Black Box SM702C User's Manual
Contents
1. Perform this procedure to view the device s management page if the device supports Web based management This menu item is only enabled when the selected object contains a Management URL in its Describe information 1 Click on the device icon to select it 2 From the main menu select Control then Browse Web Management Page 6 4 8 OPTIONS MENU The Options menu has the following selections Protect Map Log In Log Out e Set Password Customize HP OpenView Customize Alarms Customize Device Access Protect Map Follow this procedure to disable editing of a map via password It is not meant as a data security feature but prevents your map from being modified accidentally during regular operations Only the editing functions are disabled setting and acknowledging alarms are not affected CHAPTER 6 Operation To Protect Your Map 1 From the main menu select Options then Protect Map The protect map screen appears 2 Enter a password 3 Click OK to enable The word Protected is displayed in the status bar at the bottom of the OpenView window To Unprotect Your Map 1 From the main menu select Options then Unprotect Map The unprotect map screen appears 2 Enter the correct password 3 Click OK to unprotect map and resume editing NOTE The protect password is stored in the OVWIN INI file under the OpenView section using the Key string value If you forget your password simply delete the2. To Display Help Enter In order to HELP List the available configuration commands HELP SET List the available SET commands HELP GET List the available GET commands HELP RESET List the available RESET commands A Typical SNMP Telnet Setup Sequence Would Look Like This Basic IP settings SET RACK 1 FACTORY DEFAULTS 1 0K SET RACK 1 IP ADDRESS 231 98 4 204 1 0K SET RACK 1 SUBNET MASK 255 255 255 0 1 0K SET RACK 1 DEFAULT ROUTER 231 98 4 53 Specific SNMP settings SET RACK 1 SNMP WRITE COMMUNITY NAME NETMAN 1 0K PRO SWITCHING SYSTEM SET RACK 1 SNMP MANAGER 1 IP ADDRESS 231 98 4 29 1 0K SET RACK 1 SNMP MANAGER 2 IP ADDRESS 231 98 4 47 1 0K Unit reset in order for settings to take effect RESET RACK 1 1 VERSION Black Box Pro Switching System 05 12A 1 SNMP UP Connectivity test SET RACK 1 PING 231 98 4 49 PING STARTED PRESS ANY KEY TO STOP 11 07 44 REPLY FROM 231 98 4 49 11 07 45 REPLY FROM 231 98 4 49 11 07 46 REPLY FROM 231 98 4 49 11 07 47 REPLY FROM 231 98 4 49 11 07 48 REPLY FROM 231 98 4 49 11 07 49 REPLY FROM 231 98 4 49 1 0K HEALTH CHECK GET RACK 1 SNMP STATUS 2 1 SNMP STATUS 2 CHAPTER 5 Installation IP ADDRE
3. rackSigAlarmChanges Description Parameters MIB Path Variable Example 1 3 6 1 4 1 509 1 1 3 iso 1 org 3 dod 6 internet 1 private 4 ent erprises 1 Hadax 509 IntelliSwitch2000 1 rack2000Entry 1 rackLin eCardChanges 3 1 3 6 1 4 1 509 1 1 3 0 where 0 indicates that the variable is not part of a table Display the total number of line card removals and insertions since the rack was last re initialized Operation Get Variable 1 3 6 1 4 1 509 1 1 3 0 Total number of monitored alarm changes since the rack was last re initialized You can only GET the value of this variable Counter 1 3 6 1 4 1 509 1 1 4 iso 1 org 3 dod 6 internet 1 private 4 ent erprises 1 Hadax 509 IntelliSwitch2000 1 rack2000Entry 1 rackSig AlarmChanges 4 1 3 6 1 4 1 509 1 1 4 0 where 0 indicates that the variable is not part of a table Display the total number of monitored alarm changes since the rack was last re initialized Operation Get Variable 1 3 6 1 4 1 509 1 1 4 0 APPENDIX D Proprietary MIB rackAlarmTrigOpChanges Description Total number of alarm triggered operation changes since the rack was last re initialized You can only GET the value of this variable Parameters Counter MIB Path 1 3 6 1 4 1 509 1 1 5 iso 1 org 3 dod 6 internet 1 private 4 ent erprises 1 Hadax 509 IntelliSwitch2000 1 rack2000Entry 1 rackAla rmTrigOpChanges 5 Variable 1 3 6 1 4 1 509 1 1 5
4. showing your whole submap Your icons appear as dots CHAPTER 6 Operation 3 Position the box and click OK to view Set Grid Perform this procedure to set the grid spacing which is used as a drawing guide 1 Click on the submap to select it 2 From the main menu select View then Set Grid The Set Grid screen appears 3 Set the horizontal and vertical grid spacing 4 Click on OK to set Show Hide Grid Perform this procedure to show or hide the grid on the current submap The grid is used as a drawing guide 1 Click on the submap to select it 2 From the main menu select View then Show Hide Grid The grid screen appears disappears on the current submap 6 4 6 MONITOR MENU The Monitor menu has the following selections Describe e Status Legend e Alarm Log Describe Perform this procedure to display the description screen for the selected object On the description screen you can edit or add information about the selected object You can also describe an object by selecting Edit then Describe from the main menu To Describe an Object 1 Click on the object to select it PRO SWITCHING SYSTEM 2 From the main menu select Monitor then Describe The description screen p for the object appears 3 Edit or add the appropriate information for the object Status Legend Follow this procedure to display the status legend which shows the states of the objects using
5. 1 3 6 1 4 1 509 1 6 1 4 sigCardIndex sigPort sigName where sigCardIndex is the slot number 1 through 16 occupied by the line card sigPort is the port number 1 port A 2 port B 3 port C 4 port D 5 common sigName is the hardware signal name 1 txd 2 rxd 3 dcd 4 cts 5 rts 6 dsr 7 dtr 8 ri 9 tc 10 rc 11 ec 12 sqd 13 rl 14 Il 15 dce 16 dte 17 tm 18 ctr 19 ind 20 set 21 byt Example Display the status of the DCD 3 signal at port B 2 in line card 6 Operation Get Variable 1 3 6 1 4 1 509 1 6 1 4 6 2 3 D 8 Alarm Definitions The following variables allow you to create or edit alarm definitions that is hardware signals to be monitored for your Pro Switching System unit In general all variables having a common sigAlarmIndex which you select are part of the same alarm definition sigAlarmCardIndex Description The monitored line card of the alarm definition You can SET and GET the value of this variable Parameters Line cards 1 through 16 PRO SWITCHING SYSTEM MIB Path Variable Example sigAlarmPort Description Parameters MIB Path Variable Example 1 3 6 1 4 1 509 1 7 1 2 iso 1 org 3 dod 6 internet 1 private 4 ent erprises 1 Hadax 509 IntelliSwitch2000 1 sigAlarmTable 7 sigAlar mEntry 1 sigAlarmCardIndex 2 1 3 6 1 4 1 509 1 7 1 2 sigAlarmIndex where sigAlarmIndex is a number from 1 to 32 of an alarm defini
6. BLACK BOX Copyright 2000 Black Box Corporation All rights reserved 1000 Park Drive Lawrence PA 15055 1018 724 746 5500 Fax 724 746 0746 BL ACK BOX O UN UN RR RR RR SM700A SM707C SM722C SM701A SM708C SM723C SM701C SM709C SM724C SM702C SM710C SM730 SM705C SM720C SM740 SM706C SM721C SM750A Pro Switching System TIC UON onana RB TOA ELL IIS o CUSTOMER Order toll free in the U S 24 hours 7 A M Monday to midnight Friday 877 877 BBOX SUPPORT FREE technical support 24 hours a day 7 days a week Call 724 746 5500 or fax 724 746 0746 INFORMATION Mail order Black Box Corporation 1000 Park Drive Lawrence PA 15055 1018 Web site www blackbox com E mail info blackbox com FCC INFORMATION FEDERAL COMMUNICATIONS COMMISSION AND INDUSTRY CANADA RADIO FREQUENCY INTERFERENCE STATEMENTS This equipment generates uses and can radiate radio frequency energy
7. HDX2000L_PSx Patching status HDX2000L_PATCH_xxx 00 No patching capability 01 Patch cable out 02 Patch cable in Port or switch position HDX2000L_POS_xxx 00 for COMMON APPENDIX C HDX2000L Library 01 for position A 02 for position B 03 for position C 04 for position D rc Rear card code 2 digit hexadecimal value sp Line specific parameter SS Status code HDX2000L STATUS xxx 00 OK 01 Absent 02 Failure 03 Inserted 04 Removed 05 Manual operation 06 Remote operation VV VV Rack firmware version number for example 05 12 X X X X IP address of the operator who requested a remote switch yy LED state HDX2000L LEDSTATE xxx 01 mark 02 space 04 active C 3 Sample Code ttinclude lt windows h gt ttinclude lt windowsx h gt ttinclude hdx20001 h define WM_TRAP_ 2000 20000 Global library session handler HGLOBAL ghSession 755 Windows entry point int WINAPI WinMain HINSTANCE hInstance HINSTANCE hPrevInstance LPSTR IpCmdLine int nCmdShow HWND hMain int nResult PRO SWITCHING SYSTEM WNDCLASS wndclass Windows initialization wndclass lpfnWndProc MainWndProc wndclass hInstance hInstance wndclass lpszClassName szAppClass if RegisterClass amp wndclass y Error hMain CreateWindow szAppClass szAppName WS_OVERLAPPEDWINDOW CW_USEDEFAULT CW_USEDEFAULT CW_USEDEFAULT NULL CW_USEDEFAULT NULL NULL hInstance Initialize the
8. Mekik Alarm HACE EXT Sowirching Figure 6 35 Line Status Screen PRO SWITCHING SYSTEM From the line card status screen you can e Perform individual line card switching e Bridge a line card to a bus Enter the Scheduled Switching screen Enter the Standard Alarm screen Enter the Alarm Triggered Switching screen To Display the Line Card Status Screen 1 From the site level submap double click on the site icon containing the target line card The rack level submap appears 2 From the rack level submap double click on the rack icon containing the target line card The front view of the rack appears 3 From the front view of the rack double click on the target line card The line card status screen appears NOTE The line card status screen may take several seconds to display all information depending upon your polling frequency settings To Perform Individual Line Card Switching In the bottom left corner of the screen click on desired switch position A or B NOTE Switching may take several seconds to occur depending upon your polling frequency settings To Bridge the Line Card to the Monitor Bus In the bottom left corner of the screen click on Bridge to bridge the line card to the monitor bus or click on Normal to remove the bridge NOTE Bridging may take several seconds to occur depending upon your polling frequency settings CHAPTER 6 Operation To Enter the Scheduled
9. ON off off ON 104 off ON ON off ON off off ON 105 ON off ON off ON off off ON 106 off off ON off ON off off ON 107 ON ON off off ON off off ON 108 off ON off off ON off off ON 109 ON off off off ON off off ON 110 off off off off ON off off ON 111 ON ON ON ON off off off ON 112 off ON ON ON off off off ON 113 ON off ON ON off off off ON 114 off off ON ON off off off ON 115 ON ON off ON off off off ON 116 off ON off ON off off off ON 117 ON off off ON off off off ON 118 off off off ON off off off ON 119 ON ON ON off off off off ON 120 off ON ON off off off off ON 121 ON off ON off off off off ON 122 off off ON off off off off ON 123 ON ON off off off off off ON 124 off ON off off off off off ON 125 ON off off off off off off ON 126 off off off off off off off ON 127 ONI ON ON ON ON ON ON off 128 PRO SWITCHING SYSTEM Table 5 4 continued DIP Switch Settings at DS3 and DS4 Set Switches 1 through 8 to To set the password DS3 to To set the rack address DS4 to 129 130 131 132 133 134 135 136 137 138 139 140 141 142 143 144 145 146 147 148 149 150 151 152 153 154 155 156 157 158 159 1
10. TS COMP Cavity MODEM Cavity MON A Cavity MON B Cavity Figure 4 5 Switch Patch Card 4 4 Rear Cards Rear cards work with front cards to manage lines The front card contains the switching and patching circuitry the rear card contains the cable interface circuitry The front card and the rear card mate when they are inserted into a rack Rear cards and front cards that mate must be compatible See the description of the front card Section 4 3 for a list of the compatible rear cards In a rack there are 16 slots for front cards and 16 corresponding slots for rear cards The cards occupy one slot Rear cards have ports that correspond with their applications They also have a slot number window that indicates the number of the slot in which the card is installed PRO SWITCHING SYSTEM Table 4 3 Rear Cards Model Application of Slots Connectors SM720C A B switch and patch SM721C A B switch and patch SM722C A B switch and patch SM723C A B switch SM724C A B switch A B Common A B Common A B Common A B Common A B Common RJ 45 alfa aja 4 5 Power Supplies Power supplies allow you to supply power to a rack You can have one or two for redundant power power supplies in a rack There is one type of power supply the SM750A It s a 115 230 VAC 50 to 60 Hz auto selectable power supply Table 4 4 Power Supply Model Description SM750
11. integer x 0 1 seconds Example Set the switch time to 1 second for line card 2 Operation Set Variable 1 3 6 1 4 1 509 1 5 1 14 2 Set Value 10 PRO SWITCHING SYSTEM lineComment Description A user comment for each line card You can SET and GET the value of this variable Parameters Up to 31 characters MIB Path 1 3 6 1 4 1 509 1 5 1 15 iso 1 org 3 dod 6 internet 1 private 4 ent erprises 1 Hadax 509 IntelliSwitch2000 1 lineCardTable 5 lineCar dEntry 1 lineComment 15 Variable 1 3 6 1 4 1 509 1 5 1 15 lineCardIndex where lineCardIndex is the slot number 1 through 16 occupied by the line card Example Enter a user comment for line card 12 Operation Set Variable 1 3 6 1 4 1 509 1 5 1 15 12 Set Value Denver backup line D 7 Hardware Signals The following variable allows you to check the signals at each hardware port of your Pro Switching System unit sigState Description Current signal state You can only GET the P 8 y value of this variable Parameters absent 0 no signal is present mark 1 the signal is in mark space 2 the signal is in space active 4 the signal is toggling between mark and space that is data is present APPENDIX D Proprietary MIB MIB Path 1 3 6 1 4 1 509 1 6 1 4 iso 1 org 3 dod 6 internet 1 private 4 ent erprises 1 Hadax 509 IntelliSwitch2000 1 sigTable 6 sigEntry 1 si gState 4 Variable
12. 1 org 3 dod 6 internet 1 private 4 ent erprises 1 Hadax 509 IntelliSwitch2000 1 busTrigOpTable 10 busT rigOpEntry 1 busTrigOpSwitchToPort 3 1 3 6 1 4 1 509 1 10 1 3 busTrigOpIndex where busTrigOpIndex is a number from 1 to 32 of a bus triggered switching operation to which the port A B C D normal is assigned Switch to port B when the specified code is detected on the bus for bus triggered switching operation 4 Operation Set Variable 1 3 6 1 4 1 509 1 10 1 3 4 Set Value B 2 List of line cards to switch This is a list of line cards separated by white spaces For example to switch the first third and tenth line cards busTrigOpCardsList would be 1 3 10 You can SET and GET the value of this variable Line cards 1 to 16 PRO SWITCHING SYSTEM MIB Path Variable Example busTrigOpComment Description Parameters MIB Path Variable Example 1 3 6 1 4 1 509 1 10 1 4 iso 1 org 3 dod 6 internet 1 private 4 ent erprises 1 Hadax 509 IntelliSwitch2000 1 busTrigOpTable 10 busT rigOpEntry 1 busTrigOpCardsList 4 1 3 6 1 4 1 509 1 10 1 4 busTrigOpIndex where busTrigOpIndex is a number from 1 to 32 of a bus triggered switching operation to which the list is assigned Create a list from line cards 2 5 10 12 15 and 16 to switch for bus triggered switching operation 1 Operation Set Variable 1 3 6 1 4 1 509 1 10 1 4 1 Set Value 251012151
13. 4 RTS 5 CTS 6 DSR 7 SIGNAL GND 20 DTR Out In Out In In Out Table B 5 Pin Configuration Cable Connecting the ANALOG Port and RJ 11 Connector Analog RJ 45 Pin Equipment RJ 11 Pin 1 2 3 4 1 2 3 4 APPENDIX B Pin Configurations Table B 6 RS 232 Pin Assignments DIGITAL Port DB25 Female Signal SHIELD GND TD RD RTS CTS DSR SIGNAL GND DCD SCTS TC SRD RC DTR SQD RI DSRS EC TI PRO SWITCHING SYSTEM Table B 7 V 35 Pin Assignments DIGITAL Port DB25 Female pa wm Signal SHIELD GND TD A RD A RTS CTS DSR SIGNAL GND DCD RC B TC A RD B RC A DTR TD B LL EC B EC A TC B Pczcor c a xmumcoooxcvo z gt Appendix C HDX2000L Library The HDX2000L library enables a programmer to create an application that controls remote Pro Switching System units with minimal effort It provides basic functions and alarming such as switching to a specific port or monitoring a particular signal The library controls units connected to an Ethernet 10BASE T network via SNMP messages and sits on top of the Windows WinSNMP interface provided with the library Library name HDX2000L LIB Header file HDX2000L H C 1 Functions List All library functions except Hdx2000Init return 0 if successful and have at least the hSession session parameter HGLOBAL Hdx2000Init HINSTANCE hInst HW
14. 8 13 15 and 16 that will switch Assign the list to alarm triggered switching operation 3 Operation Set Variable 1 3 6 1 4 1 509 1 8 1 4 3 Set Value 148131516 alarmTrigOpBusCodeEmit Description Code emitted over the inter rack bus when the alarm s occur s You can SET and GET the value of this variable Parameters 0 no code emitted or 1 to 127 MIB Path 1 3 6 1 4 1 509 1 8 1 5 iso 1 org 3 dod 6 internet 1 private 4 ent erprises 1 Hadax 509 IntelliSwitch2000 1 alarmTrigOpTable 8 alar mTrigOpEntry 1 alarmTrigOpBusCodeEmit 5 Variable 1 3 6 1 4 1 509 1 8 1 5 alarmTrigOpIndex where alarmTrigOpIndex is a number from 1 to 32 of an alarm triggered operation to which the bus code emit entry is assigned PRO SWITCHING SYSTEM Example alarmTrigOpComment Description Parameters MIB Path Variable Example alarmTrigOpRowStatus Description Set code 50 to be emitted over the inter rack bus when the alarm s occur Assign the code to alarm triggered switching operation 4 You can SET and GET the value of this variable Operation Set Variable 1 3 6 1 4 1 509 1 8 1 5 4 Set Value 50 User comment for each alarm triggered switching operation You can SET and GET the value of this variable Up to 31 characters 1 3 6 1 4 1 509 1 8 1 6 iso 1 org 3 dod 6 internet 1 private 4 ent erprises 1 Hadax 509 IntelliSwitch2000 1 alarmTrigOpTable 8 alar mTrigOpEn
15. Figure 6 27 Line Selection Screen 2 Using the Site Rack and Line boxes select the line that you wish to display To find a line among a list of names use FIND 3 Click on GOTO to display the Line Status screen EXIT to exit the screen Network Definitions Operations gt GoTo k MEA Broadcast s Health Checks Report Figure 6 28 Network Menu CHAPTER 6 Operation The Network selection has the following sub selections e Broadcast Health Checks Report Broadcast Perform this procedure to define network time and to broadcast it You should broadcast network time early in the process of creating a network map after you have done both of the following defined at least one rack on a site defined and enabled the PC port that communicates with the site Once you have broadcast the network time it is automatically downloaded to new racks when you add them to the network You will need to broadcast the time again only if you change the time setting To Define Network Time and Broadcast It 1 From the main menu select Pro Switching System then Network then Broadcast The Broadcast Control screen appears 2 Enter the current time and date 3 Click on UPDATE to save the network time you have defined to the PC and to broadcast it to the racks in the network 4 To broadcast to selected sites Click on the desired sites on the list Click on SELECTED to broadcast to the selected sit
16. In the How Often box choose the frequency of switching 4 In the Switch To box choose the switch position A B C or D For dual line cards click on enable the Dual box 5 Click on SAVE to enable the schedule RESET to clear your selections EXIT to exit the screen 6 5 9 STANDARD ALARM DEFINITION SCREEN The Standard Alarm Definition screen allows you to set up alarms for various leads RTS CTS etc You can set the alarms by clicking on the appropriate areas or you can choose from a list of previously defined alarms To Display the Line Level Standard Alarm Definitions Screen 1 Follow the steps for displaying the line card status screen 2 From the line card status screen click on the STANDARD ALARM button The line level standard alarm definitions screen appears CHAPTER 6 Operation Pro Switching System Line Level Standard Alarm Definitions Ar El Sie CHICAGO Address 1920200114 Ling i13 Hark Hark 1 Aincount Line Pest A Type ARTE Port Bl Standard Aleem Line Level AD ATS CTS OSA OEO DTA TC AC EC SGD we EE E E E C Tz 9m Oeeation ATS CT amp DSA OCD OTA Pa State iBigimininin i Deaton ATS CT amp DSA CD OTA Stats DE DE Ee DE E E p Dwation Standard Maem Definitions me EA EA Figure 6 37 Line Level Standard Alarm Definitions Screen To Create or Modify Standard Alarms Definitions 1 In the Standard Alarm Definitions box click on the arrow and choose a name from the displ
17. ON ON off off ON ON ON ON 012 off ONI off off ON ON ON ON 013 ON off off off ON ON ON ON 014 off off off off ON ON ON ON 015 ONI ONI ON ON off ON ON ON 016 off ON ONI ON off ON ON ON 017 ON off ON ON off ON ON ON 018 off off ON ON off ON ON ON 019 ONI ON off ON off ON ON ON 020 off ON off ON off ON ON ON 021 ON off off ON off ON ON ON 022 off off off ON off ON ON ON 023 ON ONI ON off off ON ON ON 024 off ON ON off off ON ON ON 025 ON off ON off off ON ON ON 026 off off ON off off ON ON ON 027 ON ON off off off ON ON ON 028 off ONI off off off ON ON ON 029 ON off off off off ON ON ON 030 off off off off off ON ON ON 031 ONI ONI ON ON ON off ON ON 032 CHAPTER 5 Installation Table 5 4 DIP Switch Settings at DS3 and DS4 To set the password DS3 to Set Switches 1 through 8 to To set the rack address DS4 to 033 034 035 036 037 038 039 040 041 042 043 044 045 046 047 048 049 050 051 052 054 PRO SWITCHING SYSTEM Table 5 4 continued DIP Switch Settings at DS3 and DS4 Set Switches 1 through 8 to To set the password DS3 to To set the rack address DS4 to 2 3 4 5 6 7 ON off ON off ON off ON off ON off ON off ON off ON off ON off ON off O
18. RD RTS CTS DSR DCD SCTS TC SRD RC DTR SQD RI DSRS EC TI pin 7 signal ground is common V 35 TD RD RTS CTS DSR DCD DTR LL RC EG TC pin B signal ground is common RS 530 23 conductors pin 7 signal ground is common Relays Switching Latching Monitoring bus Nonlatching Contact material Gold clad silver Initial contact resistance 50 milliohms Expected life number of operations 10 000 000 Interface Digital RS 232 RS 530 V 35 Analog RJ 11 RJ 45 Operating Temperature 32 to 104 F 0 to 40 C Maximum Humidity Up to 95 noncondensing Power From Power Supply Module SM750A 115 230 VAG autoselectable Size SM700A 8 75 H x 19 W x 13 25 D 22 2 x 48 3 x 33 6 cm Weight 45 Ib 20 4 kg fully configured CHAPTER 2 Introduction 2 Introduction The Pro Switching System is an advanced system for managing data lines and data networks It has a broad range of capabilities and can adapt to small and large applications Once you set up the system it provides hands free management The predefined switching and backup tasks are performed automatically If a line generates an alarm the system reroutes the data through a backup line and reports the problem Also it lets you monitor and test any line in the network For remote management the 2000 Windows SNMP OpenView 7 2 application software lets you control racks via SNMP over IP networks The Pro Switching System feature
19. char szReadCommunity int cc int pp int 11 Initiates an LED state report will generate an LED trap hSession Session handler szIpAddress IP address of the target rack szReadCommunity Read community name of the target rack cc Card slot number from 1 to 16 pp Port number 0 for COMMON port 1 for A 2 for B 1 LED number int Hdx2000LineGet HGLOBAL hSession char szIpAddress char szReadCommunity int cc Initiates a line card state report will generate a LIN trap hSession Session handler szIpAddress IP address of the target rack szReadCommunity Read community name of the target rack cc Card slot number from 1 to 16 APPENDIX C HDX2000L Library int Hdx2000LineCommentSet HGLOBAL hSession char szIpAddress char szWriteCommunity int cc char comment Changes the comment for a line card will generate a LIN trap hSession Session handler szIpAddress IP address of the target rack szWriteCommunity Write community name of the target rack cc Card slot number from 1 to 16 comment New comment for the line card int Hdx2000LineSpecificSet HGLOBAL hSession char szIpAddress char szWriteCommunity int cc int sp Changes the specific parameter for a line card will generate a LIN trap hSession Session handler szIpAddress IP address of the target rack szWriteCommunity Write community name of the target rack cc Card slot number from 1 to 16 sp Line card specific parameter int Hdx2000RackGet HG
20. off off ON off off off off off 251 ON ON off off off off off off 252 off ON off off off off off off 253 ON off off off off off off off 254 off off off off off off off off 255 PRO SWITCHING SYSTEM To Set the Configuration DIP Switches 1 Locate the DIP switch sets labeled DS7 DS6 and DS5 on the control card 2 Use the DIP switch tables to set the DS7 DS6 and DS5 DIP switches Tables 5 1 through 5 3 show the switch settings and provide notes that describe the DIP switch functions Setting the Rack Address DIP Switches DS4 The rack address DIP switches set the address that the management PC uses to distinguish each rack Rack addresses can have any value between 0 and 255 However each rate at a site must have a unique rack address 1 Locate the DIP switch sets labeled DS4 on the control card 2 Use Table 5 4 to set the DS4 DIP switches The table shows the switch settings for each rack address NOTE When assigning rack addresses make sure that each rack at a site has a unique address Setting the Password DIP Switches DS3 If you enabled the password DIP switch switch 1 on DS5 you must set the password DIP switches DS3 to assign a numeric password to the rack If you disabled the password skip this step The password DIP switches set the password that the management PC must use when communicating with the rack The pa
21. off 222 off joff off off off ON off off 223 ON ON ON ON ON off off off 224 CHAPTER 5 Installation Table 5 4 continued DIP Switch Settings at DS3 and DS4 To set the password DS3 to Set Switches 1 through 8 to To set the rack address DS4 to 1 2 3 4 5 6 7 8 off ON ON ON ON off off off 225 ONI off ON ON ON off off off 226 off off ONIONI ON off off off 227 ON ON off ON ON off off off 228 off ON off ON ON off off off 229 ON off off ON ON off off off 230 off off off ON ON off off off 231 ON ON ON off ON off off off 232 off ON ON off ON off off off 233 ON off ON off ON off off off 234 off off ON off ON off off off 235 ON ON off off ON off off off 236 off ON off off ON off off off 237 ON off off off ON off off off 238 off off off off ON off off off 239 ONI ON ON ON off off off off 240 off ON ON ON off off off off 241 ON off ON ON off off off off 242 off off ON ON off off off off 243 ON ON off ON off off off off 244 off ON off ON off off off off 245 ON off off ON off off off off 246 off off off ON off off off off 247 ONI ON ON off off off off off 248 off ON ON off off off off off 249 ON off ON off off off off off 250
