Emerson ATCA-S201 User's Manual
Contents
1. Revision i ATCA 5201 ES 01 10 01 50 100LYMMSSSS PhyNum Tye SASAddress Hande Parem Disk om sas 5000cca000784ca9 oooo om Vendor Product Model Serial State Present MgEna MgOK PayEna PayOK AMCState Emerson AMC S402 0106825G_ O68NYMxxxx Control PhyNum Tye SASAddress Hande Parem pisk mn me 5ooo00eo16cbdos2 mp me Vendor Product Model Serial State Present MgEna MgOK PayEna PayOK AMCState Emerson AMC S402 01068256 O68NYMxxxx Site l Enable Disable Control PhyNum Tye SASAddress Hande Parem Disk mme 5oooc5o005bas665 ooob me Vendor product Model seral stete present MgEna MOK Paine Payor AMCState Emerson AMC S402 01068256 Versen Control Phynum Type SASAddress Hande paret Disk 03 ae 500000e016cbaos2 mp oo wem produet Model Seral state present MgEna MEOK Payena ug ER A Control Vendor Product Model Serial State Present MgEna Me PayEna PayOK AMCState Emerson RTM 0106828G 401NYMxxx Control Figure 14 HTML tool Emerson ATCA S201 gt Maintenance gt ATCA Status 6806800H62B ATCA S201 Installation and Use Guide RTM ATCA SXXX Overview Table 24 ATCA status indication PCI state Collection of values pertaining to AMC modules with PCI devices 4 digit Hex value representing the P2. dev eth2 10 100 1000 Management RTM Rear I O management port dev eth3 10G Fabric 0 Zone 2 XAUI dev eth4 10G Fabric 1 Zone 2 XAUI The webtool provides a table for each Ethernet resource Users may enter new settings for any field and click the submit button located at the top of the screen to apply the settings 192 168 200 32 255 255 255 0 192 168 200 255 192 168 200 1 1500 00 11 0D XXx XX XX NewsSettings dhcp 0 0 0 0 0 0 0 0 0 0 0 0 1500 pcp Jenable 6806800H62B ATCA S201 Installation and Use Guide 42 RTM ATCA SXXX Overview V CL command syntax Table 21 CLI command syntax set network property Ethernet port configuration Convention atca_blade set_network Y lt portcode gt lt enable gt lt dhcp gt lt ipaddr gt lt netmask gt lt broadcast gt lt gateway gt lt MAC gt lt MTU gt lt portcode gt Use portcode 16 to modify ethO 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 lt enable gt 0 1 Value 0 disables the port value 1 enables the port lt dhcp gt OI Value 0 disables dhcp value I enables the dhcp When enabled other network input fields are ignored ipaddr netmask etc ipaddr netmask input formats etc are defined in the sections below inputs 4 6 10 Enable online offline cl Enable lt Read Write gt The user may set a port o
3. Sub Assembly Number gt p 401N9010100 ars US Gy nn A ef E318926 Serial Number Safety Label Component side 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 2 Important Information about Your Chassis Before installing the rear transition module verify the module s part number to ensure that the correct rear transition module is being installed into the system For information on identifying the rear transition module see Section11 6 12 2 1 Safety Statement The RTM ATCA SXXX is designed to comply with UL60950 1 and is intended to be used with similarly tested ATCA products that have a user s guide detailing user installation of module accessories 12 2 2 Observe Maximum Module Current Requirements There are several manufacturing options for the RTM The diskless version of the RTM requires no power from the front ATCA node board b
4. To manually establish IP port address a typical new system configuration might consist of the following commands setenv ipaddr 192 168 1 211 setenv gatewayip 192 168 10 1 setenv netmask 255 255 255 0 setenv ethprime eTSEC2 Once all of the environment variables have been modified they persist only if permanently recorded in the flash device This is accomplished with this command uboot gt saveenv This example setup establishes initializes the 1Gb Ethernet port located on the RTM for administrator login and management access 3 7 Network boot procedure The ATCA S201 supports network boot which allows the user to bypass code contained on the embedded flash devices and instead load code images contained on the network Network boot does not replace stored user configurations Network boot requires that the network node supports tftp and must contain the following source files located in directory named tftpboot Flash contents Source file name U boot bin uImage ROOELS XE lt 09Z ee ele us Hit any key to stop autoboot 5 uboot gt run ramboot Note1 Network boot defaults to the Ethernet resource on the RTM Alternatively the user may designate the zone 2 Base ports Use setenv to change the ethprime variable to accomplish this Note2 Use setenv to change the serverip variable to the tftp server IP address 6806800H62B ATCA S201 Installation and Use Guide 33 RTM ATCA SXXX Overview 4 Network conf
5. 6 FAT PIPE PCI Express PEX Switch Lane2 7 FAT PIPE PCI Express PEX Switch Lane3 10 2 1 2 AMC slot B2 Port Assignments Table 43 AMC Slot 1 Port Assignments Port Region Port Mapping CLK1 CLOCK CLK2 CLOCK CLK3 CLOCK PCI Express Clock 0 COMMON 1 COMMON 2 COMMON SAS SATA Controller Port 1 3 COMMON SAS SATA Controller on RTM 4 FAT PIPE PCI Express PEX Switch Lane port 13 5 FAT PIPE PCI Express PEX Switch Lane1 6 FAT PIPE PCI Express PEX Switch Lane2 7 FAT PIPE PCI Express PEX Switch Lane3 6806800H62B ATCA S201 Installation and Use Guide Port Region 8 9 10 11 12 13 14 15 16 17 18 19 Port 10 11 12 13 14 15 16 17 18 19 AMC AMC AMC AMC AMC AMC AMC AMC EXTENDED EXTENDED EXTENDED EXTENDED EXTENDED EXTENDED EXTENDED EXTENDED Region AMC AMC AMC AMC AMC AMC AMC AMC EXTENDED EXTENDED EXTENDED EXTENDED EXTENDED EXTENDED EXTENDED EXTENDED Port mapping Port mapping 109 10 2 1 3 Port Region CLK1 CLOCK CLK2 CLOCK CLK3 CLOCK 0 COMMON 1 COMMON 2 COMMON 3 COMMON 4 FAT PIPE 5 FAT PIPE 6 FAT PIPE 7 FAT PIPE 10 2 1 4 Table 45 AMC slot 3 Port Assignments Port Region CLK1 CLOCK CLK2 CLOCK CLK3 CLOCK 0 COMMON 1 COMMON 2 COMMON 3 COMMON 4 FAT PIPE 5 FAT PIPE 6 FAT PIPE 7 FAT PIPE Table 44 AMC slot 2 Port Assignments Port Mapping PCI Express Clock SAS SATA Controller Port 2 SAS SATA Controller on RTM PCI Express P
6. EMERSON Network Power ATCA S201 Installation and Use 6806800H62B July 2009 2009 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 O 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 Java and all other Java based marks are trademarks or registered trademarks of Sun Microsystems Inc in the U S and other Countries Microsoft Windows and Windows Me are registered trademarks of Microsoft Corporation and Windows XP is a trademark of Microsoft Corporation PICMG CompactPCI AdvancedTCA and the PICMG CompactPCI and AdvancedTCA logos are registered trademarks of the PCI Industrial Computer Manufacturers Group UNIXO is a registered trademark of The Open Group in the United States and other countries Notice While reasonable efforts have been made to assure the accuracy of this document Emerson assumes no liability resulting from any omissions in this document or from the use of the information obtained therein Emerson reserves the right to revise this document and to make changes from time to time in the content hereof without obligation of Emerson to notify any person of such rev
7. 8PCIE SAS RAID Site B3 PLX8548 PCI E Switch Site B4 IPMI PPS GC Power Module 6806800H62B ATCA S201 Installation and Use Guide 1 3 1 1 3 2 1 3 3 1 3 4 13 5 ATCA S201 Overview Figure 1 ATCA S201 functional block diagram 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 AMC feature support details e PCI Express x4 on AMC ports 4 7 PCI reference clock on FCLKA e 3Gb SAS SATA on AMC port2 e 3GbSAS SATA on AMC port3 e SAS hot swap support e Face plate height x width 18 96 x 73 8mm e IPMB L e 72W max each slot 120W shared with all AMC slots DDR2 SODIMM A 72 bit SODIMM socket is populated with a DDR2 memory module and operated at 533MHz The ATCA applies ECC error correction code algorithms to this memory to ensure data integrity of both the storage and program code stored in it Single bit errors are automatically detected and corrected by these ECC algorithms Zone 1 power backplane connections The Zone 1 connector brings 48V DC power into the ATCA main board This power is regulated and split into several lower voltages by discrete components and a pair of power modules that are affixed to the ATCA carrier Together these devices convert 48V source and distributes power amongst the ATCA local onbo
8. Boot Status BE gt Hot Swap Figure 2 Front view fully populated ATCA S201 showing panel LEDs 6806800H62B ATCA S201 Installation and Use Guide 11 ATCA S201 Overview Table 2 LED functional description Off Normal default state ATCA Hot Swap LED Blue Blinking Preparing for hot swap Blue ON ready for hot swap removal ATCA Blade OK LED Green ON Blade Optimal A Bladei i ATCA Boot Health status pe ages deed Green Blade is optimal Off Normal default state ATCA Out of service OOS Yellow Blinking firmware update in progress Red ON Out of service PPC IPMC 1 5 Software driver support The ATCA S201 provides several IP storage services over the 10GbE fabric and 1 GbE base connections Major services include iSCSI NFS and SMB ATCA node boards with standard OS installations require no special drives from Emerson This product is compatible with the following operating systems and services e Solaris 10 SPARC Operating System NFS Solaris 10 SPARC Operating System iSCSI initiator Solaris 10 x86 Operating system NFS Solaris 10 x86 Operating system iSCSI initiator SuSE Linux Enterprise Server 10 NFS SuSE Linux Enterprise Server 10 iSCSI initiator RedHat Enterprise Linux 5 0_u4 NFS RedHat Enterprise Linux 5 0_u4 iSCSI initiator Windows Server 2003 CIFS a dialect of SMB Windows Server 2003 iSCSI initiator 1 6 Part Number Serial Number and Address Labels At manufacturing time seve
9. 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 V Follow these instructions to extend an existing volume group Step 1 Click the Select box to choose which device will be deleted Step 2 Click the Delete Volume button 6806800H62B ATCA S201 Installation and Use Guide 74 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 EMERSON EVI Emerson ATCA S201 7 SCSI A nfs A smb EN Shares Mana ge Shares LVM2 WS I MD RAID I Hardware RAID Physical Disks FI Maintenance Logical Volume Share Type Block File Action dev vga iva0 iscsi nfs C smb Figure 25 HTML tool Manage shares menu function Block File field Description This button is available for logical devices not yet d
10. configuration page and clicking the remove box for the LUN followed by the submit changes button at the top of the screen The data on the LUN is not erased and remains intact but inaccessible on the target When complete the device resource can subsequently be re assigned as a LUN in another iSCSI target and data access is restored V Follow these instructions to delete an iSCSI LUN Step 1 Click the Remove button corresponding to the LUN you will remove Step 2 Click the Submit Changes button at the top of the menu 7 1 4 Delete an iSCSI Target and all LUNS The user can remove an iSCSI target and all LUN assignments from operation by opening the iSCSI configuration page and clicking the Delete This iSCSI Target button Clicking this button will generate a pop up which will ask the user to confirm this operation V Follow these instructions to delete an iSCSI Target Step 1 Click the Delete Tthis iSCSI Target button corresponding to the Target you will remove Step 2 Click the Submit Changes button at the top of the menu 6806800H62B ATCA S201 Installation and Use Guide 83 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 SCSI section of web interface tool Users may modify any number of parameters listed and then click the submit button located
11. e Support hot swap operation as defined for AMC modules in PICMG AMC 0 specification Fail safe flash update if interrupted at anytime the MMC firmware is still able to respond and re flash 14 2 Sensor data records The MMC monitors the status of the module and provides this data so it can be read by the shelf manager Below are the SDRs that the ATCA S201 and the RTM ATCA SXXX modules create 6806800H62B ATCA S201ATCA S201 Installation and Use Guide 139 Table 72 ATCA S201 Sensor Data Records 116 Luz un Loan 1087 084 om av LL 1124 1121 1099 09 fo LN 3 55 AMC exit autre so Jo Jio ua ua Jan temp _Zone 3 Ext 80 190 100 na wa NJA Zone3 Exit InletTemp_ Lon 170 so A Ma N A inet Temp Table 73 RTM ATCA SXXX Sensor Data Records BoardTemp ims 70 eo 50 na NA NA BoardTemp inlet Temp M60 70 Ia 50 us Na NA inlet Temp The ATCA S201 and the RTM ATCA SXXX include the standard FRU data records per the IPMI Platform Management FRU Information Storage Definition Board Info Area The ATCA S201 and the RTM ATCA SXXX include additional FRU records as defined in the PICMG 2 9 specification Table 74 ATCA S201 Example FRU Data Records RTCA S20 100LYMMssss See note 2 1 Manufacturing time is defined as minutes since 1 1 96 in the IPMI FRU spec 2 Serial Number format 102LYMSSSS AAA Assembly Number 102 L Location of manufacturer 6806800H62B ATCA S201ATCA S
12. lt hostname gt Any combination of letters or digits no spaces 4 6 2 Domain Name lt Read Write gt The user may use this field to specify the registered domain name in which the product will operate e g emerson com or example net In practice this name should be officially assigned and recorded with the domain name registrar V CLIcommand syntax Table 13 CLI command syntax set network property domain name Convention atca_blade set network Y Lt lt domain gt lt domain gt Argument represents new domain name e g yourdomain com 4 6 3 Date lt Read Write gt The user may manually adjust the system date if NTP is NOT enabled Date must be entered as month day year e g 3 15 2008 Note The date will display as Jan 1 2000 when NTP is disabled or no NTP server is found 6806800H62B ATCA S201 Installation and Use Guide 39 RTM ATCA SXXX Overview V CL command syntax Table 14 CLI command syntax set network property system date Convention atca blade set network Y 2 lt date gt Date format MM DD YYYY month day year 4 6 4 Time lt Read Write gt 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 Y ClIcommand syntax Table 15 CLI command syntax set network property system time Convention atca blade set network Y 3 lt time gt hh mm ss for example 01 23 45
13. o 6 ast EIA emir en eros tus Tat un endr mme mm mm e ee fo o s o rune more os m ome Volume draws from Hot Spare Pools 0 1 lok Bus Toget im Vendor O pedt ere Son s o o mom mom ao oome O gt o r o mom o me O Select 1 disk for use as Hot Spare Section 1 Section 2 Section 3 Section 4 mn p No Disks Have Been Allocated to Hot Spare Pools Figure 18 Hardware RAID configuration screen showing existing RAID volume 6806800H62B ATCA S201 Installation and Use Guide RTM ATCA SXXX Overview Hardware RAID Description configuration Section 1 Create RAID List of remaining disks available for new RAID volume definition volumes Click to select disk members Click to select RAID level Click create Volume Upon completion the physical disk view will change to display the new Virtual RAID volume while its disk members become hidden Section 2 RAID Status Provides a detailed status of existing RAID volumes and details regarding Summary the hidden disk members Click delete to erase this volume and return all of the member disks to the pool of available disks Section 3 Allocate Hot Spare List of disks available for new global hot spare The ATCA S201 will use a AA global hot spare to repair a RAID1 or RAIDTE volume that is degraded Section 4 Hot spare status Provides a detailed status of existing global hot spares Click delete to mun return a s
14. that will appear in the physical disk menu Once created RAID disks are managed in the same manner as other physical disks but boast benefits including improved performance and redundancy 6806800H62B ATCA S201 Installation and Use Guide 58 RTM ATCA SXXX Overview ECH Hardware RAID Configuration dev sdb Ry owt aat lun vendor rn mm e ofo o o mon mama mo mo o fol i o men cios so mme AO o 0 2 o faren mopenee ON tat um o o gt rumu mmm mm mose 8 Figure 16 Emerson ATCA S201 gt Hardware RAID new installation screen shot An enumeration of disks that may be used in new RAID LUN definition Parent Identifies the volume that claims ownership to a disk Unknown indicates no volume ownership Host Bus Target Lun Identifies the SCSI parameters used to address the virtual RAID device Vendor Product Rev Use these items to identify the physical disk resource Capacity of the disk Radio button used to select which disks will participate in the new RAID LUN definition RAID1 E Click to create a new RAID1 LUN mirroring RAIDO Click to create a new RAIDO LUN stripping oa Click to commit the selections and create the new RAID device V CLIcommand syntax Table 26 CLI command syntax set raid Add RAID configuration Convention atca blade set raid Y lt diskmask gt lt RAID level gt Y lt diskmask gt Ydisk Ndisk Ydisk Ndisk variable length
15. 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 Be certain to select a general purpose node slot for installation If this installation includes a companion advanced rear transition module ARTM install the ARTM first These back to back slots have cut outs that permit the front carrier board to pass signals to the ARTM via the Zone 3 connector complex Before installing the blade module verify the modules part number to ensure that the correct module is being installed into the system For information on identifying the blade module see Section 1 6 Part Number Serial Number and Address Labels 2 3 Safety Statement The ATCA S201 is designed to comply with UL60950 1 and is intended to be used with similarly tested ATCA and AMC products that have a user s guide detailing user installation 2 3 1 Observe maximum module current requirements Be sure to validate the host chassis and the host chassis meets the maximum current requirements The ATCA S201 includes a stacked power supply module with maximum rated output of 210W of power This represents a surplus of power vs the exp
16. 2 4 3 RTM ATCA SXXX Overview Table 52 Connector J33 PCle 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 The ATCA board may drive a Logic low to reset PCI Express switch and PCI Express interfaces that are behind it RTM signal is grounded by the ATCA S201 to indicate a MMC controller is present see AMC 0 specification The ATCA implementation shall include a 10Kohm pull up resistor to management power on the ATCA In this way an ATCA is able to detect non intelligent vs intelligent RTMs PCI Express bus configuration signal It shall be grounded on RTMs that use a single x8 PCI Express bus and pulled up on the ATCA with 10Kohm resistor to management power On RTMs that expect two x4 PCI Express busses this pin will float not be connected Two x4 PCI Express busses are intended for RTM implementations that desire to avoid PCI Express switch in order to reduce latency The ATCA S201 asserts logic ground to this signal Active low RTM present signal PSO is tied to logic GND on the ATCA blade PSO Connector 133 and PS1 Connector J30 shall be connected through a di
17. 6806800H62B ATCA S201 Installation and Use Guide 133 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 12445678 Figure 45 Serial Console Management Port Pin Location Diagram 13 2 4 Zone 3 Connectors The RTM ATCA SXXX routes several I O signals to the Zone 3 connector complex consisting of connectors J30 J32 and J3 These connectors enable expansion using rear transition modules RTM whose connectors mirror the P connectors located on the carrier module All ofthese connectors utilize a 3 pin per column type available from Tyco electronics http www tycoelectronics com part number 6469081 1 Note The connector pin outs are presented from the point of view of ATCA blade such that TX refers to ATCA blade as the signal source and RTM as the signal receiver RX refers to ATCA blade as signal receiver and RTM as the signal source 6806800H62B ATCA S201 Installation and Use Guide 134 13 2 4 1 Row Interface 1 SAS SAS SAS SAS LANO LANO SAS SAS SAS lO CO Ni oy U1 B WY N RTM ATCA SXXX Mechanical and Connector
18. Change Network Settings n y System Identification and TimeZone Active Settings O Hostname BladeHost STOR200 Changing Hostname from Emersonl to STOR200 1 DomainName Emerson com 22 Datkte 1271972007 48 enable4 1 49 dhcp4 0 50 apaddra 192 1684444 11 K 51 netmask4 255 255 255 0 52 broadcast4 192 168 44 255 53 gateway4 192 168 44 1 54 hwaddr4 00 11 0D D0 08 04 lt 55 MIUZJS 9000 In the previous example the user elected to change the hostname from Emerson to STOR200 Also note the tool prints a index number preceding each parameter Hit the Enter key to proceed through the rest of the list After displaying the final parameter the configuration tool presents the user with two questions Save New Network Settings y n Change Network Settings n n Configuration tool question Possible responses Save New Network Settings y changes are immediately applied and all changes are stored in non volatile ram flash device This action ensures the changes are remembered after reboot n do not store changes in NVRAM Change Network Settings y changes are immediately applied but new values are NOT stored in non volatile flash device They will revert to previous stored on rebbot n discard the changes and return to the main menu 3 5 2 Shell configuration scripting options The atca_blade tool supports scripted invocations to apply a fixed set of para
19. Import System configuration using CLI Step 9 Open a secure ftp connection Note Substitute the proper IP address sftp admin 192 168 100 100 Step 10 Change remote directory cd dev shm Step 11 Set binary mode and copy file bin put nvdisk tar gz exit Step 12 Open a secure remote shell Note Substitute the proper IP address ssh l1 admin 192 168 100 100 Step 13 Un tar the config file tar C xvf dev shm nvdisk tar gz 9 2 ATCA Firmware All firmware code is stored in a single EEPROM flash device located on the carrier blade The ATCA S201 flash device is partitioned into regions containing the following code functions e U boot e Linux Kernel kernel e Root file system and storage applications rfs e Non Volatile blade configuration Data NVDATA 6806800H62B ATCA S201 Installation and Use Guide 96 9 2 1 9 2 1 1 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 Additionally an alternate emergency recovery method is provided to repair flash contents that are blank erased or corrupted Downl
20. Indicates the blade will perform direct block i o with the device bypassing page cache for all operations Optimal for non aligned sector transfers large block transfers lt unique identifier gt a unique ID assigned to the SCSI volume It is required to assist mulitipath aware initiator host accessing the same lt device gt through several targets The lt unique identifier gt must not exceed 16 characters 6806800H62B ATCA S201 Installation and Use Guide RTM ATCA SXXX Overview 7 1 6 SCSI Discovery filter configuration expert mode The SCSI 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 SCSI 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 The iSCSI discovery filter is configured via simple edits to a pair of text based configuration files etc initiators allow jJete Tniti lorsvdeny The file syntax is explained in the next section File changes become active immediately upon save no reboot is necessary Notes Comment lines must start with a as first character The file consists of one or more iSCSI ign Target names If a target iSCSI ign is not listed in these files no filtering is applied this is default c
21. Information ATCA Receptacle view J31 l l Populated l l l ia 5 E FM lu fe LA Gi md CO 10 CO _y m TT Tu 3 es e e Ti 13 13 EE 11911 233933 i J32 CB de mm mm or 23 E 20 La J e fa LN P LH En zl DO V E ra Fl ala r 5 5 TI i 1333 BBE 3393 Tu g J33 3 33333 35 y Y I 2333 ral dE Figure 46 Zone 3 Connector Port Pin Location Diagram Connector P32 Storage and Management Infrastructure Pin Assignments The RTM ATCA SXXX P32 connector pin assignments and descriptions appear below Table 66 Connector P32 Management Infrastructure Pin Assignments A B C D E F SAS_TXO SAS_TXO SAS_RXO SAS_RXO UART_RTSO NC SAS_TX1 SAS_TX1 SAS_RX1 SAS_RX1 UART TXDO UART_RXDO SAS TX2 SAS TX2 SAS RX2 SAS RX2 NC UART_CTSO SAS_TX3 SAS_TX3 SAS_RX3 SAS_RX3 NC NC LANO_MDIOO LANO_MDIOO LANO CTV LANO CTV LANO_MDIO1 LANO_MDIO1 LANO_MDIO2 LANO_MDIO2 LANO_LEDACT LANO_LEDLNK LANO_MDIO3 LANO_MDIO3 SAS TX4 SAS TX4 SAS RX4 SAS RX4 SAS TX5 SAS TX5 SAS RX5 SAS RX5 SAS TX7 SAS TXT SAS TX6 SAS TX6 SAS RX6 SAS RX6 SAS RX7 SAS RX7 6806800H62B ATCA S201 Installation and Use Guide 135 SAS ports 4 7 SAS ports 0 3 RTM ATCA SXXX Mechanical and Connector Information Table 67 Connector J32 Management Infrastructure Signal Descriptions A manufacturing option exists for these signals These pins are
22. 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 Users may utilize the new raid device to create logical volumes and configure iSCSI and NAS file shares The MD RAID configuration tool appears within the html tool s main navigation panel on the left side as shown in the figure below NOTE Software RAID should be applied before defining volume groups using the logical volume manager LVM 5 3 1 Software RAID web configuration menu usage EMERSON EX Emerson ATCA S201 EI T SCSI HA nfs E Configuration dev sdc Unknown 0 FT Hardware RAI On a new system installation this configuration menu enables the creation of RAID disk s that will appear in the physical disk menu Once created RAID disks are managed in the same manner as other physical disks but boast benefits including improved performance and redundancy Available Disk HITACHI HUC101414CSS300 A410 140205MB Y HITACHI HUC101414CSS300 A410 140205MB y HITACHI HUC101414CSS300 A410 140205MB Ke eae O Add to Volume QRAIDO QRAID1 QRAID 4 RAID 5 QRAID6 mdo Joverride warnings Physical Disks Maintenance Import Foreign array O Clear ownership Parameter Available Disk Parent Bus Target Lun Figure 19 Emerson ATCA S201 gt MD RAID new install
