SS7G3x SWS Mode User Manual
Contents
1. cccccec cece e eee ee ee eee kk 61 6 9 12 CNOBP Display TRAP Configuration cccceeeeeee cence ee eee kk kk kak ka 61 6 9 13 CNOBS Set TRAP Configuration cece eee cece eee kk eee aka kk ka 62 6 9 14 CNPCP Configuration PCM Print cc ccee eect kk eaten 63 6 9 15 CNRDI Configuration Restore Defaults Initiate eee eect eee ene 63 6 9 16 CNSLP Configuration SS7 Link Print cece eect ee ee eee ee ee k 64 6 9 17 CNSMC Change SNMP Manager Configuration cce cece eee eee e eee teeta eae 64 6 9 18 CNSME End SNMP Manager Configuration ccceceeee cette eens kk 65 6 9 19 CNSMI Set SNMP Manager Configuration c cceceeeeee eee e eee ee ee eee eaten eae 65 6 9 20 CNSMP Display SNMP Manager Configuration cceeeeeeeeeeeee eee ee tena eae 66 6 9 21 CNSNP Configuration SNMP Print ceceeee eee eee kk ee eee ene 66 6 9 22 CNSNS Configuration SNMP Set cece cece eee eee kk ee kak kk aka kaka 67 6 9 23 CNSRP Configuration SIGTRAN Route Print kk 67 6 9 24 CNSTP Configuration SIGTRAN Links Print c cece eee cece ee eee teeta teen eae 69 Dialogic DSI Signaling Servers SWS Mode User Manual Issue 3 6 9 25 CNSSP Configuration Subsystem Resource Print k h Wkkk eee ee eee e eee eee ees 69 6 9 26 CNSWP Configuration Software PTint cceceeceee eect eee ee eee e kk 70 6 9 27 CNSY2. 2 3 CHANGE CHANGE CHANGE CHANGE CHANGE CHANGE CHANGE 2 4 CHANGE CHANGE CHANGE CHANGE CHANGE CHANGE CHANGE 3 1 CHANGE CHANGE CHANGE CHANGE CHANGE CHANGE CHANGE 3 2 CHANGE CHANGE CHANGE CHANGE CHANGE CHANGE CHANGE 3 3 CHANGE CHANGE CHANGE CHANGE CHANGE CHANGE CHANGE 3 4 CHANGE CHANGE CHANGE CHANGE CHANGE CHANGE CHANGE 3 5 CHANGE CHANGE CHANGE CHANGE CHANGE CHANGE CHANGE 4 1 CHANGE CHANGE CHANGE CHANGE CHANGE CHANGE CHANGE 5 1 CHANGE CHANGE CHANGE CHANGE CHANGE CHANGE CHANGE 5 2 CHANGE CHANGE CHANGE CHANGE CHANGE CHANGE CHANGE 6 1 CHANGE CHANGE CHANGE CHANGE CHANGE CHANGE CHANGE 6 2 CHANGE CHANGE CHANGE CHANGE CHANGE CHANGE CHANGE 6 3 CHANGE CHANGE CHANGE CHANGE CHANGE CHANGE CHANGE 7 1 CHANGE CHANGE CHANGE CHANGE CHANGE CHANGE CHANGE 7 2 CHANGE CHANGE CHANGE CHANGE CHANGE CHANGE CHANGE 7 3 CHANGE CHANGE CHANGE CHANGE CHANGE CHANGE CHANGE EXECUTED 6 9 13 CNOBS Set TRAP Configuration Synopsis This command allows a user to determine the conditions under which an SNMP TRAP will be generated for a particular DSMI object Essentially a TRAP can be generated When any row within an object changes state CHANGE When a new row with a particular state is created within an object CREATE When a row with a particular state is destroyed within an object DESTROY When any combination of the above occur ALL or when an event occurs that affects the alarm condition of the object but does not necessarily change the state TRA
3. 73 Chapter 6 Management Interface Fordingbridge UNITED KINGDOM 0 00 Renningen GERMANY Jaooo New Delhi INDIA 5 30 Beijing CHINA 8 00 Sydney AUSTRALIA 10 00 The unit must be restarted in order for the new OFFSET value to take effect Attributes CONFIG The command affects configuration data Example CNTDS DATE 2001 10 03 TIME 18 32 21 NTP Y OFFSET 5 30 EXECUTED 6 9 31 CNTMP Configuration Trace Mask Print Synopsis This command is used to print the current trace masks and whether or not tracing is enabled Syntax CNTMP Prerequisites None Attributes None Example CNTMP Output Format lt CNTMP Trace Masks Configuration MODULE IMASK OMASK MMASK ACTIVE MTP 0x00030000 0x0003c001 0x0001fffe TCAP 0x00000003 0x00000003 0x00000000 N MAP 0x00000003 0x00000003 0x00000014 N SCCP 0x00000003 0x00000003 0x00000001 N M3UA 0x00000000 0x00000000 0x00000000 N EXECUTED Definitions of the trace mask parameters MASK OMASK and MMASK for a specific protocol are documented in the associated protocol Programmer s Manual 6 9 32 CNTMS Configuration Trace Mask Set Synopsis This command is used to activate or deactivate tracing of different protocols and to set the associated trace masks Configured values are maintained after system reset The IMASK OMASK and MMASK parameters determine which Input Output or Management messages are traced by the module Default
4. Bit 7 Routing indicator 0 Route on GT 1 Route on DPC and SSN Bits 6 3 Global title indicator the value in these bits indicates what data precedes address information in the global title so in the context of the SCCP_GTT_PATTERN statement which octets are expected in the lt global_title gt parameter Defined values are 0000 No Global title In this case the lt global_title gt parameter value should be 0 zero base10 without Ox prefix Global title includes TT Numbering Plan NP and Encoding Scheme ES The 0001 lt global_title gt parameter should be two hexadecimal octets prefix 0x followed by four hexadecimal digits the TT in the first octet the NP and ES four bits each in the second octet 0010 Global title includes Translation Type TT only The lt global_title gt parameter should be a single hexadecimal octet the octet value being the TT Other values are undefined spares or reserved Bit 2 PC Indicator A 1 indicates that Point Code is used in addressing Bit 1 SSN Indicator A 1 indicates that SubSystem Number is used in addressing e lt pc gt The point code This is ignored if bit 0 of lt addr_indicator gt is not set lt ssn gt The subsystem number This is ignored if bit 1 of lt addr_indicator gt is not set lt global_title gt The global title excluding the global title address information specified as a string of hexadecimal octets starti
5. SCCPCO TCAP MAP CNSYS LOCATION ICONTACT 1 CNSYS PASSWORD CONF IRM Prerequisites The following restrictions apply e A higher layer protocol might not be enabled if the lower layer it is dependant on is not enabled for example INAP might not be enabled if TCAP and SCCPCL or SCCPCO are not enabled A lower layer protocol might not be disabled if there is an enabled higher layer protocol dependant on it for example TCAP might not be disabled if MAP is enabled Attributes CONFIG The command affects configuration data Examples CNSYS MODE SIUB CNSYS MAP Y CNSYS LOCATION RACK3 CONTACT ADMIN MAIL COM Dialogic DSI Signaling Servers SWS Mode User Manual Issue 3 6 9 29 CNTDP Configuration Time and Date Print Synopsis This command is used to print out the system date and time whether NTP is active and to display the OFFSET from UTC configured See the CNTDS command for setting the time and date UTC OFFSET and activating NTP Syntax CNTDP Prerequisites None Attributes None Example CNTDP Configuration Time and Date DATE TIME NTP OFFSET 2001 10 03 09 04 02 Y 5 30 6 9 30 CNTDS Configuration Time and Date Set Synopsis This command is used to specify the date DATE and time TIME as used by the system This command can also activate or deactivate Network Time Protocol NTP on the system System time is used by the Signaling Server to indicate the ti
6. lt reserved gt Reserved for future use This parameter should be set to zero 8 6 8 MTP_ USER_ PART MTP User Part Synopsis The MTP_USER_PART command is used to inform the MTP that a user supplied user part exists on the host Syntax MTP_USER_PART lt nc_id gt lt si gt lt module_id gt Example MTP _USER_PART 0x0a 0x2d MTP _USER_PART NCO 0x0a 0x2d Parameters The MTP_USER_PART command includes the following parameters e lt nc_id gt SS7 Network Context The Network Context within which this service indicator to user part association is to apply Supported values are NCO NC1 NC2 or NC3 When the parameter is not present a value of NCO is assumed lt si gt The service indicator for the user supplied user part in the range 3 to 15 lt module_id gt The module ID of the user process that receives MTP transfer indications with the specified service indicator value 148 Dialogic DSI Signaling Servers SWS Mode User Manual Issue 3 8 6 9 MONI TOR_ LINK Monitor Link Synopsis The MONITOR_LINK command allows the user to configure a signaling resource e g blink to monitor signaling operating between two external Switches The type of interface being listened to is identified by the monitoring type Received signaling messages are passed directly to a user application without further processing Note Often applications that use MONITOR_LINK also require the line interfaces to operate in high impedance
7. 87 Chapter 6 Management Interface 88 Output Format MMHPP Alarm ALLIP Alarm List Print Reset RSBOI Restart Board Initiate Status STSLP Status Signaling Link Print STPCP Status PCM Print STBOP Status Board Print STRLP Status Remote SIU Link Print STHLP Status Host Link Print STCGP Status Circuit Group Print STIPP Status IP Print STEPP Status of Ethernet Port Print Etc EXECUTED mmhpp cmd cnsys CNSYS Configuration System Set This command is used to activate user parts set the system network IP addresses and passwords For this command to take effect a system restart is required Syntax CNSYS IPADDR IPADDR2 SUBNET SUBNET2 GATEWAY SCCP TCAP MAP PASSWORD FTPPWD Example CNSYS IPADDR 123 124 125 126 CNSYS MODE SIUB CNSYS MAP Y EXECUTED Dialogic DSI Signaling Servers SWS Mode User Manual Issue 3 6 12 Maintenance Commands The maintenance commands include MNINI Maintenance Inhibit Initiate MNINE Maintenance Inhibit End MNRSI Maintenance Restart System Initiate 6 12 1 MNI NI Maintenance Inhibit Initiate Synopsis This command is used to deactivate an SS7 signaling link SIGTRAN M3UA link host RSI link or circuit group The command is also used to inhibit an SS7 signaling link and to block a failed hard disk drive before removal and replacing Important In order to maintain RAID array hard disk drive integrity you should follow th
8. CNUSP Display SNMP v3 The DSMI based SNMP agent must be enabled Attributes None Examples CNUSP Output Format Configuration SNMP Users USER AUTH AUTHPASS PRIV PRIVPASS ab MD5 kkkkkkkk NONE 2 SHA NONE EXECUTED LABEL user1 user2 Dialogic DSI Signaling Servers SWS Mode User Manual Issue 3 6 10 IP Commands The IP commands include e IPEPS Set Ethernet Port Configuration e PEPP Display Ethernet Port Configuration e IPGWI Internet Protocol Gateway Initiate PGWE Internet Protocol Gateway End e IPGWP Internet Protocol Gateway Print e IPWSP Display Web Service Configuration e IPWSS Web Service Configuration Set 6 10 1 IPEPS Set Ethernet Port Configuration Synopsis This command is used to configure Ethernet ports The SWS supports resilient IP connectivity when you configure a team of two ports in an active standby role Three IP bonding teams can be created from the six ethernet ports available A bonding team assigned a single IP address consists of a primary active port and a secondary standby port The secondary port IP address should be set to one of the following values e STANDBY The configured IP address acts as the standby port in a team with ETH1 e STANDBY2 The configured IP address acts as the standby port in a team with ETH2 STANDBY3 The configured IP address acts as the standby port in a team with ETH3 e STANDBY4 The configured IP address acts as the stan
9. CSSR Prerequisites None Attributes None Examples CNCSP ID 1 58 Dialogic DSI Signaling Servers SWS Mode User Manual Issue 3 Output Format Concerned Resource configuration ID NC CSSR CSPC CSSN SSR SPC SSN 4 1 RSP 1 LSS 8 5 1 LSS 8 RSP 3 6 1 LSS 8 RSS 1 8 EXECUTED 6 9 6 CNGAP Configuration GTT Address Print Synopsis This command is used to display currently configured SCCP Global Title Translation Addresses The translations themselves are initially added statically via the configuration file config txt See Section 8 8 4 SCCP_GTT_ADDRESS on page 159 for further information relating to GTT address configuration Syntax CNGAP ID NC Example CNGAP GTT Address ID NC AI SPC SSN GT GTAI_ REPLACEMENT 4 0 0x11 4369 0 0x001104 333 4 5 0 0x11 17476 0 0x001104 55 1023 1 0x11 21845 0 0x001104 00 EXECUTED 6 9 7 CNGLP Configuration SI GTRAN Gateway List Synopsis This command displays the configuration of relationships between Signaling Gateways and SIGTRAN Routes on the system Syntax CNGLP Prerequisites None Attributes None Example CNGLP Output Format Configuration SIGTRAN Gateway List LIST SNRT RSG 1 ka E 2 1 2 3 2 2 4 3 1 EXECUTED 59 Chapter 6 Management Interface 6 9 8 CNGPP Configuration GTT Pattern Print Synopsis This command is used to display currently configured SCCP Global Title Translation Patterns The translations themselves
10. MTP_LINK lt link_id gt lt linkset_id gt lt link_ref gt lt slc gt lt bpos gt lt blink gt lt stream gt lt timeslot gt lt flags gt MTP_LINK 0 0 0 0 0 0 0 0 0x80000006 MTP_LINK 1 0 1 1 0 2 0 0 0x80000006 MTP_LINK 2 0 2 2 0 199 0 0 0x80000006 MTP_ROUTE lt NC gt lt dpc gt lt linkset_id gt lt user_part_mask gt lt flags gt lt 2nd_ls gt lt pc_mask gt MTP_ROUTE NCO 1 0 0x0020 0x0000 0 End of file 9 9 SIGTRAN M3UA Signaling 9 9 1 Overview This SWS supports the SIGTRAN M3UA protocol compatible with IETF RFC 3332 4666 M3UA can be deployed as a direct replacement for MTP3 on the SWS with M3UA over SCTP offering a SS7 over IP solution removing the need to deploy TDM SS7 links Using M3UA the SWS can connect either directly to multiple Signaling End Points SEPs in a IPSP peer to peer configuration or indirectly via a SIGTRAN Signaling Gateway M3UA supports load sharing across a pair of SWSs configured as a single point code without the requirement for a TDM SWS interlink between the two units M3UA must be configured to operate in a particular network context using the STN_ NC command M3UA may only be active in one network context at a time MTP and M3UA might not be configured to be in the same network context A SWS can support both M3UA and MTP operation in different networks contexts allowing the host application to act as a gateway between TDM based SS7 and SIGTRAN networks
11. OFFSET The OFFSET value must be specified in hours and optionally 0 or 30 minutes in the range 14 to 12 The OFFSET is specified in POSIX style which has positive signs west of Greenwich OMASK Output Mask a trace mask for signaling messages leaving a protocol module PAGE The page of data to be printed 50 Dialogic DSI Signaling Servers SWS Mode User Manual Issue 3 Table 3 Parameter Definitions Continued Name Description Password for remote access to MML interface sessions To provide that only strong passwords are used the following rules will be enforced The password must not be the same as any of the previous 8 passwords used PASSWORD It must be between 8 and 15 characters It must have at least 1 upper case character 1 lower case character 1 digit and one special character Special characters support are PORT SNMP destination port for SNMP traps Default 162 PPORT Peer SCTP port in the range 1 to 65535 PRIV SNMP V3 Privacy encryption protocol Set to DES or AES SNMP V3 User account Privacy password Must be set if the PRIV parameter is used minimum of 8 maximum PRIVPASS of 12 characters QUIESCE SNMP object transition state Traps will be generated if set to All Create Change or Destroy Traps will not be generated if set to NONE Default Change RANGE A range parameter with valid values between 0 to 65535 An examp
12. gt lt re gt lt trmd gt lt flags gt L LS 0x0000 2 LS 0x0000 lt dpc gt lt rc gt lt nasp gt lt flags gt 10 1 1 0x0000 177 Chapter 9 Configuration Guidelines STN_RAS 1 11 2 1 0x0000 lt list gt lt rserver gt lt link gt STN_RASLIST 0 0 0 STN_RASLIST 0 0 1 STN_RASLIST al 1 2 STN_RASLIST 1 1 3 lt bind gt lt las gt lt rserver gt lt flags gt STN_LBIND 0 0 0 0x0000 STN_LBIND 1 1 1 0x0000 User part configuration e g SCCP 9 10 SIGTRAN M3UA Dual Operation M3UA on a pair of SWSs can offer a level of resilience similar to that supported by a pair of SWSs operating MTP3 When configured the SWSs will each behave as an Application Server Process operating within an Application Server thus presenting a single point code to the network In the same manner as MTP3 resilient operation one SWS should be configured as SWSA and the other as SWSB using the CNSYS command Also in the same manner as MTP3 the configuration command SIU_REM_ADDR should be configured with the IP address of the partner SWS Unlike MTP3 there is no need to specify any further configuration for inter SWS communication i e inter unit links or linksets M3UA within the SWS pair will use the inter SWS Ethernet link to maintain communication with the network even when a single SWS loses direct communication to an adjacent Server signaling Gateway or IPSP Dual resilient operation using M3UA does
13. 8 9 TCAP Configuration Commands The TCAP configuration commands include 8 9 1 TCAP_CONFIG TCAP Configuration TCAP_NC_CONFIG TCAP Network Context Configuration TCAP_CFG_DGRP TCAP Dialog Group Configuration TCAP_CONFIG TCAP Configuration Synopsis The TCAP_CONFIG command activates the TCAP protocol layer on the SWS and provides the TCAP operating parameters This command should only be used when an SCCP_CONFIG command is present Note Network Context specific configuration may be done using the TCAP_NC_CONFIG command Syntax TCAP_ CONFIG lt base_ogdlg_id gt lt nog_dialogues gt lt base_icdlg_id gt lt nic_dialogues gt lt options gt lt dlg_hunt gt lt addr format gt Examples TCAP_ CONFIG 0x0000 8192 0x8000 8192 0x0000 0 0 Parameters The TCAP_CONFIG command includes the following parameters 166 lt base_ogdlg_id gt The dialogue_id for the first outgoing dialog lt nog_dialogues gt The number of outgoing dialogs to support The valid range is 0 to 32767 lt base_icdlg_id gt The dialogue_id for the first incoming dialog The most significant bit bit 15 of the dialog ID must be set to one for incoming dialogs lt nic_dialogues gt The number of incoming dialogs to support The valid range is 0 to 32767 Note If dialogue values are out of the permitted range TCAP will be configured with default values of 32767 nog_dialogues and 32767 nic_dialogues lt options gt Specifies TC
14. Configuration failed alarm report If possible the report also includes a detailed description of the error as a Restart error report indicating the line number and optionally command type and parameter that are in error Some examples are provided below Alarm List active alarms CLA CATEGORY ID TITLE 5 SYS 0 Parse errors 5 SYS 0 Configuration failed 5 SYS 30 Restart error SS7_BOARD parameter 2 bad value 5 SYS 42 Restart error MTP_LINKSET number of parameters 5 SYS 47 Restart error MTP_LINK unacceptable command The presence of such alarm events in the system indicates that the protocol will not function correctly hence the operator should consult the section detailing the configuration command in error in order to diagnose and correct the fault before proceeding Note If the Restart error alarm Inconsistent command format appears in the alarm list this indicates that a configuration contains a mix of obsolescent format and current format of statements To avoid this and to be able to make use of newer features and capabilities introduced since the initial release of the Dialogic DSI Signaling Server products you should ensure that MTP_ROUTE statements in your configuration have all documented parameters present NC is optional however SCCP_LSS is not used use SCCP_SSR for LSS configuration SCCP_RSS is not used use SCCP_SSR for RSS configuration SCCP_RSP is not used use SCCP_SSR for RSP c
15. Possible CLOCK STATUS values are e FAULT The PCM is unable to provide clock for the SIU due to a fault on the board NOT OK The PCM is not a valid clock source ACTIVE The PCM is a valid clock source and is currently providing clock for the SIU e OK The PCM is a valid clock source but is currently not providing clock for the SIU STANDBY The PCM is a valid clock source and will provide clock for the SIU in the event of failure of the ACTIVE clock source STAND ALONE Telephony bus disabled Note When the internal telephony bus is disabled in the board the asterisk symbol is displayed in the SYNCPRI field and the CLOCK STATUS is set to STAND ALONE 6 15 12 STRAP Status Remote Application Server Print This command provides the status of SIGTRAN Remote Application Servers It also provides the status of a link associated with the server Definitions of the AS status e AVAILABLE The AS is available e UNAVAILABLE The AS is unavailable e INSUFF_ASP The AS is available but it has insufficient ASPs active as configured by the STN_RAS command only valid for load sharing Definitions of the ASP within the server DOWN The link attached to the server is down ACTIVE The link attached to the server is active e INACTIVE The link attached to the server is inactive Definitions of TRMD Traffic Mode LS Load sharing mode OR Override mode BC Broadcast mode 111 Chapter 6 Management
16. STMLP STMLP LINK 1 Output Format Monitor link status LINK L2 STATE 0 OUT OF SERVICE 1 IN SERVICE 2 IN SERVICE 3 IN SERVICE 4 IN SERVICE 5 IN SERVICE EXECUTED The meaning of each field in the output is as follows e LINK Shows the value of the link_id parameter for that link as configured using the MONITOR_LINK command in the config txt file L2 STATUS L2 status possible values are IN SERVICE OUT OF SERVICE 6 15 11 STPCP Status PCM Print Synopsis This command requests a printout of the status of all configured PCM ports Syntax STPCP Prerequisites None Attributes None 110 Dialogic DSI Signaling Servers SWS Mode User Manual Issue 3 Example STPCP Output Format PCM status PORTID PCM SYNCPRI PCM STATUS CLOCK STATUS 0 Ema OK STAND ALONE 2 2 1 1 OK ACTIVE 3 2 2 31 OK OK 5 2 4 0 BER gt 1 10 5 FAULT EXECUTED Possible PCM STATUS values are e PCM LOSS No signal sensed on the PCM input AIS The remote side sends all ones indicating that there is an error condition or it is not initialized e SYNC LOSS Loss of frame alignment since no frame synchronization has been received REMOTE ALARM The remote end indicates that is it is OK but also indicates that it is detecting an error condition BER gt 1 10 3 The PCM is encountering a Bit Error Rate BER of 10 3 BER gt 1 10 5 The PCM is encountering a BER of 10 5 OK The PCM is operational
17. Status of a SIGTRAN Route BLOCKED The Gateway route is blocked AVAILABLE The Point Code is available over this route UNAVAILABLE The Point Code is unavailable over this route Status of a Gateway associated with the route AVAILABLE The gateway is available e UNAVAILABLE The gateway is unavailable Syntax STSRP SNRT Prerequisites If specified the SIGTRAN Route must be configured Attributes None Example STSRP Output Format SIGTRAN Route Status SNRT NC DPC SG RT STATUS GW STATUS 1 1 664 1 AVAILABLE UNAVAILABLE 4 k 664 2 AVAILABLE AVAILABLE 2 1 56444 2 AVAILABLE AVAILABLE 3 1 3334 1 UNAVAILABLE UNAVAILABLE EXECUTED FK K K OK K OK OK OK OK OK OK OK K K K 114 Dialogic DSI Signaling Servers SWS Mode User Manual Issue 3 6 15 16 STSSP Status Sub System Resource Print Synopsis This command requests a printout of the status of Sub System Resources If the ID parameter is specified the status of the corresponding SSR identified by the ID is displayed If the ID parameter is not specified the status of all configured SSRs is displayed Syntax STSSP ID Prerequisites None Attributes None Examples STSSP STSSP ID 1 Output Format Sub System Resource Status ID NC Type SSN SPC 3 0 RSS 12 3226 4 1 RSP 3229 5 0 LSS 12 EXECUTED State A PROHIBITED Al LLOWED LLOWED Possible values of Sta
18. W 53 G27 Command Saen eT ee DE e e r Dd Dd 53 6 8 Alarm Command Ss ayna yeni Maya g yeki NAN aO k n y W Da Q tages DEAR D be AETA E 2345 54 6 8 4 ALLP Alarm List PEL yyi xala d in kn W na b e Mea na pan a GR hea a kas AE Re a ade ss 54 6 8 2 ALTEE cAlarm Tet End s xey l2 key kai k Rn na Pa Saa a Wla d hea k DAV putt w d Wa Wl W d 20 ns 54 6 8 3 ALTE Alarm Test Initiate kk kk kk kalk kaka k 55 6 9 Configuration CommatdS 5 ns ad x anka aa dak ka anda yk kaleka aa a a and x e ka ak kk a al ake ed k kl 56 6 9 1 CNBOP Configuration Board Print A K KA h ll lk kk kk k 57 6 9 2 CNBUI Configuration Backup Initiate kk kk 57 6 9 3 CNBUS Configuration Backup Set AKMKh Khk Wll kk kk kk kk kk kk kak ene 57 6 9 4 CNCRP Configuration MTP Route Print Lhk KhA Kh k kkkl kk ee ee kk 58 6 9 5 CNCSP Configuration Concerned Subsystem Pr nt Mhk kL tees eee eens 58 6 9 6 CNGAP Configuration GTT Address Print ccceeeeeeeee ee ee eee eee kk 59 6 9 7 CNGLP Configuration SIGTRAN Gateway LiSt kk 59 6 9 8 CNGPP Configuration GTT Pattern Print cccece cece eect kk kk 60 6 9 9 CNGTP Configuration Global Title Translation Print Ah W h k h kk 60 6 9 10 CNLSP Configuration MTP Linkset Print cccccceee cece eee eee este eee kk 60 6 9 11 CNMLP Configuration Monitor Link Print
19. When a SWS is using M3UA it is considered be acting as one or more Local Application Servers Using the STN_LINK command you can configure up to 256 M3UA links These links may be connected to either a SIGTRAN Signaling Gateway using the STN_LINK command or up to 256 Remote Application Servers Signaling End Points using the STN_RAS and STN_RASLIST commands When interworking to a SIGTRAN Signaling Gateway the SWS can be configured to route to up to 256 Remote Point Codes in the network using the Signaling Gateway with the STN_ ROUTE and STN_RSGLIST commands Finally the Local Application Server can be associated with either a Remote Application Server or Signaling Gateway using the STN_LBIND command 176 9 9 9 9 2 1 2 Configuration Dialogic DSI Signaling Servers SWS Mode User Manual Issue 3 Examples SWS to Signaling Gateway Example configuration of an SWS acting as Point Code 3 communicating to point code 2 via a Signaling Gateway AS SG 2 M3UA LINKS lt host gt SIU_HOSTS 1 b FF b HF HF in n 3 s s SI rN rN CN rN rN CN lt nc gt lt ss7md gt lt flags gt STN NC NCO ITU14 0x000 lt nc gt lt type gt lt link gt LINK NCO M3UA 1 LINK NCO M3UA 2 lt NC gt lt LAS gt lt OPC gt LAS NCO 1 3 ROUTE NCO 1 2 lt list gt lt route gt RSGLIST 1 aa 0 lt ipl gt lt ip2 gt lt end gt
20. k 43 5 7 2 1 Using Linux and Open SS iy yal ekla E wer aa de 43 5 7 2 2 Using Windows and PUTTY MhK KhAK K3 kkkk kk kk kk kk kk kk ka kk ka 43 57 3 General Notes sana xirab Sal a eha pin ala Da D R dan ote da DE e p k Kekan t s ke Hele aa 44 5 7 3 1 53WS MMI l n tefa Ge d saxa ay kb ak beka WEL W ANE b ka deka b k b ka yA W uy 44 5 7 3 2 SU pported Cph E S4 sok xa xel w ae is ke ee ek k r n el ae ee 44 5 8 System Backup and Restoration kM k kkkk akla kak ka kk aka 44 5 9 SIGTRAN Throughput Licensing 0 kk kk kk kk kk kk kk kk kaka kk kk aka 45 6 Management i nterfac skin xanl edi nayi b l isi Dn kake db Bak bu aa daa oku Wa Aa kn w ka de ee 47 6 1 Log on Off Proce dir La yasa sa nani da k n x la hana n k EE N R NE N Kan a Dek nk le E ak e de a lad 47 6 2 Command ENY sx xl s5 534325J43250 15150 0h yeda QADE w n HA DEY B KEWE Wa b da peru HER n ede ciate sr b ye ja an n 47 6 3 gt Command R sponses ons seya a ee a wiv awe EA aida ian 48 6 4 Automatic MMI LOGGING wise x d kin r kl Mlr A AE da k WAA a bak D d ha u ha WE h haki PEKEE 48 6 55 ParAMCtlers s tidadie dimer ken GAME a Ka D n Ru RO di E R NA WE Kind na baq a nao nana Males 48 6 6 Command Conventions g seya k ye ka kiry al h b nan dina ka w n n en na Qi w he n n ko W RAKE b
21. selected by you to be appropriate for the actual hardware fitted otherwise an error status is returned This parameter must be set to one of the following values Value Meaning 4 TL 5 E1 balanced 6 E1 high impedance for monitoring applications 7 T1 high impedance for monitoring applications Note Use of the Buildout parameter is not relevant when high impedance is configured on a PCM Users are required to set it to a value of 0 for when either E1 high impedance 6 or T1 high impedance 7 is configured on the PCM e lt line_code gt The line coding technique The following table shows the permitted values and their meaning Value Description 1 HDB3 E1 only 2 AMI with no Zero Code Suppression AMI with Zero Code Suppression The appropriate bit in the clear_mask 3 parameter may be set to disable Zero Code Suppression for individual timeslots if required T1 only 4 B8ZS T1 only 133 Chapter 8 Configuration 134 lt frame_format gt The frame format The following table shows the permitted values and their meaning Value Description 1 E1 double frame E1 only 2 E1 CRC4 multiframe E1 only 4 D3 D4 Yellow alarm bit 2 in each channel T1 only 7 ESF Yellow alarm in data link channel T1 only 10 Unstructured high speed links lt crc_mode gt The Cyclic Redundancy Check CRC mode of operation The following table shows the p
22. 3 SCCP_GTT_PATTERN lt pattern_id gt lt addr_indicator gt lt pc gt lt ssn gt lt global_title gt lt gtai_pattern gt SCCP_GTT_PATTERN 12 0x10 0 0 0x001104 441425 SCCP_GTT_ ADDRESS lt nc_id gt lt address_id gt lt addr_indicator gt lt pc gt lt ssn gt lt global_title gt lt gtai_replacement gt SCCP_GTT ADDRESS 12 0x03 238 3 0 SCCP_GTT lt nc_id gt lt pattern_id gt lt mask gt lt primary_address_id gt lt backup_address_id SCCP_GTT 12 R K 12 9 11 3 4 Example 4 Match a GT with any GTAI Digits Keep any digits which are present and add a PC and SSN GTAI Digits BOLI i l 128 l i 3 B 181 Chapter 9 Configuration Guidelines Adding a PC SSN to any GTAT This example matches any GTAI Digits and adds a Point Code and SSN retaining any GTAI digits SCCP_GTT PATTERN lt pattern_id gt lt addr_indicator gt lt pc gt lt ssn gt lt global _title gt lt gtai_pattern gt SCCP_GTT_PATTERN 1 0x10 0x0000 0x03 0x001204 SCCP_GTT_ADDRESS lt nc_id gt lt address_id gt lt addr_indicator gt lt pc gt lt ssn gt lt global title gt lt gtai_replacement gt SCCP_GTT_ ADDRESS 1 0x53 Ox3FFF 0x08 0x001204 SCCP_GTT lt nc_id gt lt pattern_id gt lt mask gt lt primary_address_id gt lt backup_address id SCCP_GTT j K R T 9 12 HSL Signaling The SIU supports both structured framed a
23. An optional password may be set to control remote access to the MML interface This is done using the CNSYS command described in Chapter 6 Management Interface CNUAS ACCOUNT admin PASSWORD D1 logiC CONFIRM D1 logiC If set a user opening a telnet session to the MML interface is prompted to enter a password for example SWS logged on at 2004 09 10 12 48 13 password Note The Signaling Server uses a static routing method for associating IP networks with Ethernet interfaces In a network with multiple theoretical routing paths between an IP address on the SWS and IP address on the network the SWS may transmit packets to an IP address through a different interface to that which receives packets from that same IP address It is therefore quite possible for the SWS to be unable to route packets back to an IP address if a connection associated with the destination IP address is lost See Section 3 6 lon page 29 for more information 4 2 3 Software Download 34 Current information and Dialogic DSI Signaling Server software downloads can be found at the following URL http www dialogic com support helpweb signaling Your product left the factory with fully functional software installed You are however recommended to check the above URL for any recent revisions and install them before putting the product into service Since it is possible to source units from multiple supply channels we recommend that each is checked
24. Linkset The SWS pair may also be connected to a single adjacent STP or combination of SSP and STP as shown in Figure 7 Figure 7 SWS Dual Configuration with Connections to STP Inter SWS Linkset Finally Figure 8 shows an SWS pair connected to a mated STP pair In this configuration all the links from the first STP must be terminated at SWSA and all the links from the second STP must be terminated at SWSB 23 Chapter 3 Architecture Figure 8 SWS Dual Configuration with Connections to Mated STP Pair RP g Inter SWS Linkset C Links Se Lu 3 3 Multiple Network Support 24 The SS7 Network Context together with a signaling point code uniquely identifies an SS7 node by indicating the specific SS7 network to which it belongs The Network Context may be a unique identifier for a physical SS7 network for example to identify an ANSI ITU International or National network or it may be used to subdivide a physical SS7 network into logical sub networks An example of the use of logical networks is in provisioning where the user requires 64 SS7 links between two point codes in a network As the SWS supports 16 links in a link set and one link set between two points in a network only 16 links between two points would normally be achievable However if the network is divided into four logical Network Contexts then up to four link sets may be created between the two point codes one in each Network Co
25. Network Appearance M3UA only 6 9 25 CNSSP Configuration Subsystem Resource Print Synopsis This command displays the SCCP subsystem resource configuration See Section 8 8 6 SCCP_SSR on page 162 for descriptions of the parameters in the output format Syntax CNSSP ID SSR LSS RSS RSP 69 Chapter 6 Management Interface Prerequisites None Attributes None Examples CNSSP ID 2 Output Format Subsystem configuration ID NC SSR SPC SSN MODULE FLAGS PCMASK PROT 0 0 LSS 12 0x000d 0x0000 DTS 1 0 RSP 1 0x0000 0x00000000 2 0 RSS 1 12 0x0000 EXECUTED 6 9 26 CNSWP Configuration Software Print Synopsis For the current operating mode the command on the first page displays the software operating on the main CPU and signaling boards within the Signaling Server On this page the command also displays the library version numbers for each protocol configured on the unit The second page of the CNSWP command displays the software available for other modes operation Syntax CNSWP PAGE Prerequisites None Attributes None Example CNSWP Output Format Software Configuration Page 1 of 2 SS7G30 SWS Release 2 2 0 Build 1004 Dialogic R DSI Signaling Server SWS Mode Copyright C Dialogic Corporation 1994 2010 Protocol Libraries MTP3 CPU v6 10 M2PA CPU V1 14 EXECUTED cnswp page 2 SS7G31 SWS Software Configuration Page 2 of 2 MODE STATUS VERSION SWS Available SS7G30
26. Software licenses supported on the Signaling Server for SWS mode are identified in Section 2 2 Software Licenses on page 17 4 1 1 1 Purchasing Software Licenses Place an order using your normal sales channel quoting the product ID for the software option required At this point in the process there is no need to know details of the specific Signaling Server on which the option is to be installed the target Signaling Server The order ships through the normal supply channels and you will receive a paper License Certificate The certificate contains the license terms for using the Signaling Server software option and a unique License ID that is needed to activate the license When the License Certificate is received you should first read the full terms of the software license If you do not agree with the software license terms contact your sales channel for a refund You must not activate the software license If you agree the software license terms you can continue with Step 3 The next stage is to identify the Dialogic DSI Signaling Server product s on which the software option is to be activated To do this you need to obtain the UNIT ID for the Signaling Server which is done by executing the CNSYP MML command see Section 6 9 27 on page 71 on the target Signaling Server Once you have the License ID and the UNIT ID the license can be activated on the Signaling Server License Activation is the proce
