and is set using the configure command. To connect the DC SAN Director to the fabric: 1. Add SFP optical transceivers (or XFP optical transceivers with FC10-6 port card installed) and cables to the fibre channel ports.
Back up the configuration Save all key configuration data for the DC SAN Director, including license key information, and upload it to a host for reference. Routine backups of the configuration are recommended to ensure that the current configuration is available. After zoning configurations and other changes are complete, back up the configuration by typing configUpload at the prompt.
DC SAN Director log in and configuration
4 Monitoring DC SAN Director system components This chapter provides the following information on interpreting LEDs to monitor the following DC SAN Director components: • • • • • • “Monitoring “Monitoring “Monitoring “Monitoring “Monitoring “Monitoring Director blade status” on page 59 Control Processor blade (CP8) status” on page 67 core switch blade (CR8) status” on page 69 power supply status” on page 71 blower assembly status” on page 72 WWN bezel (logo plate) and WWN card status” on page 74 Introduc
Figure 15 FC8-16 Director blade 1. Power LED 2. Status LED 3. FC port 4.
Figure 16 FC8-32 Director blade 1. Power LED 2. Status LED 3. FC port 4.
Figure 17 FC8-48 Director blade 1. Power LED 2. Status LED 3. FC port 4.
Figure 18 FC10-6 Director blade 1. Power LED 2. Status LED 3. FC port 4. Port status LED 1. Power LED 2. Status LED 3. FC port 4.
Figure 19 FR4-18i Director blade 1. Power LED 2. Status LED 3. FC port 4.
Figure 20 FS8-18 encryption blade 1. Power LED 2. Status LED 3. FC port 4.
Table 9 Director blade LED descriptions LED purpose Power LED Status LED Port Status 66 Color Status Recommended action Steady green Blade has been enabled. No action required No light (LED is off) Blade has not been enabled. Ensure blade is firmly seated. No light (LED is off) Blade is either healthy or does not have power. Verify that the power LED is on. Steady amber Blade is faulty. Ensure blade is firmly seated and check status with slotShow command.
LED purpose Color Status Recommended action Fast-flashing amber (on 1/2 second, then off 1/2 second) Transceiver or port is faulty. Change transceiver or reset switch from workstation. Alternating green/amber Port is bypassed Reset port from workstation using the portEnable or portCfgPersistentEnable command. Monitoring Control Processor blade (CP8) status To determine the status of a CP blade: 1. Check the LED indicators on the CP blade (see Figure 21).
1 2 3 4 5 6 7 8 26401a Figure 21 Control Processor blade (CP8) 1. Status LED 2. Power LED 3. USB LED 4. USB port 5. Console port (10101) 6. Ethernet port (MGMT) 7. Ethernet port (SERVICE) 8.
Table 10 describes the CP blade LED patterns and the recommended actions for those patterns. Table 10 CP blade LED descriptions LED purpose Color Status Recommended action Power Steady green CP blade has valid power. No action required No light (LED is off) CP blade does not have incoming power. Ensure blade is firmly seated and has power. No light (LED is off) CP blade is either healthy or does not have power. Verify that the power LED is on.
2 1 LINK ATTN ICL 1 3 4 LINK ATTN ICL 0 LINK ATTN ICL 0 5 26397a Figure 22 Core switch blade (CR8) 1. Status LED 2. Power LED 3. LINK LED 4. ATTN LED 5.
Table 11 describes the core switch blade LED patterns and the recommended actions for those patterns. Table 11 CR blade LED descriptions LED purpose Color Status Recommended action Power Steady green CP blade has valid power. No action required No light (LED is off) CP blade does not have incoming power. Ensure blade is firmly seated and has power. No light (LED is off) CP blade is either healthy or does not have power. Verify that the power LED is on.
2. Type psShow to check power supply status. The power supply status displays OK, Absent, or Faulty. If a power supply is absent or faulty, contact HP to order replacement power supply. 1 26396a Figure 23 Power supply 1. Power LED Table 12 patterns.
2. Check the blower assembly status using the fanShow command. The status for each blower assembly displays OK, Absent, or Faulty. The RPM of each fan in the assembly is also provided. If a blower assembly is absent or faulty, contact HP. 1 2 26382a Figure 24 Blower assembly 1. Power LED 2. Fault LED Table 13 Blower assembly LED descriptions LED purpose Color Status Recommended action Power No light (LED is off) Blower assembly does not have incoming power.
LED purpose Color Status Recommended action Flashing amber (on 1/2 sec, then off 3.5 sec) Fan is disabled. Run fanEnable to enable the fan. Fast-flashing amber (on 1/2 sec, then off 1/2 sec) Environmental range exceeded. Check for out-of-bounds environmental condition, resolve any problems, and reseat unit. If LED continues to flash, replace unit. Monitoring WWN bezel (logo plate) and WWN card status Use the following information to determine the status of the WWN card.
1 2 3 4 26399a Figure 25 WWN bezel (logo plate) 1. CP blade Status (above) and Power (below) LEDs 2. CR blade Status (above) and Power (below) LEDs 3. Port blade Status (above) and Power (below) LEDs 4. Slot numbers Table 15 describes the WWN card LED patterns and the recommended actions for those patterns. Table 15 WWN bezel LED descriptions LED purpose Color Status Recommended action Port blade/CP blade/ CR blade Power Steady green Power is OK.
Monitoring DC SAN Director system components
5 Replacing DC SAN Director field-replaceable units (FRUs) This chapter provides information for replacing the following components: IMPORTANT: The FRUs in the DC SAN Director can be removed and replaced without special tools. The DC SAN Director can continue operating during many of the FRU replacements if the conditions specified in the procedure are followed.
Installing the chassis door To install the chassis door (see Figure 26 on page 78): 1. Align the holes in the door with the pins in the chassis 2. Push the door into place. 26387a Figure 26 Removing or replacing a chassis door Replacing the cable management comb The replacement procedure for the cable management comb takes less than five minutes. You will need a #1 Phillips screwdriver. Removing a cable management comb CAUTION: Wear a grounded ESD strap when handling DC SAN Director components.
To remove the cable management comb: 1. Rearrange the cables around the cable management comb. 2. Unscrew and save the four screws holding the comb to the chassis (see Figure 27). Support the comb to prevent it from falling. 3. Remove the cable management comb. Installing a cable management comb To install a cable management comb (see Figure 27): 1. Position and tighten the four screws to secure the cable management comb to the chassis. 2. Arrange the cables along the cable management comb.
• Phillips screwdriver • Small form-factor pluggable (SFP) or extended form-factor pluggable (XFP, FC10-6 Director blade only) transceivers (as needed) • Optical cables (as needed) WARNING! A filler panel should be removed only when being replaced with a Director blade, or a filler panel. Any slot that is not occupied by a Director blade should be occupied by a filler panel to ensure correct cooling of the chassis and protection from dust.
9. FC8-16, FC8-32, FC8-48 , FS8-18 blades: Adjust the ejectors to the open position. Unscrew the two thumb screws from the top and bottom ejectors on the blade using the Phillips screwdriver. See Figure 28. Unscrew the top thumb screw until it pops out. This initiates a hot-swap request. FC10-6, FR4-18i blades: Turn the blade off by sliding the slider switch in the top ejector down, to the off position. This initiates a hot-swap request. 10.
CAUTION: Wear a grounded ESD strap when handling a Director blade. Use the grounding connections above the power connectors on the chassis. 1. Orient the blade so that the ports are at the front of the chassis and the flat side of the blade is on the left. See Figure 28. 2. FC8-16, FC8-32, FC8-48 , FS8-18 blades: Adjust the ejectors to the open position, align the flat side of the blade inside the upper and lower rail guides in the slot, and slide the blade into the slot until it is firmly seated.
3. Pull the filler panel out of the chassis (see Figure 29). Installing a filler panel To install a filler panel: 1. Orient the filler panel (see Figure 29). 2. Slide the filler panel into the slot until it is firmly seated. 3. Tighten the thumb screw at the bottom of the panel. 4. Replace the chassis door (see “Installing the chassis door” on page 78).
The replacement procedure for the CP blade takes approximately 30 minutes.
4. If the functioning CP blade is performing as the active CP blade, go to step 5. If the faulty CP blade is performing as the active CP blade, failover the blades: a. Login to the faulty CP blade as admin, using either a Telnet or a serial console connection. If you connect successfully to the faulty CP, continue to step 4b. If you cannot connect to the faulty CP, remove the faulty CP blade for repair as follows: b.