23. Network Changes Submit Add New VLAN o VLAN Index etho Ml interface t nfs smb c Use Shares DomainName Time TimeZone Nameservers NTP Server List LVM2 NTP MD RAID Active StorBlade99 domain com 4 6 2009 08 51 59 New York 0 0 0 0 SES E 4 Hardware RAID Settings i a tock usask ca E Physical Disks RE ES i StorBlade99 S F Maintenance StorBlade99 4 6 2009 08 51 59 0 0 0 0 ae Network shaf By CPU Status 192 168 200 30 255 255 255 0 192 168 200 255 192 168 200 1 1500 00 11 0D xx xx xx ATCA Status New Settings 192 168 200 30 255 255 255 0 192 168 200 255 192 168 200 1 1500 192 168 200 31 255 255 255 0 192 168 200 255 192 168 200 1 1500 00 11 0D xx xx xx New settings 192 168 200 31 255 255 255 0 192 168 200 255 192 168 200 1 1500 192 168 200 32 255 255 255 0 192 168 200 255 192 168 200 1 1500 00 11 0D XX XX XX 0 0 0 0 0 0 0 0 0 0 0 0 1500 DHCP Lv Jenable 192 168 43 11 255 255 255 0 192 168 43 255 192 168 43 1 9000 00 11 0D xx x xx New Settings 192 168 43 11 255 255 255 0 192 168 43 255 192 168 43 1 9000 C 1pHer v enable 192 168 44 11 255 255 255 0 192 168 44 255 192 168 44 1 9000 00 11 0D xx xx xx New Settings 192 168 44 11 255 255 255 0 192 168 43 255 192 168 44 1 9000 pHcp lv Jenable Figure 9 Emerson ATCA S201 gt Maintenance gt Network Use the mouse to naviga
24. RIMATEGA SXXX OVERVIEW eegene 118 11 1 FEATURES OF THE ADVANCED REAR TRANSITION MODULE ernornnnvnnrnnnvnnrnnnvnnvrnnenvrnnsennrnnsennrrnssenvrnsenne 118 11 2 I O PICMG STANDARDS COMPIANG EE 118 KC Oe Me E 118 6806800H62B ATCA S201ATCA S201 Installation and Use Guide iv 11 3 1 External SAS Conpector non non nnnnnnnn non nnnnnnnnnnnnnnnnnnnnnnnnnns 119 11 3 2 Ethernet Management Port RA 119 135 Sena Console Pon Raae 120 14 EEDS a i senate nasebaecounmcmbesoan T n AN 120 WSS SOFTWARE SUPPORT a 121 116 PRODUCTS SUPPORTED BY THIS MANUAL dai 121 11 7 PETN NT 121 12 RIMATCASXAINSTALATION Soda aia canina dias 124 12 1 INSTALLATION AND REMOVAL OF THE REAR TRANSITION MODULE ooccccccccnnnnnccnnnnnnnnonananccncnnnnnonananoss 124 12 2 IMPORTANT INFORMATION ABOUT YOUR CHASSIS eunnnrrvrrrrnnnnnnnnnrrssvnnnnnnnnnnnnnnvrvvnnnnnnnnnsnensnssssvnnenenene 124 221 SA CS EE Ee 124 12 2 2 Observe Maximum Module Current Keguirements 124 12 3 BEFORE YOU INSTALL OR REMOVE THE RTM ccsseeeeeeeeeccccccccccseeseeeeeeeeeessseeeeeeeeeeeessseeueneeaaas 125 231 ODSCIVEESD Precaution da 125 12 3 2 Watch for Bent Pins or Other Domoge ono nco nc none noo nonnnnns 125 12 4 USE CAUTION WHEN INSTALLING OR REMOVING RIM errrrrrrrrrrrrrrrvvrnvnnnvnnnnnvvrrrnnnnnnsessssvennnnnnennnnne 126 247 Perle 4 126 1242 Understand HOE EE 126 1225 VERIEY SLOT USES 126 12 6 INSTALLING THE ADVANCED REAR TRANSITION MODULE cccccccccccsscceece
25. 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 Table 5 Console port default terminal settings Baud rate bits per second 115200 Data bits E Parity Stop bits Flow contro A serial interface can be established using a null modem cable and virtually any terminal communications tool If using a PC running Microsoft Windows the user may use HyperTerminal On Linux based systems Minicom can be used Note Use U boot to adjust the default baud rate below the maximum 115200 if desired 3 1 1 System boot overview The ATCA S201 is designed to boot and become ready for management logins without any user intervention This is possible only if the supporting network offers DHCP The ATCA S201 requires no disk drives for initialization At manufacturing time two duplicate copies of firmware code are pre loaded on non volatile flash components embedded on the carrier board These firmware images include U boot a Linux kernel and the root file system rfs which contains the storage application services On power up or reset the blade inspects jumper positions to decide whether firmware is fetched from the customer flash or a read only factory flash This feature allows blade recovery in situation
26. S201 Example FRU DataRecorde non ncnr noo noo nono nconcn anos 14 1 Table 75 RTM ATCA SXXX Example FRU Data Records 14 2 Table 76 Supported IPMICOMIMAMIS std 14 4 Table 77 ipmitool options relevant to firmware upgrades oocooonccnononcnooncnnnonncnnonnnonncnnononoonono noo nonancnnns 15 1 6806800H62B ATCA S201ATCA S201 Installation and Use Guide viii Preface Safety Summary Warning 6806800H62B ATCA S201ATCA S201 Installation and Use Guide 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 You as the user of the product should follow these warnings and all other safety precautions necessary for the safe operation of the equipment in your operating environment GROUND THE INSTRUMENT To minimize shock hazard the equipment chassis and enclosure must be connected to an electrical ground If the equipment is supplied with a three conductor AC power cable the power cable must be plugged into an approved three contact electrical outlet with the grounding wire green yellow reliably connected to an electrical ground safety ground at the power outlet The power jack and mating plug of the power cable meet
27. address gt Remote server address can be IP address or hostname This option is required for lan interfaces If updating AMC use this to specify optional bus address of the bridge device ex Carrier IPMB 0 address if updating an AMC If updating an AMC these this optional bus ID of the Bridge device ex 0 if updating through a IPMC bus ID of the final target 0 IPMB 0 IPMC 7 IPMB L AMC 6806800H62B ATCA S201ATCA S201 Installation and Use Guide 15 1 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 hpml fw 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 The following example shows the command performing firmware upgrade on the carrier itself ipmitool I lan H 192 168 0 2 t 0x82 b 0 hpm upgrade hpmlfw img ipmitool I lan H 192 168 0 2 t 0x82 b 0 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 6806800H62B ATCA S201 Installation and Use Guide 15 2 B Ei elle EEE EEE 47 C EEE See SMB CLI BI ETG Stats a
28. and RAID6 The Software RAID features of this product can provide better capacity utilization efficiency but can consume a greater percentage of CPU and system memory bandwidth NOTE If RAID is not needed please proceed to the next chapter AMC disk Physical Logical iSCSI amp NAS modules groups amp Site B1 ES volumes ste 2 EI HW RAID ER Zone 2 Fabric IP network Xe site 83 E 11 mapping JBOD enes Zone 2 Base GE IP host Y share points Pad Zone 3 RTM Site B4 8 1 1 mapping JBOD ei CIFS share points 5 1 Hardware RAID configuration Administrators will use two inter related menus to enable and configure the hardware RAID features of ATCA S201 These configuration tools appear within the html tool s main navigation panel on the left side as shown in the figure below Emerson ATCA S201 gt Hardware RAID Emerson ATCA S201 gt Physical Disks NOTE Hardware RAID should be applied before defining volume groups using the logical volume manager LVM 6806800H62B ATCA S201 Installation and Use Guide 57 RTM ATCA SXXX Overview T 15 nfs 40 iscsi 20 nfs EMERSON 55 spare e e disk El HI EY Emerson ATCA S201 ED smb E Shares EN GM LVM2 Configuration Vo ume gro u p OU MDRAID example dev vga Configuration OO ES iscsi o o Sus example dev vga lva0 30 SCSI 20 SCSI mt M Hardware RAID no Configuration hysical Disks RAI D
29. 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 Target Default Settings Alternatively SCSI configuration options may be set via simple edits to a text based configuration file etc ietd conf using a console window The configuration file contains an entry for each target entry created by the web or cli tools The file contains a stanza style entry for each iSCSI target that begins with the parameter name Target The file syntax is explained in the next section File changes become active at next reboot or by re starting the iSCSI service as root etc rc d init d iscsi stop etc rc d init d iscsi start Y Sample ietd conf file for SCSI targets Notes Comment lines must start with a as first character A line may extend across multiple lines if last character is backslash Parameter values are case sensitive Yes and No Parameter names are case insensitive The file consists of a global part and zero or more Target stanzas Everything before the first Target definition belongs to the global configuration iSCSI target configuration file ietd conf it Target igqn 1995 07 com emerson BladeHost Target0O IncomingUser OutgoingUser NoAlias Alias NoAlias MaxConnections InitialR2T ImmediateData MaxRecvDataSegmentLength 262144 MaxXmitDataSegmentLength 262144 MaxBurstLength 262144 FirstBurstLength 655
30. conf Preserve new volume attributes Create new volume Issue this command immediately after creating a new volume This command preserves key volume parameters and ensures the new volume is available across system reboots mdadm detail scan Issue this command at any time to inspect volume status mdadm add raiddevice lt spare device gt List volume status Create hot spare Used to add a spare disk to an existing raid device Users may issue this commend any number of times to specify multiple spare drives if available Device name assigned to existing volume Example dev md0 Designate spare device Example dev sda mdadm remove raiddevice lt faulty device gt Remove faulty disk d 6806800H62B ATCA S201 Installation and Use Guide RTM ATCA SXXX Overview remove 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 lt faulty device gt Designate faulty device Example dev sda etc rc d init d mdarray sto Remove volume EE Y E Edit file fetc mdadm conf and remove RAID volume entry 6806800H62B ATCA S201 Installation and Use Guide 65 RTM ATCA SXXX Overview 5 3 3 Software RAID levels and capabilities RAID ee RAID4 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 stripi
31. example uboot gt run flashboot version Displays the version and build date of the U boot image running on ATCA blade 3 6 3 U boot environment variables Administrators may display the full list of environment variables using the printenv command U boot includes the following environment variables with pre assigned factory default settings Table 9 U boot environment variables shown with printenv Default value bootcmd run flashboot This variable defines a command string that is automatically executed when the initial bootdelay countdown is not interrupted flashboot A sequence of commands set at manufacturing time If in the U boot console use run flashboot to boot the ATCA using the images contained in flash This command sequence is executed automatically by bootcmd in a normal power up ramboot A sequence of commands set at manufacturing time If in the U boot console use run ramboot to boot the ATCA from the serverip node nfsboot A series of startup commands set at manufacturing time RESERVED for future use bootdelay 5 U boot will wait this number of seconds before it executes the bootcmd variable After reset a countdown message is printed to the serial console Pressing any key will interrupt normal boot and display the U boot console prompt Value 0 boot without delay Value 1 disable autoboot always enter U boot console baudrate 115200 RS232 Serial port baud rate default 115200 decimal Max 1
32. file rootfs ext2 gz uboot kkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkxkxkkk Do not interrupt this process E or the system will be unbootable 6806800H62B ATCA S201 Installation and Use Guide 100 RTM ATCA SXXX Overview kkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkxk 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 The primary image used for normal customer carrier operation while the second image contains a backup copy preserved for emergency firmware recovery tasks The contents of the backup flash remain fixed at time of manufacturing and there is no end user mechanism to modify its contents This ensures the device is not accidentally re written or erased A jumper on the ATCA blade is used to instruct the CPU to boot either the primary flash normal or the secondary flash emergency recovery 9 4 1 Jumper Settings The ATCA S201 carrier board includes jumpers that are used for special recovery and reset procedures Jumper locations are shown in Figure 30 Jumpers create an electrical connection between two pins which can be sensed by circuitry on ATCA S201 to enter special service modes or behavior Pin 1 is identified with a square solder pad on the
33. global hot spares may be defined for each ATCA S201 2 3 A maximum of 10 disks may be used for a single RAID volume 4 A maximum of 12 disks cumulative for both RAID volumes not including spares 5 2 2 How new RAID definitions alter device menu display The number of devices appearing in the Physical Disks menu will change once the user applies RAID services The figure below illustrates this concept In this example there are four AMC disk modules available to the ATCA S201 but only three disks appear in the physical disk menu 6806800H62B ATCA S201 Installation and Use Guide 60 RTM ATCA SXXX Overview AMC disk modules Site B1 6 Site B2 6 Mg Ite 4 ZE Zone 2 Fabric IP network Site B3 Ei 1 1 mapping JBOD i NFS Zone 2 Base lt gt IP host share points l Zone 3 RTM Site B4 8 1 1 mapping JBOD x CIFS share points Figure 17 Figure shows how RAID LUN definitions alter physical disk display 5 2 3 Modify existing RAID configurations After creating a RAID volume the RAID configuration tool page changes to include several new configuration options The menu is now comprised of four sections arranged to facilitate creation and deletion of RAID volumes and global hot spares Available 1 lo 2 o HITACHI HUC101414CSS300 A410 140205MB om Select 2 or more disks for Volume Create Volume 9 Raid1 E Mirroring Extended O Raido Striping voume ee mme ee soms Sue men Noumea
34. grounded static free surface and in the case of a board component side up Do not slide the component over any surface If an ESD station is not available you can avoid damage resulting from ESD by wearing an antistatic wrist strap available at electronics stores that is attached to an active electrical ground Note that a system chassis may not be grounded if it is unplugged 12 3 2 Watch for Bent Pins or Other Damage Bent pins or loose components can cause damage to the board the backplane or other system components Carefully inspect your board and the backplane for both pin and component integrity before installation Our suppliers take significant steps to ensure there are no bent pins on the backplane or connector damage to the boards prior to leaving our factory Bent pins caused by improper installation or by boards with damaged connectors could void the warranty for the backplane or boards If a system contains one or more crushed pins power off the system and contact your local sales representative to schedule delivery of a replacement chassis assembly 6806800H62B ATCA S201ATCA S201 Installation and Use Guide 125 RTM ATCA SXXX Installation 12 4 Use Caution When Installing or Removing RTM A 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 ex
35. level chassis ATCA AMC shelf managers etc The RTM module will not preclude the system from passing NEBS 10 1 5 Electromagnetic Compliance The board is designed and implemented so as to minimize electromagnetic emissions susceptibility and the effects of electrostatic discharge The board carries the following certifications 6806800H62B ATCA S201ATCA S201 Installation and Use Guide 106 RTM ATCA SXXX Overview Table 40 EMC Emission compliancy US FCC 47 CFR Part 15 Class A FCC Class A emissions requirements United States ICES 003 2004 Class A Class A Interference causing Equipment standard Canada VCCI V 3 2007 04 Class A Class AITE emissions requirements Japan Europe Commercial EN5022 2006 Class A ITE Class AITE emissions requirements EU Europe AS NZS CISPR 22 2005 Class A ITE Class AITE emissions requirements Australia Europe Commercial EN 55022 1998 A1 2000 A2 2003 Immunity for ITE equipment Europe Commercial EN 55024 1998A1 2001 A2 2003 Immunity for ITE equipment Europe Commercial EN 61000 4 2 3 4 5 6 11 2001 EMC Electrostatic discharge immunity Europe Commercial EN6100 3 2 2000 Section 2 E Limits for harmonic current Europe Commercial EN6100 3 3 2000 Section 3 ee HUB ie ar velge Huc atore ane 10 2 Connectors and Pin assignments This section provides position and pin out details of all connectors available on the ATCA S201 6806800H62B ATCA S201 Installation and Use Guide 107 RTM ATCA
36. nro ncn canoso 124 Table 59 Max RTM Module Current Requirements ooococcoccnonoonconnnononnnononononnononon nono noo non noo nco non nro non conos 129 Table 60 Environmental Specifications for the ATCA S207 rrrnrranrrnvrnnvrnnvrnnvenvrnnvrnnvennrennrrsnrnsvrnnvennnnns 130 Table 61 EMC Emission Omland sv 131 Table 62 Connector Port Identification and Location noo nonnnon ono ncn conos 132 Table 63 RTM ATCA SXXX Front Panel SAS Connector Pin Assignments oococonoccononnnooncnnninnnononnnnnos 133 Table 64 10 100 1000 Management Port Connector Pin Assignments ococccocnnoncnoncnnonnnonncnanonanonnos 133 Table 65 Serial Console Management Port Connector Pin Assignments oococcoccnoncononnnonncnnnononononnnnnos 134 Table 66 Connector P32 Management Infrastructure Pin Assignments oococccccnoncononnnonncnnnonanononnninos 135 Table 67 Connector J32 Management Infrastructure Signal Description 136 Table 68 Connector J33 Miscellaneous RTM Pin ASSIGNMENTS cooccccnoncoonconnoonnoononononnnonnnonnnnononanonnncnnos 136 Table 69 Connector J33 Miscellaneous RTM Signal Descriptions 137 Table 70 J30 RTM Power Pin Header Aeelgnment noo nono non nino non nro nan nono 137 Table 71 Connector J30 RTM Power Pin Signal Descriptions ccccccccesseseceeeseesecsseesseeeeeseeseeeseeaeenes 138 Table 22 ATEA 5204 Sensor Data Records ae 14 1 Table 73 RTM ATCA SXXX Sensor Data RECOFS nono non nnon ona ncn nora non ncnnnns 14 1 Table 74 ATCA
37. of the ATCA carrier board may proceed 6 Carefully pull the module from the chassis 7 Ifthe card slot is to remain empty install a filler panel in the slot 2 10 Verifying the Hardware Installation This section provides information to verify the installation of the ATCA S201 10 GbE RAID storage services module 6806800H62B ATCA S201 Installation and Use Guide 18 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 Inspect the LEDs on the front of the ATCA panel When properly installed and powered the LEDs will illuminate as follows e ATCAHot Swap LED Off Normal default state e ATCA Health status Green blinking Healthy OK e ATCA Out of service OOS Off Normal default state Optional There are five Ethernet ports on the ATCA blade e 1management on RTM e 2 ATCA base ports zone 2 connector e 2ATCA fabric ports zone 2 connector If DHCP is running on the network it is possible to immediately ping the Ethernet ports on the ATCA module Open a command line window on any node and attempt to ping the ATCA blade ok ping 192 168 1 xxx Note1 Ping requires that you determine the IP address assigned to the blade The carrier blades MAC address assignments are registered with the IANA public section of the IEEE Standards OUI Organizational unique identifier database The Ethernet port
38. protocols and efficiently map these protocols to block I O storage using SAS SATA disks and optional RAID protection This product can also map IP protocols to Fibre Channel SAN resources if populated with a 4Gb Fibre channel AMC module Key software services include e iSCSI service IETF RFC 3720 NFS service version 3 network file share SMB service Server Message Block file system Integrated RAIDO RAID1 and RAID1E service SNMP HTML web configuration client 6806800H62B ATCA S201ATCA S201 Installation and Use Guide 7 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 5 Intelligent Platform Management Interface Specification PCI Express 1 0a 1 3 Chassis I O connections The ATCA S201 provides several sockets and slots to facilitate operation in an ATCA chassis In addition to 4 AMC modules the module includes chassis backplane connections including ATCA zone 1 power zone 2 fabric and zone 3 Advanced rear transition module Site B1 MPC8548E CPU Zone2 DDR2 FLASH SA ATCA Site B2 tll XAUI VE 10GigE 40 Gh 8SAS LSI1068E
39. refresh ccsccssccsscssccesssscsscsesssscsecessessceesssscenssenssscsecsesesacessesscens 52 411 2 eelere 52 4115 Reel SOPP 52 22 PS A FIRIBUTES ee 53 Ada ATCA SATUS ATRIBUTO ii 54 RAID VOLUME CONFIGURATION curar 57 5 1 HARDWARE RAID CONFIGURATION re ato een E outetesencementoonententuouneouseueure 57 PN NNN 58 5 2 HARDWARE RAID CONFIGURATION MENU USAGE eseridacion did derdedeuasineiddete 58 5 2 1 Hardware RAID levels and capabilities EE 60 5 2 2 How new RAID definitions alter device menu display cooooooconnnonnonconcncnnancnnonanonnonnnos 60 5 2 3 Modify existing RAID configurotions noo nono noo ncononn cnn n corona nro ncnnnons 61 5 3 SOFTWARE RAID CONFIGURATION se 63 5 3 1 Software RAID web configuration menu Usgdge noo ncononnnons 63 5 3 2 Software RAID CLI command Syntax essesssescessesscessescsscessessceesesseecesscseceasessesssessessessensens 64 53 3 HEEL 66 PREPARE LOGICAL VOLUMES FOR ISCSI OR FILE SHARING cssscccssssssceeceessssceeeessssseeeeesesees 67 6 1 BENEFITS OF A LOGICAL VOLUME GROUP DEV VGA cscceccssscsseesscssecseesecsecsssesecesessseessesaesereeseaes 67 6 1 1 Benefits of a Logical device disk dev Vga Iva0 csccsscessesscessesscesesesscessescsssessssesesseeeaes 67 6 2 VIEWING de GJE OE ED EE ET EE EEE 68 62 1 Interpreting physicaldisk STAS ii edit 68 6 2 2 View physical disk properties scccccesscscessesscescessesscsecessesscessesscesseasesscessessceesess
40. the Access Attributes if desired The default attributes include rw sync no wdelay root squash Syntax note attributes must be in parenthesis with no white spaces Step 5 Left click the update button 6806800H62B ATCA S201 Installation and Use Guide 90 RTM ATCA SXXX Overview V 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 V Follow these instructions to create a new smb File Share Export smb menu Emerson ATCA S201 gt smb gt smb Configuration Use the smb configuration menu to export shares to OS s using Server Message Block services such Microsoft Windows ey OO e KE IC aeons ve Figure 29 HTML tool Emerson ATCA S201 gt smb gt smb Configuration Step 1 Choose the logical device from the drop down menu that will map to this export Step 2 Click the Add nfs Export button After confirming the popup the configuration tool page changes and will display the newly created export along with several export attributes MK Open format comment field Step 3 Adjust the Access Attributes if desired Step 4 Left click the update butt
41. to change factory default passwords to protect unauthorized access and configuration of the storage blades resources The method described in this section explains a procedure to clear the blades root password to factory default None of the other user account passwords are cleared V root password reset procedure method 1 This procedure is useful when the user has no access to the RTM serial console port NR Remove the ATCA carrier the chassis see 2 9 Removing the ATCA carrier blade Locate header JP2 and move the jumper to the service setting Re install the ATCA blade into the chassis and allow it to reboot Inspect the LED s on the front panel When the ATCA Health status begins blinking green the password reset has occurred Power down the blade and again remove it from the chassis Locate header JP2 and move the jumper to the normal setting Re install the ATCA blade into the chassis and allow it to reboot 6806800H62B ATCA S201 Installation and Use Guide 103 RTM ATCA SXXX Overview 8 Administrators may login as root There is no password and the root user will be asked to create one V 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
42. to minimize the amount of write data kept in volatile system memory Though itis sometimes slower to complete all writes to disk doing so can prevent data loss in the event of a power failure 6806800H62B ATCA S201 Installation and Use Guide 94 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 1 Blade Maintenance The following section describes how to create a backup of an existing blade configuration and how to restore this configuration on a replacement blade The procedure will record the iSCSI NAS volume and share privileges of all disk storage connected to the ATCA S201 Moreover it will record IP attributes of all fabric base and RTM Ethernet ports as well as any VLAN bonds or RAID definitions 9 1 1 Backup your blade configuration The ATCA S201 blade software keeps all system configuration data in a single archive file This file contains all customizations made by the user over the life of the blade Administrators can manually copy this file to a safe location and later reload the configuration if needed The
43. used to specify the dotted decimal IP address of the remote tftp server example t 192 168 1 151 If this option is omitted the script will search for tftp at the IP address assigned to U boot variable assignment for serverip V Example 1 flash new root file system and kernel from specified tftp server SOT Lah E ae HE I NOI kos 9 3 3 CLI flash tool update procedure details The following procedure is a detailed description of the CLI flash update procedure Y Upgrade firmware procedure 1 Establish console or ssh access to the ATCA S201 Must be user root 2 Install a second host machine on the same IP network as the ATCA S201 This machines IP address must be visible from the ATCA S201 Use ping to validate it is accessible e g ping 192 168 xxx xxx 3 Load the second host machine with TFTP server software A good quality tftp program is offered by PumpKIN an open source and free implementation that is written to RFC1350 4 Copy all new firmware file to the secondary host machine named tftpboot 5 Execute the following command from the ATCA S201 shell sbflash t 192 168 1 151 r uboot flash dev mtd4 rootfs flash dev mtd2 kernel flash dev mtdl Will use TFTP Server 192 168 1 151 Writing root file system image rootfs ext2 gz uboot to dev mtd2 File rootfs ext2 gz uboot not found on local system try tftp from 192 168 1 151 Successful tftp get of rootfs ext2 gz uboot Updating Flash dev mtd2 from
44. where hh 00 to 23 mm and ss 00 to 59 4 6 5 Time Zone lt Read Write gt World Time references are synchronized with GMT The drop down time zone field allows the user to choose a city matching the physical deployment region and daylight savings observance To minimize code size only one city per world time zone was chosen The valid list of drop down field are shown in Table 17 Time Zone Selections Y CLIlcommand syntax Table 16 CLI command syntax set network property system time zone Convention atca blade set network Y 4 lt zone gt Pick from list in Table 17 Time Zone Selections E g New York Chicago etc 6806800H62B ATCA S201 Installation and Use Guide 40 RTM ATCA SXXX Overview Table 17 Time Zone Selections World Menuitem Daylight savings World Menu Item Daylight savings Zone Zone mm DEE oc Paris CET Central European om FET EasternEuropen om2 O GMT3 Moscow BT Baghdad MES toms lemma SET ams o os New_York EST Eastern Standard lamme ES Chicago CST Central Standard Om om gt GMT 10 Sydney GST Guam Standard GMT Honolulu HST Hawaiian Standard apes aes eS TT GMT 11 GMT mm IO TI GMT 12 GMT amp p 1 gt 4 6 6 Name Server list Name servers must be specified using dotted decimal notation For redundancy purposes the user may specify up to five servers each separated by a comma V CLI command syntax Table 18 CLI co