27. e STIPP Status IP Print STLCP Status Licensing Print STMLP Status Monitor Link Print e STPCP Status PCM Print e STRAP Status Remote Application Server Print STRLP Status Remote SIU Link Print STSLP Status SS7 Link Print STSRP Status SIGTRAN Route Print STSSP Status Sub System Resource Print STSTP SIGTRAN Link Status e STSYP Status System Print e STTDP Status TCAP Dialog Print STTPP Network Time Protocol Status Print STTRP Status TCAP Resource Print 6 15 1 STALP Status Alarm Print Synopsis This command displays counts for current alarms within the system Syntax STALP Prerequisites None Attributes None Example STALP Output Format Alarm Status SYS PCM SIG MNR MAJ CRT 1 0 1 2 0 0 EXECUTED 102 Dialogic DSI Signaling Servers SWS Mode User Manual Issue 3 The meaning of each field in the output is as follows e SYS The number of system alarms e PCM The number of PCM alarms e SIG The number of signaling alarms MNR The number of minor alarms MAJ The number of major alarms CRT The number of critical alarms 6 15 2 STBOP Status Board Print Synopsis This command requests a printout of the status of all configured signaling boards Possible status values are e INACTIVE The board is not in operation RESETTING The board is undergoing a reset ACTIVE The board is operational FAILED The board has failed and is out of service
28. to 0 a signaling link test is not performed This bit should normally be set to 1 Bit 2 when set to 1 enables a periodic signaling link test When set to 0 periodic signaling link tests are not automatically performed This bit should normally be set to 1 Bit 3 when set to 1 forces NORMAL proving otherwise EMERGENCY proving is used If Bit 0 is set to 0 then the appropriate proving period in accordance with the SS7 protocol is used and Bit 3 has no influence Bit 7 selects the LSSU length indicator If set to 1 the unit sends two octet LSSU messages If set to 0 the unit sends one octet LSSU messages Bit 8 selects the error correction method used by this link If set to 1 Preventative Cyclic Retransmission PCR is used If set to 0 the basic error correction method is used PCR is typically only used over transmission links where the transmission delay is large such as satellite links 143 Chapter 8 Configuration 8 6 5 Bits 10 and 11 select either 64 56 or 48 Kbps operation and are used when a link operates over a T1 or E1 timeslot Use of these bits is as follows Bit 11 Bit 10 Rate Timeslot Usage Set both to zero for E1_HSL and T1_HSL operation HSL framed operation uses these bits in a similar 0 0 64 Kbps manner to single timeslot signaling to select 64 Kbps 56 Kbps or 48 Kbps operation that applies to all timeslots within the HSL link 0 1 48 Kbps bits 7 amp 8 not used 1 1 56
29. 1 1 General Description The Dialogic DSI Signaling Web Services SWS provides an interface to SS7 and SIGTRAN networks for one or more client applications over a Web Services interface In this mode the units implement the SS7 Message Transfer Part MTP and a number of User Parts SCCP TCAP MAP In addition the SWS implements MAP service functionality and a high level Application Programming Interface API to simplify development for mobile applications such as SMS USSD and Location Based services 1 2 Key Benefits High Level API for mobile network services Lowers SS7 GSM MAP protocol knowledge required Focuses on enabling the most common services to mobile devices e XML HTTP Web Service API Greater choice of development platform and toolsets Reduced dependency on proprietary interface Server based Based on existing proven server platform Figure 1 Overview of SWS mode N SS7 SIGTRAN HTTP MSCI VLR SS7 SIGTRAN a 2 SWS a MSCI VLR MSC VLR Web Application Servers Mobile User Mobile User 2G 3G This manual is applicable to the Dialogic DSI SS7G31 and SS7G32 Signaling Servers Note Throughout this manual these products are referred to collectively as the Dialogic DSI Signaling Servers or as the Signaling Servers or individually by their particular alphanumeric designation SS7G31 or SS7G32 In addition the SS7G31 and SS7G32 models ma
30. 220 ft 4 T1 short haul 220 to 330 ft 5 T1 short haul 330 to 440 ft 6 T1 short haul 440 to 550 ft liu_type 4 7 T1 short haul 550 to 600 ft 8 T1 long haul LBO 0db 9 T1 long haul LBO 7 5db 10 T1 long haul LBO 15db 11 T1 long haul LBO Odb TR62411 For SPCI4 boards the parameter is unused reserved and should be set to 0 e lt slave_port_id gt Identifies an optional slave port where alarm conditions occuring on this LIU will be mapped to AIS on the slave port The slave port is typically used in conjunction with the STREAM_XCON command which Dialogic DSI Signaling Servers SWS Mode User Manual Issue 3 maps timeslots from one LIU through to another slave LIU When bit 0 of the flags field is set the slave_port_id must be set to a configured port that has not been previously configured as a slave port on another LIU When bit 0 is not set the slave_port_id field should be set to 0 lt flags gt A 16 bit value used to configure run time configuration Bit 0 indicates whether this LIU has an associated slave LIU When set the slave_port_id must be set to a configured port that has not been previously configured as a slave port on another LIU All other bits in the lt flags gt parameter are reserved and should be set to zero 135 Chapter 8 Configuration 8 5 3 STREAM_XCON Cross Connect Configuration Synopsis The STREAM_XCON command controls the cross connect swit
31. 5 2 LIU_CONFIG on page 133 for descriptions of the parameters in the output format Syntax CNPCP Prerequisites None Attributes None Examples CNPCP Output Format PCM configuration PORTID PCM LIUTYPE LC FF CRC SYNCPRI BUILDOUT SLAVE FLAGS 5 3 1 a a Na 1 0 0 0x00000 6 3 2 6 E 1 0 0 0x00000 EXECUTED 6 9 15 CNRDI Configuration Restore Defaults I nitiate Synopsis This command is used to restore the protocol configuration file config txt to the default version of the file which does not include any commands but provides guidelines on how to edit the file for a real configuration Syntax CNRDI Prerequisites None Attributes CONFIG The command affects configuration data Example CNRDI 63 Chapter 6 Management Interface 6 9 16 CNSLP Configuration SS7 Link Print Synopsis This command displays the current MTP signaling link configuration See Section 8 6 4 MTP_LINK on page 142 for descriptions of the parameters in the output format Syntax CNSLP ID Prerequisites None Attributes None Examples CNSLP Output Format SS7 link configuration LINK LINKSET LINKREF SLC BPOS BLINK BPOS2 STREAM TS FLAGS IFTYPE 0 1 0 0 1 0 1 0 1 0x00006 TDM 1 1 1 1 1 1 1 0 2 0x00006 TDM 2 1 2 2 1 2 1 0 3 0x00006 TDM 3 1 3 1 3 t 0 4 0x00006 TDM 4 1 4 4 1 4 1 0 5 0x00006 TDM 5 1 5 5 bls 5 1 0 6 0x00006 TDM 6 1 6 6 1 6 1 0 7 Ox00006 TDM 7 1 7 j 7 1 0 8 0x00006 TDM
32. 6 Management Interface 6 9 44 CNUSI Set SNMP v3 6 9 45 82 Synopsis This command allows the administrator to create SNMP v3 user accounts that are recognized by the local server It also allows the administrator to define SNMP v3 user accounts for use in conjunction with SNMP v3 TRAP destinations managers A user is defined with an integer user identifier USER optional authentication AUTH AUTHPASS and a label LABEL which serves as the username The USER and LABEL parameters are mandatory Supported AUTH values are SHA and MD5 The password must have a minimum length of 8 characters and a maximum length of 24 is enforced The AUTH and AUTHPASS parameters must be specified together In other words it is not possible to configure an AUTHPASS value without having also specified the AUTH value Note that only the authentication attributes can be defined with the CNUSI command If a user requires privacy encryption parameters to be applied the CNUSC command is used to configure them Syntax CNUSI USER AUTH AUTHPASS LABEL Prerequisites The DSMI based SNMP agent must be enabled Attributes CONFIG Examples CNUSI USER 3 AUTH MD5 AUTHPASS user3pass LABEL user3 Synopsis This command displays the current list of configured SNMP v3 users The passwords are hidden If a USER value is specified with the command only that user s details are displayed Syntax CNUSP USER Prerequisites
33. CONFIG Examples This is an example for setting up a simple SNMP v2 TRAP receiver manager CNSMI MNGR 1 IPADDR 192 168 1 22 TFORMAT 2 This next example shows how an SNMP v3 TRAP receiver manager would be created The first step is to define the user with the CNUSI command CNUSI USER 1 AUTH MD5 AUTHPASS abcdefgh LABEL user1 EXECUTED The next step is to define the manager which references the user which has just been defined CNSMI MNGR 2 IPADDR 192 168 1 222 USER 1 ENGINE 1122334455 EXECUTED 6 9 20 CNSMP Display SNMP Manager Configuration Synopsis This command displays the currently configured SNMP managers If a MNGR value is specified only that manager is displayed Syntax CNSMP MNGR Prerequisites The DSMI based SNMP agent must be enabled Attributes None Examples CNSMP Output Format Configuration SNMP Manager MNGR IPADDR PORT TFORMAT TCOM USER ENGINEID LABEL 1 192 168 220 192 162 21 0 EXECUTED 6 9 21 CNSNP Configuration SNMP Print Synopsis 66 This command displays the current SNMP mode including the read and where applicable the write community string The current SNMP agent however does not support write access The output of this command can be used to determine which if any SNMP agent is currently activated on the Server In the case of the enhanced DSMI based agent the SNMP setting will be DSMI In the case of the legacy SNMP support the value is DK4032 Additio
34. Context The Network Context together with a Signaling Point Code SPC uniquely identifies an SS7 node by indicating the specific SS7 network it belongs to When not specified a value of NCO is assumed Supported values are NCO NC1 NC2 or NC3 lt patt_id gt Identifies the pattern specified by the SCCP_GTT_PATTERN command This value is also used to index the translation within the SCCP module lt mask gt This is an expression detailing the operation to be applied to each section of the global title pattern The format is exactly one operation per section and must contain exactly the same number of sections as the lt gtai_pattern gt parameter of the associated SCCP_GTT_ PATTERN command and the lt gtai_replacement gt parameter of the associated SCCP_GTT_ADDRESS command The mask can contain the following Mnemonic Function Padding ignored Separator used to split the mask into sections The digits in the corresponding section of the global title address information undergoing translation BEKE E will be preserved The digits in the corresponding section of the global title address information will be deleted and the Ror REPLACE digits in the corresponding section of the primary or backup address will be inserted in their place e lt primary_addr_id gt Identifies the SCCP_GTT_ADDRESS command the use as the primary translation e lt backup_addr_id gt Identifies the SCCP_GTT_ADDRESS co
35. IMASK OMASK or MMASK values may be restored using the DEFAULT token 74 Dialogic DSI Signaling Servers SWS Mode User Manual Issue 3 Note Definitions of the MASK OMASK and MMASK trace mask parameters for a specific protocol are documented in the associated protocol Programmer s Manual By default when tracing is activated on the SWS messages are logged to file in the syslog subdirectory of the siuftp account This log is maintained as a rolling log of up to 10 5MB files containing trace messages The most recent trace log file will have the name trace log the next most recent trace log 1 and then trace log 2 and so on A user may change the destination of trace messages through use of the TRACELOG parameter on the CNSYx command A user also can select either that messages a logged to FILE default HOST where they are transmitted to the management module id on the configured management host or DUAL where they are both logged to file and sent to host MTP3 and M3UA traces may also be logged in PCAP file format In a similar manner to the above text log files the system supports up to 10 5MB PCAP log file named trace pcap trace pcap 1 trace pcap 2 etc storing them in the syslog subdirectory of the siuftp account Logging in TEXT or PCAP format is selected by using the TRACEFMT parameter in the CNSYx MMI command Activation of tracing under high load conditions may reduce overall throughput of the SWS For systems o
36. Interface Syntax STRAP RAS Prerequisites The specified Remote Application Server must be configured and active Attributes None Example STRAP Output Format Status Remote Application Server Print RAS NC DPC RC SNLINK AS STATUS ASP STATUS TRMD 2 0 55 1 1 AVAILABLE AVAILABLE LS 1 0 55 1 2 AVAILABLE DOWN LS EXECUTED 6 15 13 STRLP Status Remote SIU Link Print Synopsis This command requests a printout of the status of the configured inter SIU Ethernet link Syntax STRLP Prerequisites None Attributes None Example STRLP Output Format Remote link status LINKID RSI STATE FOREIGN IPADDR TCP STATE 0 ACTIVE 123 124 125 126 ESTABLISHED Possible RSI STATE values are ACTIVE FAILED Possible TCP STATE values are CLOSED LISTEN e SYNC SENT e SYNC RECEIVED ESTABLISHED CLOSE WAIT e FIN WAIT 1 CLOSING 112 Dialogic DSI Signaling Servers SWS Mode User Manual Issue 3 LAST ACK FIN WAIT 2 TIME WAIT e UNKNOWN if this information is not available 6 15 14 STSLP Status SS7 Link Print Synopsis This command requests a printout of the status of configured SS7 signaling links If the LINK parameter is specified the status of the corresponding link is displayed If the LINK parameter is not specified the status of all configured SS7 signaling links is displayed Syntax STSLP LINK Prerequisites None Attributes None Examples STSLP ST
37. MONITOR_LINK Link ID MONL may be viewed using the CNMLP MMI command Monitoring Link Addition Current Monitor Link configuration Monitoring Link MONITOR_LINK Link ID MONL may be viewed using the CNMLP Removal MMI command 9 8 SI GTRAN M2PA Signaling 9 8 1 Overview The SWS supports the SIGTRAN M2PA protocol compatible with IETF RFC 4165 M2PA peer to peer operation can be employed as the network transport layer providing services normally provided by MTP2 for SS7 signaling links SS7 signaling traffic can be conveyed over SIGTRAN network facing links to a signaling gateway or other signaling point employing M2PA In dual configuration an M2PA link can be used as the SWS interlink to carry SS7 data between the two units Using the STN_LINK command you can configure up to 256 M2PA links The STN_LINK command should appear before the MTP_CONFIG command in the config txt file Having configured an M2PA link you can associate this with an SS7 link using the MTP_LINK command 9 8 2 M2PA License Before M2PA network facing links can be configured the unit must be equipped with an M2PA license as listed in Section 4 1 2 Temporary Licenses on page 32 The M2PA license is not required for configuration of M2PA interlinks employed in SWS dual configuration With the license installed the CNSYP command will display the M2PA parameter set to Y Without a license the CNSYP command will not display the M2PA p
38. MTP3 timers MTP_ROUTE MTP M Configure MTP3 routing MTP_USER_PART MTP O Specify a user supplied user part SCCP_CONFIG SCCP O Set SCCP operating parameters SOCP GTT SCCP O Add a translation to the SCCP global title translation table SCCP GTT ADDRESS SCCP o Define the global title to be used as the primary or backup destination of a translation Define the received global title pattern to be matched for a a SCCP 0 global title translation SCCP_NC_CONFIG SCCP O Set SCCP operating parameters for Network Context SCCP SSR SCCP O Configure SCCP sub system resource SOCP CONC SSR SCCP O Configure SCCP concerned sub system resource TCAP_CONFIG TCAP O Set TCAP operating parameters TCAP_NC_CONFIG TCAP O Set TCAP Network Context operating parameters TCAP_CFG_DGRP TCAP O Define a range of dialogs for a TCAP host NOTES 1 The Group column defines which part of the system a command configures All configurations may use the SIU SWS and MTP commands The protocol specific for example SCCP etc commands should only be used if those software options are licensed and configured in the SWS 2 Commands shown as M are Mandatory for configuring TDM signaling over T1 E1 trunks Commands shown as O are optional 8 3 Detection of Errors in the Configuration File The SWS reports errors in the protocol configuration file using the alarm listing available on the management interface The failure of one or more commands from the file is indicated by a
39. Note Different operating modes have different binary file names with ss7g30 sgw tgz being used for SGW Note Software prior to Release 2 2 0 requires that the file being installed is of the name sgw tgz Release 2 2 0 or later will accept ss7g30 sws tgz sS7g30 siu tgz ss7g30 sgw tgz or sgw tgz 4 The FTP session should then be terminated by entering the quit or bye 5 Establish a MML session and restart the unit by typing MNRSI RESTART SOFT Note If you need to switch to SWS mode from some other mode after applying licenses the command to use is MNRSI SYSTYPE SWS RESTART SOFT 6 The machine then boots 7 Once the upgrade is complete the machine is accessible via MMI and the upgrade version can be checked using the CNSWP command 37 Chapter 5 System Management 5 2 2 Updating the software from USB SS7G31 and SS7G32 Systems For SS7G31 and SS7G32 systems the procedure for updating the system software from USB is as follows 1 Copy the software binary distribution file to the USB memory device Insert the USB memory device into the USB port on the front of the unit Restart the unit using the front panel reset button or by entering the MNRSI MMI command The system will reboot until you are presented with the MMI command prompt Check the software version using the CNSWP command Oo own Remove the USB device from the USB port 5 3 Diagnostics 38 The SWS supports built in real time logging to di
40. Once the system has been halted the only way to restart the unit is by physically pressing the Power switch on the front panel of the chassis SNMP object transition state Traps will be generated if set to All Create Change or Destroy Traps will not be generated if set to NONE Default Change ROUTE Logical reference for a SIGTRAN Route The valid range is 0 199 Remote Server Identifies a remote server to act as a Remote Signaling Gateway The remote server might not RSERVER have the same id value as an existing Remote Application Server No more than 32 SNLINKs can identify the same Remote server All Sigtran links between the SWS and a Remote Signaling Gateway must be of the same protocol type The valid range is 0 199 RSG Identifier of the remote signaling gateway RSGLIST Logical identifier for a SIGTRAN Route to Signaling Gateway relationship The valid range is 0 6399 SCCPCL SCCP connectionless operation present parameter Set to Y to enable the operation of connectionless SCCP when the software is licensed or N to disable the operation of connectionless SCCP SCCPCO SCCP connection orientated operation present parameter Set to Y to enable the operation of connection oriented SCCP when the software is licensed or N to disable the operation of connection oriented SCCP SCTP SCTP availability Set to Y to enable SCTP operation on a particular IP port Set to N to disable SCTP operation on a p
41. PASSWORD CONFIRM 6 9 38 CNUPI Configuration Update Initiate Synopsis This command is used to validate that a license file transferred to portable media has been created without error The command will return EXECUTED if the license file on the portable media is without error Syntax CNUPI DTYPE Example CNUPI DTYPE SYSKEY 6 9 39 CNURC Configuration Update Resource Change Synopsis This command is used to change the configuration of a resource and update the configuration data on the SWS The operation involves reading the config txt file containing configuration data validating it and applying it to the unit The command can be applied to circuit groups mode CGRP MTP linksets mode MTPLS and MTP routes mode MTPR On an MTP linkset only the num_links parameter can be changed On an MTP route only the linkset_id 2nd linkset_id and flags parameters may be changed See Section 9 7 1 Config txt Based Dynamic Configuration on page 173 for more information Syntax CNURC MODE ID Prerequisites The command succeeds only if the resource specified by the ID parameter is present in the updated configuration file and a valid configuration has been entered All links in the linkset must be deactivated before linksets can be changed Any linkset identified by the MTP_ROUTE command must already be configured Attributes CONFIG The command affects configuration data Example CNURC MODE CGRP
42. Syntax STBOP Prerequisites None Attributes None Example STBOP Output Format Board status BPOS BTYPE STATE 1 SS7HDP ACTIVE 3 SS7HDP ACTIVE EXECUTED 6 15 3 STCGP Status Circuit Group Print Synopsis This command requests a printout of the status of the configured circuit groups If GID circuit group identifier is specified the status for that specific circuit group is displayed If no GID is specified then the status of all circuit groups is displayed Syntax STCGP GID Prerequisites None Attributes None 103 Chapter 6 Management Interface Examples STCGP STCGP GID 2 Output Format Circuit Group Status GID TYPE CICS MAINT ACTIVE IDLE 0 INACTIVE 1 S 15 3 5 7 2 D 15 3 5 7 EXECUTED The meaning of each field in the output is as follows TYPE Indicates whether the command was configured dynamically D using IPC messages or statically S using the config txt file If the group was configured statically and not activated an INACTIVE indication is shown and all other parameters on the row are shown as blank CICS The number of Circuit Identification Codes CICs assigned to the circuit group MAINT The number of circuits that do not have calls in progress and have an active maintenance state and therefore are not available for selection ACTIVE The number of circuits that have calls in progress IDLE The number of circuits that do not have calls in progress but are a
43. The specified NTPSER must already be configured Attributes CONFIG The command affects configuration data Example CNTPE NTPSER 1 6 9 34 CNTPI Configuration Network Time Protocol Server I nitiate Synopsis This command is used to add an NTP server to the configuration of the system The NTP service should be activated using the CNTDS command Syntax CNTPI NTPSER IPADDR LABEL Prerequisites The specified NTPSER must not already be configured The IPADDR might not be used more than once and might not identify any of the configured system IP addresses Up to 16 NTP servers may be configured Attributes CONFIG The command affects configuration data Example CNTPI NTPSER 1 IPADDR 192 168 0 1 LABEL NTPSERV1 6 9 35 CNTPP Configuration Network Time Protocol Print 76 Synopsis This command is used to display the configuration of the Network Time Protocol software on the unit Syntax CNTPP Prerequisites None Attributes None Example CNTPP Configuration of NTP Servers LABEL NTPSER IPADDR 1 192 168 0 1 2 192 168 0 2 EXECUTED N1 rP server 1 N1 PP server 2 Dialogic DSI Signaling Servers SWS Mode User Manual Issue 3 77 Chapter 6 Management Interface 6 9 36 CNUAP Configuration User Account Print Synopsis Displays the characteristics of a user account If a non default password is present it will be displayed as If no password is present fo
44. Unit A physical and logical connection between two signaling points One or more signaling links that are connected to adjacent signaling points 185 Chapter 10 Glossary mtpsl OPC RAI REST route rsi rsicmd s7_ play s7_log SCCP SGW SIU SP SP channel SS7 SS7HD SS7 Protocol Stack SSH SSP STP SSR system txt TCAP ttu timeslot upe 186 An example utility that can also be used to activate and deactivate signaling links Originating Point Code A signaling point code that identifies the signaling point at which a message originated Remote Alarm Indication Yellow alarm Repesentational State Transfer An architetural style applied widely in web service APIs An MTP3 concept that determines how signaling is distributed over link sets A route consists of a destination point code and the link set ID of one or two link sets over which traffic to the destination node should be routed When two link sets are provided you can choose to load share traffic or treat the link sets as primary and secondary A process manages the connection between the host and each SIU It takes several command line parameters and is normally spawned by an entry in the host s system txt file A command that starts the Ethernet link between a host and an SIU A utility that can be used to generate messages from a text file and send them to the system Typically used for diagnostic purposes A utility
45. Y Output Format Software License Capability Traffic Measurements CAPABILITY RXDATA TXDATA RXPEAK TXPEAK PEAK CONG ENFORCE PERIOD M3UA 4204E5 321284 154 456 923 1 2 0133333 EXECUTED 6 13 4 MSMLP Measurement Monitor link Print Synopsis This command prints out traffic measurements for Monitor links Monitor link statistics are reset using the RESET parameter MSMLP RESET Y resets the period and measurement values to 0 Syntax MSMLP RESET PAGE Prerequisites None Attributes None Examples MSMLP MSMLP RESET Y PAGE 2 Output Format Monitor Link Measurements Page 1 of 2 LINK OOSDUR RXOCT RXMSU PERIOD 0 0 3333 822 00 12 00 1 0 0 0 00 12 00 EXECUTED Monitor Link Measurements Page 2 of 2 LINK FFRAME FRAME MFRAME LFRAME ABORT CRC DISC RBUSY PERIOD 0 22 375 8220 16320 124306 0 0 3 00 12 00 1 0 0 333 4343 1233 434126 0 0 00 12 00 EXECUTED The meaning of each field in the output is as follows LINK Monitor link OOSDUR Duration that the link was not in service This field is not currently supported RXOCT Number of Signaling Information Field SIF and Service Information Octet SIO octets received at Layer 2 RXMSU Number of message signaling units octets received at Layer 2 e FFRAME The number of error free frames received on the link excluding any duplicate frames that are discarded as a result of the internal filtering mechanism 95 Chapter 6 Manageme
46. a PC 11 Component GTAI Digits Input 23 ase Pattern 123 m 333 456 BE k Buh Match a 7 digit number starting 123 followed by any three digits then 7 change the first digits to 333 keep the next three digits from the called party address and change the fourth digit to 4 and add a PC 11 SCCP_GTT_PATTERN lt pattern_id gt lt addr_indicator gt lt pc gt lt ssn gt lt global_title gt lt gtai_pattern gt SCCP_GTT_PATTERN 6 0x10 0x0000 0 0x001104 123 7 SCCP_GTT_ ADDRESS lt nc_id gt lt address_id gt lt addr_indicator gt lt pc gt lt ssn gt lt global_title gt lt gtai_replacement gt SCCP_GTT_ADDRESS 2 0x11 1 0 0x001104 333 4 kxk SCCP_GTT lt nc_id gt lt pattern_id gt lt mask gt lt primary_address_id gt lt backup_address_id gt SCCP_GTT 6 R K R 6 180 Dialogic DSI Signaling Servers SWS Mode User Manual Issue 3 9 11 3 3 Example 3 Match 441425 followed by any digits Remove the first six digits Keep any following digits in the Input GTAI Add a PC 238 amp SSN 3 Component SSN GTAI Digits 441425 123456 wt JIB ij J 238 123456 J TI E Ji i A Matching Prefix to PC SSN This example translates any global title address matching a pattern consisting of a prefix 441425 following by a suffix of any digits and any length into a combination of Point Code 235 and SSN
47. a nala nal yan ka kra nalan haaa a da 183 9 125 MTP LINK lt biln kK S gt su a saa sienno y aro nbwa na Wiya wan b n nh nn aya na n ba ya Wa D n bay n h na diy nya 183 9 13 ATMSIQNASLING ciya xal l ka Sek Sad nen kap ke n ba a neb G DAR NARO a VAN a d 183 GIOSSOMY rwwXeJmlhljl ard nm 185 Figures 1 Overview of SWS od si ya eduse kn ani lek d W D nA der k d dar M ne y r Sek Did nade dad D Edar EAA 9 2 SWS Mode modules supported 2 2 00 rr kaka k y kaka kak kak 12 3 Signaling Paths in a Single SWS Configuration cece eee eee kk ka 19 4 Signaling Paths in a Dual Resilient Configuration cece eee eee eee eee teeta 20 5 Single SWS Connected to SSP SCP or STP ccc kk kk ented 20 6 SWS Dual Configuration with Connections to SSP SCP cceceeee cece ee ee teeter ened 21 7 SWS Dual Configuration with Connections to STP cece cece kk kk ka 21 8 SWS Dual Configuration with Connections to Mated STP Pair cccccceee eee eeeeteeeeeeneentenenes 22 9 Multiple Network Contexts to Support Multiple Local Point Codes cceeeeee eee eeeeee tees 23 10 Multiple Network Contexts with an STP Pair ccceccce eee eee k kk k ya 23 11 Multiple Network Contexts Support for Multiple Network Types ccceeee cece teens ee ea enna 24 12 Module IDs for Use with Multiple Network Contexts e c
48. bit rotation When set the SLS field is bit rotated after Signaling Gateway selection and prior to MSU transmission All other bits are reserved for future use 8 7 5 STN_RAS SIGTRAN Remote Application Server Configuration Synopsis This command initiates a Remote Application Server Syntax STN_RAS lt nc_id gt lt ras gt lt dpc gt lt rc gt lt nasp gt lt flags gt Example STN RAS NC2 16 14065 1 2 0x0000 Parameters The STN_RAS command has the following parameters lt nc_id gt SS7 Network Context The Network Context together with a Destination Point Code DPC uniquely identify an SS7 node by indicating the specific SS7 network it belongs to When not specified a value of 154 Dialogic DSI Signaling Servers SWS Mode User Manual Issue 3 NCO is assumed Supported values are NCO NC1 NC2 or NC3 The parameter is only applicable for M3UA operation lt ras gt Remote Application Server The Remote Application Server might not have the same ID value as an existing Remote Signaling Gateway The valid range is O 255 lt dpc gt Specifies an Destination Point Code DPC value for the Remote Application Server Only one RAS SNRT or C7RT can be configured with a particular DPC within a network context e lt re gt The logical routing context used in communicating with a remote server An RC might not be associated with any other remote server The valid range is 0 2147483647 lt nasp gt The nu
49. command can configure a combined link set to a remote Destination Point Code DPC An MTP route exists within a particular Network Context and might not use link sets operating within differing Network Contexts MTP routes can be designated as default routes and can be used to convey traffic for multiple destinations without the need to configure each DPC as an explicit MTP route Typically this is useful when a signaling point connects simply to a single STP or a mated pair of STPs and all traffic can be sent to the STP irrespective of the current network status Two types of default route are supported one associated with a real DPC In this case the default route is deemed to be accessible whenever the specified DPC is accessible The other associated with a pseudo DPC which is a point code that does not exist within the network for example zero In this case the default route is deemed to be accessible as soon as the link sets within the route are available 146 Dialogic DSI Signaling Servers SWS Mode User Manual Issue 3 A maximum of one default route for each supported Service Indicator or user part is permitted Note The MTP_ROUTE command must be used for each destination point code to be accessed including the adjacent point code There may be only one MTP_ROUTE command for each destination Note Attempting to mix in the same configuration file lines that use current command formats with lines tha
50. dialogs will be sent The number of dialogs must lie within the limit specified with the TCAP_CONFIG command 8 10 MAP Configuration Commands The MAP configuration commands include MAP_CONFIG MAP Configuration MAP_NC_CONFIG MAP Configuration 8 10 1 MAP_ CONFIG MAP Configuration Synopsis The MAP_CONFIG command defines the global configuration parameters for MAP when existing in a single network or for Network Context 0 NCO when existing in multiple Network Contexts This command should only be used if the MAP software has been licensed and configured on the SIU and must appear on a separate command line in the config txt file after the SCCP_SSR command that identifies MAP as the protocol module Syntax MAP CONFIG lt options gt 168 Dialogic DSI Signaling Servers SWS Mode User Manual Issue 3 Example MAP_ CONFIG 2 Parameters The MAP_CONFIG command includes the following parameter lt options gt A 32 bit value containing run time options for passing to the MAP module Individual bit definitions are as specified for the options field in the MAP_MSG_CONFIG command as defined in the MAP Programmer s Manual Currently this includes two bits as follows Bit Mnemonic Description 0 MAPF_V2_ERRORS V3 dialogs use the V2 error format Dialogs are closed immediately on reception of 1 MAPF_NO_PREARRANGED_END CLOSE REQ 10 2 MAP_NC_CONFIG MAP Configuration Synopsis The MAP_NC_CO
51. given in this section are for a single Signaling Server 2 3 1 SS7G31 and SS7G32 Signaling Servers Protocol Capabilities Feature or Protocol SS7G31 Capabilities SS7G32 Capabilities Dialogic DSI SS7 Network Up to 3 SS7DHP boards up to 3 SPCI4 Interface Boards Up to 1 SPCI4 board or 1 SS7HDP board boards or up to 2 SS7MD boards Portable Media Device USB USB PCM per board 4 per SPCI4 or 4 per SS7HDP 4 per SPCI4 4 per SS7HDP or 4 per SS7MD Ethernet interface 4 6 SS7 links per board 4 per SPCI4 or 64 per SS7HDP SA 64 per SS7HDP or 124 per HSL links per board 2 per SS7HDP 2 per SS7HDP ATM links per board 4 per SS7MD M3UA links 256 256 M2PA links 256 256 SS7 linksets 64 64 SS7 links 64 248 SS7 routes 4096 4096 Remote Application servers 256 256 M3UA routes 256 256 Network contexts 4 4 SCCP Up to 512 Local sub systems remote sub Up to 512 Local sub systems remote systems or remote signaling points subsystems or remote signaling points TCAP Up to 65 535 simultaneous active dialogs Up to 65 535 simultaneous active dialogs MAP Up to 65 535 simultaneous active dialogs Up to 65 535 simultaneous active dialogs Hosts Up to 128 hosts Up to 128 hosts 2 3 2 Application I nterfaces Supports RESTful HTTP interface Feature or Protocol Capabilities Inteface Architectural Style RESTful Payload XML XSD schema provided yes 19 Chapter 2 Specificati