7. Logged into the active CP, use the configUpload command to upload the DC SAN Director configuration to a specified FTP server. Enter information at the prompts. This is a sample of backing up the configuration files: swDir:admin> configUpload Protocol (scp or ftp) [ftp]: ftp Server Name or IP Address [host]: 123.456.78.90 User Name [None]: user File Name [config.txt]: config.
7. Open both ejector handles simultaneously to approximately 45 degrees and pull the CP blade out of the chassis (see Figure 30). 26385a Figure 30 Control processor blade (CP8) Installing a control processor blade (CP8) To install a CP blade (slot 6 or 7): CAUTION: Wear a grounded ESD strap when handling a CP8 blade. Use the grounding connections above the power connectors on the chassis. 1. Open the ejector handles to approximately 45 degrees.
7. Verify the installation. See “Verifying operation of the new CP blade” on page 88. 8. Replace the chassis door. See “Installing the chassis door” on page 78. Verifying operation of the new CP blade To verify that boot and POST are complete on the new CP blade and that the CP blade has achieved failover redundancy: 1. Log into the active CP as admin. 2. Enable the redundancy feature using the haEnable command. 3. Verify that HA is enabled using the haShow command.
7. Type firmwareDownload -s to download the firmware to one of the CP blades. Enter all requested information (use default values): swDir:admin> firmwaredownload -s Server Name or IP Address: 192.168.100.1 User Name: user File Name: /software/v6.0.0/release.plist Password: ******** Do Auto-Commit after Reboot [Y]: Reboot system after download [N]: Firmwaredownload has started. 2007/07/03-14:59:21, [SULB-1001], 923,, WARNING, DC Director, Firmwaredownload command has started. Start to install packages......
Replacing a core switch blade (CR8) This section describes how to remove and replace a core switch blade. Each DC SAN Director integrates two core switch blades, which are located in slot 5 and slot 8. The replacement procedure for the core switch blade takes approximately 30 minutes.
2. Power off the blade by sliding the slider switch in the top ejector down to the off position (see Figure 31). 3. Disconnect cables from the faulty core switch blade. 4. Unscrew the thumb screw from both ejectors using the Phillips screwdriver. 5. Open both ejector handles simultaneously to approximately 45 degrees and pull the core switch blade out of the chassis (see Figure 31).
4. Turn the core switch blade on by sliding the ON/OFF switch in the top handle up, to cover the thumb screw. 5. Verify that the power LED is green (this may require a few seconds). If not, ensure that the core switch blade has power and is firmly seated and that the ejectors are in the locked position. 6. Connect to the new core switch blade. 7.
4. Verify that the power LED on the power supply displays a steady green light. 26398a Figure 32 Power supply Replacing a blower assembly IMPORTANT: To ensure continuous adequate cooling, maintain three operating blower assemblies at all times except for the brief period when replacing a blower assembly. The procedure for each blower assembly takes less than 5 minutes.
CAUTION: Wear a grounded ESD strap when handling DC SAN Director components. The Director chassis provides a grounding connection above the power connectors. Also, store ESD-sensitive components in antistatic packaging. 1. Before removing a blower assembly, verify that the other blower assemblies are functioning correctly. The power LEDs should be steady green. 2. Use the screwdriver to loosen the captive screws at the top and bottom of blower assembly. 3. Support the blower assembly from underneath.
3. Use the screwdriver or your fingers to tighten the captive screws. 26383a Figure 33 Blower assembly Replacing the WWN bezel (logo plate) and WWN card The World Wide Name (WWN) cards contain fully redundant circuits and normally do not require replacement. Two WWN cards are located beneath the WWN bezel (logo plate). Allow approximately 20 minutes to replace a WWN card.
To determine the status of a WWN card: 1. Check the LED indicators on the WWN bezel and verify that they reflect the actual status of the components. The WWN bezel covers the WWN cards and allows its LEDs to shine through. The LEDs on the WWN bezel provide a consolidated view of the port, CP, and CR blade status (see Table 16). If a blade slot has a filler panel installed, the corresponding LEDs on the WWN card do not light up.
3. Check the error message indicating the status of the WWN unit (see Table 18). Type the chassisShow command to determine the status of the WWN unit. Table 18 WWN card related system log messages Type of message System message (errshow or errdump) WWN unit removal was detected , [EM-1050], ,, INFO, , FRU WWN # removal detected. WWN unit insertion was detected , [EM-1049], ,, INFO, , FRU WWN # insertion detected.
4. Wait until the WWN card data is backed up. Do not type continue until the mechanical replacement is complete. See “Installing the WWN bezel (logo plate) and WWN card” on page 99. switch:admin> frureplace wwn This is the WWN card hot swap interface. Continuing from this point will require the whole process to be completed. If this process is not complete due to a power cycle, or CP failover, please follow the recovery procedure in Core Switch WWN Card Removal and Replacement document.
26400a Figure 34 WWN bezel (logo plate) and WWN card Installing the WWN bezel (logo plate) and WWN card To install the WWN bezel and WWN card: CAUTION: Wear a grounded ESD strap when handling the WWN card. Use the grounding connections above the power connectors on the chassis. 1. Unpack the new WWN card and save the packaging for the faulty WWN card. 2. Install the WWN card as follows: 3. • To install a WWN card that has handles: Hold the card by the handles and orient with the LEDs at the bottom.
4. Insert and tighten the four screws (see Figure 34). NOTE: If a serial console session is active, several “removal detected” and “insertion detected” messages display on the console because of the replacement. 5. In the CLI session, type continue to indicate that the replacement has been completed.
Figure 35 Optical transceiver (SFP and XFP) extraction tool Replacing the DC SAN Director chassis This section describes how to replace the DC SAN Director chassis (with its backplane). The basic steps are: 1. “Verifying the need for replacing the chassis” on page 102. 2. “Recording critical DC SAN Director and SAN information” on page 102. 3. “Disconnecting from the network and the fabric” on page 106. 4. “Removing components from the chassis” on page 107. 5.
• Pallet jack or hydraulic or assisted lift that raises a minimum of 55 in.
Output from supportshow command Location of spptshow.txt file: Notes regarding supportshow output: Information about the new chassis New Factory Serial Num: New Serial Num (if available): To record critical DC SAN Director and SAN information: 1. Open a Telnet session and log in to the DC SAN Director as admin. The default password is password. Enable the logging function on your Telnet or serial console connection. 2. Back up the current configuration.
3. Record the DC SAN Director values on a workstation. a. Record the WWN value: Type wwn, then copy the command output into a file named config-miscinfo.txt. rsl8-st03-dcx-1:admin> wwn 10:00:00:60:69:00:00:0a b. Record the IP address information. Type ipAddrShow -sw, then copy the command output into the config-miscinfo.txt file. rsl8-st03-dcx-1:admin> ipAddrShow —sw SWITCH Ethernet IP Address: 10.32.50.12 Ethernet Subnetmask: 255.55.0.0 Fibre Channel IP Address: 1.2.3.4 Fibre Channel Subnetmask: 255.
CHASSIS/WWN Unit: 1 Header Version: Power Consume Factor: Factory Part Num: Factory Serial Num: Manufacture: Update: Time Alive: Time Awake: (in same assembly as WWN Unit: 2) 2 -3 60-0001501-07 FT02X805BE2 Day: 26 Month: 3 Year: 2007 Day: 14 Month: 3 Year: 2009 207 days 3 days
e. Type supportShow, then copy the command output into a text file named spptshow.txt. NOTE: The supportShow command has a very long output and time for completion. It may last 20 minutes or longer depending on the size of the SAN. This file provides a backup of all the information that might be required by Technical Support. The information can be used after the DC SAN Director is restored to the fabric, to verify that no unintentional changes have occurred to the fabric.
7. Disconnect any inter-chassis link (ICL) cables. Removing components from the chassis CAUTION: Wear a grounded ESD strap when handling DC SAN Director components and port blades. The chassis provides a grounding connection above the power connectors. Also, store ESD-sensitive components in antistatic packaging. Use the following procedures to remove components from the chassis. 1. Remove the cable management comb (see “Removing a cable management comb” on page 78). 2.
5. Use a lift to raise the chassis to the correct level. If installing the chassis in a cabinet, follow the instructions provided by the rack kit manufacturer. Installing components into the new chassis Install the field replaceable units (FRUs) in the chassis. CAUTION: Wear a grounded ESD strap when handling DC SAN Director components and port blades. The chassis provides a grounding connection above the power connectors. Also, store ESD-sensitive components in antistatic packaging. 1.
1. Open a CLI session (Telnet or serial) to the DC SAN Director and log in as root: The root and factory account disclaimer is displayed. • Log in using Telnet. Use the IP address of the DC SAN Director through Telnet and log in as root.