45. 00H62B ATCA S201 Installation and Use Guide 16 4
46. 02 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 Submit All Network Changes Submit AddNewVLAN 0 VLAN Index Interface V CU command syntax Users may also configure VLANs using a console window and the Linux vconfig tool vconfig offers a rich set of feature options The section below explains only the minimal options to add or remove a VLAN definition Consult the Linux manpages for more details SYNOPSIS vconfig add rem options DESCRIPTION vconfig is a program which enables the user to create and remove vlan devices OPTIONS add interface name vlan id Creates a vlan device on interface name The resulting vlan device will be called according to the naming convention set Users should avoid using vlan id 1 Many hardware products use vlan id 1 as the management vlan See linux manpage vconfig for more information rem vlan device Removes the named vlan device V Example 1 add a vlan interface to XAUI port 4 ID 66 vconfig add eth4 66 ifconfig eth4 66 up Finally enable the VLAN and commit to system flash memory atca blade set network Y 52 1 6806800H62B ATCA S201 Installation and Use Guide 45 RTM ATCA SXXX Overview Convention atca_blade set_network Y lt VLANindex gt lt enable gt lt VLANindex gt Use VL
47. 11 0D XX XX XX sasaddr WWIN address of SAS controller port0 Port 1 is WWN 1 Port2 is WWN 2 and so on ipaddr 005050 Dotted decimal IP address applied to active Ethernet TN management port ethact gatewayip Dotted decimal Default network gateway netmask Dotted decimal network mask stdin Specifies RS232 console port for input messages stdout Specifies RS232 console port for output messages stderr Specifies RS232 console port for error messages serverip Dotted decimal IP address of TFTP server ethact At boot ethprime is Ethact identifies which Ethernet resource is associated copied to ethact with U boot services Permissible values eTSECO Zone2 connector Base Ethernet 1Gbps eTSEC1 Zone2 connector Basel Ethernet 1Gbps eTSEC2 Zone3 connector Management port 1Gbps Note ethact may be dynamically changed at the U boot console but it is not a persistent variable and will be reloaded at next boot netdev RESERVED for future use ethprime eTSEC2 At boot ethprime is copied to ethact Refer to ethact for a list of permissible values 3 6 4 Manually assign management IP addresses Administrators may individually modify any of the listed U boot environment variables Note these changes are not permanently recorded in the non volatile flash unless saved using saveenv Extreme care should be taken to ensure new values are valid entries 6806800H62B ATCA S201 Installation and Use Guide 32 RTM ATCA SXXX Overview
48. 15200 loads echo il If set to 1 all characters received during a serial download using the loads command are echoed to the serial console RESERVED for future use A AAA AAA 6806800H62B ATCA S201 Installation and Use Guide 31 RTM ATCA SXXX Overview Variable name Default value Description boot file This is the filename name of the Linux kernel image loadaddr 1000000 Specifies the starting memory address for storing the bootfile consoledev ttyst Settings for kernel console port root dev ram rw Command line passed to the Linux kernel May contain bootargs ramdisk size 200000 nested references which will be resolved at runtime console ttySl 9600 Ramdiskaddr 2000000 Specifies the starting memory address of the Linux ramdisk ramdisksize 2000000 Specifies the memory size reserved for the Linux ramdisk initrd high Oxfffffff Forces ramdisk to load at a high memory address do not othbootargs Used to pass Ethernet MAC and SAS address assignments ramdiskfile rootfs ext2 gz uboot Specifies name of rfs root file system image fetched by EEE U boot when booting from the tftp server serverip eth0addr MAC address of 1 GbE port on ATCA Zone 2 base 0 ethladdr MAC address of 1 GbE port on ATCA Zone 2 base 1 eth2addr MAC address of 1 GbE port on ATCA Zone 3 Management port eth3addr MAC address of 10 GbE porton ATCA Zone 2 fabric 0 eth4addr MAC address of 10 GbE port on ATCA Zone 2 fabric 1 50 00 00
49. 2 RTM ATCA SXXX Mechanical and Connector Information Table 63 RTM ATCA SXXX Front Panel SAS Connector Pin Assignments Connecto Signal r Pin Description SAS RXO t S1 SAS Lane 0 Rx Differential Pair Drives ATCA Zone 3 connector SAS_RX0 S2 P32 SAS_RX1 S3 SAS Lane 1 Rx Differential Pair Drives ATCA Zone 3 connector SAS_RX1 S4 P32 SAS_RX2 S5 SAS Lane 2 Rx Differential Pair Drives ATCA Zone 3 connector SAS RX2 S6 P32 SAS RY ES S7 SAS Lane 3 Rx Differential Pair Drives ATCA Zone 3 connector SAS RX3 S8 P32 SAS TX3 S9 SAS Lane 3 Tx Differential Pair Drives ATCA Zone 3 connector SAS TX3 S10 P32 SAS TX2 S11 SAS Lane 2 Tx Differential Pair Drives ATCA Zone 3 connector SAS TX2 12 P32 SAS TX1 13 SAS Lane 1 Tx Differential Pair Drives ATCA Zone 3 connector SAS TX1 14 P32 SAS TXO0 S15 SAS Lane 0 Tx Differential Pair Drives ATCA Zone 3 connector SAS TX0 S16 P32 13 2 2 10 100 1000 Mb Management Port The RTM ATCA SXXX provides a 1 GbE management port on the faceplate via RJ45 jack port 3 The port is wired as pass through to the front ATCA carrier via the J32 P32 Zone 3 connector Table 64 10 100 1000 Management Port Connector Pin Assignments Pin Signal Name Pin Signal Name 1 LANQ A 5 LANO_C 2 LANO_A 6 LANO_B 3 LANO_B 7 LANO_D 4 LANO_C 8 LANO_D 123456738 Activity LED Activity LED Amber Green ge i Ss Ki Figure 44 10 100 1000 Mb Management Port Pin Location Diagram
50. 2 Figure 43 RTM ATCA SXXX Front Panel SAS Connector Pin Out Diagramm 132 Figure 44 10 100 1000 Mb Management Port Pin Location Diagram coooconccccnononncnnncnnonncnanonnonanons 133 Figure 45 Serial Console Management Port Pin Location Diagram 134 Figure 46 Zone 3 Connector Port Pin Location Diagram nrrnnnvrnnenvrnnnnvnnenvrnnenvnnsenvnnsrnrnnsrnrnnsvrnnssnrnnen 135 Figure 4730 RTM Power Receptacle a 137 6806800H62B ATCA S201ATCA S201 Installation and Use Guide vi List of Tables Table 1 Conventions used in this NET UE EE iv Table LED ANS AP 12 Table 3 ATCA S201 Identification Label 12 Table 4 Max ATCA S201 module Current reguirements 14 Table 5 Console port default terminal SettingS ooooonocnconnnoncnonoonnnonononononono nono ncnnnno nono ncnn non nonnonononos 21 Table 6 Built in user accounts included on a NEW ATCA SA0 23 Table 7 Ethernet ports for chassis communications haseltabrtc 26 Table 8 Essential U boot configuration commande 30 Table 9 U boot environment variables shown with printenv o ooonocnoconoccononononncnncononononcnno non nono noo nonnnonnnos 31 Table 10 CLI command syntax enable disable GUI access ccc eececesccsscessceseessceecesecsseesseeseseseeeseeseeens 35 Table 11 CLI command syntax single session management override cooococcnoncnononnnonnnonncnnnonnnonanonnonos 36 Table 12 CLI command syntax set network property hostname oooocccccoconononononnnonnnonncnnnonano
51. 2 Conftouration 71 Figure 25 HTML tool Manage shares menu function rsrranrnnvrnnrnnvrnvrrnvanrrnvrrnrrnvernrrnvrnnrnnnrnnrnnnnnnesnnnnnnns 75 Figure 26 HTML tool Emerson ATCA S201 iSCSI 3iSCSI Configuration 81 Figure 27 SCSI configuration screen updates to show the new LUN rrnrrvrnnvrnvrrnrrnvrrnrrnrrnvernrrnvesnrrnrens 83 Figure 28 HTML tool Emerson ATCA S201 nfs gt nfs Copnfiguration 90 Figure 29 HTML tool Emerson ATCA S201 gt smb gt smb Configuration sravervrrnrrnvrnrrnvrrnrnvrvrrnenne 91 Figure 30 e SEIT Jumper locations Hare 102 Figure 31 ATCA S201 ATCA Module Connectors EE 108 Figure 32 Zone 1J10 Connector Port Pin Location Diagramm 111 Figure 33 Zone 2 Connector Port Pin Location Diagramm 112 Figure 34 Zone 3 Connector Port Pin Location Dagram ieee eeeesceeeenceeeeeeeeeaeeeeeaeecesaeeseeaeeeteaeenaees 113 Figure 35 130 RTM Power Receptacle ENER 116 Figure 36 RTM ATCA SXXX Functional Interconnect Diagram ernrrnrrnvrnvrnvervvrnvrnrrnernernrrnrrnrernrsnernenn 119 Figure ST Ethernet Mana gen E ET Lee 120 Figure 38 RTM ATCA SXXX Front Panel LEDen 121 Figure 39 RTM ATCA SXXX Top View Two Disk DIivesS oooonoonocnonnoncconoonoonoonononoononnnoonononconcncnnnnnos 121 Figure 40 RTM ATCA SXXX Diagram Showing Identification Label Locations 123 Figure 41 Injector Ejector Latch and LOCKING Screw sswannnnnrannnnvnnnnnnvanvanvennrnnvennrnnvennrnnrsnvsnnesnrrsvssnsnnnn 127 FIGUre 42 RTMEATEA SAXA e EE 13
52. 201 Installation and Use Guide 14 1 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 See note 1 Emerson RTM ATCA SXXX AAALYMMssss See note 2 1 Manufacturing time is defined as minutes since 1 1 96 in the IPMI FRU spec 2 Serial Number format AAALYMMssss AAA 401 part code denotes RTM ATCA SXXX Location of manufacturer S Y Calendar year of manufacturer 2008 8 MM Calendar month of manufacturer March 03 SSSS Sequence number reset each month 1234 14 2 1 RTM e Keying Port Assignments Port Port Name Link type Link type RTM Pin groups extension une pp S o une fp 2 Pclelane AWG 1PCIExpresstype 8 tre J33A1 81 C1 DT_ 3 Potelaner AMC1 PC Expresstype8 O Gent J33 A2 B2 C2 La Pclelanez AMC1PCExpresstype8 0 Gent 3343 83 C3 D3 5 Pkt AMIC TPCIExpresstype8 0 Gent 33A4 84 C4 D4 6 PCielane AMIC TPCIExpresstype8 0 Gent 13345 85 C5 D5 B PcleLane6 AMIC TPCIExpresstype8 0 Gent__ J337 B7 C7 D7 etc AMC TPCIExpresstype 8 O Gent own om 70 o AMC Storagesigralng Jun Om set Amcastorgesgnaing A A 6806800H62B ATCA S201 Installation and Use Guide 14 2 IPMI Functions List 2 SAS EE A BAA BA CHDA 15 ESE AMC Storagesigraln
53. 36 DefaultTime2Wait 2 DefaultTime2Retain 20 MaxOutstandingR2T DataPDUInOrder DataSequencelInOrder 6806800H62B ATCA S201 Installation and Use Guide 84 ErrorRecoverylLevel HeaderDigest DataDigest Wthreads 8 Lun 0 RTM ATCA SXXX Overview Path export iSCSI lva0 Type blockio Scsild RXEUlYcCN9siiOnP 6806800H62B ATCA S201 Installation and Use Guide 85 RTM ATCA SXXX Overview Table 33 SCSI Advanced configuration and parameter definitions Target iqn lt yyyy mm gt lt tld domain host Target gt lt identifier gt Identifies the iSCSI Qualified Name which is globally unique as required by the iSCSI standard iqn followed by a single dot lt yyyy mm gt is the date year and month at which the domain is valid followed by a single dot 66 99 lt tld domain gt Reversed domain name followed by a single dot 66 99 lt host gt Host name is assigned on Maintenance gt Network page followed by a dot lt Target gt is set to numerically enumerate each iSCSI target definition e g TargetO Target1 etc The optional lt identifier gt permitted by RFC3720 but is not used Used to set the lt username gt and lt password gt to authenticate SCSI initiators during discovery sessions using CHAP Several entries can be specified for each target discovery If no IncomingUser is specified any initiator may open a discovery session Note RFC 3720 requires lt password gt to
54. 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 N op 13 27 48 up 21 05 1 user load average 0 03 0 02 0 00 F asks 61 total 1 running 60 sleeping 0 stopped 0 zombie EMERSON Cpu s 0 0 us 0 0 sy 0 0 ni 100 0 id 0 0 wa 0 0 hi 0 0 si 0 0 st work Power Mem 1034688k total 228964k used 805724k free 185084k buffers Swap Ok total Ok used Ok free 14496k cached EVY Emerson ATCA S201 Lo E a e NN EE ee a l 00 00 0 00 00 peiehpd 496 root 20 o 7080 2032 1692 s 00 02 0 00 30 sshd iSCSI PE TS E EA E Fe 17888 root 20 o 2456 1136 916 r 10 o1 0 00 02 top nis 1 root 20 o 3876 808 680 s oo o1 0 07 44 int smb gt vm 1 s o o o amp os 0 0 0 00 00 wreada Ces 3 root a 5 o o o s 00 00 0 00 00 ksoftirqd O A root 15 5 o o o s 00 00 0 09 15 events 0_ LVM2 5 root as 5 o o s 00 00 0 00 01 khelper E MD RAID 6 me 1 s 0 0 A 00000 eblock 76 root 15 5 o o o s 00 00 0 00 00 ao Hardware RAID 77 root 15 5 o o o s oo 00 0 00 00 ata
55. ANindex 52 to modify 1 VLAN definition Use VLANindex 60 to modify 2 VLAN definition Use VLANindex 68 to modify 3 VLAN definition Increment index by 8 for each additional VLAN definition lt enable gt 0 1 Value 0 disables the port value 1 enables the port Other prompts Other prompts will follow V Example 2 Remove vlan interfaces on XAUI port 4 ID 66 Disable the VLAN port see notes above for explanation of lt VLANindex gt atca blade set network Y lt VLANindex gt 0 vconfig rem eth4 66 Permanently remove VLAN port from system flash memory Edit file to remove 12 lines for VLAN entry vi etc network conf Example remove these 12 lines net interface 6 ifconfig eth4 up if grep eth4 66 proc net dev c ne 1 then vconfig add eth4 66 fi HWADDR 6 SYSCFG_IFACE 6 y INTERFACE 6 eth4 66 IPADDR 6 5 5 5 5 NETMASK 6 255 255 255 0 BROADCAST 6 4 4 4 255 GATEWAY 6 0 0 0 0 MTU 6 1500 IF NAME 6 VLAN Network Port 6 4 7 1 Viewing active VLAN Each VLAN is enumerated within the management web tool and CLI tools Open the network page Each VLAN appears as Port Description eth vlan id Network Configuration Y Example 2 list vlan interfaces on XAUI port 4 ID 66 ifconfig eth4 66 6806800H62B ATCA S201 Installation and Use Guide 46 RTM ATCA SXXX Overview 4 8 Link aggregation and bonding The ATCA S201 supports 802 3ad link aggregation also kn
56. Bes Raw Unknown HITACHI Pucioneracss30d ato D ei zem Omime 70136 MByes Raw Unknown FUITSU weng 0103 O volume Access TotalSue PESE Tom Allocated Space FreSpace Set Member pen Capacity mx mar AllocatedPE ett Status Ire med menes e o me Volume lVName Access Status Open Sie Seen Enter size to create or extend 68 GBytes New Volume Extend Volume Delete Volume V Follow these instructions to create a new logical device Step 1 Enter the size of the new device in the field labeled Enter size to create or extend It can exceed the seed value displayed in the box Step 2 Click the New Volume button Y CU command syntax Table 29 CLI command syntax create new logical device Convention atca blade set lvm2 index lt diskmask gt Y lt size gt Y lt diskmask gt Ndisk Ndisk variable length mask Must specify one entry for each available system disk Size of new logical volume Syntax examples atca blade set lvm2 Y Ndisk Ndisk Y 100 Y Create a logical disk of size 100GB 6 4 1 Extend Expand a Logical Device dev vga Iva0 The user may dynamically expand the space allocated to a logical device V Follow these instructions to extend an existing volume group Step 1 Click the Select box to choose which device that will get additional capacity 6806800H62B ATCA S201 Installation and Use Guide 73 RTM ATCA SXXX Overview Step 2
57. CI Vendor ID 4 digit Hex value representing the PCI device ID SVID 4 digit Hex value representing the PCI sub system vendor ID set to 0000 for non PCI modules SSID 4 digit Hex value representing the PCI sub system device ID set to 0000 for non PCI modules Bus Slot Func Displays the OS assignments for bus slot and function of the PCIe device set to 0000 for non PCI modules AMC state Collection of values pertaining to AMC modules with PCI devices FRU data retrieved from the management device it indicates the manufacturer of the device Butto d K n usage Suppress Radio button when selected will eliminate the majority of pop up confirmations Warnings that precede major configuration changes Allow GUI Radio button will allow an administrator to operate the GUI and CLI simultaneously and CLI Refresh This button will redraw the display window This button will reboot the storage blade and all storage served by this blade will be unavailable The Blade will terminate all applications and shutdown its internal OS The blade will automatically reboot by executing the uboot kernel and applications loaded in its flash memory This button will power down the storage blade and all storage served by this blade will be unavailable The Blade will terminate all applications and shutdown its Power Off internal OS When the sequence completes all hot swap LED indicators will illuminate Blue Manua
58. ENTIONS USEDIN THIS MANUA ee IV HARDWARE PREPARATION AND INSTALLATION ccssccsccssccssccsccsccccccsccssccsscsscesccsscescescesccecsessseces VI UNPACINCANS TRUETON Sp sad VI ANTISTATIG e ge VI 1 ATCA S201 OVER VIEW vr 7 1 1 FEATURES OF THE ATCA STORAGE MODULE asii 7 1 2 O PICMG STANDARDS COMPLIANCE RAET VE NEN 8 1 3 CHASSIS TO CONNECTION eee 8 ERT AM cad eelef dE 9 k32 DORZSODI Mis aid 9 135 Zone porer DACKDIGNE CONE A ida 9 13 4 Zoe bemerke 9 135 Zone3 Advanced Reeg EES 9 1 4 A Banaaan 11 1 5 GEERT eegene 12 1 6 PART NUMBER SERIAL NUMBER AND ADDRESS LABELS AAA 12 2 AFONSO INSTALLATION GT 14 2 1 INSTALLATION AND REMOVAL OF THE ATCA CARRIER BLADE cccessecscccessecccceeeesecseceeesecseceeuseeseeeensns 14 2 2 IMPORTANT INFORMATION ABOUT YOUR CHASSIS vuvvennvnnnvvnnnvnnnnvnnnnnnnnnennnnrnnnusnnernnnnnnnnnnnnuesennvnunesenen 14 2 3 SER SEN EA EE ETE RE A EEA NN 14 2 3 1 Observe maximum module current reguirerments 14 2 4 BEFORE YOU INSTALL OR REMOVE THE ATCA CARRIER BLADE ooocccccnnnccccnnnnnocononononicoconononccccnnnnncccnnonos 15 241 Observe ESD PreCQUEONS EE 15 24 2 Watch forBent Pins or Other Damage Avr 15 2 5 USE CAUTION WHEN INSTALLING OR REMOVING THE ATCA CARRIER ssssccccceesscccceessscseseeeesccsceeenscss 15 251 Preserve EMICOMPIONCO ici 15 252 Understand HOL WOD annene ads 16 2 6 CONNECTOR MECHANICAL KEYING anna is 16 2 7 ME VU NER 16 2 8 INSTALLING THE ATEA CARRIER BLADE se 16 2 9 REMOV
59. EX Switch LaneO PCI Express PEX Switch Lane1 PCI Express PEX Switch Lane2 PCI Express PEX Switch Lane3 AMC Slot B4 Port Assignments Port Mapping PCI Express Clock SAS SATA Controller Port 3 SAS SATA Controller on RTM PCI Express PEX Switch Lane PCI Express PEX Switch Lane1 PCI Express PEX Switch Lane2 PCI Express PEX Switch Lane3 10 2 2 Zone 1 Connectors The ATCA S201 includes a standard zone 1 connector designated as J10 on the ATCA board This connector is implemented with a 30 pin male connector type available from Positronics industries http www connectpositronic com part number VPB30W8M400A1 6806800H62B ATCA S201 Installation and Use Guide Port Assignments for AMC Slot B3 RTM ATCA SXXX Overview Port Region 8 9 10 11 12 13 14 15 16 17 18 19 Port 10 11 12 13 14 15 16 17 18 19 AMC AMC AMC AMC AMC AMC AMC AMC EXTENDED EXTENDED EXTENDED EXTENDED EXTENDED EXTENDED EXTENDED EXTENDED Region AMC AMC AMC AMC AMC AMC AMC AMC EXTENDED EXTENDED EXTENDED EXTENDED EXTENDED EXTENDED EXTENDED EXTENDED Port mapping Port mapping 110 Pin Signal NC NC NC NC PP HA PP HAT PP HA2 PP HA3 PP HA4 O CO NI DI U BY WI N ATCA Receptacle view RTM ATCA SXXX Overview ATCA PCB Figure 32 Zone 1 J10 Connector Port Pin Location Diagram Table 46 Connector J10 Zone 1 Pin Assignments Pin Pin 10 11 12 13 14 15 16 17 18 Signa
60. Ethernet port The root account has master privileges with absolute power to modify the blades Linux OS in any way desired It is unadvisable to use root as the normal user account because simple typographical errors accidental file deletions or generating unintentionally restrictive file permissions could render the blade in operable requiring the factory reset procedure For normal activities Emerson encourages using the admin user account and judicious use of the su command only when root privileges are really needed 3 2 1 Password change procedure The login password may be changed using the linux passwd command For example if logged in as root the password change procedure is shown passwd Changing password for root Enter the new password minimum of 5 maximum of 8 characters Please use a combination of upper and lower case letters and numbers Enter new password XXXXXXX Re enter new password XXXXXXX Password changed it 3 2 2 Password recovery procedure In the event that the administrator login root is lost or forgotten it is possible to clear it using jumpers provided on the ATCA S201 The jumper location along with 6806800H62B ATCA S201 Installation and Use Guide 23 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
61. Fah Ett Motos MD ona Hinn nn ne Fn nn nd Both test eet En baba MD DIDA Motos MODO Tintin Mo 10 9 0b pob pob Row FE DC BA IL J32 ATCA PCB i H J33 kA LD D zl On Un BWHN HE O O D rd DU P UN EP Figure 34 Zone 3 Connector Port Pin Location Diagram Connector P32 Storage and Management Infrastructure Pin Assignments The ATCA S201 P32 connector pin assignments and descriptions appear below Table 49 Connector P32 Management infrastructure pin assignments A B C D E F SAS_TX0 SAS TXO SAS RX0 SAS Ra UART_RTSO NC SAS_TX1 SAS_TX1 SAS_RX1 SAS_RX1 UART TXDO UART_RXDO SAS_TX2 SAS TX2 SAS RX2 SAS RX2 NC UART_CTSO SAS_TX3 SAS_TX3 SAS_RX3 SAS_RX3 NC NC LANO_MDIOO LANO_MDIOO LANO_CTV LANO_CTV LANO_MDIO1 LANO_MDIO1 LANO_MDIO2 LANO_MDIO2 LANO_LEDACT LANO_LEDLNK LANO_MDIO3 LANO_MDIO3 AMCO_TX3 AMCO_TX3 AMCO_RX3 AMCO_RX3 AMC1_TX3 AMC1_TX3 AMC1_RX3 AMC1_RX3 AMC3_TX3 AMC3_TX3 AMC2_TX3 AMC2_TX3 AMC2_RX3 AMC2_RX3 AMC3_RX3 AMC3 RX3 6806800H62B ATCA S201 Installation and Use Guide 113 RTM ATCA SXXX Overview Table 50 Connector J32 Management infrastructure signal descriptions SAS out These signal pairs connect to the SAS controller LSI 1068 on ATCA S201 ports 4 5 6 and 7 SAS in These signal pairs route to the Port3 of the AMC slots sites O 1 2 and 3 LANO_MDIOxx GbE Management port 10 100 1000BaseT signals These signals route to a transceiver owned
62. ING THEA TEA CARRIER BLADE tas 18 2 10 VERIFYING THE HARDWAREINSTALLATION non nnnnrnnannnnnnnnons 18 3 2 10 1 To Verify the Hardware Installation ooooonocnncnnonnoncocononoononancononn nn nonncnn cnn n ron ono nroncnnnos 19 NEW SYSTEM CONFIGURATION iaa ai a 20 3 1 PENNEN 21 Sell A tae Dae ahi ATE 21 ST Fash DOOL OCC ONA ee SIER 22 3 1 3 Linux serial console shell wiNdOW oooocccnnonnccnnonnccnananaconananonnnancccnananonananccrnnan cc cnannna conos 23 302 DEFAULT BLADE LOGIN ACCOUNTS AND PASSWORDS ccccocccconncconcconnncnonaconncnancccanna ronca ronca ronca rana cannncns 23 ST PE EN 23 322 Pte Ee e 23 3 3 FACTORY RESET PE dd dd 24 3 4 EEGENEN EE 24 SAF MN 24 542 ee EE 24 3 4 3 Management Configuration via HTML Droweer 25 3 44 Management configuration via secure shell Gah 25 3 4 5 Management configuration via serial console hel 25 3 5 COMMAND LINE CONFIGURATION TOOL E 26 3 5 1 Change IP address of any Ethernet resource oococcnoconononononononannononanonnnconoronono nono ncnn nro nora nenas 26 352 MEN configuration SCH DEIIG ODLIONS dia 28 3 6 NEW SYSTEM CONFIGURATION NO DHCP SERVER coooccccccccnnonanananaaaaaaanno noo no nono nono nono nono nono non nor rro ronrnnoos 29 OT NNN 30 3 6 2 Essential U boot user commands uis ceeccccceccsccessscecsscccsssceessscsessscsesssceesssseessseessseesseseesseseesseess 30 363 Ubodt environment VANdDIGS iii dd A a geg age 31 3 6 4 Manually assign management IP
63. International Electrotechnical Commission IEC safety standards and local electrical regulatory codes Do NOT OPERATE IN AN EXPLOSIVE ATMOSPHERE Do not operate the equipment in any explosive atmosphere such as in the presence of flammable gases or fumes Operation of any electrical equipment in such an environment could result in an explosion and cause injury or damage KEEP AWAY FROM LIVE CIRCUITS INSIDE THE EQUIPMENT Operating personnel must not remove equipment covers Only Factory Authorized Service Personnel or other qualified service personnel may remove equipment covers for internal subassembly or component replacement or any internal adjustment Service personnel should not replace components with power cable connected Under certain conditions dangerous voltages may exist even with the power cable removed To avoid injuries such personnel should always disconnect power and discharge circuits before touching components USE CAUTION WHEN EXPOSING OR HANDLING A CRT Breakage of a Cathode Ray Tube CRT causes a high velocity scattering of glass fragments implosion To prevent CRT implosion do not handle the CRT and avoid rough handling or jarring of the equipment Handling of a CRT should be done only by qualified service personnel using approved safety mask and gloves Do NOT SUBSTITUTE PARTS OR MODIFY EQUIPMENT Do not install substitute parts or perform any unauthorized modification of the equipment Contact your local Emerson re
64. M ATCA SXXX is hot swappable and can be removed from the chassis without powering down its associated node board This section describes a recommended procedure for removing a board module from a chassis Before you remove your module please read all cautions warnings and instructions presented in this section Hot swap compliant modules may be removed while the system is powered on If the chassis is not hot swap compliant you should remove power to the slot or system before removing the module To remove a rear transition module follow these steps 14 15 16 19 20 Loosen the locking screws on the rear transition module Rotate the top ejector handle to the half way HW position Do not remove the module immediately If your host module running hot swap aware software the action of rotating the ejector lever will start the shutdown process on the board The software will slowly blink the blue hot swap LED indicating the module is in the process of being de activated Once the module has been de activated the Blue LED will illuminate steady Once this is done you can extract the module by pulling on the module handle Note Powering down or removing a board before the operating system or other software running on the board has been properly shut down may cause corruption of data or file systems If your board or system is not running hot swap aware software the blue LED may illuminate without regard to softw
65. MDIOT MDIO2 MDIO2 MDIO3 MDIO3 6 BASET MDIOO MDIO0 MDIO1 MDIOT MDIO2 MDIO2 MDIO3 MDIO3 7 g 2 S p i E E 3 S 9 a p E z S z S 10 Table 48 Connector J23 Zone 2 Signal Descriptions XAUI_0 Fabric Port 0 1OGbE XAUI TX and Rx signals XAUI_1 Fabric Port 1 TOGbE XAUI TX and Rx signals BASE 0 Base Port 0 1GbE MDIO interface signals For Star or dual star backplanes BASE_1 Base Port 1 1GbE MDIO interface signals For Star or dual star backplanes 10 2 4 Zone 3 Connectors The ATCA S201 routes several I O signals to the zone 3 connector complex consisting of connectors J30 J32 and J33 These connectors enable future expansion using advanced rear transition modules RTM whose J connectors mirror the P connectors located on the carrier module All of these connectors utilize a 3 pin per column type available from Tyco electronics http www tycoelectronics com part number 6469081 1 Note The connector pin outs are presented from the point of view of ATCA blade such that TX refers to ATCA as the signal source and chassis as the signal receiver RX refers to ATCA blade as signal receiver and chassis as the signal source 6806800H62B ATCA S201 Installation and Use Guide 112 10 2 4 1 Row Interface lO CO N a Ul AIW N O SAS out SAS out SAS out SAS out LANO LANO SAS in SAS in SAS in RTM ATCA SXXX Overview ATCA Receptacle view oO Tinbnbin ono ob dob
