ATCA-S201 Installation and Use 6806800H62B July 2009
009 Emerson All rights reserved. Trademarks Emerson, Business-Critical Continuity, Emerson Network Power and the Emerson Network Power logo are trademarks and service marks of Emerson Electric Co. © 2009 Emerson Electric Co. All other product or service names are the property of their respective owners. Intel® is a trademark or registered trademark of Intel Corporation or its subsidiaries in the United States and other countries.
Contents PREFACE ................................................................................................................................................I SAFETY SUMMARY ........................................................................................................................................... I FLAMMABILITY ............................................................................................................................................... II EMI CAUTION.....................
2.10.1 To Verify the Hardware Installation ...................................................................................... 19 3 NEW SYSTEM CONFIGURATION................................................................................................. 20 3.1 RS232 CONSOLE PORT ................................................................................................................. 21 3.1.1 System boot overview ....................................................................................
4.6.13 Network (Subnet) mask ........................................................................................................ 43 4.6.14 Broadcast.............................................................................................................................. 44 4.6.15 Gateway................................................................................................................................ 44 4.6.16 MTU size....................................................................
ISCSI CONFIGURATION MENU ......................................................................................................... 80 7.1 7.1.1 Add or create an iSCSI target ................................................................................................ 80 7.1.2 Add or create an iSCSI LUN.................................................................................................... 81 7.1.3 Remove an individual iSCSI LUN .................................................................
11.3.1 External SAS Connector....................................................................................................... 119 11.3.2 Ethernet Management Port (RJ-45)..................................................................................... 119 11.3.3 Serial Console Port (RJ-45) .................................................................................................. 120 11.4 LEDS ..................................................................................................
List of Figures Figure 1, ATCA-S201 functional block diagram.......................................................................................... 9 Figure 3 ATCA-S201 Diagram Showing Identification Label Location .................................................... 13 Figure 4 Injector / Ejector latch and locking screw ................................................................................... 17 Figure 5 Management communications port location diagram (Typical).................................
List of Tables Table 1 Conventions used in this manual.................................................................................................... iv Table 2 LED functional description ............................................................................................................ 12 Table 3 ATCA-S201 Identification Labels.................................................................................................. 12 Table 4 Max ATCA-S201 module Current requirements.................
Table 51 Connector J33, PCIe and Miscellaneous RTM Pin Assignments ............................................. 114 Table 52 Connector J33, PCIe and Miscellaneous RTM Signal Descriptions ......................................... 115 Table 53 J30, RTM Power Pin Header Assignment.................................................................................. 116 Table 54 Connector J30, RTM Power Pin Signal Descriptions................................................................
Preface Safety Summary The following general safety precautions must be observed during all phases of operation, service, and repair of this equipment. Failure to comply with these precautions or with specific warnings elsewhere in this manual could result in personal injury or damage to the equipment. The safety precautions listed below represent warnings of certain dangers of which Emerson is aware.
Preface Flammability All Emerson PWBs (printed wiring boards) are manufactured with a flammability rating of 94V-0 by UL-recognized manufacturers. EMI Caution This equipment generates, uses, and can radiate electromagnetic energy. It may cause or be susceptible to electromagnetic interference (EMI) if not installed and used with adequate EMI protection.
Preface edited, translated, or otherwise altered without the permission of Emerson Networks, Inc.
About This Manual This manual supports the following configurations and model numbers.
courier ENTER CTRL System output (for example, screen displays and reports), examples, and system prompts. The carriage return or Enter key. The Control key. Execute control characters by pressing the CTRL key and the letter simultaneously, for example, Ctrl+D.
Hardware Preparation and Installation Unpacking Instructions If the shipping carton is damaged upon receipt, request that the carrier’s agent be present during the unpacking and inspection of the equipment. Unpack the equipment from the shipping carton. Refer to the packing list and verify that all items are present. Save the packing material for storing and reshipping of equipment. Avoid touching areas of integrated circuitry. Static discharge can damage circuits.
ATCA-S201 Overview 1 ATCA-S201 Overview The Emerson ATCA-S201 is an ATCA carrier blade that supplies multi-protocol IP storage services to the chassis Zone-2 backplane using Ethernet connections. The ATCA-S201 virtualizes capacity of AMC SAS/SATA disks and creates multiple logical volumes which are mapped as iSCSI, NFS or SMB targets. Using access control lists, ATCA server blades are given authorization to connect with virtualized volumes via 10 GbE fabric or 1GbE base connections.
ATCA‐S201 Overview 1.2 I/O PICMG standards compliance The ATCA-S201 10Gb RAID Storage-IP Carrier ATCA is fully compliant with the following PCI Industrial Computer Manufacturers Group (PICMG) specifications: PICMG 3.0 Advanced Telecommunications Computing Architecture (ATCA) PICMG 3.1 Ethernet for ATCA Systems AMC.0 Advance Mezzanine Card Base Specification AMC.1 PCI Express and Advanced Switching AMC.3 AMC Storage IPMI v1.
ATCA‐S201 Overview Figure 1, ATCA-S201 functional block diagram 1.3.1 AMC card connections The four AMC slots have identical features, and each accommodates a half width, mid height module. The ATCA-S201 accepts AMC cards conforming to either PCI express signaling (AMC.1) or Storage signaling options (AMC.3).
ATCA‐S201 Overview 1.3.5.1 12V and 3.3V supply voltage 1GbE management RS232 management Ethernet Management port An Ethernet management port is routed to the Zone 3 connector. An advanced RTM with an RJ-45 connector is needed to access this port. The port auto negotiates to either 10/100/1000BASE-T. 1.3.5.2 Serial Console Port An RS232 serial management port is routed to the Zone 3 connector. An advanced RTM with an RJ-45 connector is needed to access this port.
ATCA‐S201 Overview 1.4 LEDs Several LEDs are located on the panel of the ATCA-S201 Advanced TCA Carrier.
ATCA‐S201 Overview Table 2 LED functional description LED Description Off: Normal, default state Blue-Blinking: Preparing for hot swap Blue-ON: ready for hot-swap removal Green-ON: Blade Optimal Amber: Blade is resetting Green: Blade is optimal Off: Normal, default state Yellow-Blinking: firmware update in progress Red-ON: Out of service (PPC/IPMC) ATCA Hot Swap LED ATCA Blade OK LED ATCA Boot (Health) status ATCA Out of service (OOS) 1.
ATCA‐S201 Overview Label 4: Part Numbers This label contains 2 numbers: (example: Top = Internal Part Number 0106826G01A Bottom = Orderable Part Number ATCA-S120) Figure 3 ATCA-S201 Diagram Showing Identification Label Location 6806800H62B ATCA‐S201 Installation and Use Guide 13
2 ATCA-S201 Installation This chapter contains the procedures for installing and removing the ATCA-S201 10GbE RAID storage services blade. 2.1 Installation and removal of the ATCA carrier blade The ATCA-S201 10GbE RAID storage services blade can be installed into an ATCA shelf (chassis) with a midplane made for front and rear board installations. 2.2 Important information about your chassis The Chassis backplane often designates certain slots as hub slots and the others as general purpose node slots.
ATCA‐S201 Installation 2.4 Before you install or Remove the ATCA carrier blade Boards may be damaged if improperly installed or handled. Please read and follow the guidelines in this section to protect your equipment. 2.4.1 Observe ESD Precautions Emerson strongly recommends that you use an antistatic wrist strap and a conductive foam pad when installing or upgrading a system.
ATCA‐S201 Installation the chassis or board faceplates must be filled with an appropriate card or covered with a filler panel. If the EMI barrier is open, devices may cause or be susceptible to excessive interference. 2.5.2 Understand Hot Swap The ATCA module is electrically designed for hot swap within a fully powered chassis. To facilitate hot swap, there is a blue LED on the front faceplate. This LED is under software control of the IPMC managers.
ATCA‐S201 Installation 2. Go to the front of the system and choose an appropriate slot for the ATCA carrier blade. If also installing a companion advanced rear transition module (RTM), install it before installing the ATCA node board. For example, if the ATCA node board is planned for slot B4, first install the ARTM at the back of the system in slot B4. 3. Remove the slot filler panel from the selected node board slot, if necessary. 4.