1. Log in to the DC SAN Director as admin: rsl8-st03-dcx-1:admin> login login: admin password: xxxxxxxx rsl8-st03-dcx-1:admin> 2. Type slotShow command and verify that all the installed cards are detected and that their status is operational (enabled).
3. Verify that the DC SAN Director is functioning correctly by typing switchShow or switchStatusShow. This switchShow command displays DC SAN Director and port status information. rsl8-st03-dcx-1:admin> switchshow switchName: rsl8-st03-dcx-1 switchType: 62.
Reconnecting to the network and the fabric See the cable routing information that was recorded in Table 20 on page 114 for the following steps: 1. Connect the CP blades to the local area network: a. Insert the appropriate Ethernet cables into each Ethernet port. b. Connect the other ends to an Ethernet 10/100 Base-T LAN, if not already connected. WARNING! The DC SAN Director can be accessed by remote connection using any of the available management tools, such as Telnet or Web Tools.
1. Create an “after” SAN profile by entering the following commands and copying the output to a text file named SANafter.
Cable routing table Table 20 is a 48-port template for a cable-routing table. Expand the table for the number of ports in the DC SAN Director.
Slot/port Slot Cable labels Port Switch end Connected device Slot/port of device Device end 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 HP StorageWorks DC and DC04 SAN Backbone Director Switches 115
Replacing DC SAN Director field-replaceable units (FRUs)
6 HP StorageWorks DC04 SAN Backbone Director Switch Overview This chapter provides information about the following topics: • • • • • • • • • • • • “HP StorageWorks DC04 SAN Director Switch” on page 117 “Features” on page 117 “Hardware components” on page 118 “DC04 Director blades” on page 122 “High availability” on page 123 “Reliability” on page 123 “Serviceability” on page 124 “Software features” on page 124 “Security” on page 125 “Network manageability” on page 125 “Optional software licenses” on page 12
• Data cryptographic (encryption/decryption) and data compression capabilities through the FS818 encryption blade. • Redundant and hot-swappable CP8 and CR8 blades, power supplies, blower assemblies, and WWN cards enable a high availability platform for mission critical SAN applications. • Inter-chassis linking (ICL) through CR8 blades. • Universal ports self-configure as E_ports, F_ports, FL_ports, Ex_ports, and M_ports (mirror ports). NOTE: 10-Gb/s (FC10-6) are E-Ports only.
NOTE: If the FS8-18 encryption blade is used, 220 VAC is required. • Modular hot-swappable field replaceable units (FRUs): • Two blower assemblies • Two 100 to 240 VAC power supplies • At 240 VAC, two power supplies are required to provide redundancy, although the DC04 SAN Director can be fully powered with a single power supply at 240 VAC.
Figure 36 Port side of the DC04 SAN Director (sample configuration) 1. FC8-48 port blade 2. Core switch blade (CR4S-8) 3. Control Processor blade (CP8) 4.
Non-port side of the DC04 SAN Director Figure 38 displays a sample configuration of the non-port side view of the DC04 SAN Director without the port side exhaust kit installed. Figure 38 Non-port side of the DC04 SAN Director (sample configuration) 1. WWN bezel (logo plate) 2. Power supply 3.
DC04 SAN Director blades Table 21 describes the Director, CP, and core switch blades that are available for the DC04 SAN Director. Table 21 Blades available for the DC04 SAN Director Description Name Function CP8 The CP8 blade manages all other blades in the DC04 SAN Director. There are two CP8 blades for redundancy. This CP blade is also compatible with the DC SAN Director. DC04 SAN Director core switch blade CR4S-8 The CR4S-8 blade contains the ASICs for switching between Director blades.
Description Name Function B-Series MP Router Blade (Fibre Channel router blade) FR4-18i The FR4-18i blade integrates 16 physical FC SFP ports supporting FCR Services and two physical Gigabit Ethernet (GbE) SFP ports supporting Fibre Channel Over IP (FCIP). The two physical GbE ports can support up to 16 virtual E_ports. This Director blade is compatible with the 4/256 SAN Director, the DC SAN Director, and the DC04 SAN Director.
• • • • • Dual CP Blades that enable hot, non-disruptive fast firmware upgrades Each CP Blade containing one serial port and two Ethernet ports, for management and for service. Standby CP Blade to monitor diagnostics to ensure it is operational, in case a failover is required.
Security Table 22 highlights some of the key security features available for the DC04 SAN Director running Fabric OS 6.2.0a or later, and for other HP enterprise-class platforms running Fabric OS 5.2.0 or later. For details, contact HP.
The DC04 SAN Director supports SNMPv1 and SNPMv3. When SNMP devices send SNMP messages to a management console running SAN management software, the information is stored in a Management Information Base (MIB). Fabric OS 6.x supports the latest Fibre Alliance Fibre Channel Management (FCMGMT) and Storage Management Initiative (SMI) MIBs. These MIBs provide the SAN administrator with information for monitoring the network. Refer to the Fabric OS MIB ReferenceGuide.
Optional hardware kits Table 24 lists the DC04 SAN Director optional hardware kits.
Accessory Part number HP 30 m Multi-mode OM2 LC/SC Fibre Channel Cable 221691-B26 HP 50 m Multi-mode OM2 LC/SC Fibre Channel Cable 221691-B27 128 HP StorageWorks DC04 SAN Backbone Director Switch Overview
7 DC04 SAN Director Installation This chapter provides the following information: • • • • • • • • “Time and items required for installation” on page 129 “Site preparation, unpacking the DC04 Director” on page 130 “Items included with the DC Director” on page 132 “Installing the DC04 Director in a rack” on page 132 “Powering on the DC04 Director” on page 142 “Port numbering” on page 143 “Managing cables” on page 143 “Using the optional HP StorageWorks DC SAN Backbone Director Inter-Chassis Link (ICL) cable
Installation task Time estimate Items required Installing power cables and powering on the DC04 SAN Director 20 minutes Power cables and serial cable (provided in the DC04 SAN Director accessory kit) Installing SFPs 30 minutes SFP optical transceivers Attaching fiber optic cables, cable ties, and cable guides 60 minutes Fiber optic cables and cable ties Establishing serial connection, logging on to DC04 SAN Director, and configuring IP addresses 20 minutes Serial cable (provided in the DC04 SA
4.
Items included with the DC04 SAN Director Table 26 lists the items included with the standard shipment of the DC04 SAN Director.
• Flathead screwdriver • Hydraulic or assisted lift with a minimum raise of 140 cm (55 in.) and a minimum capacity of 113 kg (250 lbs). Rack mount kit contents Table 27 and Figure 39 identify the hardware provided in the 4U rack mount kit that ships with the DC04 SAN Director. Table 27 Rack mount kit contents Item Description Quantity A Top rail 1 B Duct 1 C Shelf 1 D 10-32 x 1.27 cm (0.5 in.) Phillips screw (blue Loctite on threads) 12 E 10-32 x 1.60 cm (0.63 in.
Figure 39 Rack mount kit hardware Torque requirements Use the torque settings listed in Table 28 when tightening screws that secure the rack mount kit and DC04 SAN Director to the equipment cabinet. Table 28 Torque requirements Screw size Torque 6-32 x .635 cm (0.25 in. ) Phillips screw 10 cm-kg (8.75 in.-lbs) 10-32 x 1.60 cm 0(.63 in.) Phillips screw 36.86 cm-kg (32 in.
Installing the cabinet hardware 1. Position the DC04 SAN Director in the equipment cabinet so that the non-port side has access to cool intake air.
2. Install the mounting nuts in the cabinet rail locations shown in Figure 40. These nuts secure the 10-32 screws that mount the port-side exhaust kit shelf and DC04 SAN Director to the cabinet. • For rails with round holes—Install the clip nuts (F in Figure 39). • For rails with square holes—Install the retainer nuts (G in Figure 39). The location shown Figure 40 is an example. The shelf and DC04 SAN Director can be installed anywhere in the cabinet that has 9U of space higher available.
3. Install the shelf. a. You can adjust the shelf to a length of 68.58 to 78.74 cm (27 to 31 inches) to accommodate the cabinet size. To lengthen or shorten the shelf, loosen the four 6-32 screws in the four slots on the shelf (I-4 through I-7 in Figure 39, page 134) and adjust the shelf to the desired length. Once adjusted, tighten the four 6-32 screws. b. Secure the shelf to the cabinet with eight 10-32 screws with washers (E in Figure 39, page 134), two screws in each corner of the shelf.