66. MI_SCL_L IPMI_SDA_L b Pwr Logic GND 3 3V MP a Pwr Logic GND Shelf GND 6806800H62B ATCA S201 Installation and Use Guide 137 PS1 IPMI_SCL_L IPMI_SDA_L 12VPP 3 3V MP Shelf GND Logic GND RTM ATCA SXXX Mechanical and Connector Information Table 71 Connector J30 RTM Power Pin Signal Descriptions Active low RTM present signal PS 14 shall be pulled up to 3 3V Management Power on the ATCA blade PSO 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 PSO is on the opposite end of the set of connectors Logic low on PS1 indicates that RTM is present and fully inserted IPMI bus clock signal as defined in AMC 0 specification The RTM shall have a pull up resistor for this signal as indicated in AMC Ospecification IPMI bus data signal as defined in AMC O specification The RTM shall have a pull up resistor for this signal as indicated in AMC 0 specification 12V Payload Power enabled after successful E keying as outlined in the AMC 0 specification RTM must meet requirements posted for payload power in AMC specification 3 3V Management Power RTM must meet requirements posted for management power in AMC 0 specification Frame Chassis Safety Ground Logic Ovdc Logic Ground Common return for Management Power Payload Power reference potential for single ended logic signaling and shielding for differential
67. 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 The procedure is sometimes recommended following a major firmware upgrade i Login into shell window as root ii Atconsole prompt type fw setenv setfactorydefaults 1 3 4 Configuring a new ATCA S201 blade Initial configuration and setup of your blade may be conducted over Ethernet or serial RS232 connections Select the connection type that supports your preferred management style either CLI command line tool or HTML as outlined below Connection type Command line tool Secure html tool Base or fabric ports on ATCA Y Yes V Yes Zone 2 connector 3 4 1 Serial ports O omen An RJ45 serial port can be found on RTM panel The default baud rate and communication settings are listed in Table 5 Console port default terminal settings in section 3 1 2 The serial port attributes such as baud rate may be changed in the U boot environment using the bootargs variable see section 3 6 3 titled U boot environment variables 3 4 2 Ethernet ports An RJ45 Ethernet port can be found on RTM panel It auto negotiates Ethernet link speeds up to 1Gbps Additional Ethernet ports base and fabric are provided on the ATCA zone 2 connector By default all Ethernet ports will attempt to obtain an IP address assignment
68. Ns and each LUN maps one to one with a logical share device When an external host subsequently connects to the iSCSI target it may write to a LUN which again is mapped to the logical device An external host may partition and format each LUN individually and write independent data CLI command syntax Table 32 CLI command syntax create iSCSI share Convention atca blade set iscsi This command invokes an interactive session to modify the SCSI setting of the blade The command will spawn a series of Yes No questions which guide the user the SCSI configuration options The command session and responses can be scripted to automate a common configuration setup on multiple blades 6806800H62B ATCA S201 Installation and Use Guide 81 RTM ATCA SXXX Overview Delete This iSCSI Target 262144 NoAlias 262144 262144 65536 1 es 20 1 1 A AA low these instructions to create an iSCSI LUN Fol Step 2 Use the LUN Drop down menu to specify the LUN assignment for the resource Step 3 Use the Path Drop down menu to specify the logical device that will map to this LUN Step 4 Click the Add LUN button Repeat to add additional LUNs 6806800H62B ATCA S201 Installation and Use Guide RTM ATCA SXXX Overview mme em me fm Figure 27 SCSI configuration screen updates to show the new LUN 7 1 3 Remove an individual iSCSI LUN The user can remove an iSCSI LUN from operation by opening the iSCSI
69. P address of any Ethernet resource The ATCA S201 provides multiple Ethernet interfaces that host blades may use for initial setup and configuration These ports are identified with the Linux resource labels shown in the table below Table 7 Ethernet ports for chassis Communications base fabric V Perform manual Interactive changes After invoking the command line tool atca blade the user can modify any of the parameters within the functional groupings listed above For example select the 2 Network Settings group The configuration tool will display the entire list parameters in the group along with their present values Main Page for CLI Interface IPMI Settings get status Network Settings set network Hardware Raid Configuration set raid Logical Volume Mangager LVM2 Configuration set 1lvm2 Manage Shares set shares smb Configuration set smb nfs Configuration set nfs iSCSI Configuration set iscsi Web gui enable set qui Allow Web and CLI at the same time set useroverride Os EXIL Enter choice 1 10 0 to exit 0 2 CO kO OO JO UV GM Eee System Identification and TimeZone Active Settings Hostname BladeHost DomainName Emerson com 6806800H62B ATCA S201 Installation and Use Guide 26 RTM ATCA SXXX Overview Dabte 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 NTPServ
70. RTM Lo 6 1 1 mapping JBOD CIFS share points 7 1 SCSI configuration menu Using the HTML configuration tool navigate to this configuration page Emerson ATCA S201 gt iSCSI gt SCSI Configuration This top html menu provides the ability to create an iSCSI target on a device e g Jdev vga lva0 that was previously committed for iSCSI block I O share see chapter 7 1 1 Add or create an iSCSI target These are the final steps to make an iSCSI device appear on the IP network 6806800H62B ATCA S201 Installation and Use Guide 80 EMERSON RTM ATCA SXXX Overview EVI Emerson ATCA S201 EVT SCSI o I nfs E E smb FI Shares LVM2 iSCSI Configuration Submit Changes Add an iSCSI Target O MD RAID CT Hardware RAID Physical Disks FI Maintenance Figure 26 HTML tool Emerson ATCA S201 iSCSI gt iSCSI Configuration Follow these instructions to create a new iSCSI target Step 1 Click the add an iSCSI Target button After confirming the popup the iSCSI configuration tool page changes and will display a list of operating attributes for the new iSCSI target The menu will also include a new section to create an iSCSI LUN see next section 7 1 2 Add or create an iSCSI LUN The final step in defining a usable iSCSI resource requires the creation of one or more iSCSI LUNs A LUN Logical Unit Number is an addressable entity on the iSCSI target A target may have several LU
71. RTM is limited to 25 W maximum The unpopulated base blade no AMC or RTM blade will consume 1 04 A at 48 V 50 W 10 1 3 Environmental Specifications and Compliance The environmental specifications for the ATCA S201 assembly are presented in the table below 6806800H62B ATCA S201 Installation and Use Guide 105 ATCA S201 Mechanical and Connector Information Table 39 Environmental specifications for the ATCA S201 SPECIFICATION Operating Temperature airflow 5 0 OC 55 C CFM Operating Temperature airflow 2 0 0 C 23 C CFM Storage Temperature 40 C 85 C Operating Temperature Gradient 11 C H max Storage Temperature Gradient Shipping Temperature Gradient Operating Humidity Storage Humidity Shipping Humidity E 95 Wet bulb Maximum Temperature Condensation Atmospheric Pressure and Altitude Operating 0 3 000 m Shipping 0 12 000 m Operating Shock See PICMG 3 0 specification Regulatory guidelines Operating Vibration See PICMG 3 0 specification Regulatory guidelines RoHS 6 0f 6 compliant Operating voltage 36 to 72 Vdc Operating power 3 12 48V 150W max total shared as follows Max ATCA blade Current Draw 1 04 48V 50 watts unpopulated Max current draw each AMC slot 72 watts max each 100 watts total shared Max current draw ARTM slot 25 watts max power pool Reliability MTBF 229481 Hours 10 1 4 NEBS Compliance NEBS certifications are performed by integrator at a system
72. SXXX Overview Table 41 Connector Port Identification and Location 2 acs e Zone 3 83 RTM signal connector 10 ES ES 5 SODIMM DDR2 socket 11 Power supply mezzanine module Zone 3 J30 RTM power connector 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 Each slot is routed with PCI Express AMC 1 and storage AMC 3 signaling VW AMC 1 SAS SATA Channel 2 of the AMC slots is allocated for SAS signaling All four AMC are connected to the SAS Controller located on the ATCA carrier Channel 3 of the AMC slots is allocated for SAS signaling A manufacturing option is available to provide ONE of the following configurations e Port 3 is routed to the on board SAS Controller e Port 3 is routed to the Zone 3 RTM connector 6806800H62B ATCA S201 Installation and Use Guide 108 V AMC 3 PCI Express All four slots implement a x4 PCle connection on channels 4 to 7 All slots are directly RTM ATCA SXXX Overview connected to the PCI Express switch located on the ATCA carrier 10 2 1 1 AMC Slot B1 Port Assignments Table 42 AMC Slot 0 Port Assignments Port Region Port Mapping CLK1 CLOCK CLK2 CLOCK CLK3 CLOCK PCI Express Clock 0 COMMON 1 COMMON 2 COMMON SAS SATA Controller Port 0 3 COMMON SAS SATA Controller on RTM 4 FAT PIPE PCI Express PEX Switch Lane port 14 5 FAT PIPE PCI Express PEX Switch Lane1
73. Software reset SAS controller Import Software Update Import System Configuration Export System Configuration backup nvdisk tar gz V Follow these instructions to load new firmware Step 1 Click the Browse button navigate to find the new gz firmware file Step 2 Click the Import button The import can take 1 to 5 minutes the user must wait and not navigate away from the open browser window Step 3 The following screen will appear Click the software component s to upgrade and click the Update button dev shm ATCA S201 V1 0rc7 u boot Apply Software Update dev shm ATCA S201 V1 0rc27ulmage 2 6 23 dev shm ATCA S201 V1 0rc27rootfs Export System Backup backup nvdisk tar gz 6806800H62B ATCA S201 Installation and Use Guide 98 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 Revision ATCA S201 0004 01 10 01 50 ATCA S201 100LYMMSSSS Type Oo o o 0009 0001 Vendor Product Model Serial State Present MgOK PayEna PayoK AMCState Emerson AMC 5402 0106825G_ O68NYMxxxx Control Phynum tye SASAddress Handle om nam 500000e016cbdo32 s Vendor Product Model Serial State Present MgEna MgOK PayEna PayOK AMCState Emerson AMC 5402 0106825G_ O68NYMxxxx Site F i Ena
74. TML configuration tool navigate to either of these configuration pages EMERSON EVY Emerson ATCA S201 I SCSI EV nfs nfs Configuration CC Smb smb Configuration A Shares I LvM2 7 MD RAID Hardware RAID A Physical Disks 7 Maintenance 6806800H62B ATCA S201 Installation and Use Guide 89 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 V Follow these instructions to create a new nfs File Share Export Emerson ATCA S201 gt nfs gt nfs Configuration nfs menu Use the nfs configuration menu to export shares to OS s using network file services such as Linux or Solaris nfs menu Add nfsExport Figure 28 HTML tool Emerson ATCA S201 nfs gt nfs Configuration Step 1 Choose the logical device from the drop down menu that will map to this export Step 2 Click the Add nfs Export button After confirming the popup the configuration tool page changes and will display the newly created export along with several export attributes Update ME hes An export nfs lvbO rw sync no wdelay root squash Q Remove Update Step 3 Enter one or more client names separated by commas in the client list box Step 4 Adjust
75. W ono nonnnna non ncnnnos 17 Figure 5 Management communications port location diagram Twvpical 20 Figure 6 ATCA Blade boot sequence dagram ENEE 22 Figure 7 Boot Fash device contents ve 22 Figure 8 HTML tool startup O is 37 Figure 9 Emerson ATCA S201 gt Maintenance gt Network ccccsessesceseeeeseeeeeseeseeseesessesseseeseesersaees 38 Figure 10 Link aggregation 802 3ad bonding theory of Operation rrarranvrsvrrnrrnvrrnranrrnvrrnrnnvernrrnnnnn 47 Figure 11 HTML tool Emerson ATCA S201 gt Maintenance Shelf A 49 Figure 12 HTML tool Emerson ATCA S201 gt Maintenance DIO Status 50 Figure 13 HTML tool Emerson ATCA S201 gt Maintenance gt CPU Status 53 Figure 14 HTML tool Emerson ATCA S201 gt Maintenance gt ATCA Status 54 Figure 15 HTML tool Main navigation side bar Hardware RAID gt Configuration ocococnnonconcnnnonnso 58 Figure 16 Emerson ATCA S201 gt Hardware RAID new installation screen shot snrvrrnrnnvrvrnnrnr 59 Figure 17 Figure shows how RAID LUN definitions alter physical disk display oo oo o 61 Figure 19 Emerson ATCA S201 gt MD RAID new installation screen Shot rsnrnvrrnrrnvrnvrrnvrnvrrvrrnrnn 63 Figure 20 HTML tool Emerson ATCA S201 gt Physical Disk summary screen 68 Figure 22 HTML tool Main navigation side bar LVM2 gt Configuration rrrnrrnvrrnrrnvrrnrrnvrrvennrnnvennnrnrnns 70 Figure 23 HTML tool Emerson ATCA S201 gt LVM
76. addresses o cooncoccconcnononanoononanonanonnnoononononononanonncnanonnos 32 3 7 NETWORK BOOT PROCEDURE rinilan na o lea 33 NETWORK CONFIGURATION use 34 4 1 ENABLE TA LIVI BROWSER AGCESS rada dao 35 4 2 HTML SECURITY CERTIFICATES HTTP cat ds 35 4 3 SR eler inc 35 AST Auto logout IMME CLIVILY DOM OG E 36 4 3 2 Single session management override csccessesscescetsesscsscessesscessessceesesscsscessssssesessessesseasens 36 4 4 FIMEHOMENGE EE 36 4 5 ESSENTIAL SYSTEM CONFIGURATION STEPS Sia od 37 4 6 SYSTEM IDENTIFICATION AND TIME ZONE ATTRIBUTES cccccccccccccecccccccececececceeccccecceeceeeeeeeeeeeeeeeeeeeeeens 38 201 Hode 39 46 2 Ree et Re TEEN 39 PN 39 MENN 40 e ZOMG EE 40 AO NNN 41 TET MP 41 4 6 8 Network time protocol NIPfOn OIT ven nrnn rn vrrnrrnvrrnrnn venner nrnnnrvrrnnene 42 4 6 9 Ethernet network port identification mersine reiia E A KN E ENE 42 46 10 ENDE errereen 43 E bcs tense astieieadsadias iaadist cam onstaotieierddn das saa a T 43 DC Ee 43 6806800H62B ATCA S201ATCA S201 Installation and Use Guide ii 7 46 13 Neimork SUbNeN OSI EE 43 TN 44 46 15 GN Lave 44 OVO MTU SIZE EE EE EE EE nanianteoraaauaties 44 2617 MGP saa 44 4 7 VLAN VIRTUAL LOCAL AREA NETWORK SUPPORT iaa 45 ATL MEN ade Uve VLAN sinira A E E N T 46 4 8 LINKAGGREGANON AND BONDING pe 47 481 Bona ee ee EE 48 4 9 TON NNN 49 210 OSP STRENG 50 4 11 BLADE MAINTENANCE MISCELLANEOUS OPERATIONS RR 51 4 11 1 Rescan SAS Topology disk
77. and Use Guide Logic Ovdc Logic Ground Common return for Management Power Payload Power reference potential for single ended logic signaling and shielding for differential pair signals in the AMC Connector 116 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 Pin Signal Pintt Signal Pin Signal Pin Signal 1 48 A 9 CC 17 A2 25 3V3 OUT 2 48 B 10 HU 18 INTRPT 26 3V3 OUT 3 NC 11 HUHU OUT 19 Al 2 NC 4 NC 12 HU IN 20 SCL 28 NC 5 RTN_A 13 ON OFF 21 AO 29 12V_OUT 6 RTN_B 14 ON OFF 22 SDA 30 12V RIN 7 EN_A 15 B_OK 23 3V3_RIN 31 8 EN_B 16 A_OK 24 3V3_RIN 32 Note This module is not user serviceable 10 2 6 SODIMM DDR Module The ATCA S201 incorporates a SODIMM socket which holds the DDR2 memory for the onboard PowerPC processor Note This module is not user serviceable 6806800H62B ATCA S201 Installation and Use Guide 117 11 RIM 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 populate
78. and line management For example ssh 192 168 1 211 1 admin 3 4 5 Management configuration via serial console shell 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 KKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKK Welcome to the Emerson ATCA S201 Storage Blade Type atca blade to manage this blade or use the Web Based Management tool by browsing to A HA of the blade https ipaddr where ipaddr is the network address KIKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKK WebHost WebDomain login admin Password admin After successful login the user may run any the shell configuration tools presented in section 3 4 5 6806800H62B ATCA S201 Installation and Use Guide 25 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 1 root ro ta 192 168 L xxX 8S password root Last logan Tue Nor 20 1TL51 50 2007 trom 192 166 L4XXX cd web cgi bin web cgi bin atca_blade 3 5 1 Change I
79. anel 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 The manager will illuminate the blue hot swap LED on the front faceplate when software has stopped and it is safe to remove the advanced rear transition module If the blue LED is not illuminated or blinking it is not ready for removal Powering down or removing a board before the operating system or other software running on the board has been properly shut down may cause corruption of data or file systems 2 6 Connector Mechanical keying The ATCA supports mechanical connector keying to help prevent installation with incompatible components and RTM The ATCA carrier board utilizes an A1 K1 key that is set at for universal 2 7 Verify Slot Usage Prevent possible damage to module components by verifying the proper slot usage for your configuration In most cases electronic keying E keying will prevent power on of a board into an incompatible slot However as an extra precaution you should be familiar with the slot purpose 2 8 Installing the ATCA carrier blade This section describes a recommended procedure for installing the ATCA carrier module in a chassis Before you install your module please
80. ard needs AMC slots and advanced rear transition module RTM Zone 2 backplane connections This connector carries the Ethernet links to the chassis backplane All Ethernet ports on this connector are full duplex and all ports support access to advertised storage resources This connector includes the following Gigabit Ethernet ports e 2Fabric channels redundant 10GbE XAUI connections e 2Base channels redundant 1GbE base connections Zone 3 Advanced RTM connector This connector conforms to the advanced rear transition module RTM 3 row connector standard The following functions are routed to this connector e 8xPCl express e 4x SAS SATA target connections e 4x SAS SATA initiator connections e FC support 6806800H62B ATCA S201 Installation and Use Guide ATCA S201 Overview e 12V and 3 3V supply voltage e 1GbE management e RS232 management 1 3 5 1 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 6806800H62B ATCA S201 Installation and Use Guide 10 ATCA S201 Overview 1 4 LEDs Several LEDs are located on the panel of the ATCA S201 Advanced TCA Carrier Out of Service OOS ok
81. are processes still running on the board Be sure to manually shut down applications or operating systems running on the board prior to board removal Carefully pull the module from the chassis If the card slot is to remain empty install a filler panel in the slot 12 8 Verifying the Hardware Installation This section provides information to verify the installation of the RTM ATCA SXXX Visually inspect the module power LED on the RTM panel Refer to Figure 38 RTM ATCA SXXX Front Panel LEDs 6806800H62B ATCA S201 Installation and Use Guide 128 13 RIM 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 The RTM ATCA SXXX is keyed to conform to the PICMG 2 10 Keying of ATCA Boards and Backplanes specification 13 1 2 Power Requirements There are several manufacturing options for the RTM Be sure to validate the host chassis can supply the RTM slot with these maximum current requirements Table 59 Max RTM Module Current Requirements Module Current ATCA S201 0 ATCA S201 2 Tw
82. ase To establish a discovery filter a target s iSCSI ign name must appear in both files V etc initiators allow Enter the iSCSI iqn followed by one or more ip addresses Use a comma to separate multiple IP address entries Note Entries must not use tabs 1995 07 com emerson BladeHost Target0 192 168 1 109 1995 07 com emerson BladeHost Targetl 192 168 1 108 192 168 1 110 V etc initiators deny For each iSCSI iqn listed above make a corresponding entry as shown Each entry should consist of the iSCSI iqn followed by the word ALL Note Entries must not use tabs 1995 07 com emerson BladeHost TargetO ALL 1995 07 com emerson BladeHost Targetl ALL 6806800H62B ATCA S201 Installation and Use Guide 88 RTM ATCA SXXX Overview 8 NFS SMB Share setup tools Configuration Step DD AS RS232 Ethernet RAID Logical Volume iSCSI NFS SMB Console Setup Comm Setup LUN Setup Setup Device Setup 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 AMC disk Physical Logical iSCSI amp NAS modules disks groups Site B1 6 IP network Site B3 6 1 1 mapping JBOD S E IP host Site B4 8 1 1 mapping JBOD 8 1 NFS and SMB mount point configuration menus Using the H
83. atform 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 IPMI enabled devices The utility is an open source derivative which is modified by the shelf management supplier The ATCA S201 keeps a redundant copy of the firmware in the FLASH Upgrades are reliable and reversible A failure in the download error or interruption does not disturb the IPMC s ability to continue using the old firmware or its ability to restart the download process The IPMC automatically fails back to the previous firmware if there is a problem when first running new code SYNOPSIS The minimum information to complete a firmware upgrade is documented here ipmitool I H T B t b hpm upgrade lt firmware file gt ipmitool I H T B t b hpm activate DESCRIPTION ipmitool lets you manage Intelligent Platform Management Interface IPMI functions of either a local or remote system using IPMI V1 5 and IPMI v2 0 Capabilities include printing FRU data LAN configuration sensor readings and remote power control OPTIONS Table 77 ipmitool options relevant to firmware upgrades I lt interface gt Selects IPMI interface to use Supported interfaces that are compiled in are visible in the usage help output Use lan to designate Ethernet H lt
84. ation Table 69 Connector J33 Miscellaneous RTM Signal Descriptions PSO Active low RTM present signal PSO is tied to logic GND on the ATCA blade PSO Connector 133 and PS1 Connector 30 shall be connected through a diode on the RTM exactly as defined in AMC 0 specification PS1 is last mate on Power connector and PSO is on the opposite end of the set of connectors Logic low on PS1 indicates that RTM is present and fully inserted ENABLE When low indicates to RTM that it is fully inserted and that MMC can start execution Logic high shall keep MMC in reset state This signal shall have a pull up resistor as indicated in AMC 0 specification 13 2 4 3 Connector J30 Power Supply for Advanced RTM The RTM ATCA SXXX supplies 12V and the 3 3V stand by voltages to an Advanced rear transition modules RTM via the P30 connector The P30 connector assignments also include the IPMI L interface PS1 If needed an Advanced RTM will convert the main 12V payload power into 1 2V 1 5V 2 5V and 3 3V by using DCDC converters The RTM ATCA SXXX P30 connector is implemented with the Metral 89096 xxx from FCI www fciconnect com J30 ATCA D Do AOD Figure 47 J30 RTM Power Receptacle 13 2 4 4 Connector J30 RTM Power Pin Assignment The RTM ATCA SXXX J30 connector pin assignments and descriptions appear below Table 70 J30 RTM Power Pin Header Assignment Row Interface 1 2 e Pwr PS1 NC d Pwr 12V PP sl PAN ae C IPMI IP
85. ation Technology Equipment this product tested to Equipment Class A e EN50082 1 1997 Electromagnetic Compatibility Generic Immunity Standard Part 1 Residential Commercial and Light Industry System products also fulfill EN60950 product safety which is essentially the requirement for the Low Voltage Directive 73 23 EEC Board products are tested in a representative system to show compliance with the above mentioned requirements A proper installation in a CE marked system will maintain the required EMC safety performance In accordance with European Community directives a Declaration of Conformity has been made and is on file within the European Union The Declaration of Conformity is available on request Please contact your sales representative Notice While reasonable efforts have been made to assure the accuracy of this document Emerson Networks Inc assumes no liability resulting from any omissions in this document or from the use of the information obtained therein Emerson reserves the right to revise this document and to make changes from time to time in the content hereof without obligation of Emerson to notify any person of such revision or changes Electronic versions of this material may be read online downloaded for personal use The text itself may not be published commercially in print or electronic form 6806800H62B ATCA S201ATCA S201 Installation and Use Guide ii Preface edited trans
86. ation screen shot An enumeration of disks that may be used in new RAID LUN definition Identifies the volume that claims ownership to a disk Unknown indicates disk has no known volume ownership Identifies the SCSI parameters used to address the virtual RAID device Vendor Product Rev Use these items to identify the physical disk resource a Select Radio button identifies which disks will participate in the new RAID LUN definition add to volume Radio button adds the selected disk s to an existing volume as spare disk s RAIDO O RAID1 O RAID4 O RAID5 O RAID6 If a volume is degraded the volume will immediately commence a re build operation Click to create a new RAIDO LUN stripping Click to create a new RAID1 LUN mirroring Click to create a new RAID4 LUN Fixed parity Click to create a new RAID5 LUN Rotating parity Click to create a new RAID6 LUN double parity 6806800H62B ATCA S201 Installation and Use Guide 63 RTM ATCA SXXX Overview Use this drop down menu to choose a volume name Four choices md0 md1 md2 or md3 Click to commit the selections and create the new RAID device Ignore Warnings 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 Q Import Foreign Array Will display ONLY in situations when a drive contains meta data that i