ATCA‐S201 Installation 9. 2.9 Power on the system, if necessary. Refer to your system manual for instructions on correctly powering on the system. Once power is applied to the chassis, the internal MMC controller runs a self-test that runs for approximately 10 seconds. Upon a successful power up self-test, the blue hot swap LED will blink and then turn off, indicating that the module has been placed in operation.
ATCA‐S201 Installation 2.10.1 To Verify the Hardware Installation 1. After power is applied to the system, wait approximately 45 seconds for firmware to initialize the board. 2. Inspect the LEDs on the front of the ATCA panel. When properly installed and powered, the LEDs will illuminate as follows: ATCA Hot Swap LED Off: Normal, default state ATCA Health status Green-blinking: Healthy, OK ATCA Out of service (OOS) Off: Normal, default state 3. (Optional).
3 New System configuration Configuration Step: 1 2 3 4 5 6 RS232 Console Setup Ethernet Comm. Setup RAID LUN Setup Logical Volume Setup iSCSI Device Setup NFS / SMB Share Setup This chapter describes how to establish management communications with the ATCA-S201 for purposes including initial configuration, administration and monitoring the storage services. A typical ATCA deployment will consist of an ATCA chassis, ATCA carrier blades, Advanced RTM and shelf management controllers (ShMC).
RTM-ATCA-SXXX Overview 3.1 RS232 Console port This port is implemented on an RJ45 connector located on the ARTM that supplies RS232 console port access. As the ATCA-S201 boots, its progress can be monitored on the console. By default, this port is set for VT100 terminal emulation as listed in the table below.
RTM-ATCA-SXXX Overview Power-On (Soft Reset) Jumper 1: All FW Code retrieved from “Customer” Flash Jumper 1: All FW Code retrieved from “Factory” Flash Fetch “u-boot.
RTM-ATCA-SXXX Overview 3.1.3 Linux serial console shell window If the boot is not interrupted and has completed, the RS232 port accepts administrator login for Linux shell access, and access to command line configuration tools. After successful login, the user may run any of the command line configuration tools presented in section 3.4.5. 3.2 Default blade login accounts and passwords The ATCA-S201 includes two built-in user accounts for maintenance and management activities.
RTM-ATCA-SXXX Overview the clear password procedure is explained in section 9.4.3 of this manual. When invoked, the user is prompted to set a new one at first login. Note: The recovery procedure affects the “root” user only; No other user account passwords are cleared. 3.3 Factory reset Users can reset the blade to restore factory default settings. This procedure will erase all existing blade configurations (network settings, volumes, shares etc).
RTM-ATCA-SXXX Overview Note: If no DHCP server is present, the ATCA-S201 will deactivate this port. The serial console must be then used to manually assign an IP address. This manual initialization procedure is described in section 3.6 of this manual. 3.4.3 Management Configuration via HTML browser Once the IP address of the Ethernet port is known, an administrator may use a web browser to connect to the ATCA-S201 to perform and monitoring or configuration tasks.
RTM-ATCA-SXXX Overview 3.5 Command line configuration tool This tool is available from either the RS232 console or a linux secure shell connection. After successful login, the user may run an executable file “atca_blade” located in the /web/cgi-bin directory. The tool provides the user with a simple menu interface, to perform interactive parameter modifications. A sample session is shown below. #ssh 192.168.1.xxx -l root root@192.168.1.xxx's password: root Last login: Tue Nov 20 17:34:30 2007 from 192.
RTM-ATCA-SXXX Overview Date=[12/19/2007]: Time=[17:25:07]: TimeZone=[US/Eastern]: NTPServer[0]=[209.132.176.4]: NTPServer[1]=[64.22.86.210]: NTPServer[2]=[]: NTPServer[3]=[]: NTPServer[4]=[]: Use Network Time Protocol(NTP)=[y]: ------------------------- eth0 Network Configuration -----------------enable0=[0]: ipaddr0=[dhcp]: netmask0=[0.0.0.0]: broadcast0=[0.0.0.0]: gateway0=[0.0.0.0]: nameserver0=[0.0.0.
RTM-ATCA-SXXX Overview At this point the user may inspect the list. If the user wishes to modify any of the listed values, enter ‘y’ at the above prompt. The configuration utility will then display each parameter, one at a time. The user may accept the default input by pressing the ENTER key, or enter a replacement value. In the example below, the user will change the Hostname for the blade.
RTM-ATCA-SXXX Overview responses that are applied to the tool in a macro fashion. A script allows the user to modify one or several parameters in one step. SYNOPSIS atca_blade menu_page_index [+ ] index_skip+ [+] new_value DESCRIPTION atca_blade may be called via shell script or batch file to make “un- manned” changes to parameter values used to configure ATCA-S201 IP and RAID service behaviors. OPTIONS menu_page_index: designates the menu subgroup to be modified.
RTM-ATCA-SXXX Overview 3.6.1 U-boot console tool The ATCA-S201 employs a staged boot process that begins with U-boot. U-boot is an open source boot loader program that is the first code executed at system reset. As the boot execution commences, its progress may be monitored via the RS232 console port of the Advanced RTM. U-boot supplies several initialization parameters to the Linux kernel that administrators may elect to modify.
RTM-ATCA-SXXX Overview U-boot command syntax description and lost if the system is re-booted. ping Sends an icmp echo address to the designated IP address (entered in dotted decimal format) reset Perform soft reset of the ATCA cpu, forcing a system reboot. run Run a sequence of commands defined in the environment , for example: uboot=> run flashboot Displays the version and build date of the U-boot image running on ATCA blade. version 3.6.
RTM-ATCA-SXXX Overview Variable name bootfile loadaddr Default value Uimage 1000000 consoledev bootargs Ramdiskaddr ttyS1 root=/dev/ram rw ramdisk_size=200000 console=ttyS1,9600 2000000 ramdisksize initrd_high 2000000 0xfffffff othbootargs ramdiskfile rootfs.ext2.gz.uboot eth0addr eth1addr eth2addr 00:11:0D:xx:xx:xx 00:11:0D:xx:xx:xx 00:11:0D:xx:xx:xx eth3addr eth4addr sasaddr 00:11:0D:xx:xx:xx 00:11:0D:xx:xx:xx 50:00:00:11:OD:xx:xx:xx ipaddr 0.0.0.
RTM-ATCA-SXXX Overview To manually establish IP port address, a typical new system configuration might consist of the following commands: uboot=> uboot=> uboot=> uboot=> setenv setenv setenv setenv ipaddr 192.168.1.211 gatewayip 192.168.10.1 netmask 255.255.255.0 ethprime eTSEC2 Once all of the environment variables have been modified they persist only if permanently recorded in the flash device.
RTM-ATCA-SXXX Overview 4 Network configuration Configuration Step: 1 2 3 4 5 6 RS232 Console Setup Ethernet Comm. Setup RAID LUN Setup Logical Volume Setup iSCSI Device Setup NFS / SMB Share Setup This chapter explains how to configure the IP ports for external host access.
RTM-ATCA-SXXX Overview 4.1 Enable HTML browser access The web browser configuration tool may be enabled or disabled for security reasons. CLI command syntax Table 10 CLI command syntax, enable/disable GUI access Convention atca_blade set_gui + < enable> 0|1 Value 0 disables the GUI, value 1 enables the GUI. 4.2 HTML Security certificates (https:// ) The user may perform HTML configuration with any browser that supports https . Direct your browser to the any active IP port on the ATCA-S201.
RTM-ATCA-SXXX Overview 4.3.1 Auto logout inactivity period The system will automatically terminate (logout) a remote user after 10 minutes of in-activity. Optionally, the user can create this file to set an alternate inactivity threshold value (expressed in seconds): # echo 60 >/etc/max_inactivity Note: In absence of this file, the value is set to 600 seconds. 4.3.1.
RTM-ATCA-SXXX Overview Username: admin Log Of f Figure 8 HTML tool, startup screen 4.5 Essential System Configuration Steps Once connected to html configuration page, it is essential that the user navigate to both the Network and Shelf configuration pages.