5. Secure the top-rail assembly (A in Figure 39, page 134) to the air-duct assembly. (See Figure 43). a. You can adjust the top-rail assembly to a length of 68.58 to 78.74 cm (27 to 31 inches) to accommodate the cabinet size. To lengthen or shorten the top-rail assembly, loosen the two 6-32 screws (I-3 in Figure 39, page 134) and adjust the top-rail assembly to the desired length. The length will be approximately the length of the adjustable shelf. Once adjusted, tighten the two 6-32 screws. b.
NOTE: The screws, clip nuts, and retainer nuts used to secure the DC04 SAN Director to the cabinet are provided in the DC04 SAN Director hardware accessory kit. To install the DC04 SAN Director in the cabinet: 1. Remove the chassis door from the DC04 SAN Director. See Removing the chassis door, page 175. 2. Use a lift to raise the chassis to the correct level. Position the lift as close as possible to the rack. 3. If applicable, lock the wheels on the lift. 4.
7. Install the cable management finger assembly. See Installing a cable management finger assembly, page 177. Installing the DC04 SAN Director shipping brackets This section describes how to install the DC04 SAN Director shipping brackets. (See Figure 45). These brackets are required when the DC04 SAN Director is shipped installed in a cabinet. 1. Before installing the DC04 SAN Director in the cabinet, remove the 10 flathead 6-32 screws located on both the left and right side chassis panels.
Figure 45 DC04 SAN Director shipping brackets (left side) Figure 46 Installing the shipping brackets on the DC04 SAN Director HP StorageWorks DC and DC04 SAN Backbone Director Switches 141
Figure 47 Installing the DC04 SAN Director with shipping brackets Powering on the DC04 SAN Director CAUTION: Use the power cords supplied. Ensure that the facility power receptacle is the correct type, supplies the required voltage, and is properly grounded. To power on the DC04 SAN Director: 1. Connect the AC power cords to the power supply assemblies. One to four power cords are required, depending on electrical service. 2.
3. Turn the AC power switches on the power supplies to ON (I). The AC power switches light green when switched on and power is supplied. 4. The DC04 SAN Director performs a Power-on Self-Test (POST) each time it is powered on. POST takes approximately 10 minutes and is complete when the indicator light activity indicates the operational state. For information about LED patterns, see Table 30 on page 164. You can bypass POST by using the fastBoot command.
• Leave at least 1 m (3.28 ft) of slack for each port cable. This provides room to remove and replace the switch. • If ISL Trunking is used, group the cables by trunking group. The ports are color-coded to indicate which ports can be used in the same ISL Trunking group: eight ports marked with solid black ovals alternate with eight ports marked with oval outlines. • For easier maintenance, label the fiber optic cables and record the devices to which they are connected.
2. Similarly, connect the cables from the right (bottom) connectors (ICL 0) of the CR4S-8 blades in the first chassis to the left (top) connectors (ICL 1) of the CR4S-8 blades in the second chassis. IMPORTANT: The cables can cross between the slot 3 CR4S-8 blade on the first chassis and the slot 6 CR4S-8 blade on the second chassis as long as the left-to-right (top-to-bottom) rule is followed. Figure 49 ICL connectors on CR4S-8 blade 1. Status LED 2. Power LED 3. LINK LED 4. ATTN LED 5.
Figure 50 DC04 SAN Director ICL cabling 1. Chassis 1 5. ICL connector (ICL1) 2. Core Switch blades (CR4S-8) 6. ICL connector (ICL 0) 3. Control Processor blades (CP8) 7. ICL cables 4. Port blades 8.
Figure 51 DC04 SAN Director to DC SAN Director ICL cabling 1. DC04 SAN Director chassis 5. ICL connector (ICL1) 2. Core Switch blades (CR4S-8) 6. ICL connector (ICL 0) 3. Control Processor blades (CP8) 7. ICL cables 4. Port blades 8.
DC04 SAN Director Installation
8 DC04 SAN Director log in and configuration This chapter provides the following information: • • • • • • • • • • “Configuration overview” on page 149 “Establishing a serial connection and logging on to the DC04 Director” on page 150 “Configuring IP addresses” on page 151 “Establishing an Ethernet connection” on page 152 “Customizing a switch name” on page 153 “Setting the domain ID” on page 153 Setting the date and time “Verifying the Port Identifier mode and connecting to the fabric” on page 155 “Enablin
Establishing a serial connection and logging on to the DC04 SAN Director To establish a serial connection and log on to the DC04 SAN Director: 1. Verify that the DC04 SAN Director is powered on and that POST is complete by verifying that all power LED indicators on the port, control processor, and core switch blades display a steady green light. 2. Remove the shipping cap from the CONSOLE port on the active CP.
7. (Optional) Modify passwords. Passwords can be 8 to 40 characters long. They must begin with an alphabetic character. They can include numeric characters, a period (.), or an underscore (_). Passwords are case-sensitive, and they are not displayed when you enter them on the command line. Make sure to write down the new passwords and keep this information in a secure location. To skip modifying the password, press Ctrl-C. For more information on passwords, refer to the HP StorageWorks Fabric OS 6.2.
4. Set up the CP1 IP address by entering the ipaddrset -cp 1 command: swDir:admin> ipAddrSet -cp 1 Enter the configuration information at the prompts. This is a sample IP configuration: swDir:admin> ipaddrset -sw 0 Ethernet IP Address [0.0.0.0]: 123.123.123.120 Ethernet Subnetmask [0.0.0.0]: 123.123.123.123 Fibre Channel IP Address [0.0.0.0]: Fibre Channel Subnetmask [0.0.0.0]: Issuing gratuitous ARP...Done. Committing configuration...Done.
To establish an Ethernet connection to the DC04 SAN Director: 1. Remove the shipping cap from the Ethernet port on the active CP blade. 2. Insert one end of an Ethernet cable into the Ethernet port. 3. Connect the other end to an Ethernet 10/100/1000 Base-T LAN. The DC04 SAN Director can be accessed by remote connection using any of the management tools, such as Telnet, Web Tools, or Fabric Manager. 4.
Setting the date and time The date and time settings are used for logging events. Switch operation does not depend on the date and time; a switch with an incorrect date and time value still functions properly. However, because the date and time are used for logging, error detection, and troubleshooting, they should be set correctly. Setting the date To set the date: 1. If necessary, log on to the DC04 SAN Director by Telnet, using the admin account. 2.
Synchronizing local time To synchronize the local time of the principal or primary switch with that of an external NTP server, follow these steps. 1. If necessary, log on to the DC04 SAN Director by Telnet, using the admin account. 2. Enter the tsClockServer command as follows: switch:admin> tsClockServer “” where ntp1 is the IP address or DNS name of the first NTP server, which the switch must be able to access. The variable ntp2 is the second NTP server and is optional.
5. Organize the cables (see “Managing cables” on page 143). 6. Verify DC04 SAN Director and port status using the switchShow command. 7. Verify fabric connectivity using the fabricShow command. Enabling software licenses Depending on the model purchased, certain licenses are factory installed on the DC04 SAN Director. To determine which licenses are enabled, use the licenseShow command.
9 Monitoring DC04 SAN Director system components This chapter provides the following information on interpreting LEDs to monitor the following DC04 SAN Director components: • • • • • • “Monitoring “Monitoring “Monitoring “Monitoring “Monitoring “Monitoring Director blade status” on page 157 Control Processor blade (CP8) status” on page 165 core switch blade (CR4S-8) status” on page 167 power supply status” on page 169 blower assembly status” on page 170 WWN bezel (logo plate) and WWN card status” on page
Figure 52 FC8-16 Director blade 1. Power LED 2. Status LED 3. FC port 4.
Figure 53 FC8-32 Director blade 1. Power LED 2. Status LED 3. FC port 4.
Figure 54 FC8-48 Director blade 1. Power LED 2. Status LED 3. FC port 4.
Figure 55 FC10-6 Director blade 1. Power LED 2. Status LED 3. FC port 4.
Figure 56 FR4-18i router blade 1. Power LED 2. Status LED 3. FC port 4.
Figure 57 FS8-18 encryption blade 1. Power LED 2. Status LED 3. FC port 4.
Table 30 Director and application blade LED descriptions LED purpose Power LED Status LED Port Status 164 Color Status Recommended action Steady green Blade has been enabled. No action required No light (LED is off) Blade has not been enabled. Ensure blade is firmly seated. No light (LED is off) Blade is either healthy or does not have power. Verify that the power LED is on. Steady amber Blade is faulty. Ensure blade is firmly seated and check status with slotShow command.