52. gt parameters should be set accordingly A route should be defined on each unit for the inter SWS link set using the MTP_ROUTE command referencing the appropriate lt linkset_id gt with a lt dpc gt value set to the point code of the SWS pair The management entity within each SWS indicates the availability of the inter SWS links to the application running on the first host using the message based Application Programming Interface API Additional information for the protocol configuration commands and parameters may be found in the previous sections 9 4 Configuring an ANSI System This section provides additional guidelines for configuring an SWS to operate in accordance with the ANSI T1 specifications The default protocol configuration for an SWS specifies ITU T protocol behavior To operate in accordance with ANSI it is necessary to modify the options settings for MTP3 and the User Part held in the protocol configuration file on the SWS The MTP_CONFIG lt options gt parameter must have bits 8 to 11 set to 1 value 0x0f00 to define ANSI operation The MTP_LINKSET lt ssf gt parameter must have the least two significant bits B and A both set to 1 so that all MTP3 originated messages are assigned a message priority of 3 The two most significant bits D and C are the network indicator Hence valid ANSI ssf values are 0x3 0x7 Oxb and Oxf ANSI operation for the protocol layers above MTP3 is specified using the configuration va
53. is accessible One associated with a pseudo DPC which is a point code that does not exist within the network for example zero In this case the default route is deemed to be accessible as soon as the link sets within the route are available A maximum of one default route for each supported Service Indicator or user part is permitted Configuration of default routes utilizes bits 2 3 and 5 in the lt flags gt field of the MTP_ROUTE command For transaction based applications it is also necessary to supply a lt pc_mask gt value with the definition of each SCCP_SSR The lt pc_ mask gt is used to determine which bits of the target point code the destination point code in the MTP label of the transmit message should be ignored when selecting the route The lt pc_mask gt makes it possible to configure a route to a specific destination that is also used for other destinations with a similar point code This allows configuration of default destination sub systems for example to a gateway SCP 9 6 Dynamic Host Activation The SWS has the ability to activate deactivate host links using the MNINI MNINE commands This functionality supports the preservation of the host status over a restart and no alarms are reported for those hosts that have been deactivated If the SIU_HOSTS configuration command is omitted from the configuration file all host links are configured but only the first is activated the others remain deactivat
54. kinn kbk ka lands nia bab b ka Dii EAR k kb 19 3 Architecture cnore o obeo zg go rm 21 DL VOVEIVIOW iiaae e T nan EE ETT jn dan O ETE 21 3 2 Signaling Topologie Serera e e EE s na E ha n d ba ka bi van A WSE C R N 21 3 3 Multiple Network SUD OL sa k 2k sporite na a ni bana an Aa k kaya KA n k kah rk nan r a r n R WA 24 3 3 1 Support for Multiple Local Point Codes M Mh AWkk klkk kk kk kk eee kk kkkkkkkkkkkkka 25 3 3 2 Support for Multiple Networks ccc cece eee eee k ka 26 3 3 3 Protocol Handling for Multiple Network Contexts cceceeeeee eee ee nsec teen eee 27 3 3 3 1 MTP AppliGatiOns d snna xabin n aka d yana A ahbe n si nan dab ah W na Waa Saba W DA DANA 27 3 3 3 2 SOCP Applications ss sc sil mayka die nean kaba Dab Wad daa Wa b n ka Daka D b 27 3 3 32 54 TCAP MAP AppllGati OS o i sis s bakla arg ka kan nin n daene dka han i k kya ka k lkae a aa 28 3 4 Inter SWS Comm hiCabtlo iy xi cece a halka ka nuk ni ya nak ala neka ak k kl bakla a a waa aa kw kada 28 3 5 Transaction Based Applications xis sara nians kanik naa keki n Way A h kak Waa a kbk ky aa 28 3 5 1 Management of Local SCCP Sub SyStemS hLhk kh hklklkkk kk cette ee eee nena kk ka 28 3 6 RESINCN CO sud nya ye ai xar n ena E a kara Saviors Maa mn wada ke bana fl na n k ne Kwe n ee bano n ke eda 29 3 61 T
55. lt bpos gt lt stream gt A reference to the logical PCM highway from which the signaling processor is to insert the signaling This must be in the range 0 to 3 Set to 0 if the MTP link is associated with an M2PA link Valid values are shown in the following table Network I nteface Board Type Stream Port Connector 0 1 RJ45 L1 Dialogic DSI SPCI4 1 2 RJ45 L2 Dialogic DSI SS7HDP 2 3 RJ45 L3 3 4 RJ45 L4 lt timeslot gt The timeslot on the lt stream gt that should be used for signaling For a T1 port the range is 1 to 24 For an E1 port the valid range is 1 to 31 The timeslot must not have been previously assigned another MTP or Monitor link Set to zero if the MTP link is associated with an M2PA link For HSL links the timeslot parameter should be set to Oxff to indicate that the link is attached to an LIU configured with the LIU_CONFIG command HSL signaling might not use timeslots already configured for signaling or data lt flags gt A 32 bit value each bit enabling or disabling additional run time options Bit 0 is used to signify override automatic selection of proving period When set to 1 bit 3 is used to determine whether to use the EMERGENCY or NORMAL proving procedures If set to 0 the appropriate proving period in accordance with the SS7 protocol is used Bit 1 when set to 1 causes a signaling link test to be performed on link activation restoration If set
56. lt hport gt lt pport gt lt flags gt lt rserver gt a lt na gt 192 219 17 200 0 0 0 0 C 2905 2905 0x0006 1 0 192 219 17 200 0 0 0 0 C 2906 2906 0x0006 1 0 lt RC gt lt TRMD gt lt flags gt 1 LS 0x0000 lt NC gt lt ROUTE gt lt DPC gt lt flags gt 0x0000 lt rserver gt lt flags gt 1 0x0 00 0 lt BIND gt lt LAS gt lt RSERVER gt lt FLAGS gt LBIND 1 1 1 0x0000 User part configuration e g SCCP 9 9 2 2 SWS to Remote Application Server I PSP Operation Example configuration of an SWS in IPSP operation using 4 links to connect with 2 remote application servers M3UA config to connect SWS to 2 RAS IPSP using 4 LINKS lt host gt SIU_HOSTS 1 lt nc gt lt ss7md gt lt flag STN NC NCO ITU14 0x000 FF HF s s s s rN rN rN IN IN IN IN LINK NCO M3UA LINK NCO M3UA LINK NCO M3UA LINK NCO M3UA lt nc gt lt type gt lt link gt w NE o lt nc gt lt id gt lt opc LAS 0 100 LAS 100 lt nc gt lt rserver gt RAS 0 s gt 0 lt ipl gt lt ip2 gt lt end gt lt hport gt lt pport gt lt flags gt lt rserver gt r d lt na gt 123 1 2 3 0 0 0 0 C 2905 2905 0x0000 0 0 123 1 2 3 0 0 0 0 C 2906 2906 0x0000 0 0 123 1 2 3 0 0 0 0 C 2907 2907 0x0000 0 0 123 1 2 3 0 0 0 0 C 2908 2908 0x0000 0 0
57. maintain RAID array hard disk drive integrity you should follow the correct procedure detailed in Section 5 6 1 SS7G31 and SS7G32 Hard Disk Drive RAID Management on page 41 89 Chapter 6 Management Interface Syntax MNINE SNLINK INHIBIT HOSTID GID LINK DRIVE Prerequisites The following restrictions apply When activating a link the SS7 signaling link set has not already been activated When uninhibiting a link the link has been activated The circuit group must be already configured and deactivated The disk drive must be in the INACTIVE state Attributes None Examples MNINE SNLINK 3 MNINE SNLINK 3 INHIBIT N MNINE HOSTID 1 MNINE GID 2 MNINE LINK 2 INHIBIT N MNINE DRIVE 0 6 12 3 MNRSI Maintenance Restart System Initiate 90 Synopsis This command restarts the entire system All current log on sessions are terminated No change to the system configuration occurs and the state of all links is automatically restored when the system restart is complete If SYSTYPE is set the systems operating mode changes its system type after restart Possible operating modes are SWS Signaling Web Services SGW SIGTRAN Signaling Gateway e SIU Signaling Interface Unit TEST The default mode of operation the server is shipped with and that does not require an operating mode specific license If software supporting a selected mode of operation has not bee
58. meaning of each field in the output is as follows CAPABILITY A licensable capability of the system This may be a protocol license or an operating mode license A capability may have been purchased as a software license shipped as part of the system or bundled as part of another license If a capability is either not active on the system or doesn t provide measurements then it will not be displayed RXDATA The amount of data received in Kilobytes during the measurement period TXDATA The amount of data transmitted in Kilobytes during the measurement period RXPEAK The peak received data rate in Kilobytes s averaged over a rolling thirty second time window TXPEAK The peak transmit data rate in Kilobytes s averaged over a rolling thirty second time window PEAK The peak data rate for both transmitted and received data in Kilobytes s averaged over a rolling thirty second time window CONGESTION The number of times the license has exceeded its throughput threshold ENFORCEMENT The number of times the unit has enforced the license throughput limit PERIOD Time since measurements on the route were last reset Specified in hours minutes and seconds Note Note Values are reset using the RESET parameter MSEPP RESET Y resets the measurement values to 0 Syntax MSLCP RESET Dialogic DSI Signaling Servers SWS Mode User Manual Issue 3 Prerequisites None Attributes None Examples MSLCP MSLCP RESET
59. mode When using SS7HD boards high impedance mode can be selected for a particular LIU using the lt liu_type gt parameter in the LIU_CONFIG command Syntax MONITOR _LINK lt link _id gt lt if_type gt lt board_id gt lt blink gt lt bpos2 gt lt stream gt lt timeslot gt lt user_module gt lt host id gt lt flags gt Example MONITOR_LINK 0 tdm 1 0 1 1 1 1 Oxef 1 0x01 Parameters The MONITOR_LINK command includes the following parameters e lt link_id gt The monitor link s unique logical identity within the SWS It must be in the range 0 to one less than the maximum number of monitor links supported The value must not already be allocated to another MONITOR_LINK or MTP_LINK e lt if_type gt The interface type identifies the type of object being monitored The monitoring type should be set to one of the following values Mon_type Description TDM Single timeslot signaling link El HSL Unstructured E1 HSL NOTE LIU frame_format must be set to 10 T1 HSL Unstructured T1 HSL NOTE LIU frame_format must be set to 10 E1_FRAMED Framed 31 timeslot E1 HSL T1_FRAMED Framed 24 timeslot T1 HSL E1_PCM Structured 30 timeslot E1 HSL timeslots 0 and 16 are used for signaling The monitoring type value must be consistent with the liu_type and frame_ format values of the LIU_CONFIG command e lt bpos gt The board identifier of the signaling processor allocated to process the incoming si
60. omitted if the SWS is not in a dual resilient configuration Syntax SIU_REM ADDR lt remote_address gt Example SIU_REM ADDR 193 195 185 37 Parameters The SIU_REM_ADDR command includes the following parameters lt remote_address gt The IP address of the other SWS SIU in a dual resilient configuration 131 Chapter 8 Configuration 8 5 Physical I nterface Commands The physical interface commands include SS7_BOARD SS7 Board Configuration e LIU_CONFIG Line Interface Configuration STREAM_XCON Cross Connect Configuration 8 5 1 SS7_ BOARD SS7 Board Configuration Synopsis The SS7_BOARD command configures a Dialogic DSI SS7 Network Interface Board and its PCM ports Note An SS7_BOARD configuration command must exist for each SS7 signaling board physically present in the unit Syntax SS7_BOARD lt bpos gt lt board_type gt lt flags gt Examples SS7_BOARD 1 SPCI4 0x0000 SS7_ BOARD 2 SPCI4 0x0041 SS7_BOARD 2 SS7HDP 0x0041 Parameters The SS7_BOARD command includes the following parameters lt bpos gt The board position of the of the signaling board The valid range is 1 to 3 with board 1 at the bottom of the chassis lt board_type gt The board type Valid values are SPCI4 and SS7HDP The Dialogic DSI SPCI4 and SS7HDP Network Interface Boards have four T1 E1 interfaces The SPCI4 boards support up to four SS7 signaling links while the SS7HDP board supports up to 64 S
61. saving life sustaining critical control or safety systems or in nuclear facility applications Due to differing national regulations and approval requirements certain Dialogic products may be suitable for use only in specific countries and thus may not function properly in other countries You are responsible for ensuring that your use of such products occurs only in the countries where such use is suitable For information on specific products contact Dialogic corporation at the address indicated below or on the web at www dialogic com It is possible that the use or implementation of any one of the concepts applications or ideas described in this document in marketing collateral produced by or on web pages maintained by Dialogic may infringe one or more patents or other intellectual property rights owned by third parties Dialogic does not provide any intellectual property licenses with the sale of Dialogic products other than a license to use such product in accordance with intellectual property owned or validly licensed by Dialogic and no such licenses are provided except pursuant to a signed agreement with Dialogic More detailed information about such intellectual property is available from Dialogic s legal department at 9800 Cavendish Blvd 5th Floor Montreal Quebec Canada H4M 2V9 Dialogic encourages all users of its products to procure all necessary intellectual property licenses required to implement any concepts or applications and does
62. service field ssf value different from the ssf value configured for the link set When set to zero these messages are discarded When set to 1 all received messages are processed regardless of ssf value This bit is normally set to zero Bit 3 determines the behavior when a message is received from the SS7 network for a User Part that has not been configured If set to 1 a User Part Unavailable UPU message is issued to the network zero prevents the UPU from being issued This bit is normally set to zero Bit 6 controls the operation of the Signaling Route Set Test mechanism Normally when a remote signaling point becomes unavailable a periodic Signaling Route Set Test message is issued in order to provide that subsequent availability of the signaling point is detected Setting this bit to 1 disables the sending of this message This bit is normally set to zero Bit 8 selects between ITU T CCITT and ANSI operation If set to 1 the MTP operates in accordance with ANSI T1 111 if set to 0 the MTP operates in accordance with the ITU T CCITT Q 700 series recommendations Dialogic DSI Signaling Servers SWS Mode User Manual Issue 3 Bit 9 selects between 14 16 bit point codes and 24 bit point codes When set to 0 14 bit or 16 bit point codes are selected see also Bit 20 When set to 1 24 bit point codes are selected Note Bit 9 must always be set to 1 for ANSI operation Bit 10 is used to enable multiple congestion sta
63. services are not required You can allow FTP access to the SWS by using the FTPSER parameter You can disable FTPSER by setting the parameter to N Activation and deactivation of the FTP server takes immediate effect You can restrict access to the SWS so that it operates only over secure shell SSH by using the SECURE parameter By default there is no restriction allowing the use of normal telnet and FTP You can enable secure operation by setting the SECURE parameter to Y Activation and deactivation of secure operation takes immediate effect 71 Chapter 6 Management Interface 72 The MODE parameter is used to select the operating mode of the unit A unit that is operating as a standalone unit should be operated in SIUA mode When two units are used in a dual resilient configuration one unit should operate in SIUA mode and the other should operate in SIUB mode Changes to the MODE parameter value require a system restart in order to take effect Activation of protocols require a system restart You can set system location and system contact details These values will be mirrored in the System Data object of the System group i e DSMI SYSTEM OBJ ECTS MIB systemDataObjectTable When a password is specified all new MML sessions except for serial port 2 COM2 require the password before entry Syntax CNSYS SYSID SYSREF MODE SECURE LEDID TRACELOG TRACEFMT DMHOST FTPPWD FTPSER SCCPCL
64. should be kept Sections marked R identify that the section of the Called Address being translated should be replaced with digits from the Address component referenced by the GTT Rule GTT Rule sections should not be empty 9 11 3 Examples 9 11 3 1 Example 1 Match GTAI digits 09876543210 Remove the GTAI and add a PC 138 and SSN 8 PC SSN GTAI Digits 09876543210 09876543210 138 8 Component Input Pattern Address Output ooog BOLE Specific Address to PC SSN This example translates a received specific Global Title address 09876543210 into a combination of Point Code 138 and SSN 8 SCCP_GTT PATTERN lt pattern_id gt lt addr_indicator gt lt pc gt lt ssn gt lt global _title gt lt gtai_pattern gt SCCP_GTT_PATTERN L 0x10 0 0 0x001104 09876543210 SCCP_GTT_ADDRESS lt nc_id gt lt address_id gt lt addr_indicator gt lt pc gt lt ssn gt lt global_ title gt lt gtai_replacement gt SCCP_GTT_ ADDRESS 11 0x03 138 8 0 SCCP_GTT lt nc_id gt lt pattern_id gt lt mask gt lt primary address _id gt lt backup_address_id gt SCCP_GTT 11 R TI 9 11 3 2 Example 2 Match a seven digit number starting 123 followed by any three digits then 7 179 Chapter 9 Configuration Guidelines Change the first digits to 333 Keep the next three digits from the called party address Change the fourth digit to 4 Add
65. that enables messages received from the protocol stack to be logged in a text file Typically used for diagnostic purposes Signal Connection Control Part An SS7 stack layer that allows a software application at a specific node in an SS7 network to be addressed Signaling Gateway Signaling Interface Unit Signaling Processor The logical processing channel within the signaling processor hardware that conducts the processing of a signaling link Signaling System Number 7 An identifier for the family of Dialogic DSI High Density SS7 Network Interface Boards A set of software modules that implement the various layers of the SS7 protocol stack Secure Shell Service Switching Point Signaling Transfer Point An SCCP sub system resource This can be a local sub system a remote sub systems or a remote signaling point A text file used for system configuration Transaction Capabilities Application Part An SS7 stack layer that enables the deployment of intelligent network and mobile services by supporting non circuit related information exchange between signaling points using the SCCP connectionless service An example program that demonstrates how a user application can interface with the TCAP protocol module The smallest switchable data unit on a TDM bus For T1 and E1 technologies one time slot is equivalent to a data path with a bandwidth of 64 Kbps A worked example of exchanging messages with the MTP3 module
66. the NP and ES four bits each in the second octet and the NAI in the third octet 0100 Other values are undefined spares or reserved Bit 2 SSN Indicator A 1 indicates that SubSystem Number is used in addressing Bit 1 PC Indicator A 1 indicates that Point Code is used in addressing For ANSI the parameter is defined as Bit 8 Designated for national use 0 indicates that the address is international and 1 indicates that the address is national Bit 7 Routing indicator 0 Route on GT 1 Route on DPC and SSN Bits 6 3 Global title indicator the value in these bits indicates what data precedes address information in the global title so in the context of the SCCP_GTT_PATTERN statement which octets are expected in the lt global_title gt parameter Defined values are No Global title In this case the lt global_title gt parameter value should be 0 zero 0000 basel0 without Ox prefix Global title includes TT Numbering Plan NP and Encoding Scheme ES The 0001 lt global_title gt parameter should be two hexadecimal octets prefix Ox followed by four hexadecimal digits the TT in the first octet the NP and ES four bits each in the second octet Global title includes Translation Type TT only The lt global_title gt parameter 0010 should be a single hexadecimal octet the octet value being the TT Other values are undefined spares or res
67. the settings and behavior to be configured independently for each Network Context This allows a system to be configured with mixed ITU and ANSI network types or allows multiple networks of the same type to be configured with different settings Figure 11 Multiple Network Contexts Support for Multiple Network Types ZAN AN To j j _NCO RW Remote Node i Point Code 5 Link Set 0 eres 1 N J S j j ITU Network NC1 Remote Node Point Code 6 Link Set 1 Point Code 2 Pi 16 BitPC Xu La N B Ps SWS o e S A OON ITU Network _NC2 Remote Node Point Code 7 j Link Set 2 PointCode3 j 24 Bit PC j j bs A N Pa f nes Remote Node Point Code 8 j Link Set 3 PointCode4 Fi 24 Bit PC Dialogic DSI Signaling Servers SWS Mode User Manual Issue 3 3 3 3 Protocol Handling for Multiple Network Contexts Figure 12 shows the use of multiple Network Contexts from an application perspective and provides examples of the module IDs for the various application layers Figure 12 Module I Ds for Use with Multiple Network Contexts SCCP NCO 0x33 SCCP NC1 SCCP NC2 SCCP NC3 0x36 0x37 0x38 MTP NCO MTP NC1 MTP NC2 MTP NC3 0x22 0x82 0x92 0xb2 3 3 3 1 MTP Applications Since there is one instance of MTP3 for each Network Context messages that are destined f
68. to verify that all units in a delivery are at the same software revision Proceed as follows 1 Check the current software version running in the system see the CNSWP MML command in Section 6 9 Configuration Commands on page 56 for more information 2 Check the latest distribution file from the SS7G3x sections on the Dialogic Signaling and SS7 Products download web site http www dialogic com support helpweb signaling 3 If a download is required then store the distribution file in an empty directory of your hard drive 4 Follow steps detailed in Section 5 2 System Software on page 37 in order to update the system software Dialogic DSI Signaling Servers SWS Mode User Manual Issue 3 4 2 4 Installing Software Licenses This section describes how additional licenses are installed on a Signaling Server Each Signaling Server is licensed to run specific components of the protocol stack The STLCP command provides a printout that shows which components are licensed on a particular unit Each unit is uniquely identified by a unit identity value which is displayed as the UNITID parameter in the CNSYP command output The License File purchased as described in Section 2 2 is a simple text file The contents of the file are similar to the following FEATURE SWS _U_G30 dialogic 1 000 permanent uncounted HOSTID 000e0de513c4 SIGN 0004 9D4E 76CB EBOF 1B97 050A 01BE 9F00 EB51 0B97 E61E COA9 D62B AFEE D91F FEA
69. to 1 the HSL signaling link will use a 12bit sequence number If set to 0 12 f SR a the HSL signaling link will use a 7bit sequence number 182 Dialogic DSI Signaling Servers SWS Mode User Manual Issue 3 9 12 4 MTP_LINK lt timeslot gt For HSL links the lt timeslot gt parameter should be set to Oxff to indicate that the link is attached to an LIU configured with the LIU_CONFIG command HSL signaling links might not use timeslots already configured for signaling or data TDM links might not use timeslots already configured for HSL or data 9 12 5 MTP_LINK lt blink gt For HSL links the signaling processor channel of the lt blink gt parameter must be set to a value of 0 Only values 0 0 and 1 0 are permitted On each Dialogic DSI SS7HDP Network Interface Board a single processor cannot be configured for both HSL and TDM links Different processors on the same SS7HDP board can be used individually for HSL and non HSL operation 9 13 ATM Signaling ATM signaling on the SS7G32 is supported through the field installation of up to 2 Dialogic SS7MD Network Interface Boards SS7MD boards cannot be installed in a SS7G31 or SS7G2x Signaling server See the Signaling Servers User Manual Supplement for ATM Operation for further information regarding ATM signaling 183 Chapter 9 Configuration Guidelines 184 Glossary A link AIS API BER blink CCITT config txt CPU CSSR DPC DSI dual resil
70. to a single host via Ethernet as illustrated in Figure 3 Dashed lines indicate optional equipment Figure 3 Signaling Paths in a Single SWS Configuration s o N N HTTP SU eme A 2 SWS a kk Web Application Servers This system may be scaled up at initial system build time or later to a dual resilient configuration connected to the maximum number of hosts supported See Figure 4 21 Chapter 3 Architecture Figure 4 Signaling Paths in a Dual Resilient Configuration Web Application HTTP SWS PAIR SWSA SWSB 7 SIGTRAN gt 7 SIGTRAN gt The SWS may connect to a number of adjacent signaling points the maximum number being limited only by the maximum number of link sets supported by the unit The adjacent SS7 nodes may be Signaling Transfer Points STPs Signaling Switching Points SSPs or Signaling Control Points SCPs The following diagrams indicate possible configurations although these are not exhaustive Figure 5 shows a single SWS connected to an adjacent SSP SCP and or STP Figure 5 Single SWS Connected to SSP SCP or STP SWSA F link In a dual resilient configuration the SWS pair share the same SS7 point code Figure 6 shows an SWS pair connected to a single adjacent SSP SCP 22 Dialogic DSI Signaling Servers SWS Mode User Manual Issue 3 Figure 6 SWS Dual Configuration with Connections to SSP SCP Inter SWS
71. using the CNBUS command this overwrites the existing configuration with the last back up configuration The protocol configuration may be returned to the original default configuration by using the CNRDI command 8 11 1 Establishing an FTP Session An FTP session should be established between the remote machine and the SWS by entering the appropriate command on the remote machine s keyboard for example ftp 123 124 125 125 The appropriate user name and password to use depend on whether a password has been configured for the siuftp account using the CNUAS MML command If a password is configured then FTP access must use the fixed user name siuftp in conjunction with the normal MML access password as configured by setting the CNUAS parameter PASSWORD for the siuftp account If no password has been configured then access is gained using a default password siuftp Access to the SWS using other user accounts except siuftp is denied The state of FTP password may be viewed using the CNUAP command FTP access may be established over SSH using secure FTP FTP access using secure FTP is similar to normal FTP with the exception that Secure FTP users will by default land in the parent directory of siuftp and will need to change to the siuftp directory before commencing operation Most Secure FTP clients provide an option to configure the default initial directory If available users may choose to use this instead of manually changing to the s
72. would occur if the SWS is move to a different IP address or if the Hard Disk is replaced SWS MMI Interface The SWS will report that the Foreign IP address is the same as the SWS IP Address in the STHLP command Host link status HOSTID RSI STATE FOREIGN IPADDR TCP STATE 0 ACTIVE 192 168 0 1 ESTABLISHED EXECUTED 5 7 3 2 Supported Ciphers The Signaling Server uses OpenSSH_3 5p1 to provide SSH functionality and supports the following ciphers 128 bit AES Blowfish 3DES CAST128 Arcfour 192 bit AES or 256 bit AES Refer to the SSH Client documentation for details for how the cipher may be specified System Backup and Restoration You can back up the system configuration software licenses and operating software to an archive which can be restored to the system at a later date At startup the system will take a copy of the following system files storing them in the syslog subdirectory of the siuftp account File Description ss7g30 tgz A binary file containing pre Release 2 2 0 operating software if present ss7g30 sws tgz A binary file contain SWS mode operating software if present ss7g30 siu tgz A binary file contain SIU mode operating software if present ss7g30 sgw tgz A binary file contain SGW mode operating software if present sgw lic A text file containing the current software licenses active on the system if present modes A binary file containing a software license a
73. 173 an update can take place without impact to other configuration elements in the system If the configuration command cannot be dynamically configured the SWS requires a restart before the configuration updates can take effect Signaling boards are configured using SS7_ BOARD commands with the associated PCMs configured using the LIU_CONFIG command M2PA Sigtran Links are configured using the STN_LINK command The MTP parameters are assigned using the MTP_CONFIG MTP_NC_CONFIG MTP_LINKSET MTP_LINK and MTP_ROUTE commands The M3UA parameters are assigned using the STN_NC STN_LAS STN_LINK STN_RAS STN_RASLIST STN_ROUTE STN_RSGLIST and STN_LBIND commands The SCCP protocol is configured using the SCCP_CONFIG and SCCP_SSR commands Subsystems are assigned using SCCP_SSR Concerned subsystems are configured using SCCP_CONC_SSR SCCP Global Title Translations are configured using the SCCP_GTT_PATTERN SCCP_GTT_ADDRESS and SCCP_GTT commands TCAP on the SWS is activated using the TCAP_CONFIG and TCAP_NC_CONFIG commands and may be configured with Dialog groups using the TCAP_CFG_DGRP command Note The definitions of the configuration commands used within this manual are applicable to the versions of software defined in the applicability statement provided in Section 1 4 Applicability on page 13 The SWS software continues to support older versions of the commands identified in earlier revisions of this manual unless explicitly st
74. 2 Command specific mode parameter Value can be one of the following MODE SIUA or SIUB e CGRP MTPR MTPLS MTPL MONL LIU SSR CSSR M3UAR or M3UARLIST See the MMI commands for more information MODULE Protocol module name Permissible values are MTP TCAP MAP M3UA and SCCP NA Network Appearance used when communicating with a remote server Valid range is 0 16777215 NASP The number of ASP SIGTRAN Links required in load sharing mode Or NC_ID SS7 Network Context The Network Context together with a Signaling Point Code SPC uniquely NC identifies an SS7 node by indicating the specific SS7 network it belongs to The Network Context may be a unique identifier for a physical SS7 network or may be used to subdivide a physical SS7 network into logical parts Possible values are NCO NC1 NC2 or NC3 NTP NTP activation parameter Set to Y to enable use of Network Time Protocol or N disable use of Network Time Protocol NTPSER Identifier for the NTP server In the range 0 to 15 OBJ ECT Identifier of a table within a Signaling Server Group Object Refer to the Dialogic DSI Signaling Servers SNMP User Manual UO5EPPO1 for MIB details Identifier of the Signaling Server Group Object in the DSMI MIB OBJ GRP 1 Management Group 2 System Group 3 Platform Group 4 IP Group 5 Board Group 6 SS7 Group 7 SIGTRAN Group 8 Access Group Refer to the Dialogic DSI Signaling Servers SNMP User Manual U05EPP01 for MIB details
75. 7 Monitor Link Measurements SIGTRAN Subsystem Management e SIGTRAN Link Status e SIGTRAN Link Measurements e SIGTRAN Remote Application Server Status e SIGTRAN Gateway List Configuration e SIGTRAN Route Configuration e SIGTRAN Route Status Dialogic DSI Signaling Servers SWS Mode User Manual Issue 3 Figure 15 Example status output Sa File Edit View History Bookmarks Tools Help 2 e z 7B http 172 28 148 118 dialogicwebservice signaling mmi IPEPP f http 172 28 148 naling mmi IPEPP F IP Ethernet Port Print ETH SPEED IPADDR SUBNET SCTP 1 AUTO 172 28 148 118 255 255 255 0 Y 2 AUTO 0 0 0 0 255 255 255 0 Y 3 AUTO 0 0 0 0 255 255 255 0 Y 4 AUTO 0 0 0 0 255 255 255 0 N 125 Chapter 7 Web based Management Interface 126 Dialogic DSI Signaling Servers SWS Mode User Manual Issue 3 Chapter 8 Configuration 8 1 Overview Initial SWS protocol and physical interface configuration is determined by a text file containing the parameters that are specific to a particular installation It is necessary for you to modify this file to configure the unit for the desired operation After this initial configuration the unit must be restarted before the configuration is applied Modifications to the configuration require that the text file be updated If the modifications are to configuration elements capable of dynamic configuration see Section 9 7 Dynamic Configuration on page
76. 7G30 SWS logged on at 2004 09 01 00 28 13 lt The IP address is set by entering the PEPS system configuration command described in Chapter 6 Management Interface For example to set the IP address to 123 124 125 126 enter the following command ipeps eth 1 ipaddr 123 124 125 126 It is also possible to configure a sub net mask if the unit is a member of a sub net The default sub net mask is 255 255 255 0 To set the sub net mask to a different value enter a command similar to the following where in this example the sub net mask is set to 255 255 255 192 ipeps eth 1 subnet 255 255 255 192 The management interface also allows an IP gateway address to be specified using the GATEWAY parameter in the IPGWx command By default this is set to 0 0 0 0 indicating that no gateway is present To set the gateway address to 123 124 125 250 for example the following command is used IPGWI IPGW DEFAULT GATEWAY 123 124 124 250 The current settings may be displayed by entering the appropriate commands ipepp 1pgwp The configuration is displayed in the following format lt ipepp ETH SPEED IPADDR SUBNET SCTP 1 AUTO 172 28 148 109 255 255 255 0 Y 2 AUTO 200 2 2 1 255 255 255 0 Y 3 AUTO 0 0 0 0 255 255 255 0 E 4 AUTO 0 0 0 0 255 255 255 0 N EXECUTED lt ipgwp IPGW GATEWAY MASK IPNW DEFAULT 172 28 148 1 EXECUTED The new IP address parameters is initialized with immediate effect If the IP address used to login