RTM-ATCA-SXXX Overview ‐ + + + + + + + + ‐ Emerson ATCA-S201 iSCSI nfs smb Shares LVM2 MD RAID Hardware RAID Physical Disks Maintenance Network Shelf I/O Status CPU Status ATCA Status StorBlade99 ATCA-S201 Network Configuration Submit All Network Changes Add New VLAN Submit VLAN Index eth0 0 System Identification and TimeZone ˇ Interface HostName DomainName Date Time TimeZone Nameservers NTP Server List Use NTP Active Settings StorBlade99 domain.
RTM-ATCA-SXXX Overview System Identification and TimeZone HostName DomainName Date Time TimeZone Nameservers NTP Server List Use NTP Active Settings StorBlade99 domain.com 4/6/2009 08:51:59 New_York 0.0.0.0 tick.usask.ca tock.usask.ca y New Settings StorBlade99 domain.com 4/6/2009 08:51:59 New_Yorǩ 0.0.0.0 tick.usask.ca NTP 4.6.1 Hostname The user may assign a human friendly name to the ATCA-S201 instance.
RTM-ATCA-SXXX Overview CLI command syntax Table 14 CLI command syntax, set network property: system date atca_blade set_network Y 2+ + Convention Date format MM/DD/YYYY, (month,day,year) 4.6.4 Time The user may manually adjust the system time, if NTP is NOT enabled. Date must be entered as hours/minutes/seconds. (e.g. 14:51:59 to indicate 2:51 PM and 59 seconds).
RTM-ATCA-SXXX Overview Table 17 Time Zone Selections World Zone Menu item GMT GMT Zulu London Paris Athens Moscow GMT+1 GMT+2 GMT+3 GMT+4 GMT+5 GMT+6 GMT+7 GMT+8 GMT+9 GMT+10 Taipei Tokyo Sydney Daylight savings WET -Western European CET — Central European EET — Eastern European BT - Baghdad CCT — China Coast JST — Japan Standard GST — Guam Standard GMT+11 GMT+12 4.6.
RTM-ATCA-SXXX Overview CLI command syntax Table 19 CLI command syntax, set network property: assign NTP server atca_blade set_network Y 10+ … [server5]+ Convention: Enter one to five NTP servers, specified as Dotted decimal or domain addresses … (time.nist.gov) 4.6.8 Network time protocol - NTP (On/Off) Users may enable NTP protocol service to synchronize the ATCAS201’s clocks with a known good reference time source. 4.6.
RTM-ATCA-SXXX Overview CLI command syntax Table 21 CLI command syntax, set network property: Ethernet port configuration Convention: atca_blade set_network Y + Use portcode 16+ to modify eth0 Use portcode 24+ to modify eth1 Use portcode 32+ to modify eth2 Use portcode 40+ to modify eth3 Use portcode 48+ to modify eth4 Use portcode 52+ to modify VLAN 0|1 Value 0 disables the port, value 1 enables the port.
RTM-ATCA-SXXX Overview 4.6.14 Broadcast < Read/Write > The user may manually assign the broadcast address for a port, if DHCP is NOT enabled. The broadcast address must be entered using dotted decimal notation. (e.g. 192.168.1.255) 4.6.15 Gateway The user may manually assign the default gateway for a port, if DHCP is NOT enabled. The default gateway must be entered using dotted decimal notation. (e.g. 192.168.1.1) 4.6.
RTM-ATCA-SXXX Overview 4.7 VLAN Virtual Local Area Network support Users may configure assign any of the Ethernet ports available on the ATCA-S201 to a Virtual Local Area Networking (Virtual LAN, IEEE 802.1q). The webtool provides a entry for to define new VLAN. Users choose a physical interface from the drop down menu (etho, eth1..eth4) and assign a VLAN index. Click the submit button to apply the settings.
RTM-ATCA-SXXX Overview Convention: Other prompts atca_blade set_network Y Use VLANindex 52+ to modify 1st VLAN definition Use VLANindex 60+ to modify 2nd VLAN definition Use VLANindex 68+ to modify 3rd VLAN definition Increment index by 8 for each additional VLAN definition 0|1 Value 0 disables the port, value 1 enables the port. Other prompts will follow.
RTM-ATCA-SXXX Overview 4.8 Link aggregation and bonding The ATCA-S201 supports 802.3ad link aggregation also known as “bonding”. Bonding allows you to aggregate multiple Ethernet ports into a single group, effectively combining the bandwidth into a single connection. For example, you can aggregate the ATCA base channel ports (1 Gb/s each) into a trunk group, providing 2Gb/s cumulative bandwidth, fault tolerance and load balancing.
RTM-ATCA-SXXX Overview 4.8.1 Bonding, CLI command syntax The Linux community has created an extensive man page for ifenslave. The subset of essential elements is summarized below. Create new bond Step1: ifconfig eth0 down; ifconfig eth1 down Step2: Deactivate the Ethernet “slave” ports that will become bond members modprobe bonding mode=0 miimon=100 This loads the bonding module, sets the usage policy mode and sets polling frequency to 100mS.
RTM-ATCA-SXXX Overview 4.9 Shelf communications Use these menus to initialize a communication path with the chassis shelf manager, and properly monitor ATCA-S201 hardware.
RTM-ATCA-SXXX Overview Table 22 Shelf configuration menu parameters Status item Description Shelf Address Primary/Secondary Address Active Settings New Settings Current IP address of chassis shelf manager This field is used to assign a new IP address for the chassis shelf manager. User must hit “submit” to update the value.
RTM-ATCA-SXXX Overview Table 23 Blade, I/O Status indication Status item Description Current I/Os / sec Bar graphs provided for each disk Read Write Total Displays the number of real-time read I/O per second (read IOPS). Displays the number of real-time write I/O per second (write IOPS). Displays the cumulative number of real-time I/O activity (read and write).
RTM-ATCA-SXXX Overview 4.11.1 Rescan SAS Topology, disk refresh The physical disk assignments change as disks become utilized in a RAID definitions. Use the “Re-Draw Tree” button to rescan for physical disks, and refresh the menu view. Rescan SAS topology 4.11.2 Software Reset SAS Controller The button will issue a software-reset signal to the embedded SAS controller.
RTM-ATCA-SXXX Overview 4.12 CPU Status attributes This screen displays real-time statistics for the applications running on ATCA-S201’s PowerPC processor. The data on this screen is derived from the Linux top command (man top), formatted to fit the HTML window. The screen auto refreshes approximately every 6 seconds.
RTM-ATCA-SXXX Overview 4.13 ATCA Status attributes The items in this menu provide operational condition of the ATCA-S201 and the four AMC slots and RTM if installed. ‐ Maintenance Network Shelf I/O Status CPU Status ATCA Status StorBlade99 ATCA-S201 Blade 1 (0x96) Status Vendor Emerson IANA ID Name 65cd ATCA‐S201 Refresh HW Revision 0004 H8 FW Revision 01.10 IPMI Rev Model Serial 01.
RTM-ATCA-SXXX Overview Table 24 ATCA status indication Status item Description PCI state Collection of values pertaining to AMC modules with PCI devices Vendor Device SVID 4 digit Hex value representing the PCI Vendor ID . 4 digit Hex value representing the PCI device ID . 4 digit Hex value representing the PCI sub-system vendor ID . (set to 0000 for non-PCI modules) 4 digit Hex value representing the PCI sub-system device ID .
RTM-ATCA-SXXX Overview CLI command syntax Table 25 CLI command syntax, blade_status for ATCA and AMC site status atca_blade get_status 2 + Convention: Display ATCA blade revision information atca_blade get_status 1 + Convention: 1 |2|3|4|5 Display site status: 1=Site B1, 2=Site B2, 2=Site B3, 2=Site B4, 2=Site B5 (RTM) 6806800H62B ATCA‐S201 Installation and Use Guide 56
RTM-ATCA-SXXX Overview 5 RAID Volume Configuration Configuration Step: 1 2 3 4 5 6 RS232 Console Setup Ethernet Comm. Setup RAID LUN Setup Logical Volume Setup iSCSI Device Setup NFS / SMB Share Setup This chapter explains how to prepare and configure RAID volumes that are ultimately mapped to the various IP services advertised on the ATCA-S201 ATCA carrier board. These virtual RAID volumes are created from in-chassis storage pools comprised of AMC modules with SAS or SATA disks.