22. substitution 21 5 substitution 41 6 no switching 7 abab 8 broadcast in 9 broadcast out 10 1 3 6 1 4 1 509 1 5 1 3 iso 1 org 3 dod 6 internet 1 private 4 ent erprises 1 Hadax 509 IntelliSwitch2000 1 lineCardTable 5 lineCar dEntry 1 lineSwitch Type 3 1 3 6 1 4 1 509 1 5 1 3 lineCardIndex where lineCardIndex is the slot number 1 through 16 occupied by the line card Display the switching type of line card 6 Operation Get Variable 1 3 6 1 4 1 509 1 5 1 3 6 APPENDIX D Proprietary MIB lineSwitchedPort Description Parameters MIB Path Variable Example lineNormalPort Description Parameters MIB Path The port switched to for example port A You can SET and GET the value of this variable A 1 B 2 C 3 D 4 normal 5 1 3 6 1 4 1 509 1 5 1 4 iso 1 org 3 dod 6 internet 1 private 4 ent erprises 1 Hadax 509 IntelliSwitch2000 1 lineCardTable 5 lineCar dEntry 1 lineSwitchedPort 4 1 3 6 1 4 1 509 1 5 1 4 lineCardIndex where lineCardIndex is the slot number 1 through 16 occupied by the line card Switch line card 7 to port B Operation Set Variable 1 3 6 1 4 1 509 1 5 1 4 7 Set Value B 2 The port defined as the normal port for example port D This allows you to customize your switch settings for several line cards For example you can define the normal port for each line card and then perform a gang group swi
23. 0 where 0 indicates that the variable is not part of a table Example Display the total number of alarm triggered operation changes since the rack was last re initialized Operation Get Variable 1 3 6 1 4 1 509 1 1 5 0 rackTimeTrigOpChanges Description Total number of time triggered operation changes since the rack was last re initialized You can only GET the value of this variable Parameters Counter MIB Path 1 3 6 1 4 1 509 1 1 6 iso 1 org 3 dod 6 internet 1 private 4 ent erprises 1 Hadax 509 IntelliSwitch2000 1 rack2000Entry 1 rackTi meTrigOpChanges 6 Variable 1 3 6 1 4 1 509 1 1 6 0 where 0 indicates that the variable is not part of a table PRO SWITCHING SYSTEM Example rackBusTrigOpChanges Description Parameters MIB Path Variable Example rackPsChanges Description Parameters Display the total number of time triggered operation changes since the rack was last re initialized Operation Get Variable 1 3 6 1 4 1 509 1 1 6 0 Total number of bus triggered operation changes since the rack was last re initialized You can only GET the value of this variable Counter 1 3 6 1 4 1 509 1 1 7 iso 1 org 3 dod 6 internet 1 private 4 ent erprises 1 Hadax 509 IntelliSwitch2000 1 rack2000Entry 1 rackBus TrigOpChanges 7 1 3 6 1 4 1 509 1 1 7 0 where 0 indicates that the variable is not part of a table Display the total number of bus triggered operatio
24. 1 3 6 1 4 1 509 1 9 1 8 iso 1 org 3 dod 6 internet 1 private 4 ent erprises 1 Hadax 509 IntelliSwitch2000 1 timeTrigOpTable 9 time TrigOpEntry 1 time TrigOpBusCodeEmit 8 1 3 6 1 4 1 509 1 9 1 8 timeTrigOpIndex where timeTrigOpIndex is a number from 1 to 32 of a time triggered switching operation to which the code is assigned Set code 50 to be emitted over the inter rack bus when the alarm s occur for time triggered switching operation 4 Operation Set Variable 1 3 6 1 4 1 509 1 9 1 8 4 Set Value 50 User comment for each time triggered switching operation You can SET and GET the value of this variable Up to 31 characters 1 3 6 1 4 1 509 1 9 1 9 iso 1 org 3 dod 6 internet 1 private 4 ent erprises 1 Hadax 509 IntelliSwitch2000 1 timeTrigOpTable 9 time TrigOpEntry 1 time TrigOpComment 9 APPENDIX D Proprietary MIB Variable Example timeTrigOpRowStatus Description Parameters MIB Path Variable 1 3 6 1 4 1 509 1 9 1 9 timeTrigOpIndex where timeTrigOpIndex is a number from 1 to 32 of a time triggered switching operation to which the user comment is assigned Enter a user comment for time triggered switching operation 3 Operation Set Variable 1 3 6 1 4 1 509 1 9 1 9 3 Set Value Back up Detroit if CSU fails Selections for managing rows in the time triggered operations table A row is an entry or group of variables Each row is identified
25. 5 Monitoring The following variables allow you to perform monitoring operations for your unit Note that when performing a SET on any of these variables you MUST include both the monBusMode and monBusLineCardIndex variables in the same request monBusMode Description Parameters MIB Path Variable Example Monitoring mode for the bus You can SET and GET the value of this variable but you must also include the monBusLineCardIndex variable in your SET request not_connected 0 Disable monitoring bridge 1 Monitor in parallel without breaking the lines breakDCE 2 Monitor monitor bus breaks to the DCE breakDTE 3 Monitor monitor bus breaks to the DTE 1 3 6 1 4 1 509 1 4 1 2 iso 1 org 3 dod 6 internet 1 private 4 ent erprises 1 Hadax 509 IntelliSwitch2000 1 monBusTable 4 monBus Entry 1 monBusMode 2 1 3 6 1 4 1 509 1 4 1 2 monBusIndex where monBusIndex is 1 for monitor bus digital one 2 for monitor bus analog 3 for monitor bus digital two Enable breakDCE mode for the digitalOne monitoring bus Operation Set Variable 1 3 6 1 4 1 509 1 4 1 2 1 Set Value breakDCE 2 Note that you will also need to SET a specific line card for monitoring in your request using the monBusLineCardIndex variable PRO SWITCHING SYSTEM monBusLineCardIndex Description Parameters MIB Path Variable Example monBusLineChanIndex Descript
26. Monitoring Bus Connector DB25 Interface Mon Bus Line SHIELD 1 SHIELD 1 SHIELD 1 SHIELD 1 DMONO 2 TD 2 TD 2 TD 2 DMON1 3 RD 3 RD 3 RD 3 DMON2 4 RTS 4 RTS 4 RTS 4 DMON3 5 CTS 5 CTS 5 CTS 5 DMON4 6 DSR 6 DSR 6 DCE 6 GND 7 GND 7 GND 7 GND 7 DMON5 8 DCD 8 DCD 8 DCD 8 AMONO 9 9 9 RC 9 AMON1 10 10 10 DCD 10 AMON2 11 11 11 EC 11 AMON3 12 12 12 TC 12 DMON6 13 SCTS 13 RC 13 CTS 13 AMON4 14 14 14 TD 14 DMON7 15 TC 15 TC 15 TC 15 DMON8 16 SRD 16 RD 16 RD 16 DMON9 17 RC 17 RC 17 RC 17 AMON5 18 18 18 LL 18 AMONG 19 19 19 RTS 19 DMON 1 1 20 DTR 20 DTR 20 DTE 20 DMON12 21 SQD 21 TD 21 RL 21 DMON 13 22 RI 22 LL 22 DCE 22 DMON10 23 DSRS 23 EC 23 DTE 23 DMON14 24 EC 24 EC 24 EC 24 DMON15 25 TM 25 TC 25 TM 25 APPENDIX B Pin Configurations Pin Configuration for V 35 Line Cards Using DB25 Rear Cards in the Pro Switching System Table B 2 Line Card Configuration DB25 V 35 Signal 1 Frame GND 2 TD 3 RD 4 RTS 5 CTS 6 DSR 7 Signal GND 8 DCD 9 10 11 TM 12 TP 13 RC 14 15 TC 16 RD 17 RC 18 TD 19 20 DTR 21 RL 22 LL 23 EC 24 EC 25 TC PRO SWITCHING SYSTEM Table B 3 Pin Configuration COMM IN Port DB25 Male Signal Direction SHIELD GND TD RD RTS CTS DSR SIGNAL GND DTR In Out In Out Table B 4 Pin Configuration COMM OUT Port DB25 Female Pin Signal Direction 1 SHIELD GND 2 TD 3 RD
27. Set Variable 1 3 6 1 4 1 509 1 8 1 2 1 Set Value 131228 Port switched to when an alarm s occur s You can SET and GET the value of this variable none 0 A 1 B 2 C 3 D 4 normal 5 1 3 6 1 4 1 509 1 8 1 3 iso 1 org 3 dod 6 internet 1 private 4 ent erprises 1 Hadax 509 IntelliSwitch2000 1 alarmTrigOpTable 8 alar mTrigOpEntry 1 alarmTrigOpSwitchToPort 3 1 3 6 1 4 1 509 1 8 1 3 alarmTrigOpIndex where alarmTrigOpIndex is a number from 1 to 32 of an alarm triggered operation to which the port entry none A B C D normal is assigned Switch to port C when the alarms occur for alarm triggered switching operation 2 Operation Set Variable 1 3 6 1 4 1 509 1 8 1 3 2 Set Value C 3 List of line cards to switch This is a list of line cards separated by white spaces For example to switch the first third and tenth line cards alarmTrigOpCardsList would be 1 3 10 You can SET and GET the value of this variable APPENDIX D Proprietary MIB Parameters Line cards 1 to 16 MIB Path 1 3 6 1 4 1 509 1 8 1 4 iso 1 org 3 dod 6 internet 1 private 4 ent erprises 1 Hadax 509 IntelliSwitch2000 1 alarmTrigOpTable 8 alar mTrigOpEntry 1 alarmTrigOpCardsList 4 Variable 1 3 6 1 4 1 509 1 8 1 4 alarmTrigOpIndex where alarmTrigOpIndex is a number from 1 to 32 of an alarm triggered switching operation to which the list is assigned Example Create a list from line cards 1 4
28. Switching Screen Click on the Scheduled Switching button To Enter the Standard Alarm Screen Click on the Standard Alarm button To Enter the Alarm Triggered Switching Screen Click on the Alarm Triggered Switching button 6 5 8 SwrrcH SCHEDULE DEFINITION SCREEN The Switch Schedule Definition screen allows you to set a switch schedule based on time and day You can set the schedule by clicking on the appropriate areas or you can choose from a list of previously defined switch schedules To Display the Line Level Switch Schedule Definition Screen 1 Follow the steps for displaying the line card status screen 2 From the line card status screen click on the SCHEDULED SWITCHING button The line level switch schedule definition screen appears Pro Switching System Line Level Switch Schedule Definition MOM 15 38 Sie CHICAGO Address 192 8 200 114 ing g 12 Fark Hark 1 ccouni Line Past A Type ASt Part B Hour ella Clas Hoe Dhen F pes ete W o gree Tee Gere Ap Fil Sal Sun B i restar p Scheduled Sweching Definitions Figure 6 36 Line Level Switch Schedule Definition Screen PRO SWITCHING SYSTEM To Set the Line Level Switch Schedule 1 In the Scheduled Switching Definitions box click on the arrow and choose a name from the display list of definitions already created or In the Hour and Minute box choose the time of switching 2 In the Days box choose the day s of switching 3
29. You may already be familiar with HP OpenView If not read the HP OpenView User s Guide 6 1 3 NETWORK MAP AND DATABASE When setting up and controlling your network of Pro Switching System devices you will need to create a network map and enter information into a network database These operations are interrelated you enter database information at the same time as you create the map This chapter guides you through this procedure 6 1 4 MAP CONCEPTS AND STRUCTURE OpenView Map basics are described in detail in the HP OpenView User s Guide You will work with a map composed of two or more submaps NOTE Map and Submap in HP OpenView applications a map is not itself a single screen display or page It is the name given to a group of pages or submaps Each submap is a separate screen display The map represents the network in the form of icons The icons represent network components and the sites where they are located Icons are color coded to indicate status Clicking on an icon allows you to access more detailed network information CHAPTER 6 Operation The Pro Switching System map has five levels overview submap site submap rack status display line status display alarm definition display proceeding in logical fashion from most general to most particular 6 1 5 Map LEVELS e Top level An overview submap that shows site icons NOTE Each site in the network is represented on the overview
30. and DIP Switches 42 5 1 3 Installing Rack Components 55 5 1 4 Enter IP Address into Rack o oooooooooo 55 5 2 Installing the Rack oooooooooooocooor eee eee eee 57 5 2 1 Mounting the Rack into the Cabinet o o ooooooo 57 5 2 2 Connecting Line Card Cables for Switch Patch Cards 57 5 2 3 Connecting 10BASE T Cable 0 000005 57 5 2 4 Power Up and LED Test 00 00 0000 00000 57 5 3 Software Management Installation 58 5 3 1 Installing the Management PC 00000 58 5 3 2 Install HP OpenView 00 6 58 5 3 3 Install SNMP Application Softwar oo oooocooccoooo oo 59 5 4 System Configuration 0 0 enn 59 6 Operation cresie eee Poe AR CE E CP OE Ue PER 70 6 L Ovetview A a MES 70 6 1 1 SNMP Application Software 0 00 0 eee eee 70 CONTENTS Chapter Page 6 1 2 HP OpenView User s Guide oooccocococcccnooocc o o 70 6 1 3 Network Map and Database oo o ooooocccoooocc coo 70 6 1 4 Map Concepts and Structure 00 000 eee 70 6 1 5 Map Levels ita dai 71 6 2 Initializing PC Control 00 ee eee eee 71 6 2 1 Basic Information You Will Need o 71 6 2 2 Preliminary Notes and Cautions o n esson enerne 72 6 3 Creating a System Maparin pn cece eee 74 6 4 HP OpenView Operation 0 0 0 0 eee eee ee 75 6 4 1 Starting HP OpenView sess 76 6 4 2 Mam Menu ici Sides Sadi S
31. as alarm definitions that are stored in the Pro Switching System RAM CHAPTER 5 Installation Table 5 3 continued DIP Switches at DS5 Switch Position In order to Notes 3 ON Disable the NORM SET and When you enable N gang switch buttons NORM SET you can use the control card NORM SET switch and the N gang switch When you disable NORM OFF Enable the NORM SET and SET you cannot use N gang switch buttons these switches 4 5 6 OFF Always set to OFF 7 8 7 8 All racks at a site ON ON Set the baud rate to 2400 bps must use the same OFF ON Set the baud rate to 4800 bps baud rate The baud ON OFF Set the baud rate to 9600 bps rate DIP switches set OFF OFF Set the baud rate to 19200 bps the baud rate for communication between the rack and the management PC PRO SWITCHING SYSTEM Table 5 4 DIP Switch Settings at DS3 and DS4 To set the password DS3 to Set Switches 1 through 8 to To set the rack address DS4 to ON ON ON ON ON ON ON ON 000 off ONI ON ON ON ON ON ON 001 ON off ON ON ON ON ON ON 002 off off ON ON ON ON ON ON 003 ONI ON off ON ON ON ON ON 004 off ONI off ON ON ON ON ON 005 ON off off ON ON ON ON ON 006 off off off ON ON ON ON ON 007 ONI ONI ONI off ON ON ON ON 008 off ON ONI off ON ON ON ON 009 ON off ON off ON ON ON ON 010 off off ONI off ON ON ON ON 011
32. as listed below For more information on the variable see its listing presented earlier in the chapter Status of the power supply absent 0 Power supply is not installed ok 1 Power supply is functioning properly fail 2 Power supply is installed but not functioning 1 3 6 1 4 1 509 1 2 1 2 powerIndex where powerIndex is 1 for power supply 1 2 for power supply 2 APPENDIX D Proprietary MIB powerFanStatusChange 2 powerFanStatus Description Parameters Variable sigAlarmChange sigAlarmState Description Parameters This trap is generated when the value of the powerFanStatus variable changes The trap returns information on the powerFanStatus variable as listed below For more information on the variable see its listing presented earlier in the chapter Status of the power supply fan absent 0 Power supply fan is not installed ok 1 Power supply fan is functioning properly fail 2 Power supply fan is installed but not functioning 1 3 6 1 4 1 509 1 2 1 3 powerIndex where powerIndex is 1 for power supply 1 2 for power supply 2 3 This trap is generated when the value of the sigAlarmState variable changes The trap returns information on the sigAlarmState variable as listed below For more information on the variable see its listing presented earlier in the chapter The current status of the alarm no signal 0 the line card port or lead state
33. broadcast a bus code when an alarm condition occurs Racks that have user defined bus triggered operations programmed for that code will perform the switching operation The inter rack bus connects racks to each other through their COMM ports the COMM OUT port on one rack connects to the COMM IN port on another rack Use DB25F to DB25M cable pin to pin type 2 cable busTrigOpCode Description Bus code received over the inter rack bus triggering the switching operation You can SET and GET the value of this variable Parameters 1 to 127 MIB Path 1 3 6 1 4 1 509 1 10 1 2 iso 1 org 3 dod 6 internet 1 private 4 ent erprises 1 Hadax 509 IntelliSwitch2000 1 busTrigOpTable 10 busT rigOpEntry 1 busTrigOpCode 2 Variable 1 3 6 1 4 1 509 1 10 1 2 busTrigOpIndex where busTrigOpIndex is a number from 1 to 32 of a bus triggered switching operation to which the bus code entry is assigned APPENDIX D Proprietary MIB Example busTrigOpSwitchToPort Description Parameters MIB Path Variable Example busTrigOpCardsList Description Parameters Set the bus code to 30 for bus triggered switching operation 1 Operation Set Variable 1 3 6 1 4 1 509 1 10 1 2 1 Set Value 30 Port switched to when the code set in the busTrigOpCode variable is detected on the bus You can SET and GET the value of this variable A 1 B 2 C 3 D 4 normal 5 1 3 6 1 4 1 509 1 10 1 3 iso
34. bus analog 3 for monitor bus digital two Example Select the first channel of the line card for monitoring on the analog bus Operation Set Variable 1 3 6 1 4 1 509 1 4 1 4 2 Set Value 1 Note that you will also need to SET a specific line card for monitoring and SET a monitoring mode for the line card in your request using the monBusLineCardIndex and monBusMode variables D 6 Line Cards The following variables allow you to view line card status or perform line card operations for your unit lineInterfaceType Description The interface type of the line card for example RS 232 You can only GET the value of this variable Parameters none 0 rs232 1 rs530 2 V35 3 x21 4 isdn 5 V24 6 PRO SWITCHING SYSTEM MIB Path Variable Example lineSwitchType Description Parameters MIB Path Variable Example 1 3 6 1 4 1 509 1 5 1 2 iso 1 org 3 dod 6 internet 1 private 4 ent erprises 1 Hadax 509 IntelliSwitch2000 1 lineCardTable 5 lineCar dEntry 1 lineInterfaceType 2 1 3 6 1 4 1 509 1 5 1 2 lineCardIndex where lineCardIndex is the slot number 1 through 16 occupied by the line card Display the interface type of line card 8 Operation Get Variable 1 3 6 1 4 1 509 1 5 1 2 8 The switching type of the line card for example A B switching type You can only GET the value of this variable ab 1 abcd 2 modem sparing 3 crossover 4
35. by its index timeTrigOpIndex and contains entries for determining switching operations You can activate or inactivate your time triggered switching operations using this variable You can SET and GET the value of this variable active 1 activate the row notInService 2 inactivate the row notReady 3 inactivate the row createAndGo 4 process the row and activate createAndWait 5 process the row but remain inactive destroy 6 delete the row 1 3 6 1 4 1 509 1 9 1 10 iso 1 org 3 dod 6 internet 1 private 4 ent erprises 1 Hadax 509 IntelliSwitch2000 1 timeTrigOpTable 9 time TrigOpEntry 1 timeTrigOpRowStatus 10 1 3 6 1 4 1 509 1 9 1 10 timeTrigOpIndex where time TrigOpIndex is a number from 1 to 32 of a time triggered switching operation to which the row status is assigned PRO SWITCHING SYSTEM Example Process all variables for time triggered operation 1 and make this row active You can SET and GET the value of this variable Operation Set Variable 1 3 6 1 4 1 509 1 9 1 10 1 Set Value createAndGo 4 D 11 Bus Triggered Operations The following variables allow you to perform bus triggered switching operations for your Pro Switching System unit In general all variables having a common busTrigOpIndex which you select are part of the same bus triggered operation Bus triggered operations allow switching operations across several racks The racks connect to the inter rack bus and
36. chapter The IP address of the remote entity that last requested a switch The null value is returned if this is a local manual switch IP address 1 3 6 1 4 1 509 1 1 14 0 where 0 indicates that the variable is not part of a table 14 This trap is generated when a Telnet session is successfully opened by the rackIpRequester variable The trap returns information on the rackIpRequester variable as listed below For more information on the variable see its listing presented earlier in the chapter The IP address of the remote entity that last requested a switch The null value is returned if this is a local manual switch IP address 1 3 6 1 4 1 509 1 1 14 0 where 0 indicates that the variable is not part of a table APPENDIX D Proprietary MIB telnetBadPassword rackIpRequester Description Parameters Variable 15 This trap is generated when an excessive number of incorrect Telnet passwords are received from the rackIpRequester variable The trap returns information on the rackIpRequester variable as listed below For more information on the variable see its listing presented earlier in the chapter The IP address of the remote entity that last requested a switch The null value is returned if this is a local manual switch IP address 1 3 6 1 4 1 509 1 1 14 0 where 0 indicates that the variable is not part of a table
37. coded password entry in the OVWIN INI file Log In Follow this procedure to log into OpenView at a new security level The security level dialog box appears at the start of OpenView if a password has been assigned There are three levels of security Supervisor Operator and Observer The Supervisor has full privileges to OpenView features the Operator has limited privileges and the Observer has minimal privileges The right hand side of the description bar shows the current login status of the user To Log In 1 From the main menu select Options then Log In The Log In screen appears 2 Select the security level Supervisor Operator or Observer 3 Enter a password 4 Click OK to set PRO SWITCHING SYSTEM NOTE To set new passwords select Options then Set Password from the main menu Log Out Perform this procedure to disable HP OpenView menus and lock the map The only basic OpenView functions available will be the Log In menu item and the Help menu To Log Out From the main menu select Options then Log Out HP OpenView menus are disabled and the map is locked To enable the menus and unlock the map select Options then Log In from the main menu Set Password Follow this procedure to set passwords for the various security levels Supervisor Operator and Observer To Set Passwords 1 From the main menu select Options then Set Passwords The Set Password screen appears 2 Select a s
38. executed The trap returns information on the gangSwitchPush and rackIpRequester variables as listed below For more information on the variables see their listings presented earlier in the chapter APPENDIX D Proprietary MIB gangSwitchPush Description Setting this variable pushes the gang switch button on the rack to perform group switching on the line cards Pushing the A 1 B 2 C 3 or D 4 button forces all line cards to switch to the A B C or D port respectively Pushing the N 5 button forces all line cards to switch to their normal user defined port Pushing the SET N 6 button defines the current port of each line card as its normal port Parameters Yes 1 to push the gang switch button Variable 1 3 6 1 4 1 509 1 3 1 2 gangSwitchIndex where gangSwitchIndex is 1 for pushbutton A port A for pushbutton B port B for pushbutton C port C for pushbutton D port D for pushbutton N normal for pushbutton SET N set normal QD Ot B 09 n rackIpRequester Description The IP address of the remote entity that last requested a switch The null value is returned if this is a local manual switch Parameters IP address Variable 1 3 6 1 4 1 509 1 1 14 0 where 0 indicates that the variable is not part of a table lineCardChange 6 This trap is generated when a line card is inserted or removed The trap returns information on the lineInterfaceType variable as listed below Fo
39. off 191 PRO SWITCHING SYSTEM Table 5 4 continued DIP Switch Settings at DS3 and DS4 To set the password DS3 to Set Switches 1 through 8 to To set the rack address DS4 to 12 3 14 15 6 17 8 ON ON ON ON ON ON off off 192 off ON ON ON ON ON off off 193 ON Joff ON ON ON ON off off 194 off joff ON ON ON ON off off 195 ON ON off ON ON ON off off 196 off ON off ON ON ON off off 197 ON Joff off ON ON ON off off 198 off joff off ON ON ON off off 199 ON ON ON off ON ON off off 200 off ON ON off ON ON off off 201 ON Joff ON off ON ON off off 202 off joff ON off ON ON off off 203 ON JON off off ON ON off off 204 off ON off off ON ON off off 205 ON Joff off off ON ON off off 206 off joff off off ON ON off off 207 ON ON ON ON off ON off off 208 off ON ON ON off ON off off 209 ON Joff ON ON off ON off off 210 off joff ON ON off ON off off 211 ON ON off ON off ON off off 212 off ON off ON off ON off off 213 ON Joff off ON off ON off off 214 off joff off ON off ON off off 215 ON ON ON off off ON off off 216 off JON ON off off ON off off 217 ON Joff ON off off ON off off 218 off joff ON off off ON off off 219 ON JON off off off ON off off 220 off ON off off off ON off off 221 ON Joff off off off ON off
40. position represented by the icon of the closed padlock on the control card CHAPTER 4 Components kyswtch cdr Figure 4 2 Key Switch Unlocked 4 1 2 Ports COMM unication ports On the rear of the rack there are two communication ports COMM IN DB25 male and COMM OUT DB25 female For some system setups use these ports to connect the rack to the managing PC However for SNMP setups use the IOBASE T connector on the control card to connect the rack to the managing PC MON itoring ports On the rear of the rack there are two monitoring ports ANALOG RJ 45 female and DIGITAL DB25 female Use these ports to connect monitoring buses together and to connect monitoring and testing equipment to the buses AUXTiliary port On the rear of the rack there is one auxiliary port AUX DB9 female Use this port to set SNMP Telnet configurations for the rack when you can t access the rack through the 10BASE T connector on the control card Power connectors The rear of the rack contains two power connectors POWER 1 and POWER 2 Use these connectors to attach power sources to the corresponding power supplies PRO SWITCHING SYSTEM Monitoring 16 Slots for Ports Rear Cards v Y Communication a Ports i Auxiliary Port Power Connectors Figure 4 3 Rackmount Chassis Rear Ports 4 2 Control Cards Table 4 1 Control Cards Model Description SM701C SNMP 10BASE T SM702C VT100 The control c
41. relays which remain in the last switched position if the power fails A B switches are available for use with the following interfaces RS 232 V 24 RS 530 V 35 DB15 RJ 11 and RJ 45 3 1 2 THREE CAVITY PATCHING These cards have three patch cavities COMP MODEM and MON Figure 3 2 shows three cavity patching Normally the DTE is connected to the DCE PRO SWITCHING SYSTEM Figure 3 2 Three Cavity Patching When you insert a patch cord into the MON cavity it is connected to the circuit between the DTE and the DCE This is a bridge connection and the circuit is not broken You can monitor the signals When you insert a patch cord into the COMP cavity the circuit is broken and the cord is connected to the DTE You can test the DTE When you insert a patch cord into the MODEM cavity the circuit is broken and the cord is connected to the DCE You can test the DCE Three cavity patching is available for use with the following interfaces RS 232 V 35 and RS 530 3 1 3 FOUR CAVITY PATCHING These cards have A B switching and four patch cavities COMP MODEM MON A and MON B Figure 3 3 shows four cavity patching when the switch is in the A position Normally the appropriate DTE is connected to the DCE CHAPTER 3 Functions Figure 3 3 Four Cavity Patching When you insert a patch cord into the MON A cavity it connects to the circuit between DTE A and the DCE When you insert a patch cord into
42. ret eines RI ebat 20 2 3 14 Watchdog Timer ssesseeeee n 20 2 4 Control Communication eseese eee eens 20 2 4 1 Racks and the Management PC at Sites 20 2 4 2 Dialog with Dialup Sites 21 2 4 8 Polling Procedures 22 2 5 System Expansion esses nn 22 3 FU Ctl ONS Sy cd o eR CURIE RP Ee eed 23 3 1 Switching and Patching 000 cece eee 23 312A B Switching inci spe TREO renee Games 23 3 1 2 Three Cavity Patching 00 c eee eee eee 23 PRO SWITCHING SYSTEM Chapter Page 3 1 3 Four Cavity Patching 00 cece eee eee 24 3 2 Monitoring Bus esses nnn 25 3 3 Configurations acce Re ss le 3h PE RR RAE 28 4 Components iciizeri4edckictiettaf aa ia a er BO 4 1 Rackmount Chassis 0 0 0 0 0c ccc eee eee ene es 90 I Vs Controls iS A A a 0 41 27 Ports ii al 42 Control Cards esed irin AZ 42 1 Gontrols mii eR A ee 2 43 Front Cards esc sss be o ee Nees eee ewe oa EOD 4 Rear Gatds aia dd 4 5 Power Supplies e LeLuRevPEE seeks eee ee exa 38 4 6 Software iin AS RC AUSUD ERE A DO 4 7 System Cables accio A eee 39 4 8 ACCESSOTIES a ee DU As dud ee ee PI 4 8 1 Blank Panels o oooooooooommmrommo m m 39 4 8 2 Patch Cords oia Ged oe dls hos Be WTR a OO 5 Inst llatioii 222222 dar er PDE ROSE Ai ha Lee EELS 40 5 1 Preparing the Rack re ere ER ers 40 5 1 1 Fill Out the Rack Description Guide usus 40 5 1 2 Configure the Control Card