87. aux Physical Disks 426 roer 20 o o o o s 00 0 0 0 00 00 pdfiush Ge am 127 row 2 o o o o s 00 00 0 00 34 pdfush Mantenanoe 128 root i 5 o 0 o s 00 00 0 00 00 kswapdo Network 129 root is s o o o s 00 00 0 00 00 aoo Shelf VE ES E Bees 131 root 3 35 o s oo 00 0 00 00 ifsdnotifyd 3 I O Status SE s oo oo 0 00 02 crypto CPU Statu 133 rot 20 o o o o s op op 0 00 00 _ crypto_ret ATCA TN Lo Lo 2668 1356 1132 s 00 01 00001 sh 2 2 oo oo 0 00 00 rpdodf 00 01 0 00 02 klogd n Oo Ce o o 0 3876 628 500 jffs2 m me fw e le eu s oo on osm eger SESE SEES ERE ESE Ee 16 4 1788 560 484 00 01 0 00 04 udevd fot 18 0 gt ESA ae 00 0 0 0 00 01 mpt o EE EE EE 1351 rot 20 o 3876 628 504 s 00 01 0 00 36 syslogd 1440 root 15 o o o s 00 00 0 00 00 kjournald Figure 13 HTML tool Emerson ATCA S201 gt Maintenance gt CPU Status 6806800H62B ATCA S201 Installation and Use Guide 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 EVI Maintenance Network Shelf I O Status CPU Status ATCA Status
88. be 12 characters long This is enforced by Microsoft s Initiator Used to set the lt username gt and lt password gt to authenticate the target to initiators during discovery sessions using CHAP Only one outgoing lt username gt lt password gt combination may be specified Note RFC 3720 requires lt password gt to be 12 characters long This is enforced by Microsoft eg Initiator May be set to a friendly human readable name or description that is communicated to the initiator at Login An initiator may elect to display this value when listing connected targets NOTE As an additional feature this string is appended to the target name Default 1 Sets the maximum number of connections an initiator may make with a each iSCSI target entity 1 is the only valid value No default Indicates the initiator may include BurstLength bytes together immediately following an iSCSI command This setting may reduce protocol handshakes and thus improve system performance Yes Indicates the initiator has to wait for the target to solicit SCSI data before sending it Yes default Indicates the initiator may combine iSCSI command and data information and send in the same packet This setting may reduce protocol handshakes and thus improve system performance No Indicates the initiator may not combine command and data information in the same packet MaxRecvDataSsSegmentLength lt value gt Default 262144 sets the maximum
89. ble Disable Control PhyNum Tye SaSaddress Hande om 02 sas 5000c50005b18665 ooob os jem produt Model serol stote present mn MgOK Payina mo BESCHE e Control Phynum Type ASA dress Hande Parem pisk e me 500000e016cbdas2 om om ender produt Model serol stote Present mn MgO me PayoK ER EE E Control Vendor Product Model Serial State Present MgEna MgOK PayEna PayOK AMCState Emerson RTM 01068286 401NYMo Si 3 ps Enable Disable Control Step 4 Figure 14 or via shell console prompt using reboot 9 3 2 flash update sh tool usage and options Emerson offers a shell script sh to update firmware code stored in flash This command line script is named sbflash and is located on the bin directory of the ATCA S201 SYNOPSIS sbflash r k u t tftp_serverlP DESCRIPTION sbflash is a shell script which enables the user to selectively update some or all of the firmware components A blade reboot is required to activate the new firmware components 6806800H62B ATCA S201 Installation and Use Guide 99 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_serverlP
90. boot 1 Establish a connection to the serial port RS232 2 Rebootthe blade reboot 3 Stop the normal boot sequence enter the U boot menu see section 3 6 1 4 Type the following series of U boot commands uboot gt setenv resetroot I uboot gt run flashboot The above commands will continue the boot sequence and trigger the blades Linux file system to clear the root password No other passwords are cleared Do not use saveenv after setting resetroot otherwise the root password will be reset on every re boot 6806800H62B ATCA S201 Installation and Use Guide 104 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 0 Revision 3 0 specification The ATCA S201 is keyed to conform to the PICMG 2 10 Keying of ATCA Boards and Backplanes specification 10 1 2 Power Requirements The ATCA S201 includes a stacked power supply module with maximum rated output of 210 W of power This represents a surplus of power vs the expected power consumption The power consumption of the
91. by the Freescale PowerPC device LANO_CTV 10 100 1000BaseT transformer Center Tap signal which could be used to terminate center tap of transformers if they are placed on RTM This signal is applicable if Ethernet PHY is located on ATCA blade while GE transformers are located on RTM LEDACT LAN 0 Management activity indicator signal for LED active low LEDLINK LAN 0 Management LINK indicator signal for LED active low UART_ RS232 Serial Signals transmit receive clear to send request to send data terminal ready data set ready These signals route to the Freescale PowerPC device 10 2 4 2 Connector J33 PCI Express and Test infrastructure Pin Assignments The ATCA S201 J33 connector pin assignments and descriptions appear below Table 51 Connector J33 PCle and Miscellaneous RTM Pin Assignments Row Interface A B C D E F 1 PCle PETXO PETXO PERXO PERXO FCLKA FCLKA 2 PCle PETX1 PETX1 PERX1 PERX1 NC NC 3 PCle PETX2 PETX2 PERX2 PERX2 NC NC 4 PCle PETX3 PETX3 PERX3 PERX3 NC NC 5 PCle PETX4 PETX4 PERX4 PERX4 NC NC 6 PCle PETX5 PETX5 PERX5 PERX5 JTAG_TCK JTAG_TMS 7 PCle PETX6 PETX6 PERX6 PERX6 JTAG_TRST JTAG_TDO 8 PCle PETX7 PETX7 PERX7 PERX7 JTAG_TDI PCIRST 9 Misc NC NC NC NC RIM PCICFG 10 Misc I2C RST I2C SCT I2C SDA NC PSO ENABLE 6806800H62B ATCA S201 Installation and Use Guide 114 PEDO PERX FCLKA PCIRST RIM PCICFG PSO ENABLE JTAG_xxx I2C xxx 10
92. d 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 The RTM ATCA SXXX may also be used to add more disk capacity to other ATCA carrier products ATCA cards with proper zone 3 connector pin outs can extend connectivity to connectors on the RTM panel All rear panel connectors are compatible with commodity off the shelf non proprietary cables Standard connectors include a x4 SAS SATA IB connector and two RJ45 pass through management ports RS232 and 1 GbE Ethernet The RTM ATCA SXXX includes a modular management controller MMC and conforms to the PICMG 3 1 revision 2 specification 11 1 Features of the Advanced Rear Transition Module The RTM ATCA SXXX is a 8U 233 35mm x 80mm single slot Rear Transition Module with very few active silicon components The prominent attributes include e One X4 IB SAS SATA port Infiniband style SFF 8470 e Accommodates up to two disks manufacturing assembly option e 1GbRS232 LAN port pass through connection to Front ATCA blade LED drive logic e RS232 Port pass through connection to Front ATCA blade e MMC with hot swap and LED control e FRUID serial EERPORM note The FRU ID is not a separate part but rather embedded in the MMC controller e Temperature sensors e Voltage sensors e SPI flash memory 11 2 I O PICMG Standards Compliance The RTM ATCA SXXX is fully compliant with the
93. data segment length that the target can receive Note The lt value gt should be set to multiples of PAGE SIZE The maximum supported value is 64 4096 262144 MaxXmitDataSegmentLength lt value gt Default 262144 sets the maximum data segment length that the target can send Note The actual value is reduced to match the MaxXmitDataSegmentLength and the MaxRecvDataSegmentLength negotiated with each initiator during login The lt value gt should be set to multiples of PAGE SIZE The maximum supported value is 64 4096 262144 MaxBurstLength lt value gt Default 262144 Sets the maximum amount of data the initiator may send in a single burst 6806800H62B ATCA S201 Installation and Use Guide RTM ATCA SXXX Overview Note The lt value gt should be set to multiples of PAGE SIZE The maximum supported value is 64 4096 262144 FirstBurstLength lt value gt 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 SCSI command Used together with InitialR2T and ImmediateData Note The lt value gt should be set to multiples of PAGE_SIZE The maximum supported value is 16 4096 65536 Default 1 Controls the maximum number of data transfers the target may request at once each of up to MaxBurstLength bytes Yes default Indicates the initiator MUST send data PDUs within sequences
94. dvanced file share configuration expert model 93 9 BLADE MAINTENANCE AND FIRMWARE UPGRADES sccccssssssececessssccceeesssssceeeesssseceeeeseseas 95 9 1 BLADE MAINTENANCE PRP 95 9 1 1 Backup your blade configuration ccccscesscescesseescetsessesscessesscessesscsssessesssesesseascessesscnssensenes 95 9 1 2 Import restore a blade configuration ccessesscessesscesessessceesessesssessesscessesscsssessessceeseasenes 96 9 2 TE TN 96 9 2 1 Download New Firmware Package orita heet 97 9 3 NORMAL FIRMWARE UPDATE PROCEDURES sje 97 93 1 Weblashitool Update proceaure deals aia 97 9 3 2 flash update sh tool usage and Options ccococnnoncnocoonnononnnoonoononanonnonn cnn ncononn noo ncnn cnn nro ronca 99 9 3 3 CLI flash tool update procedure detail 100 9 4 EMERGENCY FIRMWARE RECOVERY THEORY OF OPERATION iaa 101 gA A EE TE EE ET AO eee mreee ree 101 942 Emergency flash recovery factory reset geegent a a 102 NNN 103 10 ATCA S201 MECHANICAL AND CONNECTOR INFORMATION sssvevvssrsvvvnnnssnnnvnnsssnvnnnnensnnnnsnseee 105 VOT SPEGIHGTIONSTOR TEA FA S Or seere a a 105 TOT Ereegnes banne 105 TOTZ POWerREGUEMNENN ee ee 105 10 1 3 Environmental Specifications and Complionce 105 ENEE 106 10 15 Electromagnetia COMPA rt iii 106 02 CONNECTORS AND PINASSIGNIMENTS taa 107 LOZ 7 AMMES ta 108 E LON TD COMM CUOMS eer 110 28 foer NONA 111 1024 EE 112 10 2 5 Power Supply Mezzanine Module 117 10 2 6 SODIMM DDR Module 117 TL
95. e should work with any Layer I switch Step3 ifconfig pondok ip address Up Define a new bond0 and assign a dotted decimal lt ip address gt Note the MAC address of the bond0 device will be taken from the first slave device Step4 ifenslave bond0 eth0 ifenslave bond0 ethl TI Assign the slave ports that will comprise the new bond Preserve new bond attributes etc rc d init d userstart This file contains a template for adding commands that will be executed on boot or shutdown as required by the user This file is stored in system flash memory and preserved over reboots Edit this file and add the entire sequence of bond commands Example ifconfig eth0 down ifconfig ethl down modprobe bonding mode 0 miimon 100 ifconfig bond0 lt ip address gt up ifenslave bond0 eth0 ifenslave bond0 ethl ethl Remove bond Stepl ifenslave d bond0 eth0 ifenslave d bond0 ethl o Remove all Ethernet slave ports that are bond members Step2 Mrs OnNET GER NON OVN Econo retail down Settheformerslaveportsasdown Step3 etc rc d init d userstart MN Remove the relevant bond creation code and reboot 6806800H62B ATCA S201 Installation and Use Guide 48 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 END Emerson ATCA S201 iSCSI nfs smb Shares LVM2 MD RAID Hardware RAID Physical D
96. echanical and Connector Information Table 61 EMC Emission Compliancy EN 22 1994 oe G Yes Class A ITE emissions requirements EU Class A Eker Commercial EN 55024 1998 Cao an Europe Commercial EN 61000 4 En 2 3 5 6 8 11 2001 EMC Electrostatic discharge immunity Europe Commercial EN 61000 3 2 3 Yes Limits for harmonic current emissions Europe Telecom Carrier EN 300 386 Requirements for Telecom Network Equipment South Korea MIC re r e Europe Commercial EN 61000 4 4 2000 Ves Limits for harmonic current emissions Taiwan BSMI 13 2 Connectors and Pin Assignments This section provides position and pin out details of all connectors available on the RTM ATCA SXXX 6806800H62B ATCA S201 Installation and Use Guide 131 RTM ATCA SXXX Mechanical and Connector Information Table 62 Connector Port Identification and Location Serial console port Zone 3 Connector SAS Connector 10 100 1000 Mb management port 6 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 This receptacle features jack screws to mechanically secure the external cable A cable can be ordered from Emerson Figure 43 RTM ATCA SXXX Front Panel SAS Connector Pin Out Diagram S16 Top S2 S15 S1 6806800H62B ATCA S201 Installation and Use Guide 13
97. ected power consumption Table 4 Max ATCA S201 module Current requirements ATCA S201 Max ATCA blade Current Draw unpopulated 1 04 48V 50 watts Max current draw each AMC slot 72 watts max 2 08 48V 100 each atts total shared Max current draw ARTM slot 25 watts max power pool 2 Total Maximum 6806800H62B ATCA S201ATCA S201 Installation and Use Guide 14 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 Electronic components such as disk drives computer boards and memory modules can be extremely sensitive to electrostatic discharge ESD After removing the component from its protective wrapper or from the system place the component flat on a grounded static free surface and in the case of a board component side up Do not slide the component over any surface If an ESD station is not available you can avoid damage resulting from ESD by wearing an antistatic wrist strap available at electronics stores that is attached to an active electrical ground Note that a system chassis may not be grounded if it is unplugged 2 4 2 Watch for Bent Pins or Other Damage Bent pins or loo
98. eeesseeeseecceeeeecssseeeeeeeeaeeaas 126 12 7 REMOVING THE ADVANCED REAR TRANSITION MODULE s0eceeccccecceeeseeeeccceseeeeeeseeeseeseeaeeeeeeeeess 128 12 8 VERIFYING THE HARDWARE INSTALLATION cccccccccssscsnnsssssscnssvesccesscceccaesssceeaccssscsssscecceceseesaaaaaacs 128 13 RIM ATCA SXXX MECHANICAL AND CONNECTOR INFORMATION scccssscccssecccescecssceeens 129 13 1 SPECIFICATIONS FOR THE RT M ATCA SXXX eernnvnonnnrrnnnnevnrnrnnnnnnnnnnnnnnnnnnnnnnnnnnenrrrnnnnnnnnnnnnnnnnnnnnnee 129 PD SR 129 Pl FT Ne 129 13 1 3 Environmental Specifications and Complionce 129 PE NEBS ON 130 13 1 5 Electromagnetic Complionce nr nrnnnrsnrrnrrssernrssnenne 130 13 2 CONNECTORS AND PINASSIGNMENTS ide 131 15 21 SIS COME POT saa oo 132 13 2 2 10 100 1000 Mb Management Port 133 B25 Sed Console Management ege E 134 1522 Zoe ee 134 14 EM FUNGTONS UT Aa 139 14 1 IPMI AND MANAGEMENT CONTROLULERUDMCT nono nonn noo nononononcnncnononos 139 142 SENSOR DATA RECORD HH 139 20 RIMEKONNG POFBASSIGNINEN Savn 14 2 14 3 SUPPORTED PM COMMANDS eee eene 14 3 15 IPME FIRMWARE UPGRADE PROCEDURE iaa 15 1 15 1 TEE NN eee 15 1 16 INDEX iia ENgeg 16 3 6806800H62B ATCA S201ATCA S201 Installation and Use Guide V List of Figures Figure 1 ATCA S201 functional block diagram non nonn noo noo nono rca nono nanncnnnnnns 9 Figure 3 ATCA S201 Diagram Showing Identification Label Location 13 Figure 4 Injector Ejector latch and locking SCre
99. eeseaseasenees 69 6 3 CREATE A LOGICAL VOLUME GROUP DR VA a idas 70 6 4 CREATING A LOGICAL DEE VANN ae 73 6 4 1 Extend Expand a Logical Device dev vga Iva0 rrnrrrnvrnnrnnvrnvrnnvrnvrnnrnnvrnnrnnrrnvrnnrnnvrrnrnnnnnnnn 73 6 4 2 Delete a Logical device dev vga Iva0 ooooocncccncnnonoconoconanconononcononancononn noo ncononn nro nonnnnos 74 6 5 MANAGE SHARES PREPARE LOGICAL DEVICE FOR SERVICE cccsssecessesseesecsecessesseseceeeesesseeeseeaeserseaeeaes 75 6 5 1 Commit a logical drive for SCSI service noo nr nonn rra nonnnnos 75 052 Commtalogicaldrive TNS Sevice iore e casas aero eee 76 653 Elend 77 6 5 4 Un commit an NFS SMB chore noo nona non nro ncn anno ncnn nan nro n cnn nnanos 78 6 6 RE NAME ISCSI SHARES MAKE MORE HUMAN FRIENDLY ssccceeesceceeeseeeeeeseeeeeeaeeeeesnaeeesesaneeeseaeeeens 79 SESIDEVICESETUPTO O Si alias 80 6806800H62B ATCA S201ATCA S201 Installation and Use Guide iii 7 1 PSC SRCONFIGUR AHO NIIEING re ae eee ee a E loan once east con heel e 80 JAN OPEN SNP eee 80 FAD AT OF Create SSN se 81 7 1 3 Remove an individual iSCSI LUN EE 83 7 1 4 Delete an iSCSI Target and all INS 83 7 1 5 Advanced iSCSI configuration expert model 84 7 1 6 SCSI Discovery filter configuration expert model 88 8 NS SME SHARE SETUP TOO Sc a 89 8 1 NFS AND SMB MOUNT POINT CONFIGURATION MENUS are 89 SJT a tates eae easter oaths aeeee ied nese 90 8 1 2 Remove an individual file share Export 92 8 1 3 A
100. 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 O routes to site 0 LANO_MDIOxx GbE Management port 10 100 1000BaseT signals These signals route to a transceiver owned by the Freescale PowerPC device LANO_CTV 10 100 1000BaseT transformer Center Tap signal which could be used to terminate center tap of transformers if they are placed on RTM This signal is applicable if Ethernet PHY is located on ATCA blade while GE transformers are located on RTM LEDACT LAN 0 Management activity indicator signal for LED active low LEDLINK LAN 0 Management LINK indicator signal for LED active low UART_ RS232 Serial Signals transmit receive clear to send request to send data terminal ready data set ready These signals route to the Freescale PowerPC device 13 2 4 2 Connector 33 PCI Express and Test Infrastructure Pin Assignments The RTM ATCA SXXX J33 connector pin assignments and descriptions appear below Table 68 Connector J33 Miscellaneous RTM Pin Assignments Row Interface A B C D E F 1 NC NC NC NC NC NC 2 NC NC NC NC NC NC 3 NC NC NC NC NC NC 4 NC NC NC NC NC NC 5 NC NC NC NC NC NC 6 NC NC NC NC NC NC 7 NC NC NC NC NC NC 8 NC NC NC NC NC NC 9 NC NC NC NC NC NC 10 Misc NC NC NC NC PSO ENABLE 6806800H62B ATCA S201 Installation and Use Guide 136 RTM ATCA SXXX Mechanical and Connector Inform
101. en authorization to connect with virtualized volumes via 10 GbE fabric or 1GbE base connections The ATCA S201 carrier can accommodate up to four AMC disk modules Additional disks may be added using an Advanced ARTM which adheres to the Advanced RTM zone 3 connector pin out Users may also deploy the ATCA S201 to realize gateway functions with external equipment including SAS and or Fiber channel FC storage area networks SANs For example populate with an AMC 4 Gb FC controller modules and establish gateway services between LUN volumes in the FC data center and the ATCA GbE network 1 1 Features of the ATCA Storage Module The ATCA S201 is single slot carrier board for ATCA shelves Measuring 8U 280mm x 325 mm the carrier includes four advanced mezzanine card AMC slots for storage disks or SAN connections Several on board Ethernet controllers provide connections to the base and fabric interfaces The prominent digital components include e Freescale 1 3Ghz super scalar PowerPC processor Intel dual port 10 GbE Ethernet controller LSI 8 port SAS controller with RAID PLX 48 Lane PCI Express Switch 1GB SODIMM 533MHz DDR2 with ECC 72b Carrier IPMC with hot swap and LED control FRUID serial EERPORM note The FRU ID is not a separate part but rather embedded in the MMC controller e Temperature sensors e Voltage sensors e SPI flash memory The ATCA S201 is loaded with software which enables it to terminate several IP
102. ennnenne 73 Table 30 CLI command syntax create iSCSI Share srernrrnnrrnnronnrnnvrnnrrnnrnnrennvennrennrsnnnssnrnnrsnnnssnnsnvrnnvennne 76 Table 31 CLI command syntax format a logical volume s s ssssnssnsnsensesesneneseeresessesresrsresenresessesrsresesreses 77 Table 32 CLI command syntax create iSCSI Share srernrennrrnnrnnnrnnvrnnrnnnrnnvennvennrennrsnnnrsnrsnrsnnnssnnnnvennvennne 81 Table 33 SCSI Advanced configuration and parameter deftnitions 86 Table 34 CLI command syntax create nfs share 91 Table 35 CLI command syntax Create SMD share oooccocccnnoccncnoonooncnnnoononncnononnononoonon nono noo nora nnn nico rca nan ncnnnns 92 Table 36 Common nfs export option deftnttions noo nono noo noo non nnnn noo ncnr noo ncnnnns 94 Table 37 JP1 jumper for primary recovery Flash selection ccccccscesscssccssessecssecseceseccseesseesseeseeaees 101 Table 38 JP2 jumper for clearing Master password oooncccncoccnononnonnnonncnnnonanonnnonnnnnnonnnonanonncnonona nana nonnnos 101 Table 39 Environmental specifications for the ATCA S201 rrrnrrnnrrnnnnnvrnnvrnnvenvrnnvennvennrsnnnrsvrnsvrnnvennnnns 106 Table A O EMG EMISSION COM PIE Ga 107 Table 41 Connector Port Identification and Location seonrrnvernrrnvrrnrnnvrnvrnnrrnvrsvrrnrrsvrrnrrnvernranrrnvennnnnnn 108 Table 42 AMC Slot 0 Port Assignments REENEN 109 Table 43 AMC Slot 1 Port Assignments csscssssssesssssesssesseessesecssessseseesessseesaesses
103. eptacle Connector J30 RTM Power Pin Assignment The ATCA S201 J30 connector pin assignments and descriptions appear below Table Row a MIA NITG Table 53 J30 RTM Power Pin Header Assignment Interface 1 2 Pwr Logic GND Shelf GND Pwr Logic GND 3 3V MP IPMI IPMI_SCL_L IPMI_SDA_L Pwr i NER NPE Pwr PS1 NC 54 Connector J30 RTM Power Pin Signal Descriptions Active low RTM present signal PS1 shall be pulled up to 3 3 V management power on the ATCA blade PSO Connector P33 and PS1 Connector P30 shall be connected through a diode on the ATCA S201 exactly as defined in AMC 0 specification PS1 is last mate on Power connector and PSO is on the opposite end of the set of connectors Logic low on PS1 indicates that RTM is present and fully inserted IPMI bus clock signal as defined in AMC 0 specification The RTM shall have a pull up resistor for this signal as indicated in AMC Ospecification IPMI bus data signal as defined in AMC 0 specification The RTM shall have a pull up resistor 12VPP for this signal as indicated in AMC 0 specification 12 V payload power enabled after successful E keying as outlined in the AMC 0 specification 3 3V_MP RTM must meet requirements posted for payload power in AMC specification 3 3V Management Power RTM must meet requirements posted for management power in Shelf_GND AMC 0 specification Frame Chassis Safety Ground Logic_GND 6806800H62B ATCA S201 Installation
104. er 4 Use Network Time Protocol NTP y E TS E E eo SLN Network Contar ON gt HS HRS enable0 0 ipaddrO dhep netmask0 0 0 0 0 broadcast0 0 0 0 0 gateway0 0 0 0 0 nameserver0 0 0 0 0 hwaddr0 00 08 2b 00 11 22 MTUO 1500 enablel 0 ipaddrl dhep netmask1 0 0 0 0 broadcast1 0 0 0 0 gatewayl 0 0 0 0 nameserverl 0 0 0 0 hwaddril 002 082252002 D1s23 1 MTU1 1500 enable2 1 LaCie SLN LG lod netmask2 255 255 255 0 broadcast2 192 168 142551 gateway2 192 168 1 1 nameserver2 192 168 1 10 hwadar2 00 08 lt 2b lt 00 11 24 lt MTU2 1500 enable3 0 ipaddr3 dhep netmask3 0 0 0 0 broadcastoa 050 01 05 gateway3 0 0 0 0 nameserver3 0 0 0 0 hwadar3 00 lt 08 2b lt 00 lt 11 25 lt MTU3 9000 enable4 0 ipaddr4 dhep netmask4 0 0 0 0 broadcast4 0 0 0 0 gateway4 0 0 0 0 nameserver4 0 0 0 0 hwaddr4 003 0842p 002 11326 MTU4 9000 Change Network Settings n 6806800H62B ATCA S201 Installation and Use Guide 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
105. ervices such Microsoft Windows Note Both nfs and smb can be selected together Click the Share button Upon completion the Block File field will display File 6806800H62B ATCA S201 Installation and Use Guide 76 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 Y CU command syntax Table 31 CLI command syntax format a logical volume Convention atca blade set shares Y lt diskmask gt Y Y lt skip gt Use to Y designate which disk to format Use skip in all other positions Syntax example atca_blade set shares Y skip Y Y Y 1 Designate disk Iva an iSCSI share called iSCSI target AA Syntax example atca_blade set shares Y N Y N Y iSCSI targetBB Y Y 2 Designate disk 2 of 2 an iSCSI share called iSCSI target BB 6 5 3 Un commitan iSCSI share The administrator may modify or un share any currently shared logical device by navigating to the html configuration screen Emerson ATCA S201 gt Shares gt Manage Shares The Manage shares menu displays the active status of all logical devices Scroll to the device of interest and complete the step
106. escription Linux SCSI device name from ATCA S201 management perspective State 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 Parent Identifies the volume that claims ownership to a disk Unknown indicates disk has no known volume ownership Host Bus Target LUN Identifies the SCSI parameters used to address the physical device Vendor model Rev Identifies the vendor and revision of the disk device If vendor LSILogic this physical device is a RAID volume managed by the ATCA S201 resources 6 3 Create a logical Volume Group dev vga EVY Emerson ATCA S201 A volume group must contain at least one physical disk member The figure below outlines the steps that will be taken to create volume groups and logical device disk volumes i 20 nfs EMERSON 15 nfs 40 iSCSI E oe sp r 20 cifs 0090 gt rn Logical disk ER en example dev vga lva0 30 SCSI 20 SCSI FI Shares ENS LVM2 EN DCH EG m EC mt II uuy iiy UN 00 Ui Uu Ca mt gt LVM2 Configuration Es Volume group DRAID example dev vga Configuration HardwareRAID Is Configuration dev sda dev sdb dev sdc dev sdd e N deiode Physical disks dev sdf example dev sda dev sdg Mica Dis
107. esignated as either iSCSI or NAS Formatting a physical disk will permanently erase all existing data If the Share type field is nfs or smb this button commits the logical device and enables a file share mount point If the Share type field iSCSI this button is commits the logical device and enables an iSCSI mount point Block Indicates the bytes on the logical device are not managed by the ATCA S201 If exposed by iSCSI an external host owns the device in its entirety partitioning formatting etc File Indicates the logical device is formatted and the bytes on the device are managed by the ATCA S201 and its Linux file system including partitioning and formatting 6 5 1 Commit a logical drive for iSCSI service A newly defined logical drive is immediately ready for iSCSI block sharing In the example above the logical disk named dev vga lva0 is ready for iSCSI share 6806800H62B ATCA S201 Installation and Use Guide RTM ATCA SXXX Overview V Follow these instructions to assign iSCSI service Step 1 Step 2 Step 3 Enter a human friendly name for your new iSCSI share in the field labeled Share Name Click the iSCSI box 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 c
108. following PCI Industrial Computer Manufacturers Group PICMG specifications e PICMG3 1 11 3 1 O Interfaces The RTM ATCA SXXX mates to ATCA carrier blades via zone 3 connectors in a fashion conforming to PICMG 3 0 ATCA specification revision 2 Internally the ATCA 201 provides connections to bridge between zone3 and the RTM faceplate as follows 6806800H62B ATCA S201ATCA S201 Installation and Use Guide 118 TOBRTM 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 Port 3 RJ45 PL to MMC device on RTM SAS SAS Console x4 x4 Io SAS x4 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 Depending on RTM factory configuration this will carry 4 SAS lanes 11 3 1 1 SAS Cable Length The RTM ATCA SXXX provides can accommodate SAS Cables up to3M in length 11 3 2 Ethernet Management Port RJ 45 An Ethernet management port is provided on the RTM ATCA SXXX to facilitate a pass through communication path to certain ATCA board products The port uses an RJ 45 connector with integrated LED for Link green and activity amber The port auto negotiates to either 10 100 1000BASE T 6806800H62B ATCA S201ATCA S201 Installa