RTM-ATCA-SXXX Overview 55% spare ‐ + + + + ‐ ‐ ‐ ‐ + Emerson ATCA-S201 iSCSI nfs smb Shares LVM2 LVM2 Configuration MD RAID Configuration Hardware RAID Configuration Physical Disks /dev/sda /dev/sdb /dev/sdc /dev/sdd /dev/sde /dev/sdf /dev/sdg Maintenance 15% nfs 40% iSCSI 20% nfs 20% cifs Logical disk (example: /dev/vga/lva0) 30% iSCSI 20% iSCSI Volume group (example: /dev/vga) RAID Physical disks (example: /dev/sda) Figure 15 HTML tool, Main navigation side-bar, Hardware
RTM-ATCA-SXXX Overview ‐ Hardware RAID Configuration StorBlade99 ATCA-S201 Create Hardware RAID Volume Disk Name Parent Host Bus Target Lun Vendor Product Rev Size 1 /dev/sda md0 0 0 0 0 HITACHI HUC101414CSS300 A410 140205MB 2 /dev/sdb md0 0 0 1 0 HITACHI HUC101414CSS300 A410 140205MB 3 /dev/sdc unknown 0 0 2 0 HITACHI HUC101414CSS300 A410 140205MB 4 /dev/sdd unknown 0 0 3 0 FUJITSU MAY2073RC 0103 70136MB Select 2 or more disks for Volume
RTM-ATCA-SXXX Overview 5.2.1 Hardware RAID levels and capabilities RAID Level RAID0 RAID1 RAID1E Description Two or more disks are grouped to provide a capacity aggregation function. The advantage is the multiplicative performance and capacity effect of up to 10 spindles working in concert to store or retrieve data for the host. Exactly two disks are grouped to provide a mirror function. By definition, two drives our bounded in a fashion such that every write to one drive is mirrored to the second.
RTM-ATCA-SXXX Overview AMC disk modules Physical disks Site: B1 iSCSI LUNs HW RAID Site: B2 iSCSI & NAS Logical groups & volumes sda vga Zone-2 Fabric 1:1 mapping (JBOD) Site: B3 share points Zone-3 RTM vgz 1:1 mapping (JBOD) Site: B4 IP host Zone-2 Base NFS sdb IP network sdc CIFS share points Figure 17 Figure shows how RAID LUN definitions alter physical disk display 5.2.
RTM-ATCA-SXXX Overview Hardware RAID configuration Description Section 1 — Create RAID volumes List of remaining disks available for new RAID volume definition. Click to select disk members. Click to select RAID level Click create Volume Section 2 —RAID Status Summary Section 3 — Allocate Hot Spare Section 4- Hot spare status Upon completion, the physical disk view will change to display the new Virtual RAID volume while its disk members become hidden.
RTM-ATCA-SXXX Overview 5.3 Software RAID configuration Administrators may use the ‘MD RAID’ menus to configure the Software AID features of ATCA-S201. The implementation leverages the mdadm tool available with the 2.6.23 Linux kernel, which also offers the ability to conduct all volume setup and configuration via a shell commands. Upon creation, a new software raid-device will appear as a new device in web or cli configuration menus.
RTM-ATCA-SXXX Overview Use this drop down menu to choose a volume name. Four choices: md0, md1,md2 or md3 md0 ˇ Submit Click to commit the selections and create the new RAID device. Ignore Warnings Import Foreign Array Clear ownership ‘Radio button’ will ignore minor mdadm warnings. Example ignore warning when creating RAID1 with disks that have greater than 1% capacity difference. This Filed self-clears on each use.
RTM-ATCA-SXXX Overview --remove Raiddevice Remove volume step2 Used to remove a disk from a volume definition. Users may later re-add the disk using the —add command. Device name assigned to existing volume. Example /dev/md0 Designate faulty device. Example /dev/sda /etc/rc.d/init.d/mdarray stop Edit file: /etc/mdadm.
RTM-ATCA-SXXX Overview 5.3.3 RAID Level RAID4 Software RAID levels and capabilities Description Data Layout Diagram Three or more disks are grouped in fashion where all written data is available even when any single disk drive is removed or fails. RAID4 employs block level striping with a dedicated parity disk.
RTM-ATCA-SXXX Overview 6 Prepare Logical Volumes for iSCSI or file sharing Configuration Step: 1 2 3 4 5 6 RS232 Console Setup Ethernet Comm. Setup RAID LUN Setup Logical Volume Setup iSCSI Device Setup NFS / SMB Share Setup This chapter explains how to prepare a device resource (example /dev/sda) for iSCSI or NAS file sharing. Disks appearing in the “physical disk” menu must first be mapped to a Logical Volume group before it can be used for these services.
RTM-ATCA-SXXX Overview 6.2 Viewing Physical disks Logical volumes are comprised of one or more physical disk members. Using the HTML configuration tool, the user may view the available set of physical disks. Emerson ATCA-S201 Physical Disks This top html menu provides a summary list of current physical disks. Note: The disks appearing in this view will dynamically change to reflect alterations made with MD_RAID configuration menus.
RTM-ATCA-SXXX Overview 6.2.1.1 Disk view refresh, Re-draw Tree button The physical disk assignments change as disks become utilized in a RAID definitions. Use the “Re-Draw Tree” button to rescan for physical disks, and refresh the menu view. Re‐Draw Tree 6.2.1.2 Rescan SAS Topology If the disk configuration is not displaying properly, users can rescan the SAS topology, using the button located on the Maintenance menu page. Rescan SAS topology 6.2.1.
RTM-ATCA-SXXX Overview Table 21 HTML tool, Emerson ATCA-S201 Physical Disk (configuration screen) Parameter Description Device Name State Linux SCSI device name, from ATCA-S201 management perspective Online: indicates the device is active and ready for I/O Offline: Raw: indicates the device was not formatted by the ATCA-S201 file: indicates the device was formatted by the ATCA-S201 Identifies the volume that claims ownership to a disk. ‘Unknown’ indicates disk has no known volume ownership.
RTM-ATCA-SXXX Overview ‐ + + + + ‐ + + + + Emerson ATCA-S201 iSCSI nfs smb Shares LVM2 LVM2 Configuration MD RAID Hardware RAID Physical Disks Maintenance StorBlade99 ATCA-S201 Available Physical Disks Disk Name Volume Group State Capacity File Type Vendor Model Rev /dev/sda ‐none‐ Offline 140205(MBytes) Raw Unknown HITACHI HUC101414CSS300 A410 /dev/sdb ‐none‐ Offline 70136(MBytes) Raw Unknown FUJITSU MAY2073RC 0103 /dev/sdc ‐none‐ Offline 70008(MBytes) Raw Unknown
RTM-ATCA-SXXX Overview CLI command syntax Table 28 CLI command syntax, create new volume groups Convention: atca_blade set_lvm2 Y Y Y + Ydisk |Ndisk … [Ydisk|Ndisk] variable length mask. Must specify one entry for each available system disk. Ydisk includes disk in new volume group, Ndisk exclude disk from new volume group. Syntax examples atca_blade set_lvm2 Y Ydisk Ndisk Y Y + System has two disks. Assign the first disk to a new volume group.
RTM-ATCA-SXXX Overview 6.4 Creating a Logical Device (/dev/vga/lva0) After successfully creating a volume group, the user must next create a logical device which can be assigned to iSCSI or NAS services. The LMV2 configuration menu will update to show the new volume group as shown below.
RTM-ATCA-SXXX Overview Step 2. Enter the new size increase in the field labeled Enter size to create or extend [ ]. (It can exceed the seed value displayed in the box). Step 3. Click the ‘Extend Volume’ button 6.4.2 Delete a Logical device (/dev/vga/lva0) The user may dynamically delete a logical device, and return all the space to the volume group. Note: All data on this volume will be destroyed, and cannot be recovered. Follow these instructions to extend an existing volume group Step 1.