43. submap by a site icon No site icon appears on any other submap To construct the overview submap add site icons and enter descriptive information about each site Each site icon displays a label box for ready identification You may separately add other informative labels outside the icon if desired e Second level Clicking on a site icon brings you down to a site submap which shows icons representing the rack at that site NOTE Rack icons appear only on a site submap They are not intermixed with site icons on the overview submap To construct the site submap add rack icons and enter descriptive information about each rack Each rack icon displays a label box for ready identification You may separately add other informative labels outside the icons if desired e Third level Clicking on a rack icon brings you into eye contact with the front and rear of the rack the rack status display You see detailed front and rear views showing line cards LEDs and rear connectors e Fourth Level Clicking on a line card panel opens up a breakout box showing the status of each lead on the line the line status display e Fifth level Clicking on a command button on the line status display brings you down to an alarm definition screen Here you can define lead status alarms for the line 6 2 Initializing PC Control 6 2 1 Basic INFORMATION YOU WILL NEED Before you can set up the database and the map you need to obtai
44. the default map then not only the map but OpenView itself is locked an inaccessible To remedy this edit the OVWIN INI file Delete the name of the default map that appears after the equals sign in the line MAP 6 2 2 PRELIMINARY NOTES AND CAUTIONS Deleting a Submap Do not attempt to delete a Submap by using the OpenView path Edit Submap Delete Submap Instead click on the submap icon then use Edit Delete Renaming a Site Rename a site only if you have not yet added any components on that site Choose site names carefully so you won t need to change them later CHAPTER 6 Operation If you must use a new name for a site delete the old site from the map and create a new site with the desired name Frequent Saves Avoid losing data by saving your map frequently while creating it OpenView works by keeping a permanent file and a working file At start up it reads from the permanent file and creates a new working file Whatever data you enter is resident in the working file until you save it to the permanent file using the Save function in the File menu Be aware that if you system crashes any changes you have made since the last Save operation will be lost So save early and often NOTE An asterisk after the map title indicates that changes have been made in the working file since the last time the map was saved Backup Copies You can make a backup copy of a map on a diskette by using the Save As command and
45. the power connector at the rear of the rack Connect the other end of the power cord into a power source The rack automatically powers up as soon as you connect the power cords 3 Test the LEDs by pressing the LAMP TEST button on the front of the control card All LEDs in the rack should light PRO SWITCHING SYSTEM 5 3 Software Management Installation To install the software and management PC Install the management PC Section 5 3 1 Install the software HP OpenView and SNMP application software See Section 5 3 2 and 5 3 3 5 3 1 INSTALLING THE MANAGEMENT PC You can manage a Pro Switching System from an IBM compatible computer installed with HP OpenView and the SNMP application software SM701A The Minimum PC Requirements Processor 486DX2 RAM 16 MB Display VGA Operating System Windows 95 To Install a Management PC 1 Follow the manufacturer s installation instructions for setting up your PC 2 Install a remote access device modem Ethernet card etc into your PC that will allow you to connect to the racks using TCP IP Follow the manufacturer s installation instructions for installing the device 5 3 2 INSTALL HP OPENVIEW Install the C2 14 Release l Insert the HP OpenView installation CD into your CD ROM drive 2 From your Windows 95 desktop click on Start Run The Run screen appears 3 Enter the following ENOV214NDiskT Setup if necessary replace EX with the correct letter of the C
46. using the RESET command All settings take effect when the unit is reset Pro Switching System 10BASE T Configuration Commands CHAPTER 5 Installation To Configure Rack Settings Enter In order to SET RACK n FACTORY DEFAULTS Clear the battery backed up configuration and set all SNMP Telnet parameters and MIB variables to their default values Jg EFAULT ROUTER set to 0 0 0 0 IP ADDRESS set to 0 0 0 0 SNMP MANAGER are all cleared SNMP READ COMMUNITY NAME set to public SNMP SECURITY TRAPS set to 10 SNMP TRAPS set to ON SNMP WRITE COMMUNITY NAME set to private SUBNET MASK set to 0 0 0 0 TELNET IDLE TIMEOUT set to 60 minutes TELNET PASSWORD set to NONE TELNET SECURITY TRAPS set to 3 SET RACK n DEFAULT ROUTER X X X X Set the default router to where packets will be sent if their destination IP address is not on the same network If the default router is not set a proxy ARP server is required for these packets to reach their destination Default value 0 0 0 0 SET RACK n DIGITAL1 ANALOG DIGITAL2 DISCONNECT BRIDGE BREAKDCE BREAKDTE LINE x Perform switching operations This is not a configuration setting Entering this command connects the bus of rack n to line x You must specify n and x Enter only one selection from DIGITAL ANALOG or DIGITAL2 Enter only one selection from DISCONNECT BRIDGE BREAKDCE or BREAKDTE PRO SWITCHING SYS
47. whenever it occurs You can also program the system to switch back when the condition has been corrected You can define different criteria for different times of the day 2 3 6 SWITCHING OPTIONS You can apply PC controlled switching operations manual backup alarm triggered scheduled and default single keystroke selectively to one line at a time if desired You also can create and name groupings of sites racks and or lines to switch simultaneously 2 3 7 NETWORK SECURITY You assign each user a password and an appropriate level of access to network Operations 2 3 8 CUSTOMER ACCOUNT IDs AND COURTESY TERMINALS You can define customer account IDs for assignment to one or more lines and or racks This assignment enables selective routing of status and alarm information to one or more courtesy terminals Customers viewing courtesy terminals can observe what is happening on their own lines but not on the lines of other customers 2 3 9 REMOTE PC You can connect one or more remote PCs to the dedicated communication ports A user at a remote PC can perform switching and can view and acknowledge alarms in the same ways as the user at the central PC PRO SWITCHING SYSTEM 2 3 10 OPEN COMMUNICATION PORT The Open Communication Port function lets you select one of the system s communication ports to which a modem or terminal is connected Then via the PC you can communicate directly with the connected device 2 3 11 OPE
48. 0 indicates that the variable is not part of a table Display the IP address of the remote entity that last requested a switch Operation Get Variable 1 3 6 1 4 1 509 1 1 14 0 The following variables allow you to get the power supplies status of your unit powerStatus Description Parameters Status of the power supply You can only GET the value of this variable absent 0 Power supply is not installed ok 1 Power supply is functioning properly fail 2 Power supply is installed but not functioning APPENDIX D Proprietary MIB MIB Path 1 3 6 1 4 1 509 1 2 1 2 iso 1 org 3 dod 6 internet 1 private 4 ent erprises 1 Hadax 509 IntelliSwitch2000 1 powerTable 2 powerEntr y 1 powerStatus 2 Variable 1 3 6 1 4 1 509 1 2 1 2 powerIndex where powerIndex is 1 for power supply 1 2 for power supply 2 Example Display the status of power supply 1 Operation Get Variable 1 3 6 1 4 1 509 1 2 1 2 1 powerFanStatus Description Status of the power supply fan You can only GET the value of this variable Parameters absent 0 Power supply fan is not installed ok 1 Power supply fan is functioning properly fail 2 Power supply fan is installed but not functioning MIB Path 1 3 6 1 4 1 509 1 2 1 3 iso 1 org 3 dod 6 internet 1 private 4 ent erprises 1 Hadax 509 IntelliSwitch2000 1 powerTable 2 powerEntr y 1 powerFanStatus 3 Variable 1 3 6 1 4 1 509 1 2 1 3 powerIndex where power
49. 00 to 23 59 1 3 6 1 4 1 509 1 7 1 8 iso 1 org 3 dod 6 internet 1 private 4 ent erprises 1 Hadax 509 IntelliSwitch2000 1 sigAlarmTable 7 sigAlar mEntry 1 sigAlarmStart 8 PRO SWITCHING SYSTEM Variable Example sigAlarmStop Description Parameters MIB Path Variable Example sigAlarmState Description 1 3 6 1 4 1 509 1 7 1 8 sigAlarmIndex where sigAlarmIndex is a number from 1 to 32 of an alarm definition to which the start time entry is assigned Set the alarm definition to become active on Monday at 13 30 1 30 pm for alarm index 1 Operation Set Variable 1 3 6 1 4 1 509 1 7 1 8 1 Set Value MON 13 30 The stop time when the alarm definition is not active for example FRI 17 45 You can SET and GET the value of this variable Day MON TUE WED THU FRI SAT SUN Time 00 00 to 23 59 1 3 6 1 4 1 509 1 7 1 9 iso 1 org 3 dod 6 internet 1 private 4 ent erprises 1 Hadax 509 IntelliSwitch2000 1 sigAlarmTable 7 sigAlar mEntry 1 sigAlarmStop 9 1 3 6 1 4 1 509 1 7 1 9 sigAlarmIndex where sigAlarmIndex is a number from 1 to 32 of an alarm definition to which the stop time entry is assigned Set the alarm definition to become inactive on Friday at 17 45 5 45 pm for alarm index 1 Operation Set Variable 1 3 6 1 4 1 509 1 7 1 9 1 Set Value FRI 17 45 The current status of the alarm You can only GET the value of this variable APPENDI
50. 1 busTrigOpTable 10 busT rigOpEntry 1 busTrigOpRowStatus 6 1 3 6 1 4 1 509 1 10 1 6 busTrigOpIndex where busTrigOpIndex is a number reference from 1 to 32 of a bus triggered switching operation to which the row status is assigned Process all variables for bus triggered operation 1 and make this row active Operation Set Variable 1 3 6 1 4 1 509 1 10 1 6 1 Set Value createAndGo 4 PRO SWITCHING SYSTEM D 12 Traps The following traps messages are generated by the rack when certain conditions occur as listed in each description below All traps carry the mibSystem sysObjectId whose value is 1 3 6 1 4 1 509 1 The generic traps are predefined standard traps that are applicable to most devices The specific traps are only particular to the Pro Switching System rack Note that you must configure the rack with an IP address to where the traps will be sent using the command SET RACK SNMP MANAGER Refer to the Chapter 5 for more information on configuring the rack D 12 1 GENERIC TRAPS coldStart D 12 2 SPECIFIC TRAPS powerStatusChange powerStatus Description Parameters Variable 0 The Generic trap 0 statement is a standard trap that is sent when the rack reinitializes It carries the mibSystem sysDescr whose MIB path is 1 3 6 1 2 1 1 1 1 This trap is generated when the value of the powerStatus variable changes The trap returns information on the powerStatus variable
51. 1 14 lineCardIndex lineComment 1 3 6 1 4 1 509 1 5 1 15 lineCardIndex sig Table 1 3 6 1 4 1 509 1 6 sigEntry 1 3 6 1 4 1 509 1 6 1 sigState 1 3 6 1 4 1 509 1 6 1 4 sigCardIndex sigPort sigName sigAlarmTable 1 3 6 1 4 1 509 1 7 sigAlarmEntry 1 3 6 1 4 1 509 1 7 1 sigAlarmCardIndex 1 3 6 1 4 1 509 1 7 1 2 sigAlarmIndex sigAlarmPort 1 3 6 1 4 1 509 1 7 1 3 sigAlarmIndex sigAlarmName 1 3 6 1 4 1 509 1 7 1 4 sigAlarmIndex sigAlarmCondition 1 3 6 1 4 1 509 1 7 1 5 sigAlarmIndex APPENDIX D Proprietary MIB sigAlarmSeconds 1 3 6 1 4 1 509 1 7 1 6 sigAlarmIndex sigAlarmTrap 1 3 6 1 4 1 509 1 7 1 7 sigAlarmIndex sigAlarmStart 1 3 6 1 4 1 509 1 7 1 8 sigAlarmIndex sigAlarmStop 1 3 6 1 4 1 509 1 7 1 9 sigAlarmIndex sigAlarmState 1 3 6 1 4 1 509 1 7 1 10 sigAlarmIndex sigAlarmComment 1 3 6 1 4 1 509 1 7 1 11 sigAlarmIndex sigAlarmRowStatus 1 3 6 1 4 1 509 1 7 1 12 sigAlarmIndex alarmTrigOpTable 1 3 6 1 4 1 509 1 8 alarm TrigOpEntry 1 3 6 1 4 1 509 1 8 1 alarmTrigOpSigAlarmsList 1 3 6 1 4 1 509 1 8 1 2 alarmTrigOpIndex alarmTrigOpSwitchToPort 1 3 6 1 4 1 509 1 8 1 3 alarmTrigOpIndex alarmTrigOpCardsList 1 3 6 1 4 1 509 1 8 1 4 alarmTrigOpIndex alarmTrigOpBusCodeEmit 1 3 6 1 4 1 509 1 8 1 5 alarmTrigOpIndex alarmTrigOpComment 1 3 6 1 4 1 509 1 8 1 6 alarmTrigOpIndex alarmTrigOpRowStatus 1 3 6 1 4 1 509 1 8 1 7 alarmTrigOpIndex timeTrigOpTable 1 3 6 1 4 1 509 1 9 timeTrigOpEntry 1 3 6 1 4 1 509 1 9 1 timeTrigOpTime
52. 1 3 6 1 4 1 509 1 9 1 2 timeTrigOpIndex time TrigOpFreq 1 3 6 1 4 1 509 1 9 1 3 timeTrigOpIndex time TrigOpStart 1 3 6 1 4 1 509 1 9 1 4 timeTrigOpIndex time TrigOpStop 1 3 6 1 4 1 509 1 9 1 5 timeTrigOpIndex timeTrigOpSwitch ToPort 1 3 6 1 4 1 509 1 9 1 6 timeTrigOpIndex timeTrigOpCardsList 1 3 6 1 4 1 509 1 9 1 7 timeTrigOpIndex timeTrigOpBusCodeEmit 1 3 6 1 4 1 509 1 9 1 8 timeTrigOpIndex time TrigOpComment 1 3 6 1 4 1 509 1 9 1 9 timeTrigOpIndex PRO SWITCHING SYSTEM time TrigOpRowsStatus 1 3 6 1 4 1 509 1 9 1 10 timeTrigOpIndex busTrigOpTable 1 3 6 1 4 1 509 1 10 busTrigO pEntry 1 3 6 1 4 1 509 1 10 1 busTrigOpCode 1 3 6 1 4 1 509 1 10 1 2 busTrigOpIndex busTrigOpSwitch ToPort 1 3 6 1 4 1 509 1 10 1 3 busTrigOpIndex busTrigOpCardsList 1 3 6 1 4 1 509 1 10 1 4 busTrigOpIndex busTrigOpComment 1 3 6 1 4 1 509 1 10 1 5 busTrigOpIndex busTrigOpRowsStatus 1 3 6 1 4 1 509 1 10 1 6 busTrigOpIndex D 2 Rack Global Status The following variables allow you to set the time and get global status information of your Pro Switching System rackRealTimeClock Description Current time for the rack The format is DDD HH MM You can SET and GET the value of this variable Parameters Day DDD MON TUE WED THU FRI SAT SUN Time HH MM 00 00 to 23 59 MIB Path 1 3 6 1 4 1 509 1 1 1 iso 1 org 3 dod 6 internet 1 private 4 ent erprises 1 Hadax 509 IntelliSwitch2000 1 rack2000Entry 1 rackRea ITimeClock 1
53. 5 RS 530 DB15 RJ 11 RJ 45 2 2 4 SUPPORTED CONNECTORS The system supports these connectors DB25 V 35 M type DB15 RJ 11 RJ 45 Figure 2 5 illustrates the mixing of connectors in a rack PRO SWITCHING SYSTEM FUSE RATING TOR SOV ONLY Figure 2 5 Mixing Connectors in a Rack 2 2 5 LINE CARD SWITCHES AND INDICATORS Each Switching card has a switch on the front panel for manual control Each card also has LED indicators Refer to Chapter 4 Components for a full description of line card switches and LEDs 2 2 6 CONTROL CARD SWITCHES AND INDICATORS The rack control card has a five button switch panel for gang switching see Figure 2 6 You can enable disable this function by a key switch When you press a button all cards in the rack that have the indicated capability switch For example if you press the B button all A B switching cards in the rack will switch to B Switching is performed by latching relays which if the power fails remain in the last switched position and continue to pass data The control card also has a Lamp Test button to test the rack LEDs A reset button reboots the system warm or cold reboot depending on a DIP switch setting Control Card LEDs indicate P
54. 6 User comment for each bus triggered switching operation You can SET and GET the value of this variable Up to 31 characters 1 3 6 1 4 1 509 1 10 1 5 iso 1 org 3 dod 6 internet 1 private 4 ent erprises 1 Hadax 509 IntelliSwitch2000 1 busTrigOpTable 10 busT rigOpEntry 1 busTrigOpComment 5 1 3 6 1 4 1 509 1 10 1 5 busTrigOpIndex where busTrigOpIndex is a number from 1 to 32 of a bus triggered switching operation to which the user comment is assigned Enter a user comment for bus triggered switching operation 1 APPENDIX D Proprietary MIB busTrigOpRowStatus Description Parameters MIB Path Variable Example Operation Set Variable 1 3 6 1 4 1 509 1 10 1 5 1 Set Value Group switching 30 Selections for managing rows in the operations table A row is an entry or group of variables Each row is identified by its index busTrigOpIndex and contains entries for determining switching operations You can activate or inactivate your bus triggered switching operations using this variable You can SET and GET the value of this variable active 1 activate the row notInService 2 inactivate the row notReady 3 inactivate the row createAndGo 4 process the row and activate createAndWait 5 process the row but remain inactive destroy 6 delete the row 1 3 6 1 4 1 509 1 10 1 6 iso 1 org 3 dod 6 internet 1 private 4 ent erprises 1 Hadax 509 IntelliSwitch2000
55. 6 8 allows you to view and edit information about your rack You can modify all fields in the screen except Site To Display the Rack Description Screen 1 Right click on the rack icon and select Describe The Rack Description screen appears or 1 Click on the rack icon to select it 2 From the main menu select Edit then Describe The Rack Description screen appears or CHAPTER 6 Operation 1 Click on the rack icon to select it 2 From the main menu select Monitor then Describe The Rack Description p Screen appears Pro Switching System Rack Description H She CABO Rack EEE Label Aadi 4 IP Addemrene 192 9 200 117 Asad Como public ire Comm public Noton Location nn system lo rata Contact nn system raster Time THU 15 42 Peas JAx Lineal 2 sp ap sp efe sf 9 ve v9 12 13 osos oe UPDATE DESCHIPTRIN REMATE FROM NE TOR CANCEL Figure 6 8 Rack Description Screen 6 5 3 LINE DESCRIPTION SCREEN The Line Description screen allows you to view and edit information about your line card You can modify all fields in the screen except Site Rack and IP Address To Display the Line Description Screen 1 Right click the rack icon and select Describe The Rack Description screen Figure 6 8 appears 2 From the Rack Description screen click on one of the line buttons 1 through 16 in the lower portion of the screen The Line Description screen Figure 6 9 for that li
56. 60 161 CHAPTER 5 Installation Table 5 4 continued DIP Switch Settings at DS3 and DS4 To set the password DS3 to Set Switches 1 through 8 to To set the rack address DS4 to 12 3 4 5 6 7 8 ON off ON ON ONJ off ON off 162 off off ON ON ONJ off ON off 163 ONI ON off ON ON off ON off 164 off ON off ON ON off ON off 165 ON off off ONI ONJ off ON off 166 off off off ONI ONJ off ON off 167 ONI ON ON off ON off ON off 168 off ON ONJ off ON off ON off 169 ON off ON off ON off ON off 170 off off ON off ON off ON off 171 ONI ON off off ON off ON off 172 off ON off off ON off ON off 173 ON off off off ON off ON off 174 off off off off ON off ON off 175 ONI ON ON ON off off ON off 176 off ON ON ON off off ON off 177 ON off ON ON off off ON off 178 off off ON ON off off ON off 179 ONI ON off ON off off ON off 180 off ON off ON off off ON off 181 ON off off ON off off ON off 182 off off off ON off off ON off 183 ONI ON ON off off off ON off 184 off ON ON off off off ON off 185 ON off ON off off off ON off 186 off off ON off off off ON off 187 ON ON off off off off ON off 188 off ON off off off off ON off 189 ON off off off off off ON off 190 off off off off off off ON
57. 7 1 6 sigAlarmIndex where sigAlarmIndex is a number from 1 to 32 of an alarm definition to which the alarm seconds entry from 1 to 999 seconds is assigned Set 5 seconds as the length of time required to set off an alarm for alarm index 1 Operation Set Variable 1 3 6 1 4 1 509 1 7 1 6 1 Set Value 5 APPENDIX D Proprietary MIB sigAlarmTrap Description Parameters MIB Path Variable Example sigAlarmStart Description Parameters MIB Path A yes or no selection indicating whether or not a trap should be sent when there is an alarm condition A trap immediately alerts the user without having to poll the unit You can SET and GET the value of this variable Yes to send a trap No to notsend a trap 1 3 6 1 4 1 509 1 7 1 7 iso 1 org 3 dod 6 internet 1 private 4 ent erprises 1 Hadax 509 IntelliSwitch2000 1 sigAlarmTable 7 sigAlar mEntry 1 sigAlarmTrap 7 1 3 6 1 4 1 509 1 7 1 7 sigAlarmIndex where sigAlarmIndex is a number from 1 to 32 of an alarm definition to which the trap entry is assigned Send a trap when there is an alarm condition for alarm index 3 Operation Set Variable 1 3 6 1 4 1 509 1 7 1 7 3 Set Value yes 1 The start time when the alarm definition is active for example MON 08 00 The alarm is always active if this entry is empty You can SET and GET the value of this variable Day MON TUE WED THU FRI SAT SUN Time 00
58. A Power supply 115 230 VAC 50 60 Hz auto selectable 4 6 Software To control the Pro Switching System from a PC you need the Pro Switching System Software SM701A This software works as an application under HP OpenView Windows Table 4 5 Software Model Description SM701A Pro Switching System Software CHAPTER 4 Components 4 7 System Cables System cables connect racks to the central PC via COMM ports The first rack at a site is connected to the central site the other racks are daisychained together For SNMP applications you don t need to connect system cables to the COMM ports 4 8 Accessories 4 8 1 BLANK PANELS Blank panels cover empty slots in the rack Table 4 6 Blank Panels IC NN SM730 Blank Panel Unused rear slot SM740 Blank Panel Unused front slot 4 8 2 PATCH CORDS Patch cords allow you to connect equipment to patch cavities Patch cords are available in a variety of lengths and with a variety of connectors Call Technical Support for more information PRO SWITCHING SYSTEM 5 Installation This chapter shows you how to install a Pro Switching System for SNMP management 5 1 Preparing the Rack Preparing the rack off site sets up the rack so that a technician can quickly install the rack on site leave and let the network manager perform the necessary SNMP Telnet configurations to the rack remotely To prepare the rack Fill Out the Rack Description Guid
59. ARA EGRE ER 77 6 4 3 File Menus Ry del E Se REA EAT 78 6 4 4 Edit Men Liu ber b ERU S LOR EREIYS 81 6 4 5 View Menu 656 06 obs e e E A SEE FERIA YS 84 6 4 6 Monitor Menu 0 ccc eee een nee 85 6 4 7 Control Menun oenn e mn 87 6 4 8 Options Menu eiss 6 cee tenes 88 6 4 9 Window Menu o 91 6 4 10 Help Menta a Gee eee ee sek n 92 6 5 Switch Operation zm os we ew ote te pe in Se eee eS 93 6 5 1 Site Description Screen 93 6 5 2 Rack Description Screen 6 0 6 eee eee 94 6 5 3 Line Description Screen 0 6 0 95 6 5 4 Switch Men ell es YE ER 96 6 5 5 System Menu s eionnus pb ABER E cea RR RAE 122 6 5 6 Rack Status Screen 0 cee eee tees 126 6 5 7 Line Card Status Screen 0 0000 ee eee 129 6 5 8 Switch Schedule Definition Screen 0045 131 6 5 9 Standard Alarm Definition Screed oooooooooo o o 132 6 5 10 Alarm Triggered Switching Screen ooooomoommoo o 134 7 Maintenance ea o u Ee A tad Bes E E AER S 136 8 Troubleshooting ini a Seek E HU LE EE 137 8 1 Power Problems viii ia 137 8 2 Control Card Problems 00 cece cece een eens 137 8 3 Switching Problems 0 0 0 eee eee eee 137 8 4 PC Control Problems 0 0 0 00 ccc eects 138 Appendix A Rack Description Guide 0 0 0 0 66 6 e cee eee eee 139 PRO SWITCHING SYSTEM Chapter Page Appendix B Pin Configurations 141 Appendix C HDX2000L Library ssseeeeeeee I 147 C l Functio
60. D ROM drive Installation begins Follow all installation instructions that appear on your screen CHAPTER 5 Installation Make sure to choose SNMP over TCP IP Communications when the screen offering this selection appears Upgrade to C2 17 1 When the installation ends return to your Windows 95 desktop and click on Start Run The Run screen appears 2 Enter the following E NOV217NSetup if necessary replace E with the correct letter of the CD ROM drive Upgrading begins Follow all installation instructions that appear on your screen 3 When the installation is complete restart your computer before running HP OpenView NOTE After installing the software you MUST restart your computer before running HP OpenView 5 3 3 INSTALL SNMP APPLICATION SOFTWARE 1 Insert Disk 1 into your disk drive 2 From your Windows 95 desktop click on Start Run The Run screen appears 3 Enter the following A Setup Installation begins Follow all installation instructions that appear on your screen 4 When the installation is complete restart your computer before running the application software NOTE After installing the software you MUST restart your computer before running the application software 5 4 System Configuration Once you enter the IP address into the unit the network manager can access and continue configuring the rack remotely through the 10BASE T connector via Telnet sessi
61. Hadax 2000 remote control library ghSession Hdx2000Init hInstance hMain WM TRAP 2000 amp nResult if ghSession NULL Error analyze the nResult error code Main Windows callback procedure e LRESULT CALLBACK MainWndProc HWND hWnd UINT uMsg WPARAM wParam LPARAM IParam char szIpAddressBuf 32 char szTrapBuf 128 switch uMsg APPENDIX C HDX2000L Library case WM_TRAP_ 2000 8 Retrieve the new trap f nResult Hdx2000TrapRead ghSession szIpAddressBuf szIrapBuf if nResult 0 Process the new trap TrapAnalyze szIpAddressBuf szTrapBuf else 75 Error return 0 case WM_TIMER Check rack 195 9 200 65 whose read community is public every 5 minutes if Hdx2000RackGet ghSession 195 9 200 65 public 0 Error return 0 case WM_COMMAND switch GET WM COMMAND ID wParam IParam case IDM_SWITCH SWITCH Button pressed Switch line card 10 to position B for rack 195 9 200 65 whose write community is private if Hdx2000SwitchSet ghSession 195 9 200 65 private 10 2 0 PRO SWITCHING SYSTEM Error return 0 break case WM_DESTROY Exit the Hadax 2000 remote control library Hdx2000Exit ghSession PostQuitMessage 0 return 0 return DefWindowProc hWnd uMsg wParam lParam C 4 Debug To de
62. ICAGO LIMES TU BE CHE Bite Back Line CLEAR EXT Figure 6 19 Group Switching Screen 2 In the Group box select the predefined group on which to perform switching The group was created by selecting Pro Switching System then Definitions then Groups from the main menu or In the Site Rack and Line boxes select the specific lines to add to the Lines to Be Switched list 3 In the Lines to be Switched list to remove unwanted lines from the list click on them 4 In the Switch To box choose the switch position A B C or D to which all the lines on the list will switch For dual line cards click on enable the Dual box PRO SWITCHING SYSTEM 5 Click on GO to execute the switching CLEAR to clear your selections EXIT to exit the screen NOTE You can also perform switching operations from the Rack Status screen which shows real time views of the rack Default Switching Follow this procedure to execute default switching operations To Perform Default Switching Operations 1 From the main menu select Pro Switching System then Operations then Default Switching The Default Switching Operations screen appears Pro Switching System Default Switching Operations Definition Mame Notes Figure 6 20 Default Switching Screen 2 In the Definition Name box click on the arrow and choose a name from the display list of definitions previously created 3 In the Notes box optional ente