77. 8 1 8 8 1 8 1 0 9 0x00006 TDM 9 1 9 9 1 9 1 0 10 0x00006 TDM 10 1 10 L 1 10 L 0 11 0x00006 TDM 11 1 121 t1 1 11 1 0 12 0x00006 TDM 12 1 12 12 1 12 1 0 13 0x00006 TDM 13 1 13 13 E 13 1 0 14 0x00006 TDM 14 1 14 14 1 14 1 0 15 0x00006 TDM 15 1 15 iS 4 15 1 0 16 0x00006 TDM 16 2 0 0 1 16 1 0 17 0x00006 TDM EXECUTED 6 9 17 CNSMC Change SNMP Manager Configuration Synopsis This command allows the administrator to alter an SNMP manager s configuration The parameters and the associated values are as per the CNSMI command Syntax CNSMC MNGR IPADDR TFORMAT PORT TCOM USER ENGINE LABEL Prerequisites The DSMI based SNMP agent must be enabled The manager must already have been defined with the CNSMI command If an SNMP v3 user is specified the user must already be defined Attributes CONFIG 64 Dialogic DSI Signaling Servers SWS Mode User Manual Issue 3 Examples CNSMC MNGR 1 IPADDR 192 168 220 222 6 9 18 CNSME End SNMP Manager Configuration Synopsis This command removes an SNMP manager definition from the list of configured SNMP managers The command takes a single parameter MNGR which identifies the particular manage to remove Syntax CNSME MNGR Prerequisites The DSMI based SNMP agent must be enabled The manager must already have been defined with the CNSMI command Attributes CONFIG Examples CNSME MNGR 1 6 9 19 CNSMI Set SNMP Manager Configuration Syn
78. AP protocol options as defined for the TCAP Configuration Request message in the TCAP Programmer s Manual lt dig_hunt gt The hunt mode used in the case of multiple TCAP hosts to determine which TCAP group is selected whenever a new incoming dialog arrives It should be set to 0 1 or 2 for the following hunt modes 0 Cyclic Selection Each new incoming dialog is allocated to the next TCAP group 1 Load Balanced Selection Each new incoming dialog is allocated to the group with the least number of active incoming dialogs 2 Sequential Selection Each new incoming dialog is allocated to the group containing the first inactive incoming lt dialogue_id gt Dialogic DSI Signaling Servers SWS Mode User Manual Issue 3 lt addr format gt The format of messages used by TCAP Possible values are 0 The address format is determined by the setting of bit 1 of the lt options gt field If bit 1 of the lt options gt field is set to indicate ANSI TCAP PDU formats then ANSI format 24 bit point codes are selected If bit 1 of the lt options gt field is not set ITU T TCAP PDU formats and 14 bit point codes are selected 1 ITU T format 14 bit point codes 2 ITU T format 24 bit point codes 3 ANSI format 14 bit point codes 4 ANSI format 24 bit point codes Note 16 bit point codes are not supported 8 9 2 TCAP_NC_CONFIG TCAP Network Context Configuration Synopsis The TCAP_NC_CONFIG co
79. CP_GTT_ PATTERN lt nc_id gt lt pattern_id gt lt addr_indicator gt lt pc gt lt ssn gt lt global_title gt lt gtai_pattern gt Example SCCP_GTT_PATTERN 5 0x10 0x0000 0 0x001104 44 Parameters e lt nc_id gt SS7 Network Context The Network Context together with a Signaling Point Code SPC uniquely identifies an SS7 node by indicating the specific SS7 network it belongs to When not specified a value of NCO is assumed Supported values are NCO NC1 NC2 or NC3 lt pattern_id gt A unique ID identifying the pattern Values in the range 0 1023 are valid A maximum of 256 pattern_id s may be defined within any or each Network Context lt addr_ind gt The Address Indicator octet is formatted according to the point code format specified in the SCCP_CONFIG lt options gt parameter and indicates which elements of addressing are present in the called party address pattern being defined Bit usage for this parameter differs between the ITU Q 713 and ANSI T1 112 specifications For ITU the parameter is defined as Bit 8 Reserved for national use Bit 7 Routing indicator 0 Route on GT 1 Route on SSN Bits 6 3 Global title indicator the value in these bits indicates what data precedes address information in the global title so in the context of the SCCP_GTT_PATTERN statement which octets are expected in the lt global_title gt parameter Defined values are 0000 No Global title In this case
80. CUTED 6 10 3 IPWSP Display Web Service Configuration Synopsis 84 This command displays the configuration for web services Syntax IPWSP Prerequisites None Attributes None Example IPWSP Output Format lt ipwsp WEBSERV HTTPPORT HTTPSPORT HTTPSCERT MGMT 80 443 SELF WSAPI 81 EXECUTED Dialogic DSI Signaling Servers SWS Mode User Manual Issue 3 6 10 4 IPWSS Web Service Configuration Set Synopsis This command configures parameters for web services It allows HTTP and HTTPS Port numbers and the type of Certificate for HTTPS to be specified Supported SSL certificates for HTTPS are OpenSSL PEM files without a passphrase To load a certificate the certificate file should be named either MGMT PEM or WSAPI PEM and uploaded to the siuftp account This certificate will be installed and used when the system is restarted The file will be removed from siuftp account once installed Certificates may also be loaded via portable media Syntax IPWSS WEBSERV MGMT WSAPI HTTPPORT HTTPSPORT HTTPSCERT Prerequisites The following restrictions apply The specified HTTPPORT or HTTPSPORT port might not be already used When HTTPSCERT is set to FILE and no certificate is installed the HTTPSCERT will revert to NONE Attributes CONFIG The command affects configuration data Example IPWSS WEBSERV MGMT HTTPPORT 0 HTTPSPORT 443 Parameter Definitions WEBSER
81. D DUPLEX STATUS 1 DOWN 2 100 FULL UP 3 4 1000 FULL ACTIVE 4 3 1000 FULL STANDBY EXECUTED The meaning of each field in the output is as follows ETH The Ethernet port identity PARTNER Identifies the other port member of a port bonding team SPEED The speed of the Ethernet port in MHz 10 100 or 1000 DUPLEX Whether the port is FULL or HALF duplex STATUS Whether the port is UP or DOWN If the port is in a team and it is up the status indicates instead whether the port is ACTIVE or in STANDBY 6 15 7 STHLP Status Host Link Print Synopsis This command requests a printout of the status of all configured SIU Host Links Syntax STHLP Prerequisites None Attributes None Example STHLP Output Format Host link status HOSTID RSI STATE FOREIGN IPADDR TCP STATE 0 FATLED 0 0 0 0 LISTEN 1 ACTIVE 123 124 125 126 ESTABLISHED EXECUTED Possible STATE values are ACTIVE FAILED DEACTIVATED Note The asterisk indicates that the host is acting as a management host Possible TCP STATE values are CLOSED LISTEN 106 Dialogic DSI Signaling Servers SWS Mode User Manual Issue 3 SYNC SENT SYNC RECEIVED ESTABLISHED CLOSE WAIT FIN WAIT 1 CLOSING LAST ACK FIN WAIT 2 TIME WAIT UNKNOWN if this information is not available 6 15 8 STIPP Status IP Print Synopsis This command sends four ICPM Internet Control and Management Protocol Echo R
82. Dialegic Dialogic DSI Signaling Servers Signaling Web Server SWS Mode User Manual www dialogic com Copyright and Legal Notice Copyright 2010 2011 Dialogic Corporation All Rights Reserved You may not reproduce this document in whole or in part without permission in writing from Dialogic Corporation at the address provided below All contents of this document are furnished for informational use only and are subject to change without notice and do not represent a commitment on the part of Dialogic Corporation or its subsidiaries Dialogic Reasonable effort is made to ensure the accuracy of the information contained in the document However Dialogic does not warrant the accuracy of this information and cannot accept responsibility for errors inaccuracies or omissions that may be contained in this document INFORMATION IN THIS DOCUMENT IS PROVIDED IN CONNECTION WITH DIALOGIC PRODUCTS NO LICENSE EXPRESS OR IMPLIED BY ESTOPPEL OR OTHERWISE TO ANY INTELLECTUAL PROPERTY RIGHTS IS GRANTED BY THIS DOCUMENT EXCEPT AS PROVIDED IN A SIGNED AGREEMENT BETWEEN YOU AND DIALOGIC DIALOGIC ASSUMES NO LIABILITY WHATSOEVER AND DIALOGIC DISCLAIMS ANY EXPRESS OR IMPLIED WARRANTY RELATING TO SALE AND OR USE OF DIALOGIC PRODUCTS INCLUDING LIABILITY OR WARRANTIES RELATING TO FITNESS FOR A PARTICULAR PURPOSE MERCHANTABILITY OR INFRINGEMENT OF ANY INTELLECTUAL PROPERTY RIGHT OF A THIRD PARTY Dialogic products are not intended for use in medical life
83. ERERAA Way a nin n nakin 35 Contents 5 System Management ii ciiciciccevhistavceesctadea teens kk k aka kak kk aka kk ka aka kaka k aka ka 37 5 1 Management Interfaces ii4 eax xin k le aa a a terete kar bka ka 37 9i2 System S O VA P aa ki cerek aa Kel ne0 b cated bi dei bay a n chad sl kn an ka dnd band niga Daana ai 37 5 2 1 Updating the Software by FTP Transfer K KC 3lklh kk kk ka 37 5 2 2 Updating the software from USB SS7G31 and SS7G32 Systems j j j 38 573 DIAQNOSUICS iee roai n er a NEA a n de a ne E DR 38 SA SNMP oea ea aa a a E a noe Wee E A a a e a E a Some ODESSA 39 5 451 OVefFvie WL ax n aa n n yeb et k ka E E A a AEEA er e AEEA 39 5 4 2 DSMI SNMP 4 a 53y ker npa nih R HUDA n W KER h y 942 090k sited RA n ba AA 234054 0 tods 39 SS Aa L SE O Dw r rrr rrr E A E beta ads bee 40 5 0 Hard Disk Management vss sayan ns kayan si Hes ev k xe Ran k Sa Ra MI EWE 0y h A y n cee dee seer onan da seeds 41 5 6 1 SS7G31 and SS7G32 Hard Disk Drive RAID Management Lk W k kkkEEEU 41 5 7 Sectire Shell SSH 4 425 54535xe55 5x5440 2000 a0060 0ua00 k0 h0n2 p2k oa muadasasaae a Nal ke hi dee xal da be nh b0 Daey a V ban 42 5 7 1 Configuring Public Key Authentication for SSH Mh Khb hKwllkk kk kk 43 5 7 2 SSH Tunneling forcRSl aA c4xx4 4 32132500ayya 4514 243a i 2A Daray n Qa b Ab N b hal xan akla gak
84. G NDISCARD NEVENT PERIOD 0 0 0 0 0 0 0 00 12 00 1 0 0 0 0 0 0 00 12 00 EXECUTED The meaning of each field in the output is as follows LINK SS7 signaling link OOSDUR Duration that the link was not in service This field is not currently supported RXNACK Number of negative acknowledgements received Not applicable for SS7 links that are P based RXMSU Number of message signaling units octets received RXOCT Number of Signaling Information Field SIF and Service Information Octet SIO octets received TXMSU Number of message signaling units octets transmitted TXOCT Number of SIF and SIO octets transmitted RTXOCT Octets retransmitted NCONG Congestion counter PERIOD This field is not currently supported e ALIGN Number of failed signaling link alignment attempts e SUERR Number of signal units in error TBUSY Duration of local busy condition CONG Duration of link congestion NDISCARD Number of MSUs discarded due to congestion NEVENT Number of congestion events leading to MSU discard Note Values are reset using the RESET parameter MSSLP RESET Y resets the measurement values to 0 98 Dialogic DSI Signaling Servers SWS Mode User Manual Issue 3 6 13 8 MSSTP Measurement of SIGTRAN Links Print Synopsis This command prints out traffic measurements for SIGTRAN links Link statistics are reset using the RESET parameter MSSTP RESET Y resets the period and measure
85. ID 2 CNURC MODE MTPR ID 1 CNURC MODE MTPLS ID 11 79 Chapter 6 Management Interface 6 9 40 CNURE Configuration Update Resource End Synopsis This command is used to end the configuration of a resource and update the configuration data on the SWS The operation involves reading the config txt file containing configuration data validating it and applying it to the unit The command can be applied to circuit groups mode CGRP MTP linksets mode MTPLS MTP links mode MTPL MTP routes mode MTPR Monitoring links mode MONL and PCM mode LIU See Section 9 7 1 Config txt Based Dynamic Configuration on page 173 for more information Syntax CNURE MODE ID Prerequisites The command succeeds only if the resource specified by the ID parameter not present in the updated configuration file the specified resource was previously configured and is in an INACTIVE state When removing MTP links the links must first be deactivated If a link is to be removed from an SPCI4 signaling board the board must be reset RSBOI following the execution of this command An MTP linkset cannot be removed if it contains MTP links or is used on any MTP route Attributes CONFIG The command affects configuration data Example CNURE MODE CGRP ID 8 6 9 41 CNURI Configuration Update Resource I nitiate 80 Synopsis This command is used to add a new resource to the configuration of the unit and update the configurat
86. IPGWI IPGW DEFAULT GATEWAY 192 168 1 1 6 10 6 IPGWE Internet Protocol Gateway End Synopsis This command removes an IP route via an IP gateway Syntax IPGWE IPGW Prerequisites The IP gateway ID has been initiated Attributes CONFIG The command affects configuration data Example IPGWI IPGW 1 6 10 7 I PGWP Internet Protocol Gateway Print 86 Synopsis This command prints out routes via IP gateways Syntax IPGWP IPGW Prerequisites If IPGW is specified the specified IP gateway ID IPGW must have been initiated Attributes None Example IPGW GATEWAY MASK IPNW DEFAULT 192 168 1 1 1 192 168 1 1 255 255 255 0 172 16 1 0 Dialogic DSI Signaling Servers SWS Mode User Manual Issue 3 6 11 MML Commands The MML commands include e MMLOI MML Log Off Initiate e MMHPP MML Help Print 6 11 1 MMLOI MML Log Off Initiate Synopsis This command ends the current log on session and allows a new session to be used on the port It does not affect other MML interface sessions Syntax MMLOT Prerequisites None Attributes None Example MMLOT 6 11 2 MMHPP MML Help Print Synopsis This command prints out help for MML commands parameters and errors When specified without parameters the MMHPP command provides a list of commands Syntax MMHPP CMD CLASS Prerequisites None Attributes None Examples MMHPP MMHPP CMD MNINI MMHPP CLASS PARAMETERS
87. Kbps bit 8 not used Bit 12 sequence number length Set to 1 the HSL signaling link will use a 12 bit sequence number Set to 0 the HSL signaling link will use a 7 bit sequence number 12 bit sequence numbers might not be used for LSL links Bit 31 when set to 1 associates the SS7 link with an M2PA link as identified by the BLINK parameter bpos stream and timeslot should all be set to zero An SS7 link can only be associated with one M2PA link and 2 SS7 links cannot identify the same M2PA link All other bits are reserved and should be set to zero MTP2_TIMER MTP2 Timer Configuration Synopsis The MTP2_TIMER command provides the ability to configure the MTP2 protocol timers from the configuration file Syntax MTP2 TIMER lt nc_id gt lt table id gt lt timer_id gt lt value gt Example MTP2 TIMER 0 T4N 550 MTP2 TIMER NC1 0 T4N 550 Parameters The MTP2_TIMER command includes the following parameters e lt nc_id gt SS7 Network Context This parameter uniquely identifies the SS7 network that the MTP2 timer is being configured for Supported values are NCO NC1 NC2 and NC3 When the parameter is not present a value of NCO is assumed lt table_id gt Reserved for future use and must always be set to zero lt timer_id gt A text identifier for the timer to be configured It should be set to one of the following T1 T2 T3 T4N T4E T5 T6 or T7 lt value gt The timer val
88. M3UAR ID 2 CNURI MODE M3UARLIST ID 33 6 9 42 CNUSC Change SNMP v3 User Configuration Synopsis This command allows the configuration of a previously registered SNMP v3 user to be changed The USER parameter identifies the user account to modify The parameters and associated values are as per the CNUSI command with the additional parameters PRIV and PRIVPASS Supported PRIV parameter values are DES and AES As with the AUTHPASS parameter value the privacy password value PRIVPASS must be between 8 and 24 characters long Also it is not possible to configure or modify the PRIVPASS value for a user without also specifying the PRIV value It is however possible to modify the PRIV or AUTH values without additionally specifying a corresponding password Syntax CNUSC USER AUTH AUTHPASS PRIV PRIVPASS LABEL Prerequisites The DSMI based SNMP agent must be enabled The SNMP v3 user must already have an entry in the list of configured SNMP v3 users Attributes CONFIG Examples CNUSC USER 3 AUTH SHA 6 9 43 CNUSE End SNMP v3 Synopsis This command removes an SNMP v3 user s configuration entry The command takes a single parameter USER which identifies the user to be removed Syntax CNUSE USER Prerequisites The DSMI based SNMP agent must be enabled The user must be present in the list of configured SNMP v3 users Attributes CONFIG Examples CNUSE USER 3 81 Chapter
89. MSRLP RESET Y Output Format MSRLP Output Format Remote SIU Link Traffic Measurements LINKID RXMSG TXMSG RXOCT TXOCT OOSDUR NOOS NDISCARD PERIOD 1 1 43E6 1 45H6 5 48H6 5 35E6 62 1 0 00 14 55 EXECUTED The meaning of each field in the output is as follows RXMSG Number of messages received over the link within the measurement period TXMSG Number of messages transmitted over the link within the measurement period RXOCT Number of octets received in messages over the link within the measurement period Excludes the message header TXOCT Number of octets transmitted in messages over the link within the measurement period Excludes the message header Dialogic DSI Signaling Servers SWS Mode User Manual Issue 3 OOSDUR The total amount time the link was out of service during the measurement period in multiples of 100ms e NOOS The number of times the link went out of service during the measurement period e NDISCARD The number of messages due to be transmitted on the link that were discarded during the measurement period PERIOD The time period over which these statistics have been gathered in hour minutes and seconds 6 13 6 MSPCP Measurement PCM Print Synopsis This command prints out traffic measurements for PCMs The measurements are cumulative between system startup and the next time the measurements are reset Syntax MSPCP RESET Prerequisites One or more PCMs must be config
90. NFIG TCAP Configurat On LL Lh k k kk kk kk kk kk kaka 166 8 9 2 TCAP_NC_CONFIG TCAP Network Context Configuration UU U UULUUU 167 8 9 3 TCAP_CFG_DGRP TCAP Dialog Group Configuration WkW ck 168 8 10 MAP Configuration CommandS kh khk ete EEEn EnEn Ennn 168 8 10 1 MAP_CONFIG MAP Configuration ccciceeeetee een eee renee ee teen eeeeenaneeana k ya 168 8 10 2 MAP_NC_CONFIG MAP Configuration cccceceeeee eee eee renee taee ee eeena nea 169 Dialogic DSI Signaling Servers SWS Mode User Manual Issue 3 8 11 Protocol Configuration Modification teeter nena 170 8 11 1 Establishing an FTP S SSION i lii sin cece ne eee teeter raed 170 8 11 2 Transferring the Protocol Configuration to a Remote Computer 05 170 9 Configuration Guidelines 06 nett kak k ka kya 171 OT SOVENVICW sese nnn Nan paa ya kan z k an a E caeadnee nants eevee ha h n Si lt a R Da dla nn ha da n kai n n een ana diken kn 171 9 2 IP Port BOnGING uc cnan aaya San hea k a d W r da Va Da iene iain cae d W A a 171 9 3 Configuring a Dual Resilient SWS SYyStem LhLLkWk kkhkk kk kk kk kk 171 9 4 Configuring an ANSI System MhhL L kK hbhll kk teen ak kak k kaka a 172 9 5 Specifying Default ROUES es aldu nel lan n kona kil nak bak heda kya a alya Mad yj wad aa k W k a W b4j k 172 9 6 Dynamic Ho
91. NFIG command defines the global configuration parameters for MAP existing in an additional SS7 Network Context to that identified by the MAP_CONFIG command Syntax MAP_NC_ CONFIG lt nc_id gt lt options gt Example MAP_NC CONFIG NC1 2 Parameters The MAP_NC_CONFIG command includes the following parameter e lt nc_id gt SS7 Network Context This parameter uniquely identifies the SS7 network that MAP is being configured for Supported values are NC1 NC2 or NC3 lt options gt A 32 bit value containing run time options for passing to the MAP module Individual bit definitions are as specified for the options field in the MAP_MSG_ CONFIG command as defined in the MAP Programmer s Manual Currently this includes two bits as follows Bit Mnemonic Description 0 MAPF_V2_ERRORS V3 dialogs use the V2 error format Dialogs are closed immediately on reception of 1 MAPF_NO_PREARRANGED_END CLOSE_REQ 169 Chapter 8 Configuration 8 11 Protocol Configuration Modification The protocol configuration is specified in an ASCII text file The commands stored in this file may be modified by transferring the configuration file from a remote machine using FTP This allows the native editor of the remote computer to be used to modify the configuration file A local back up of the current configuration may be made by entering the CNBUI command at the management terminal This may be restored after a protocol file edit
92. NK B bottom ETH 5 corresponds to physical port ACT LNK A top ETH 6 corresponds to physical port ACT LNK B top RXKBTYE Number of kilobytes of data received in kilobytes RXPKT Number of packets of data received e RXERR Number of receive errors detected RXDROP Number of received packets dropped by the device driver during the measurement period e TXKBTYE Number of kilobytes of data transmitted in kilobytes TXPKT Number of packets of data transmitted TXERR Number of transmit errors detected TXDROP Number of transmit packets PERIOD The period over which the measurement was taken e RXFIFO The number of FIFO buffer errors received e RXFRAME The number of packet framing errors received RXCOMP The number of compressed packets received RXMULT The number of multicast frames received TXFIFO The number of FIFO buffer error transmitted TXCOLLS The number of collisions detected on the transmit side e TXCARRIER The number of carrier losses detected on the transmit side TXCOMP The number of compressed packets transmitted Note Values are reset using the RESET parameter MSEPP RESET Y resets the measurement values to 0 6 13 2 MSHLP Measurement of Host Links Prints Synopsis This command prints out traffic measurements for all configured SIU Host Links Statistics are reset using the RESET parameter MSHLP RESET Y resets the period and measurement values to 0 Syntax MSHLP RESE
93. NSNS Configuration SNMP Set CNSRP Configuration SIGTRAN Route Print e CNSSP Configuration Subsystem Resource Print CNSWP Configuration Software Print CNSYP Configuration System Print CNSYS Configuration System Set CNTDP Configuration Time and Date Print CNTDS Configuration Time and Date Set e CNTMP Configuration Trace Mask Print CNTMS Configuration Trace Mask Set e CNTPE Configuration Network Time Protocol Server End CNTPI Configuration Network Time Protocol Server Initiate CNTPP Configuration Network Time Protocol Print CNUPI Configuration Update Initiate CNURC Configuration Update Resource Change CNURE Configuration Update Resource End CNURI Configuration Update Resource Initiate CNUSC Change SNMP v3 User Configuration CNUSE End SNMP v3 CNUSI Set SNMP v3 CNUSP Display SNMP v3 121 Chapter 6 Management Interface 122 IP Commands IPEPS Set Ethernet Port Configuration IPEPP Display Ethernet Port Configuration IPGWI Internet Protocol Gateway Initiate IPGWE Internet Protocol Gateway End IPGWP Internet Protocol Gateway Print MML Commands MMLOI MML Log Off Initiate MMHPP MML Help Print Maintenance Commands MNINI Maintenance Inhibit Initiate MNINE Maintenance Inhibit End MNRSI Maintenance Restart System Initiate Measurement Commands MSEPP Measurement Ethernet Port Print MSLCP Measurement of License Capability Print MSPCP M
94. N_RSGLIST command has the following parameters 156 lt list gt Logical identifier for a SIGTRAN Route to Signaling Gateway relationship The valid range is 0 6399 lt route gt Logical reference for a SIGTRAN Route The valid range is 0 255 lt rsg gt Remote Signaling Gateway A Signaling gateway can be associated with a route only once The Signaling Gateway must have at least 1 snlink associated with it The signaling gateway cannot be attached to more than 255 SIGTRAN routes 4 when loadsharing A SIGTRAN route cannot have more than 2 signaling gateways associated with it The valid range is 0 255 lt flags gt This is a 16 bit value used to specify run time options Bit 0 When set the SWS will consider the route via the specified server to be available without waiting for a destination available DAVA message All other bits are reserved for future use Dialogic DSI Signaling Servers SWS Mode User Manual Issue 3 8 8 SCCP Configuration Commands The SCCP configuration commands include SCCP_CONFIG SCCP Configuration SCCP_GTT Global Title Translation SCCP_GTT_ADDRESS Global Title Translation Address e SCCP_GTT_PATTERN Global Title Translation Pattern SCCP_SSR SCCP Network Context Configuration SCCP_SSR SCCP Sub System Resources SCCP_CONC_SSR SCCP Concerned Sub Systems Configuration 8 8 1 SCCP_CONFIG SCCP Configuration Synopsis The SCCP_ CONFIG command defines the global configuration p
95. P Configuration System Print ccc cece eee ee teense kk ka 71 6 9 28 CNSYS Configuration System Set cece eect ee teen ka 71 6 9 29 CNTDP Configuration Time and Date Print cece cece ee teen ee eee 73 6 9 30 CNTDS Configuration Time and Date Set ccc eect ee eee eee ne eaten ees 73 6 9 31 CNTMP Configuration Trace Mask Print cc cceeee eee ee eee e eect eee een eee ne nes 74 6 9 32 CNTMS Configuration Trace Mask Se t ccce cece e eee eee e eee ee tee e ee een e eaten 74 6 9 33 CNTPE Configuration Network Time Protocol Server End csccseseeeeneeneeas 76 6 9 34 CNTPI Configuration Network Time Protocol Server Initiate j A j 76 6 9 35 CNTPP Configuration Network Time Protocol Pr Dt khk WhWk eh kk 76 6 9 36 CNUAP Configuration User Account Print ececeeeee cece nent eee kk 78 6 9 37 CNUAS Configuration User Account Set ceceee cece cence ee eee e kk ka 78 6 9 38 CNUPI Configuration Update Initiate 2 20 0 eee e teen e eee ee teas 79 6 9 39 CNURC Configuration Update Resource Change cccceccseeseeeeeeeeeaeeneennees 79 6 9 40 CNURE Configuration Update Resource End ccceeeeee eee eee kk 80 6 9 41 CNURI Configuration Update Resource Initiate cece eee erent eee 80 6 9 42 CNUSC Change SNMP v3 User Configuration cccceceee cece eee ee nena teen ees 81 6 9 43 CNUSE En
96. P Resilience cao t l n aN na Wa avan dua vaka W a D ra Aa Tan awa DEWATA WAW Sba Acne 29 3 7 Management Reporting tcc s n sazain ezanyk nank r nanna n kalan a naza k na y n n na da wann n y n a k n air k DA 29 3 6 Alan IS yal n r kin manen M h lan da EDED d dha da ON Aa Dv STRA eya k da M G br BQ SE E Wa DG D n 29 4 Licensing Installation and Initial Configuration 31 4 1 Software licensi 0k kai yu iiy hara bunin b n EAE E b an b ker k n bh W n Ayak RENAE ETEA 31 4 1 1 Purchasing Software L CenSe S M KkK A Kkk EC kk kk kak ete kaka kk kak a 31 4 1 2 Temporary Lic S s xaki axin mlna Banu ak ha n dar n ning Rab W n daynan ba kih n Waa kd nia Bla Yaa 32 4 1 3 Trial bice S 5 i cide terse ici n Qa adie de bakr anka kan a anada H s an n bala na kara n ada me b n 32 4 2 Installing the SWS Ut ii irrisa noiniaii ee eee a KERNE AV A Ni 32 4 2 1 Connecting a VT100 Terminal issa cece eect eee n k lal ai Weka kala alaya la b n al ka 32 452 2 LE COfiG Ul aE ON 3 A555531445x4y45 1 15yan kaya wanda ka ha Dark a hewcastieraz cata he nanna ha ada 33 4 2 3 Software DOWNA Qeros oona d n n bahna b la na saia binan niy nne inin alan sa naba 34 4 2 4 Installing Software LICENSES 00 0 ene kk kaka kaka 35 4 2 5 Configuration Procedure scor eri T onasoii orn nor nean n la aa T
97. P server for NTP time synchronization to be successful If the time is not within that range then NTP synchronization will fail the STTPP command will indicate that the NTP servers are INACTIVE and the system will continue to use its current time In this event if the user wishes to use time based on that used by the NTP servers then the user should modify system time using CNTDS to be within 1000 seconds after which the signaling server will automatically re attempt synchronization Dialogic DSI Signaling Servers SWS Mode User Manual Issue 3 6 17 Command Summary The following is a summary of the command categories and the commands within those categories Alarms Commands ALLIP Alarm List Print Configuration Commands CNBUI Configuration Backup Initiate CNBUS Configuration Backup Set e CNCRP Configuration MTP Route Print CNCSP Configuration Concerned Subsystem Print CNGAP Configuration GTT Address Print e CNGLP Configuration SIGTRAN Gateway List e CNGPP Configuration GTT Pattern Print CNGTP Configuration Global Title Translation Print CNGLP Configuration SIGTRAN Gateway List CNOBP Display TRAP Configuration CNOBS Set TRAP Configuration CNRDI Configuration Restore Defaults Initiate CNSMC Change SNMP Manager Configuration e CNSME End SNMP Manager Configuration CNSMI Set SNMP Manager Configuration CNSMP Display SNMP Manager Configuration e CNSNP Configuration SNMP Print C
98. Ps can also be completely disabled NONE Possible states that a DSMI object can transition into are UP Operational and available DOWN Not available INACTIVE Operational but not available IMPAIR Operational and available but encountering service affecting condition e g congestion RESTART Unavailable but will soon be available QUIESCE Operational but in the process of shutting down being removed WARNING Operational and available but encountering a non service affecting condition Only one state s TRAP configuration can be configured per single invocation of this command The CNOBP command displays the current TRAP configuration for each object These TRAP messages are sent to SNMP managers which are defined with the CNSMI command The default setting for object states is CHANGE Syntax CNOBS OBUGRP OBJECT UP DOWN INACTIVE IMPAIR RESTART QUIESCE WARNING Prerequisites The DSMI based SNMP agent must be enabled Attributes CONFIG 62 Dialogic DSI Signaling Servers SWS Mode User Manual Issue 3 Examples CNOBS OBJ GRP 7 0B ECT 2 DOWN all This will cause a TRAP to be generated whenever an SS7 link is created in the Down state or destroyed while in the Down state or when the link enters the Down state 6 9 14 CNPCP Configuration PCM Print Synopsis This command displays the current Monitor link configuration See Section 8
99. R Other SIU SWS Ethernet Address c cceeeeeee teeta ee 131 8 5 Physical Interface COMMANAS cece kk kk kaka kk ka kak kaka 132 8 5 1 SS7_BOARD SS7 Board Configuration L Lh A kl kk 132 8 5 2 LIU_CONFIG Line Interface Configuration k hW kh kk 133 8 5 3 STREAM_XCON Cross Connect Configurat On k k E kk 136 856 MTP Gomnan dis su medan ian Deman wra na beya Sak ar ko D RE ones ag na eW an ean Kary dea Giada 138 8 6 1 MTP_CONFIG Global MTP Configuration L khk h k lklk kk kk 138 8 6 2 MTP_NC_CONFIG Network Context MTP Configuration EELEEEEEEEEEEE 139 8 6 3 MTP_LINKSET MTP Link Set AK C k kk kk ites aay 141 8 6 4 MTP LINK MTP Signaling Link kL kk k 142 8 6 5 MTP2_TIMER MTP2 Timer Configuration Lh hh lllk kk kk kk 144 8 6 6 MTP3_TIMER MTP3 Timer Configuration U lk e 145 8 6 7 MTP_ROUTE MTP ROUt 44 K kk k kk k y kk kk kk k kk 146 8 6 8 MTP_USER_PART MTP User Part cccccceeeecceeeececeeeceeeeseeeeeseneeeeeaneeeeaes 148 8 6 9 MONITOR_LINK Monitor LINK kk ee kk kak ka 149 8 7 SIGTRAN Configuration Commands cece eee kak kk kya 151 8 7 1 STN_LAS SIGTRAN Local Application Server Configuration k 151 8 7 2 STN_LBIND SIGTRAN Local Bind Configuration ccccccccesseeeeeeeeeeeeaes 152 8 7 3 STN_LINK SIGTRAN Link Configura
100. RAID will only function with unformatted drives In the case of the SS7G32 RAID mirroring may also fail and the disk remain DOWN due to the action of the hot swap If this occurs the Server should be restarted and synchronization re activated using MNINI MNINE 5 7 Secure Shell SSH 42 For additional security the Signaling Server supports the use of Secure Shell SSH tunneling for telnet and secure FTP operation Note The unit does not provide a Secure Shell session connection Your SSH client may need additional configuration to allow SSH tunneling without a session connection Once activated a future user is required to set up an SSH tunnel prior to telnet access For a client ona Linux or Solaris like operating system log in for telnet using the ssh application The ssh application should be invoked using a shell script of the following form bin sh ssh l siuftp C f 1 L 2323 1 8101 sleep 5 telnet localhost 2323 For a client on a UNIX operating system the command sequence to log in for FTP access using the sftp application is sftp l siuftp lt SWS IP Address gt You are also prompted to enter the password for the siuftp login account The secure connection to a unit can also be established from other operating systems using the appropriate SSH software Dialogic DSI Signaling Servers SWS Mode User Manual Issue 3 5 7 1 Configuring Public Key Authentication for SSH Configuring for Public Key Authen
101. ROUTE lt nc_id gt lt route gt lt dpc gt lt flags gt 155 Chapter 8 Configuration Examples STN_ROUTE NCO 1 100 0x0000 STN_ROUTE 2 200 0x0000 Parameters The STN_ROUTE command has the following parameters 8 7 8 lt nc_id gt SS7 Network Context The Network Context together with the Destination Point Code DPC uniquely identify an SS7 node by indicating the specific SS7 network it belongs to When not specified a value of NCO is assumed Supported values are NCO NC1 NC2 or NC3 The parameter is only applicable for M3UA operation lt route gt Logical reference for a SIGTRAN Route The valid range is 0 255 lt dpc gt Specifies an Destination Point Code DPC value for the Remote Application Server Only one Remote Application Server SIGTRAN Route or C7 Route can be configured with a particular DPC within a network context lt flags gt This is a 16 bit value used to specify run time options Bit Description 0 Route is assumed to be available 1 Route will loadshare between all Signaling Gateways in the route 2 15 Reserved and should be set to zero STN_RSGLIST SIGTRAN Route signaling Gateway List Configuration Synopsis This command attaches Signaling Gateways to a SIGTRAN Route Syntax STN _RSGLIST lt list gt lt route gt lt rsg gt lt flags gt Examples STN _RSGLIST 0 1 1 0x0001 STN _RSGLIST 1 2 1 0x0001 STN _RSGLIST 2 3 1 0x0001 Parameters The ST