RTM-ATCA-SXXX Overview 6.5 Manage shares (prepare logical device for service) By default, all logical devices are unformatted and not yet visible to either iSCSI or NAS services. The manage share menu is used to prepare a logical device for one or more of these services (iSCSI, NFS or SMB). The manage share will display a menu for each logical device defined, along with options to make service assignments.
RTM-ATCA-SXXX Overview Follow these instructions to assign iSCSI service Step 1. Enter a ‘human friendly’ name for your new iSCSI share in the field labeled Share Name [ ]. Step 2. Click the ‘iSCSI box. Step 3. Click the ‘Share’ button. Upon completion the ‘Block / File’ field will display Block. Note: The ‘share’ in this example is not yet visible externally via IP links, and external hosts cannot yet access this resource. Proceed to the iSCSI setup chapter to create iSCSI LUNs.
RTM-ATCA-SXXX Overview Note: The ‘share’ in this example is not yet visible externally via IP links, and external hosts cannot yet access this resource. Administrator should proceed to chapter 8 to create NFS or SMB mount points. Upon completing these steps, the Mange share menu will update as shown below. Changes may be applied by clicking the appropriate box and clicking ‘Update’.
RTM-ATCA-SXXX Overview StorBlade99 ATCA-S201 Shared Resource /dev/vga/lva0 Logical Volume Share Name /dev/vga/lva0 lva0 Share Name lva0 Share Type iSCSI Mount Point <‐> Fullname nfs smb Block / File Action Block ‐ In Use ‐ Share Type /mnt/shr/block/lva0 <-> /mnt/shr/block/lva0 iSCSI nfs smb Delete Action Update Follow these instructions to un-commit a logical drive Step 1. Un-Click all the ‘iSCSI’ box Step 2. Click the ‘Update’ button. Step 3. Click the ‘Delete’ button. Step 4.
RTM-ATCA-SXXX Overview StorBlade99 ATCA-S201 Shared Resource /dev/vga/lva0 Logical Volume Share Name /dev/vga/lva0 lva0 Share Name lva0 Share Type iSCSI nfs Mount Point <‐> Fullname smb Block / File Action Block ‐ In Use ‐ Share Type /mnt/shr/block/lva0 <-> /mnt/shr/block/lva0 iSCSI nfs smb Delete Action Update Follow these instructions to un-commit a logical drive Step 1. Un-Click the ‘nfs’ and ‘smb’ box Step 2. Click the ‘Update’ button. Step 3. Click the ‘Delete’ button. Step 4.
RTM-ATCA-SXXX Overview 7 iSCSI device setup tools Configuration Step: 1 2 3 4 5 6 RS232 Console Setup Ethernet Comm. Setup RAID LUN Setup Logical Volume Setup iSCSI Device Setup NFS / SMB Share Setup This chapter explains how to create one or more iSCSI LUNs for external host access. The user must complete step 4 before this step can be accomplished.
RTM-ATCA-SXXX Overview ‐ ‐ + + + + + + + + Emerson ATCA-S201 iSCSI iSCSI Configuration nfs smb Shares LVM2 MD RAID Hardware RAID Physical Disks Maintenance StorBlade99 ATCA-S201 iSCSI Configuration Global Settings iSNSServer None iSNSAccessControl Submit Changes No Add an iSCSI Target Figure 26 HTML tool, Emerson ATCA-S201 iSCSI iSCSI Configuration Follow these instructions to create a new iSCSI target Step 1. Click the ‘add an iSCSI Target’ button.
RTM-ATCA-SXXX Overview Target iqn.1995-07.com.emerson:ATCA-S201.
RTM-ATCA-SXXX Overview 1 LUNs Served By This Target LUN Path Type Remove 0 /export/iSCSI/lva0 blockio Remove Add a new LUN Share to This Target LUN 1 Path ˇ ˇ Type Action blockio No paths available Figure 27 SCSI configuration screen updates to show the new LUN. 7.1.
RTM-ATCA-SXXX Overview 7.1.5 Advanced iSCSI configuration (expert mode) The iSCSI service running on the storage blade supports numerous configuration options that appear in the iSCSI section of web interface tool. Users may modify any number of parameters listed, and then click the ‘submit’ button located at the top of the page. Note: Users may undo all changes and re-apply the default settings by clicking the ‘Target Default settings’ button.
RTM-ATCA-SXXX Overview #ErrorRecoveryLevel 0 #HeaderDigest None #DataDigest None #Wthreads 8 Lun 0 Path=/export/iSCSI/lva0,Type=blockio,ScsiId=RXEUlYcCN9siiOnP 6806800H62B ATCA‐S201 Installation and Use Guide 85
RTM-ATCA-SXXX Overview Table 33 iSCSI Advanced configuration and parameter definitions Target iqn..[:] Identifies the iSCSI Qualified Name, which is globally unique as required by the iSCSI standard. iqn. followed by a single dot “.” is the date (year and month) at which the domain is valid followed by a single dot “.” Reversed domain name followed by a single dot “.”
RTM-ATCA-SXXX Overview Note: The should be set to multiples of PAGE_SIZE. The maximum supported value is 64 * 4096 = 262144. #FirstBurstLength Default: 65536, Sets the maximum amount of unsolicited data the initiator may transmit in the first burst of a transfer either with and/or right after the iSCSI command. Used together with InitialR2T and ImmediateData. Note: The should be set to multiples of PAGE_SIZE. The maximum supported value is 16 * 4096 = 65536.
RTM-ATCA-SXXX Overview 7.1.6 iSCSI Discovery filter configuration (expert mode) The iSCSI service running on the storage blade includes the ability to limit the targets each host will see during discovery; this can often significantly reduce the iSCSI boot time. The filter mechanism uses the host IP address as criteria to expose or hide iSCSI targets listed in discovery. Note: This mechanism is not meant to replace the CHAP security features used to authenticate a host and target.
RTM-ATCA-SXXX Overview 8 NFS/SMB Share setup tools Configuration Step: 1 2 3 4 5 6 RS232 Console Setup Ethernet Comm. Setup RAID LUN Setup Logical Volume Setup iSCSI Device Setup NFS / SMB Share Setup This chapter explains how to establish NFS and SMB mount points for external host access. The configuration menus for the NFS and SMB services are nearly identical, and will be discussed together. The user must complete step 4 before this step can be accomplished.
RTM-ATCA-SXXX Overview These menus provides the ability to create file mount points for logical devices previously committed for file I/O share (see chapter 6 ). 8.1.1 Export an nfs or smb share These are the final steps to make an nfs or smb share ‘appear’ on the IP network.
RTM-ATCA-SXXX Overview CLI command syntax Table 34 CLI command syntax, create nfs share Convention: atca_blade set_nfs This command invokes an interactive session to modify the nfs setting of the blade. The command will spawn a series of Yes/No questions which guide the user the nfs configuration options. The command session and responses can be scripted to automate a common configuration setup on multiple blades.
RTM-ATCA-SXXX Overview CLI command syntax Table 35 CLI command syntax, create smb share Convention: atca_blade set_smb This command invokes an interactive session to modify the smb setting of the blade. The command will spawn a series of Yes/No questions which guide the user the smb configuration options. The command session and responses can be scripted to automate a common configuration setup on multiple blades. 8.1.
RTM-ATCA-SXXX Overview 8.1.3 Advanced file share configuration (expert mode) The file share services running on the storage blade supports numerous configuration features that are not part of the web interface tool, but available via simple edits to a text based configuration file using a console window. File share service Configuration file Samba (cifs) nfs /etc/samba/smb.conf /etc/exports The configuration file contains an entry for each target entry created by the web or cli tools.
RTM-ATCA-SXXX Overview /export/nfs/Fileshare nfs_share1(rw,sync,no_wdelay,root_squash) Export option syntax: () () Note: Refer to the exports man page for details on other lesser-used options. Table 36 Common nfs export option definitions host1-hostN Host specifies the directory on the storage blade that is the target of the export.
RTM-ATCA-SXXX Overview 9 Blade Maintenance and Firmware upgrades This chapter provides information about preserving all existing blade configuration settings and also installing and updating the firmware loaded on the ATCA-S201 storage services blade. At manufacturing time, the ATCA carrier is pre-loaded with firmware prior to shipping. Periodically, new firmware releases are offered to improve the functionality or performance of the ATCA carrier blade. 9.