109. following procedure is a detailed description of the web based export system configuration procedure V Export System configuration file using web GUI tool Step 2 Navigate to the Maintenance menu Click the Export button Step 3 Acknowledge the popup window to confirm and commence the export The action will create a backup file on the host which can be later imported EMERSON EXA Emerson ATCA S201 ET SCSI f sm Import Software Update Ge Import System Configuration A LVM2 FI MD RAID Export System Configuration backup nvdisk tar gz export FI Hardware RAID Ki ENT Physical Disks Maintenance 6806800H62B ATCA S201 Installation and Use Guide 95 RTM ATCA SXXX Overview V 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 V Import System configuration using web GUI tool Step 6 Navigate to the Maintenance menu Click the Browse button navigate to find the new gz firmware file Step 7 Click the Import configuration button Step 8 Apopup will confirm successful import V
110. form the DHCP Dynamic Host Configuration Protocol server onthe network Administrators must log into your DHCP server to determine the IP assignment With the IP address an administrator may connect to the ATCA S201 using a secure shell SSH or an HTML browser which supports secure http connections The Ethernet equipment can be identified by finding the IP address es corresponding to the following MAC address assignments MAC address OUI 00 1 1 OD xx xx xx hex 6806800H62B ATCA S201 Installation and Use Guide 24 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 For security the browser must support secure https connections on TCP port 443 Example Type this address into the address field of your web browser https 192 168 1 xxx Refer to chapter 4 which begins the explanation and use of the html configuration tool 3 4 4 Management configuration via secure shell SSH Once the IP address of the Ethernet port is known an administrator may use a SSH service to connect to the ATCA S201 and to facilitate comm
111. g Caution Emerson strongly recommends that you use an antistatic wrist strap and a conductive foam pad when installing or upgrading a system Electronic components such as disk drives computer boards and memory modules can be extremely sensitive to electrostatic discharge ESD After removing the component from its protective wrapper or from the system place the component flat on a grounded static free surface and in the case of a board component side up Do not slide the component over any surface If an ESD station is not available you can avoid damage resulting from ESD by wearing an antistatic wrist strap available at electronics stores that is attached to an active electrical ground Note that a system chassis may not be grounded if it is unplugged Dangerous voltages capable of causing death are present in this equipment Use extreme caution when handling testing and adjusting Avoid touching areas of integrated circuitry Static discharge can damage these circuits 6806800H62B ATCA S201ATCA S201 Installation and Use Guide vi 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 giv
112. g IN ES m E CET e A IN pone e E E O LA mme AA EN A EN master mmm O LISA a IA E O ELN a mme TAS FO aa ma E E E 14 3 Supported IPMI Commands The MMC communicates with the carrier controller through the local IPMB L bus of the carrier and responds to all mandatory commands for AMC Module Management Controllers as defined in the RTM Specification as well as some optional ones 6806800H62B ATCA S201 Installation and Use Guide 14 3 IPMI Functions List Table 76 Supported IPMI Commands IPMI PICMG A Command MC Spec NetFn CMD MMC Reg IPM Device Global Commande Get Device TD Broadcast Get Device ID Messaging Commands Send Message Event Commands Event Commands Get Sensor Hysteresis Set Sensor Threshold Get Sensor Threshold Set Sensor Event Enable Get Sensor Event Enable Rearm Sensor Events Get Sensor Event Status SJE Get Sensor Reading SJ FRU Device Commands Get FRU Inventory Area Info Storage Read FRU Data Storage Write FRU Data Storage ATCA Commands Get PICMG Properties PICMG FRU Control PICMG Get FRU LED Properties PICMG Get LED Color Capabilities PICMG Set FRU LED State PICMG Get FRU LED State PICMG Get Device Locator Record ID PICMG AMC Commands Set AMC Port State PICMG Get AMC Port State PICMG 1Ah 6806800H62B ATCA S201 Installation and Use Guide 14 4 15 IPMC Firmware Upgrade Procedure This chapter provides the instruction for upgrading the IPMC Intelligent Pl
113. hange as disks become utilized in a RAID definitions Use the Re Draw Tree button to rescan for physical disks and refresh the menu view 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 6 2 1 3 Software Reset SAS Controller If the disk configuration is not displaying properly users can issue a software reset signal to the embedded SAS controller using the button located on the Maintenance menu page If users have hot swapped many disks this ensures the SAS controller has completely purged internal tables and is properly presenting the new or remaining disks to the operating system Software resetSAS controller 6 2 2 View physical disk properties Additional property informational is available for each physical disk These may be viewed by clicking the individual device e g dev sda which opens the menu shown below EMERSON EN Emerson ATCA S201 E SCSI est nfs smb Shares ems state Type Parent HosBusfTargetlUNVendof Model Ge GT LVM AMG dev sda Online Raw Unknown 19 MA 401A MD RAID Flash D Hardware RAID EN Physical Disks dev sda dev sdbI dev sdc TZ Maintenance 6806800H62B ATCA S201 Installation and Use Guide 69 RTM ATCA SXXX Overview Table 21 HTML tool Emerson ATCA S201 gt Physical Disk configuration screen Parameter D
114. hare nfs_sharel rw sync no_wdelay root_squash Y Export option syntax lt export gt lt host1 gt lt options gt lt hostN gt lt options gt Note Refer to the exports man page for details on other lesser used options Table 36 Common nfs export option definitions hostl hostN Host specifies the directory on the storage blade that is the target of the export Option lt wdelay no wdelay gt no wdelay default option turns off the delayed writes feature no wdelay must be accompanied with the sync option wdelay option causes the NFS server to delay writing to the disk if it suspects another write request is imminent This can improve performance by reducing the number of times the disk must be accessed by separate write commands reducing write overhead Option lt root squash gt This default setting prevents root users connected remotely from having root privileges and assigns them the user ID for the user nfsnobody This effectively squashes the power of the remote root user to the lowest local user preventing unauthorized alteration of files on the ATCA storage blade Option lt ro rw gt ro Mounts of the exported file system are read only Remote hosts are not able to make changes to the data shared on the file system rw default Mounts of the exported file system are read write Remote hosts are able to make changes to data shared on the file system Option lt sync gt The sync setting default instructs the Linux kernel
115. have to be at continuously increasing addresses No Not supported Yes default Indicates the initiator MUST send Data Sequences with continuous non decreasing sequence offsets R2T buffer offset for writes or the smallest SCSI Data In buffer offset within a read data sequence No Not supported Default 0 Establishes the recovery level supported by the target None default CRC not enabled CRC32C Indicates Target will support CRC32C checksum to protect SCSI PDU s headers if requested by initiator Notes 1 header digests are not used during discovery sessions 2 CRC32C may negatively affect overall target performance None default CRC not enabled CRC32C Indicates Target will support CRC32C checksum to protect iSCSI PDU s data segments if requested by initiator Notes 1 data digests are not used during discovery sessions 2 CRC32C may negatively affect overall target performance Default 8 Sets the number of threads used to perform the block I O to the blades disk resources 8 threads was determined optimal for the majority of deployments and workloads Lun lt number gt Path lt device gt Type lt blockio gt ScsilD lt unique identifier gt defines a mapping between a Logical Unit Number lt number gt and a block device lt device gt lt number gt The value between 0 and 2 14 1 lt device gt Linux device path mapped to the LUN lt blockio gt
116. he appropriate slot It might be helpful to look into the enclosure to verify correct alignment of the rails in the guides Align the edges of the module with the card cage rail guides in the appropriate slot 6 Taking care to keep the module aligned in the quides apply equal and steady pressure and slide the module in until the injector ejector mechanism engages the retention bars 7 Position your thumbs at the top and bottom of the ATCA carrier board simultaneously push in the module and rotate the injector ejector mechanisms inward to their closed position to seat and secure ATCA carrier blade DO NOT FORCE THE BOARD INTO THE SLOT 8 Tighten the two module retention screws to secure the module into the shelf 6806800H62B ATCA S201 Installation and Use Guide 17 ATCA S201 Installation 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 2 9 Removing the ATCA carrier blade The ATCA S201 ATCA carrier blade is hot swappable and can be removed from a powered chassis This section describes a recommended procedure for removing a board module from a chassis Before you remove your module please read al
117. he blade User must hit submit to update the value 4 10 I O Status attributes The items in this menu provide real time information about the I O activity occurring on physical disks connected to the ATCA S201 raid controller Disks may reside in any of the four AMC slots RTM or expansion JBOD products Disks are identified by the Linux device designation dev sdx highlighted in gray EXA Maintenance Jdev sda Read Write Total dev sdb Read Write Total Current I Os sec Current MBytes sec Total MBytes LZ 100 20MB s 34349568MB mm 100 OMB s 34101760MB 1100 20MB s 68451328MB Current I Os sec Current MBytes sec Total MBytes 100 20MB s 34039808MB mm 100 OMB s 34112000MB 1100 20MB s 68151808MB Figure 12 HTML tool Emerson ATCA S201 gt Maintenance IO Status 6806800H62B ATCA S201 Installation and Use Guide 50 RTM ATCA SXXX Overview Table 23 Blade I O Status indication Current I Os sec Bar graphs provided for each disk Read Displays the number of real time read I O per second read IOPS Write Displays the number of real time write I O per second write IOPS Total Displays the cumulative number of real time I O activity read and write Counter Mbytes sec Numeric counters provided for each disk Displays the real time read bandwidth displayed megabytes second Displays the real time write bandwidth displayed megabytes second Total Displays the cumlat
118. iguration Configuration Step RS232 Ethernet RAID Logical Volume iSCSI NFS SMB Console Setup Comm Setup LUN Setup Setup Device Setup Share Setup This chapter explains how to configure the IP ports for external host access The ATCA S201 offers 5 Ethernet ports within the ATCA environment as follows e Two 10Gb XAUI fabric ports zone 2 e Two 1Gb base ports zone 2 e One 1Gb management port zone 3 AMC disk Physical Logical iSCSI amp NAS modules disks groups Site B1 6 z HW RAID Site B2 Zone 2 Fabric IP network Site B3 6 1 1 mapping JBOD Zone 2 Base gt IP host Zone 3 RTM Site B4 6 1 1 mapping JBOD CIFS share points Storage is ultimately served out over these IP ports using iSCSI NFS and SMB protocols Administrators may individually enable and configure these ports Configuration can be done using the serial console port Telnet or via HTML This chapter assumes the reader is familiar with internet protocols and TCP IP networking Note This chapter provides how to use details for the secure web configuration tool Optionally the user may perform configuration by establishing a login session from a secure shell ssh window and running the command line utility CLI Refer to section 3 4 5 titled Command line configuration tool for more information 6806800H62B ATCA S201 Installation and Use Guide 34 RTM ATCA SXXX Overview 4 1 Enable HTML browser access The web browser config
119. ision or changes Electronic versions of this material may be read online downloaded for personal use or referenced in another document as a URL to a Emerson website The text itself may not be published commercially in print or electronic form edited translated or otherwise altered without the permission of Emerson It is possible that this publication may contain reference to or information about Emerson products machines and programs programming or services that are not available in your country Such references or information must not be construed to mean that Emerson intends to announce such Emerson products programming or services in your country Limited and Restricted Rights Legend If the documentation contained herein is supplied directly or indirectly to the U S Government the following notice shall apply unless otherwise agreed to in writing by Emerson Use duplication or disclosure by the Government is subject to restrictions as set forth in subparagraph b 3 of the Rights in Technical Data clause at DFARS 252 227 7013 Nov 1995 and of the Rights in Noncommercial Computer Software and Documentation clause at DFARS 252 227 7014 Jun 1995 Contact Address Emerson Network Power Embedded Computing 2900 South Diablo Way Suite 190 Tempe AZ 85282 USA Contents PREFACE EE SAFETA JE A O E ERE MOE ELAVIMABI EE I ENN I NSA I EE EIERE Il NOE NE II ABOUTTHS MANUA tee IV HOW THIS MANUAL IS REN IV CONV
120. isks CH Maintenance E Network Shelf 1 0 S NN CPU Status ATCA Status CE O Active Settings 127 0 0 1 New Settings 192 68 100 32 127 0 0 1 Active Settings Figure 11 HTML tool Emerson ATCA S201 gt Maintenance gt Shelf 6806800H62B ATCA S201 Installation and Use Guide 49 Status item Shelf Address Active Settings New Settings Blade 1 Configuration Active Settings Blade 2 Configuration Active Settings RTM ATCA SXXX Overview Table 22 Shelf configuration menu parameters Description Primary Secondary Address 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 IPMB Address Hex for ATCA S201 Slot number and Hex address code corresponds to the physical slot where the ATCA S201 blade is installed The value is self discovered where Slot0 0x82 Slot1 0x84 Slot13 0x9C Slot14 9E IPMB Address Hex for slave expansion blade The ATCA S201A may be paired with companion blade to add additional hardware resources such as additional hard drives Supported companion blades include the Emerson ATCA1020 JBOD and ATCA1010 PCle expansion blades This Hex address code corresponds to the physical slot where the companion blade is installed Slot0 0x82 Slot1 0x84 Slot13 0x9C Slot14 9E New Settings This field is used to assign a slot address for t
121. ive real time bandwidth displayed megabytes second Total Mbytes Numeric counters provided for each disk Read write Total 128 bit counter displays the number of bytes transferred since reset 4 11 Blade maintenance miscellaneous operations These menus provide several miscellaneous operations that are useful for blade management and monitoring The base page lists detailed versioning information of the loaded software as shown below EMERSON DCH Emerson ATCA S201 SCSI E nfs smb Shares LVM2 MDRAID Hardware RAID Physical Disks Maintenanc Software Release kit V 1 0rc7 Date 2009 07 21 20 05 48 6806800H62B ATCA S201 Installation and Use Guide 51 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 topolog 4 11 2 Software Reset SAS Controller The button will issue a software reset signal to the embedded SAS controller If users have hot swapped many disks this ensures the SAS controller has completely purged internal tables and is properly presenting the new or remaining disks to the operating system Software reset SAS controller 4 11 3 Reset I O Status counters This button will reset all I O status counters 6806800H62B ATCA S201 Installation and Use Guide 52 RTM ATCA SXXX Overview
122. just as it appears it is also used for commands options and arguments to commands and names of programs directories and files italic Names of variables to which you assign values for function parameters and for structure names and fields Italic is also used for comments in screen displays and examples and to introduce new terms 6806800H62B ATCA S201ATCA S201 Installation and Use Guide iv courier System output for example screen displays and reports examples and system prompts ENTER The carriage return or Enter key CTRL The Control key Execute control characters by pressing the CTRL key and the letter simultaneously for example Ctrl D 6806800H62B ATCA S201 Installation and Use Guide Hardware Preparation and Installation Unpacking Instructions Caution 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 After removing the product from the packaging e Check for obvious physical damage e Make sure that you disconnect the chassis from the main power supply before you continue Antistatic Precautions Use ESD Mor Wrist Strap A Warnin
123. ki RAID Maintenance Figure 22 HTML tool Main navigation side bar LVM2 gt Configuration 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 and assign them to volume groups Emerson ATCA S201 gt LVM2 gt LVM2 Configuration The screen shows physical disks which are available for a new volume group definition 6806800H62B ATCA S201 Installation and Use Guide 70 RTM ATCA SXXX Overview EMERSON EX Emerson ATCA S201 iSCSI FT nfs smb Shares LVM2 Configuration MD RAID WS Hardware RAID Physical Disks Maintenance Volume C it T Vend dev sdb Offline 70136 MBytes FUJITSU MAY2073RC 0103 dev sde Offline 70008 MBytes LSILOGIC Logical Volume 3000 Select 1 or more disks for Volume Group vga Y Figure 23 HTML tool Emerson ATCA S201 gt LVM2 Configuration V Follow these instructions to create a new volume group Step 2 Click the Select box to choose which disks will be assigned to the new volume group Step 3 Use drop down menu to specify volume group name vga vgb etc Step 4 Click the Submit button 6806800H62B ATCA S201 Installation and Use Guide RTM ATCA SXXX Overview V CLI command syntax Table 28 CLI command syntax create new volume groups Convention atca blade set Ivm2 Y lt diskmask gt Y Y lt diskmask gt Ydi
124. l 3 1 2 Flash boot device contents As mentioned in the previous section the ATCA S201 contains two flash images which are preloaded with code at manufacturing Each code image is divided into four major functional sections Overtime the customer may periodically updated individual sections with new code revisions as outlined below Flash contents Source file name U boot bin uImage Rootfs ext gz uboot Figure 7 Boot Flash device contents 6806800H62B ATCA S201 Installation and Use Guide 22 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 Emerson recommends that administrators change the default passwords listed below for security purposes Table 6 Built in user accounts included on anew ATCA S201 Useraccount Default Description password admin admin The admin account was created for blade management activities This account should be used for all management and configuration activities Management logins may be performed via 1 Serial console RS232 2 ssh or 3 secure html on any
125. l PP_HA5 PP_HA6 PP_HA7 PP_IPMB_SCL_A PP_IPMB_SDA_A PP_IPMB_SCL_B PP_IPMB_SDA_B NC NC 10 2 3 Zone 2 Connectors 19 20 21 22 23 24 25 26 27 Signal NC NC NC NC NC NC Shelf Ground Logic Ground PPENABLE_B Pin 28 29 30 31 32 33 34 Signal VRTN_A VRIN B N48V A N48V B PPENABLE A N48V A N48V B The ATCA S201 provides Ethernet fabric and base ports on the Zone 2 connector designated as J23 on the ATCA board This connector is implemented with a 4 pin per column type available from Tyco electronics http www tycoelectronics com part number 6469081 1 such that Note The connector pin outs are presented from the point of view of ATCA blade TX refers to ATCA as the signal source and chassis as the signal receiver RX refers to ATCA blade as signal receiver and chassis as the signal source 6806800H62B ATCA S201 Installation and Use Guide 111 RTM ATCA SXXX Overview ATCA Receptacle view LL TE UH OD On Tr que E que mg 1 BREE EISES ZEEE J23 ARE EEL EEL f E E 10 Row HG FE DC BA E z E Figure 33 Zone 2 Connector Port Pin Location Diagram Table 47 Connector J23 Zone 2 Pin Assignments Row Interface A B C D E F G H 1 XAUI_O TX2 TX2 RX2 RX2 TX3 TX3 RX3 RX3 2 XAUI_O TXO0 TXO RXO RXO TX1 TX1 RX1 RX1 3 XAUI_1 TX2 TX2 RX2 RX2 TX3 TX3 RX3 RX3 4 XAUI_1 TXO TXO RXO RXO TX1 TX1 RX1 RX1 5 BASEO MDIOO MDIO0 MDIO1
126. l cautions warnings and instructions presented in this section Hot swap compliant modules may be removed while the system is powered on When the lower ejector handle is partially disengaged a mechanical switch will assert a signal to notify the IPMC to begin removal preparations The IPMC will blink the blue hot swap LED as it transitions the module to the appropriate power down state Upon completion and with permission from the ShMC The blue LED will illuminate steady ON This is the only indication that safe removal may commence If the Blue LED is blinking or off it is not ready for hot plug To remove the ATCA module follow these steps 1 Loosen the locking screws on the rear transition module 2 Rotate the lower ejector handle to the half way HW position Do not remove the module immediately 3 If your host module running hot swap aware software the action of rotating the ejector lever will start the shutdown process on the board The software will slowly blink the blue hot swap LED indicating the module is in the process of being de activated 4 Once the module has been de activated the Blue LED will illuminate steady Once this is done you can extract the module by pulling on the module handle Note Powering down or removing a board before the operating system or other software running on the board has been properly shut down may cause corruption of data or file systems 5 When the blue LED is illuminated ON removal
127. l operator action will be required to reboot the blade This button will enable AMC sites When enabled the menu will show the AMC state Enable as Enabled This button will disable AMC sites When disabled the menu will show the AMC state Disable as Disabled Reboot 6806800H62B ATCA S201 Installation and Use Guide 55 6806800H62B ATCA S201 Installation and Use Guide RTM ATCA SXXX Overview V CL command syntax Table 25 CLI command syntax blade status for ATCA and AMC site status Convention atca blade get status 2 Display ATCA blade revision information Convention atca blade get status 1 lt site gt lt site gt 1 21314 5 Display site status 1 Site B1 2 Site B2 2 Site B3 2 Site B4 2 Site B5 RTM 56 RTM ATCA SXXX Overview 5 RAID Volume Configuration Configuration Step DDD Y SS RS232 Ethernet RAID Logical Volume SCSI NFS SMB Console Setup Comm Setup LUN Setup Setup Device Setup 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 Hardware RAID services are available for disk striping RAIDO and extended volume mirroring RAID1 RAID1E Software RAID services are available for parity based disk striping algorithms including RAID4 RAID5
128. lated or otherwise altered without the permission of Emerson Networks Inc 6806800H62B ATCA S201ATCA S201 Installation and Use Guide iii About This Manual This manual supports the following configurations and model numbers Part Number Description ATCA S201 10GbE RAID Storage IP Carrier blade How this manual is organized This manual is divided into the following chapters and appendices Chapter 1 provides a ATCA S201 Overview Chapter 2 provides instructions for Installation Chapter 3 provides the procedures for a New System configuration Chapter 4 Provides details regarding Network configuration Chapter 5 provides details for RAID Volume Configuration Chapter 6 provides instructions for sharing devices as NAS or iSCSI Chapter 7 provides information for iSCSI LUN configurations Chapter 8 provides information for NFS and SMB file sharing configurations Chapter 9 provides Blade Maintenance and Firmware upgrades Chapter 10 provides ATCA S201 Mechanical and Connector Information Chapter 11 provides overview on RTM ATCA SXXX Chapter 12 provides instructions for installing the RTM ATCA SXXX Chapter 13 provides RTM ATCA SXXX connector information Chapter 14 provides IPMI Functions List Chapter 15 provides IPMC Firmware Upgrade Procedure Conventions Used in This Manual The following typographical conventions are used in this document Table 1 Conventions used in this manual Convention Is used for User input that you type
129. m Jen di Physical disks dev sdf example dev sda dev sdg Maintenance u uy uy iii iiy ii Jl ma on CH lt NS G i on CO Figure 15 HTML tool Main navigation side bar Hardware RAID gt Configuration These menus are used to view and arrange the hardware disk pool The hardware disk pool is the raw unformatted unassigned disk capacity or resources available to a ATCA S201 In SNIA terminology these are primordial disks This storage is block I O comprised of the following 1 AMCSAS SATA hard drive s 2 RTM SAS SATA hard drive s 3 Disks or volumes accessed via an AMC SAS controller 4 Disks or volumes access via an AMC FC controller The sum capacity of the hardware disk pool resources equals the total size of storage available to the particular ATCA S201 5 1 1 JBOD mode Just a bunch of disks JBOD is a term to describe disks which are not part of a RAID or logical device definition By default a new ATCA S201 will scan and display all discovered disks 1 1 in the physical disk menu These disks may be used as is or grouped using the configuration tools to create RAID or combined logical volumes Note If the installation will use JBOD and not use RAID the user may proceed to the next chapter 5 2 Hardware RAID configuration Menu usage On anew system installation this configuration menu enables the creation of RAID disk s