102. RP Status SS7 Route Print kk kk kk kk kk kk eee 104 6 15 5 STDDP Status Disk Drive Print 23 ya wy c anln di eee teeter ened 105 6 15 6 STEPP Status Ethernet Port Print sssssssrssrsssrrerrrsrrnrrrrerrnrrrerrererrereno 105 6 15 7 STHLP Status Host LINK PERE 4a seluydla yere be n n bera deen desea ad WER Bej 106 6 15 8 STJIPP Stat s IP Prints aris ana ne n be Eng na c a bi nia e Ey seb B are Dek eke 107 6 15 9 STLCP Status Licensing Print 0c eee ee ee teeter nad 108 6 15 10STMLP Status Monitor Link Print cece teeter eee rete eee nena eee raed 110 6 15 11S TPCP Status PCM Print s y3 k ne say nda n kena P sates Mda MI WI k n k b n i da y aiea ha R 110 6 15 12STRAP Status Remote Application Server Print LL Kh K kk kk 111 6 15 13STRLP Status Remote SIU Link Print cette eee 112 6 15 14STSLP Status SS7 Link Print s eter raed 113 6 15 15STSRP Status SIGTRAN Route Print cece cece eect eee eee kk kk ka 114 6 15 16STSSP Status Sub System Resource Print ccecece cette eee eee eee eee eae 115 Contents 6 15 17STSTP SIGTRAN Link StatuS 2 0 nalin ik niy k W Vay Wel ka wa k n a n d 115 6 15 18STSYP Status System Printa rssi yv kiya eee in vava daa Kw la Gee eba i yi 116 6 15 19STTDP Status TCAP Dialog Print LhK Kh h CW K k kk kk kk 117 6 15 20STTPP Networ
103. Remote transaction ID 6 15 20 STTPP Network Time Protocol Status Print Synopsis This command is used to display the status of the Network Time Protocol servers configured on the unit Syntax STTPP Prerequisites None Attributes None Example STTPP Status of NTP Servers NTPSER IPADDR STATUS STRATUM OFFSET LABEL a 192 168 0 1 SYSPEER 3 0 025594 NTPSERV1 2 192 168 0 2 ACTIVE 4 0 025477 NTPSERV2 EXECUTED Description Meaning of fields in the print command Status Status Description INACTIVE The NTP service is disabled UNREACHABLE The NTP server is unreachable REJECT The NTP server has been rejected by the server selection algorithm ACTIVE NTP time information is being received from this server SYSPEER NTP has selected this server to synchronize to Stratum The NTP Stratum value reported by the NTP server 118 Dialogic DSI Signaling Servers SWS Mode User Manual Issue 3 e Offset The difference in seconds between the clock UTC as configured on the unit and the UTC time as reported by the NTP server The offset must be within 1000 seconds of the current system time for synchronisation with this NTP server to occur 6 15 21 STTRP Status TCAP Resource Print Synopsis This command shows a summary of the status of TCAP resources on the unit The command STTDP can be used to get details of a specific dialog or range of dialogs Syntax STTRP Prerequisites No
104. S7 signaling links lt flags gt A 16 bit value used to configure run time configuration options Bits 6 and O are used as detailed in the following table Bit 6 Bit 0 Clocking Mode T1 E1 clocks are generated from the local oscillator on this board The board is isolated from the internal telephony bus and no interconnection between signaling boards is permitted T1 E1 clocks are recovered from the highest priority T1 E1 port on this board and used as the output clock for all other ports on this board The board is isolated from the internal telephony bus and no interconnection between signaling boards is permitted The highest priority clock source is taken from the first configured PCM and then the next highest priority from subsequent configured ports Reserved do not use T1 E1 clocks are shared between all boards The clock is recovered from the highest priority T1 E1 interface in the system and used for all other T1 E1 clock outputs The board is connected using the internal telephony bus to all other boards that use this setting and full interconnection between signaling boards is supported If the highest priority clock source is not currently valid then the next highest priority input is automatically selected The priority of each T1 E1 input is controlled using the lt syncpri gt parameter in the LIU_CONFIG command All other bits in the lt flags gt parameter are reserved and should b
105. SB in a dual resilient configuration All other bits are reserved and should be set to zero e lt local_spc gt The local signaling point code for this link set lt ssf gt The value to be used in the sub service field of level 3 messages for this link set The valid range is 0 to 15 For ANSI operation the two least significant bits B and A must be set to 1 to assign a message priority of 3 to all MTP3 generated messages The remaining two bits are the network indicators bits C and D 141 Chapter 8 Configuration Note For correct SWS operation the adjacent point code must also appear in an MTP_ROUTE declaration 8 6 4 MTP_LINK MTP Signaling Link 142 Synopsis The MTP_LINK command configures signaling links specifying the physical channel that the link will use Syntax MTP_LINK lt link _id gt lt linkset_id gt lt link _ref gt lt slc gt lt bpos gt lt blink gt lt bpos2 gt lt stream gt lt timeslot gt lt flags gt Example MTP_LINK 0000121 2 01 0x0006 Parameters The MTP_LINK command includes the following parameters e lt interface mode gt lt interface_mode gt identifies the interface type for signaling links The interface mode should be set to one of the following values Interface_mode Description TDM Single timeslot signaling link E1_HSL Unstructured E1 HSL operation Note LIU frame_format must be set to 10 Unstructured T1 HSL operation PERSE Note LIU fram
106. SIU Mode User Manual Signaling Gateway Mode SGW A Signaling Server with the SGW Mode software license installed and enabled operates as a SIGTRAN Signaling Gateway hereinafter sometimes referred to as Signaling Gateway offering support for the M3UA and M2PA SIGTRAN protocols Description and use of the system acting as a SIGTRAN Signaling Gateway is outside the scope of this manual See the SGW Mode User Manual for a detailed description of this mode of operation Test Mode TEST Signaling Servers are shipped in Test Mode which allows the system to be activated for operation in one of the other operating modes 1 3 Related I nformation 12 Refer to the following for related information e Dialogic DSI Signaling Servers SWS Application Programmer s Manual UO01SWD e Dialogic DSI Signaling Servers SGW Mode User Manual 05 2304 Dialogic SS7 Protocols Software Environment Programmer s Manual U10SSS e Dialogic DSI Signaling Servers SNMP User Manual UO5EPP e Dialogic DSI Signaling Servers User Manual Supplement for ATM Operation UO1LFD e Dialogic DSI Signaling Servers SIU Mode User Manual 05 2302 The current software and documentation supporting Dialogic DSI Signaling Server products is available on the web at http www dialogic com support helpweb signaling The product data sheet is available at http www dialogic com support helpweb signaling For more information about Dialogic SS7 product
107. SLP LINK 1 Output Format SS7 link status LINK L2 STATE L3 STATE L3 BLOCKING STATUS 0 OUT OF SERVICE UNAVAILABLE IN SERVICE AVAILABLE INHL INHR 2 IN SERVICE AVAILABLE INHL 3 IN SERVICE AVAILABLE INHL 4 IN SERVICE AVAILABLE CBIP 5 IN SERVICE AVAILABLE LIIP EXECUTED The meaning of each field in the output is as follows e LINK Shows the value of the link_id parameter for that link as configured using the MTP_LINK command in the config txt file L2 STATUS L2 status possible values are IN SERVICE OUT OF SERVICE PROCESSOR OUTAGE ALIGNED READY INITIAL ALIGNMENT ALIGNED NOT RDY L3 STATUS L3 status possible values are AVAILABLE UNAVAILABLE CONGESTED DEACTIVATED the link has been deactivated by the user L3 BLOCKING STATUS Possible values are INHR The Link is remotely inhibited INHL The Link is locally inhibited 113 Chapter 6 Management Interface BLKR The Link is remotely blocked COIP Changeover is in progress CBIP Changeback is in progress LIIP Local link inhibiting is in progress LUIP Local link uninhibiting is in progress 6 15 15 STSRP Status SI GTRAN Route Print This command requests a status of a SIGTRAN Route
108. SWS Release 2 2 0 Build 1004 SGW Available Release prior to 2 2 0 EXECUTED 70 6 9 27 6 9 28 Synopsis CNSYP Configuration System Print Dialogic DSI Signaling Servers SWS Mode User Manual Issue 3 This command is used to print the system configuration including the system contact and system location details The configuration items include the unit identity UNIT ID mode SIUA or SIUB and protocol options Protocol module options not licensed on the unit do not appear in the list Most of these configuration items are set using the CNSYS command which also contains more details of other options Syntax CNSYP PAGE Prerequisites None Attributes None Example CNSYP Output Format SS7G30 SWS System Configuration Page 1 of 2 UNITID000423a684d1 SYSID SYSREFO CONTACT EMAIL EXAMPLE COM LOCATION RACK3 FTPSER Y MODE SIUA SECURE N LEDID N TRACELOG FILE TRACEFMT TEXT DMHOST 0 SN1 EXECUTED SS7G30 SWS System Configuration Page 2 of 2 SCCPCL SCCPCO TCAP MAP EXECUTED Y Y Y Y Synopsis CNSYS Configuration System Set This command is used to activate protocol options and set the system level parameters and passwords When FTPSER is enabled the unit acts like an FTP server supporting the upload of configuration files software upgrade and purchasable licenses from a remote unit To maintain security it is recommended that FTPSER is disabled at all times when FTP
109. Set Test message is issued to provide that subsequent availability of the signaling point is detected Setting this bit to 1 disables the sending of this message This bit is normally set to zero Bit 8 selects between ITU T CCITT and ANSI operation If set to 1 the MTP operates in accordance with ANSI T1 111 If set to 0 the MTP operates in accordance with the ITU T CCITT Q 700 series recommendations Bit 9 selects between 14 16 bit point codes and 24 bit point codes When set to 0 14 bit or 16 bit point codes are selected see also Bit 20 When set to 1 24 bit point codes are selected Note Bit 9 must always be set to 1 for ANSI operation Bit 10 is used to enable multiple congestion states Note Bit 10 must always be set to 1 for ANSI operation Bit 11 is used to enable Multiple Message Priority operation Note Bit 11 must always be set to 1 for ANSI operation Bit 16 is used to control the usage of the hdr gt id field of MTP Transfer Indication messages When set to 0 the id field contains the User Part Reference or Service Indicator this is primarily useful for backward compatibility When set to 1 the id field provides an indication of the MTP Label Format used in the parameter area This is the recommended setting for all new designs Note Bit 16 must to be set to 1 for the mixed network ISUP configuration Bit 17 controls how received Transfer Controlled and Signaling Route Set Cong
110. T Prerequisites None Attributes None Examples MSHLP MSHLP RESET Y Output Format 93 Chapter 6 Management Interface MSHLP Output Format Host Link Traffic Measurements HOSTID RXMSG TXMSG RXOCT TXOCT OOSDUR NOOS NDISCARD PERIOD 1 1 43H6 1 45H6 5 48H6 5 35E6 62 1 0 00 14 55 2 1 646 1 65E6 8 21E6 8 12E6 99 1 0 00 14 55 EXECUTED The meaning of each field in the output is as follows RXMSG Number of messages received over the link within the measurement period TXMSG Number of messages transmitted over the link within the measurement period RXOCT Number of octets received in messages over the link within the measurement period Excludes the message header TXOCT Number of octets transmitted in messages over the link within the measurement period Excludes the message header OOSDUR The total amount time the link was out of service during the measurement period in multiples of 100ms NOOS The number of times the link went out of service during the measurement period NDISCARD The number of messages due to be transmitted on the link that were discarded during the measurement period PERIOD The time period over which these statistics have been gathered in hours minutes and seconds 6 13 3 MSLCP Measurement of License Capability Print 94 Synopsis This command prints the traffic measurements for each license on the system capable of supporting throughput licensing The
111. TATUS can be one of the following values e FAILED The association is being configured CLOSED Association is closed COOKIE WAIT Association is waiting for a cookie COOKIE ECHOED Association has echoed a cookie e ESTABLISHED Association is established PENDING SHUTDOWN Association is pending shutdown SENT SHUTDOWN Association has sent shutdown RCVD SHUTDOWN Association has received shutdown SHUTDOWN Association has shutdown 6 15 18 STSYP Status System Print Synopsis This command provides a summary of the load uptime and alarms on the system Syntax STSYP Prerequisites None Attributes None Examples STSYP 116 Dialogic DSI Signaling Servers SWS Mode User Manual Issue 3 Output Format System Status CPU 2 X Intel R Xeon TM CPU 2 4GHz MEMORY 1024MB UPTIME 09 04 02 NRESTART 5 LOADAVG1 28 81 LOADAVG5 2 28 LOADAVG15 1 35 ALMSYS 1 ALMPCM 0 ALMSIG 1 MINOR 2 MAJOR 0 CRITICAL 0 EXECUTED The meaning of each field in the output is as follows CPU A string identifying the CPU type and speed e MEMORY The amount of RAM in the system e UPTIME The length of time the application software has been running NRESTART The number of times the system has restarted since factory installation e LOADAVG1 The UNIX load average measurement taken over 1 minute e LOADAVGS The UNIX load average measurement taken over 5 minutes e LOADAVG15 The UNIX load average measure
112. TRAN Routes on the system Syntax CNSRP Prerequisites None Attributes None Example CNSRP 67 Chapter 6 Management Interface 68 Output Format Configuration SIGTRAN Routes SNRT NC DPC OPTIONS 2 1 664 0x0002 2 J 56444 0x0002 3 1 3334 0x0002 EXECUTED Dialogic DSI Signaling Servers SWS Mode User Manual Issue 3 6 9 24 CNSTP Configuration SI GTRAN Links Print Synopsis This command displays the configuration of Sigtran links Syntax CNSTP SNLINK TYPE PAGE Prerequisites None Example CNSTP Output format SIGTRAN Link Configuration Page 1 of 2 SNLINK TYPE LIP1 RIP1 LIP2 RIP2 1 M3UA 10 22 131 1 10 22 131 2 EXECUTED SIGTRAN Link Configuration Page 2 of 2 SNLINK TYPE END LPORT RPORT FLAGS M2PA ID RSG NC NA 1 M3UA C 3565 3565 0x0000 0 EXECUTED The meaning of each field in the output is as follows e SNLINK The SIGTRAN link identifier TYPE The type of link M2PA M3UA e LIP1 The first local IP address in the association RIP1 The first remote IP address in the association e LIP2 The second local IP address in the association e RIP2 The second remote IP address in the association END Client or Server e LPORT Local IP port for the association RPORT Remote IP port for the association e FLAGS Flags associated with the SIGTRAN link e M2PAID M2PA Identifier M2PA only RSG Remote Signaling Gateway M3UA only NC Network Context M3UA only e NA
113. TURE TCAP_ G30 dialogic 1 000 permanent uncounted HOSTID 000e0de513c4 SIGN 00F1 C40B AE29 A1BO B4E5 1040 28B3 7F00 DFF2 146D E5D3 3F0D C281 72AD BOC4 The license file should be installed on the Signaling Server product s as follows 1 Rename the purchased license file to sgw lic 2 Establish an FTP session see Section 8 11 1 Establishing an FTP Session on page 170 3 Set the FTP transfer mode to ASCII since the license file is a text file 4 Transfer the software license to the SWS by typing the command put sgw lic sgw lic Note The SWS uses a case sensitive file system Therefore it is necessary to specify sgw lic in lowercase 5 Terminate the FTP session by entering quit or bye 6 Establish an MML session and restart the unit by typing the MNRSI command The machine then boots and completes the upgrade Once the upgrade is complete the machine is accessible via the MML interface 7 Check the licenses using the CNSYP command and the STLCP command If the licensing upgrade fails the unit restores the previous licensing level Further licenses can be added at a later date The license file containing these additional licenses should not contain licenses that have previously been installed 4 2 5 Configuration Procedure Once the system architecture and protocol configuration is known it is necessary to set this configuration in the SWS The SWS is configured in two stages Selectio
114. V Specifies the type of Web Server to configure Either MGMT or WSAPI HTTPPORT The TCP Port used for HTTP Set to 0 to disable access via HTTP Valid Range 0 65 535 excluding 21 22 8100 8101 9000 9128 the value identified by HTTPSPORT or the HTTPPORT value of another WEBSERV HTTPSPORT The TCP Port used for HTTPS Set to 0 to disable access via HTTPS Valid Range 0 65 535 excluding 21 22 8100 8101 9000 9128 the value identified by HTTPSPORT or the HTTPSPORT value of another WEBSERV HTTPSCERT Identify the certificate to use for the WEBSERV If set to FILE then the corresponding certificate will be used If set to SELF a new self signed certificate will be generated and installed If set to NONE the certificate for that web service will be removed Valid values are NONE SELF FILE 6 10 5 IPGWI Internet Protocol Gateway Initiate Synopsis This command allows you to specify a route I PGW to an IP network IPNW via an IP gateway GATEWAY for a range of IP addresses within that network as defined by a network mask MASK 85 Chapter 6 Management Interface Syntax IPGWI IPGW DEFAULT GATEWAY IPGWI IPGW 1 31 MASK GATEWAY IPNW Prerequisites The IP gateway ID has not been initiated Two gateways cannot have overlapping IP addresses Attributes CONFIG The command affects configuration data Example 1 IPGWI IPGW 1 MASK 255 255 255 0 GATEWAY 192 168 1 1 IPNW 172 16 1 0 Example 2
115. WS providing a user with the ability to add or remove configuration elements on the unit without affecting the status of other elements and without the need for a system restart The update to the configuration is achieved by allowing a user to 1 Modify the configuration file and transfer it into the unit via FTP 2 Apply an MML command to update the configuration of a circuit group This allows the SWS users to escalate their systems by adding or removing resources at runtime without the need to apply a system restart to the unit In the case that a unit restart is required the last transferred configuration is the one that is adopted See Section 9 7 1 Config txt Based Dynamic Configuration on page 173 for more information 8 2 Command Sequence The configuration commands must be entered in the order specified below The command at the top of the table should be at the start of the configuration file with the remaining commands following in the order that they appear in the table Table 4 Command Summary Command Group Class Summary SIU_REM_ADDR SIU SWS o a of partner unit in a dual resilient Specify the number of host computers attached to the SIU_HOSTS SIU SWS 0 SWS via an RSI interface Does not limit the number of web service based clients which can connect SS7_BOARD SIU SWS M Configure signaling boards LIU_CONFIG SIU SWS O Configure T1 E1 PCM network int
116. YS 0 3 failed configuration file Fan failure CPU fan failure SYS 0 3 Fan warning System fan failure SYS 0 3 Host link failed Host Ethernet link has failed SYS HOSTID 3 The system has detected that one or Memory failure more of its memory modules has SYS 0 3 failed Critical CRT PSU failure Power supply has failed SYS PSU ID 3 Line number in Restart error lls Wen coerce Processing SYS configuration file where 3 g error was found Restart required A system restart is required before SYS 0 3 system changes can take place SWS link failed Inter SWS Ethernet connection has SYS 0 3 failed This event indicates that boot switch on the SPCI4 board is set to an a Switch error REEE Wa Th Corea Sas ine SYS Indicates board position 3 switch to position 8 System System Overload due to excessive SYS 0 3 Overloaded network traffic The internal temperature is outside a preset threshold indicating that either Temperature an internal fault or failure of the SYS 0 3 cooling arrangements Inspection should take place immediately Trial mode The system is operating in trial mode SYS 0 3 and will reset after one hour Dialogic DSI Signaling Servers SWS Mode User Manual Issue 3 karn a TITLE Description CATEGORY ID CLA Received data in SS7 timeslot all 1s on AS PCM trunk interface P M PORTID A j The system has detected that one or CPU warning more of the CPUs is likely t
117. _NC_CONFIG command includes the following parameters 140 e lt nc_id gt SS7 Network Context This parameter uniquely identifies the SS7 network that MTP is being configured for Supported values are NC1 NC2 and NC3 lt options gt A 32 bit value each bit of which enables or disables additional configuration options Bit 0 defines the operation of MTP3 when a message is received from the SS7 network with a Destination Point Code DPC different from the local point code configured for the link set When set to zero these messages are discarded When set to 1 all received messages are processed regardless of DPC value This bit is normally set to zero Bit 1 defines the operation of MTP3 when a message is received from the SS7 network with a sub service field ssf value different from the ssf value configured for the link set When set to zero these messages are discarded When set to 1 all received messages are processed regardless of ssf value This bit is normally set to zero Bit 3 determines the behavior when a message is received from the SS7 network for a User Part that has not been configured If set to 1 a User Part Unavailable UPU message is issued to the network If set to zero UPU messages are not issued This bit is normally set to zero Bit 6 controls the operation of the Signaling Route Set Test mechanism Normally when a remote signaling point becomes unavailable a periodic Signaling Route
118. _options as defined in the SCCP Programmer s Manual Bit 0 should always be set to 0 Bit 1 should always be set to 1 Bit 20 should be set to 1 when using SCCP in conjunction with DTS and dual resilient configuration The meanings of the remaining bits are as defined for the options parameter described in the Configuration Request section of the SCCP Programmer s Manual lt auto_uis gt Allows the user to disable automatic generation of user in service thus allowing applications to indicate when they are in service using a SCP_MSG_SCMG_REQ message Possible values are 0 Does not automatically send user in service messages local subsystems must send them 1 Automatically sends a user in service message to SCCP for all configured local subsystems The parameter will default to 1 if not entered 8 8 3 SCCP_GTT Global Title Translation Synopsis The SCCP_GTT statement adds a translation to the SCCP global title translation table This command must be specified after the SCCP_GTT_PATTERN and SCCP_GTT_ADDRESS commands Note The pattern mask primary and backup addresses referenced by this command must have an identical number of sections Syntax SCCP_GTT lt nc_id gt lt pattern_id gt lt mask gt lt primary_address_ id gt lt backup_address_id gt Example SCCP_GTT 5 R K 9 158 Dialogic DSI Signaling Servers SWS Mode User Manual Issue 3 Parameters e lt nc_id gt SS7 Network
119. a new permanent license based on the licenses from the failed unit can be issued for a spare signaling server The process for obtaining a temporary license file is almost identical to that of activating a new license On the web based activation form the License IDs should be prefixed with the following 4 characters BAK For example if the license ID on the certificate is G30 M3UAS 785 9187 the license ID specified on the web form for the corresponding temporary license would be BAK G30 M3UAS 785 9187 The Host ID entered on the form is that of the replacement system on which the license will be installed A temporary license file will then be sent to the email address you specify during the license activation A temporary license will allow operation of a spare backup unit for a period of 30 days from date of issue after which the system software cannot be restarted It is therefore important to seek authorization to re activate the original license s to perform the new activation and to install the new license file prior to the expiry of the 30 day period 4 1 3 Trial Licenses When the trial license is active SWS protocols are available on the unit for one hour After this period the system will automatically re boot and return to normal operation supporting only the capabilities that are licensed on the system To activate trial mode the unit should be restarted as follows MNRSI RESTART TRIAL A new Trial mode alarm w
120. ackets are used to designate a group of optional items of which at least one must be selected A parameter is specified using the parameter name followed by the equal to symbol followed by the value of the parameter with no intervening spaces The following symbols are used to indicate command attributes 6 7 Prompt A dangerous command that must be confirmed by the operator CONFIG The command affects configuration data Commands The following types of commands are listed in this chapter Alarm Commands Configuration Commands IP Commands MML Commands Maintenance Commands Measurement Commands Reset Command Status Commands A command summary is provided in Section 6 17 Command Summary on page 121 53 Chapter 6 Management Interface 6 8 Alarm Commands The alarm commands include ALLIP Alarm List Print ALTEE Alarm Tet End e ALTE Alarm Test Initiate 6 8 1 ALLIP Alarm List Print Synopsis This command gives a printout of ACTIVE fault codes stored in the system s alarm log See Section 5 5 Alarm Listing on page 40 for the definitions of the alarm TITLE Syntax ALLIP Prerequisites None Attributes None Example ALLIP Output Format Alarm List active alarms CLA CATEGORY ID TITLE 5 PCM 0 PCM Loss 5 PCM al PCM Loss 5 SIG 0 ss7 link failure 5 SIG 1 SS7 link failure 4 SYS 0 Host link failed Note Table 1 Possible Alarm Events on page 40 de
121. aracters long that can be used to help identify the unit SYSREF An optional system reference number in the range 0 to 999 The default value is 0 The mode of operation of the system Possible operating modes are e SWS Signaling Web Services SYSTYPE e SGW SIGTRAN Signaling Gateway e SIU Signaling Interface Unit TCAP TCAP present parameter Set to Y to enable the operation of TCAP when the software is licensed or N to disable the operation of TCAP TCOM SNMP Trap Community String A maximum 12 alphanumerical characters TFORMAT Format of SNMP trap to be dispatched to the SNMP manager 1 SNMP V1 2 SNMP V2 3 SNMP V2 INFORM Time of day in the format xx yy zz where xx is a two digit hour value in the range 00 to 23 TIME Be weg e yy is a two digit minute value in the range 00 to 59 e zz is a two digit second value in the range 00 to 59 TITLE Title describing alarm event See Section 5 5 Alarm Listing on page 40 for more information TRACEFMT is used to specify the format of the log files written to local log on the SWS Logs It is defined as the following values TRACEFMT TEXT default e PCAP e DUAL where PCAP and TEXT log files will be created TRACELOG controls whether tracing to log or host is allowed It is defined as follows FILE default Trace messages will be locally logged but not transmitted to the management host TRACELOG HOST Trace messages will be transmitted to the management host
122. arameter 9 8 3 SS7 over M2PA An SS7 link is associated with the M2PA link using the MTP_LINK command SS7 MSUs will then be carried over SIGTRAN as opposed to MTP2 An SS7 link can only be associated with one M2PA link and two SS7 links cannot be associated with the same M2PA link The following commands demonstrate M2PA and SS7 link configuration STN LINK M2PA 1 0 123 123 123 1 0 0 0 0 C 2905 2905 0x0000 MTP_LINK 1 21101 0 0 0x80000006 The SS7 link is associated with an M2PA link when bit 31 of the MTP_LINK lt flags gt parameter is set to 1 The lt blink gt parameter identifies the M2PA link link_id The lt bpos gt lt stream gt and lt timeslot gt parameters should all be set to zero 9 8 4 Configuration Examples Example configuration of SS7 links conveyed over M2PA 175 Chapter 9 Configuration Guidelines SIU_HOSTS 1 M2PA CONFIG lt type gt lt link_id gt lt m2pa_id gt lt ipl gt lt ip2 gt lt end gt lt hport gt lt pport gt lt flags gt STN_LINK M2PA 0 0 172 28 148 96 0 0 0 0 Cc 2805 2805 0x0000 STN_LINK M2PA 2 1 172 28 148 96 0 0 0 0 Cc 3565 3565 0x0000 STN_LINK M2PA 199 2 172 28 148 96 0 0 0 0 Cc 3566 3566 0x0000 MTP_CONFIG 0 0 lt options gt MTP_CONFIG 0 0 0x00000000 MTP_LINKSET lt NC gt lt linkset_id gt lt adjacent_spc gt lt num_links gt lt flags gt lt local_spc gt lt ssf gt INKSET NCO 0 1 16 0x0000 2 0x08 ee Se He eK tg E
123. arameters for SCCP when existing in a single network or for Network Context 0 NCO when existing in multiple Network Contexts The SCCP_CONFIG command is used to configure and activate the SCCP and TCAP protocols on the SIU This command should only be used if the SCCP and TCAP software has been licensed and configured on the SIU Syntax SCCP_CONFIG lt local_spc gt lt ssf gt lt options gt lt auto_uis gt Example SCCP CONFIG 123 8 01 Parameters The SCCP_CONFIG command includes the following parameters e lt local_spc gt The local point code of the SIU lt ssf gt The sub service field value that SCCP uses when exchanging messages with the MTP This must always be set so that the Network Indicator bits the two most significant bits of the 4 bit ssf value match those set in the MTP_LINKSET command lt options gt A 32 bit value containing run time options for the operation of the SCCP module The 16 most significant bits provide ext_options as defined in the SCCP Programmer s Manual Bit 0 should always be set to 0 Bit 1 should always be set to 1 Bit 20 should be set to 1 when using SCCP in conjunction with DTS and dual resilient configuration The meanings of the remaining bits are as defined for the options parameter described in the Configuration Request section of the SCCP Programmer s Manual lt auto_uis gt Allows the user to disable automatic generation of user in service thus allow
124. are initially added statically via the configuration file config txt See Section 8 8 5 SCCP_GTT_PATTERN on page 161 for more information relation to the configuration of GTT patterns Syntax CNGPP ID NC Example CNGPP GTT Pattern ID NC AI SPC SSN GT GTAI_PATTERN 5 0 0x10 0 0 0x001104 22 6 1023 1 0x10 0 0 0x001104 6 EXECUTED 6 9 9 CNGTP Configuration Global Title Translation Print Synopsis This command is used to display currently configured SCCP Global Title Translation rules The translations themselves are initially added statically via the configuration file config txt See Section 8 8 3 SCCP_GTT on page 158 for further inforatyion relating to GTT configuration Syntax CNGTP ID NC Example lt cngtp ID NC MASK PRI_ADDR_ID BKUP_ADDR_ID 4 0 R K R 4 5 0 R K 5 1023 1 R K 1023 EXECUTED 6 9 10 CNLSP Configuration MTP Linkset Print Synopsis 60 This command displays the current MTP linkset configuration See Section MTP Link Set on page 141 for descriptions of the parameters in the output format Syntax CNLSP ID Prerequisites None Attributes None Examples CNLSP Output Format Linkset configuration Dialogic DSI Signaling Servers SWS Mode User Manual Issue 3 LS NC OPC APC NLINKS SSF FLAGS 1 0 1 2 16 8 0x00003 2 0 1 3 16 8 0x00003 6 9 11 CNMLP Configuration Monitor Link Print Synopsis This command displays the current M
125. articular IP port SECURE operation You can specify whether you wish to restrict access to the SWS so that it operates only over SECURE secure shell SSH by use of the SECURE parameter Setting this parameter to Y increases the security level in a command specific manner By default there is no restriction allowing the normal use of telnet and FTP SNLINK SIGTRAN link identifier in the range 0 to 255 SNMP active parameter Set to Y to enable operation of SNMP or N to disable operation of SNMP SNMP SNMP version running of the system Set to DK4032 DSMI or NONE 51 Chapter 6 Management Interface Table 3 Parameter Definitions Continued Name Description SNRT The SIGTRAN route identifier The speed of an Ethernet port which can be set to AUTO 10 100 1000 10H 100H where H indicates it is SPEED acai half duplex otherwise it is full duplex Identifies the point code type used within the network context Possible values are ITU14 ITU 14 bit operation SS7MD ITU16 ITU 16 bit operation ITU24 ITU 24 bit operation ANSI ANSI 24 bit operation An SCCP sub system resource Possible values are SSR e LSS Local Sub System e RSS Remote Sub System e RSP Remote Signaling Point SSN Subsystem number in the range 1 to 255 SUBNET IP sub net mask for IPADDR ENET 1 set by default to 255 255 255 0 SYSID An optional text string of length 0 to 12 ch
126. ated in the Release Notes for the product It is recommended however that the format of commands used is that which is defined in this revision of the manual Note Attempting to mix in the same configuration file lines that use current command formats with lines that use older command formats may give rise to restart errors indicating inconsistent command format The configuration commands and their parameters are defined in the following sections 8 1 1 Syntax Conventions In the command description sections of this chapter the text under the subheading Syntax shows a line in the configuration file The following conventions apply Each line starts with a keyword and is followed by a number of lt parameters gt e Items in square brackets are optional The first in a line indicates that the remainder of the line is a comment with no syntactical significance to the operation of the SWS Each lt parameter gt may be e A numeric value specified in decimal format for example 1234 or in hexadecimal format by prefixing the value with Ox for example 0x4d2 127 Chapter 8 Configuration e Specified as bit field values where each bit set to 1 specifies a particular configuration option The least significant bit is designated bit 0 e A token where the possible values are defined in the relevant section 8 1 2 Dynamic Configuration Dynamic configuration is a feature supported by the S