RTM-ATCA-SXXX Overview Export system configuration file using CLI The following procedure is a detailed description of the CLI-based export system configuration procedure. Step 4. On your remote host, open a secure ftp connection. sftp admin@192.168.100.100 Step 5. Set binary mode and copy file bin get /backup/nvdisk.tar.gz 9.1.2 Import (restore) a blade configuration The following procedure is a detailed description of the web-based import system configuration procedure.
RTM-ATCA-SXXX Overview Each image contains a CRC signature which is validated by the system prior to loading. The normal methods for updating these code images is to establish a management connection, ( see chapter 3 ) login as administrator, and utilize either the command line interface (CLI) or web-based graphical user interface (GUI) interface outlined later in this chapter . Both of these mechanisms require that the existing firmware is known-good and intact.
RTM-ATCA-SXXX Overview Upgrade firmware procedure StorBlade99 ATCA-S201 Maintenance Page File Name Revision Build Date Software Release kit V.1.0rc7 Date: 2009/07/21 20:05:48 U‐boot 1.3.0 Apr 27 2009 – 17:44:03 Linux 2.6.23 #28 Wed Jul 1 09:09:29 EDT 2009 atca_blade Revision: 1.
RTM-ATCA-SXXX Overview A Pop-up window notifies the user when the flash update completes. The new software becomes active at next reboot. A blade reboot button is available on the ‘ATCA Status’ menu (see StorBlade99 ATCA-S201 Blade 1 (0x96) Status Vendor IANA ID Name Emerson 65cd ATCA‐S201 Refresh HW Revision 0004 H8 FW Revision 01.10 IPMI Rev Model Serial 01.
RTM-ATCA-SXXX Overview OPTIONS -r: indicates the root file system should be replaced with the image on the tftp server. -k: indicates the linux kernel should be replaced with the image on the tftp server. -u: indicates the uboot components should be replaced with the image on the tftp server. -t tftp_serverIP: used to specify the dotted decimal IP address of the remote tftp server. (example -t 192.168.1.151).
RTM-ATCA-SXXX Overview * * ************************************************* Erasing 256 Kibyte @ 31c0000 -- 99 % complete. Programming /dev/mtd2 Verifying rootfs.ext2.gz.uboot Successful update of flash /dev/mtd2 from file rootfs.ext2.gz.uboot /nvdisk/mnt # 9.4 Emergency firmware recovery, theory of operation The ATCA-S201 hardware actually contains two copies of flash code.
RTM-ATCA-SXXX Overview JP1 3 2 1 J30 DDR2 DIMM JP2 AMC slot B1 J32 3 2 1 CPU J33 PCIe Switch AMC slot B2 SAS AMC slot B3 10GbE XAUI J23 AMC slot B4 J10 ATCA-S201 Figure 30 ATCA-S201 Jumper locations 9.4.2 Emergency flash recovery (factory reset) The method described in this section explains a procedure to repair primary flash contents that are blank, erased or corrupted.
RTM-ATCA-SXXX Overview 4. The ATCA blade will break into the U-boot console. 5. Establish a serial connection, login into the blade as root (see section 3.2) 6. Use printenv to list the environment variables. Assign a serverip address to match the tftp server address in the next step , for example: setenv serverip 192.168.xxx.xxx 7. Install a second host machine on the same IP network as the ATCA-S201. Its IP address must match the serverip address listed in the previous step. 8.
RTM-ATCA-SXXX Overview 8. Administrators may login as root. There is no password, and the ‘root’ user will be asked to create one. root password reset procedure (method 2) This procedure is useful when the user has access to the serial console port and can operate the U-boot environment. This secondary method allows you to clear the root password without removing the blade from the chassis but does require a power cycle and some familiarity with U-boot. 1.
RTM-ATCA-SXXX Overview 10 ATCA-S201 Mechanical and Connector Information This chapter provides the specifications and connector pin outs for the ATCA-S201 module. 10.1 Specifications for the ATCA-S201 This section provides mechanical, electrical, environmental, and other relevant physical information. 10.1.1 Physical dimensions The ATCA-S201 is an 8U (280 mm) height board with 325 mm in depth for standard applications. It complies with IEEE 1101.11 mechanical standards, as required by the PICMG 2.
ATCA-S201 Mechanical and Connector Information Table 39 Environmental specifications for the ATCA-S201 SPECIFICATION VALUE Operating Temperature (airflow 5.0 0°C ~ 55 °C CFM) Operating Temperature (airflow 2.
RTM-ATCA-SXXX Overview Table 40 EMC Emission compliancy Description Description US: FCC 47 CFR Part 15 Class A FCC Class A emissions requirements (United States) Class A Interference-causing Equipment standard (Canada) Class A ITE emissions requirements (Japan) Class A ITE emissions requirements (EU, Europe) Class A ITE emissions requirements (Australia) Immunity for ITE equipment Immunity for ITE equipment EMC Electrostatic discharge immunity With A2 (2005) Limits for harmonic current emissions With A2
RTM-ATCA-SXXX Overview Table 41 Connector Port Identification and Location 1 AMC Slot 0 7 2 AMC Slot 1 8 3 AMC Slot 2 9 4 AMC Slot 3 10 5 SODIMM, DDR2 socket 11 6 Zone 3, J30 RTM power connector Zone 3, J32 RTM signal connector Zone 3, J33 RTM signal connector Zone 2, J23 Chassis connector Zone 1, J10 Power supply connector Power supply mezzanine module Figure 31 ATCA-S201 ATCA Module Connectors 10.2.1 AMC Module Slots The ATCA-S201 can accept up to four mid-height single width AMC modules.
RTM-ATCA-SXXX Overview AMC.3 PCI Express All four slots implement a x4 PCIe connection on channels 4 to 7. All slots are directly connected to the PCI Express switch located on the ATCA carrier. 10.2.1.
RTM-ATCA-SXXX Overview 10.2.1.3 Port# CLK1 CLK2 CLK3 0 1 2 3 4 5 6 7 Table 44 AMC slot 2, Port Assignments Region Port Mapping CLOCK -CLOCK -CLOCK PCI Express Clock COMMON -COMMON -COMMON SAS/SATA Controller Port 2 COMMON SAS/SATA Controller on RTM FAT PIPE PCI-Express PEX Switch Lane0 FAT PIPE PCI-Express PEX Switch Lane1 FAT PIPE PCI-Express PEX Switch Lane2 FAT PIPE PCI-Express PEX Switch Lane3 10.2.1.
RTM-ATCA-SXXX Overview ATCA Receptacle view 3 4 7 8 11 12 15 16 19 20 21 22 23 24 25 28 26 27 30 33 29 ATCA PCB 1 2 5 6 9 10 13 14 17 18 31 32 34 Figure 32 Zone 1 J10 Connector Port Pin Location Diagram Pin# 1 2 3 4 5 6 7 8 9 Signal NC NC NC NC PP_HA0 PP_HA1 PP_HA2 PP_HA3 PP_HA4 Table 46 Connector J10, Zone-1 Pin Assignments Pin# Signal Pin# Signal 10 PP_HA5 19 NC 11 PP_HA6 20 NC 12 PP_HA7 21 NC 13 PP_IPMB_SCL_A 22 NC 14 PP_IPMB_SDA_A 23 NC 15 PP_IPMB_SCL_B 24 NC 16 PP_IPMB_SDA_B 25 Shelf Groun
RTM-ATCA-SXXX Overview ATCA Receptacle view J23 1 2 3 4 5 6 7 8 9 10 Row H G F E D C B A Figure 33 Zone 2 Connector Port Pin Location Diagram Row# 1 2 3 4 5 6 7 8 9 10 XAUI_0 XAUI_1 BASE_0 BASE_1 Interface XAUI_0 XAUI_0 XAUI_1 XAUI_1 BASE0 BASE1 - Table 47 Connector J23, Zone-2 Pin Assignments A B C D E TX2+ TX2RX2+ RX2TX3+ TX0+ TX0RX0+ RX0TX1+ TX2+ TX2RX2+ RX2TX3+ TX0+ TX0RX0+ RX0TX1+ MDIO0+ MDIO0MDIO1+ MDIO1MDIO2+ MDIO0+ MDIO0MDIO1+ MDIO1MDIO2+ - F TX3TX1TX3TX1MDIO2MDIO2- G RX3+ RX1+ RX3+ RX1+ M
RTM-ATCA-SXXX Overview ATCA Receptacle view J33 1 2 3 4 5 6 7 8 9 10 Row F E D C B A ATCA PCB J32 1 2 3 4 5 6 7 8 9 10 Figure 34 Zone 3, Connector Port Pin Location Diagram 10.2.4.1 Connector P32, Storage and Management Infrastructure Pin Assignments The ATCA-S201 P32 connector pin assignments and descriptions appear below.