63. Index is 1 for power supply 1 2 for power supply 2 Example Display the status of the fan in power supply 2 Operation Get Variable 1 3 6 1 4 1 509 1 2 1 3 2 PRO SWITCHING SYSTEM D 4 Gang Switching The following variables allow you to perform gang switching operations for your unit gangSwitchPush Description Parameters MIB Path Variable Example Setting this variable pushes the gang switch button on the rack to perform group switching on the line cards Pushing the A 1 B 2 C 3 or D 4 button forces all line cards to switch to the A B C or D port respectively Pushing the N 5 button forces all line cards to switch to their normal user defined port Pushing the SET N 6 button defines the current port of each line card as its normal port You can only SET the value of this variable Yes 1 to push the gang switch button 1 3 6 1 4 1 509 1 3 1 2 iso 1 org 3 dod 6 internet 1 private 4 ent erprises 1 Hadax 509 IntelliSwitch2000 1 gangSwitchTable 3 gang SwitchEntry 1 gangSwitchPush 2 1 3 6 1 4 1 509 1 3 1 2 gangSwitchIndex where gangSwitchIndex is 1 for pushbutton A port A 2 for pushbutton B port B 3 for pushbutton C port C 4 for pushbutton D port D 5 for pushbutton N normal 6 for pushbutton SET N set normal Switch all line cards to port C Operation Set Variable 1 3 6 1 4 1 509 1 3 1 2 3 Set Value Yes 1 APPENDIX D Proprietary MIB D
64. LOBAL hSession char szIpAddress char szReadCommunity Initiates a rack status report will generate FAN PWR and VER traps hSession Session handler szIpAddress IP address of the target rack szReadCommunity Read community name of the target rack void Hdx2000TrapRead HGLOBAL hSession char szIpAddress char szIrap Reads a trap description to be called upon reception of the uTrapMsg message hSession Session handler szIpAddress IP address of the rack originating the trap szIrap Trap description Possible traps are COM ss ee Communications status with the rack FAN ss nn Fan status GSW ss pp X X X X Gang switch status LED ss cc pp ll yy LED status LIN ss cc pa fc rc sp cm Line card status PWR senn Power supply status SWI ss cc pp x X X X Switch status RST ss Rack boot up VER ss mmmm w vv Rack model and version number PRO SWITCHING SYSTEM Example SWI 06 14 02 195 9 200 12 C 2 Parameters List cc cm ee fc ll mmmm nn pa PP Remote switch to B on slot 14 by user 195 9 200 12 Card slot number from 01 to 16 Comment string for the line card Error code HDX2000L_ERROR_xxx or SNMPAPI_xxx Front card code 2 digit hexadecimal value LED signal number HDX2000L_LED_xxx 01 TXD 02 RXD 03 DCD 04 CTS 05 RTS 06 DSR 07 DTR 08 RI 09 TC 10 RC 11 EC 12 SQD 13 RL 14 LL 15 DCE 16 DTE 17 TM 18 CTR 19 IND 20 SET 21 BYT Rack model number 2000 Power supply number from 01 to 02
65. N off ON off ON off ON off ON off off off ON ON off off ON ON off off ON ON off off ON ON off off ON ON off off ON ON off off ON ON off off ON ON ON ON off ON off ON off ON off ON ON ON ON ON off off off off ON ON ON ON off off off off ON ON ON ON off off off off ON ON ON ON ON ON ON ON ON ON ON ON ON ON off off off off off off off off off off off off off off off off ON ON ON ON ON ON ON ON ON ON ON ON ON ON ON ON ON ON ON ON ON ON ON ON ON ON ON ON ON ON off off off off off off off off off off off off off off off off off off off off off off off off off off off off off off 066 067 068 069 070 071 072 073 074 075 076 077 078 079 080 081 082 083 084 085 086 087 088 089 090 091 092 093 094 095 CHAPTER 5 Installation Table 5 4 continued DIP Switch Settings at DS3 and DS4 To set the password DS3 to Set Switches 1 through 8 to To set the rack address DS4 to 1 2 3 14 5 6 7 8 ON ON ON ON ON off off ON 096 off ON ON ON ON off off ON 097 ON off ON ON ON off off ON 098 off off ON ON ON off off ON 099 ON ON off ON ON off off ON 100 off ON off ON ON off off ON 101 ON off off ON ON off off ON 102 off off off ON ON off off ON 103 ON ON ON off
66. N CHANNEL TO MODEM At the PC you can open a channel to any online modem and communicate directly with the modem for non intrusive testing and diagnosis 2 3 12 NETWORK HEALTH CHECK To detect rack failures that preclude alarms the PC runs a health check attempting to communicate with each rack If a rack fails to respond the PC reports this failure Sites that are always online with the central PC are checked continuously For offline sites you can define a Health Check Schedule specifying times when these sites will be checked 2 3 13 HISTORY FILES All alarms are written to the Session Alarm History file which you may display and or clear at any time Alarms are also written to a separate ASCII log file on the hard disk Another ASCII log file maintains a record of important system events and operator actions 2 3 14 WATCHDOG TIMER The optional Watchdog Timer application switches users between two computer systems substituting a standby system for a failed system 2 4 Control Communication 2 4 1 RACKS AND THE MANAGEMENT PC AT SITES A Pro Switching System rack that is connected via its COMM IN port with the management PC comprises a Pro Switching System site The rack connected in this way is the Primary Rack At this site other racks called Secondary Racks can connect to the Primary Rack via their communication ports in daisy chain fashion The location of the Management PC is referred to as the Primary Management Si
67. ND hWnd UINT uTrapMsg long plErr long plVersion Initializes the library mandatory first call to the library If successful returns an hSession handler to be used for all subsequent calls to the library Otherwise returns a NULL value and an error code into plErr hInst Handler of the instance of the application hWnd Recipient of the uTrapMsg message uTrapMsg Windows message value to be sent to the application plErr Pointer to error code storage plVersion Pointer to library version storage High word is the major version number Low word is the minor version number PRO SWITCHING SYSTEM int Hdx2000Exit HGLOBAL hSession Exits the library mandatory last call to the library int Hdx2000SwitchSet HGLOBAL hSession char szIpAddress char szWriteCommunity int cc int pp Initiates a switch request will generate a SWI or GSW trap hSession Session handler szIpAddress IP address of the target rack szWriteCommunity Write community name of the target rack cc Card slot number from 1 to 16 0 for gang switching pp 1 for position A 2 for position B int Hdx2000SwitchGet HGLOBAL hSession char szIpAddress char szReadCommunity int cc Initiates a switch position report will generate a SWI trap hSession Session handler szIpAddress IP address of the target rack szReadCommunity Read community name of the target rack cc Card slot number from 1 to 16 int Hdx2000LedGet HGLOBAL hSession char szIpAddress
68. P OpenView Standard Alarms Follow this procedure to create or modify standard alarms To Create or Modify Standard Alarms Definitions l From the main menu select Pro Switching System then Definitions then Standard Alarms The Standard Alarm Definition screen appears see Figure 6 15 CHAPTER 6 Operation arem ije imapa pe Moles Werslon F292 9 AS5 v s Weeslon B 6 292 gt RSID WOR Ela Alar Creseesla RD ATS CTS DSA OCO OTA Fd TC RC EC SGD B S 818 8 el M s 1 E e em Oeestion ATS CTS OSA DCO OTA Pi State lel el el ele Oeeation ATS CTS DSA CD OTA Al Stain 8 8 8 8 8 8 B Deaton O Disable M Mark S Space M Ma dete m Time Duration la So i CLEAR operere f save ext Figure 6 15 Standard Alarms 2 In the Alarm Definition Name box enter the name of a new definition or click on the arrow and choose a name from the display list of definitions already created 3 In the Notes box optional enter any information that may be helpful to you 4 In the Version A and Version B boxes choose the appropriate interface RS 232 RS 530 or V 35 Version A allows setting alarms on the same leads of Common A and B Version B reduces the number of leads available on A and B 5 In the Standard Alarm Criteria area for each port COM A B and each lead TD RD etc desired select a State Disable Mark Space No Data and a Duration 1 999 seconds that the lead
69. SS 231 098 004 204 SUBNET MASK 255 255 255 000 JO EFAULT ROUTER X00401601011E 231 098 004 053 MAC ADDRESS e TRAPS ON n ECURITY TRAPS 10 READ COMMUNITY PUBLIC WRITE COMMUNITY NETMAN ETHERNET STATISTICS IC INTERRUPTS 0000008769 DMA FAILURES 0000000000 MEMORY SHORTAGES 00000000000 MAX QUEUE DEPTH 0000000020 AVAILABLE jas EAP 0000004963 OCTETS TRANSMITTED 0000133659 OCTETS RECEIVED 0001100528 FRAME ALIGNMENT ERRORS 0000000000 CRC ERRORS 0000000000 FRAMES LOST 00000000000 COLLISIONS 00000000000 6 Operation This chapter shows you how to operate the Pro Switching System using the SNMP application via HP OpenView It explains the monitor displays through which you communicate with the system and guides you step by step through the various aspects of network access and control 6 1 Overview 6 1 1 SNMP APPLICATION SOFTWARE You can operate the Pro Switching System using the SNMP application software that runs under HP OpenView for Windows The SNMP application uses the OpenView graphical interface which allows you to manage networks of devices from different vendors using application software that the vendors provide The SNMP application software is ordered separately part number SM701A 6 1 2 HP OPENVIEW USER S GUIDE
70. Stay CLEAR mel ese E Figure 6 16 Alarm Triggered Switching Screen 2 In the Alarm Definition Name box enter the name of a new definition or click on the arrow and choose a name from the display list of definitions already created 3 In the Notes box optional enter any information that may be helpful to you 4 In the Version A and Version B boxes choose the appropriate interface RS 232 RS 530 or V 35 Version A allows setting alarms on the same leads of Common A and B Version B reduces the number of lead available on A and B 5 In the Trigger Criteria area Click on A or B or C or D where appropriate on the right side of the screen to identify the primary line The other port is automatically selected as the redundant line in the Redundant Line Criteria area For each lead TD RD etc desired select a State Disable Mark Space No Data and a Duration 1 999 seconds that the lead s must continue in that PRO SWITCHING SYSTEM state to trigger an alarm and consequently switch to the redundant line Note that a D Disable setting will not display when the screen is recalled In the Restore section select a State D M S N and a Duration 1 999 seconds that the lead must continue in the complementary state to trigger a fallback switch from the redundant line 6 In the Redundant Line Criteria area for each lead TD RD etc desired select a State D M S N and a Duration 1 999
71. TEM Enter SET RACK RACK RACK RACK RACK RACK In order to ECHO ON OFF Set echo on or echo off for rack n IP ADDRESS X X X X Define the rack IP address Default value 0 0 0 0 LINE x ALL PORT p Perform switching operations This is not a configuration setting Entering this command switches one line or all lines to a specified PING x x x port X Start a ping to the specified destination An ICMP ECHO request is sent every second until you press a key Only one ping can be active at a time SNMP DEFAULTS Set all MIB variables to their default values SNMP MANAG ER m IP ADDRI EGO XX XX Define an SNMP manager to where traps will be sent Managers 1 through 16 are supported Manager 1 will be defined for trap transmission to be enabled Default value all values are cleared CHAPTER 5 Installation Enter In order to SET RACK n SNMP READ COMMUNITY NAME name Define the SNMP community name to be accepted for SNMP GET requests and to be used for traps sent out to managers Default value public SET RACK n SNMP SECURITY TRAPS x Define the number of consecutive erroneous community names received after which an snmpBadCommunity trap will be sent Default value 10 SET RACK n SNMP TRAPS ON OFF Global setting enabling disabling traps transmi
72. TEM timeTrigOpStop Description Parameters MIB Path Variable Example timeTrigOpSwitchToPort Description Parameters MIB Path Time when an every_day operation is deactivated The every day is set in the timeTrigOpFreq variable You can SET and GET the value of this variable Day MON TUE WED THU FRI SAT SUN ignored Time 00 00 to 23 59 1 3 6 1 4 1 509 1 9 1 5 iso 1 org 3 dod 6 internet 1 private 4 ent erprises 1 Hadax 509 IntelliSwitch2000 1 timeTrigOpTable 9 time TrigOpEntry 1 time TrigOpStop 5 1 3 6 1 4 1 509 1 9 1 5 timeTrigOpIndex where timeTrigOpIndex is a number from 1 to 32 of a time triggered switching operation to which the stop time is assigned Set the stop time of the every_day operation to 6 pm 18 00 for time triggered switching operation 1 Operation Set Variable 1 3 6 1 4 1 509 1 9 1 5 1 Set Value MON 18 00 Port switched to at the time of the switching operation You can SET and GET the value of this variable none 0 A 1 B 2 C 3 D 4 normal 5 1 3 6 1 4 1 509 1 9 1 6 iso 1 org 3 dod 6 internet 1 private 4 ent erprises 1 Hadax 509 IntelliSwitch2000 1 timeTrigOpTable 9 time TrigOpEntry 1 time TrigOpSwitch ToPort 6 APPENDIX D Proprietary MIB Variable 1 3 6 1 4 1 509 1 9 1 6 timeTrigOpIndex where timeTrigOpIndex is a number from 1 to 32 of a time triggered switching operation to whi
73. Variable 1 3 6 1 4 1 509 1 1 1 0 where 0 indicates that the variable is not part of a table Example Set the current time to TUE 1 15 pm 13 15 for the rack APPENDIX D Proprietary MIB Operation Set Variable 1 3 6 1 4 1 509 1 1 1 0 Set Value TUE 13 15 rackKeyLocked Description Key switch position When the key is in the locked position the manual switch buttons on the front of the rack are disabled When the key is in the unlocked position the switch buttons are enabled You can only GET the value of this variable Parameters no 0 Indicates that the key position on the front of the rack is set to unlocked the manual switch buttons on the rack are enabled yes 1 Indicates that the key position on the front of the rack is set to locked the manual switch buttons on the rack are disabled MIB Path 1 3 6 1 4 1 509 1 1 2 iso 1 org 3 dod 6 internet 1 private 4 ent erprises 1 Hadax 509 IntelliSwitch2000 1 rack2000Entry 1 rackKey Locked 2 Variable 1 3 6 1 4 1 509 1 1 2 0 where 0 indicates that the variable is not part of a table Example Determine the key switch position on the rack Operation Get Variable 1 3 6 1 4 1 509 1 1 2 0 rackLineCardChanges Description Total number of line card removals and insertions since the rack was last re initialized You can only GET the value of this variable Parameters Counter PRO SWITCHING SYSTEM MIB Path Variable Example
74. X D Proprietary MIB Parameters no_signal 0 the line card port or lead state is not present sleep 1 the alarm definition is inactive specified by sigAlarmStart and sigAlarmStop green 2 the alarm definition is active but not in an alarm condition orange 3 the alarm definition is approaching an alarm condition red 4 the alarm definition is in an alarm condition MIB Path 1 3 6 1 4 1 509 1 7 1 10 iso 1 org 3 dod 6 internet 1 private 4 ent erprises 1 Hadax 509 IntelliSwitch2000 1 sigAlarmTable 7 sigAlar mEntry 1 sigAlarmState 10 Variable 1 3 6 1 4 1 509 1 7 1 10 sigAlarmIndex where sigAlarmIndex is a number from 1 to 32 of an alarm definition to which the alarm status is assigned Example Display the status of alarm index 1 Operation Get Variable 1 3 6 1 4 1 509 1 7 1 10 1 sigAlarmComment Description A user comment that describes the alarm definition You can SET and GET the value of this variable Parameters Up to 31 characters MIB Path 1 3 6 1 4 1 509 1 7 1 11 iso 1 org 3 dod 6 internet 1 private 4 ent erprises 1 Hadax 509 IntelliSwitch2000 1 sigAlarmTable 7 sigAlar mEntry 1 sigAlarmComment 11 PRO SWITCHING SYSTEM Variable Example sigAlarmRowStatus Description Parameters MIB Path Variable 1 3 6 1 4 1 509 1 7 1 11 sigAlarmIndex where sigAlarmIndex is a number from 1 to 32 of an alarm definition to which the user comment is as
75. a number from 1 to 32 of an alarm definition to which the signal is assigned Set DCD as the monitored signal for alarm index 1 Operation Set Variable 1 3 6 1 4 1 509 1 7 1 4 1 Set Value DCD 3 The signal state that signifies an alarm condition for example MARK You can SET and GET the value of this variable mark 1 space 2 active 4 inactive 8 1 3 6 1 4 1 509 1 7 1 5 iso 1 org 3 dod 6 internet 1 private 4 ent erprises 1 Hadax 509 IntelliSwitch2000 1 sigAlarmTable 7 sigAlar mEntry 1 sigAlarmCondition 5 PRO SWITCHING SYSTEM Variable Example sigAlarmSeconds Description Parameters MIB Path Variable Example 1 3 6 1 4 1 509 1 7 1 5 sigAlarmIndex where sigAlarmIndex is a number from 1 to 32 of an alarm definition to which the signal state mark space etc is assigned Set MARK as the signal state alarm condition of alarm index 1 Operation Set Variable 1 3 6 1 4 1 509 1 7 1 5 1 Set Value mark 1 The number of seconds required to establish an alarm condition If the alarm criteria remain in the alarm state for the specified length of time an alarm condition has been established You can SET and GET the value of this variable 1 to 30 000 seconds 1 3 6 1 4 1 509 1 7 1 6 iso 1 org 3 dod 6 internet 1 private 4 ent erprises 1 Hadax 509 IntelliSwitch2000 1 sigAlarmTable 7 sigAlar mEntry 1 sigAlarmSeconds 6 1 3 6 1 4 1 509 1
76. age 4 Click on OK to load the image onto the submap The image appears on your submap background NOTE If you cannot see the background image or your icons trying panning your submap using the scroll bars or by selecting View then Pan from the main menu Clear Background Image Follow this procedure to delete the background image from the submap 1 Click on the submap where the image is located 2 From the main menu select Edit then Clear Background Image The image disappears PRO SWITCHING SYSTEM Set Home Submap Follow this procedure to define the top level Home submap for the current map The home submap is the one displayed when you first display a map and it should contain a submap symbol for each submap in the map 1 From the main menu select Edit then Set Home Submap The Set Home Submap screen appears 2 Select the desired submap as the home submap 3 Click on OK to set 6 4 5 View MENU The View menu has the following selections e Zoom 1 Zoom 1 2 Zoom 1 4 Zoom 1 8 Pan e Set Grid e Show Grid Zoom Perform this procedure to view the map at normal 4 4 or scale 1 Click on the submap to select it 2 From the main menu select View then Zoom choose 1 12 14 or 18 scale The submap displays at the desired scale Pan Perform this procedure to move the submap view 1 Click on the submap to select it 2 From the main menu select View then Pan The pan screen appears
77. and if not installed and used properly that is in strict accordance with the manufacturer s instructions may cause interference to radio communication It has been tested and found to comply with the limits for a Class A computing device in accordance with the specifications in Subpart J of Part 15 of FCC rules which are designed to provide reasonable protection against such interference when the equipment is operated in a commercial environment Operation of this equipment in a residential area is likely to cause interference in which case the user at his own expense will be required to take whatever measures may be necessary to correct the interference Changes or modifications not expressly approved by the party responsible for compliance could void the user s authority to operate the equipment This digital apparatus does not exceed the Class A limits for radio noise emission from digital apparatus set out in the Radio Interference Regulation of Industry Canada Le pr sent appareil num rique n met pas de bruits radio lectriques d passant les limites applicables aux appareils num riques de la classe A prescrites dans le Reglement sur le brouillage radio lectrique publi par Industrie Canada PRO SWITCHING SYSTEM 10 11 NORMAS OFICIALES MEXICANAS NOM ELECTRICAL SAFETY STATEMENT INSTRUCCIONES DE SEGURIDAD Todas las instrucciones de seguridad y operaci n deber n ser le das antes de que el aparato el ctrico
78. and one for power supply 2 PS2 When lit this LED indicates that the relevant power supply is functioning e FAN FAIL red There is one FAN FAIL LED for PS1 and one for PS2 When lit this LED indicates that the fan in the relevant power supply is not functioning e LINK ON green This LED when lit indicates that the control card is functioning and capable of communicating with other racks and with the central PC When not lit this LED indicates that the control card has failed When the control card fails COMM IN is physically shorted to COMM OUT bypassing the failed control card PRO SWITCHING SYSTEM Gang Switch Buttons Normal A B C D lt Normal Set Button Power Supply 1 Status LEDs OK FAN FAIL Power Supply 2 Status LEDs OK FAN FAIL Link On LED Lamp Test Button Reset Button i0baseT Connector entricrd_bw_04 cdr Figure 44 Control Card CHAPTER 4 Components 4 3 Front Cards Table 4 2 Switch Patch Front Cards Model Interface Switch Patch Switched of LEDs Alarms Mon Bus Compatible Cond Slots Rear Cards SM705C RS 232 V 24 A B 4 cavity 23 1 y y y SM720C SM706C V 35 A B 4 cavity 19 1 y y SM721C SM707C RS 530 A B 4 cavity 23 1 Y y y SM720C SM708C DB15 SM722C SM709C RJ 11 A B 4 1 SM723C SM710C RJ 45 A B 8 1 SM724C Front cards work with rear cards to manage lines The front card c
79. ard coordinates all rack functions communicates with other racks and communicates with the management PC Each rack must have one control card inserted into the rightmost slot 4 2 1 CONTROLS GANG There are five gang switches N A B C and D When the key switch is in the horizontal position you can use these switches to change all lines in a rack If you press A B C or D the control card switches all lines in the rack to that position If you press N the control card switches all lines in the rack to the normal position Use the NORM SET pushbutton to define the normal position for all lines e NORM SET This pushbutton sets the N gang switch When you press this button the Pro Switching System stores the current switch settings of each line CHAPTER 4 Components as the normal position Then when you press the N gang switch all lines switch to the normal position e LAMP TEST This pushbutton lights all LEDs in the rack You can use it to determine ifan LED is operating correctly e RESET This switch performs a warm reset or a cold reset depending on its associated DIP switch setting A warm reset reboots the CPU without affecting the operator programmed data that is stored in CPU RAM for example alarm definitions A cold reset reboots the CPU and deletes all operator programmed data that is stored in the CPU RAM reinitializing the system 4 2 2 LEDs e OK green There is one OK LED for power supply 1 PS1
80. ariable 1 3 6 1 4 1 509 1 5 1 12 2 This is the internal hardware common signal code of the line card You can only GET the value of this variable Integer bitmask 1 3 6 1 4 1 509 1 5 1 13 iso 1 org 3 dod 6 internet 1 private 4 ent erprises 1 Hadax 509 IntelliSwitch2000 1 lineCardTable 5 lineCar dEntry 1 lineComCode 13 1 3 6 1 4 1 509 1 5 1 13 lineCardIndex where lineCardIndex is the slot number 1 through 16 occupied by the line card APPENDIX D Proprietary MIB Example Display the internal hardware common signal code of line card 2 Operation Get Variable 1 3 6 1 4 1 509 1 5 1 13 2 lineSpecificParameter Description This is an open variable that may be used for specific line card applications as listed below Otherwise this variable is not used You can SET and GET the value of this variable MIB Path 1 3 6 1 4 1 509 1 5 1 14 iso 1 org 3 dod 6 internet 1 private 4 ent erprises 1 Hadax 509 IntelliSwitch2000 1 lineCardTable 5 lineCar dEntry 1 lineSpecificParameter 14 Variable 1 3 6 1 4 1 509 1 5 1 14 lineCardIndex where lineCardIndex is the slot number 1 through 16 occupied by the line card The line card contains a pushbutton that when pushed performs a switch to a secondary position for a user defined period of time and then returns to the original position The period of time is defined by an integer parameter Parameters Integer indicating a value of
81. ay list of definitions already created or In the Standard Alarm Line Level area for each port COM A B and each lead TD RD etc desired select a State Disable Mark Space No Data and a Duration 1 999 seconds that the lead s must continue in that state to trigger an alarm Note that a D Disable setting will not display when the screen is recalled 2 Click on SEND to enable the alarms RESET to clear your selections EXIT to exit the screen PRO SWITCHING SYSTEM 6 5 10 ALARM TRIGGERED SWITCHING SCREEN The Alarm Triggered Switching screen allows you to set up alarms for various leads RTS CTS etc You can set the alarms by clicking on the appropriate areas or you can choose from a list of previously defined alarms To Display the Line Level Alarm Triggered Switching Screen 1 Follow the steps for displaying the line card status screen 2 From the line card status screen click on the ALARM TRIGGERED SWITCHING button The line level alarm triggered switching screen appears Pro Switching System Line Level Alarm Triggered Switching s Ic Ex Sie CHECAGU Addrexz 142 9 200 114 Line 14 Hack Hart 1 Account Line Past fi Type Asst Part Bl Tripper Colin rim T RD ATS CTS OSA D OTA TW AC Er T AAA IE E E Oeeation 4 Restore 2 Redundant Ling Crlleres Prevent march if ATS T amp DSA CD OTA A iBIBIBIBIEIR i Destin Predetined ATF Settings e Trigger gt ded D erem E E RI Fi
82. bug the application you can generate a library log file To do so create the HDX2000L section in the WIN INI file and then create the Debug n entry where n is no debug 1 logs application calls to the library as well as trap messages issued by the the library logs SNMP events 3 sameas 1 2 N The log file HDX2000L LOG is created under the Windows directory Appendix D Proprietary MIB This appendix lists the variables of the proprietary MIB for use with SNMP D 1 MIB Path Summary The following flowchart shows the MIB paths of the variables in the HDX2000 MIB file The variables are located at the end of each branched path and are not enclosed in brackets The variables and their usage are explained in the remainder of the chapter iso 1 org 1 8 dod 1 3 6 internet 1 3 6 1 private 1 3 6 1 4 enterprises 1 3 6 1 4 1 Hadax 1 3 6 1 4 1 509 Hadax 1 3 6 1 4 1 509 IntelliSwitch2000 1 3 6 1 4 1 509 1 rack2000Entry 1 3 6 1 4 1 509 1 1 rackRealTimeClock 1 3 6 1 4 1 509 1 1 1 0 rackKeyLocked 1 3 6 1 4 1 509 1 1 2 0 rackLineCardChanges 1 3 6 1 4 1 509 1 1 3 0 rackSigAlarmChanges 1 3 6 1 4 1 509 1 1 4 0 rackAlarmTrigOpChanges 1 3 6 1 4 1 509 1 1 5 0 rackTimeTrigOpChanges 1 3 6 1 4 1 509 1 1 6 0 rackBusTrigOpChanges 1 3 6 1 4 1 509 1 1 7 0 rackPsChanges 1 3 6 1 4 1 509 1 1 8 0 rackSigComChanges 1 3 6 1 4 1 509 1 1 9 0 rackSigAlarms 1 3 6 1 4 1 509 1 1 10 0 rackSwitchCommands 1 3 6 1 4 1 509 1 1 11 0 ra
83. ch the port entry none A B C D normal is assigned Example Set port D as the port switched for time triggered switching operation 3 Operation Set Variable 1 3 6 1 4 1 509 1 9 1 6 3 Set Value D 4 timeTrigOpCardsList Description List of line cards to switch This is a list of line cards separated by white spaces For example to switch the first third and tenth line cards timeTrigOpCardsList would be 1 3 10 You can SET and GET the value of this variable Parameters Line cards 1 to 16 MIB Path 1 3 6 1 4 1 509 1 9 1 7 iso 1 org 3 dod 6 internet 1 private 4 ent erprises 1 Hadax 509 IntelliSwitch2000 1 timeTrigOpTable 9 time TrigOpEntry 1 timeTrigOpCardsList 7 Variable 1 3 6 1 4 1 509 1 9 1 7 timeTrigOpIndex where timeTrigOpIndex is a number from 1 to 32 of a time triggered switching operation to which the list is assigned Example Create a list from line cards 1 4 8 13 15 and 16 that will switch for time triggered operation 3 Operation Set Variable 1 3 6 1 4 1 509 1 9 1 7 3 Set Value 148131516 PRO SWITCHING SYSTEM timeTrigOpBusCodeEmit Description Parameters MIB Path Variable Example timeTrigOpComment Description Parameters MIB Path Code emitted over the inter rack bus at the time of the switching operation set by the timeTrigOpTime variable You can SET and GET the value of this variable 0 no code emitted or 1 to 127