LED purpose Color Status Recommended action Fast-flashing amber (on 1/2 second, then off 1/2 second) Transceiver or port is faulty. Change transceiver or reset switch from workstation. Alternating green/amber Port is bypassed Reset port from workstation using the portEnable or portCfgPersistentEnable command. Monitoring Control Processor blade (CP8) status To determine the status of a CP8 blade: 1. Check the LED indicators on the CP blade (see Figure 58).
Figure 58 Control Processor blade (CP8) 1. Status LED 2. Power LED 3. USB LED 4. USB port 5. Console port (10101) 6. Ethernet port (MGMT) 7. Ethernet port (SERVICE) 8. Active CP LED Table 31 describes the CP blade LED patterns and the recommended actions for those patterns.
Table 31 CP8 blade LED descriptions LED purpose Color Status Recommended action Power Steady green CP blade has valid power. No action required No light (LED is off) CP blade does not have incoming power. Ensure blade is firmly seated and has power. No light (LED is off) CP blade is either healthy or does not have power. Verify that the power LED is on. Steady amber CP blade is faulty or the switch is still booting. Ensure blade is firmly seated and switch has completed booting.
Figure 59 Core switch blade (CR4S-8) 1. Status LED 2. Power LED 3. LINK LED 4. ATTN LED 5.
Table 32 describes the core switch blade LED patterns and the recommended actions for those patterns. Table 32 CR4S-8 blade LED descriptions LED purpose Color Status Recommended action Power Steady green CP blade has valid power. No action required No light (LED is off) CP blade does not have incoming power. Ensure blade is firmly seated and has power. No light (LED is off) CP blade is either healthy or does not have power. Verify that the power LED is on.
2. Type psShow to check power supply status. The power supply status displays OK, Absent, or Faulty. If a power supply is absent or faulty, contact HP to order replacement power supply. Figure 60 Power supply 1. Power LED Table 33 patterns.
2. Check the blower assembly status using the fanShow command. The status for each blower assembly displays OK, Absent, or Faulty. The RPM of each fan in the assembly is also provided. If a blower assembly is absent or faulty, contact HP. Figure 61 Blower assembly 1. Power LED 2. Fault LED Table 34 Blower assembly LED descriptions LED purpose Color Status Recommended action Power No light (LED is off) Blower assembly does not have incoming power.
LED purpose Color Status Recommended action Flashing amber (on 1/2 sec, then off 3.5 sec) Fan is disabled. Run fanEnable to enable the fan. Fast-flashing amber (on 1/2 sec, then off 1/2 sec) Environmental range exceeded. Check for out-of-bounds environmental condition, resolve any problems, and reseat unit. If LED continues to flash, replace unit. Monitoring WWN bezel (logo plate) and WWN card status Use the following information to determine the status of the WWN card.
Figure 62 WWN bezel (logo plate) HP StorageWorks DC and DC04 SAN Backbone Director Switches 173
Monitoring DC04 SAN Director system components
10 Replacing DC04 SAN Director field-replaceable units (FRUs) This chapter provides information for replacing the following components: IMPORTANT: The FRUs in the DC04 SAN Director can be removed and replaced without special tools. The DC04 SAN Director can continue operating during many of the FRU replacements if the conditions specified in the procedure are followed.
Installing the chassis door To install the chassis door (see Figure 63 on page 176): 1. Align the holes in the door with the pins in the chassis 2. Push the door into place. Figure 63 Removing or replacing a chassis door Replacing the vertical cable management assembly The DC04 SAN Director is equipped with two vertical cable management finger assemblies. It can continue to operate during the replacement of the cable management fingers.
2. Unscrew and save the three screws holding the finger assembly to the rack upright (see Figure 64). Support the assembly to prevent it from falling. 3. Remove the cable management finger assembly. 4. If necessary, repeat step 1 through step 3 for the other finger assembly. Installing a cable management finger assembly To install a cable management finger assembly (see Figure 64): 1. Position and tighten the three screws to secure the vertical cable management finger assembly to the rack upright.
WARNING! A filler panel should be removed only when being replaced with a Director blade, or a filler panel. Any slot that is not occupied by a Director blade should be occupied by a filler panel to ensure correct cooling of the chassis and protection from dust. Removing a blade CAUTION: Wear a grounded ESD strap when handling a DC04 SAN Director blade. Use the grounding connections above the power connectors on the chassis. 1. Remove the chassis door. See “Removing the chassis door” on page 175. 2.
11. FC8-16, FC8-32, FC8-48 , FS8-18 blades: Open the ejectors. Pull the blade out of the chassis using the ejectors. FC10-6 and FR4-18i blades: Unscrew the two thumb screws from the top and bottom ejectors on the blade using the Phillips screwdriver. Open both ejectors simultaneously to approximately 45 degrees and pull the blade out of the chassis. 12. If the blade is not being replaced by another blade, install a filler panel.
2. FC8-16, FC8-32, FC8-48 , FS8-18 blades: Adjust the ejectors to the open position, align the flat side of the blade inside the left and right rail guides in the slot, and slide the blade into the slot until it is firmly seated. See Figure 65. FC10-6 and FR4-18i blades: Open the ejectors to approximately 45 degrees, align the flat side of the port blade inside the left and right rail guides in the slot, and slide the blade into the slot until it is firmly seated. 3.
2. Slide the filler panel into the slot until it is firmly seated. 3. Tighten the thumb screw at the bottom of the panel. 4. Replace the chassis door (see “Installing the chassis door” on page 176). Figure 66 DC04 SAN Director blade filler panel Replacing a control processor blade (CP8) This section describes how to remove and replace a control processor (CP8) blade. Each DC04 SAN Director has two CP8 blades, which are located in slot 4 and slot 5.
• Replacement DC04 SAN Director CP blade (CP8) How to determine whether or not to replace a CP blade The following events might indicate that a CP blade is faulty: • The status LED on the CP blade is amber, or the power LED is not lit. • The CP blade does not respond to Telnet commands, or the serial console is not available. • The slotShow command does not show that the CP blade is enabled. • The haShow command indicates an error.
4. If the functioning CP blade is performing as the active CP blade, go to step 5. If the faulty CP blade is performing as the active CP blade, failover the blades: a. Login to the faulty CP blade as admin, using either a Telnet or a serial console connection. If you connect successfully to the faulty CP, continue to step 4b. If you cannot connect to the faulty CP, remove the faulty CP blade for repair as follows: b.
7. Logged into the active CP, use the configUpload command to upload the DC04 SAN Director configuration to a specified FTP server. Enter information at the prompts. This is a sample of backing up the configuration files: swDir:admin> configUpload Protocol (scp or ftp) [ftp]: ftp Server Name or IP Address [host]: 123.456.78.90 User Name [None]: user File Name [config.txt]: config.
7. Open both ejector handles simultaneously to approximately 45 degrees and pull the CP blade out of the chassis (see Figure 67). Figure 67 Control processor blade (CP8) Installing a control processor blade (CP8) To install a CP blade (slot 4 or 5): CAUTION: Wear a grounded ESD strap when handling a CP8 blade. Use the grounding connections above the power connectors on the chassis. 1. Open the ejector handles to approximately 45 degrees.
7. Verify the installation. See “Verifying operation of the new CP blade” on page 186. 8. Replace the chassis door. See “Installing the chassis door” on page 176. Verifying operation of the new CP blade To verify that boot and POST are complete on the new CP blade and that the CP blade has achieved failover redundancy: 1. Log into the active CP as admin. 2. Enable the redundancy feature using the haEnable command. 3. Verify that HA is enabled using the haShow command.
7. Type firmwareDownload -s to download the firmware to one of the CP blades. Enter all requested information (use default values): swDir:admin> firmwaredownload -s Server Name or IP Address: 192.168.100.1 User Name: user File Name: /software/v6.2.0/release.plist Password: ******** Do Auto-Commit after Reboot [Y]: Reboot system after download [N]: Firmwaredownload has started. 2007/07/03-14:59:21, [SULB-1001], 923,, WARNING, DC Director, Firmwaredownload command has started. Start to install packages......
The replacement procedure for the core switch blade takes approximately 30 minutes. The following items are required for the core switch blade replacement: • ESD grounding strap • Phillips #2 screwdriver • Replacement DC04 SAN Director core switch blade (CR4S-8) How to determine whether or not to replace a core switch blade The following events might indicate that a core switch blade is faulty: • The status LED on the core switch blade is lit amber, or the power LED is not lit.