RTM-ATCA-SXXX Overview SAS-out SAS-in LAN0_MDIOxx LAN0_CTV LEDACT# Table 50 Connector J32, Management infrastructure signal descriptions These signal pairs connect to the SAS controller (LSI-1068) on ATCA-S201, ports 4, 5, 6 and 7. These signal pairs route to the Port3 of the AMC slots, sites 0, 1, 2 and 3 GbE Management port. 10/100/1000BaseT signals. These signals route to a transceiver owned by the Freescale PowerPC device.
RTM-ATCA-SXXX Overview I2C_xxx Table 52 Connector J33, PCIe and Miscellaneous RTM Signal Descriptions PCI-Express transmit differential pair signals PCI-Express receive differential pair signals Fabric clock, as defined in AMC.0 specification. Intended to be used for PCI-Express 100MHz spread spectrum clock. This signal can be either terminated or passed through the CREFCLK via jumpers on the RTM403. The ATCA blade provides no spread spectrum support. PCI-Express reset signal (input).
RTM-ATCA-SXXX Overview J30- ATCA e d c b a 1 2 Figure 35 ‘J30’ RTM Power Receptacle 10.2.4.4 Connector J30, RTM Power Pin Assignment The ATCA-S201 J30 connector pin assignments and descriptions appear below. Table 53 J30, RTM Power Pin Header Assignment Row# Interface 1 a Pwr Logic_GND b Pwr Logic_GND c IPMI IPMI_SCL_L d Pwr +12V PP e Pwr PS1# PS1# IPMI_SCL_L IPMI_SDA_L 12VPP 3.3V_MP Shelf_GND Logic_GND 2 Shelf_GND +3.
RTM-ATCA-SXXX Overview 10.2.5 Power Supply Mezzanine Module The ATCA-S201 incorporates a power mezzanine module from Artesyn® Technologies which performs DC-DC conversions to produce the various voltages needed by the ATCA carrier, its AMC slots and the advanced rear transition module is installed. The module supplier is.
11 RTM-ATCA-SXXX Overview The RTM-ATCA-SXXX is an Advanced Rear transition module (RTM) that features a SAS expander which provides a storage I/O path between the front ATCA board and rear I/O access panel. The front ATCA board connection conforms to the 3-row Advanced RTM standard. Optionally, the module may be populated with up to two (2) SAS, SATA or SSD 2.5” disk drives. . Users may pair the RTM-ATCA-SXXX with ATCA disk carriers (ATCA-S120) to create in-chassis JBOD.
10BRTM‐ATCA‐SXXX Overview Table 55 I/O Ports Available on RTM Faceplate RTM Zone-3 function RTM Faceplate RS232 Console port Port 1 —RJ45 SAS, x4 (3.0GHz) Port 2 — IB SAS connector (SFF-8470) 1Gb Ethernet Management port IPMI — to MMC device on RTM Power Port 3 - RJ45 NA NA Figure 36, RTM-ATCA-SXXX Functional Interconnect Diagram 11.3.1 External SAS Connector The RTM-ATCA-SXXX provides a x4 SAS port, implemented with a infiniband Style connector.
RTM-ATCA-SXXX Overview Figure 37, Ethernet Management Port 11.3.3 Serial Console Port (RJ-45) An RS232 serial console port is provided on the RTM-ATCA-SXXX to facilitate a passthrough communication path to certain ATCA board products. The port uses an RJ45 connector. 11.4 LEDs The following LEDs are located on the face plate of the RTM-ATCA-SXXX.
RTM-ATCA-SXXX Overview Figure 38 RTM-ATCA-SXXX Front Panel LEDs 11.5 Software Support The RTM-ATCA-SXXX requires no special software to operate. As shipped from the factory, the expander is un-zoned, and configured for table routing. 11.6 Products Supported by this Manual The information in this manual applies to the following products: RTM-ATCA-SXXX-0 RTM-ATCA-SXXX-2 RTM-ATCA-SXXX-2-300 Figure 39. RTM-ATCA-SXXX Top View (Two Disk Drives) 11.
RTM-ATCA-SXXX Overview determine the module identity.
RTM-ATCA-SXXX Overview Figure 40 RTM-ATCA-SXXX Diagram Showing Identification Label Locations 6806800H62B ATCA‐S201 Installation and Use Guide 123
12 RTM-ATCA-SXXX Installation This chapter contains the procedures for installing and removing the RTM-ATCA-SXXX. 12.1 Installation and Removal of the Rear Transition Module The RTM-ATCA-SXXX can be installed into an ATCA shelf (chassis) with a midplane made for front and rear board installations. The module must be installed in the slot directly behind the host ATCA node board. These back-to-back slots have common pins to enable passing of signals via the Zone-3 connector complex. 12.
RTM-ATCA-SXXX Installation Module Current RTM-ATCASXXX RTM-ATCA-SXXX-2 (Two disk version) (No Disk) +12 V (spin up < 100 sec) +12 V normal operating +12 V (idle) OFF STATE 0.55 A(6.6W) 0.55 A (6.6 W) 0.55 A (6.6 W) LESS THAN 0.4 W 2.05 A (25 W) (staggered spin-up) 2.05 A (24.6 W) 1.55 A (18.6 W) LESS THAN 0.4 W 12.3 Before You Install Or Remove The RTM Boards may be damaged if improperly installed or handled. Please read and follow the guidelines in this section to protect your equipment. 12.3.
RTM‐ATCA‐SXXX Installation 12.4 Use Caution When Installing or Removing RTM When first installing boards in an empty chassis or onto a carrier card, we recommend that you start at the left of the card cage and work to the right. When inserting or removing a board in a slot adjacent to other boards, use extra caution to avoid damage to the pins and components located on the primary or secondary sides of the boards. 12.4.
RTM‐ATCA‐SXXX Installation Handling modules and peripherals can result in static damage. Use a grounded wrist strap, static-dissipating work surface, and antistatic containers when handling and storing components. Insert the board by holding the Module Handles–do not exert unnecessary pressure on the faceplate. Hot swap compliant modules may be installed while the system is powered on. If a module is not hot swap compliant, you should remove power to the slot or system before installing the module. 5.
RTM‐ATCA‐SXXX Installation 11. Position your thumbs at the top and bottom of the RTM; simultaneously push in the module and rotate the injector/ejector mechanisms inward to their closed position to seat and secure RTM. DO NOT FORCE THE BOARD INTO THE SLOT. 12. Tighten the two module retention screws to secure the module into the shelf. 13. Power on the system, if necessary. Refer to your system manual for instructions on correctly powering on the system.
13 RTM-ATCA-SXXX Mechanical and Connector Information This chapter provides the specifications and connector pin outs for the RTM-ATCA-SXXX. 13.1 Specifications for the RTM-ATCA-SXXX This section provides mechanical, electrical, environmental, and other relevant information. 13.1.1 Physical Dimensions The RTM-ATCA-SXXX is an 8U (233.35 mm) height board with 80 mm in depth for standard applications. It complies with IEEE 1101.11 mechanical standards, as required by the PICMG 2.0 Revision 3.0 specification.
RTM-ATCA-SXXX Mechanical and Connector Information Table 60 Environmental Specifications for the ATCA-S201 SPECIFICATION VALUE Operating Temperature (airflow 3.