84. ching variable as listed below For more information on the variable see its listing presented earlier in the chapter linePatching Description Indicates whether or not patching is possible and if so whether or nota patch cable is inserted Parameters none 0 the line card does not have patch capabilities cable out 1 the line card has patch capabilities a patch cable is not inserted cable in 2 the line card has patch capabilities a patch cable is inserted Variable 1 3 6 1 4 1 509 1 5 1 8 lineCardIndex where lineCardIndex is the slot number 1 through 16 occupied by the line card alarmTrigOpSwitch 9 This trap is generated when an alarm triggered switch is executed The trap returns information on the lineSwitchedPort and alarmTrigOpComment variables as listed below For more information on the variables see their listings presented earlier in the chapter lineSwitchedPort Description The port switched to for example port A Parameters A 1 B 2 C 3 D 4 normal 5 Variable 1 3 6 1 4 1 509 1 5 1 4 lineCardIndex where lineCardIndex is the slot number 1 through 16 occupied by the line card PRO SWITCHING SYSTEM alarmTrigOpComment Description Parameters Variable timeTrigOpSwitch lineSwitchedPort Description Parameters Variable timeTrigOpComment Description Parameters Variable User comment for each alarm triggered sw
85. ckSwitchErrs 1 3 6 1 4 1 509 1 1 12 0 rackMonBusCommands 1 3 6 1 4 1 509 1 1 13 0 rackIpRequester 1 3 6 1 4 1 509 1 1 14 0 powerTable 1 3 6 1 4 1 509 1 2 powerEntry 1 3 6 1 4 1 509 1 2 1 powerStatus 1 3 6 1 4 1 509 1 2 1 2 powerIndex powerFanStatus 1 3 6 1 4 1 509 1 2 1 3 powerIndex gangSwitchTable 1 3 6 1 4 1 509 1 3 PRO SWITCHING SYSTEM gangSwitchEntry 1 3 6 1 4 1 509 1 3 1 gangSwitchPush 1 3 6 1 4 1 509 1 3 1 2 gangSwitchIndex monBusTable 1 3 6 1 4 1 509 1 4 monBusEntry 1 3 6 1 4 1 509 1 4 1 monBusMode 1 3 6 1 4 1 509 1 4 1 2 monBusIndex monBusLineCardIndex 1 3 6 1 4 1 509 1 4 1 3 monBusIndex monBusLineChanIndex 1 3 6 1 4 1 509 1 4 1 4 monBusIndex lineCardTable 1 3 6 1 4 1 509 1 5 lineCardEntry 1 3 6 1 4 1 509 1 5 1 lineInterfaceType 1 3 6 1 4 1 509 1 5 1 2 lineCardIndex lineSwitchType 1 3 6 1 4 1 509 1 5 1 3 lineCardIndex lineSwitchedPort 1 3 6 1 4 1 509 1 5 1 4 lineCardIndex lineNormalPort 1 3 6 1 4 1 509 1 5 1 5 lineCardIndex lineSwitchedPort2 1 3 6 1 4 1 509 1 5 1 6 lineCardIndex lineNormalPort2 1 3 6 1 4 1 509 1 5 1 7 lineCardIndex linePatching 1 3 6 1 4 1 509 1 5 1 8 lineCardIndex lineBridgeCapability 1 3 6 1 4 1 509 1 5 1 9 lineCardIndex lineBreakCapability 1 3 6 1 4 1 509 1 5 1 10 lineCardIndex lineFrontCardCode 1 3 6 1 4 1 509 1 5 1 11 lineCardIndex lineRearCardCode 1 3 6 1 4 1 509 1 5 1 12 lineCardIndex lineComCode 1 3 6 1 4 1 509 1 5 1 13 lineCardIndex lineSpecificParameter 1 3 6 1 4 1 509 1 5
86. color codes By default they are Red Critical indicates the device is having serious problems such as being down Dark Red Major indicates a problem with some degradation of operation Orange Minor indicates a noncritical condition There maybe some device degradation Yellow Warning indicates a noncritical condition No degradation has occurred Mustard Marginal indicates that a device is approaching shutdown or malfunction Magenta Informational indicates that an informational message about the device has been sent by an application Cyan Disabled indicates the device is shut down Wheat Unmanaged indicates that the device is not managed by an HP OpenView application Green Normal indicates the device is in a normal state The device is up and should be working properly Blue Unknown indicates the device application does not report its status or the map changed and the status has not been reported to HP OpenView for Windows To Display the Status Legend From the main menu select Monitor then Status Legend The status legend Screen appears CHAPTER 6 Operation Alarm Log Perform this procedure to display the alarm log screen which displays a list of alarms and other alarm information e Acknowledge Click on this to acknowledge a particular alarm highlighted The alarm disappears and is stored in the history file e Acknowledge All Click on this to acknowledge all alar
87. count IDs selection does not apply to SNMP setups Alarm Box The Alarm Box selection does not apply to SNMP setups CHAPTER 6 Operation Satellite P C The Satellite P C selection does not apply to SNMP setups Courtesy Terminals The Courtesy Terminals selection does not apply to SNMP setups User Definitions Perform this procedure to assign user IDs passwords and levels of privilege You can delete the default user ID blackbox and password blackbox so they can no longer be used to gain access to this map Only a user who is assigned the Supervisor S level of privilege can access the User Definitions screen When a new map is opened there is only one user a Supervisor who has the default user ID blackbox and password blackbox You can delete this user However be sure that you create at least one other Supervisor before you do so To Assign User Definitions 1 From the main menu select System then User Definitions The User Definitions screen appears Pro Switching System User Definitions x Hamel Deba 0 I Perra pedal ENE Metwork Missisisestinng M Supera H Name Pesca Flaga HALLA Hallas 3 Figure 6 33 User Definitions Screen PRO SWITCHING SYSTEM 2 To create a new user click on New To edit a user click on the user from the list in the lower panel and click Replace To delete a user click on the user from the list in the lower panel and click Delete 3 In the Nam
88. ction by polling the dialup site and obtaining information about current status and configuration Then the PC disconnects the dialup site 2 4 3 PoLLING PROCEDURES Generally racks on dedicated ports are polled individually by the PC However if a switching monitoring screen for the rack is displayed this rack is polled more frequently in order to acquire real time information about it for display on the screen 2 5 System Expansion The Pro Switching System is flexible and modular You can begin with a small local system a rack and a few cards As your needs grow you can add more cards and racks to create a large site then add more sites to create a global network You can incorporate new functions and interfaces as they come into use CHAPTER 3 Functions 3 Functions This chapter describes the functions of the Pro Switching System including switching and patching options and the monitoring bus The chapter also describes the system configuration options 3 1 Switching and Patching The Pro Switching System offers these switching and patching options e A B switching e Three cavity patching e Four cavity patching 3 1 1 A B SwITCHING A B switches have three ports A B and COMMON You can connect the line at the COMM IN port to the line at the A port or the B port Figure 3 1 shows an A B switch in which the COMMON port is connected to the A port COMMON Figure 3 1 A B Switching The switch uses latching
89. d and then perform a gang group switch to their normal ports You can SET and GET the value of this variable APPENDIX D Proprietary MIB Parameters none 0 A 1 B 2 MIB Path 1 3 6 1 4 1 509 1 5 1 7 iso 1 org 3 dod 6 internet 1 private 4 ent erprises 1 Hadax 509 IntelliSwitch2000 1 lineCardTable 5 lineCar dEntry 1 lineNormalPort 7 Variable 1 3 6 1 4 1 509 1 5 1 7 lineCardIndex where lineCardIndex is the slot number 1 through 16 occupied by the line card Example Define port B as the normal port for line card 9 second switch Operation Set Variable 1 3 6 1 4 1 509 1 5 1 7 9 Set Value B 2 linePatching Description Indicates whether or not patching is possible and if so whether or not a patch cable is inserted You can only GET the value of this variable Parameters none 0 the line card does not have patch capabilities cable out 1 the line card has patch capabilities a patch cable is not inserted cable in 2 the line card has patch capabilities a patch cable is inserted MIB Path 1 3 6 1 4 1 509 1 5 1 8 iso 1 org 3 dod 6 internet 1 private 4 ent erprises 1 Hadax 509 IntelliSwitch2000 1 lineCardTable 5 lineCar dEntry 1 linePatching 8 Variable 1 3 6 1 4 1 509 1 5 1 8 lineCardIndex where lineCardIndex is the slot number 1 through 16 occupied by the line card PRO SWITCHING SYSTEM Example lineBridgeCapability Description Parameters MIB Pa
90. e Section 5 1 1 Configure the Control Card Section 5 1 2 Install Components Section 5 1 3 Enter IP address into rack Section 5 1 4 5 1 1 FILL OUT THE RACK DESCRIPTION GUIDE 1 Make the appropriate number of photocopies of the Rack Description Guide sheet shown in Appendix A for the number of racks to be installed 2 Complete the information on the sheets for each rack See the Rack Description Guide Example on the next page 3 Make two photocopies of the completed sheets 4 Give one set of sheets to the installation technician Give another set to the network manager Store the original sheets in a master file CHAPTER 5 Installation Rack Description Guide Example Site name Password DIP switches Rack name Rack address DIP switches Baud rate IP Address Application Switch patch Slot Connection 1 A Satellite B Telco C User001 2 A Satellite B Telco C User002 3 A Satellite B Telco C User003 4 A Satellite B Telco C User004 5 A Satellite B Telco C User005 6 A Satellite B Telco C User006 7 A Satellite B Telco C User007 8 A Satellite B Telco C User008 9 A Satellite B Telco C User009 10 A Satellite B Telco C User010 11 12 13 14 15 16 PRO SWITCHING SYSTEM 5 1 2 CONFIGURE THE CONTROL CARD AND DIP SwITCHES Each rack must have one control card which is inserted into the rightmost slot of the rack The control ca
91. e DIP switch settings for rack n GET RACK n DIGITAL1 ANALOG DIGITAL2 Display information about the bus for rack n Enter only one of the three buses DIGITAL1 ANALOG or DIGITAL2 GET RACK n IP ADDRESS Display the IP address of rack n GET RACK n MAC ADDRESS Display the MAC address of rack n GET RACK n SNMP MANAGERS Display the assigned SNMP managers for rack n GET RACK n SNMP READ COMMUNITY NAME Display the SNMP READ COMMUNITY NAME for rack n GET RACK n SNMP SECURITY TRAPS Display the SNMP security traps for rack n GET RACK n SNMP STATUS x Display the SNMP status x for rack n PRO SWITCHING SYSTEM Enter G ET RACK RACK RACK RACK RACK RACK RACK RACK In order to SNMP TRAPS Display the SNMP traps for rack n SNMP WRITE COMMUNITY NAME Display the SNMP WRITE COMMUNITY NAME for rack n SUBNET MASK Display the subnet mask for rack n TELNET IDLE TIMEOUT Display the Telnet idle timeout setting for rack n TELNET SECURITY TRAPS Display the Telnet security traps for rack n TELNET STATUS x Display the Telnet status x for rack n TIME Display the time of rack n VERSION Display the firmware version of rack n CHAPTER 5 Installation
92. e box enter user ID to be defined 4 In the Password box enter the password of the user to be defined 5 Click on one of the privilege levels Definitions Operations Network Modifications or Supervisor to assign to the user 6 Click on Add to add a user transfer from the upper to lower part of the screen to the list 7 Click on SAVE to save your changes EXIT to exit the screen NOTE In the Name field when you enter one or more characters the ADD button becomes active changes from gray to black However before you can ADD the user to the list below you must also enter at least one character in the Password field and click on at least one option box NOTE Clicking on SAVE only stores your changes to the program s temporary memory To fully save your changes to the map file remember to select File then Save As from the main menu before exiting HP OpenView 6 5 6 RACK STATUS SCREEN The Rack Status screen shows real time views of the front and rear of the rack as if you were standing in front of it From the Rack Status screen you can perform switching and other functions using point and click mouse operations instead of selecting from the main menu The Rack Status screen does not replace all of the main menu selections but offers some capabilities that allow you to control your racks and system from a more visual point of view CHAPTER 6 Operation From the Rack Status screen you can e Pe
93. e following exactly as shown User ID blackbox Password blackbox Click on OK to continue The HP OpenView main screen appears displaying a new map named UNTITLED CHAPTER 6 Operation d T e AA AAA e plaid Part n ore oes Cup Fuse O op reirte iue aao coro Gh coor o camen H aperi yr nbi Eye bisp Hamz CAMA TITLE User Mh PES Password CLEAR DE Figure 6 2 Login Screen 6 4 2 MAIN MENU HP OpenView provides a main menu bar that runs across the top of the screen Figure 6 3 Almost all the main menu items File Edit View Monitor Control Options Windows and Help are common to most HP OpenView applications If you are already experienced with HP OpenView these menu items should be very familiar to you However the Pro Switching System menu and System menu are exclusive to the Pro Switching System They are provided by the Pro Switching System application and are described in Section 6 5 5 PRO SWITCHING SYSTEM HP OpenView File Edit View Monitor Control Pro Switching System System Options Window Help Figure 6 3 Main Menu 6 4 3 FILE MENU The File menu contains the following selections e New Open e Save e Save As e Check Map e Print Submap e Print Object List e Print Setup e Load Selection List e Save Selection List As e Exit CHAPTER 6 Operation New Ctrl N Open Ctrl 0 Save Cubs Save s Check Map Print Submap Ctrl P Prin
94. e poder s lo del tipo descrito en el instructivo de operaci n o como se indique en el aparato NOM STATEMENT 12 Precauci n debe ser tomada de tal manera que la tierra fisica y la polarizaci n del equipo no sea eliminada 13 Los cables de la fuente de poder deben ser guiados de tal manera que no sean pisados ni pellizcados por objetos colocados sobre o contra ellos poniendo particular atenci n a los contactos y recept culos donde salen del aparato 14 El equipo el ctrico debe ser limpiado nicamente de acuerdo a las recomendaciones del fabricante 15 En caso de existir una antena externa deber ser localizada lejos de las lineas de energia 16 El cable de corriente deber ser desconectado del cuando el equipo no sea usado por un largo periodo de tiempo 17 Cuidado debe ser tomado de tal manera que objectos liquidos no sean derramados sobre la cubierta u orificios de ventilaci n 18 Servicio por personal calificado deber ser provisto cuando A El cable de poder o el contacto ha sido da ado u B Objectos han ca do o l quido ha sido derramado dentro del aparato o C El aparato ha sido expuesto a la lluvia o D El aparato parece no operar normalmente o muestra un cambio en su desempe o o E El aparato ha sido tirado o su cubierta ha sido da ada PRO SWITCHING SYSTEM TRADEMARKS USED IN THIS MANUAL VT100 is a trademark of Digital Equipment Corporation Any other trademarks mentioned i
95. eate or Modify Default Switch Definitions Switch Schedules To Create or Modify Switch Schedule Definitions 1 From the main menu select Pro Switching System then Definitions then Switch Schedules The Scheduled Switching Definition screen appears see Figure 6 14 Pro Switching System Scheduled Switching Definition Mon Feb 02 10 10 50 Ahi Definition Name Notes m Hour Minute Bee ca t I am ire ise ithe em MT Fi Sat Sun Ha a AM E CLEAR LE LAE EXIT Figure 6 14 Switch Schedules Screen PRO SWITCHING SYSTEM 2 In the Definition Name box enter the name of a new definition or click on the arrow and choose a name from the display list of definitions already created In the Notes box optional enter any information that may be helpful to you In the Hour and Minute box choose the time of switching In the Days box choose the day s of switching In the How Often box choose the frequency of switching In the Switch To box choose the switch position A B C or D For dual line cards click on enable the Dual box Glick on SAVE to save your definition CLEAR to clear your selections DELETE to delete the entire definition EXIT to exit the screen NOTE Clicking on SAVE only stores your changes to the program s temporary memory To fully save your changes to the map file remember to select File then Save As from the main menu before exiting H
96. ecurity level 3 Enter a password 4 Click OK to set NOTE Only the Supervisor has Set Password privileges Users logged in as Operator or Observer cannot set passwords Customize HP OpenView Perform this procedure to customize HP OpenView Settings To Customize HP Open View 1 From the main menu select Options then Customize HP OpenView The Customize HP OpenView screen appears CHAPTER 6 Operation 2 Choose the appropriate customize settings 3 Click OK to set The full settings will take effect on your next session Customize Alarms Perform this procedure to customize your alarm settings 1 From the main menu select Options then Customize Alarms The Customize Alarm screen appears 2 Choose the appropriate customize settings 3 Click OK to set Customize Device Access Follow this procedure to customize device access characteristics To Customize Device Access 1 From the main menu select Options then Customize Device Access The Customize Device Access screen appears 2 Choose the appropriate customize settings 3 Click OK to set 6 4 9 WINDOW MENU The Window menu displays the following selections Home Submap Previous Submap Locate Submap Locate Object Home Submap Follow this procedure to display your home submap To Display Your Home Submap From the main menu select Window then Home Submap The Home Submap appears PRO SWITCHING SYSTEM NOTE To define your home
97. en CHAPTER 6 Operation 2 In the Group box enter the name of a new group or click on the arrow and choose a name from the display list of groups already created 3 In the Notes box optional enter any information about the group 4 In the Site box click on a site to narrow your selection to a particular site In the Rack box click on a rack to narrow your selection to a particular rack In the Line box click on a line to narrow your selection to a particular line Click on the button to add your selection to the Currently Defined Group Member list 5 In the Currently Defined Group Members area to remove any unwanted member from the list click on a member and click the button 6 Click on SAVE to save your group CLEAR to clear the display DELETE to delete the group EXIT to exit the screen NOTE Clicking on SAVE only stores your changes to the program s temporary memory To fully save your changes to the map file remember to select File then Save As from the main menu before exiting HP OpenView Default Switch Follow this procedure to create or modify default switch definitions for predefined switch groups which you create 1 From the main menu select Pro Switching System then Definitions then Default Switch The Default Switch Definitions screen appears see Figure 6 13 PRO SWITCHING SYSTEM Pro Switching System Default Switch Definitions Diclisitian Mame Heres C
98. en lit indicates that the line is currently connected to the monitoring bus The connection is made for monitoring and testing operations BK red When lit indicates that the line is currently broken The break is made for testing operations e TS red Not used e LP red Not used Patch Cavities Switch patch cards can have up to four patch cavities which allow you to monitor and test the lines Normally data transmission is normal through That is the DTE is connected to the DCE However if you connect a patch cord to a patch cavity you can monitor or test the line as follows COMP When you insert a patch cord into the COMP cavity the circuit is broken and the cord is connected to the DTE You can use this connection to test the DTE MODEM When you insert a patch cord into the MODEM cavity the circuit is broken and the cord is connected to the DCE You can use this connection to test the DCE MON A When you insert a patch cord into the MON A cavity it is connected to the circuit between the DTE A port and the DCE port The circuit is not broken You can use this connection to monitor the signals MON B When you insert a patch cord into the MON B cavity it is connected to the circuit between the DTE B port and the DCE port The circuit is not broken You can use this connection to monitor the signals CHAPTER 4 Components RS 232 Toggle Switch ALM RD A RTS de CTS DSR DCD B MON DTR RI BK
99. ent is connected to the DCE You can test the DCE The buses use non latching relays which return to their normal settings if the power fails The monitoring buses are available for use with the following interfaces RS 232 RS 530 and RJ 11 Monitoring Bus Card DTE DCE DTE DCE H DTE DCE Slot 1 Slot 2 Slot 16 Figure 3 4 Monitoring Bus The line card in slot 2 is configured for break to DTE All other line cards are normal through CHAPTER 3 Functions MONITORING BUS Figure 3 5 Normal Through MONITORING BUS Figure 3 6 Bridge PRO SWITCHING SYSTEM MONITORING BUS DCE Figure 3 7 Break to DTE MONITORING BUS Figure 3 8 Break to DCE 3 3 Configurations There are two types of rack configurations 1 One section rack In the one section rack the bus can connect to all 16 slots see Figure 3 9 By default the rack you receive is configured to be a one section rack 2 Two section rack You can use DIP switches to split the rack into two sections CHAPTER 3 Functions That is one bus connects to eight slots and the other bus connects to the other eight slots see Figure 3 9 Switch patch cards provide AB switch with optional patch capabilities Normally you will place these cards in a one section rack Place the cards in any combination and in any order NOTE Place t
100. es 5 To broadcast to all sites click on ALL 6 Click on EXIT to exit the screen Health Checks System All Sites Perform this procedure to define a schedule for checking system sites PRO SWITCHING SYSTEM To Define a Health Check Schedule 1 From the main menu select Pro Switching System then Network then Health Checks System All Sites The System Health Check Schedule screen Figure 6 29 appears Pro Switching System System Health Check Schedule A Mon Feb 02 10 40 26 6M Hour Minute REIN Ci Me Eii dign ae Enabled Fri Sal Sun IAHEDIA TE Disabled RESET SAVE EWIT Figure 6 29 Health Check Schedule Screen 2 Click on IMMEDIATE to initiate an immediate health check of all system sites or Enter the desired time and day s to schedule periodic health checks 3 Click on Enabled or Disabled for the scheduled health check 4 In the Notes box enter any information that may be helpful to you 5 Click on RESET to reset your selections to blanks SAVE to save your selections EXIT to exit the screen CHAPTER 6 Operation NOTE Clicking on SAVE only stores your changes to the program s temporary memory To fully save your changes to the map file remember to select File then Save As from the main menu before exiting HP OpenView NOTE Schedule a health check for a period of low system activity Report Perform this procedure to define and display rep
101. g a common alarmTrigOpIndex which you select are part of the same alarm triggered Operation alarmTrigOpSigAlarmsList Description A list of alarms alarm definitions triggering a switching operation This is a list of sigAlarmIndex numbers separated by white spaces For example to create a list of alarms containing alarm definitions 2 10 and 12 alarmTrigOpSigAlarmsList would be 2 10 12 You can specify up to 4 alarms in each list All alarms in the list must be in alarm condition red for the switching operation to occur You can SET and GET the value of this variable Parameters Up to 4 alarms chosen from alarm definitions The format of the alarm list is sigAlarmIndex numbers up to 4 each separated by a space MIB Path 1 3 6 1 4 1 509 1 8 1 2 iso 1 org 3 dod 6 internet 1 private 4 ent erprises 1 Hadax 509 IntelliSwitch2000 1 alarmTrigOpTable 8 alar mTrigOpEntry 1 alarmTrigOpSigAlarmsList 2 Variable 1 3 6 1 4 1 509 1 8 1 2 alarmTrigOpIndex where alarmTrigOpIndex is a number from 1 to 32 of an alarm triggered operation to which the list is assigned PRO SWITCHING SYSTEM Example alarmTrigOpSwitchToPort Description Parameters MIB Path Variable Example alarmTrigOpCardsList Description Define a list of alarms sigAlarmIndex 1 3 12 and 28 to trigger a switching operation Assign this list to alarm triggered switching operation 1 Operation
102. g the Configuration DIP Switches DS5 The configuration DIP switches set the following e Enable disable rack password e Cold warm RESET button configuration e Enable disable NORM SET and N gang switch buttons Communication baud rate Tables 5 1 through 5 4 illustrate the DIP switch settings DIP Switch Tables Table 5 1 DIP Switches at DS7 Switch Position In order to ON Enable the Ethernet port Disable the Ethernet port Always set to OFF Enable the AUX port Disable the AUX port PRO SWITCHING SYSTEM Table 5 2 DIP Switches at DS6 Switch Position In order to Notes 1108 OFF Always set to OFF Table 5 3 DIP Switches at DS5 Switch Position In order to Notes ON Disable the password All racks at a site must use the same password OFF Enable the password When you enable the password the management PC uses the password to communicate with the rack When you disable the password the management PC disregards the password ON Configure the RESET button A cold reset erases all user to perform a cold reset programmed system parameter when pressed data that are stored in the Pro Switching System RAM and reboots the CPU reinitializing the system OFF Configure the RESET button A warm reset reboots the CPU to perform a warm reset without affecting the user when pressed programmed system system parameter data such
103. gure 6 38 Line Level Alarm Triggered Switching Screen To Set the Alarm Triggered Switching 1 In the Alarm Definition Name box click on the arrow and choose a name from the display list of definitions already created or In the Trigger Criteria area Click on A or B on the right side of the screen to identify the primary line CHAPTER 6 Operation The other port is automatically selected as the redundant line in the Redundant Line Criteria area For each lead TD RD etc desired select a State Disable Mark Space No Data and a Duration 1 999 seconds that the lead s must continue in that state to trigger an alarm and consequently switch to the redundant line Note that a D Disable setting will not display when the screen is recalled In the Restore section select a State D M S N and a Duration 1 999 seconds that the lead must continue in the complementary state to trigger a fallback switch from the redundant line 2 In the Redundant Line Criteria area for each lead TD RD etc desired select a State D M S N and a Duration 1 999 that the lead must continue in that state to prevent switching to the redundant line 3 Click on SEND to enable the switching RESET to clear your selections EXIT to exit the screen PRO SWITCHING SYSTEM 7 Maintenance No preventive or routine maintenance is required for the Pro Switching System Periodically test the LED lamps by pressing the Lam