Figure 68 Core switch blade (CR4S-8) Installing a core switch blade To install a CR blade (slot 3 or 6): CAUTION: Wear a grounded ESD strap when handling a CR4S-8 blade. Use the grounding connections above the power connectors on the chassis. 1. Open the ejector handles to approximately 45 degrees, and then orient the CR blade so that the handles are toward you and the flat metal side is on the bottom. 2.
8. Replace the chassis door. See “Installing the chassis door” on page 176. Replacing a power supply The DC04 SAN Director can continue operating during the replacement if at least one power supply continues operating. The replacement procedure for each power supply takes less than five minutes. A power supply unit or filler panel is required for the power supply replacement. Figure 69 shows the location and identification of the power supplies. Figure 69 Power supply identification 1.
2. Insert the power supply into the slot and push the handle up. Verify that the power supply is seated by gently pulling on the handle (see Figure 70). 3. Tighten the thumb screw. 4. Replace the power cord. 5. Turn on the power switch. 6. Verify that the power LED on the power supply displays a steady green light. Figure 70 Power supply Replacing a blower assembly IMPORTANT: The DC04 SAN Director can continue operating during the replacement if the second blower assembly is operating.
Removing a blower assembly To remove a blower assembly: CAUTION: Wear a grounded ESD strap when handling DC04 SAN Director components. The Director chassis provides a grounding connection above the power connectors. Also, store ESD-sensitive components in antistatic packaging. 1. Before removing a blower assembly, verify that the other blower assembly is functioning correctly. The power LEDs should be steady green. 2.
Figure 71 Blower assembly Replacing the WWN bezel (logo plate) and WWN card The World Wide Name (WWN) cards contain fully redundant circuits and normally do not require replacement. Two WWN cards are located beneath the WWN bezel (logo plate). Allow approximately 20 minutes to replace a WWN card.
1. Check the LED indicators on the WWN bezel and verify that they reflect the actual status of the components. The WWN bezel covers the WWN cards and allows its LEDs to shine through. The LEDs on the WWN bezel provide a consolidated view of the port, CP, and CR blade status (see Table 36). If a blade slot has a filler panel installed, the corresponding LEDs on the WWN card do not light up.
3. Check the error message indicating the status of the WWN unit (see Table 38). Type the chassisShow command to determine the status of the WWN unit. Table 38 WWN card related system log messages Type of message System message (errshow or errdump) WWN unit removal was detected , [EM-1050], ,, INFO, , FRU WWN # removal detected. WWN unit insertion was detected , [EM-1049], ,, INFO, , FRU WWN # insertion detected.
5. Wait until the WWN card data is backed up. Do not type continue until the mechanical replacement is complete. See “Installing the WWN bezel (logo plate) and WWN card” on page 197. switch:admin> frureplace wwn This is the WWN card hot swap interface. Continuing from this point will require the whole process to be completed. If this process is not complete due to a power cycle, or CP failover, please follow the recovery procedure in Core Switch WWN Card Removal and Replacement document.
Figure 72 WWN bezel (logo plate) and WWN card Installing the WWN bezel (logo plate) and WWN card To install the WWN bezel and WWN card: CAUTION: Wear a grounded ESD strap when handling the WWN card. Use the grounding connections above the power connectors on the chassis. 1. Unpack the new WWN card and save the packaging for the faulty WWN card. 2. Hold the card by the pull tab and insert the WWN cable onto the WWN module until it is fully seated.
3. In the CLI session, type continue after the prompt to indicate that the replacement has been completed. Please enter the word `continue' after the new WWN card has been installed: continue Restoring the information to the replacement FRU now, please wait about 20 seconds to complete Verifying the replacement FRU now... WWN card hot swap is now complete. FRU replacement completed successfully! 4.
Figure 73 Optical transceiver (SFP and XFP) extraction tool Replacing the DC04 SAN Director chassis This section describes how to remove and replace the DC04 SAN Director chassis (with its backplane). The basic steps are: 1. Verifying the need for replacing the chassis. 2. Recording critical DC04 Director and SAN information. 3. Disconnecting from the network and the fabric. 4. Removing components from the chassis. 5. Instaling the replacement chassis. 6.
• Pallet jack or hydraulic or assisted lift that raises a minimum of 55 in.
Output from supportshow command Location of spptshow.txt file: Notes regarding supportshow output: Information about the new chassis New Factory Serial Num: New Serial Num (if available): To record critical DC04 SAN Director and SAN information: 1. Open a Telnet session and log in to the DC04 SAN Director as admin. The default password is password. Enable the logging function on your Telnet or serial console connection. 2. Back up the current configuration.
3. Record the DC04 SAN Director values on a workstation. a. Record the WWN value: Type wwn, then copy the command output into a file named config-miscinfo.txt. rsl8-st03-dcx-1:admin> wwn 10:00:00:60:69:00:00:0a b. Record the IP address information. Type ipAddrShow -sw, then copy the command output into the config-miscinfo.txt file. rsl8-st03-dcx-1:admin> ipAddrShow —sw SWITCH Ethernet IP Address: 10.32.50.12 Ethernet Subnetmask: 255.55.0.0 Fibre Channel IP Address: 1.2.3.4 Fibre Channel Subnetmask: 255.
CHASSIS/WWN Unit: 1 Header Version: Power Consume Factor: Factory Part Num: Factory Serial Num: Manufacture: Update: Time Alive: Time Awake: (in same assembly as WWN Unit: 2) 2 -3 60-0001501-07 FT02X805BE2 Day: 26 Month: 3 Year: 2007 Day: 14 Month: 3 Year: 2009 207 days 3 days
e. Type supportShow, then copy the command output into a text file named spptshow.txt. NOTE: The supportShow command has a very long output and time for completion. It may last 20 minutes or longer depending on the size of the SAN. This file provides a backup of all the information that might be required by Technical Support. The information can be used after the DC04 SAN Director is restored to the fabric, to verify that no unintentional changes have occurred to the fabric.
7. Disconnect all cables from the CP8 and CR4S-8 blades. 8. Disconnect any inter-chassis link (ICL) cables. Removing components from the chassis CAUTION: Wear a grounded ESD strap when handling DC04 SAN Director components and port blades. The Director chassis provides a grounding connection above the power connectors. Also, store ESD-sensitive components in antistatic packaging. Use the following procedures to remove components from the chassis. 1.
4. Use a pallet jack or other assisted lift to transport the new chassis to the installation area. Doorways must be wider than 91 cm (36 in) to accommodate the chassis on the pallet. 5. Use a lift to raise the chassis to the correct level. If installing the chassis in a cabinet, follow the instructions provided by the rack kit manufacturer. Installing components into the new chassis Install the field replaceable units (FRUs) in the chassis.
1. Open a CLI session (Telnet or serial) to the DC04 SAN Director and log in as root: The root and factory account disclaimer is displayed. • Log in using Telnet. Use the IP address of the DC04 SAN Director through Telnet and log in as root.
1. Log in to the DC04 SAN Director as admin: rsl8-st03-dcx-1:admin> login login: admin password: xxxxxxxx rsl8-st03-dcx-1:admin> 2. Type slotShow command and verify that all the installed cards are detected and that their status is operational (enabled).
4. Verify that all the IP address information is correct by typing ipaddrshow and checking the results against the IP information recorded in the config-miscinfo.txt file. rsl8-st03-dcx-1:admin> ipaddrshow SWITCH Ethernet IP Address: 10.32.50.12 Ethernet Subnetmask: 255.55.0.0 Fibre Channel IP Address: 1.2.3.4 Fibre Channel Subnetmask: 255.255.255.0 CP0 Ethernet IP Address: 10.32.50.10 Ethernet Subnetmask: 255.55.0.0 HostName : cp0 Gateway Address: 10.32.40.1 CP1 Ethernet IP Address: 10.32.50.
2. Reconnect the transceivers and cables to the port blades: NOTE: The ports and cables used in trunking groups must meet specific requirements. For a list of these requirements, refer to the HP StorageWorks Fabric OS 6.2.x administrator guide. a. Position one of the transceivers so that the key is oriented correctly to the port and insert the transceiver into the port until it is firmly seated and the latching mechanism clicks. b.
Verifying that the configuration of the fabric is correct Copying the command outputs from this section into a file is recommended. To verify correct configuration of the fabric: 1. Create an “after” SAN profile by entering the following commands and copying the output to a text file named SANafter.
3. Resolve any issues or unintentional changes to the DC04 SAN Director or fabric. • If there are any mechanical problems, try reseating the associated component. • If the configuration information is not correct for the DC04 SAN Director, modify as required. If necessary, the configuration saved before the replacement can be downloaded using the configDownload command.