130. mask Must specify one entry for each system disk Ydisk includes disk in RAID volume Ndisk exclude disk from RAID volume lt RAID_level gt 0 1 Use value 0 to apply RAIDO and value 1 to apply RAID1 Syntax examples atca_blade set_raid Y Ydisk Ydisk Ydisk Ndisk 1 Y System has four disks Assign the first three disks to new RAID1 volume 6806800H62B ATCA S201 Installation and Use Guide 59 5 2 1 Hardware RAID levels and capabilities 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 Description or retrieve data for the host Data Layout Diagram Disk 1 Disk 2 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 Ifa failure occurs with either drive data is still accessible via the surviving drive Disk 1 Disk 2 V Important considerations and volume restrictions RTM ATCA SXXX Overview RAIDTE Three or more disks are grouped to provide a mirror function using an algorithm extension to permit use with many drives Ifa failure occurs with any drive data is still accessible via the surviving drives Data SO S1 S2 s3 S4 RAID1E Disk 1 Disk 2 Disk 3 1 Amaximum of 2 RAID volumes may be defined on each ATCA S201 A maximum of 2
131. me Share Type Block File Action Mount Point lt gt Fullname Share Type Delete Action Wad mnt shr block Iva0 lt gt mnt shr block Iva0 lv iScSIL Infsl smb 7 Quedate V 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 Click the Update button Later the logical device may be reassigned to a new share or the space returned to the Volume group be deleting the device using the LVM2 configuration menu 6 6 Re name iSCSI shares make more human friendly As a default the ATCA will name shares based on the underlying device path Though these is nothing wrong with this the user may use the manage shares menu to assign more appropriate names 6806800H62B ATCA S201 Installation and Use Guide 79 RTM ATCA SXXX Overview 7 iSCSI device setup tools Configuration Step RS232 Ethernet RAID Logical Volume iSCSI NFS SMB Console Setup Comm Setup LUN Setup Setup Device Setup 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 AMC disk Physical Logical iSCSI amp NAS modules i groups amp Site B1 ES volumes CSS O HW RAID y Ki Zone 2 Fabric IP network 1 1 mapping 4800 OM AFS zone 2 Base ER IP host gt MT la Zone 3
132. meter values from a file Such files would contain a pre determined set of 6806800H62B ATCA S201 Installation and Use Guide 28 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 lt y n gt index skipt new value lt index skip gt lt new value gt 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 The menu sub group numbers are displayed when the tool is manually invoked with no arguments from the console window The menu group number and index skip are combined to create a pointer to a specific parameter position The following menu page index syntax may be used interchangeably Menu page index equivalent pagename l get status 2 set network 3 set raid 4 set Ivm2 5 set_ms 6 set_smb 7 set_nfs 8 set_iscsi 9 set_gui 10 set_useroverride y n Certain commands require affirmation to make changes Example Change Network Settings n index skip represents index leap ahead The tool parses this value and increments the index pointer by the amount indicated end of input a plus symbol with no integer Indicates that the input line is complete and reque
133. min user at a time thus preventing blade configuration conflicts from multiple remote locations Moreover a user may not simultaneously operate the atca_blade CLI tool with the web GUI configuration tool Users may optionally override this protection mechanism using either of the following mechanisms V Web GUI command Refer to page 55 Table 24 ATCA status indication for the instructions to enable this override Allow GUI and CLI V CLI command syntax Table 11 CLI command syntax single session management override Convention atca blade set useroverride lt enable gt lt enable gt 0 1 Value 0 disables the GUI value I enables the GUI 4 4 HTML home page Once logged in the user will see the start up screen shown in the figure below Left click the folder panel to expand the menu configuration tools EMERSON FI Emerson ATCA S201 N 6806800H62B ATCA S201 Installation and Use Guide 36 RTM ATCA SXXX Overview Network Power AVCA S201 Username admin Log Off 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 Proper interaction with the blade cannot occur without completing these configuration steps 6806800H62B ATCA S201 Installation and Use Guide 37 RTM ATCA SXXX Overview EMERSON ES Emerson ATCA S201 GE Submit All
134. mmand syntax set network property assign Name server Convention atca blade set network Y 5 lt serverl gt server5 lt server1 gt Enter one to five name servers specified as Dotted decimal addresses lt Servers gt 4 6 7 NTP Server list NTP servers must be specified using dotted decimal notation For redundancy purposes the user may specify multiple servers each separated by a comma At manufacturing time this field is seeded with two NTP servers e 64 22 86 210 e 209 132 176 4 6806800H62B ATCA S201 Installation and Use Guide 41 RTM ATCA SXXX Overview V CLI command syntax Table 19 CLI command syntax set network property assign NTP server Convention atca blade set network Y 10 lt serverl gt server5 lt server1 gt lt server5 gt time nist gov 4 6 8 Network time protocol NTP On Off lute lt Read Write gt Users may enable NTP protocol service to synchronize the ATCA 201 s clocks with a known good reference time source 4 6 9 Ethernet network port identification The ATCA S201 provides multiple Ethernet interfaces that host blades may use to access storage Whether using the CLI or web based configuration tools these ports are identified with the Linux resource labels shown in the table below Table 20 Ethernet ports for chassis communications base fabric linux interface identifier dev ethO 10 100 1000 Base 0 Zone 2 dev eth1 10 100 1000 Base 1 Zone 2
135. ndicates it was at one time a member of a software RAID volume Click and select participating drives to attempt an import of the volume Clear ownership Will display ONLY in situations when a drive contains meta data that indicates it was at one time a member of a software RAID volume Click and select drives to clear all meta data stored on these disk s This operation will permanently eliminate the import array option V Important considerations and volume restrictions 5 Amaximum of 4 software RAID volumes may be defined on each ATCA S201 6 The default stripe size is 64KB but can be changed by creating the array using the CLI mdadm tool instead 7 Auser may assign multiple spare disks to each volume 5 3 2 Software RAID CLI command syntax Table 27 CLI command syntax mdadm manage RAID configuration mdadm create raiddevice n lt devices gt l lt raidlevel gt c lt stripe size gt lt component devices gt Create Create mode used initialize a new md array associate some devices with it and activate the array Raiddevice lt ttdevices gt lt raidlevel gt Integer 4 raid4 5 raid5 6 raid6 lt stripe size gt Optional will default to 64 if omitted expressed in kilobytes Within a stripe this defines the chunk of data read or written to any single member disk lt component devices gt Space delimited list of component devices Example dev sda dev sdb mdadm detail scan gt etc mdadm
136. ng with a dedicated parity disk RAID4 Disk 1 Disk 2 Disk 3 RAIDS Three or more disks are grouped in fashion where all written data is available even when any single disk drive is removed or fails RAID5 employs block level striping with a distributed parity disk This provides a significant advantage for RAID5 vs RAID4 for write operations because the bandwidth of all disks is available for parity write operations a y Disk 1 Disk 2 Disk 3 RAID6 Four or more disks are grouped in fashion where all written data is available even when any two disk drives are removed or fail RAID6 employs block level striping with two distributed parity disks While RAID6 provides a significant redundancy advantage each write spawns two additional parity calculations which in turn adds commensurate loads on both the internal CPU and memory RAID systems Disk 1 Disk 2 Disk 3 Disk 4 6806800H62B ATCA S201 Installation and Use Guide RTM ATCA SXXX Overview 6 Prepare Logical Volumes for iSCSI or file sharing Configuration Step RS232 Ethernet RAID Logical Volume iSCSI NFS SMB Console Setup Comm Setup LUN Setup Setup Device Setup 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 Once a device is committed as a shared resource for iSCSI or NAS f
137. nida 45 56 GE ee 26 34 Siegdletziytsbei et Le 28 start invoke oooooonoccnococococonononconnnonononornononconononos 25 syntax examples 35 36 39 40 43 45 56 59 64 72 73 76 81 91 D ja GE See Ethernet Port Properties E Ethernet port properties Broadast address 44 E AA EEE esas 43 GE A EE i e O E A 44 IP address 43 VIN UE 44 Subnet Mask scree cccatacaconact an acsateconsesaustacaeuamionnacatas 43 F Firmware Updating blade firmware ooococncnnoccncnconconcnnnoo 97 H ATM UE See Web GUI 16 Index I SCSI EES qua AA A 81 EEE EEE os 80 remove a LUN pe 83 L Link agregation 802 3ad See Bonding LVM Logical Volume Manager create a logical device ce eeceseeseeteeteeseeeeeenes 73 create a logical volume 70 delete avolume ENEE 74 extend avolume renos 73 A ee 67 M NU eee See Ethernet Port Properties N NFS cicale an GPO vaar 89 P Password changlng nono nooncnnncononnnonnons 23 35 FO 103 R RAID e 57 63 supported RAID Ievels ooo 60 66 RS232 default baudrate ooooconccononioccnonconononoonoonononcononoss 21 6806800H62B ATCA S201ATCA S201 Installation and Use Guide 16 3 Index S V SMB share VLAN Create AN OX DOME usina 91 WE ONG FOO E 45 Status view defined VAN 46 Blade taus ET EE 54 W U Web GUI Uboot Enable disable nnennnseensneseeneseseesssseseesessesess 35 el ee 20 environment variables rrsrrnnvvrnnnnvrnnnvrnnne 24 31 DE 30 68068
138. nline or offline with this menu box When enabled the port in online and will terminate IP traffic When the port is disabled IP packets are not processed 4 6 11 DHCP V DHCP lt Read Write gt The user may configure any port for Dynamic Host Configuration Protocol DHCP If DHCP is enabled the port will search for a DHCP server to automatically set the IP address subnet mask default gateway address 4 6 12 IP address lt Read Write gt The user may manually assign the IP address of a port if DHCP is NOT enabled The address must be entered using dotted decimal notation e g 192 168 1 211 4 6 13 Network Subnet mask lt Read Write gt The user may manually assign the subnet mask of a port if DHCP is NOT enabled The subnet mask must be entered using dotted decimal notation e g 255 255 255 0 6806800H62B ATCA S201 Installation and Use Guide 43 RTM ATCA SXXX Overview 4 6 14 Broadcast lt Read Write gt 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 lt Read Write gt 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 16 MTU size lt Read Write gt The MTU defaults to 1500 bytes on each IP interface but the user can adjusted higher if that
139. nnnonnnnnnonos 39 Table 13 CLI command syntax set network property domain NAME cooocccnconcnoncnnnonnnonnnonnonanonnnonnnnnnonos 39 Table 14 CLI command syntax set network property system date 40 Table 15 CLI command syntax set network property system Ume 40 Table 16 CLI command syntax set network property system time zone 40 Table 17 Time ZONE SEIS LIONS dsscxcovsayicceescatncsne censevanse NT EEA AAT 41 Table 18 CLI command syntax set network property assign Name senger 41 Table 19 CLI command syntax set network property assign NTP Server sravranrnnvrnnrnnvrnnrnnvenrrnvennnnnne 42 Table 20 Ethernet ports for chassis communications baseltabrich 42 Table 21 CLI command syntax set network property Ethernet port configuration o ooooco o o 43 Table 22 Shelf configuration menu parameters EEN 50 Taple23 Blade IO Status nd GEM Verre 51 Table 24 ATCA Status indicato N siii dd 55 Table 25 CLI command syntax blade status for ATCA and AMC site status 56 Table 26 CLI command syntax set raid Add RAID copnfiguration cc cecesceteesseseeseeeseeseesseeseeeeeeneens 59 Table 27 CLI command syntax mdadm manage RAID configuration rsrrsvrrnrrnvrrnrrnvenvrrvrrnrrnvrrnnnne 64 Table 28 CLI command syntax create new volume groups rsrrnrnnvrnvrnnvrnvrrnrrnvrnnernrrnvrnnrnnrrsnrrnrrsvernnnnnenne 72 Table 29 CLI command syntax create new logical device rrarranrravrnnrrnvrrnrenrrnvrrnrrnvrnnrrnvrnnrrnrrnvesn
140. o disk version No Disk 12V spin up lt 100 0 55A 6 6W 2 05A 25W usec staggered spin up 12v normal 0 55A 6 6W 2 05A 24 6W operating 12v idle OFF STATE LESS THAN LESS THAN 0 4W 0 4W 13 1 3 Environmental Specifications and Compliance The environmental specifications for the RTM ATCA SXXX assembly are presented in the table below 6806800H62B ATCA S201ATCA S201 Installation and Use Guide 129 RTM ATCA SXXX Mechanical and Connector Information Table 60 Environmental Specifications for the ATCA S201 Operating Temperature airflow 3 1 CFM Tema 20 C Hay 20 mag Operating Humidity 8 80 Storage Humidity 5 95 Shipping Humidity 5 95 Condensation Atmospheric Pressure and Altitude Operating 0 3 000 m Shipping 0 12 000 m Operating Shock See PICMG 3 0 specification Regulatory guidelines Operating Vibration See PICMG 3 0 specification Regulatory guidelines 6 of compliant 13 1 4 NEBS Compliance NEBS certifications are performed by integrator at a system level chassis ATCA AMC shelf managers etc The RTM module will not preclude the system form passing NEBS 13 1 5 Electromagnetic Compliance The board is designed and implemented so as to minimize electromagnetic emissions susceptibility and the effects of electrostatic discharge The board carries the following certifications 6806800H62B ATCA S201ATCA S201 Installation and Use Guide 130 RTM ATCA SXXX M
141. oad New Firmware package To begin the user must first download new ATCA firmware component s Please contact your Emerson Networks sales person for access Identifying the correct firmware image The download area contains firmware for several products Locate the latest firmware for the ATCA S201 Emerson distributes the code as gunu zip gz file The distribution will contain the following three files Description Rootfs ext gz uboot compressed file system firmware image file version denoted by timestamp Compressed linux kernel firmware image U boot bin Compressed u boot firmware code image 9 3 Normal Firmware Update procedures 9 3 1 Two methods exist for upgrading the firmware on the ATCA S201 one that is web based and one that is command line Both are equally effective and both require root administration privileges Web flash tool update procedure details Emerson offers the ability to update the carrier firmware using secure html connections The user must establish Web access to use this utility See chapter 3 New System configuration 3 The following procedure is a detailed description of the web based flash update procedure 6806800H62B ATCA S201 Installation and Use Guide 97 RTM ATCA SXXX Overview V Upgrade firmware procedure nen em e boat Apr 27 2009 17 44 03 T 428 Wed Jul 1 09 09 29 EDT 2009 atca blade Revision 1 73 Date 2009 07 21 20 05 48 Reset IO Counters Rescan SAS topology
142. ode on the ATCA S201 exactly as defined in AMC 0 specification PS1 is last mate on Power connector and PSO is on the opposite end of the set of connectors Logic low on PS1 indicates that RTM is present and fully inserted When low indicates to RTM that it is fully inserted and that MMC can start execution Logic high shall keep MMC in reset state This signal shall have a pull up resistor as indicated in AMC 0 specification These pins provide a functional JTAG port on the P33 connector The TAG chain is for mfg testing only and the chain is not intended for RTM use This bus allows an RTM to place peripherals on the ATCA serial management bus Connector J30 Power Supply for RTM The ATCA S201 supplies 12 V and the 3 3 V stand by voltages to an advanced rear transition modules RTM via the P30 connector The P30 connector assignments also include the IPMI L interface PS1 If needed an advanced RTM will convert the main 12V payload power into 1 2V 1 5V 2 5V and 3 3V by using DCDC converters The ATCA S201 is specified to the following maximum power ratings Mean power 25 W Peak power 26 W Standard deviation of power from mean power 0 25 W The ATCA S201 P30 connector is implemented by using Metral 89096 xxx from FCI www fciconnect com 6806800H62B ATCA S201 Installation and Use Guide 115 10 2 4 4 PS1 IPMI_SCL_L IPMI_SDA_L RTM ATCA SXXX Overview J30 ATCA D Do AO Figure 35 J30 RTM Power Rec
143. ommend that you close this webpage and do not continue to this website Y Click here to close this webpage If you suspect the certificate shown does not belong to k 192 168 1 92 please cancel the connection and notify the site f Continue to this websitepss t recommended administrator amp More information View Certificate 4 3 HTML login screen A user login is required to access and operate the ATCA S201 storage blade This menu prompts the user for username and password When shipped from the factory the default entries are username admin password admin See section 3 2 1for the information on the Password change procedure Username 6806800H62B ATCA S201 Installation and Use Guide 35 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 gt etc max inactivity Note In absence of this file the value is set to 600 seconds 4 3 1 1 Forced user logout A local user may immediately terminate an active management session by deleting the following file rm tmp curruser The above command will require the remote user to re login or allow the administrator to launch the atca blade CLI tool locally 4 3 2 Single session management override Blade management is restricted to one ad
144. on 6806800H62B ATCA S201 Installation and Use Guide 91 RTM ATCA SXXX Overview V 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 2 Remove an individual file share Export The user can remove any export from operation by opening the nfs or smb configuration menu All data on these exports is NOT lost Itis merely made unavailable and can be exported again at a later time V Follow these instructions to Delete a file share export Step 1 Click the Delete this Export button corresponding to the export you will remove Confirm the popup message 6806800H62B ATCA S201 Installation and Use Guide 92 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 Jetc samba smb conf nfs etc exports The configuration file contains an entry for each target entry created by the web o
145. op of the module as shown in the figure below Retention screw Inj ctor sjector echanism Figure 41 Injector Ejector Latch and Locking Screw 9 Carefully align the edges of the module with the guides in the appropriate slot It might be helpful to look into the enclosure to verify correct alignment of the rails in the guides Align the edges of the module with the card cage rail guides in the appropriate slot 10 Taking care to keep the module aligned in the guides apply equal and steady pressure and slide the module in until the injector ejector mechanism engages the retention bars 6806800H62B ATCA S201 Installation and Use Guide 127 11 12 13 RTM ATCA SXXX Installation 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 Tighten the two module retention screws to secure the module into the shelf 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 12 7 Removing the Advanced Rear Transition Module The RT
146. or service it becomes un available for new RAID or logical volume definitions unless it is first un shared AMC disk Physical Logical iSCSI amp NAS modules groups amp Site B1 ES volumes dere HW RAID y Ite N Ya Zone 2 Fabric gt IP network Site B3 6 1 1 mapping JBOD 7 Zone 2 Base IP host Ka Zone 3 RTM Site B4 6 1 1 mapping JBOD Kai CIFS share points 6 1 Benefits of a logical Volume Group dev vga A volume group is a group of one or more physical disks A volume group gives the administrator several powerful tools to manage storage resources These features include e Define volume groups with multiple disks or partitions e Dynamically increase a volume group by adding new physical disks 6 1 1 Benefits of a Logical device disk dev vga lva0 A volume group may be divided into multiple pieces Each piece is known as logical device but may also be called a logical disk or volume A Logical Device offers powerful features that include e Essentially unlimited logical devices defined on each volume group e Dynamically increase the size of logical device 6806800H62B ATCA S201 Installation and Use Guide 67 6 2 Viewing Physical disks RTM ATCA SXXX Overview 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 gt Physical Disks This top html menu provides a summar
147. own 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 Base channel bonding Base channel example bonding wl Host S E Storage Host Blade Blade The Linux bonding driver provides the ability to group ports detect link failures and reroute traffic to the surviving ports in amannertransparentto the storage participants Figure 10 Link aggregation 802 3ad bonding theory of operation 6806800H62B ATCA S201 Installation and Use Guide 47 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 Stepl ifconfig eth0 down ifconfig ethl down Deactivate the Ethernet slave ports that will become bond members Step2 modprobe bonding mode 0 miimon 100 This loads the bonding module sets the usage policy mode and sets polling frequency to 100mS Several mode exist but these are the most common Valid mode options mode 0 Round robin packet or balanced transmit policy This mode will only work with switches that support trunking mode 1 Active backup one slave port is active the other is passive This mod
148. pair signals in the AMC Connector 6806800H62B ATCA S201 Installation and Use Guide 138 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 e Hot swap communication with the shelf manager Inlet air temperatures Voltage monitoring Electronic Keying as described in the AMC 0 specification FRU information Drives blue LED indicators for hot swap OOS out of service Drives green LED for module OK The RTM ATCA SXXX module includes an MMC device for reporting status information to the ATCA blade This MMC utilizes an Intelligent Platform Management Interface IPMI which will communicate with the ATCA This MMC controls and monitors the following e Hot Swap communication with the shelf manager Inlet airtemperatures Voltage monitoring Electronic Keying as described in the AMC 0 specification FRU information Drives blue LED indicators for Hot Swap OOS out of service Drives green LED for module OK 14 1 IPMI and Management Controller IPMC The design features an IPMI controller consisting of a 16 bit microcontroller flash and SRAM The microcontroller uses I C interface to communicate the shelf management controller ShMC sensors and MMC devices on AMC modules and the RTM if installed
149. pare disk to the pool of available disks V Understanding the Hardware RAID status table page Once the RAID volume is created the individual disks comprising a RAID disk are hidden from the OS and physical disk view but are shown in the RAID status table The ATCA blade is label string identifies the RAID volume Bus Target Identifies the SCSI parameters used to address the virtual RAID device Type Identifies the RAID level employed by the virtual RAID device RaidO Raid1 or Raid1E WWID The World Wide Identification is an eight byte SAS address that a uniquely identifies the virtual RAID volume State Optimal The RAID volume and all comprising disk members are fully operational Degraded The RAID volume is accessible for read write operation Failed the RAID volume is not accessible for read write operations Status Enabled default The RAID volume is able to receive I O commands TT ooo aaa The usable capacity MB of the Virtual RAID drive Stripe Size The maximum chunk of data that is written to one disk of a RAID group The stripe width Stripe size number of disks The ATCA 201 currently applies a fixed size of 64 KB 6806800H62B ATCA S201 Installation and Use Guide 62 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
150. presentative for service and repair to ensure that all safety features are maintained OBSERVE WARNINGS IN MANUAL Warnings such as the example below precede potentially dangerous procedures throughout this manual Instructions contained in the warnings must be followed You should also employ all other safety precautions which you deem necessary for the operation of the equipment in your operating environment To prevent serious injury or death from dangerous voltages use extreme caution when handling testing and adjusting this equipment and its components Preface Flammability All Emerson PWBs printed wiring boards are manufactured with a flammability rating of 94V 0 by UL recognized manufacturers EMI Caution A 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 Safety Statement The ATCA S201 is designed to comply with EN60950 1 and is intended to be used with similarly tested ATCA and AMC products that have a user s guide detailing user installation of AMC module accessories CE Notice European Community Emerson Networks products with the CE marking comply with the EMC Directive 89 336 EEC Compliance with this directive implies conformity to the following European Norms e EN55022 Limits and Methods of Measurement of Radio Interference Characteristics of Inform
151. printed circuit board Jumper behavior is described below d 37 JP1 jumper for primary recovery Flash selection Jumper Description Short Pin 1 2 Normal setting When in this position the jumper indicates that boot is loaded from the primary flash device Short Pin 2 3 Service setting When in this position the jumper indicates me that boot code is loaded from the secondary flash device Table 38 JP2 jumper for clearing master password Jumper Description seme Short Pin 1 2 Normal setting When in this position the jumper indicates er the master password is preserved in flash Short Pin 2 3 Service setting When in this position the jumper indicates SES a Oe the master password shall be cleared 6806800H62B ATCA S201 Installation and Use Guide 101 RTM ATCA SXXX Overview AMC slot B1 AMC slot B2 AMC slot B4 I ep SAS AMC slot B3 mel XAUI 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 We advise against using this emergency recovery procedure if the ATCA S201 is functional and management communications can be conducted WV Upgrade firmware procedure 1 Remove the ATCA carrier the chassis see 2 9 Removing the ATCA carrier blade 2 Locate header JP1 and move the jumper to the service setting This cause