127. be included in the file See the SCCP Programmer s Manual for more information Syntax SCCP_CONC_SSR lt nc_id gt lt id gt lt cssr_id gt lt ssr_id gt Example SCCP_CONC_SSR 1 4 2 SCCP_CONC_SSR NC1 1 4 2 Parameters The SCCP_CONC_SRR command includes the following parameters e lt nc_id gt SS7 Network Context This parameter uniquely identifies the SS7 network that the SSR is being configured for When not specified a value of NCO is assumed Supported values are NCO NC1 NC2 or NC3 e lt id gt A unique value in the range 0 to 8191 that is used to identify the concerned sub system resource command lt cssr_id gt Refers to a concerned resource specified by an SCCP_SSR command The lt cssr_id gt may identify SSRs of two types LSS and RSP The lt cssr_id gt identifies the concerned resource that receives SCCP notifications if the state of the controlled resource identified by the lt ssr_id gt is changed lt ssr_id gt Refers to a controlled resource specified by an SCCP_SSR command If the lt cssr_id gt is referring to an LSS the lt ssr_id gt used in the same command may refer to either an RSS or an RSP resource If the lt cssr_id gt is referring to an RSP the lt ssr_id gt used in the same command can only refer to an LSS resource Note The lt cssr_id gt and lt ssr_id gt parameters can only refer to SSR s previously configured using the SCCP_SSR command 165 Chapter 8 Configuration
128. but not locally logged DUAL Trace messages will be transmitted to the management host and also locally logged NOTE Tracing is activated on a per protocol basis using the CNTMS command TRMD The traffic mode for the local application Server Acceptable values are LS Loadshare OR Override or BC Broadcast N B Only Loadshare should be used when the SWS is acting as part of a SWS Pair TYPE Type of SIGTRAN link M2PA or M3UA UNITID Unique identifier for this unit used for licensing A string of 12 hexadecimal characters UP SNMP object transition state Traps will be generated if set to All Create Change or Destroy Traps will not be generated if set to NONE Default Change USER SNMP V3 Logical identifier for an SNMP user account in the range 1 32 WARNI NG SNMP object transition state Traps will be generated if set to All Create Change or Destroy Traps will not be generated if set to NONE Default Change Read Write Community String The Signaling Server SNMP agent will silently discard received PDUs that have a WCOM community string not identical to this value A maximum 12 alphanumerical characters Default value private 52 6 6 Dialogic DSI Signaling Servers SWS Mode User Manual Issue 3 Command Conventions The following conventions are used in the command definitions Items in square brackets are optional Items separated by a vertical bar are alternatives only one of which may be used Curly br
129. cal point codes allows additional link sets to be used to send traffic to a destination point code As link sets are limited to 16 links adding more link sets using multiple local point codes effectively allows a larger total number of links to carry traffic to any single destination point code Figure 9 shows a simple configuration that uses two Network Contexts to allow a single SWS to connect to the remote node using two link sets from two independent local point codes Link set 0 and 1 are configured in Network Contexts NCO and NC1 respectively Figure 9 Multiple Network Contexts to Support Multiple Local Point Codes on Point Code 1 C H s 1 AA Point Code 3 lt A nk _ sw e NC K Ce dh Remote Node Figure 10 extends the previous example to show a configuration with an STP pair This configuration uses two Network Contexts to allow a single SWS to connect to the Remote Node using four link sets from two independent local point codes An equivalent configuration using a dual resilient pair is also possible Figure 10 Multiple Network Contexts with an STP Pair Link Set 0 NCO Point Code 1 N STPA Point Code 4 LD Remote Node Point Code 3 STPB Point NC1 Code 5 Point Code 2 Link Set 3 25 Chapter 3 Architecture 3 3 2 Support for Multiple Networks 26 The Network Context based configuration of the SWS mode allows
130. ceeded for a sustained period of time the credit available will drop When the credit drops to 50 of the maximum throughput credit a congestion alarm will fire When the credit drops to 0 i e there is no credit left throughput enforcement will occur limiting throughput to the licensed rate Throughput enforcement will be maintained until the account credit returns to 75 or above of the maximum throughput credit Prerequisites None Attributes None Examples STLCP 108 Dialogic DSI Signaling Servers SWS Mode User Manual Issue 3 Output Format stlcp Software License Capability Status CAPABILITY STATUS LINKS SESSIONS RATE CREDIT SIU ACTIVE SGW INACTIVE DSC NONE SCTP ACTIVE M2PA ACTIVE 256 2460 100 M3UA ACTIVE 256 2460 100 MTP ACTIVE 192 SCCPCL ACTIVE SCCPCO ACTIVE TCAP ACTIVE MAP ACTIVE SNMP ACTIVE EXECUTED 109 Chapter 6 Management Interface 6 15 10 STMLP Status Monitor Link Print Synopsis This command requests a printout of the status of configured Monitor links If the LINK parameter is specified the status of the corresponding link is displayed If the LINK parameter is not specified the status of all configured Monitor links is displayed The command will use the presence or absence of LSSU signaling units to determine whether the monitored link link state is IN SERVICE or OUT OF SERVICE Syntax STMLP LINK Prerequisites None Attributes None Examples
131. ch on the signaling boards enabling the cross connection of timeslots between the two PCM ports on each signaling board or a fixed pattern to be generated on specified timeslots The PCM ports on a board are referenced by a fixed logical stream number Syntax STREAM XCON lt bpos gt lt stream_a gt lt stream_b gt lt mode gt lt ts_mask gt lt pattern gt Example STREAM XCON 3 2 3 3 Oxfffefffe 0 Parameters The STREAM_XCON command includes the following parameters 136 lt bpos gt The board position of the cross connect switch to be controlled There must be a valid board at this position previously defined by an SS7_ BOARD command lt stream_a gt A reference to the 2 Mbps stream for the output of the connection or the fixed data pattern There must be a valid PCM port at this position previously defined by a LIU_CONFIG command Valid values are Board Type Stream T1 E1 interface 0 L1 SPCI4 1 L2 SS7HDP 2 L3 3 L4 lt stream_b gt A reference to the 2 Mbps stream for the input of a simplex connection mode 2 or one half of a duplex cross connection mode 3 In other modes this field should be set to zero There must be a valid PCM port at this position previously defined by a LIU_CONFIG command For valid values see the table in the lt stream_a gt parameter description above lt mode gt Indicates the requested cross connect switch function according to the following tabl
132. connected to the same hub or switch with Spanning Tree STP set to off Whenever bonding is activated or deactivated MMI sessions using those ports are reset An IP address might not be bonded with itself e an IP address of 0 0 0 0 another IP address already acting as a primary or standby in an IP team Once configured the status of Ethernet ports in a bonded team may be checked using the STEPP command see Section 6 15 6 on page 105 9 3 Configuring a Dual Resilient SWS System For the dual resilient configuration it is necessary to modify the configuration to assign one unit as SWSA and the other as SWSB using the management terminal CNSYS command Each unit is assigned a unique IP address 171 Chapter 9 Configuration Guidelines To assign a unit as SWSB the following command should be used CNSYS MODE SWSB To assign a unit as SWSA the following command should be used CNSYS MODE SWSA Note The modified configuration is applied only when the unit is restarted The inter SWS link set should be defined on both units using the MTP_LINKSET command with bit 15 of the lt flags gt parameter set to 1 This link set must have the same value defined for the lt local_spc gt and lt adjacent_spc gt values this is the local point code of the SWS pair Links are added to the Inter SWS link set using the MTP_LINK command assigning incrementing lt link_ref gt and lt slc gt values as used normally The lt bpos gt and lt blink
133. cryption protocol used to provide that V3 SNMP requests have not been modified during transit Set to SHA or MD5 AUTHPASS SNMP V3 User account Authentication password Must be set if the AUTH parameter is set minimum of 8 chars max 12 characters BIND Logical identifier for a binding between a Local Application Server and either a Remote Application Server or Remote Signaling Gateway The valid range is 0 199 BPOS Board position in the range 1 to 3 NOTE An Signaling Server with two boards has the boards installed in positions 1 and 3 Dialogic DSI Signaling Servers SWS Mode User Manual Issue 3 Table 3 Parameter Definitions Continued Name Description Alarm category e SYS a system alarm CATEGORY e PCM a pcm alarm e SIG a signaling alarm See Section 5 5 Alarm Listing on page 40 for more information Alarm class 5 a minor MNR alarm triggers the MNR LED alarm CLA e 4 a major MJR alarm triggers the MJR LED alarm e 3 a critical CRT alarm triggers the CRT LED alarm See Section 5 5 Alarm Listing on page 40 for more information CLASS Requests help output for either PARAMETERS or ERRORS PARAMETERS are those specified in this table ERRORS are those specified in Section 6 3 Command Responses on page 48 CMD MML command name See Section 6 17 Command Summary on page 121 for a complete list of MML command names Confirmation of t
134. d SNMP V3 ei acca nina Gin vou E EANA ETEEN a WW E ls 81 6 9 44 CNUSI Set SNMP V3 00 eee nee kaka y k k y k kak 82 6 9 45 CNUSP Display SNMP V3 cece kk kk eee kak ka aka 82 6 10 IP Commands i e a Mews stink he ye k ya Wla ka ao ka yeye e Ya arin tata Viet eats vents 83 6 10 1 IPEPS Set Ethernet Port Configuration cceceeeeeee eens nent eee e ee eee e eaten nes 83 6 10 2 IPEPP Display Ethernet Port Configuration ceceee eect eee e ee ee eee ee eaeae 84 6 10 3 IPWSP Display Web Service Configuration cccccceee eee ee eee ee eee teen eee 84 6 10 4 IPWSS Web Service Configuration Set cece eee eee ee eee ee te ee kk 85 6 10 5 IPGWI Internet Protocol Gateway Initiate kk 85 6 10 6 IPGWE Internet Protocol Gateway End ceceeeee cece cette ee eee ka 86 6 10 7 IPGWP Internet Protocol Gateway Print ccecece eee e eee kk eee tena ee eaten nes 86 6 11 MME Gomin a ds 3 nh san Ae kt i hie BAT A ea ev y 87 6 11 1 MMLOI MML Log Off Initiate kk kk reserare k KK kkkkkk kk kk kak kk 87 6 11 2 MMHPP MME Hel PriNt riranna eean ka Malan AnAMA EEA MEVAN 87 6 12 Maintenance Commands isch haaa edadee Hah A ka aa b RR ec a K ab e cae 89 6 12 1 MNINI Maintenance Inhibit Initiate MhK K L LL kk kk kk 89 6 12 2 MNINE Maintenance Inhibit End 0c eee kk kk k 89 6 12 3 MNRSI Maintenance Restart Syst
135. d on the UNIX load average e LOADAVG The average load on the system based on the UNIX load average measurement taken over the measurement period e PERIOD The period the measurement was taken over Note Values are reset using the RESET parameter MSSYP RESET Y resets the measurement values to 0 100 Dialogic DSI Signaling Servers SWS Mode User Manual Issue 3 6 14 Reset Command The reset command is e RSBOI Reset Board Initiate 6 14 1 RSBOI Reset Board Initiate Synopsis This command resets a board The board is reconfigured from the system configuration data Note All PCMs are taken out of service temporarily while the reset occurs All SS7 links that use either timeslots or SP channels on the board are also taken out of service temporarily If the board is acting as the clock source for the system then the board with the next highest clock priority becomes the clock master while the reset occurs Syntax RSBOT BPOS Prerequisites The board must have already been initialized Attributes Prompt A dangerous command that must be confirmed by the operator Example RSBOT BPOS 1 101 Chapter 6 Management Interface 6 15 Status Commands The status commands include STALP Status Alarm Print STBOP Status Board Print e STCGP Status Circuit Group Print e STCRP Status SS7 Route Print e STDDP Status Disk Drive Print e STEPP Status Ethernet Port Print e STHLP Status Host Link Print
136. d up to 308 Kilobytes sec equivalent eS TS H SUNSMAR to 32 Low speed TDM links at 0 6 Erlangs M3UA supporting 64 SIGTRAN links and up to 615 Kilobytes sec equivalent SR RRBOS MS MA to 64 Low speed TDM links at 0 6 Erlangs M3UA supporting 128 SIGTRAN links and up to 1230Kilobytes sec DEW BDN BAK equivalent to 128 Low speed TDM links at 0 6 Erlangs 17 Chapter 2 Specification ITEM MARKET NAME DESCRIPTION TJ e SS7SBG30M2PAS heats LL an e L to 154 Kilobytes sec equivalent SS7SBG30M2PAR we LL ul Bn to 308 Kilobytes sec equivalent SS7SBG30M2PAL aerate aes to 615 Kilobytes sec equivalent Soe lu LL ew 5875BG30M2PAJ EGuialaht sob Low speed TDM inks ari e Erang ene All of the above licenses offer the same basic functionality but vary in the number of MTP3 links supported The M3UA or M2PA licenses are required in order to support SIGTRAN operation and offer different levels of link equivilent throughput 18 Dialogic DSI Signaling Servers SWS Mode User Manual Issue 3 2 3 Capabilities This section identifies notable capabilities of the Signaling Server The capabilities of a Signaling Server is dependent on the number and type of signaling boards installed as defined by the product variant as well as which software licenses installed Use of Signaling Servers in dual pairs increases the capacity of the overall system while still acting as a single SS7 point code The numbers
137. dby port in a team with ETH4 e STANDBY5 The configured IP address acts as the standby port in a team with ETH5 e STANDBY6 The configured IP address acts as the standby port in a team with ETH6 Syntax IPEPS ETH SPEED IPADDR SUBNET SCTP Prerequisites None Limitations The use of the SCTP parameter has been deprecated The system will ignore the setting of this parameter if per association hosts are specified The parameter itself will continue to be supported to provide backwards compatibility with configurations that did not specify per association local IP addresses Attributes CONFIG The command affects configuration data Example 1 IPEPS ETH 1 SPEED 100 Example 2 IPEPS ETH 2 IPADDR 192 168 0 1 SCTP Y Example 3 IPEPS ETH 3 IPADDR 10 1 1 10 SUBNET 255 255 1 1 Example 4 IPEPS ETH 4 IPADDR STANDBY2 83 Chapter 6 Management Interface 6 10 2 I PEPP Display Ethernet Port Configuration Synopsis This command displays the Ethernet port configuration A Ethernet port speed displayed with an H indicates it is half duplex otherwise it is full duplex Syntax IPEPP Prerequisites None Attributes None Example IPEPP Output Format lt ipepp ETH SPEED IPADDR SUBNET SCTP MGMT WSAPI 1 AUTO 192 168 0 1 255 255 355 0 Y T N 2 AUTO 10 100 91 3 25525525510 Y N Y 3 AUTO 0 0 0 0 2553255 255 0 X Y E 4 AUTO 0 0 0 0 255 255 255 0 N Y Y EXE
138. e Mode Function 1 Set a fixed pattern specified by lt pattern gt on the output timeslot s 2 Connect the input timeslot to the output timeslot 3 Duplex cross connect the input and output timeslot lt ts_ mask gt A 32 bit mask specifying the timeslots to apply the cross connect or pattern to Each bit corresponds to a timeslot in the input output stream Bit 0 the least significant bit corresponds to timeslot number 0 To apply this command to a timeslot the corresponding bit must be set to one E1 interfaces have 32 timeslots numbered 0 to 31 Timeslot 0 is used for frame alignment and timeslot 16 is generally used for signaling or is empty Hence the normal SWS configuration is to cross connect timeslots 1 to 15 and 17 to 31 between the two ports on each signaling board by setting the ts_mask value to Oxfffefffe T1 interfaces have 24 timeslots numbered 1 to 24 To cross connect all the timeslots on a T1 interface between the two PCM ports on a signaling board the ts_mask value Ox1fffffe should be used In duplex mode both PCM ports should have been previously configured under the same type of PCM connector E1 or T1 Dialogic DSI Signaling Servers SWS Mode User Manual Issue 3 lt pattern gt One byte of fixed data to output in pattern mode mode 1 on the output stream timeslot In other modes this parameter should be set to zero 137 Chapter 8 Configuration 8 6 MTP Commands T
139. e correct procedure detailed in Section 5 6 1 SS7G31 and SS7G32 Hard Disk Drive RAID Management on page 41 Note To inhibit a signaling link the command should be entered with the NHIBIT Y parameter set You should then use the STSLP MMI command to determine the new status of the link If the inhibit request was accepted the L3 STATE is shown as UNAVAILABLE However if the inhibit request was denied for example because it relates to the only active link the L3 STATE is shown as AVAILABLE Syntax MNINI SNLINK INHIBIT Y HOSTID GID LINK DRIVE Prerequisites The following restrictions apply e If a link is to be inhibited it must be active The last link in a SS7 signaling link set can not be inhibited The circuit group must be already configured and activated The Disk drive must be active and not in the RESTARTING state Attributes Prompt A dangerous command that must be confirmed by the operator Examples MNINI SNLINK 3 MNINI SNLINK 3 INHIBIT Y MNINI HOSTID 1 MNINTI GID 4 MNINI LINK 4 INHIBIT Y MNINI DRIVE 0 6 12 2 MNINE Maintenance I nhibit End Synopsis This command is used to activate a previously inactive SS7 signaling link SIGTRAN M3UA link host RSI link or circuit group The command is also used to uninhibit an SS7 signaling link and to unblock a newly installed hard disk drive following hard disk drive failure Important In order to
140. e of 0x0028 should be used lt flags gt A 16 bit value that provides additional options Bit 0 is set to 1 to enable the use of the lt second_Is gt parameter Bit 1 is set to 1 to cause traffic sent towards the remote signaling point to be shared between the two link sets lt linkset_id gt and lt second_lIs gt If set to 0 all traffic sent towards the remote signaling point is normally sent using the link set specified by lt linkset_id gt unless this link set fails in which case the traffic uses the alternative link set lt second_Is gt Loadsharing should not be configured if one of the link sets is used between a pair of SWSs in a dual SWS configuration Bit 2 is set to 1 to indicate a default route Messages for any DPC that is not explicitly configured use this route Bit 3 is set to 1 to indicate that the DPC associated with this route is not a real DPC within the network The route is considered available as soon as the link sets within the route are available Note When bit 3 is set bit 2 should also be set Bit 5 is set to 1 to disable the Route Test procedure for this route Typically this bit should be set to zero However in the case of a pseudo DPC route it is essential to set this bit to 1 to prevent RST messages being issued All other bits must be set to zero lt second_Is gt The logical identity of the second link set in the combined link set 147 Chapter 8 Configuration
141. e same protocol type The valid range is 0 199 Used for M3UA configuration only lt na gt The logical network appearance used in communicating with a remote server The valid range is 0 16777215 Used for M3UA configuration only 153 Chapter 8 Configuration lt lip1 gt The first local IP address to be used in the association lip1 cannot be set to 0 and cannot be the same as lip2 If a local IP address is configured on one STN_LINK then each subsequent STN_LINK must have at least one local IP address configured lt lip2 gt The second local IP address to be used in the association Should be set to 0 if not configured It cannot be the same as lip1 8 7 4 STN_NC SIGTRAN Network Context Synopsis This command identifies the Network Context and point code size to be used by M3UA Syntax STN_NC lt nc gt lt ss7mode gt lt flags gt Example STN _NC NC3 ITU14 0x0000 Parameters The STN_NC command has the following parameters e lt nc_id gt SS7 Network Context The Network Context uniquely identifies a SS7 network Supported values are NCO NC1 NC2 or NC3 Only one network context may be configured for M3UA SIGTRAN operation lt ss7mode gt The SS7 mode of the network context Possible values are ITU14 ITU 14 bit operation ITU16 ITU 16 bit operation ITU24 ITU 24 bit operation ANSI ANSI 24 bit operation lt flags gt This is a 16 bit value used to specify run time options Bit 0 Enables SLS
142. e sent down to this destination sub system Bits set to zero indicate that the corresponding bit position in the transmit message destination point code must match the bit position of the remote SPC Bits set to 1 indicate bit positions in the message destination point code that do not need to match the remote SPC set for this RSP This allows configuration of a default destination sub system for example a gateway SCP 8 8 6 2 Configuring SCCP Local Sub Systems Synopsis Each local SCCP sub system is configured using an SCCP_SSR command specifying the local sub system number as used by the SS7 protocol and the module ID designated by the user to implement this sub system Syntax SCCP_SSR lt nc_id gt lt ssr_id gt LSS lt local_ssn gt lt module_id gt lt lss_flags gt lt protocol gt Example SCCP_SSR 3 LSS 0x07 0x45 1 MAP SCCP_SSR NC1 3 LSS 0x07 0x45 1 MAP 163 Chapter 8 Configuration Parameters The SCCP_SSR command includes the following parameters when configuring SCCP local sub systems e lt nc_id gt SS7 Network Context This parameter uniquely identifies the SS7 network that the SSR is being configured for When not specified a value of NCO is assumed Supported values are NCO NC1 NC2 or NC3 lt ssr_id gt A unique value in the range 0 to 2047 that is used to identify the SSR 512 ssr_ids are allowed per Network Context The same ssr_id might not be used to configure an SSR of another type LSS Iden
143. e set to zero 132 Dialogic DSI Signaling Servers SWS Mode User Manual Issue 3 8 5 2 LIU_ CONFIG Line I nterface Configuration Synopsis The LIU_CONFIG command is used to configure the PCM format used by the signaling boards Syntax For Dialogic DS SS7HD Network Interface Boards LIU_CONFIG lt port_id gt lt pcm gt lt liu_type gt lt line_code gt lt frame_format gt lt crc_mode gt lt syncpri gt lt build_out gt lt slave_port_id gt lt flags gt For Dialogic DSI SPCI4 Network Interface Boards LIU_CONFIG lt port_id gt lt pcm gt lt liu_type gt lt line_code gt lt frame_format gt lt crc_mode gt lt syncpri gt lt reserved gt lt slave_port_id gt lt flags gt Example LIU CONFIG 0 1 3 5 11100 0 0x0000 Parameters The LIU_CONFIG command includes the following parameters e lt port_id gt Logically identifies the PCM port in the SWS range The port_id should be unique within the system and in the range 0 to 11 e lt pcm gt Identifies the physical interface to the system for LIU It is a compound parameter made up of board position and LIU interface number for example 2 4 The boards on the Signaling Server are numbered from 1 to 3 with board 1 at the bottom of the chassis Valid values for the interface on the board are 1 to 4 for the SPCI4 and SS7HDP boards e lt liu_type gt Specifies the physical type of interface required according to the following table Note that this must be
144. e_format must be set to 10 E1_FRAMED Framed 31 timeslot E1 operation T1_FRAMED Framed 24 timeslot T1 operation E1_PCM Structured 30 timeslot E1 operation timeslots 0 and 16 are used for signaling The interface_mode value must be consistent with the liu_type and frame_format values of the LIU_CONFIG command lt link_id gt The link s unique logical link identity within the SWS It must be in the range 0 to one less than the maximum number of signaling links supported lt linkset_id gt The logical identity of the link set to which the link belongs The link set must already have been configured using the MTP_LINKSET command e lt link_ref gt The logical identity of the signaling link within the link set It should be in the range 0 to 15 This is usually be the same value set for the lt slc gt parameter below e lt sic gt The signaling link code for the signaling link This must be unique within the link The valid range is 0 to 15 lt bpos gt The board identifier of the signaling processor allocated for this signaling link The board must already have been configured using the SS7_ BOARD command Set to 0 if the MTP link is associated with an M2PA link lt blink gt The index of the logical signaling processor SP channel on the board allocated for this signaling link For Dialogic DSI SPCI4 Network Interface Boards that have a single processor supporting 4 signaling links the blink
145. easurement PCM Print MSSLP Measurement SS7 Link Print MSSTP Measurement of SIGTRAN Links Print MSSYP Measurement System Print Reset Command RSBOI Reset Board Initiate Status Commands STALP Status Alarm Print STBOP Status Board Print STCGP Status Circuit Group Print STCRP Status SS7 Route Print STDDP Status Disk Drive Print STEPP Status Ethernet Port Print STHLP Status Host Link Print STIPP Status IP Print STLCP Status Licensing Print STPCP Status PCM Print STRAP Status Remote Application Server Print STRLP Status Remote SIU Link Print STSLP Status SS7 Link Print STSRP Status SIGTRAN Route Print STSTP SIGTRAN Link Status STSYP Status System Print STTDP Status TCAP Dialog Print STTPP Network Time Protocol Status Print STTRP Status TCAP Resource Print Dialogic DSI Signaling Servers SWS Mode User Manual Issue 3 Chapter 7 Web based Management I nterface 7 1 Overview The web based management interface allows the configuration of the higher level mobile service logic with the SWS system In addition it also allows easy access via a browser to much of the status and statistics functionality available in the console based management interface The management interface is accessed by a remote web browser to port 80 Note For example this will typically be acheived by using the address http 192 168 0 1 in the address bar 7 2 SWS Management The SWS managemen
146. ece cece cece kk eee kk kk kk kk k y kk 25 13 SWS Management Interface cece eee eee ee ee ee k aka ka e 121 14 SWS Web based status control panel cc cece eee teeta kak 122 Contents 154 Example SstattsSs O tp jis centre karen oyo kana k ada la D na yan a wr bin Ra nan a xel em dad Pn Da nk WA nada yeaa 123 Tables 1 Possible Alarm EVEN S seision sinnige kaana aia ba aya canada aati NEERA RRENEN beli E d ay yak ai 40 2 Command Re spO5 8 arrarena wiwoct ie tanned neidinannirsa E Saye KEN w nen Dek E kal 48 3 Parameter Definitions s5x xad kin a eee Ki kA Aiea xan n a Reeds dia R D Va c i A w NN a A kaka n r n 48 4 Command SUMMAN 3s xen nae ya kaka E h v en WAR b r a AR DAS va ir n sa A aha Va tiene 132 5 Supported Actions for Dynamic Configuration Lk khkW kk kk kk kka 174 Revision History Dialogic DSI Signaling Servers SWS Mode User Manual Issue 3 Date Part Number Issue No Description November 2010 64 1149 01 1 Initial version Addtion of MAP Configuration Information and minor corrections to January 2011 64 3 149 02 2 SCCP LSS configuration April 2011 64 1149 03 3 Updates to MMI command syntax Note The current release of this guide can be found at http www dialogic com support helpweb signaling Contents 10 Dialogic DSI Signaling Servers SWS Mode User Manual Issue 3 Chapter 1 Overview
147. ed initially If the SIU_ HOSTS configuration command is present and lt num_hosts gt is specified then that number of hosts are configured and activated in this case no additional hosts can be configured This allows the SWS users to escalate their systems by adding or removing host connections at runtime and without the need to apply a system restart to the unit In the case that a unit restart is required the configuration adopted can be preserved 9 7 Dynamic Configuration Dynamic configuration allows you to add delete or modify configuration elements for example circuit groups without affecting the state of any other configuration element in the system Dynamic configuration does not require a system restart There are two forms of dynamic configuration e Config txt based dynamic configuration where the user transmits an updated config txt file to the system then executes an MMI command to load the configuration into system memory for use Since the new configuration exists within a config txt file the updated configuration is preserved over a restart See Section 9 7 1 Config txt Based Dynamic Configuration on page 173 for more information e Application based dynamic configuration where a user application transmits a configuration message directly to the protocol module Since the new configuration does not exist in a config txt file the updated configuration is not preserved over a restart and it is therefore necessar
148. ed that the average throughput does not exceed the licensed limit If a system exceeds the limit for a sustained period of time then the licensed limit will be enforced and traffic throttling will reduce throughput until sufficient credit is gained to return to normal operation Two alarms provide indications of throughput congestion and throughput enforcement Traffic congest indicates that enforcement will be reached unless traffic is reduced Traffic Enforce indicates that the system is actively throttling the traffic to the licensed rate In addition the API command API_MSG_SIU_STATUS will provide the following indications of congestion and enforcement to the management module Value Event ID 0x2b Traffic congestion 0 0x2c Traffic enforcement 0 0x2d Clearing traffic congestion and enforcement if active 0 The MMI command STLCP will report the status of the licensable capabilities of the system such as protocols or different modes of operation The command will report whether a license is present whether it is inactive or active whether it is dependant on another license or requires a restart before it can become active The STLCP command also reports the permitted throughput and remaining throughput credit The MMI command MSLCP provides measurements showing peak and total throughput within a particular time period 45 Chapter 5 System Management 46 Dialogic DSI Signaling Servers SWS Mode User Manual Is
149. efaults Initiate CNSLP Configuration SS7 Link Print CNSMC Change SNMP Manager Configuration CNSME End SNMP Manager Configuration CNSMI Set SNMP Manager Configuration CNSMP Display SNMP Manager Configuration CNSNP Configuration SNMP Print CNSNS Configuration SNMP Set CNSRP Configuration SIGTRAN Route Print CNSSP Configuration Subsystem Resource Print CNSTP Configuration SIGTRAN Links Print CNSWP Configuration Software Print CNSYP Configuration System Print CNSYS Configuration System Set CNTDP Configuration Time and Date Print CNTDS Configuration Time and Date Set CNTMP Configuration Trace Mask Print CNTMS Configuration Trace Mask Set CNTPE Configuration Network Time Protocol Server End CNTPI Configuration Network Time Protocol Server Initiate CNTPP Configuration Network Time Protocol Print CNUAP Configuration User Account Print CNUAS Configuration User Account Set CNUPI Configuration Update Initiate CNURC Configuration Update Resource Change CNURE Configuration Update Resource End CNURI Configuration Update Resource Initiate CNUSC Change SNMP v3 User Configuration Dialogic DSI Signaling Servers SWS Mode User Manual Issue 3 CNUSE End SNMP v3 CNUSI Set SNMP v3 CNUSP Display SNMP v3 6 9 1 CNBOP Configuration Board Print Synopsis This command displays the configuration of all Dialogic DS SS7 Boards Syntax CNBOP Prerequisites None Example CNBOP Ou
150. em Initiate cece eee eee eee eae 90 6 13 Measurement CommanCdS K J kl eee een eee eee nena kak ka ka 92 6 13 1 MSEPP Measurement Ethernet Port Print cceceeeee eee eee eee e ee eeeeeaene es 92 6 13 2 MSHLP Measurement of Host Links Prints ceceecee eect eee ee eee eee teen ene 93 6 13 3 MSLCP Measurement of License Capability Print L HEE 94 6 13 4 MSMLP Measurement Monitor link Print cece cece eee eee eee eee teeta 95 6 13 5 MSRLP Measurement Remote Links Print cececee eee cette eee eee eee eee eae 96 6 13 6 MSPCP Measurement PCM PYrint c cc cece ce cece teen kk kk kk ene nent eee 97 6 13 7 MSSLP Measurement SS7 Link Print cece cece cece eee eee kk e eee k eee 98 6 13 8 MSSTP Measurement of SIGTRAN Links Print essc 99 6 13 9 MSSYP Measurement System Print ccceceeee cece e rete ee eee e teeta anata ene 99 6 14 Reset Command ss chests bnn aie ee nin dan sn ease e n Ain B yA Ee beba Kabak a Seke nda pagans ety 101 6 14 1 RSBOI Reset Board Initiate etter 101 6 15 Status COMMANA S stipes tees veneered E E A WA QEY Mn Haw eee 102 6 15 1 STALP Status Alarm Print ga l3 a ni xy yn abad yan enk ka has h W N M aAA AEEA EPEN 102 6 15 2 ST BOP Stat s Board Print a x s w A du lal he cee WAV N QU v ye 103 6 15 3 STCGP Status Circuit Group Print LL hk h khkW kk kk kk kk 103 6 15 4 STC
151. ement host identify each time the SWS is restarted An optional second management host may also be activated by sending a management request On receipt of this request the SWS sends management events to both management hosts The selection of which host is the manager as well as the configuration of an additional management host allows a user to build a resilient solution to meet their management event reporting needs The SWS also maintains a log of management messages for diagnostic purposes in the syslog subdirectory of the siuftp account This log is maintained as a rolling log of up to 10 5MB files containing management messages transmitted to the management host as well as some further diagnostic data The most recent maintenance log file will have the name maint log the next most recent maint log 1 and then maint log 2 and so on 3 8 Alarms The Dialogic DSI Signaling Server products are able to detect a number of events or alarm conditions relating to either the hardware or the operation of the protocols Each alarm condition is assigned a severity class 3 Critical 4 Major 5 Minor and a category and ID which give more detail about the alarm There are a number of mechanisms described below by which these conditions can be communicated to management systems and ultimately to the system operator See Section 5 5 Alarm Listing on page 40 to for a list of alarm types and their reporting parameters Ac