Slot/port Slot Cable labels Port Switch end Connected device Slot/port of device Device end 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 HP StorageWorks DC and DC04 SAN Backbone Director Switches 213
Slot/port Slot Cable labels Port Switch end Connected device Device end 41 42 43 44 45 46 47 48 214 Replacing DC04 SAN Director field-replaceable units (FRUs) Slot/port of device
A Technical specifications This appendix provides information for both the DC SAN Director and the DC04 SAN Director. Differences in specifications between the products is indicated.
Specification Description Routing capacity A minimum aggregate routing capacity of four million frames per second (for Class 2, Class 3, and Class F frames in a 64-port switch) System architecture Table 42 DC SAN Director system architecture Fibre Channel Ports Up to 384 ports, universal (E_Port, F_Port, FL_port, Ex_port, and M_port) Control Processor Redundant (active/standby) control processor modules Scalability Full fabric architecture: 239 switches maximum Performance 1.
Port types The FC8-16 and FC8-32 supports these port types: FL_Port, F_Port, E_Port, and M_Port FC8-48 supports these port types: E_Port, F_Port, and M_Port FC10-6 supports this port type: E_Port FR4-18i supports these port types: FL_Port, F_Port, E_Ports, M_Port, VE_Port, EX_Port, and VEX_Port FS8-18 supports these port types: FL_Port, F_Port, E_Port, EX_Port, and M_Port NOTE: Self-discovery is based on switch type (U_Port) with an optional port type control.
Table 43 DC04 SAN Director system architecture Fibre Channel Ports Up to 192 ports, universal (E_Port, F_Port, FL_port, Ex_port, and M_port) Control Processor Redundant (active/standby) control processor modules Scalability Full fabric architecture: 239 switches maximum Performance 1.063 Gb/s line speed, full duplex 2.125 Gb/s line speed, full duplex 4.25 Gb/s line speed, full duplex 8.50 Gb/s line speed, full duplex 10.
Media types Hot-pluggable, industry-standard small form factor pluggable (SFP) or extended form factor pluggable (XFP, FC10-6 only), LC connector; - short-wave laser (SWL), up to 500 m (1,640 ft.); - long-wave laser (LWL), up to 10 km (6.2 mi); - extended long-wave laser (ELWL), up to 80 km (49.
System Size and weight DC04 SAN Director: 192-port configuration with four FC8-48 port blades 68 kg (150 lb.) Empty chassis: 25.76 kg (56.8 lb.) • No blades • No CP blade • No core switch blade • No power supplies • No fan assemblies System blade and FRU weights Table 46 System FRU weights FRU Weight CP blade (CP8) 3.0 kg (6.6 lb.) CR blade (CR8, CR4S-8) 3.27 kg (7.2 lb.) FC8-16 port blade 3.0 kg (6.6 lb.) without media FC8-32 port blade 3.27 kg (7.2 lb.) without media FC8-48 port blade 3.
• Adequate supply circuit, line fusing, and wire size, as specified by the electrical rating on the chassis nameplate • An air flow of at least 350 cubic feet per minute (595 cubic meters per hour) in the immediate vicinity of the DC SAN Director or DC04 SAN Director • The power specifications listed in Table 47 and Table 48. • The environmental specifications listed in Table 50 and Table 51.
DC04 SAN Director The power subsystem is a redundant +48V DC power distribution system with a provision for up to two 2000-watt, 48V DC bulk power supplies. Two bulk power supplies produce the intermediate distribution voltage in the distributed power system. The power specifications in Table 20 are calculated for fully loaded systems with two power supplies, four FC8-48 port blades, two CP8 blades, two CR4S-8 blades, and two blower assemblies.
CAUTION: Never use the power cord supplied with your DC SAN Director or DC04 SAN Director for other products. Table 49 Power cords Country Plug style NEMA L6-20 USA, Canada, Mexico, other North American locations CEE-7/7 “Schuko” Continental Europe/Ireland BS-1363A United Kingdom/ Hong Kong AS 3112 Australia/New Zealand IEC-60309 32A-6h, 230 V~ Argentina X Australia X Austria X Bahrain X Belgium X Brazil X Chile X China, People's Rep. X Czech, Rep.
Country Plug style NEMA L6-20 USA, Canada, Mexico, other North American locations India CEE-7/7 “Schuko” Continental Europe/Ireland BS-1363A United Kingdom/ Hong Kong AS 3112 Australia/New Zealand IEC-60309 32A-6h, 230 V~ X Indonesia X Ireland, North X Ireland, South X Israel X Italy X Japan X Korea, South X Malaysia Mexico Alternate Recommended X Monaco X Netherlands X New Zealand X Norway X Poland X Portugal Puerto Rico Russia X X X Saudi Arabia X Scotland X Singa
Country Plug style NEMA L6-20 USA, Canada, Mexico, other North American locations CEE-7/7 “Schuko” Continental Europe/Ireland BS-1363A United Kingdom/ Hong Kong AS 3112 Australia/New Zealand IEC-60309 32A-6h, 230 V~ Sweden X Switzerland X Taiwan X Turkey X United Arab Emirate X United Kingdom / Ireland X United States X Venezuela X Yugoslavia X X Power cords (Japan, Denan) HP StorageWorks DC and DC04 SAN Backbone Director Switches 225
Environmental requirements Table 50 lists the environmental operating ranges for the DC SAN Director. Table 51 lists the environmental operating ranges for the DC04 SAN Director. The requirements for non-operating conditions are also provided for acceptable storage and transportation environments.
NOTE: The 10° to 40° Celsius range applies to the ambient air temperature at the air intake vents on the non-port side of the DC SAN Director or DC04 SAN Director. The temperature inside the product chassis can be up to 75° Celsius during operation. If the internal temperature range exceeds the operating ranges of the components, the LEDs, error messages, and Fabric Watch alerts will indicate a problem. Use the tempShow command or Fabric Watch commands to view temperature status.
Data transmission ranges Table 52 provides the data transmission ranges for different cable types and port speeds. Table 52 Supported cable speeds and distances Cable type Speed Minimum distance Maximum distance Single Mode 2 Gb/s 2m 10,000 m 4 Gb/s 2m 10,000 m 8 Gb/s 2m 1, 000 m 2 Gb/s 0.5 m 300 m (OM2)500 m (OM3) 4 Gb/s 0.5 m 150 m (OM2)380 m (OM3) 8 Gb/s 0.5 m 50 m (OM2)150 m (OM3) 2 Gb/s 0.5 m 150 m 4 Gb/s 0.5 m 70 m 8 Gb/s 0.
B Intelligent blades This appendix provides information for the following blades: • “B-Series MP Router blade (FR4-18i) overview” on page 229 • HP DC Switch Encryption FC blade (FS8-18) overview B-Series MP Router blade (FR4-18i) overview NOTE: The B-Series MP Router blade (FR4-18i) is used in the DC SAN Director and the DC04 SAN Director.
Optional items Purchase the following items separately: • Sixteen SFP transceivers • Two SFP transceivers for the GbE ports Installing and configuring the FR4-18i blade To configure the FR4-18i, complete the following tasks: 1. “Installing the FR4-18i blade into the Director” on page 230 2. “Configuring FCIP and Fibre Channel Routing Services and enable the ports” on page 232 3. “Cabling the FR4-18i blade” on page 232 4.
4 scale: 5/16" = 1" 5 7 56-0000590-01 Rev A ! 15 14 56-0000590-01 Rev A 13 1 ! 12 15 2 11 scale: 15/32" = 1" 10 14 9 13 8 3 12 6 3 7 2 6 5 1 8 4 0 scale: 15/32" = 1" 12 3 2 GE1 1 9 0 GE0 13 GE1 GE0 scale: 5/16" = 1" FR4 18i 10 11 FR4 18i 25198a Figure 74 B-Series MP Router blade (FR4-18i) components 1. Blade power LED 2. Blade status LED 3. FC port 4. Upper ejector. 5. Thumb screw 6. FC port status LED 7. ON/OFF slider switch 8. FC port 9.
Configuring FCIP and Fibre Channel Routing Services and enable the ports The ports on the FR4-18i blade are initially set to persistently disabled. If you want to enable the FC ports as a standard E_Port or F_port use the portcfgpersistentenable command to enable the ports. If you are using the FC ports as EX_Ports you must configure the Fibre Channel Routing Services feature prior to enabling the ports. The GbE ports can only be used once you have configured FCIP and enabled the VE_Ports.
5. Verify the correct operation of the FR4-18i blade ports by typing the switchShow command from the Director command prompt. This command provides information about switch and port status. Once the FR4-18i blade is installed and fully configured in a Director, the switchShow command displays 32 Fibre Channel ports (port numbers 0 through 31) and two GbE ports.