104. h Positions 1 For each line card click on the letter box located at the bottom of the line card to set the switch to the desired position 2 When all the line card switch positions are set click on the NORM SET button located on the control card This defines the current switch positions as the Normal positions to switch to when you press the N gang switch button To Perform Normal Gang Switching Click on the N gang switch button located on the upper portion of the control card All line cards switch to their predefined normal positions NOTE Switching may take several seconds to occur depending upon your polling frequency settings CHAPTER 6 Operation To Clear the Monitor Bus Click on one of Monitor Bus buttons Digital 1 Digital 2 or Analog To Reset the Rack Click on the RESET button located at the bottom of the control card To Display the Line Card Status Screen Double click on the desired line card The line card status screen appears 6 5 7 LINE CARD STATUS SCREEN The Line Card Status screen shows the status of leads and other information for an individual line card From the line card status screen you can perform some functions that are also accessible from the main menu selections Black Box Pro Switching System CHICAGO Rack 1 line 7 status cee ECAH Address 192 5 200 114 Line g 07 Aack Aac 1 Fresa Code 1 Account Line Fear Codo 255 Typs HERR MOM 14 52 Lend Siatua
105. he spare card in the rightmost slot of a section Place the online cards in the other slots a a IZ RC O e One Section Rack 1 2 3 4 5 6 7 8 9 10 1112 13 14 15 16 a 16 slots Two Section Rack ol RAR EE b r 9 10 11 12 13 14 15 16 AA AAA 8 slots 8 slots Figure 3 9 Rack Configurations PRO SWITCHING SYSTEM 4 Components This chapter describes the Pro Switching System components and component functions and provides model numbers 4 1 Rackmount Chassis The Rackmount Chassis SM700A has 16 slots for front cards 16 slots for rear cards one slot the rightmost slot for the control card and two slots for power supplies The Rackmount Chassis must include a control card and at least one power supply 115 230 VAC to operate properly If you want power redundancy backup the rack must include two power supplies 16 Slots for Slot for Front Cards Control Card Y YY Slot for Power Supply 1 4 Key Switch Bu Slot for Power Supply 2 Figure 4 1 Rackmount Chassis Front Ports 4 1 1 CONTROLS Key Switch A key switch on the front of the rack enables or disables manual operation This prevents accidental switching from the front of the rack To enable manual operation turn the key to the horizontal unlocked position represented by the icon of the open padlock on the control card See Figure 4 2 To disable manual operation turn the key to the vertical locked
106. iew main menu selections Pro Switching System and System that are unique to the Pro Switching System This section also describes how to operate your Pro Switching System using the SNMP software application via HP OpenView 6 5 1 SITE DESCRIPTION SCREEN The Site Description screen Figure 6 7 allows you to view and edit information about your site All fields in the screen except Name can be modified To Display the Site Description Screen 1 Right click on the site icon and select Describe The Site Description screen appears or 1 Click on the site icon to select it 2 From the main menu select Edit then Describe The Site Description screen appears or 1 Click on the site icon to select it 2 From the main menu select Monitor then Describe The Site Description screen appears PRO SWITCHING SYSTEM NOTE You cannot change the Name field in the Site Description screen once you enter it If you need to rename your site you must delete your site icon and create a new site with the desired name Pro Switching System Site Description Hotes Typs a Lime IA Passend I Fanz E ing On Line P ametars Dialup Parameters Past 00 LAN Site ATVEX4ACIA 0 Cra Port d Precommect Di 2 Com Port E Cont ATD Clecemmnct ATH Ae Dial Delay ll Mins UPDATE DIEECHIPTEEN MOVE Mi HET VAP CANCEL Figure 6 7 Site Description Screen 6 5 2 RACK DESCRIPTION SCREEN The Rack Description screen Figure
107. ion Parameters The line card selected for monitoring You can SET and GET the value of this variable but you must also include the monBusMode variable in your SET request Line card 1 to 16 1 3 6 1 4 1 509 1 4 1 3 iso 1 org 3 dod 6 internet 1 private 4 ent erprises 1 Hadax 509 IntelliSwitch2000 1 monBusTable 4 monBus Entry 1 monBusLineCardIndex 3 1 3 6 1 4 1 509 1 4 1 3 monBusIndex where monBusIndex is 1 for monitor bus digital one 2 for monitor bus analog 3 for monitor bus digital two Select line card 9 for monitoring on the analog bus Operation Set Variable 1 3 6 1 4 1 509 1 4 1 3 2 Set Value 9 Note that you will also need to SET a monitoring mode for the line card in your request using the monBusMode variable The line card channel selected for monitoring By default the value of this variable is set to not_connected You can SET and GET the value of this variable but you must also include the monBusLineCardIndex and monBusMode variables in your SET request not connected 0 default first channel 1 second channel 2 APPENDIX D Proprietary MIB MIB Path 1 3 6 1 4 1 509 1 4 1 4 iso 1 org 3 dod 6 internet 1 private 4 ent erprises 1 Hadax 509 IntelliSwitch2000 1 monBusTable 4 monBus Entry 1 monBusLineChanIndex 4 Variable 1 3 6 1 4 1 509 1 4 1 4 monBusIndex where monBusIndex is 1 for monitor bus digital one 2 for monitor
108. ion DIP switch is set properly Solution 4 Make sure that all socketed integrated circuit chips IC chips are properly inserted into their sockets Problem Power Supply OK LEDs do not illuminate Solution Make sure that the power supply modules are functioning properly Problem FAN FAIL LEDs illuminate Solution Make sure that the power supply modules are functioning properly 8 3 Switching Problems Problem Gang switching does not work Solution 1 Make sure that the KEY SWITCH is in the unlocked position Solution 2 Make sure that the interface cards are fully inserted into the rack mount PRO SWITCHING SYSTEM Solution 3 Make sure the power supply modules and the control card are functioning properly Problem Individual lines cannot be switched Solution 1 Make sure that the interface card is fully inserted into the rack mount Solution 2 Make sure that the power supply modules are functioning properly 8 4 PC Control Problems Problem The Pro Switching System does not communicate with the controlling PC Solution 1 Make sure that DS5 the configuration DIP switch is set properly The baud rate selected with DS5 must match the baud rate defined for the communication port that the Pro Switching System is connected to Solution 2 Make sure that the rack address DS4 and the password DIP switch DS3 match your site map Solution 3 Make sure that the Pro Switching System is connected to the co
109. is not present sleep 1 the alarm definition is inactive specified by sigAlarmStart and sigAlarmStop green 2 the alarm definition is active but not in an alarm condition PRO SWITCHING SYSTEM Variable rackKeyLockedChange rackKeyLocked Description Parameters Variable gangSwitchPushChange orange 3 the alarm definition is approaching an alarm condition red 4 the alarm definition is in an alarm condition 1 3 6 1 4 1 509 1 7 1 10 sigAlarmIndex where sigAlarmIndex is a number from 1 to 32 of an alarm definition to which the alarm status is assigned 4 This trap is generated when the key switch position is changed The trap returns information on the rackKeyLocked variable as listed below For more information on the variable see its listing presented earlier in the chapter Key switch position When the key is in the locked position the manual switch buttons on the front of the rack are disabled When the key is in the unlocked position the switch buttons are enabled no 0 Indicates that the key position on the front of the rack is set to unlocked the manual switch buttons on the rack are enabled yes 1 Indicates that the key position on the front of the rack is set to locked the manual switch buttons on the rack are disabled 1 3 6 1 4 1 509 1 1 2 0 where 0 indicates that the variable is not part of a table 5 This trap is generated when a gang switch is
110. is variable PRO SWITCHING SYSTEM Parameters MIB Path Variable Example rackSwitchCommands Description Parameters MIB Path Variable Example Counter 1 3 6 1 4 1 509 1 1 10 iso 1 org 3 dod 6 internet 1 private 4 ent erprises 1 Hadax 509 IntelliSwitch2000 1 rack2000Entry 1 rackSig Alarms 10 1 3 6 1 4 1 509 1 1 10 0 where 0 indicates that the variable is not part of a table Display the total number of monitored signal alarms since the rack was last re initialized Operation Get Variable 1 3 6 1 4 1 509 1 1 10 0 Total number of successful switching commands executed since the rack was last re initialized You can only GET the value of this variable Counter 1 3 6 1 4 1 509 1 1 11 iso 1 org 3 dod 6 internet 1 private 4 ent erprises 1 Hadax 509 IntelliSwitch2000 1 rack2000Entry 1 rackSwit chCommands 11 1 3 6 1 4 1 509 1 1 11 0 where 0 indicates that the variable is not part of a table Display total number of successful switching commands executed since the rack was last re initialized Operation Get Variable 1 3 6 1 4 1 509 1 1 11 0 APPENDIX D Proprietary MIB rackSwitchErrs Description Parameters MIB Path Variable Example rackMonBusCommands Description Parameters MIB Path Variable Example Total number of switching errors since the rack was last re initialized You can only GET the value of this variab
111. itching operation Up to 31 characters 1 3 6 1 4 1 509 1 8 1 6 alarmTrigOpIndex where alarmTrigOpIndex is a number from 1 to 32 of an alarm triggered operation to which the user comment is assigned 10 This trap is generated when a time triggered switch is executed The trap returns information on the lineSwitchedPort and timeTrigOpComment variables as listed below For more information on the variables see their listings presented earlier in the chapter The port switched to for example port A A 1 B 2 C 3 D 4 normal 5 1 3 6 1 4 1 509 1 5 1 4 lineCardIndex where lineCardIndex is the slot number 1 through 16 occupied by the line card User comment for each time triggered switching operation Up to 31 characters 1 3 6 1 4 1 509 1 9 1 9 timeTrigOpIndex where timeTrigOpIndex is a number from 1 to 32 of a time triggered switching operation to which the user comment is assigned APPENDIX D Proprietary MIB busTrigOpSwitch lineSwitchedPort Description Parameters Variable busTrigOpComment Description Parameters Variable lineSwitchError lineSwitchedPort Description Parameters 11 This trap is generated when a bus triggered switch is executed The trap returns information on the lineSwitchedPort and busTrigOpComment variables as listed below For more information on the variables see their listings presented earlier in the chap
112. le Counter 1 3 6 1 4 1 509 1 1 12 iso 1 org 3 dod 6 internet 1 private 4 ent erprises 1 Hadax 509 IntelliSwitch2000 1 rack2000Entry 1 rackSwit chErrs 12 1 3 6 1 4 1 509 1 1 12 0 where 0 indicates that the variable is not part of a table Display the total number of switching errors since the rack was last re initialized Operation Get Variable 1 3 6 1 4 1 509 1 1 12 0 Total number of bus monitoring commands executed since the rack was last re initialized You can only GET the value of this variable Counter 1 3 6 1 4 1 509 1 1 13 iso 1 org 3 dod 6 internet 1 private 4 ent erprises 1 Hadax 509 IntelliSwitch2000 1 rack2000Entry 1 rackMo nBusCommands 13 1 3 6 1 4 1 509 1 1 13 0 where 0 indicates that the variable is not part of a table Display the total number of bus monitoring commands executed since the rack was last re initialized PRO SWITCHING SYSTEM rackIpRequester Description Parameters MIB Path Variable Example D 3 Power Supplies Operation Get Variable 1 3 6 1 4 1 509 1 1 13 0 The IP address of the remote entity that last requested a switch The null value is returned if this is a local manual switch You can only GET the value of this variable IP address 1 3 6 1 4 1 509 1 1 14 iso 1 org 3 dod 6 internet 1 private 4 ent erprises 1 Hadax 509 IntelliSwitch2000 1 rack2000Entry 1 rackIpR equester 14 1 3 6 1 4 1 509 1 1 14 0 where
113. m operations To Perform Standard Alarm Operations 1 From the main menu select Pro Switching System then Operations then Standard Alarms The Standard Alarms Operations screen appears Pro Switching System Standard Alarm Operation Alarm Criteria Sen flares Criteri Notes o a DISABLE ENABLE Figure 6 22 Standard Alarms Screen CHAPTER 6 Operation 2 In the Group box click on the arrow and choose a name from the display list of switch groups previously created 3 In the Alarm Criteria Set box click on the arrow and choose a name from the display list of alarm definitions previously created 4 In the Notes boxes optional enter any information that may be helpful to you 5 Click on ENABLE to begin Standard Alarm operations the selected alarm definition will be applied to the selected switch group DISABLE to end Standard Alarm operations EXIT to exit the screen NOTE You can also select Standard Alarm operations from the Line Status screen Refer to Section 6 5 7 Alarm Triggered Switching Perform this procedure to enable or disable Alarm Triggered Switching Operations To Perform Alarm Triggered Switching Operations 1 From the main menu select Pro Switching System then Operations then Alarm Triggered Switching The Alarm Triggered Switching Operations screen appears PRO SWITCHING SYSTEM LIEN ES gU ATS Deimapgn Males Tange nup Targe
114. ment device for example a PC The site level has the following capabilities group switching e scheduled switching e default switching e alarm monitoring reporting to system management and selectively to customer courtesy terminals e alarm triggered switching with or without fallback PRO SWITCHING SYSTEM AMOO OTE oo o o NARA UR A E E Figure 2 3 Site Level e system health check e database report generation e system security functions software and hardware pass codes multiple site management up to 256 racks per site up to 256 sites per system Refer to Chapter 6 Operation for descriptions 2 2 Hardware Features 2 2 1 Two PART CARD DESIGN A unique two part card design provides flexibility The front card front inserted plugs into the rear card rearinserted see Figure 2 4 Together they manage one data line Generally the front card contains the switching and patching circuitry and the rear card contains the cable interface circuitry You can insert and remove front cards without removing rear cards or cables Figure 2 4 Front and Rear Cards 2 2 2 FRONT REAR CARD COMBINATIONS Each front card is compatible with a specific rear card 2 2 3 SUPPORTED INTERFACES The system supports the following interfaces RS 232 V 24 V 3
115. mmunication Ports Line Account IDs Alarm Box Satellite P C Courtesy Terminals User Definitions Figure 6 31 System Menu CHAPTER 6 Operation The System menu has the following selections Operator Sign On Communication Ports Describe Status Open Port Line Account IDs Alarm Box Satellite P C Courtesy Terminals User Definitions Operator Sign On Perform this procedure to allow authorized users to enter the HP OpenView program If the Map Name is shown as CNOVUNTITLED the system will display an area from which a map can be opened or in which a map can be created If the Map Name is shown other than UNTITLED the system will open to that map The map name displayed is that of the default map defined by the user in the Options menu To Sign On 1 From the main menu select System then Operator Sign On The Login screen Figure 6 32 appears PRO SWITCHING SYSTEM Tk do aa peter Curt ral oes Say Pa ee pierre dud abo coro Ps enean de c Liia H roodo dta Mig Hame CAOVILINTITLETE User E ote Solo Paame 9 CLEAR DE Figure 6 32 Login Screen 2 Enter the User ID default blackbox 3 Enter the Password default blackbox 4 Click on OK to sign on Communication Ports The Communication Ports selection applies to your setup only if you are communicating to the racks via the COM ports on the PC It does not apply to SNMP setups Line Account IDs The Line Ac
116. ms The alarms disappear and are stored in the history file Close Click on this to close the alarm log screen Delete In the history file click on this to delete a particular alarm Delete All In the history file click on this to delete all alarms e Filters Click on this to customize the types of alarms displayed Go To Click on highlight a specific alarm notice and click on Go To show the specific device in the alarm condition Help Click on this to display on line help History Click on this to display the alarm history file More Info Click on this to obtain information if applicable on a particular alarm Print Click on this to print the alarm log To Display the Alarm Log From the main menu select Monitor then Alarm Log The alarm log screen appears showing various display and editing options for the alarms To obtain more information on the alarm log screen click on the Help button 6 4 7 CONTROL MENU The Control menu has the following selections Browse Web Home Page Browse Web Management Page PRO SWITCHING SYSTEM Browse Web Home Page Follow this procedure to view the device s home page if the device supports Web based management This menu item is only enabled when the selected object contains a Home Page URL in its Describe information 1 Click on the device icon to select it 2 From the main menu select Control then Browse Web Home Page Browse Web Management Page
117. n about the object New Submap This menu option cannot be used in conjunction with the Pro Switching System To edit a selected object select Edit then Describe or Monitor then Describe from the main menu Rename Submap This menu option cannot be used in conjunction with the Pro Switching System To edit a selected object select Edit then Describe or Monitor then Describe from the main menu CHAPTER 6 Operation Clear Submap This menu option cannot be used in conjunction with the Pro Switching System To edit a selected object select Edit then Describe or Monitor then Describe from the main menu Delete Submap This menu option cannot be used in conjunction with the Pro Switching System To edit a selected object select Edit then Describe or Monitor then Describe from the main menu Set Background Image Follow this procedure to load a background image file for the current submap allowing you to more visually represent your system For example you may load the geographic view diagram of a country as a background image Then you may position your icons representing devices at particular points on the image to visually indicate their true geographic locations To Set the Background Image 1 Click on the submap to where you are placing the background image 2 From the main menu select Edit then Set Background Image The Set Background Image screen appears 3 Locate and select the desired background im
118. n and list some basic system information Most of what you need is supplied by the Rack PRO SWITCHING SYSTEM Description Guide which the hardware installation technician s have turned in Master forms for these guides are provided in Appendix A You must also have available the following for each Name for the network collection of all sites controlled from the PC Sites to include in the network Racks to include on each site NOTE Default USER ID and PASSWORD The system is shipped with the default user ID as blackbox and default password as blackbox both of which are case sensitive You must use these to gain entry to the OpenView program You must also use them to open a map until new Ids and passwords have been defined for one or more users You can then delete the default ID and password from the map database CAUTION Once you ve deleted the default ID and password from a map database the only entry to the map is via the newly defined supervisor ID s and password s If no one can remember a valid password and ID the map is permanently locked and inaccessible NOTE Under the Menu Bar item options you can customize HP OpenView In particular you can define a map as a default map When you do this the OpenView program opens directly to the default map rather than the vestibule However note the caution on the previous page about deleting the password If no one can remember a valid password and ID for
119. n changes since the rack was last re initialized Operation Get Variable 1 3 6 1 4 1 509 1 1 7 0 Total number of power supply status changes since the rack was last re initialized You can only GET the value of this variable Counter APPENDIX D Proprietary MIB MIB Path Variable Example rackSigComChanges Description Parameters MIB Path Variable Example rackSigAlarms Description 1 3 6 1 4 1 509 1 1 8 iso 1 org 3 dod 6 internet 1 private 4 ent erprises 1 Hadax 509 IntelliSwitch2000 1 rack2000Entry 1 rackPsC hanges 8 1 3 6 1 4 1 509 1 1 8 0 where 0 indicates that the variable is not part of a table Display the total number of power supply status changes since the rack was last re initialized Operation Get Variable 1 3 6 1 4 1 509 1 1 8 0 Total number of common signal changes since the rack was last re initialized You can only GET the value of this variable Counter 1 3 6 1 4 1 509 1 1 9 iso 1 org 3 dod 6 internet 1 private 4 ent erprises 1 Hadax 509 IntelliSwitch2000 1 rack2000Entry 1 rackSig ComChanges 9 1 3 6 1 4 1 509 1 1 9 0 where 0 indicates that the variable is not part of a table Display the total number of common signal changes since the rack was last re initialized Operation Get Variable 1 3 6 1 4 1 509 1 1 9 0 Total number of monitored signal alarms since the rack was last re initialized You can only GET the value of th
120. n this manual are acknowledged to be the property of the trademark owners CONTENTS Contents Chapter Page leSpecifications eee ete v o ERR 9 Garde o Ls ER s M esL de fool ate 9 1 2 Entire Pro Switching System sees 9 2 Introductions eresi repren REP AA A Lee E 11 2 1 System Architecture cele 12 2 2 Hardware Features 0 ccc cece hh 14 2 2 1 Two Part Card Design oooooooccccnooocccnacoccc co 14 2 2 2 Front Rear Card Combinati0OS ooooooooomo o 15 2 2 3 Supported Interfaces esee 15 2 2 4 Supported Connectors cesse 15 2 2 5 Line Card Switches and IndicatorsS o oo o oo 16 2 2 6 Control Card Switches and Indicators o oooo o 16 2 3 System Management Features 0 06 cee eee 17 2 3 1 HP OpenView Windows Graphic Interface 17 2 3 2 Monitoring Testing 0 6 ee eee eee 18 2 5 5 Alarming A ertt eh wr dbo ee bei 19 2 9 4 Alarm Boxz i stack ees a nee es ee dede 19 2 3 5 Alarm Triggered Switching 0 0 0 0 000 e cece eee 19 2 3 6 Switching Options sae seie 0 eee eee 19 2 3 7 Network Security oA oraa neait DI eee eee 19 2 3 8 Customer Account IDs and Courtesy Terminals 19 2 3 0 Remote BG 5 2 ilc A PED He RR blog 19 2 3 10 Open Communication Port oo coooccoccoocoom m 20 2 3 11 Open Channel to Modem 6 000 cece eee 20 2 3 12 Network Health Check o o ooooooooooooooo o o 20 2 3 13 History Files ree
121. ne card appears PRO SWITCHING SYSTEM 06 NOTES CLEAR OF Figure 6 9 Line Description Screen 6 5 4 SWITCH MENU Pro Switching System Definitions Operations Golo Network Figure 6 10 Switch Menu CHAPTER 6 Operation The Switch menu displays the following selections e Definitions Groups Default Switch Switch Schedules Standard Alarms Alarm Triggered Switching Monitor Bus Operations Switching Default Switching Scheduled Switching Standard Alarms Alarm Triggered Switching Go To Site Rack Line e Network Broadcast Health Checks System All Sites Report Definitions Pro Switching System Groups h Definitions Operations GoTo Metwork Default Switch Switch Schedules 5tandard Alarms Alarm Triggered Switching Monitor Bus Figure 6 11 Definitions Menu PRO SWITCHING SYSTEM The Definitions selection has the following sub selections e Groups Default Switch e Switch Schedules e Standard Alarms Alarm Triggered Switching Monitor Bus Groups Perform this procedure to create or modify switch groups To Create or Modify Switch Groups 1 From the main menu select Pro Switching System then Definitions then Groups The Group Definitions screen appears see Figure 6 12 Pro Switching System Group Definitions x A Notes E alle Hark Line CHICAGO Cares Deise op Member Bite Rack Line Figure 6 12 Groups Scre
122. ns List RERO Bh ee e EVE EET 147 52 Parameters LIst s lau mes eI A UU RENE 150 C 3 Sample Gode ur erbe x IRE EE Eee x 151 GA Debug cc 2 sg hota sual E E eee RS EUR s 154 Appendix D Proprietary MIB 0 6 cee ee 155 D 1 MIB Path Summary esna 6 ec eee ens 155 D 2 Rack Global Status 0 0 0 eee nee nee 158 D 3 Power Supplies ota dia 166 D 4GangSwitching 22 22 22 rr eR RR S 168 Dib MONO E A Eee E E REL Lex RI Ed 169 D6 Eine Cards Ad cda 171 D 7 Hardware Signals en E eese 180 D 8 Alarm Definitions 0 0 0 0 ccc eee eens 181 D 9 Alarm Triggered Operations 0 000 cece srren 189 D 10 Time Triggered Operations 0 6 0 eee eee eee 193 D 11 Bus Triggered Operations 06 000 c cece ee eee 200 DAT rica AA Madea eee 204 Di2 L Genenc Traps e ERR idea 204 D 12 2 Specific Traps iuo ere RI A 204 1 Specifications 1 1 Cards Connectors SM720C 3 DB25 female SM721C 3 M 34 female SM722C 3 DB15 female SM723C 3 RJ 11 SM724C 3 RJ 45 Indicators SM705C SM707C 8 LEDs for transition activity Power From the Rack Chassis 1 2 Entire Pro Switching System Protocols Transparent to all protocols and speeds Control Options HP OpenView Windows SNMP or watchdog timer Control Communication RS 232 V 24 1200 to 9600 baud 7 data bits even parity 1 or 2 stop bits Management PC Requirements 486 PC running at 66 MHz with a 312 1 44 MB floppy disk drive a color m
123. ntrolling PC with a correctly configured communication cable Solution 4 Make sure that the communication cable is connected to the same communication port as defined in your site map Solution 5 Make sure that the communication port defined in your site map is enabled APPENDIX A Rack Description Guide Appendix A Rack Description Guide This appendix provides the Rack Description Guide For each rack that you install make a photocopy of the Rack Description Guide and supply the missing information Make two photocopies of the completed sheets Give one set of sheets to the installer technician Give another set to the network manager Store the original sheets in a master file PRO SWITCHING SYSTEM Rack Description Guide Site name Password DIP switches Rack name Rack address DIP switches Baud rate IP Address Application C Switch Patch O Substitution Switch O Modem Sparing O Other Slot Connection V 0 10 Un A Y ot a OV nh hh Y NY H O Appendix B Pin Configurations This appendix shows the pin configurations for various ports in the Pro Switching System Communication Cable Table B 1 summarizes the uses for the different types of communication cable Pin configurations for these tables of cables are provided in tables which were presented in previous chapters For convenient reference these table are reprinted below PRO SWITCHING SYSTEM Table B 1 Digital 1