152. proper slot usage for your configuration 12 6 Installing the Advanced Rear Transition Module This section describes a recommended procedure for installing the RTM module in a chassis Before you install your module please read all cautions warnings and instructions presented in this section 6806800H62B ATCA S201 Installation and Use Guide 126 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 Verify that you have taken the necessary antistatic precautions 6 Goto the back of the system and choose an appropriate slot for the rear transition module Rear transition modules must be installed in line behind the accompanying node board For example if the accompanying node board is going to be installed in slot 3 its rear transition module must be installed at the back of the system in slot 3 7 Remove the slot filler panel from the selected node board slot if necessary 8 Prepare the module by loosening the locking screws and opening the injector ejector latch at the t
153. r cli tools The file syntax explanations follow in the next section V Sample smb conf file for samba CIFs file shares Notes 66 99 Comment lines must start with a or as first character A line may extend across multiple lines if last character is backslash Parameter names are case insensitive The configurations applicable to this product are contained in the global section global security share interfaces 192 168 1 152 255 255 255 0 workgroup WORKGROUP netbios name PPCSAMBA hosts deny NONE hosts allow ALL 1 Parameter and content definitions for this file is available online http us1 samba org samba docs man manpages 3 smb conf 5 html Y Sample etc export file for nfs file shares Notes Comment lines must start with a as first character A line may extend across multiple lines if last character is backslash The etc exports file facilitates the export of file systems to remote hosts with various user options Each exported file system should be on its own individual line with lists of authorized hosts placed after an exported file system with each entry delimited by spaces Options for each of the hosts is placed in parentheses directly after the host identifier without any spaces separating the host and the first parenthesis sh 2 05bf cat exports 6806800H62B ATCA S201 Installation and Use Guide 93 RTM ATCA SXXX Overview export nfs Files
154. ral labels are affixed to the ATCA S201 as shown below For proper identification of the AMC module use these barcode labels to determine the module identity The barcode labels provide the following information Table 3 ATCA S201 Identification Labels Label 1 Top Final assembly P N For Internal Use Only Label 2 Sub assembly P N For Internal Use Only Label 3 Serial number S N AAA Assembly Number 100 Format AAALYMMSSSS L Location of manufacturer S example 10058031234 Y Calendar year of manufacturer 2008 8 MM Calendar month of manufacturer March 03 SSSS Sequence number reset each month 1234 6806800H62B ATCA S201 Installation and Use Guide 12 ATCA S201 Overview Label 4 Part Numbers This label contains 2 numbers example Top Internal Part Number 0106826G01A Bottom Orderable Part Number ATCA S120 UKW y SE ATCA 1000 R 0 3757 r Final Assembly Number fe if 600 100001 R 0375 Q EDO EDO mmm Y XQ Sub Assembly Number Ze N 100M9010100 0 375 G OA mu Serial Number OG xX 0106827G01A ARK D DOI ATCA S201 ox OEM Label Optional Gei TAL S j 6 E318926 Safety Label 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
155. rather than flash boot Environments without a DHCP server e Flash recovery 3 6 2 Essential U boot user commands The U boot console environment includes a rich set of commands that can be listed on the screen using the following command uboot gt help Typically only a handful of commands are needed to configure a new ATCA S201 The essential commands are covered in the table below Table 8 Essential U boot configuration commands printenv Displays a list of all U boot environment variables and their current values See section 3 6 3 for details setenv lt variable_name gt Used to create or modify a U boot environment variable lt new_value gt New variables will be automatically created existing ones overwritten When called without a lt new value gt it will delete the matching lt variable_name gt from the U boot environment if it exists saveenv Used to saves environment variables to flash device which is loaded upon subsequent system power cycle or reboot Variable changes that are not saved exist in RAM only 6806800H62B ATCA S201 Installation and Use Guide 30 RTM ATCA SXXX Overview and lost if the system is re booted ping lt IP address gt Sends an icmp echo address to the designated IP address entered in dotted decimal format reset Perform soft reset ofthe ATCA cpu forcing a system reboot run lt variable_name gt Run a sequence of commands defined in the environment lt variable_name gt for
156. read all cautions warnings and instructions presented in this section 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 1 Verify that you have taken the necessary antistatic precautions 6806800H62B ATCA S201 Installation and Use Guide 16 ATCA S201 Installation 2 Goto 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 Prepare the module by loosening the locking screws and opening the injector ejector latch at the top and bottom of the module as shown in the figure below Hot Swap LED Injector ejector mechanism Retention screw Figure 4 Injector Ejector latch and locking screw 5 Carefully align the edges of the module with the guides in t
157. reate iSCSI LUNs Y CLIlcommand syntax Table 30 CLI command syntax create iSCSI share Convention atca blade manage shares Y lt diskmask gt N Y lt name gt Y Y lt diskmask gt Y N YIN variable length mask Must specify one entry for each system disk Use to Y designate which disk to share Use N in all other positions lt name gt Enter human friendly share name Syntax example atca blade set shares Y Y N N Y iSCSI_targetAA Y Y 1 Designate disk 1 of 2 an iSCSI share called iSCSI target AA Syntax example atca blade set shares Y N Y N Y iSCSI targetBB Y Y 2 Designate disk 2 of 2 an iSCSI share called iSCSI target BB 6 5 2 Commit a logical drive for NAS service Before a disk may be utilized for file sharing services nfs smb it must be formatted Depending on the size of the device or virtual volume formatting may take several minutes V Follow these instructions to assign NAS service Step I Step 2 Step 3 Step 4 Step 5 Enter a human friendly name for your new NAS share in the field labeled Share Name Click the Format button to commit a logical device as NFS SMB share Formatting can take several minutes with duration depending on the size Click the nfs box to allow access via OS s that support network file services such as Linux or Solaris Click the smb box to allow access via OS s that support Server Message Block s
158. s below EMERSON EVI Emerson ATCA S201 A SCSI I nfs A smb EN Shares Mana ge Shares LVM2 WS I MD RAID I Hardware RAID Physical Disks FI Maintenance 6806800H62B ATCA S201 Installation and Use Guide 77 RTM ATCA SXXX Overview Logical Volume Share Type Block File Action Mount Point lt gt Fullname Share Type Delete Action Wad mnt shr block Iva0 lt gt mnt shr block Iva0 lv iScSIL Infsl smb 7 Quedate V Follow these instructions to un commit a logical drive Step 1 Un Click all the SCSI box Step 2 Click the Update button Step 3 Click the Delete button Step 4 Click the Update button Later the logical device may be reassigned to a new share or the space returned to the Volume group be deleting the device using the LVM2 configuration menu 6 5 4 Un commit an NFS SMB share The administrator may modify or un share any currently shared logical device by navigating to the html configuration screen Emerson ATCA S201 gt Shares gt Manage Shares The Manage shares menu displays the active status of all logical devices Scroll to the device of interest and complete the steps below EMERSON EVY Emerson ATCA S201 FI SCSI A nfs 4 smb CC Shares Mana ge Shares LVM2 WS A MD RAID Q Hardware RAID Physical Disks FI Maintenance 6806800H62B ATCA S201 Installation and Use Guide 78 RTM ATCA SXXX Overview Logical Volu
159. s for the blade can be identified by finding the IP address corresponding to the following MAC address assignments MAC address OUI 00 1 1 OD xx xx xx hex 6806800H62B ATCA S201 Installation and Use Guide 19 3 New System configuration Configuration Step RS232 Ethernet RAID Logical Volume iSCSI NFS SMB Console Setup Comm Setup LUN Setup Setup Device Setup 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 Atypical ATCA deployment will consist of an ATCA chassis ATCA carrier blades Advanced RTM and shelf management controllers ShMC Administrators may choose from the following physical access ports to conduct management communications e Full configuration capabilities RS232 on Advanced Rear transition module ARTM Ethernet on Advanced Rear transition module 1 GbE on ARTM Any zone 2 Ethernet connection base or fabric In addition to DHCP the ARTM Ethernet port offers special protocol services such as TFTP to recover corrupted flash or accidental erasure All available management communications methods are outlined in this chapter ATCA Chassis Ze lt a Console ShMC Console 2 RS232 Figure 5 Management communications port location diagram Typical 6806800H62B ATCA S201ATCA S201 Installation and Use Guide 20 RTM ATCA SXXX Overview 3 1
160. s the blade to fetch firmware from the read only factory flash 3 Re install the ATCA blade into the chassis and allow it to reboot 6806800H62B ATCA S201 Installation and Use Guide 102 10 11 12 13 14 15 RTM ATCA SXXX Overview The ATCA blade will break into the U boot console Establish a serial connection login into the blade as root see section 3 2 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 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 Load the second host machine with TFTP server software A good quality tftp program is offered by PumpKIN an open source and free implementation that is written to RFC1350 If necessary create a directory on the secondary host machine named tftpboot Place the new blade firmware image s for the primary flash device in tftpboot When all pieces are in place go to U boot console and type run ramboot Watch U boot console and wait for output message Primary flash successfully restored Remove the ATCA carrier the chassis Locate header JP1 and move the jumper to the normal setting Re install the ATCA blade into the chassis and allow it to reboot normally 9 4 3 Clear root password For security purposes administrators are encouraged
161. s where the customer flash has been accidently erased or corrupted The blade boot sequence continues as the onboard CPU loads firmware and executes the code contents If no attempts are made to halt or suspend the boot process approximately 45 seconds later the module is able to accept management communication logins and commands Once booted the blade runs entirely out of DDR2 SRAM embedded on the blade All Ethernet ports are configured for DHCP If DHCP is not used on your network the ATCA S201 Ethernet ports must be initialized manually as described in section 3 6 of this manual 6806800H62B ATCA S201 Installation and Use Guide 21 RTM ATCA SXXX Overview Power On Soft Reset d Jumper 1 All FW Code retrieved Jumper 1 All FW Code retrieved E from Customer from Factory Flash an Flash Fetch u boot bin from flash device Pause bootdelay countdown genres rsh Normal boot sequence Exception boot sequence Enter u boot Prompt mode Network boot Manual IP network config Run contents of bootcmd Fetch uImage Linux OS Kernel Jumper 2 edd O a Normal position Use encrypted Password file Fetch root s Linux file system and Jumper 2 Flash recovery rescue Password reset Clear root password only Applications iSCSI NAS Management Figure 6 ATCA Blade boot sequence diagram Note ATCA S201 jumper locations are illustrated in chapter 9 of this manua
162. se components can cause damage to the board the backplane or other system components Carefully inspect your board and the backplane for both pin and component integrity before installation Our suppliers take significant steps to ensure there are no bent pins on the backplane or connector damage to the boards prior to leaving our factory Bent pins caused by improper installation or by boards with damaged connectors could void the warranty for the backplane or boards If a system contains one or more crushed pins power off the system and contact your local sales representative to schedule delivery of a replacement chassis assembly 2 5 Use Caution When installing or removing the ATCA carrier A When installing boards in an empty chassis we recommend that you start at the left of the card cage and work to the right This helps to avoid mistakes in matching slots with the intended carrier boards 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 2 5 1 Preserve EMI Compliance To preserve compliance with applicable standards and regulations for electromagnetic interference EMI during operation all front and rear openings on 6806800H62B ATCA S201 Installation and Use Guide 15 ATCA S201 Installation the chassis or board faceplates must be filled with an appropriate card or covered with a filler p
163. seeseessnessesssesansaees 109 Table 44 AMC slot 2 Port Assignments cce csscssessessssscsssesseessssscsessseseessesssesaesessacssessaeseessneeatsaees 110 Table 45 AMC slot 3 Port Assignments REENEN 110 Table 46 Connector J10 Zone 1 Pin Assignments oococccccconcnnoonconnonncnnonnnoononconononnonnnco non rca non non nnn nan nono 111 Table 47 Connector J23 Zone 2 Pin Assignments ENEE 112 Table 48 Connector J23 Zone 2 Signal DescriptiONS occoooocnconooncnnnonnnonconnnonconononoononnnoononnona noo ncnnaoos 112 Table 49 Connector P32 Management infrastructure pin asslgdpments 113 Table 50 Connector J32 Management infrastructure signal descriptions ceeeseesseeeetseseeteeeeeeees 114 6806800H62B ATCA S201ATCA S201 Installation and Use Guide vii Table 51 Connector J33 PCle and Miscellaneous RTM Pin Assignments rnrnrranrnnrravrrnrrnvernranrrnvennrrnnn 114 Table 52 Connector J33 PCle and Miscellaneous RTM Signal DescriptiONS ococoococnconcnononncnonnnnnos 115 Table 53 J30 RTM Power Pin Header Aesignment nono nonnono nono ncnnnonnnno 116 Table 54 Connector J30 RTM Power Pin Signal Descriptions ccccecessessceeesseseesseeseceeeeseeseeeseeaeeees 116 Table 55 I O Ports Available on RTM Faceplate ENEE 119 Table 55 LEDS eg RE e EE 120 Table 57 RTM ATCA SXXX Identification Labele 122 Table 58 Max RTM Module Current Requirements ocoococcoccnonooncnnnonnonnnononononncnononnonn noo nonnnno noo non
164. size that is also supported by all adapter switch and router devices in the path Any path component with a smaller MTU will break packets into pieces fragment which can reduce overall system performance The user may specify the MTU Maximum Transmission Unit for each Ethernet resource MTU defines the maximum size of a packet that the blade may transmit over the network interface without fragmentation A large MTU permits the system to send fewer packets of a larger size to achieve the same network throughput with generally less OS and software overhead If you are not sure you can often find the MTU size using a trial and error ping command First set the MTU to the max then open a console port and ping the destination port incrementing the size until no response is received ping 192 168 1 10 1 1500 f ping 192 168 1 10 1 4000 ping 192 168 1 10 1 8000 f ping 192 168 1 10 1 16110 f 4 6 17 MAC address lt Read Only gt The Ethernet MAC address is a 48 bit number that identifies the physical source and destination of the Ethernet 802 3 frame The address is assigned by Emerson during manufacturing and permanently recorded in nonvolatile memory on the blade 6806800H62B ATCA S201 Installation and Use Guide 44 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 8
165. sk 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 Table 24 HTML tool Emerson ATCA S201 gt LVM2 logical group status screen Volume member Linux SCSI device name from ATCA S201 management perspective Displays the volumes access privilege settings default is read write Total Size The calculated capacity GB is the product of Total PE x PE Size PE Size The physical extent PE in LVM is the block size that physical volumes are using The default physical extent is 4MB Total PE This is the summation of physical extents contributed by its members Allocated Space PE Thenumber of physical extents committed to logical device A AA Free Space PE The number of physical extents not yet committed available to new A or existing logical devices 6806800H62B ATCA S201 Installation and Use Guide 72 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 rename Ga Loes sen rte o Les moo so ni mone Omine 14020s M
166. sted changes can be committed V Example 1 Use this script entry to change the blades Hostname atca blade set network Y 0 StorageBlade 99 Y Example 2 Additional references Specific CLI usage and syntax examples are provided within each configuration chapter of this manual 3 6 New system configuration No DHCP server In some deployments a DHCP server may not exist In these instances the blades Ethernet resources will require manual initialization 6806800H62B ATCA S201 Installation and Use Guide 29 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 U boot employs a countdown timer with a default setting of bootdelay seconds see table below If a key is pressed before this time the auto boot procedure halts and the administrator will see a U Boot command prompt Hit any key to stop autoboot 5 uboot gt 3 6 1 1 When is U boot needed Users may never need the U boot environment U boot is included to accommodate atypical system maintenance situations such as On site field servicing must be connected via serial console Network boot
167. te and make changes to an item in the new settings row Notice that changes made here do not immediately change the Active settings row New settings changes are abandoned by navigating away from the page Changes are committed only when the submit button is clicked Note Care should be taken when altering or disabling an interface being used for HTML management For example if you shut down the interface being used for HTML existing communication is lost and an alternate Ethernet port or RS232 cable may be needed to re enable it 4 6 System Identification and Time Zone attributes The attributes in this menu grouping establish time reference utilized by all aspects of product operation 6806800H62B ATCA S201 Installation and Use Guide 38 RTM ATCA SXXX Overview Use Active tick usask ca StorBlade99 domain com 4 6 2009 08 51 59 New_York 0 0 0 0 Settings tock usask ca Ne ee Sorbiadess Iess 4 6 2009 08 51 59 be ze 0 0 0 0 ua Y 4 6 1 Hostname lt Read Write gt The user may assign a human friendly name to the ATCA S201 instance The hostname is printed at the top of all menus and listed in configuration and logs files Users are encouraged to assign different hostnames to each blade however there is no actual requirement to make unique assignments within a namespace Y CLIlcommand syntax Table 12 CLI command syntax set network property hostname Convention atca blade set network Y 0
168. ting 11 6 Products Supported by this Manual The information in this manual applies to the following products e RIM ATCA SXXX 0 e RIM ATCA SXXX 2 e RIM ATCA SXXX 2 300 Figure 39 RTM ATCA SXXX Top View Two Disk Drives 11 7 Identification Labels At manufacturing time several labels are affixed to the RTM ATCA SXXX as shown below For proper identification of the RTM use these barcode labels to accurately 6806800H62B ATCA S201 Installation and Use Guide 121 RTM ATCA SXXX Overview determine the module identity The barcode labels provide the following information Table 57 RTM ATCA SXXX Identification Labels Label 1 Final assembly P N For Internal Use Only Label 2 Sub Assembly P N For Internal Use Only Label 3 Serial number S N S N Format AAA Assembly Number 401 L Location of manufacturer S Y Calendar year of manufacturer 2008 8 2010 A MM Calendar month of manufacturer March 03 SSSS Sequence number reset each month 1234 Label 4 Part Numbers This label contains 2 numbers Top Internal Part Number Example 0106828G01A Bottom Ordering Part Number RTM ATCA SXXX 0 6806800H62B ATCA S201 Installation and Use Guide 122 RTM ATCA SXXX Overview ar FEE O Fm O i ER RTM401N ROO vo wuesen Ol ua JAAA OUA UAA Ui ULL UN ha Final Assembly Number RTM ATCA SXXX 0 MON KGR E SN 600 401000 R eil II LEGG III Uu II Di Ji OEM Label Optional
169. tion and Use Guide 119 RTM ATCA SXXX Overview 12345678 Activity LED Amber Activity LED Green Se CR 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 pass through 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 Table 56 LEDs On RTM Faceplate RTM Faceplate Ethernet Activity AMBER LAN management activity LED No Activity Ethernet Link GREEN LAN management LINK LED On NO ss Hot Swap HS BLUE Management power available to the module rail The module i is operational and is unsafe for ten oaao Long Blink Delay before module is activated Short Blink Delay before module is de activated Fault or Out of Service OOS RED On Module Fault set by Shelf manager or TI ss o Off No module fault O TAN payload powerisbeingsuppledto board Module Ready OK and in service GREEN 12V payload power is being supplied to board 12V payload power is not detected 6806800H62B ATCA S201 Installation and Use Guide 120 RTM ATCA SXXX Overview Activity Link 005 OK Hot Swap 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 rou
170. tra caution to avoid damage to the pins and components located on the primary or secondary sides of the boards 12 4 1 Preserve EMI Compliance To preserve compliance with applicable standards and regulations for electromagnetic interference EMI during operation all front and rear openings on 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 12 4 2 Understand Hot Swap Your RTM is electrically designed for hot swap within a fully powered chassis To facilitate hot swap there is a blue LED on the rear faceplate This LED is under software control If your system is using software that provides full hot swap capabilities the software will illuminate the blue hot swap LED on the rear faceplate when software has stopped and it is safe to remove the advanced rear transition module If your system does not have hot swap aware software running behavior of the blue LED is indeterminate In this case you may need to manually shut down applications or operating systems running on the board prior to board removal even if the blue LED is lit Powering down or removing a board before the operating system or other software running on the board has been properly shut down may cause corruption of data or file systems 12 5 Verify Slot Usage Prevent possible damage to module components by verifying the
171. uration tool may be enabled or disabled for security reasons V CLI command syntax Table 10 CLI command syntax enable disable GUI access Convention atea _atca_blade set gui lt enable 02 eeeseseseseseeesssssS set atca blade set gui lt enable 02 eeeseseseseseeesssssS lt enable gt lt enable gt 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 The ATCA S201 employs https encrypted secure sockets layer SSL technology to protect configuration activity that occurs over IP links The ATCA S201 issues a self signed certificate identified as EMERSON This certificate is not registered with a certificate authority and the browser will pop up a warning as shown below Users must accept the certificate to proceed There is a problem with this website s security certificate e security certificate presented by this website was not issued by a trusted certificate authority Security Error Domain Name Mismatch Cl tificate presented by this website was issued for a different website s address You have attemmpted to establish a connection with 192 168 1 92 However the security certificate presented belongs to SANBlaze It is possible though unlikely that someone may be trying to intercept your communication with this web site We rec
172. ut may draw up to 200mA from the 3 3 V management power source Be sure to validate that the host chassis can supply the RTM slot with these maximum current requirements Table 58 Max RTM Module Current Requirements Module Current RTM ATCA RTM ATCA SXXX 2 SXXX 0 Two disk version No Disk 12 V spin up lt 100 0 55 A 6 6W 2 05 A 25 W usec staggered spin up 12 V normal 0 55A 6 6W 2 05 A 24 6 W operating T2V dle OFF STATE LESS THAN LESS THAN 0 4 W 0 4 W 6806800H62B ATCA S201ATCA S201 Installation and Use Guide 124 RTM ATCA SXXX Installation Module Current RTM ATCA RTM ATCA SXXX 2 SXXX Two disk version No Disk 12 V spinup lt 100 0 55 A 6 6W 2 05 A 25 W usec staggered spin up 12 V normal 0 55A 6 6W 2 05 A 24 6 W operating T2V idle OFF STATE LESS THAN LESS THAN 0 4 W 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 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 Electronic components such as disk drives computer boards and memory modules can be extremely sensitive to electrostatic discharge ESD After removing the component from its protective wrapper or from the system place the component flat on a
173. y list of current physical disks Note The disks appearing in this view will dynamically change to reflect alterations made with MD_RAID configuration menus EMERSON Emerson ATCA S201 iscsi A nfs Device Name _ smb oe dev sda O Shares LVM2 dev sdb MD RAID TN Hardware RAID EVY Physical Disks dev sda dev sdb dev sdc Maintenance IN uuy I HUC101414CSS300 A410 Offline FUJITSU MAY2073RC 0103 Offline LSILOGIC Logical Volume 3000 Update Java Menu to reflect added disks 6 2 1 Figure 20 HTML tool Emerson ATCA S201 Physical Disk summary screen Interpreting physical disk status Physical disks resources can be mapped to logical volume groups which are split into Logical device slices which are then shared as iSCSI or NAS The number of Physical disks may not necessarily correlate 1 1 with the hardware disk pool e g number of AMC drive carriers because physical disks may include volumes created through RAID services that mask the individual hardware disk members From the ATCA S201 perspective physical disks are presented as Linux SCSI devices dev sd a z Online Device is actively used as either a iSCSI export or NAS share volume Offline Device is available for iSCSI or NAS operations 6806800H62B ATCA S201 Installation and Use Guide 68 RTM ATCA SXXX Overview 6 2 1 1 Disk view refresh Re draw Tree button The physical disk assignments c
Download Pdf Manuals
Related Search