RTM‐ATCA‐SXXX Mechanical and Connector Information Table 61 EMC Emission Compliancy Description US: FCC 47 CFR Part 15 Class A Canada: ICES 003 Class A Japan: VCCI Class A Europe Commercial: EN 55022:1994 Class A Europe Commercial: EN 55024:1998 Class A Europe Commercial: EN 61000-42,3,5,6,8,11: 2001 Europe Commercial: EN 61000-4-4: 2000 (Limits for harmonic current emissions) Europe Commercial: EN 61000-3-2,3 Europe Telecom Carrier: EN 300-386 v1.3.
RTM‐ATCA‐SXXX Mechanical and Connector Information Table 62 Connector Port Identification and Location 1 Serial console port 4 2 SAS Connector 5 3 10/100/1000 Mb management port 6 Zone 3 Connector Power connector RTM alignment pin Figure 42 RTM-ATCA-SXXX Connectors 13.2.1 SAS Connector Port Port 3 provides an infiniband (IB) SAS connector, SFF-8470. The port is wired as pass-through to the front ATCA carrier via the J32/P32 Zone-3 connector.
RTM‐ATCA‐SXXX Mechanical and Connector Information Table 63.
RTM‐ATCA‐SXXX Mechanical and Connector Information 13.2.3 Serial Console Management Port Port 4 is a low-profile RJ-45 connector jack that provides RS232 signaling. The port is wired as pass-through to the front ATCA carrier via the J32/P32 Zone-3 connector Table 65 Serial Console Management Port Connector Pin Assignments Pin Signal Name Pin Signal Name 1 RTS 5 GND 2 DTR 6 RXD 3 TXD 7 DSR 4 GND 8 CTS Figure 45 Serial Console Management Port Pin Location Diagram 13.2.
RTM‐ATCA‐SXXX Mechanical and Connector Information Figure 46 Zone 3, Connector Port Pin Location Diagram 13.2.4.1 Connector P32, Storage and Management Infrastructure Pin Assignments The RTM-ATCA-SXXX P32 connector pin assignments and descriptions appear below.
RTM‐ATCA‐SXXX Mechanical and Connector Information SAS ports 4-7 SAS ports 0-3 LAN0_MDIOxx LAN0_CTV LEDACT# LEDLINK# UART_ 13.2.4.2 Table 67 Connector J32, Management Infrastructure Signal Descriptions A manufacturing option exists for these signals. These pins are either No-connect, or These transceiver pairs will connect port2 of the AMC front slots. (Port 4 routes to site 0) These transceiver pairs will connect port3 of the AMC front slots (Port 0 routes to site 0) GbE Management port.
RTM‐ATCA‐SXXX Mechanical and Connector Information Table 69 Connector J33, Miscellaneous RTM Signal Descriptions Active low RTM present signal.PS0# is tied to logic GND on the ATCA blade. PS0# (Connector J33) and PS1# (Connector J30) shall be connected through a diode on the RTM, exactly as defined in AMC.0 specification. PS1# is last mate on Power connector and PS0# is on the opposite end of the set of connectors.
RTM‐ATCA‐SXXX Mechanical and Connector Information PS1# IPMI_SCL_L IPMI_SDA_L 12VPP 3.3V_MP Shelf_GND Logic_GND Table 71 Connector J30, RTM Power Pin Signal Descriptions Active low RTM present signal. PS1# shall be pulled up to 3.3V Management Power on the ATCA blade. PS0# (Connector P33) and PS1# (Connector P30) shall be connected through a diode on the RTM, exactly as defined in AMC.0 specification. PS1# is last mate on Power connector and PS0# is on the opposite end of the set of connectors.
14 IPMI Functions List The ATCA-S201 module supports the intelligent platform management interface (IPMI) version 1.5. This system is used to collect status information from on on-board sensors as well as sensors installed on AMC or RTM modules. Collected information items include: Hot swap communication with the shelf manager Inlet air temperatures Voltage monitoring Electronic Keying as described in the AMC.
Table 72. ATCA-S201 Sensor Data Records Sensor UNR UC UNC LNC LC LNR ID String 1.0V 1.1V 1.2V 1.5V 1.8V 2.5V 3.3V 1.16 1.27 1.40 1.75 2.05 2.90 3.60 1.13 1.24 1.36 1.70 2.00 2.80 3.55 1.10 1.21 1.32 1.65 1.95 2.70 3.50 0.90 0.99 1.08 1.35 1.65 2.30 3.10 0.87 0.99 1.04 1.30 1.60 2.20 3.00 0.84 0.91 1.00 1.25 1.55 2.10 2.0 AMC Exit Temp Zone-3 Exit Inlet Temp 80 80 60 90 90 70 100 100 80 N/A N/A N/A N/A N/A N/A N/A N/A N/A +1.0V +1.1V +1.2V +1.5V +1.8V +2.5V +3.
IPMI Functions List Y = Calendar year of manufacturer (2008 = 8, 2010 = 0) MM = Calendar month of manufacturer (March = 03) ssss = Sequence number (reset each month) (1234) Table 75 RTM-ATCA-SXXX Example FRU Data Records Board Information RTM-ATCA-SXXX Version 1 Language Code EN (English) MFG date.time See note *1 Manufacturer Emerson Product Name RTM-ATCA-SXXX Serial Number AAALYMMssss (See note *2) Part Number 0106828G01A *1. Manufacturing time is defined as 'minutes since 1/1/96' in the IPMI FRU spec.
IPMI Functions List 12 SAS_2 AMC.3 Storage signaling J32-A4, B4, C4, D4 13 SAS_3 AMC.3 Storage signaling J32-A5, B5, C5, D5 14 AMC1_EO_12 J31 C1,D1, E1, F1 15 AMC1_EO_13 J31 A1,B1, E2, F2 16 AMC1_EO_14 J31 A2,B2, C2, D2 17 AMC1_EO_15 J31 C3,D3, E3, F3 18 AMC1_EO_16 J31 A3,B3, E4, F4 19 AMC1_EO_17 J31 A4, B4, C4, D4 20 AMC1_EO_18 J31 C5, D5, E5, F5 21 AMC1_EO_19 J31 A5, B5, E6, F6 22-31 unused 14.
IPMI Functions List Table 76 Supported IPMI Commands Command IPM Device “Global” Commands Get Device ID Broadcast “Get Device ID” Messaging Commands Send Message Event Commands Platform Event Sensor Device Commands Get Device SDR Info Get Device SDR Reserve Device SDR Repository Get Sensor Reading Factors Set Sensor Hysteresis Get Sensor Hysteresis Set Sensor Threshold Get Sensor Threshold Set Sensor Event Enable Get Sensor Event Enable Rearm Sensor Events Get Sensor Event Status Get Sensor Reading FRU Devi
15 IPMC Firmware Upgrade Procedure This chapter provides the instruction for upgrading the IPMC (Intelligent Platform Management controller) firmware. If the ATCA-S201 requires new firmware, an upgrade can be performed remotely using a LAN connection to the self manager. 15.1 The ipmitool utility Firmware upgrades are accomplished with ipmitool, a utility for managing IPMIenabled devices. The utility is an open source derivative which is modified by the shelf management supplier.
IPMC Firmware Upgrade Procedure COMMAND SYNTAX EXAMPLES EXAMPLE 1. The following example shows the command sequence for firmware upgrade of an AMC installed on a carrier: $ ipmitool -I lan -H 192.168.0.2 -T 0x82 -B 0 -t 0x74 -b 7 hpm upgrade hpm1fw.img $ ipmitool -I lan -H 192.168.0.2 -T 0x82 -B 0 -t 0x74 -b 7 hpm activate Line 1 puts the new firmware in the flash device, where hpm1fw.img is the image. Line 2 is used to dynamically load and activate the new firmware. EXAMPLE 2.
16 Index B I Bonding....................................................................47 iSCSI create a LUN ....................................................... 81 create a target.................................................... 80 remove a LUN ..................................................... 83 C CIFs support ................................................... See SMB CLI blade status...................................................45, 56 Overview .......................................
Index S V SMB share Create an export .................................................91 Status Blade staus menu................................................54 VLAN vconfig tool ........................................................ 45 view defined VLAN ............................................. 46 U Uboot commands ..........................................................30 environment variables..................................24, 31 Overview ..................................................