152. equest frames to the specified remote IP address and measures the maximum round trip time similar to the standard UNIX ping command Syntax STIPP IPADDR Prerequisites None Attributes None Example STIPP IPADDR 123 124 125 126 Output Format IPADDR SEND RECV MAXRTD 123 125 125 126 4 4 20 EXECUTED The meaning of each field in the output is as follows e IPADDR The IP address to which the five ICPM Echo Request frames are to be sent SEND Shows the number of frames transmitted RECV Shows the number of replies received MAXRTD Shows the maximum delay between sending a frame and receiving a reply in milliseconds The measurement is accurate to 10ms hence any value less than 10ms is displayed as lt 10 Note If the destination IP address is not reachable RECV is shown as 0 and MAXRTD is shown as 107 Chapter 6 Management Interface 6 15 9 STLCP Status Licensing Print This command prints the status of each license on the system The meaning of each field in the output is as follows CAPABILITY A licensable capability of the system This may be a protocol license or an operating mode license A capability may have been purchased as a software license shipped as part of the system or bundled as part of another license STATUS Status of the capability on the system where NONE This capability is not present It requires a software license INACTIVE The lice
153. ere are three components to a GTT rule when configured using the config txt file the Pattern component which specifies the GT information which must be matched the Address component which specifies the Address information to use when translating and 178 Dialogic DSI Signaling Servers SWS Mode User Manual Issue 3 the GTT Rule component which controls how the Address Global Title is used during the translation process The GTT Rule can additionally specify a Backup Address which is used if the first cannot be routed to at that time 9 11 2 Global Title Address I nformation GTAI digits may be split up into logical sections using the separator character Each section will contain zero or more digits Each section in the Pattern defines a set of digits which must be matched Valid digits are in the ranges 0 9 a d and f Wild cards may be used where the value of the digits is not significant The character represents a single digit wildcard and the character indicates a variable length wildcard If no digits are supplied for a section then the section has no effect on the matched digits An empty section is used to mark the position in the GTAI digits where digits are inserted from the Address Padding characters may be added to aid readability Each section in the GTT Rule Mask defines how the replacement operation is performed Sections marked K identify that the section of the Called Address being translated
154. erface trunks STN_NC STN M ail network context and point code type to be used by STN_LINK STN O Define SIGTRAN links STN_LAS STN O Define a local application server STN_RAS STN O Define a remote application server STN_RASLIST STN O Attach a list of M3UA links to a remote application server STN_ROUTE STN O Define SIGTRAN routes STN_RSGLIST STN O Attach a list of signaling gateways to a SIGTRAN route Associate the local application server with a remote STN_LBIND STN O application server or remote signaling gateway identifying the route to reach the destination MTP_CONFIG MTP M Set global MTP operating parameters MTP_NC_CONFIG MTP O Set global MTP parameters for an SS7 Network Context MTP_LINKSET MTP M Define link sets MTP_LINK MTP M Define signaling links MTP2_TIMER MTP O Configure MTP2 link timers NOTES 1 The Group column defines which part of the system a command configures All configurations may use the SIU SWS and MTP commands The protocol specific for example SCCP etc commands should only be used if those software options are licensed and configured in the SWS 2 Commands shown as M are Mandatory for configuring TDM signaling over T1 E1 trunks Commands shown as O are optional 128 Dialogic DSI Signaling Servers SWS Mode User Manual Issue 3 Table 4 Command Summary Continued Command Group Class Summary MTP3_TIMER MTP O Configure
155. ermitted values and their meaning Value Description 1 CRC generation disabled 2 CRC4 enabled frame_format must be set to 2 3 CRC4 compatibility mode E1 only 4 CRC6 enabled T1 only CRC4 G 706 compatible mode frame_format must be set to 2 NOTES 1 Out of CRC4 multiframe E Bits are transmitted as zeroes 2 This value is supported on SS7HDP boards only lt syncpri gt Specifies the relative clock priority of individual T1 E1 interfaces This parameter allows you to prevent the interface being used for clock recovery syncpri 0 or select a number in the range 1 to 32 where 1 is the highest priority and 32 is the lowest The use of the same value for multiple interfaces is permitted in which case the lowest numbered port on the lowest numbered board takes the highest priority The parameter should be specified when the internal telephony bus is activated by flags in the SS7_BOARD command When the internal telephony bus is not activated see SS7_ BOARD above this parameter should be zero e lt build_out gt Specifies the range of build out settings for a T1 interface The parameter is required for SS7HDP boards The following table shows the permitted values and their meaning Value Description Valid For 0 E1 setting default liu_type 5 1 T1 short haul O to 110 ft default 2 T1 short haul O to 110 ft same as value 1 3 T1 short haul 110 to
156. erved Bit 2 PC Indicator A 1 indicates that Point Code is used in addressing Bit 1 SSN Indicator A 1 indicates that SubSystem Number is used in addressing e lt pc gt The point code This is ignored if bit 0 of lt addr_indicator gt is not set lt ssn gt The subsystem number This is ignored if bit 1 of lt addr_indicator gt is not set lt global_title gt The global title excluding the global title address information specified as a string of hexadecimal octets starting with Ox except when the lt addr_indicator gt indicates that no GT is present when a value of 0 zero should be used 160 Dialogic DSI Signaling Servers SWS Mode User Manual Issue 3 lt gtai_replacement gt The global title address information to translate to specified as a string of hexadecimal digits digit Oxe is reserved in left to right order i e the pairs of digits are not swapped as would be the case for a BCD string In addition to hexadecimal digits this string can contain the following characters Character Function Padding ignored Separator used to split the pattern into sections Each section can be processed differently as specified by the lt mask gt parameter in the SCP_GTT command 8 8 5 SCCP_GTT_PATTERN Global Title Translation Pattern Synopsis The SCCP_GTT_PATTERN command defines the received global title pattern to be matched for a global title translation Syntax SC
157. estion Messages that are not destined for the local point code are processed When set to 0 messages are discarded When set to 1 messages are sent to fixed module_id 0x0a on the host Bit 18 controls MTP3 operation on detection of Remote Processor Outage RPO When set to 0 on detection of RPO the signaling link is taken out of service and restoration commences This setting is useful for backward compatibility When set to 1 which is the normal setting RPO is handled in accordance with the ITU T 1992 and later recommendations Bit 20 is used to select between 14 bit point codes and 16 bit point codes It is only significant when 24 bit point codes are not selected that is when bit 9 is set to 0 When set to 0 14 bit point codes are selected When set to 1 16 bit point codes are selected Dialogic DSI Signaling Servers SWS Mode User Manual Issue 3 Bit 21 is used to activate J apan specific MTP3 operation When set to 0 normal setting J apan specific functionality is disabled When set to 1 Japan specific functionality is enabled Bit 22 the handling of received Route Set Test Messages It should only be set if bit 17 is also set Normal operation Route Set Test messages processed by MTP3 When set to 1 messages are sent to fixed module_id 0x0a on the host Note For correct J apan specific operation you should also select 16 bit point codes by setting bit 20 as well as bit 21 All
158. estroy Traps will not be generated if set to NONE Default Change INHIBIT Set to Y to inhibit an SS7 link or set to N to uninhibit the link IP1 The primary IP address on which the SWS will attempt to communicate with the peer unit IP2 The secondary IP address on which the SWS will attempt to communicate with the peer unit IPADDR The SWS s own network IP address or that of one of it s hosts in the format aaa bbb ccc ddd IPGW A logical reference for an Internet Protocol Gateway value in the range 1 to 31 The gateway can also be specified as default IPNW An IP network identifier in the format aaa bbb ccc ddd LAS Local Application Server Logical reference for a Local Application Server The valid range is 0 199 LABEL A text label used to identify the related item 0 to 12 alpha numeric characters LEDID Front panel LED ID Reserved for future use LINK SS7 link identifier in the range 0 to 127 LOCATION Label identifying the location of the unit Max 24 characters M2PA_ID SIGTRAN SCTP association identifier in the range 0 32 For use with M2PA only MAP present parameter Set to Y to enable the operation of MAP when the software is licensed or N to MAP A disable the operation of MAP MASK An IP network mask in the format aaa bbb ccc ddd MMASK Management Mask a trace mask for management messages generated by a protocol module MNGR Logical identifier for an SNMP manager in the range 1 3
159. etween the ITU Q 713 and ANSI T1 112 specifications For ITU the parameter is defined as Bit 8 Reserved for national use Bit 7 Routing indicator 0 Route on GT 1 Route on SSN Bits 6 3 Global title indicator the value in these bits indicates what data precedes address information in the global title so in the context of the SCCP_GTT_PATTERN statement which octets are expected in the lt global_title gt parameter Defined values are No Global title In this case the lt global_title gt parameter value should be 0 zero 0000 basel0 without Ox prefix Global title includes Nature of Address Indicator NAI only The lt global_title gt 0001 parameter see below should be a single hexadecimal octet prefix Ox followed by two hexadecimal digits the octet value being the NAI Global title includes Translation Type TT only The lt global_title gt parameter 0010 should be a single hexadecimal octet the octet value being the TT Global title includes TT Numbering Plan NP and Encoding Scheme ES The 0011 lt global_title gt parameter should be two hexadecimal octets prefix Ox followed by four hexadecimal digits the TT in the first octet the NP and ES four bits each in the second octet Global title includes TT NP ES and NAI The lt global_title gt parameter should be three hexadecimal octets prefix Ox followed by six hexadecimal digits the TT in the first octet
160. eyed to the dual module over the inter MTP3 link set o 0 Normal setting sub Service Field bit 2 is modified o 1 Alternative setting sub Service Field bit 0 is modified Bit 20 is used to select between 14 bit point codes and 16 bit point codes It is only significant when 24 bit point codes are not selected that is when bit 9 is set to 0 When set to 0 14 bit point codes are selected When set to 1 16 bit point codes are selected Bit 21 is used to activate J apan specific MTP3 operation When set to 0 normal setting J apan specific functionality is disabled When set to 1 J apan specific functionality is enabled Bit 22 the handling of received Route Set Test Messages It should only be set if bit 17 is also set Normal operation Route Set Test messages processed by MTP3 When set to 1 messages are sent to fixed module_id 0x0a on the host Note For correct J apan specific operation you should also select 16 bit point codes by setting bit 20 as well as bit 21 All other bits are reserved and should be set to zero 8 6 2 MTP_NC_CONFIG Network Context MTP Configuration Synopsis The MTP_NC_CONFIG command defines the global configuration parameters for MTP existing in an additional SS7 Network Context to that identified by the MTP_CONFIG command Syntax MTP_NC_CONFIG lt nc_id gt lt options gt Example MTP_NC_ CONFIG NC1 0x0000 139 Chapter 8 Configuration Parameters The MTP
161. f 0 0 0 0 cannot be specified lt rip2 gt The secondary IP address on which the SWS will attempt to communicate with the remote unit Should be set to 0 0 0 0 if not configured lt end gt Identifies whether the SWS end of the SIGTRAN link acts as a CLIENT or a SERVER lt Iport gt Local SWS SCTP port in the range 1 to 65535 lt rport gt Remote SCTP port in the range 1 to 65535 lt flags gt This is a 16 bit value used to specify run time options Bit Description Secure Mode When set to 1 the SIGTRAN link will not come into service if it receives a message from an IP address not associated with the SIGTRAN link For a M3UA SIGTRAN link communicating with a Remote Signaling Gateway when set to 1 a DAUD 1 message will be sent when the link comes into service and periodically thereafter When not set DAUD message will not be generated Not applicable for M2PA 2 For M3UA set to 1 when the RSG parameter value will be used Not applicable for M2PA 3 For M3UA set to 1 when the NA parameter value will be used Not applicable for M2PA 4 15 Reserved and should be set to zero lt rsg gt Remote Signaling Gateway RSG Identifies a remote server to act as a Remote Signaling Gateway The RSG might not have the same id value as an existing Remote Application Server No more than 32 SNLINKs can identify the same RSG All SIGTRAN links between the SWS and a Remote Signaling Gateway must be of th
162. f NCO is assumed Supported values are NCO NC1 NC2 or NC3 lt ssr_id gt A unique value in the range 0 to 2047 that is used to identify the SSR 512 ssr_ids are allowed per Network Context The same ssr_id might not be used to configure an SSR of another type RSS Identifies the SCCP_SSR command type as a command for a remote SCCP sub system lt remote_spc gt The point code where the remote sub system is implemented 164 Dialogic DSI Signaling Servers SWS Mode User Manual Issue 3 Note For correct operation lt remote_spc gt must always have its own SCCP_RSP entry in addition to any SCCP_RSS entries There must also be an MTP_ROUTE defined for this signaling point lt remote_ssn gt The remote sub system number as defined by the SCCP protocol lt rss_flags gt A 16 bit value where each bit enables or disables additional features of the remote sub system The meaning for each bit is as defined for the options parameter described in the Configure Sub System Resource Request section of the SCCP Programmer s Manual 8 8 7 SCCP_CONC_SSR SCCP Concerned Sub Systems Configuration Synopsis This command defines an SCCP concerned resource that receives SCCP notifications if the state of a resource it is concerned about changes A concerned sub system resource CSSR can refer to up to 32 sub system resources SSR Notification is given in the form of an SCCP management indication Multiple SCCP_CONC_SSR entries may
163. fic Ethernet ports for traffic and utilizing other Ethernet ports for system management information Signaling IP traffic security between the SWS and its hosts can be further enhanced by tunneling the IP traffic over SSH Dialogic DSI Signaling Servers SWS Mode User Manual Issue 3 It should be understood that while the SWS has been designed with security in mind it is recommended that the SWS accessibility over IP be restricted to as small a network as possible If the unit is accessible by third parties then the use of a third party firewall should be considered 15 Chapter 1 Overview 16 Dialogic DSI Signaling Servers SWS Mode User Manual Issue 3 Chapter 2 Specification 2 1 Hardware Specification Hardware details of the Signaling Server products are provided in the Dialogic DSI SS7G31 and SS7G32 Signaling Servers Hardware Manual The Dialogic DSI SS7G31 and SS7G32 Signaling Servers physically identify Ethernet ports in different ways Below is a mapping between the Ethernet port as it is identified in software and the physical port as it is identified in the respective Hardware Manual e SS7G31 Ethernet ports number in the range 1 to 4 where ETH 1 corresponds to physical port 1 ETH 2 corresponds to physical port 2 ETH 3 corresponds to physical port 3 ETH 4 corresponds to physical port 4 e SS7G32 Ethernet ports number in the range 1 to 6 where ETH 1 corresponds to physical port 1 ETH 2 co
164. fully operational a status of DOWN indicates either that the disk is faulty or otherwise unable to synchronize A status INACTIVE indicates that is has been deactivated by the user a status of RESTARTING indicates that it is attempting to synchronize but the operation is not yet complete If the server is restarted through power loss or user action while synchronization is in progress the synchronizing disk will be in an indeterminate state and on restart may cause the server to fail to boot In such an event the disk should be removed from the server and any formatting on the disk manually removed The disk should be re installed on the server and the system booted To restart synchronization you should deactivate MNINI and the re active MNINE the disk On the SS7G32 the disk does not need to be re formatted instead you should simply boot without the disk insert it when the system is operational and re activate synchronization using MNINI MNINE Warning Attempts to reactivate disks that have failed due to hardware reasons potentially can lead to a restart of the server The server operates a watchdog to protect the operation of the server If the server becomes unstable due to a failed hardware or software component the watchdog will force a system restart to attempt to resolve the problem If a disk drive remains in the DOWN state after attempting re activation either the replacement drive is faulty or it has previously been formatted
165. g function which has several possible interfaces to the user and may be local or remote For further information on alarm functions refer to Section 3 8 Alarms on page 29 1 7 3 1 Diagnostic Log Files The SWS is able to generate several diagnostic log files for use in the event of an unexpected system restart The text files can be recovered from the unit using FTP 1 7 4 Management I nterface A management interface is provided and may be accessed either via a VT100 compatible terminal or remotely via telnet or SSH This is used to request information on the status of signaling links and PCM ports The management interface also provides configuration information and activation of tracing In addition a some aspects of the system maybe set up using a web based configuration interface 1 7 5 IP Security 14 The SWS offers a number of security features for protection against unwarranted access on its IP interface It is recommended that the user enables the optional Password Protection feature on the Management Interface port and on the FTP Server port For additional security the SWS is equipped with Secure Shell SSH functionality which supports the tunneling of telnet and RSI traffic as well as Secure FTP Unused ports are disabled to increase security against unintentional or malicious interference Additional security may be gained by separating management and signaling IP traffic This can be achieved by configuring speci
166. gnaling The board must already have been configured using the SS7_BOARD command lt blink gt This is a compound parameter that indicates the signaling processor and the channel on the signaling processor that will be monitored It is represented in the form sp_id sp_ channel where sp_id is the identifier of the signaling processor with a value in the range 0 to one less than the number of processors on the board sp_ channel is the identifier of the channel on the signaling processor with a value in the range 0 to one less than the number of links supported per signaling processor The MONITOR_LINK and MTP_LINK commands cannot be used on the same sp_id sp_channel resource For HSL operation only one link per signaling processor is supported Therefore sp_channel must be 0 149 Chapter 8 Configuration e lt bpos2 gt The board identifier of the stream from which the signaling is to be inserted The board must have been configured using the SS7_BOARD command This parameter must be used when setting up link connections across boards When the SS7_ BOARD is configured to be isolated from the internal telephony bus lt bpos2 gt must equal lt bpos gt lt stream gt When the lt timeslot gt parameter is set to a non zero value the lt stream gt parameter is the logical identity of the T1 E1 LIU liu_id containing the signaling link It should be in the range 0 to one less than the number of LIUs lt timeslot g
167. guratio erans ernaia a KEN hak ri SR bar bekan a a Da Va ieee Mavs tied 178 9 11 1 HOW to CONMIQUFE GIT gt si sk kanya nana ni na ko ndi baneda ha n Sn xan na n h k n diya r Qa n n k n 178 9 11 2 Global Title Address Information Lhk k kk kk kk kk kk kk 179 9L 1 3 E Xal 1D OS s su cohen da n n nia iya a on do a n N week na daka i Aa an Db dkan AR St n ran dw n da A 179 9 uLl1 3 1 Example siy siyannc din Wa ren baneda ara Va da W Wira wak hn an ee aes 179 9 11 352 Example 2 score nank kanin ka wa kan s k n k pa Ha RW A d NA haw i k n ao h hae eee 179 9 11 3 3 EX mple 3 si i sl dal ay n xar kal n ed ine A bap a ingen W ro A Ad be dara d n 181 9 11 34 Example 2 5 5x i siy 2a xa d onn ba nawa Derd n ninan nia k kana edo Tn G Dara Dw na een mec 181 9 12 ASL SIGMAlING si Sansa lok ba binek aa k vau ka nab n A n ba W wa N aa heb na ewa RYA N A k ku a ete 182 GAZ eT LIV CONFIG s sy n nia kuna nan kan ie same h h q n teste h pa al h yda w we nin i EA WAA WAR 182 9 12 2 MTP_LINK lt interface_ mOQde gt kMh MA lkl kak kk klkkakk aka k ya kya ka aka aka ayak aka 182 9 123 MTP LINK Z fla gS Fn si arslan ana kinar anan A hrana ana Da na blaw wa ona en eka a 182 9 12 4 MIPLINK lt timesSl0L 5 xa xis ca madan si kas aki kw k lan nikena w Wad
168. has been established the command prompt is output which is the less than symbol lt The log on session is ended either by operator command or at the end of an auto log off timeout The system maintains two timers during the log on session An auto log off warning timer An auto log off timer Both are restarted each time a new command is input When the auto log off warning timeout expires an auto log off warning message is output to the terminal and any partially entered command discarded The system then outputs a command prompt to the terminal If no command is input before the auto log off timeout expires the log on session is ended When log off is initiated a message containing the software product name mode of operation SWS the system identification string SYSID the date and time is displayed SS7G32 SWS lt SYSID gt logged off at lt calendar date gt lt time of day gt The SWS then initiates the appropriate procedure to end the connection to the operator s terminal 6 2 Command Entry Commands may be entered whenever the command prompt lt has been output Commands are terminated by a semicolon followed by a carriage return CR If a command takes parameters a colon is used to separate the command from the parameters A comma is used to separate multiple parameters Table 3 Parameter Definitions on page 48 gives information on command parameters and describes their format and permiss
169. he MTP commands include MTP_CONFIG Global MTP Configuration MTP_NC_CONFIG Network Context MTP Configuration MTP_LINKSET MTP Link Set MTP_LINK MTP Signaling Link MTP2_TIMER MTP2 Timer Configuration MTP3_TIMER MTP3 Timer Configuration MTP_ROUTE MTP Route e MTP_USER_PART MTP User Part 8 6 1 MTP_ CONFIG Global MTP Configuration Synopsis The MTP_ CONFIG command defines the global configuration parameters for MTP when existing in a single network or for Network Context 0 NCO when existing in multiple Network Contexts Syntax MTP CONFIG lt reservedl gt lt reserved2 gt lt options gt Example MTP_CONFIG 0 0 0x0000 Parameters The MTP_CONFIG command includes the following parameters e lt reserved1 gt Reserved for future use This parameter should be set to zero lt reserved2 gt Reserved for future use This parameter should be set to zero lt options gt A 32 bit value each bit of which enables or disables additional configuration options 138 Bit 0 defines the operation of MTP3 when a message is received from the SS7 network with a Destination Point Code DPC different from the local point code configured for the link set When set to zero these messages are discarded When set to 1 all received messages are processed regardless of dpc value This bit is normally set to zero Bit 1 defines the operation of MTP3 when a message is received from the SS7 network with a sub
170. he PASSWORD typed for remote access to MML interface sessions To provide that only strong passwords are used the following rules will be enforced The password must not be the same as any of the previous 8 passwords used CONFIRM It must be between 8 and 15 characters It must have at least 1 upper case character 1 lower case character 1 digit and one special character Special characters support are Label identifying person group responsible for the Signaling Server Maximum 24 characters e g CONTACT i email example com A concerned SCCP sub system resource that is a sub system resource that wants to receive state change information about another SCCP sub system or signaling point Possible values are CSSR e LSS Local Sub System e RSS Remote Sub System e RSP Remote Signaling Point Calendar date in the format xxxx yy zz where DATE e xxxx is a four digit year value in the range 1990 to 2038 e yy is a two digit month value in the range 1 to 12 e zz is a two digit day value in the range 1 to 31 DLGID A logical identifier for a TCAP dialog The valid range is 0 to 65535 DMHOST The default management host In the range of 0 default to 63 DRIVE A Drive bay identifier for a disk drive value in the range 0 to 1 A type parameter identifying the item to backed up updated Possible values are DTYPE e SYSKEY The system license modcap e SYSCFG The binary system configuration config CF1 e CONFIG The text configu
171. he system Also provides easy access to diagnostic and statistics from the system e SNMP Optional interface supporting functionality for traps alarms and other indications Refer to Chapter 6 Management Interface and Chapter 7 Web based Management Interface 5 2 System Software Unit software for the Dialogic DS SS7G31 and SS7G32 Signaling Servers may be updated by FTP transfer or from CD R Unit software for the Dialogic DSI SS7G31 and SS7G32 Signaling Servers may be updated by FTP transfer or from USB Current information and file downloads for Signaling Server units can be found at the following URL http www dialogic com support helpweb signaling Although updating the software is not a requirement and units are expected to function well with the software supplied with them it is recommended that you use the latest version of the software available 5 2 1 Updating the Software by FTP Transfer The procedure to update the system software by FTP Transfer is as follows 1 Establish an FTP session see Section 8 11 1 Establishing an FTP Session on page 170 2 Since this software is a binary file set the FTP transfer mode to BINARY 3 Transfer the SWS mode specific software binary by typing put ss7g30 sws tgz sgw tgz Note The SWS uses a case sensitive file system Hence it is necessary to specify the name of the target file the second filename in the example command shown above in lowercase
172. ible value ranges Commands that affect operation are considered dangerous commands If a dangerous command is entered the SWS outputs the following on a new line Are you sure Y N The operator must enter Y to continue the execution of the command Any other valid input causes the command to be aborted 47 Chapter 6 Management Interface 6 3 6 4 6 5 48 A summary of the available commands is given in Section 6 17 Command Summary on page 121 Command details are given in Section 6 8 through Section 6 15 Command Responses The SWS does not produce output except in response to an operator command When a syntactically correct command has been issued acceptance is indicated by the Executed Response output as follows EXECUTED An invalid command is not acted upon The SWS indicates command rejection by issuing one of the responses listed in the Table 2 Table 2 Command Responses Response Reason for Rejection EXTRA PARAMETERS Too many parameters have been entered GENERAL ERROR Command unable to execute due to external error ILLEGAL COMMAND The command is invalid for the mode of operation INVALID INDICATOR The command code contains an invalid indicator INVALID PARAMETER NAME A parameter name has been entered which is not valid for this command MISSING PARAMETER A required parameter has not been input NO SYSTEM RESOURCES The requested command cann
173. ient F link FTP gctload HTTP MAP MTP MSU LIU Link Link set Dialogic DSI Signaling Servers SWS Mode User Manual Issue 3 An access link that connects a signaling end point for example an SCP or SSP to an STP Only messages originating from or destined to the signaling end point are transmitted on an A link Alarm Indication Signal Blue alarm Application Programming Interface Bit Error Rate The index of the logical signaling processor SP channel within the board allocated for a signaling link For Dialogic DSI SPCI4 Network Interface Boards that have a single processor that supports 4 signaling links the blink parameter is a single value in the range 0 to 3 For Dialogic DSI SS7HDP Network Interface Boards that have two signaling processors with each processor supporting up to 32 signaling links the blink parameter is a compound parameter of the form x y where x represents the processor a value of 0 or 1 and y represents the SS7 signaling processor SP channel within the processor a value in the range 0 to 31 Consultative Committee on International Telegraphy and Telephony A text file used for protocol configuration Central Processing Unit A concerned SCCP sub system resource that is a sub system resource that wants to receive state change information about another SCCP sub system or signaling point Destination Point Code Identifies the address point code of the SS7 network node to
174. igured between the dual resilient pair Resilience on the Inter SWS link set may be achieved by configuring two links in the inter SWS link The inter SWS link may be conveyed over M2PA or M3UA avoiding the requirement for a TDM link and cabling between the units or may be conveyed via signaling links configured on the T1 E1 ports 3 5 Transaction Based Applications Applications that need to exchange non circuit related information over the SS7 network such as for the control of a Mobile Telephone Network or for an Intelligent Network application do so by exchanging information between sub systems using the services of SCCP A sub system is an entity that exchanges data with other entities by using SCCP The SWS provides the capability to configure local sub systems and routing to remote resources The intelligent functionality of each local sub system is provided by the user application running on one or more host computers 3 5 1 Management of Local SCCP Sub Systems 28 The SWS system automatically brings local SCCP sub systems into service no application interaction is required Dialogic DSI Signaling Servers SWS Mode User Manual Issue 3 3 6 Resilience 3 6 1 IP Resilience The SWS has up to six IP ports These ports may be configured with IP addresses in separate IP networks to allow greater IP resilience on the SWS IP addresses are configured using the PEPS command The PGW command allows configuration of the default gatewa
175. ill be active whenever the system is operating in this mode 4 2 Installing the SWS Unit Caution The SWS should only be installed by suitably qualified service personnel Important safety and technical details required for installation are given in the appropriate system hardware manual In order to complete the installation of the SWS unit proceed as follows 1 Connect a VT100 terminal to the unit see Section 4 2 1 2 Set the IP addresses of the unit see Section 4 2 2 3 Check whether a software download and upgrade is required see Section 4 2 3 4 Install any additional protocol software option licenses that you may have purchased see Section 4 2 4 5 Check that the system is operating in SWS mode This is achieved by connecting a VT100 terminal and issuing the CNSYP command The resulting output shows the operating mode which is either SWS SIU or SGW see Section 6 9 27 CNSYP on page 71 If the operating mode is not SWS and needs to be reset to SWS mode this can be achieved by restarting the software with the following MNRSI command MNRSI SYSTYPE SWS RESTART SOFT 6 Apply the configuration to the unit see Section 4 2 5 Configuration Procedure on page 35 See also Chapter 9 Configuration Guidelines for some example configurations 7 The SWS is designed to work in a complete system with one or more host platforms Typical system topologies are shown in Sec
176. ing applications to indicate when they are in service using a SCP_MSG_SCMG_REQ message Possible values are 0 Do not automatically send user in service messages local subsystems must send them 1 Automatically sends a user in service message to SCCP for all configured local subsystems The parameter will default to 1 if not entered 157 Chapter 8 Configuration 8 8 2 SCCP_NC_CONFIG SCCP Network Context Configuration Synopsis The SCCP_NC_CONFIG command defines the global configuration parameters for SCCP existing in an additional SS7 Network Context to that identified by the SCCP_CONFIG command Syntax SCCP_NC_CONFIG lt nc_id gt lt local_spc gt lt ssf gt lt options gt lt auto_uis gt Example SCCP_NC CONFIG NC1 123 8 0 1 Parameters The SCCP_NC_CONFIG command includes the following parameters e lt nc_id gt SS7 Network Context This parameter uniquely identifies the SS7 network for which SCCP is being configured Supported values are NC1 NC2 and NC3 e lt local_spc gt The local point code of the SIU e lt ssf gt The sub service field value that SCCP uses when exchanging messages with the MTP This must always be set so that the Network Indicator bits the two most significant bits of the 4 bit ssf value match those set in the MTP_LINKSET command lt options gt A 32 bit value containing run time options for the operation of the SCCP module The 16 most significant bits provide ext