124. o lights in the on screen display If you click on the display of a line card the system displays a window that describes the line and the status of the monitored signals on the leads 2 3 2 MONITORING TESTING Two common monitoring buses a digital bus and an analog bus provide access for monitoring and testing each line with or without interrupting data flow Upon command the system can connect a line on any rack to the rack s digital or analog monitoring bus When the monitoring buses of several racks are daisy chained together you can create a bus definition specifying the racks that are connected in this way This gives you easy access for monitoring bus operations See Figure 2 7 for an example of a monitoring bus Monitoring Bus zog Card Lom ne pre pce oe H eee Slot 1 Slot 2 Slot 16 Figure 2 7 Monitoring Bus CHAPTER 2 Introduction 2 3 3 ALARMING You can define failure criteria for each signal online based on the sensing of SPACE MARK or NO DATA conditions and their duration You can define different criteria for different times of the day 2 3 4 ALARM BOX A port can be dedicated to let you connect an alarm box The alarm box responds to alarm signals received by the PC producing a visual or auditory signal to alert you 2 3 5 ALARM TRIGGERED SWITCHING You can predefine a lead alarm to trigger specified switching operations
125. on a site to narrow your selection to a particular site 6 In the Rack box click on a rack to narrow your selection to a particular rack 7 Click on the button to add your selection to the Currently Defined Members list 8 In the Currently Defined Members area to remove any unwanted member from the list click on a member and click the button 9 Click on SAVE to save your definition CLEAR to clear your selections PRO SWITCHING SYSTEM DELETE to delete the entire definition EXIT to exit the screen NOTE Clicking on SAVE only stores your changes to the program s temporary memory To fully save your changes to the map file remember to select File then Save As from the main menu before exiting HP OpenView Operations Pro Switching System Definitions Switching h Golo Default Switching Network Scheduled Switching Standard Alarms Alarm Triggered Switching Figure 6 18 Operations Screen The Operations selection has the following sub selections e Switching e Default Switching Scheduled Switching Standard Alarms e Alarm Triggered Switching Switching Follow this procedure to execute switching operations CHAPTER 6 Operation To Perform Switching Operations 1 From the main menu select Pro Switching System then Operations then Switching The Group Switching Operations screen appears Pro Switching System Group Switching Operations a Crap p Flack Line L CH
126. onitor a mouse sufficient serial communication ports to access all sites and the following memory Extended memory 8 MB Hard disk space 5MB 15K per rack System Capacity OpenView control 256 sites 256 racks per site SNMP control 256 sites 256 racks per site Watchdog timer Unlimited sites 256 racks per site Status Activity LEDs RS 232 V 24 and V 35 TD RD RTS CTS DSR DCD DTR RI RS 530 TD RD RTS CTS DCE DTE DCD TM Alarms Triggered on MARK SPACE or NO DATA RS 232 V 24 TD RD RTS CTS DSR DCD DTR RI TC RC EC SOD V 35 TD RD RTS CTS DSR DCD DTR LL TC RC EC RL RS 530 TD RD RTS CTS DCE DTE DCD TM TC RC EC RL PRO SWITCHING SYSTEM Switching RS 232 V 24 3 conductors pins 1 shield ground and 7 signal ground are not switched V 35 19 conductors RTS C CTS D DSR E DCD F DTR H LL J TM K TP L RL BB TD P S RD R T RC V X EC U W TC Y AA pins A shield ground and B signal ground are not switched RS 530 23 conductors pins 1 shield ground and 7 signal ground are not switched Other cards All conductors are switched Patching RS 232 V 24 23 conductors pin 7 signal ground is common V 35 19 conductors C D E F H J K L P R S T U V W X Y AA BB pin B signal ground is common RS 530 23 conductors pin 7 signal ground is common Monitoring Bus 1 analog bus 1 digital bus RS 232 V 24 TD
127. ons To properly operate your Pro Switching System from your system management center you must configure your system with the correct information PRO SWITCHING SYSTEM This section describes how to configure your system and describes the SNMP Telnet ASCII configuration commands These commands are available via the serial COMM IN or AUX ports or via a Telnet session onto the 10BASE T port of the unit You can obtain the SNMP Telnet ASCII configuration list of commands via the HELP SET rack command Almost all SET commands have a GET counterpart which returns the configured value Commands are not case sensitive although some command parameters such as community names and passwords might be case sensitive All settings take effect ONLY when you reset the unit Use the information you entered in your Rack Description Guide to properly configure your installed racks To Configure your System 1 For each installed rack in your system establish a Telnet session The Telnet session will simulate a terminal screen Use the IP addresses shown on your Rack Description Guide sheets to locate the racks 2 When connected to the rack press the Enter key The unit responds with n OK where n represents the assigned unit number Communication with the rack is not possible 3 Using the system configuration commands on the next pages configure each rack with the proper settings 4 To enable the configuration changes reset the rack
128. ontains the switching and patching circuitry while the rear card contains the cable interface circuitry The front card and the rear card mate when they are inserted into the rack In a rack there are 16 slots for front cards and 16 corresponding slots for rear cards The cards occupy one slot The front cards are called Switch Patch Cards SwITCH PATCH CARDS Switch patch cards provide A B switching with optional patching capabilities Switch patch cards are available for use with RS 232 V 35 RS 530 RJ 11 RJ 45 and DB15 interfaces Each switch patch card occupies one slot Controls A B switch cards have a toggle switch with two settings A and B To change the switch to the A position move the toggle switch toward the A setting To change the switch to the B position move the toggle switch toward the B setting LEDs Switch patch cards have some or all of the following LEDs e Switch position green Pro Switching System cards where appropriate indicate switch position For example A B switch cards indicate if the line is currently switched to the A or B position PRO SWITCHING SYSTEM e Signals red Some Pro Switching System cards include LEDs that indicate the current status of signals For example RS 232 cards with LEDs indicate the status of TD RD RTS CTS DSR DCD DTR and RI e ALM red When flashing indicates that the line passing through this card is generating an alarm condition MON green Wh
129. orera Group Merine Gina iinet Lini Ta Fo Dual Antich Tu fi B E D CLEAR E LET 1 EXT Figure 6 13 Default Switch Screen 2 In the Definition Name box enter the name of a new definition or click on the arrow and choose a name from the display list of definitions already created 3 In the Notes box optional enter any information that may be helpful to you 4 In the Group box click on the arrow and choose a group to which you will assign default switches for its members If no groups are listed you must first create a group by selecting Pro Switching System then Definitions then Groups from the main menu See the Group section on the previous two pages of this chapter for step by step procedures 5 In the Currently Defined Group Member box select highlight one or several members by clicking on them Click on them again to unselect In the Switch To box click on A B C or D to define the switch positions of the selected members Repeat this step until all members have been selected and assigned default switches CHAPTER 6 Operation 6 Click on SAVE to save your definition CLEAR to clear the display DELETE to delete the definition EXIT to exit the screen NOTE Clicking on SAVE only stores your changes to the program s temporary memory To fully save your changes to the map file remember to select File then Save As from the main menu before exiting HP OpenView To Cr
130. orts The reports list information programmed by the operator into the system database The reports are displayed in Notepad format and can be printed out from the Notepad program To Define and Display a Report 1 From the main menu select Pro Switching System then Network then Report The Report Generator screen appears Pro Switching System Report Generation Gray e Hark Line CHICAGO T TOES Congestion Health Chocks O Standard Alem T Com Paria T System Al Bae Seam Triggered Exeching T Like Bor caeno D Berths Skee eles Alam Boxes Delia Swiichit T Countess Teminala Bea Hua T Uer D a FMelude Notepads CLEAR REPORT EXIT Figure 6 30 Report Generator Screen PRO SWITCHING SYSTEM 2 Click on a selection from the Group box to limit the report to the previously defined group Site box to generate the report on all racks on the site Rack box to limit the report to a specific rack Line box to limit the report to a single line 3 In the Definitions box leave these items unchecked The Pro Switching System currently does not use them 4 In the Configuration Health Checks and Include Notepads boxes click on the desired items of information to include on the report 5 Click on CLEAR to reset your selections to blanks REPORT to generate the report The report is displayed in Notepad format and can be printed out EXIT to exit the screen 6 5 5 SYSTEM MENU System Operator Sign On Co
131. ower Supply Fan and System Status CHAPTER 2 Introduction Refer to Chapter 4 Components for a full description of control card switches and LEDs Figure 2 6 Control Card Switches and Indicators 2 3 System Management Features 2 3 1 HP OPENVIEW WINDOWS GRAPHIC INTERFACE Pro Switching System software running on a PC under HP OpenView for Windows mediates System Management OpenView is an open software product allowing you to manage devices from different vendors It allows you to create a map of the network using a supplied set of icons A color code indicates the status of each device in the network The Pro Switching System network management can control up to 256 sites each comprising up to 256 interconnected racks You interact with the system via the map icons and a series of subordinate screen displays PRO SWITCHING SYSTEM The displays include realistic front and rear views of the rack mount and the line cards They show the current switched state of all lines and the status of monitored leads The screen displays functional switch buttons If you click on a displayed button the equivalent hardware operation occurs at the site For example if you click on gang switch button A a gang switch to A operation occurs at the rack as long as the key switch is in the ENABLE unlocked position The software also displays LEDs in real time In other words when an LED lights at a rack it als
132. p Test Button All LEDs should light To replace a card unscrew the mounting screws Slide the card out of the rack and install a replacement WARNING Turn power off before disconnecting cables You might get shocked if you don t NOTE You don t need to disconnect the DTE DCE cables from the rear of the rack while replacing a front inserted card Disconnect the power while changing cards Removing power does not affect or change the switched position CAUTION Electrostatic Discharge ESD Cards are ESD sensitive To prevent ESD damage always wear grounding wrist straps when touching removing or inserting cards Store and transport cards in sealed static shielding containers 8 Troubleshooting 8 1 Power Problems Problem The Pro Switching System does not power on The cooling fans do not rotate or when you press the LAMP TEST button no LEDs on the System light Solution 1 Make sure the power supply module is fully inserted into the rack mount Solution 2 Make sure the AC power cord is properly connected to the rack mount and that the power cord is plugged into an AC power source Solution 3 Make sure the line fuse is good 8 2 Control Card Problems Problem The LINK ON LED does not light Solution 1 Make sure that the control card is fully inserted into the rack mount Solution 2 Make sure that the power supply modules are functioning properly Solution 3 Make sure that DS5 the configurat
133. ption with the Pro Switching System To edit a selected object select Edit then Describe or Monitor then Describe from the main menu Delete Submap You can t use this menu option with the Pro Switching System To edit a selected object select Edit Describe or Monitor Describe from the main menu 6 4 4 EDIT MENU The Edit menu has the following selections Add e Cut Copy e Paste Delete Describe New Submap e Rename Submap Clear Submap Delete Submap PRO SWITCHING SYSTEM e Set Background Image e Clear Background Image e Set Home Submap Display Add Toolbox To display the Add Toolbox from where you can add icons drawing objects and text to your map select Edit from the main menu then Add The Add Toolbox appears Cut Copy Paste Delete Follow these procedures to edit objects and text 1 Select the object or text which you are editing 2 From the main menu select Edit then Cut Copy Paste or Delete The selected editing is performed Describe Follow this procedure to display the description screen for the selected object On the description screen you can edit or add information about the selected object You can also describe an object by selecting Monitor then Describe from the main menu 1 Click on the object to select it 2 From the main menu select Edit then Describe The Description screen for that object appears 3 Edit or add the appropriate informatio
134. r any information that may be helpful to you CHAPTER 6 Operation 4 Click on GO to execute the switching EXIT to exit the screen Scheduled Switching Follow this procedure to enable or disable scheduled switching operations To Perform Scheduled Switching Operations 1 From the main menu select Pro Switching System then Operations then Scheduled Switching The Scheduled Switching Operations screen appears Pro Switching System Scheduled Switching Operation Grem Gram Male s Swiching Definition Sweching Definition Notes SABLE ENABLE ET Figure 6 21 Scheduled Switching Screen 2 In the Group box click on the arrow and choose a name from the display list of switch groups previously created 3 In the Switching Definition box click on the arrow and choose a name from the display list of scheduled switching definitions previously created 4 In the Notes boxes optional enter any information that may be helpful to you PRO SWITCHING SYSTEM 5 Click on ENABLE to begin scheduled switching operations the selected scheduled switching definition will be applied to the selected switch group DISABLE to end scheduled switching operations EXIT to exit the screen NOTE You can also select Scheduled Switching operations from the Line Status screen Refer to Section 6 5 7 Standard Alarms Perform this procedure to enable or disable Standard Alar
135. r more information on the variable see its listing presented earlier in the chapter PRO SWITCHING SYSTEM lineInterfaceType Description Parameters Variable lineSwitchedPortChange lineSwitchedPort Description Parameters Variable rackIpRequester Description Parameters Variable The interface type of the line card for example RS 232 none 0 rs232 1 rs530 2 V35 3 x21 4 isdn 5 V24 6 1 3 6 1 4 1 509 1 5 1 2 lineCardIndex where lineCardIndex is the slot number 1 through 16 occupied by the line card 7 This trap is generated when the switch position for a line card is changed The trap returns information on the lineSwitchedPort and rackIpRequester variables as listed below For more information on the variables see their listings presented earlier in the chapter The port switched to for example port A A 1 B 2 C 3 D 4 normal 5 1 3 6 1 4 1 509 1 5 1 4 lineCardIndex where lineCardIndex is the slot number 1 through 16 occupied by the line card The IP address of the remote entity that last requested a switch The null value is returned if this is a local manual switch IP address 1 3 6 1 4 1 509 1 1 14 0 where 0 indicates that the variable is not part of a table APPENDIX D Proprietary MIB linePatchingChange 8 This trap is generated when a patch cable is plugged or unplugged The trap returns information on the linePat
136. r of the rack 2 Connect the power cords For each power supply connect one end of a power cord to the power connector at the rear of the rack Connect the other end of the power cord to a power source The rack automatically powers up as soon as you connect the power cords 3 Test the LEDs by pressing the LAMP TEST button on the front of the control card All LEDs in the rack should light 5 1 4 ENTER IP ADDRESS INTO RACK By entering an IP address into the rack the network manager can access the rack remotely and configure it for SNMP management after the rack has been installed NOTE You MUST enter an IP address into the rack in order to access it remotely PRO SWITCHING SYSTEM To Enter the IP Address into the Rack 1 Connect a VI100 terminal to the AUX port located at the rear of the unit Use a null modem type cable or equivalent Refer to Table 5 5 Table 5 5 AUX Port Pin Assignments HE Signal c o 100 20 nNnm Chassis GND TXD RXD RTS CTS NOT USED Signal GND NOT USED NOT USED 2 Set the communication settings of the VI 100 terminal Refer to Table 5 6 Table 5 6 VT100 Terminal Communication Settings Bits per second Data bits Parity Stop bits 3 Assign an IP address to the Pro Switching System by entering the following into the terminal S ET RACK n IP ADDRI where ESS a b c d n is the rack address set by the user via DIP switch gro
137. rd coordinates all rack functions communicates with other racks and communicates with the management PC Before installing the control card you must configure its battery jumper and DIP switches DS7 DS6 DS5 DS4 DS3 AMA AT WDR foma D0000 Figure 5 1 Control Card CAUTION Cards are electrostatic discharge ESD sensitive To prevent ESD damage always wear grounding wrist straps when touching removing or inserting cards Store and transport cards in sealed static shielding bags NOTE Before installing the control card the battery must be enabled Configuring the Battery Jumper 1 Locate the battery jumper pins located above the battery and labeled JP1 on the control card The control card normally ships with the battery disabled its jumper rests on only one of the pins disabling the battery during storage and transportation CHAPTER 5 Installation 2 To activate the battery connect the pins for a two pin group by placing the jumper across both pins For a three pin group connect jumper cap across the two pins labeled ON NOTE To disable the battery on the control card for a two pin jumper group disconnect the jumper cap across both pins so they rest on only one pin For a three pin jumper group connect the jumper cap across two pins labeled OFF Settin
138. rform individual line card switching Perform gang switching e Perform customized gang switching Clear the monitor bus Reset the rack Display the line card status screen To Display the Rack Status Screen 1 Go to or display the submap containing the Pro Switching System icon s 2 Double click on a specific Pro Switching System rack icon A real time front view of the rack appears Figure 6 34 Black Box Pro Switching System CHICAGO Rack 1 status Pram sep 17 Thee MOM Ti Cirat Monti Bus Cibgltal 1 Digit 2 Amalen Figure 6 34 Rack Status Screen 3 To view the rear of the unit click on the BACK button PRO SWITCHING SYSTEM To Perform Individual Line Card Switching 1 Click on the letter box located at the bottom of the line card The line card switches to the next available position 2 Repeat step 1 until the desired switch position is set NOTE Switching may take several seconds to occur depending upon your polling frequency settings To Perform Gang Switching Click on one of the gang switch buttons N A B C or D located on the upper portion of the control card All applicable line cards switch to the gang switch position For the N gang switch button see the Customized Gang Switching section below NOTE Switching may take several seconds to occur depending upon your polling frequency settings Customized Gang Switching To Define the Normal Switc
139. riables for alarm triggered operation 1 and make this row active Operation Set Variable 1 3 6 1 4 1 509 1 8 1 7 1 Set Value createAndGo 4 The following variables allow you to perform time triggered switching operations for your unit In general all variables having a common time TrigOpIndex which you select are part of the same time triggered operation timeTrigOpTime Description Time of the switching operation You can SET and GET the value of this variable PRO SWITCHING SYSTEM Parameters MIB Path Variable Example timeTrigOpFreq Description Parameters MIB Path Day MON TUE WED THU FRI SAT SUN Time 00 00 to 23 59 1 3 6 1 4 1 509 1 9 1 2 iso 1 org 3 dod 6 internet 1 private 4 ent erprises 1 Hadax 509 IntelliSwitch2000 1 timeTrigOpTable 9 time TrigOpEntry 1 timeTrigOpTime 2 1 3 6 1 4 1 509 1 9 1 2 timeTrigOpIndex where timeTrigOpIndex is a number from 1 to 32 of a time triggered switching operation to which the time entry is assigned Set the switching time of time triggered operation 4 to Tuesday at 5 pm 17 00 Operation Set Variable 1 3 6 1 4 1 509 1 9 1 2 4 Set Value TUE 17 00 Indicates how often the switching operation shall be performed Note that operations set to once 1 one time switching are automatically destroyed when they have been executed You can SET and GET the value of this variable never 0 once 1 ever
140. ro Switching System unit icon Click and drag the icon onto the submap A Rack Description page appears 8 Describe Racks On the Rack Description page enter the rack name IP address and other appropriate information Click on Add to Network when finished Repeat Steps 6 and 7 to add more rack icons to your submap 6 4 HP OpenView Operation The HP OpenView Operations section describes the the main menu selections File Edit View Monitor Control Options Windows and Help that are common to most HP OpenView applications Two of the main menu selections Pro Switching System and System are not described here since they are exclusive to the Pro Switching System They are described in a separate section NOTE For more help on HP OpenView operations not described in this manual refer to the HP OpenView user s manual or refer to the HP OpenView program and select Help HP OpenView Index from the main menu PRO SWITCHING SYSTEM 6 4 1 1 HP OPENVIEW Copyright Hewlett Packard Company 1988 97 All Rights Reserved Figure 6 1 HP OpenView Screen STARTING HP OPENVIEW From your Windows 95 desktop select Start Programs HPOpenView and choose the HP OpenView icon HP OpenView starts up and automatically runs the SNMP application If a login screen appears enter the correct user ID and password If this is your first session or you have not changed the default user ID and password settings enter th
141. s Functions Three and four cavity patching A D switching e Single line gang and group switching User defined alarms Alarm and time triggered switching Remote status monitoring for testing faulty lines Break to DTE or DCE for remote test access e Non intrusive bridging for monitoring Hardware e Intermixing of switching and patching cards within the same rack e Digital and analog monitoring buses e Switching performed via latching relays Redundant power units with separate power feeds Dimensions 19 48 3 cm wide 8 75 22 2 cm high 13 25 33 7 cm deep PRO SWITCHING SYSTEM Control Software e SNMP PC HP OpenView Windows ASCII character strings Async terminal menus Central control of remote test equipment Provides database including network performance evaluation The rest of this chapter describes the features of the Pro Switching System in more detail It also provides sample applications at the end of the chapter Read this chapter for a more comprehensive understanding of the system 2 1 System Architecture The System architecture of the Pro Switching System has three levels line level rack level and site level At the Line level data lines pass through line cards Rear Card Front Card 311488 EPS EOM E gt gt fl pz E Lr 3 Figure 2 1 Line Level CHAPTER 2 Introduction The line level has the following capabilitie
142. s e A B switching e Two three and four cavity patching Refer to Chapter 3 Functions for descriptions At the Rack level the line cards are mounted in racks Each rack has its own microprocessor based control card The rack level has line bridging and breaking via monitoring bus Refer to Chapter 3 Functions for descriptions SCA T sas as 222 e e e e e RSD PE S E Seo aoe Leci e e rc e e ie le le le le 1 ee ej el e Figure 2 2 Fully Loaded Rack At the Site level each rack control card communicates with a system manage
143. s must continue in that state to trigger an alarm Note that a D Disable setting will not display when the screen is recalled 6 Click on SAVE to save your definition PRO SWITCHING SYSTEM CLEAR to clear your selections DELETE to delete the entire definition EXIT to exit the screen NOTE Clicking on SAVE only stores your changes to the program s temporary memory To fully save your changes to the map file remember to select File then Save As from the main menu before exiting HP OpenView Alarm Triggered Switching Perform this procedure to create or modify alarm triggered switching definitions Setting up alarm triggered switching and automatic fallback involves two definitions Groups and Alarm Triggered Switching and one operation Alarm Triggered Switching To Create or Modify Alarm Triggered Switching Definitions 1 From the main menu select Pro Switching System then Definitions then Alarm Triggered Switching The Alarm Triggered Switching Definition screen appears see Figure 6 16 CHAPTER 6 Operation larem Dedo Migr Notes Wersion A Beg 292 R amp 530 VON Wereion f E232 gt Rh LE Alam Triggered Ewetching Criteria T Cait s m HD ATS CTS 05A DCO OTA TC RC EC SoD O S ss EE E Oeeation Aeetore Redundant Line Gaiters Preece asch Ia ATS T amp DSA DCO OTA Al y IB BHIBIBIRIR eeation O Dleable M Mark S Space N Ma dete Ake n Time Curation im Sememds
144. sea operado Las instrucciones de seguridad y operaci n deber n ser guardadas para referencia futura Todas las advertencias en el aparato el ctrico y en sus instrucciones de operaci n deben ser respetadas Todas las instrucciones de operaci n y uso deben ser seguidas El aparato el ctrico no deber ser usado cerca del agua por ejemplo cerca de la tina de bano lavabo s tano mojado o cerca de una alberca etc El aparato el ctrico debe ser usado nicamente con carritos o pedestales que sean recomendados por el fabricante El aparato el ctrico debe ser montado a la pared o al techo s lo como sea recomendado por el fabricante Servicio El usuario no debe intentar dar servicio al equipo el ctrico m s all a lo descrito en las instrucciones de operaci n Todo otro servicio deber ser referido a personal de servicio calificado El aparato el ctrico debe ser situado de tal manera que su posici n no interfiera su uso La colocaci n del aparato el ctrico sobre una cama sof alfombra o superficie similar puede bloquea la ventilaci n no se debe colocar en libreros o gabinetes que impidan el flujo de aire por los orificios de ventilaci n El equipo el ctrico deber ser situado fuera del alcance de fuentes de calor como radiadores registros de calor estufas u otros aparatos incluyendo amplificadores que producen calor El aparato el ctrico deber ser connectado a una fuente d