Optional items Purchase the following items separately: • Sixteen SFP transceivers NOTE: See Table 5 for transceiver part numbers. Installing and configuring the FS8-18 blade To configure the FS8-18, complete the following tasks: 1. “Installing the FS8-18 blade” on page 234 2. “Configuring the FS8-18 blade” on page 234 3. “Cabling the FS8-18 blade” on page 234 4.
1. Install the SFP transceivers in the Fibre Channel and GbE ports, as required. a. Remove the rubber plugs from the ports to be used. b. Position a transceiver so that it is oriented correctly and insert it into a port until it is firmly seated and the latching mechanism clicks. For instructions specific to the type of transceiver, see the transceiver manufacturer's documentation. NOTE: The transceivers are keyed to ensure correct orientation.
Intelligent blades
C Regulatory compliance and safety notices This appendix provides the following information: • • • • “Regulatory compliance notices” on page 237 “International notices and statements” on page 239 “Environmental regulation compliance” on page 241 “Safety guidelines” on page 243 Regulatory compliance notices Federal Communications Commission notice for Class A equipment 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.
Laser device All HP systems equipped with a laser device comply with safety standards, including International Electrotechnical Commission (IEC) 825. With specific regard to the laser, the equipment complies with laser product performance standards set by government agencies as a Class 1 laser product. The product does not emit hazardous light. Laser safety warning WARNING! To reduce the risk of exposure to hazardous radiation: • Do not try to open the laser device enclosure.
Laser product label The optional label in Figure 75 or equivalent may be located on the surface of the HP supplied laser device. This label indicates that the product is classified as a CLASS 1 LASER PRODUCT. This label may appear on the laser device installed in your product.
Japanese notice Korean notices Korean Notice 240 Regulatory compliance and safety notices
Environmental regulation compliance This section describes the China ROHS environmental regulatory compliance requirements for the HP StorageWorks DC SAN Backbone Director Switch and the HP StorageWorks DC04 SAN Backbone Director Switch. China RoHS The contents included in this section are per the requirements of the People's Republic of ChinaManagement Methods for Controlling Pollution by Electronic Information products.
Name of the Component Hazardous/Toxic Substance/Elements Lead (PB) Mercury (Hg) Cadmium (Cd) Hexavalent Chromium (CR6+) Polybrominated Biphenyl (PBB) Polybrominated Diphenyl Ether (PBDE) Fan, Blower assemblies X O O O O O PCBA cards X O O O O O Power Supply kit X O O O O O SFPs (optical cable connectors) X O O O O O Sheet Metal X O O O O O Chassis Assembly X O O O O O Mechanical brackets and Slides X O O O O O Slot Filler X O O O O O Cable manag
Safety guidelines The following sections summarize ways to maintain a safe operating environment for the Director. Electrostatic discharge recommendations To prevent damaging the system, be aware of the precautions you need to follow when setting up the system or handling parts.
damage system boards or other static-sensitive devices. This type of damage may reduce the life expectancy of the device. To prevent electrostatic damage, observe the following precautions: • • • • • Avoid hand contact by transporting and storing products in static-safe containers. Keep electrostatic-sensitive parts in their containers until they arrive at static-free workstations. Place parts on a grounded surface before removing them from their containers. Avoid touching pins, leads, or circuitry.
Batteries, battery packs, and accumulators should not be disposed of together with the general household waste. To forward them to recycling or proper disposal, please use the public collection system or return them to HP, an authorized HP Partner, or their agents. For more information about battery replacement or proper disposal, contact an HP authorized reseller or service provider.
Regulatory compliance and safety notices
D Port numbering templates Print or copy the templates on the following pages and use them to document the port numbering pattern for the DC SAN Director or DC04 SAN Director.
Figure 76 Port side populated with eight FC8-48 port blades, two CR8 blades, and two CP8 blades 248 Port numbering templates
26389a Figure 77 Port side populated with eight FC8-32 port blades, two CR8 blades, and two CP8 blades HP StorageWorks DC and DC04 SAN Backbone Director Switches 249
26388a Figure 78 Port side populated with eight FC8-16 port blades, two CR8 blades, and two CP8 blades 250 Port numbering templates
Figure 79 FC10-6 port blades HP StorageWorks DC and DC04 SAN Backbone Director Switches 251
Figure 80 FR4-18i router blade 252 Port numbering templates
Figure 81 FS8-18 encryption blades HP StorageWorks DC and DC04 SAN Backbone Director Switches 253
HP StorageWorks DC04 SAN Backbone Director Switch templates The following port templates are provided for the DC04 SAN Director: • • • • • • Port side populated with four FC8-48 port blades, two CR4S-8 blades, and two CP8 blades Port side populated with four FC8-32 port blades, two CR4S-8 blades, and two CP8 blades Port side populated with four FC8-16 port blades, two CR4S-8 blades, and two CP8 blades FC10-6 port blade FR4-18i router blade FS8-18 encryption blades The individual blades are shown verticall
Figure 82 Port side populated with four FC8-48 port blades, two CR4S-8 blades, and two CP8 blades HP StorageWorks DC and DC04 SAN Backbone Director Switches 255
Figure 83 Port side populated with four FC8-32 port blades, two CR4S-8 blades, and two CP8 blades 256 Port numbering templates
Figure 84 Port side populated with four FC8-16 port blades, two CR4S-8 blades, and two CP8 blades HP StorageWorks DC and DC04 SAN Backbone Director Switches 257
Figure 85 FC10-6 port blades 258 Port numbering templates
Figure 86 FR4-18i router blades HP StorageWorks DC and DC04 SAN Backbone Director Switches 259
Figure 87 FS8-18 encryption blades 260 Port numbering templates
Index A accumulators, 245 audience, 15 Avis Canadien, regulatory compliance notice, 239 B back up configuration, DC, 57 back up configuration, DC04, 156 batteries recycling or disposal, 245 replacement notice, 244 Taiwan EPA recycling and disposal, 245 bezel, WWN, DC replacing, 95 bezel, WWN, DC04 replacing, 193 blade FR4-18i, 229 FS8-18, 233 blade, DC CP, status, 67 CR, status, 69 blade, DC04 CP, status, 165 CR4S-8, status, 167 blade, DC CP, LEDs, 69 CR, LEDs, 71 Director, replacing, 79 port, status, 59 b
CP blade, DC replacing, 83 status, 67 CP blade, DC04 replacing, 181 status, 165 CR blade, DC replacing, 90 status, 69 CR4S-8 blade, DC04 replacing, 187 status, 167 current rating, 245 customer self repair, 17 customizing switch name, DC , 55 customizing switch name, DC04 , 153 D data transmission, ranges, 228 DC SAN Director port numbering templates, 247 blades available for, 24 environmental requirements, 226 features, 19 hardware components, 20 high availability features, 25 installation tasks, 31 IP add
F fabric, connecting DC to, 56 fabric, connecting DC04 to, 155 facility requirements, 220 FCC (Federal Communications Commission) modifications, 237 features, DC, 19 features, DC04, 117 Fibre Channel port specifications, 227 Routing Services, 229 field-replaceable units, DC See FRUs, DC, 20 field-replaceable units, DC04 See FRUs, DC04, 118 filler panel, DC04 replacing, 180 filler panel, DC replacing, 82 FR4-18i blade, 229 FRUs blades, weights, 220 FRUs, DC CP blade LEDs, 69 CR blade LEDs, 71 FRUs, DC04 cabl
help obtaining, 17 HP series number, 237 technical support, 17 I ICL kit, DC, 45 ICL kit, DC04, 144 IEC EMC, worldwide regulatory compliance notice, 239 installation tasks, DC, 31 installation tasks, DC04, 129 Inter-Chassis Link cable kit, DC, 45 Inter-Chassis Link cable kit, DC04, 144 IP address, configuring for DC, 53 IP address, configuring for DC04, 151 J Japan regulatory compliance notice, 240 K Korean, regulatory compliance notice, 240 L label, laser, 239 laser international certification and clas
regulatory compliance information number, 237 notices Canada, 239 European Union, 239 HP series number, 237 Japan, 240 Korean, 240 modifications, 237 related documentation, 15 reliability features, DC, 25 reliability features, DC04, 123 removal and replacement procedures, DC, 77 removal and replacement procedures, DC04, 175 replacing a power cord, 245 requirements, facility, 220 RFI/EMI connector hoods, 237 router blade, 229 T S voltage compliance rating, 245 safety guidelines, 243 security features, DC