145. select Pro Switching System then GoTo then Site The Site Selection screen appears PRO SWITCHING SYSTEM Pro Switching System Site Selection f Site fe ete EXT Figure 6 25 Site Selection Screen 2 Select the site that you wish to display 3 Glick on GOTO to display the site submap EXIT to exit the screen Rack Perform this procedure to display the Rack Status screen for a particular rack To Go To a Rack 1 From the main menu select Pro Switching System then GoTo then Rack The Rack Selection screen appears CHAPTER 6 Operation Pro Switching System Rack Selection Site Hark CHAO 000 Aad 1 001 Hack 2 002 Hack 3 003 Flack 4 004 Hack 6 006 Hack f HACE FIND Figure 6 26 GoTo Rack Screen 2 Using the Site and Rack boxes select the rack that you wish to display To find a rack among a list of names use FIND 3 Click on GOTO to display the Rack Status screen EXIT to exit the screen Line Follow this procedure to display the Line Status screen for a particular line To Go To a Line 1 From the main menu select Pro Switching System then GoTo then Line The Line Selection screen Figure 6 27 appears PRO SWITCHING SYSTEM Bite Hack Line 000 Hack 1 004 01 001 Hack 2 004 02 002 Hark 3 004 03 003 Hack 4 004 04 004 06 006 Aack b 004 06 004 07 004 08 004 09 004 10 004 11 00413 00d 14 00415 004 16 LIME FIND EDT EXIT
146. selecting the floppy drive A B etc A 1 4 MB diskette will hold a good sized map You can also make a backup copy on the hard drive by using the Save As command and giving the backup copy a separate name Delete Unneeded Map Files If you save maps that you subsequently abandon the unused files remain in the CAOV directory To save disk space you may want to delete the unneeded map files To do so use the DOS Del command and delete all files beginning with the map name The map name is provided by a file ending in OVM CAUTION Do not delete unneeded map files using the DOS Del command while running OpenView Delete Unneeded Temp Files Periodically delete all OpenView Temp files in the Temp directory This directory is defined by the Temp directive in the AUTOEXEC BAT file for example SET TEMP CATEMP PRO SWITCHING SYSTEM CAUTION Do not delete unneeded temp files while running OpenView Alarm and System Event ASCH Files The system saves the alarm log in Paradox database files OVALINS in the OV directory To save disk space between OpenView sessions erase old alarm log files that will not be used 6 3 Creating a System Map The first step in managing your Pro Switching System is to create a system map You can set up the system via screens and prompts The basic concepts are described in detail in the HP OpenView User s Guide A systematic and convenient way to set up a database and map is to begin wi
147. signed Enter a comment for alarm index 2 Operation Set Variable 1 3 6 1 4 1 509 1 7 1 11 2 Set Value Alarm for DCD to mark Selections for managing rows in the alarms definition A row is an entry or group of variables Each row is identified by its index sigAlarmIndex and contains entries for determining alarm conditions You can activate or inactivate your alarm definitions using this variable You can SET and GET the value of this variable active 1 activate the row notInService 2 inactivate the row notReady 3 inactivate the row createAndGo 4 process the row and activate createAndWait 5 process the row but remain inactive destroy 6 delete the row 1 3 6 1 4 1 509 1 7 1 12 iso 1 org 3 dod 6 internet 1 private 4 ent erprises 1 Hadax 509 IntelliSwitch2000 1 sigAlarmTable 7 sigAlar mEntry 1 sigAlarmRowsStatus 12 1 3 6 1 4 1 509 1 7 1 12 sigAlarmIndex where sigAlarmIndex is a number from 1 to 32 of an alarm definition to which the row is assigned APPENDIX D Proprietary MIB Example Process all variables for sigAlarmIndex 1 and make this row active That is process and activate the alarm definition sigAlarmIndex 1 Operation Set Variable 1 3 6 1 4 1 509 1 7 1 12 1 Set Value createAndGo 4 D 9 Alarm Triggered Operations The following variables allow you to define and perform alarm triggered switching operations for your unit In general all variables havin
148. ssion Default value ON SET RACK n SNMP WRITE COMMUNITY NAME name Define the SNMP community name to be accepted for SNMP SET requests Default value private SET RACK n SUBNET MASK x X X X Define the rack subnet mask Default value 0 0 0 0 SET RACK n TELNET IDLE TIMEOUT x Define the number of consecutive idle minutes that is no character received after which a Telnet session will be disconnected Default value 60 PRO SWITCHING SYSTEM Enter In order to SET RACK n TELNET PASSWORD password NONE Define the login password for incoming Telnet sessions You will not be prompted for a password if TELNET PASSWORD is set to NONE Default value NONE SET RACK n TELNET SECURITY TRAPS x Define the number of consecutive erroneous login passwords received after which a telnetBadPassword trap will be sent Default value 3 SET RACK n TIME MM DD YY DDD HH MM Set the time and date for rack n To Reset Rack Enter In order to RE n ET RACK n Reset the specified rack n and apply any changed settings To Display Rack Settings Enter In order to GET RACK n CARDS Display information about the line cards in rack n GET RACK n DEFAULT ROUTER Display the IP address of the default router for rack n CHAPTER 5 Installation Enter In order to GET RACK n DIPSW Display th
149. ssword can have any value between 0 and 255 However each rack at a site must have the same password 1 Locate the DIP switch sets labeled DS3 on the control card 2 Use Table 5 4 to set the DS3 DIP switches The table shows the switch settings for each password Installing the Control Card 1 Insert the control card into the rightmost slot of the rack 2 Secure the card in the rack by tightening the screws CHAPTER 5 Installation 5 1 3 INSTALLING RACK COMPONENTS A rack has 16 slots for front cards 16 slots for rear cards one slot for the control card and two slots for power supplies To operate a rack must include a control card and at least one power supply If you want power redundancy power backup the rack must include two power supplies Front and Rear Cards In each rack you can install front and rear cards for switching patching To Install Switch Patch Cards 1 Insert the front cards and tighten the screws You need not fill all slots in a rack or fill slots in any particular order 2 Insert the corresponding rear cards and tighten the screws To Install the Power Supplies Insert the power supplies into the power supply slots located on the front right side of the rack If you are only installing one power supply you can insert it into either slot To Power Up and Test the LEDs 1 Connect the chassis ground stud to ground The ground stud is located just below the power cord connectors on the rea
150. submap select Edit then Set Home Submap from the main menu Previous Submap Follow this procedure to display the previous submap you were viewing From the main menu select Window Previous Submap The previous submap appears Locate Submap Follow this procedure to locate and display a submap for editing 1 From the main menu select Window then Locate Submap The Locate Submap screen appears 2 Choose the target submap 3 Click OK to locate The submap is displayed Locate Object Follow this procedure to display the submap containing the device icon which you are locating 1 From the main menu select Window then Locate Object The Locate Object screen appears 2 Choose the target device 3 Click OK to locate The submap with the device icon is displayed 6 4 10 HELP MENU The Help menu displays the following selections HP OpenView Index About HP OpenView Index Follow this procedure to obtain help information on HP OpenView CHAPTER 6 Operation 1 From the main menu select Help then HP OpenView Index The HP OpenView Index appear 2 Use the menus and keywords to search for the desired information About Follow this procedure to view the version number release date and copyright information for HP OpenView for Windows and application software From the main menu select Help then HP About The About screen appears 6 5 Switch Operation The Operations section describes two HP OpenV
151. t Group Notes Apply redonda telern criteria bx Debe kigger BS teegel s HS under SMMPY Trsgger Hack Trigger Line DARLE ENABLE EWIT Figure 6 23 Alarm Triggered Switching Screen In the ATS Alarm Triggered Switching Definition box click on the arrow and choose a name from the display list of alarm definitions previously created In the Target Group box click on the arrow and choose a name from the display list of switch groups previously created In the Notes boxes optional enter any information that may be helpful to you In the Trigger Rack box click on a rack to narrow your selection to a particular rack In the Trigger Line box click on a line to narrow your selection to a particular line Click on ENABLE to begin Alarm Triggered Switching Operations the selected alarm definition will be applied to the selected switch group CHAPTER 6 Operation DISABLE to end Alarm Triggered Switching operations EXIT to exit the screen NOTE You can also select Alarm Triggered Switching operations from the Line Status screen Refer to Section 6 5 7 GoTo Pro Switching System Definitions Operations NEUNEND cie Network Rack Line Figure 6 24 GoTo Selection Box The GoTo selection has the following sub selections e Site e Rack Line Site Follow this procedure to display the submap for a particular site To GoTo a Site 1 From the main menu
152. t Object List Print Setup Load Selection List Save Selection List As Exit Figure 6 4 File Menu Opening a New Map File Follow this procedure to create a new empty map onto which you may place icons to visually organize your system 1 From the main menu select File then New The Login screen appears see Figure 6 5 2 Enter the User ID default blackbox 3 Enter the Password default blackbox 4 Click on OK to open the new map file PRO SWITCHING SYSTEM Tk do ae peter Cart n oes Sup a o on perm daba coro Us coca io cuan LE Led eor dta kiep Meme CAOVILUNTITLETE User E blackbox Paame CLEAR DE Figure 6 5 Login Screen Opening an Existing Map File Follow this procedure to open a previously saved map file 1 From the main menu select File Open The Open screen appears see Figure 6 6 Lid de of ppa Drone aps Filz i remi fare Figure 6 6 Open Screen CHAPTER 6 Operation 2 Locate and select the appropriate file 3 Click on OK to open the file New Submap You can t use this menu option with the Pro Switching System To edit a selected object select Edit then Describe or Monitor then Describe from the main menu Rename Submap You can t use this menu option with the Pro Switching System To edit a selected object select Edit then Describe or Monitor then Describe from the main menu Clear Submap You can t use this menu o
153. tch to their normal ports You can SET and GET the value of this variable none 0 A 1 B 2 C 3 D 4 1 3 6 1 4 1 509 1 5 1 5 iso 1 org 3 dod 6 internet 1 private 4 ent erprises 1 Hadax 509 IntelliSwitch2000 1 lineCardTable 5 lineCar dEntry 1 lineNormalPort 5 PRO SWITCHING SYSTEM Variable Example lineSwitchedPort2 Description Parameters MIB Path Variable Example lineNormalPort2 Description 1 3 6 1 4 1 509 1 5 1 5 lineCardIndex where lineCardIndex is the slot number 1 through 16 occupied by the line card Define port D as the normal port for line card 6 Operation Set Variable 1 3 6 1 4 1 509 1 5 1 5 6 Set Value D 4 The port switched to for the second switch You can SET and GET the value of this variable none 0 A 1 B 2 normal 5 1 3 6 1 4 1 509 1 5 1 6 iso 1 org 3 dod 6 internet 1 private 4 ent erprises 1 Hadax 509 IntelliSwitch2000 1 lineCardTable 5 lineCar dEntry 1 lineSwitchedPort2 6 1 3 6 1 4 1 509 1 5 1 6 lineCardIndex where lineCardIndex is the slot number 1 through 16 occupied by the line card Switch line card 4 to port A for the second switch Operation Set Variable 1 3 6 1 4 1 509 1 5 1 6 4 Set Value A 1 The port defined as the normal port for the second switch This allows you to customize your switch settings for several line cards For example you can define the normal port for each line car
154. te The Management PC can communicate with up to 256 Pro Switching System sites This communication can be routed through the communication ports of the CHAPTER 2 Introduction PC or through up to 64 auxiliary communication ports mounted on intelligent serial multi port units The connections between the PC and the rack can be of two types 1 Dedicated line between the PC and a site The site is always online with the PC hardwired 2 Dialup modem connection between the PC and a site see Figure 2 8 The connection is established when needed You can program communication ports from the PC to be either dedicated ports or dialup modem ports a ON LINE R TELCO MODEM 1 r RS 232 RS 232 RS 232 ANALOG Figure 2 8 Dialup Connection 2 4 2 DIALOG WITH DIALUP SITES Normally all dialup sites are off line You initiate the dialing of the site s telephone number when you execute a command that requires communications with a rack on a dialup site When the connection is established the remote site comes online and polling starts From the moment you make the connection you can send commands to the racks on that site and receive status data from the racks PRO SWITCHING SYSTEM If an alarm is generated or restored to normal in a rack at a dialup site and the site is off line the dialup site dials the central PC When the connection is established the dialup site comes online The PC responds to the conne
155. ter The port switched to for example port A A 1 B 2 C 3 D 4 normal 5 1 3 6 1 4 1 509 1 5 1 4 lineCardIndex where lineCardIndex is the slot number 1 through 16 occupied by the line card User comment for each bus triggered switching operation Up to 31 characters 1 3 6 1 4 1 509 1 10 1 5 busTrigOpIndex where busTrigOpIndex is a number from 1 to 32 ofa bus triggered switching operation to which the user comment is assigned 12 This trap is generated when a card was unable to switch to the port value in the lineSwitchedPort variable The trap returns information on the lineSwitchedPort variable as listed below For more information on the variable see its listing presented earlier in the chapter The port switched to for example port A A 1 B 2 C 3 D 4 normal 5 PRO SWITCHING SYSTEM Variable snmpBadCommunity rackIpRequester Description Parameters Variable telnetLogin rackIpRequester Description Parameters Variable 1 3 6 1 4 1 509 1 5 1 4 lineCardIndex where lineCardIndex is the slot number 1 through 16 occupied by the line card 13 This trap is generated when an excessive number of incorrectSNMP community names are received from the rackIpRequester variable The trap returns information on the rackIpRequester variable as listed below For more information on the variable see its listing presented earlier in the
156. th Variable Example lineBreakCapability Description Parameters Display whether or not line card 7 has patching capabilities if so whether or not a patch cable is inserted Operation Get Variable 1 3 6 1 4 1 509 1 5 1 8 7 Indicates whether or not the line card has bridging capability You can only GET the value of this variable no 0 the line card does not have bridging capability yes 1 the line card has bridging capability 1 3 6 1 4 1 509 1 5 1 9 iso 1 org 3 dod 6 internet 1 private 4 ent erprises 1 Hadax 509 IntelliSwitch2000 1 lineCardTable 5 lineCar dEntry 1 lineBridgeCapability 9 1 3 6 1 4 1 509 1 5 1 9 lineCardIndex where lineCardIndex is the slot number 1 through 16 occupied by the line card Display whether or not line card 2 has bridging capability Operation Get Variable 1 3 6 1 4 1 509 1 5 1 9 2 Indicates whether or not the line card has breaking capability You can only GET the value of this variable no 0 the line card does not have breaking capability yes 1 the line card has breaking capability APPENDIX D Proprietary MIB MIB Path 1 3 6 1 4 1 509 1 5 1 10 iso 1 org 3 dod 6 internet 1 private 4 ent erprises 1 Hadax 509 IntelliSwitch2000 1 lineCardTable 5 lineCar dEntry 1 lineBreakCapability 10 Variable 1 3 6 1 4 1 509 1 5 1 10 lineCardIndex where lineCardIndex is the slot number 1 through 16 occupied by the line card E
157. th basic System menu items Then proceed to the Definition screens for this System data Notepads notepad fields labeled Notes accommodating up to 800 characters are provided for sites racks lines communication ports and all definitions and operations You can use these to record information about the network while you are creating the database and map To Create a System Map 1 Log on From the main menu choose System Operator Sign On which lets you log onto the Pro Switching System Enter the correct user ID and password 2 Open a new map From the main menu choose File New A new map appears 3 Name map From the main menu choose File Save As 4 Add Site Icons From the main menu choose Edit Add The Add toolbox appears Select Compound Object and Black Box from the dropdown lists to highlight the Black Box site icon Click and drag the icon onto the new empty map A Site Description page appears 5 Describe Sites On the Site Description page enter the site name and other appropriate information Click on Add to Network when finished Repeat steps 4 and 5 to add more site icons CHAPTER 6 Operation 6 Open level 2 Submap From your site level top level map double click on the Pro Switching System site icon This opens a submap that lets you add components to your site 7 Add Rack Icons From the Add toolbox select Component and Pro Switching System from the dropdown lists to highlight the P
158. that the lead must continue in that state to prevent switching to the redundant line 7 Click on SAVE to save your definition CLEAR to clear your selections DELETE to delete the entire definition EXIT to exit the screen NOTE Clicking on SAVE only stores your changes to the program s temporary memory To fully save your changes to the map file remember to select File then Save As from the main menu before exiting HP OpenView Monitor Bus Perform this procedure to define a Monitor Bus Group In the Monitor Bus Definition screen you configure the software to reflect the hardware situation That is when the monitor bus ports of specific racks are chained together you list these racks here Switching operations can then be performed simultaneously on the connected buses by using the group definition To Create or Modify Monitor Bus Definitions 1 From the main menu select Pro Switching System then Definitions then Monitor Bus The Monitor Bus Definition screen appears see Figure 6 17 CHAPTER 6 Operation Cn poe nhy e orl aie rl ur me Hacks Figure 6 17 Monitor Bus Screen 2 In the Definition Name box enter the name of a new definition or click on the arrow and choose a name from the display list of definitions already created 3 In the Notes box optional enter any information that may be helpful to you 4 Select the bus Digital 1 Digital 2 or Analog 5 In the Site box click
159. the MON B cavity it connects to the circuit between DTE B and the DCE The circuits are not broken You can monitor the signals When you insert a patch cord into the COMP cavity the circuit is broken and the cord is connected to the appropriate DTE You can test the connected DTE When you insert a patch cord into the MODEM cavity the circuit is broken and the cord is connected to the DCE You can test the DCE Four cavity patching is available for use with the following interfaces RS 232 V 35 and RS 530 3 2 Monitoring Bus The Pro Switching System has two monitoring buses a digital monitoring bus and an analog monitoring bus You can connect a monitoring bus to any line in the system allowing monitoring and testing equipment to access that line When a line is connected to the monitoring bus the corresponding card s MONITOR LED lights Figure 3 4 shows a monitoring bus Typically the DTE is connected to the DCE PRO SWITCHING SYSTEM You can connect the monitoring bus to a line in any of three configurations which correspond to the patching functions You can bridge break to DTE or break to DCE When you bridge a line the equipment is connected to the circuit between the DTE and the DCE The circuit is not broken and you can monitor the signals When you break to DTE the circuit is broken and the equipment is connected to the DTE You can test the DTE When you break to DCE the circuit is broken and the equipm
160. tion to which the line card is assigned Include line card 6 as part of your alarm definition for alarm index 1 Operation Set Variable 1 3 6 1 4 1 509 1 7 1 2 1 Set Value 6 The monitored port of the alarm definition You can SET and GET the value of this variable Ports A 1 B 2 C 3 D 4 and Common 5 1 3 6 1 4 1 509 1 7 1 3 iso 1 org 3 dod 6 internet 1 private 4 ent erprises 1 Hadax 509 IntelliSwitch2000 1 sigAlarmTable 7 sigAlar mEntry 1 sigAlarmPort 3 1 3 6 1 4 1 509 1 7 1 3 sigAlarmIndex where sigAlarmIndex is a number from 1 to 32 of an alarm definition to which the port is assigned Include port B as part of your alarm definition for alarm index 1 Operation Set Variable 1 3 6 1 4 1 509 1 7 1 3 1 Set Value B 2 APPENDIX D Proprietary MIB sigAlarmName Description Parameters MIB Path Variable Example sigAlarmCondition Description Parameters MIB Path The monitored signal of the alarm You can SET and GET the value of this variable txd 1 rxd 2 ded 3 cts 4 rts 5 dsr 6 dtr 7 ri 8 tc 9 rc 10 ec 11 sqd 12 11 13 1114 dce 15 dte 16 tm 17 ctr 18 ind 19 set 20 byt 21 1 3 6 1 4 1 509 1 7 1 4 iso 1 org 3 dod 6 internet 1 private 4 ent erprises 1 Hadax 509 IntelliSwitch2000 1 sigAlarmTable 7 sigAlar mEntry 1 sigAlarmName 4 1 3 6 1 4 1 509 1 7 1 4 sigAlarmIndex where sigAlarmIndex is
161. try 1 alarmTrigOpComment 6 1 3 6 1 4 1 509 1 8 1 6 alarmTrigOpIndex where alarmTrigOpIndex is a number from 1 to 32 of an alarm triggered operation to which the user comment is assigned Enter a user comment for alarm triggered switching operation 3 Operation Set Variable 1 3 6 1 4 1 509 1 8 1 6 3 Set Value Back up Toronto if CSU fails Selections for managing rows in the alarm triggered operations table A row is an entry or group of variables Each row is identified by its index alarm TrigOpIndex and contains entries for determining switching operations APPENDIX D Proprietary MIB Parameters MIB Path Variable Example D 10 Time Triggered Operations You can activate or inactivate your alarm triggered switching operations using this variable You can SET and GET the value of this variable active 1 activate the row notInService 2 inactivate the row notReady 3 inactivate the row createAndGo 4 process the row and activate createAndWait 5 process the row but remain inactive destroy 6 delete the row 1 3 6 1 4 1 509 1 8 1 7 iso 1 org 3 dod 6 internet 1 private 4 ent erprises 1 Hadax 509 IntelliSwitch2000 1 alarmTrigOpTable 8 alar mTrigOpEntry 1 alarmTrigOpRowsStatus 7 1 3 6 1 4 1 509 1 8 1 7 alarmTrigOpIndex where alarmTrigOpIndex is a number from 1 to 32 of an alarm triggered operation to which the row status is assigned Process all va
162. up DS4 and a b c dis the IP address Example S ET RACK 1 IP ADDRI ESS CHAPTER 5 Installation 192 19 211 10 NOTE Once you enter the IP address into the rack it is stored in battery backed up memory on the control card and will not be lost when you disconnect the power cord 5 2 Installing the Rack The on site installation consists of mounting the rack into a cabinet connecting the necessary cables and powering up the rack The network manager can further configure the rack from a remote management center via a Telnet session At each site you can install up to 256 racks For SNMP the racks may be connected to a terminal server using the 10BASE T connector located on the control card 5 2 1 MOUNTING THE RACK INTO THE CABINET 1 Carefully insert the rack into the cabinet 2 Secure the rack with screws at the rack sides 5 2 2 CONNECTING LINE CARD CABLES FOR SWITCH PATCH CARDS Connect the cables to the rear ports as appropriate for your application 5 2 3 CoNNECTING 10BASE T CABLE To control your rack via SNMP Telnet sessions you must connect the rack to your LAN using the 10BASE T connector RJ 45 located on the front of the control card 5 2 4 POWER UP AND LED TEST 1 Connect the chassis ground stud to ground The ground stud is located just below the power cord connectors on the rear of the rack 2 Connect the power cords For each power supply connect one end of a power cord to
163. xample Display whether or not line card 2 has breaking capability Operation Get Variable 1 3 6 1 4 1 509 1 5 1 10 2 lineFrontCardCode Description This is the internal hardware front card code of the line card You can only GET the value of this variable Parameters Integer from 0 to 255 MIB Path 1 3 6 1 4 1 509 1 5 1 11 iso 1 org 3 dod 6 internet 1 private 4 ent erprises 1 Hadax 509 IntelliSwitch2000 1 lineCardTable 5 lineCar dEntry 1 lineFrontCardCode 11 Variable 1 3 6 1 4 1 509 1 5 1 11 lineCardIndex where lineCardIndex is the slot number 1 through 16 occupied by the line card Example Display the internal hardware front card code of line card 2 Operation Get Variable 1 3 6 1 4 1 509 1 5 1 11 2 PRO SWITCHING SYSTEM lineRearCardCode Description Parameters MIB Path Variable Example lineComCode Description Parameters MIB Path Variable This is the internal hardware rear card code of the line card You can only GET the value of this variable Integer from 0 to 255 1 3 6 1 4 1 509 1 5 1 12 iso 1 org 3 dod 6 internet 1 private 4 ent erprises 1 Hadax 509 IntelliSwitch2000 1 lineCardTable 5 lineCar dEntry 1 lineRearCardCode 12 1 3 6 1 4 1 509 1 5 1 12 lineCardIndex where lineCardIndex is the slot number 1 through 16 occupied by the line card Display the internal hardware rear card code of line card 2 Operation Get V
164. y_week 2 every_day 3 1 3 6 1 4 1 509 1 9 1 3 iso 1 org 3 dod 6 internet 1 private 4 ent erprises 1 Hadax 509 IntelliSwitch2000 1 timeTrigOpTable 9 time TrigOpEntry 1 timeTrigOpFreq 3 APPENDIX D Proprietary MIB Variable 1 3 6 1 4 1 509 1 9 1 3 timeTrigOpIndex where timeTrigOpIndex is a number from 1 to 32 of a time triggered switching operation to which the switching frequency is assigned Example Set the switching frequency to daily for time triggered switching operation 5 Operation Set Variable 1 3 6 1 4 1 509 1 9 1 3 5 Set Value every day 3 timeTrigOpStart Description Time when an every_day operation is activated The every_day is set in the timeTrigOpFreq variable You can SET and GET the value of this variable Parameters Day MON TUE WED THU FRI SAT SUN ignored Time 00 00 to 23 59 MIB Path 1 3 6 1 4 1 509 1 9 1 4 iso 1 org 3 dod 6 internet 1 private 4 enterprises 1 Hadax 509 IntelliSwitch2000 1 timeTrigOpTable 9 timeTrigOpEntry 1 timeTrigOpStart 4 Variable 1 3 6 1 4 1 509 1 9 1 4 timeTrigOpIndex where timeTrigOpIndex is a number from 1 to 32 of a time triggered switching operation to which the start time is assigned Example Set the start time of the every day operation to 8 am for time triggered switching operation l Operation Set Variable 1 3 6 1 4 1 509 1 9 1 4 1 Set Value MON 08 00 PRO SWITCHING SYS
Download Pdf Manuals
Related Search