177. ion data on the SWS The operation involves reading the config txt file containing configuration data validating it and applying it to the unit The modes that can be used to initiate new resources are CGRP MTPR MTPLS MTPL MONL LIU SSR CSSR M3UAR or M3UARLIST See Section 9 7 1 Config txt Based Dynamic Configuration on page 173 for more information Note Adding an MTP route to an adjacent Signaling End Point SEP will require any all previously configured MTP links associated with the route to be taken out of service using MNINI and then brought back into service using MNINE to allow the route to come fully into service New MTP routes that reach a destination via an STP do not require this additional step and will come into service on the completion of the Signaling Route Set Test mechanism Syntax CNURI MODE ID Prerequisites The command succeeds only if the resource specified by the ID parameter is present in the updated configuration file a valid configuration has been entered and the specified resource was not previously configured on the unit When adding links to an SPCI4 signaling board the board must be reset RSBOI following the execution of this command and after reset the link must be activated using MNINE Attributes CONFIG The command affects configuration data Dialogic DSI Signaling Servers SWS Mode User Manual Issue 3 Example CNURI MODE MTPR ID 5 CNURI MODE SSR ID 8 CNURI MODE
178. it will be renamed maint log 1 and a new maint log file will be created If there is an existing maint log 1 file that will be renamed maint log 2 other log files will consequently be renamed in a similar manner with the oldest file maint log 9 being removed MMI inputs and outputs will be logged to files of the name mmi log in the syslog sub directory of the siuftp account In the same manner as the maintenance logs these files will be limited to be a maximum of 5MB with support being provided for up to 10 files When configured trace messages will be logged to files of the name trace log in the syslog sub directory of the siuftp account Just as with event and MMI logs logs of these files will be limited to be a maximum of 5MB with support being provided for up to 10 files Finally trace messages for M3UA and MTP3 may also be logged in PCAP file format producing files of the name trace pcap in the same manner as above PCAP logging is selected using the TRACEFMT parameter in the CNSYx MMI command Upon restart the SWS also backs up the existing system configuration and generates additional diagnostic files These files together with the maintenance and optionally trace log files may aid the support channel in the analysis of events and errors occurring on the SWS The configuration files maintenance and trace files as well as the additional text files startup logs and shutdown_logs can be recovered from the syslog directory using FTP
179. iuftp subdirectory 8 11 2 Transferring the Protocol Configuration to a Remote Computer The configuration file may be read from the SWS to a remote computer The file may then be modified by a native editor running on that computer Once the modifications are complete the file may be transferred back to the SWS using FTP Note For correct operation before the configuration file is transferred the transfer type must be set to text Most FTP implementations use the ASCII command to set text transfer type The configuration file config txt may be transferred to the remote system using the FTP get command get config txt The FTP session should then be terminated by entering the quit or bye command Once the protocol configuration file has been modified this should be transferred back to the SWS using the FTP put command put config txt config txt The SWS uses a case sensitive file system Therefore it is necessary to specify the name of the target file the second filename in the example command shown above in lowercase 170 Dialogic DSI Signaling Servers SWS Mode User Manual Issue 3 Chapter 9 Configuration Guidelines 9 1 Overview Configuration guidelines are provided for the following e IP Port Bonding Configuring a Dual Resilient SWS System Configuring an ANSI System e Specifying Default Routes Dynamic Host Activation e Dynamic Configuration e SIGTRAN M2PA Signaling SIGTRAN M3UA Signaling SIGTRAN M3UA Dua
180. k Time Protocol Status Print LK Kk CC CU KA Kk kk 118 6 15 21STTRP Status TCAP Resource PIint cceceee kk eeee eee ee ented 119 6 16 Network Time Protocoles cc cosvsa insted eens eae sae tha oon Pee Desc beh ated caesar Kan W n ees w l U de0 k 120 617 Command SUMMALY si xuda yad a oll pele a a ead ves Vind inti vee ahve 121 7 Web based Management I nterface ccc kak kk ake 123 FL GOVCIMOW ocak dayen ra deda aa da aa Pete Ke Kaya WaY ein A uch tales ein ca RA He a Way ae halen a Yan dr a 123 hid SWS Managementiawacwianvie Aya E AYNA el eW KI YE PAY PA VEK he REN aia oon 123 7 3 Web based status and sStat Stj CSL Kk hk Kk k kk enn kk kaka kk 124 8 CONTIQUEATION 23 3768 oe Ert xdke AWAR nan ATA D NA WA bra W Tan A RON Wk A WA a Wak YAW N W W DA MAN V N 127 Bel OVERVIOWs meira a E ries E aaa Ea a E i aE ante aa EA E E 127 8 1 1 Syntax Conventions Aya a ab nin Ga A oa T ey 127 8 1 2 Dynamic Configuration hLh WK k kk k cc ne kaka kak kk kak ka 128 6 2 Command Sequence sae ny n QAW wara eW An Z ear arap Aad ada Se k ra vava el dawa 128 8 3 Detection of Errors in the Configuration File M Kk L hlkk kk kk 129 8 4 SIU SWS Commands Ayak Sera nk anan kaka Kal dr bak Pin D S ak A E Way V WA E aa bi 130 8 4 1 SIU HOSTS Number of HOSts M KhK K K hK kk kk kk kk kk k kk ened 130 8 4 2 SIU _REM_ADD
181. l Operation GTT Configuration HSL Signaling e ATM Signaling 9 2 IP Port Bonding The SIU allows you to configure a resilient IP connection across an IP port bonding team of two ports in an active standby configuration On the Dialogic DSI SS7G22 and SS7G31 Signaling Servers up to two port bonding teams may be created using the four Ethernet ports on the SWS The Dialogic DSI SS7G32 Signaling Server has 6 Ethernet ports allowing up to three port bonding teams Each team has a single IP address configured with a primary active and secondary standby port Any IP port on the system may be the primary port in a team and any port may be the secondary port The primary port is a port configured with the IP address of the team and the secondary port is a port configured with a string to associate it with the primary port see Section 6 10 1 IPEPS on page 83 If the system detects that the Primary port has failed it passes the primary s MAC and Layer 3 address to the failover Secondary adapter enabling it to act as the active port in the team On the restoration of the primary port the secondary port is removed from service and the primary port resumes control of its MAC and IP addresses The subnet mask of a secondary IP address in a team is ignored Data loss may occur between the actual failure of an IP connect and the detection of that failure and subsequent switching to the standby port All adapters in a team should be
182. le of its use is specifying a range of TCAP dialogs to be printed by the STTDP command RAS Remote Application Server identifier RASLIST Logical identifier for a RAS to SNLINK relationship The valid range is 0 6399 RC The logical routing context of the local application server An RC might not be associated with any other LAS The valid range is 0 2147483647 Read only Community String A maximum 12 alphanumerical characters If configured the SNMP agent will RCOM silently discard any PDU for which the community string is not identical If not configured the SNMP agent will respond to all received PDUs Default value private Performs a reset operation when set to Y An example of its use is the resetting of measurements to 0 using RESET the MSPCP command Specifies the type of restart operation which can be one of the following NORMAL The system undergoes a full system restart resetting the hardware operating system and SWS software This is the default behavior NORMAL resets should be used for software upgrade or for maintenance events e SOFT The system restarts the application software Prior to a soft restart the signaling boards are reset SOFT resets may be used for a more rapid system restart after updating the system configuration or RESTART licenses However if a new software distribution is to be installed the system performs a NORMAL restart e HALT The system shuts down without a subsequent restart Caution
183. lication Server When communicating with multiple Remote Application Servers there must be additional Local Application Servers each having a different routing context Syntax STN _LBIND lt bind gt lt las gt lt ras gt lt flags gt STN _LBIND lt bind gt lt las gt lt rsg gt lt flags gt Example STN _LBIND 1 16 2 0x0000 Parameters The STN_LBIND command has the following parameters e lt bind gt Logical identifier for a binding between a Local Application Server and either a Remote Application Server or Remote Signaling Gateway The valid range is 0 199 e lt las gt Logical reference for a Local Application Server An underlying snlink may only be associated with a single LAS The valid range is 0 199 e lt ras gt Remote Application Server The Remote Application Server must be associated with at least one SIGTRAN Link and cannot be bound to more than one Local Application Server In IPSP operation the Local Application Server and Remote Application Server must be associated with same network context The valid range is 0 255 e lt rsg gt Remote Signaling Gateway The Remote Signaling Gateway must be associated with at least one SIGTRAN Link The valid range is 0 255 e lt flags gt This is a 16 bit value used to specify run time options This field is reserved for future use and should be set to 0 8 7 3 STN_LINK SIGTRAN Link Configuration Synopsis The SIGTRAN link configuration command sup
184. ling OVErVieW s sis nen waren anda kay Haaa Sak R ne a l dayan b a Ta Do WD asi De k Ga n WE 13 1 7 FUNCUONAlSUMMALY ss yi si5yy snna nn ba x nan yanda Gao TO bin n ninan bara wan n d br wad waa dinan b y DAD n dana bad 13 1 7 1 SWS Mode Overview yaaa kak kak teen y aA 13 1 7 2 Application SoftWare sa a x d u siqan a kara n na akan s da dikek pan n R WAA accede a a d daka 14 157 3 Fault Monitorning 533 sud am n na neka b dan d r Red had akar D dh a Sand WU Deraa d a DAN WA 14 1 7 3 4 Diagnostic LOG Fil S sc sin sx xka nan ionn naka kinda kn De weka n bkin nnn dar n n w kwa T 14 1 7 4 Management Interface hLhL AKAL k MF QWS EEE eee kya aka aka kak ka 14 do IP SECUN y masaya naya ne zana nara netd T a ka AA RES a ay waho Ka W S vk 14 2 Sp cification reseh a Ea E warm snvan 17 2 1 Hardware Specification merie riire nian bn Eb EErEE Rain bibn ka AAEE n n E EEY 17 2 2 SoftWare LiGen S scania a nad ETE EAEN KEENER EIENEN EERDERE Dinh b ERSE 17 2 2 1 Software Licenses for SS7G31 and SS7G32 cece kk kk 17 23 SCAPADINEISS sei DD ude claps tanta tata angtieta dene activ saints aahnG Sus eee nathan veera a 19 2 3 1 SS7G31 and SS7G32 Signaling Servers Protocol Capabilities jj jjjj 19 2 3 2 Application Ll nte a G Ss s s kn otic dal l n hisn se bab
185. llowing Signaling Server operating software to function on P this particular system config CF1 A binary configuration file containing dynamically configurable data that is common to all modes of 9 operation Parameters set by the CNSYS command would for example be stored in this file config txt The text configuration file for an SWS or SIU if present SDC CF3 The binary configuration file for a SGW if present The files can be recovered from the syslog directory using FTP as detailed below ftp 192 168 0 1 user siuftp password KKKKKKKK cd syslog ascii get config txt get sgw lic bin get get get sgw lic modcap config CF1 get SDC CF3 get SDC CF4 cd dist get ss7g30 tgz get ss7g30 siu tgz get ss7g30 sgw tgz bye Dialogic DSI Signaling Servers SWS Mode User Manual Issue 3 You may then archive these files by transferring them to an 509660 format CD or USB To validate that a software license modcap has been created without error you may put the portable media into the Signaling Server and type the following command CNUPI DTYPE SYSKEY If the command returns EXECUTED then the portable media contains a valid software license A Signaling Server may be restored to the configuration and licensing stored on the portable media by inserting the portable media CD or USB into the Signaling Server and re booting On re boot the system will install the files stored on CD or USB onto the s
186. lues specified in the Configuration Section of the appropriate programmer s manual The lt ts_mask gt parameter in the example cross connect command applies to an E1 32 timeslot PCM connection This should be modified to reference 24 timeslots for a T1 configuration Hence to apply a cross connect to timeslots 1 to 23 leaving timeslot 24 for SS7 the mask should be set to Ox1Lfffffe Additional information for the protocol configuration commands and parameters may be found in the previous sections 9 5 Specifying Default Routes For telephony operation the SWS requires an MTP_ROUTE definition for each signaling point that the local point code s communicate with In addition transaction based systems require a declaration of each remote sub system with an SCCP_SSR command It is also possible to configure MTP routes that are designated as default routes Default routes can be used to convey traffic for multiple destinations without the need to configure each Destination Point Code DPC as an explicit MTP route Typically this is useful when a signaling point connects simply to a single STP or a mated pair of STPs and all traffic can be sent to the STP irrespective of current network status Two types of default route are supported 172 Dialogic DSI Signaling Servers SWS Mode User Manual Issue 3 One associated with a real DPC In this case the default route is deemed to be accessible whenever the specified DPC
187. mber of ASP SIGTRAN Links required in load sharing mode lt flags gt This is a 16 bit value used to specify run time options Bit Description When set the configured routing context will be ignored and a routing 0 context will not be required from a received remote application server in an activate message 1 15 Reserved and should be set to zero 8 7 6 STN_RASLIST SIGTRAN Remote Application Server List Configuration Synopsis This command attaches a list of SIGTRAN links to a Remote Application Server The SIGTRAN links provide the SCTP associations to reach the Remote Application Server Syntax STN _RASLIST lt ras_list gt lt rserver gt lt snlink gt Examples STN _RASLIST 1 16 1 STN _RASLIST 2 16 2 STN _RASLIST 3 16 32 Parameters The STN_RASLIST command has the following parameters lt ras_list gt Logical identifier for a RAS to SNLINK relationship The valid range is 0 6399 lt ras gt Remote Application Server The valid range is 0 255 lt snlink gt Logical reference for a SIGTRAN Link The SIGTRAN link cannot be M2PA and cannot already be attached to this server A RAS cannot have more than 32 snlinks 4 when loadsharing A snlink may only be associated with a single Remote Application Server The valid range is 0 255 8 7 7 STN_ROUTE SIGTRAN Route Configuration Synopsis This command is used to configure a SIGTRAN route to a remote SS7 destination Syntax STN
188. me an alarm occurred or cleared and to provide timestamps for such things as measurements and data records The command also allows an OFFSET from UTC to be specified to allow the system to report the correct local time when synchronized with an NTP time server Note The system will not automatically adjust for daylight savings time changes See The CNTDP command to verify the time and date settings The CNTPI command to add NTP servers to the configuration The STTPP command to view the current NTP server status Note The current system time must be within 1000 seconds just over 15 minutes of the time currently used by an active NTP server for NTP time synchronization to be successful If the time is not within that range then NTP synchronization will fail the STTPP command will indicate that the NTP servers are INACTIVE and the system will continue to use its current time In this event if the user wishes to use time based on that used by the NTP servers then the user should modify system time using CNTDS to be within 1000 seconds after which the signaling server will automatically re attempt synchronization Syntax CNTDS DATE TIME NTP OFFSET Prerequisites The OFFSET value must be specified in hours and optionally 0 or 30 minutes in the range 14 to 12 The OFFSET is specified in POSI X style which has positive signs west of Greenwich e g Montreal CANADA 5 00 Parsippany USA 5 00
189. ment taken over 15 minutes ALMSYS The number of system alarms ALMPCM The number of PCM alarms e SIG The number of signaling alarms MINOR The number of minor alarms MAJOR The number of major alarms e CRITICAL The number of critical alarms 6 15 19 STTDP Status TCAP Dialog Print Synopsis This command allows you to read the status of a single TCAP dialog or a range of dialogs If a RANGE value is specified the status of each dialog in the range starting from the dialog identified by DLGID is displayed The default value of DLGID is 0 If a RANGE value is not specified the range is assumed to be one therefore only the status of the single dialog identified by DLGID is displayed Syntax STTDP DLGID RANGE Prerequisites TCAP must be licensed and enabled Attributes None Example STTDP DLGID 122 RANGE 2 117 Chapter 6 Management Interface Output Format STTDP TCAP dialogue status DLG DHA TSM DCS INVK LTRID RTRID 122 IDLE IDLE FREE 0 123 ACTIVE ACTIVE ACTIVE 5 0000C040 0000C080 EXECUTED The meaning of each field in the output is as follows e DHA TCAP dialog handler state Possible values are IDLE RCVD SENT ACTIVE e TSM TCAP dialog transaction state Possible values are IDLE RCVD SENT ACTIVE DCS TCAP dialog control structure state Possible values are FREE PENDING ACTIVE ISM e INVK Number of active invokes in the dialog e LTRID Local transaction ID RTRID
190. ment values to 0 If TYPE is specified only configured links of the type are displayed Syntax MSSTP SNLINK TYPE J RESET Prerequisites None Attributes None Examples MSSTP MSSTP RESET Y MSSTP TYPE M3UA Output Format lt msstp SIGTRAN Link Traffic Measurements SNLINK TYPE RXCK TXCK RTXCK NOOS OSDUR PERIOD 1 M3UA 1 43E6 1 45E6 115 1 62 00 14 55 2 M2PA 1 64E6 1 65E6 99 j j 98 00 14 55 EXECUTED The meaning of each field in the output is as follows SNLINK SIGTRAN signaling link RXCK Chunks of SCTP data received e TXCK Chunks of SCTP data transmitted RTXCK Chunks of SCTP data re transmitted NOOS Number of times a SIGTRAN link has been aborted or shutdown OOSDUR Duration seconds that the link was not in service PERIOD Elapsed time since measurements were reset 6 13 9 MSSYP Measurement System Print Synopsis This command prints out system related measurements for load and congestion taken over a period of time Syntax MSSYP RESET Prerequisites None Attributes None Example MSSYP 99 Chapter 6 Management Interface Output Format System Measurements NOVLD 0 MAXLOAD 28 81 LOADAVG 2 28 PERIOD 18 36 55 EXECUTED The meaning of each field in the output is as follows NOVLD The number of periods of congestion overload during the measurement period e MAXLOAD Maximum load average measurement taken over 1 minute base
191. mmand specifies Network Context specific configuration for TCAP and overrides configuration specified by the TCAP_CONFIG command This command should only be used when a TCAP_CONFIG command is present Syntax TCAP_NC_CONFIG lt nc_id gt lt options gt lt addr format gt Examples TCAP_ NC CONFIG NCO 0x0000 0 Parameters The TCAP_NC_CONFIG command includes the following parameters e lt nc_id gt SS7 Network Context This parameter uniquely identifies the SS7 network that TCAP is being configured for Supported values are NC1 NC2 or NC3 lt options gt Specifies TCAP protocol options as defined for the TCAP Configuration Request message in the TCAP Programmer s Manual lt addr format gt The format of messages used by TCAP Possible values are 0 The address format is determined by the setting of bit 1 of the lt options gt field If bit 1 of the lt options gt field is set to indicate ANSI TCAP PDU formats then ANSI format 24 bit point codes are selected If bit 1 of the lt options gt field is not set ITU T TCAP PDU formats and 14 bit point codes are selected 1 ITU T format 14 bit point codes 2 ITU T format 24 bit point codes 3 ANSI format 14 bit point codes 4 ANSI format 24 bit point codes Note 16 bit point codes are not supported 167 Chapter 8 Configuration 8 9 3 TCAP_CFG_DGRP TCAP Dialog Group Configuration Synopsis The TCAP_CFG_DGRP command allows you to co
192. mmand the use as the backup translation 8 8 4 SCCP_GTT_ADDRESS Global Title Translation Address Synopsis The SCCP_GTT_ADDRESS command defines the global title to be used as the primary or backup destination of a translation This command must be specified after the SCCP_GTT_PATTERN command The global title address information of this command is combined with the global title being translated by examining the mask provided in the SCCP_GTT command Syntax SCCP_GTT_ADDRESS lt nc_id gt lt address_id gt lt addr_indicator gt lt pc gt lt ssn gt lt global_title gt lt gtai_replacement gt Example SCCP_GTT_ADDRESS 9 0x11 0x1234 0 0x001104 0 Parameters e lt nc_id gt SS7 Network Context The Network Context together with a Signaling Point Code SPC uniquely identifies an SS7 node by indicating the specific SS7 network it belongs to When not specified a value of NCO is assumed Supported values are NCO NC1 NC2 or NC3 e lt addr_id gt A unique ID identifying the address Values in the range 0 1023 are valid A maximum of 256 address_id s may be defined within any or each Network Context e lt addr_ind gt The Address Indicator octet is formatted according to the point code format specified in the SCCP_CONFIG lt options gt parameter and indicates which elements of addressing are present in the 159 Chapter 8 Configuration called party address pattern being defined Bit usage for this parameter differs b
193. n of protocol modules and assignment as either SWSA or SWSB is achieved using the CNSYS command described in Chapter 6 Management Interface SS7 protocol and physical interface parameters are set by editing the config txt file See Chapter 8 Configuration for details This can be transferred to the SWS via FTP or sFTP Note Note Secure FTP users by default will land in the parent directory of siuftp and will need to change to the siuftp directory before commencing operation Most Secure FTP clients provide an option to configure the default initial directory If available users may choose to use this instead of manually changing to the siuftp subdirectory You should connect to the FTP session as user name siuftp with an initial password set to siuftp or the password as set by the CNUAS command for the siuftp account 35 Chapter 4 Licensing Installation and Initial Configuration 36 Dialogic DSI Signaling Servers SWS Mode User Manual Issue 3 Chapter 5 System Management 5 1 Management Interfaces The SWS system offers a number of management interfaces supporting the following functionality Web Interface Configuration and management of high level protocol parameters for the mobile services being offered such as SMS USSD and location based services Also provides basic system information and statistics e MMI Console A console based interface over telnet or serial port to configure and manage many aspects of t
194. n previously loaded See page 2 of the CNSWP command or is not in the process of being loaded i e a new software binary has not been ftp d into the siuftp account then the system will automatically restart in its default operating mode Caution If RESET is set to Y then all diagnostic data in the syslog subdirectory of the siuftp account will be removed Caution If the RESTART parameter with a value of HALT is used once the system has been halted the only way to restart the unit is by physically pressing the Power switch on the front panel of the chassis Syntax MNRSI RESTART SYSTYPE RESET Prerequisites The SYSTYPE parameter can only be set to system types that have been licensed for the unit Attributes None Example MNRSI MNRSI RESTART SOFT MNRSI RESTART SOFT SYSTYPE SGW MNRSI RESTART HALT Dialogic DSI Signaling Servers SWS Mode User Manual Issue 3 91 Chapter 6 Management Interface 6 13 Measurement Commands The measurement commands include MSEPP Measurement Ethernet Port Print e MSHLP Measurement of Host Links Prints MSLCP Measurement of License Capability Print e MSMLP Measurement Monitor link Print MSSYP Measurement Remote Links Print e MSPCP Measurement PCM Print e MSSLP Measurement SS7 Link Print MSSTP Measurement of SIGTRAN Links Print e MSSYP Measurement System Print MSSYP Measurement Remote Links Print 6 13 1 MSEPP Measureme
195. n up to date copy of all data on the disk drives such as the operating system software Dialogic DSI signaling software system licenses and configuration files will be maintained on both disks In the event of failure of a single drive the Signaling Server will continue to support the capabilities of the Signaling Server When the failed disk drive is replaced with a unformatted disk drive following the procedure below the Signaling Server will mirror the operating software and data onto the new drive In the event of hard disk failure the system will alarm identifying the disk as unavailable On SS7G31 systems the disk drive must be deactivated using the MNINI command see Section 6 12 1 on page 89 before the unit is shut down and the hard drive removed and replaced For the SS7G32 the disk drive must be deactivated but the unit does not require to be shut down Refer to hard disk drive removal instructions in the Dialogic DSI SS7G31 and SS7G32 Signaling Servers Hardware Manual Once the disk has been replace and in the case of the SS7G31 the system restarted the replacement drive should be activated using the MNINE command see Section 6 12 2 on page 89 at which time the system will perform a synchronization function copying all software to the newly installed disk drive The disk unavailable alarm will persist until both disk drives are synchronized The disk unavailable alarm will persist even if a failed disk drive is
196. nally if SNMP is not currently activated a value of NONE will be displayed Syntax CNSNP Prerequisites None Dialogic DSI Signaling Servers SWS Mode User Manual Issue 3 Attributes None Example CNSNP Output Format SNMP Configuration SNMP DSMI RCOM KKKKKKKK WCOM x EXECUTED 6 9 22 CNSNS Configuration SNMP Set Synopsis This command is used to select an SNMP agent or to disable SNMP Changing the SNMP parameter with the CNSNS command will require a system restart for the changes to take effect The SNMP parameter value can be one of three values Setting the SNMP value to DK4032 will activate the legacy SNMP support Setting the SNMP value to DSMI will activate the enhanced DSMI based agent if there is a valid license on the server Finally SNMP can be disabled altogether by specifying a value of NONE Note When the DSMI based SNMP agent is enabled initially the RCOM string is assigned a value of public and the WCOM string a value of private Unlike the legacy SNMP agent SNMP DK4032 there is no support for SNMP requests without a community string Syntax CNSNS SNMP RCOM CONFIRM WCOM CONFIRM Prerequisites Before DSMI SNMP functionality can be activated the unit must be equipped with the SNMP license Example CNSNS SNMP DSMI RCOM rcomstring CONFIRM rcomstring 6 9 23 CNSRP Configuration SIGTRAN Route Print Synopsis This command displays the configuration of SiIG
197. nd un structured HSL links in accordance with ITU Q 703 Annex A HSL links can be configured on systems employing Dialogic DSI SS7HDP Network Interface Boards which support up to 2 HSL links per board or 6 HSL links per unit 9 12 1 LI U_ CONFI G The LIU_CONFIG command lt frame_format gt parameter should be given a value of 10 when configuring unstructured high speed links 9 12 2 MTP_LINK lt interface_mode gt The MTP_LINK command supports a new parameter lt interface_mode gt that identifies the interface type for signaling links The interface mode should be set to one of the following values Interface_mode Description TDM Single timeslot signaling link E1 HSL u Li an te set to 10 T1_HSL Unstructured T1 HSL operation Note LIU frame_ format must be set to 10 E1_FRAMED Framed 31 timeslot E1 operation T1_FRAMED Framed 24 timeslot T1 operation E1_PCM Structured 30 timeslot E1 operation timeslots 0 and 16 are used for signaling The interface_mode value must be consistent with the liu_type and frame_format values of the LIU_CONFIG command 9 12 3 MTP_LINK lt flags gt Bit number Description Set both to zero for E1_HSL and T1_HSL operation 10 amp 11 HSL framed operation uses these bits in a similar manner to single timeslot signaling to select 64 Kbps 56 Kbps or 48 Kbps operation that applies to all timeslots within the HSL link Sequence number length Set
198. ne Attributes None Example STTRP Output Format TCAP resource status ICD OGD INVK CPT DBUF 122 12233 2222 222 22 EXECUTED The meaning of each field in the output is as follows e ICD Number of active incoming dialogs These are dialogs that have been initiated by a remote system OGD Number of active outgoing dialogs These are dialogs that have been initiated by the local host e INVK Number of active invokes These Invoke structures are only required for locally initiated Invokes and are not used for received Invoke operations CPT Number of allocated component structures These are used temporarily for pending component requests until an appropriate dialog request is received DBUF Number of allocated dialog buffers These are used temporarily for building dialog request messages from pending components 119 Chapter 6 Management Interface 6 16 Network Time Protocol 120 The Network Time Protocol NTP allows synchronization of the internal system clock with an external time source thus providing greater accuracy for system alarm events and SNMP trap notifications NTP can be activated using the CNTDS set time and date command while up to 16 remote NTP servers can be configured using the CNTPI command The current status of the NTP servers can be identified using the STTPP command The current system time must be within 1000 seconds just over 15 minutes of the time currently used by an active NT
199. network it belongs to When not specified a value of NCO is assumed Supported values are NCO NC1 NC2 or NC3 The parameter is only applicable for M3UA operation lt las gt Logical reference for a Local Application Server The valid range is 0 199 lt opc gt Specifies an Originating Point Code OPC value for the local Application Server lt rc gt The logical routing context of the local application server An RC might not be associated with any other LAS The valid range is 0 2147483647 lt trmd gt The traffic mode for the local application Server Acceptable values are LS Loadshare OR Override or BC Broadcast Only Loadshare should be used when the SWS is acting as part of a SWS Pair lt flags gt This is a 16 bit value used to specify run time options Bit Description 0 When set the configured routing context will be ignored and no routing context will be transmitted 1 15 Reserved and should be set to zero Prerequisites In dual mode only one LAS per NC is permitted 151 Chapter 8 Configuration 8 7 2 STN_LBIND SIGTRAN Local Bind Configuration Synopsis This command associates the local application server with the Remote Application Server or Remote Signaling Gateway identifying the route to reach the destination The software supports M3UA IPSP Single Ended SE communication therefore the Remote Application Server must have the same routing context as the Local App
200. nfigure TCAP dialog groups each group handling a sub set of the total available dialogs This allows each group to reside on a separate host computer that in turn allows the application using TCAP to be distributed over several machines If the TCAP_CFG_DGRP command is omitted the complete range of dialog identifiers defined by the TCAP_CONFIG command is assigned to host_id 0 Syntax TCAP_CFG DGRP lt gid gt lt base_ogdlg_id gt lt nog_dialogues gt lt base_icdlg_id gt lt nic_dialogues gt lt options gt lt host_id gt Examples TCAP_ CFG DGRP 0 0x0000 1024 0x8000 1024 0 0 TCAP_ CFG DGRP 1 0x0400 1024 0x8400 1024 0 1 Parameters The TCAP_CFG_DGRP command includes the following parameters e lt gid gt A logical identifier for this group the valid range being 0 to 31 e lt base_ogdlg_id gt The first outgoing dialog ID assigned to this dialog group lt nog_dialogues gt The number of outgoing dialogs assigned to this group hence outgoing dialog IDs base_ogdlg_id to base_ogdlg_id nog_dialogues 1 are assigned to this group e lt base_icdlg_id gt The first incoming dialog ID assigned to this dialog identifier group e lt nic_dialogues gt The number of incoming dialogs assigned to this group hence outgoing dialog IDs base_ogdlg_id to base_icdlg_id nic_dialogues 1 are assigned to this group lt options gt Should be set to zero lt host_id gt Identifies the host computer to which the defined ranges of
201. ng with Ox except when the lt addr_indicator gt see above indicates that no GT is present when a value of 0 zero should be used e lt gtai_patt gt The pattern of global title address information to match specified as a string of hexadecimal digits digit Oxe is reserved in left to right order i e the pairs of digits are not swapped as would be the case for a BCD string As well as hexadecimal digits this string can contain the following characters Character Function Padding ignored Wildcard matches any number of digits Wildcard matches exactly one digit Separator used to split the pattern into sections Each section can be processed differently as specified by the lt mask gt parameter in the SCP_GTT command NOTE The wildcard is not greedy It matches the shortest possible string of digits that is a pattern such as 12 67 matches 1234567 but does not match 1236767 8 8 6 SCCP_SSR SCCP Sub System Resources The SCCP_SSR configuration command can be used to configure three types of sub system resources SCCP remote signaling points see Section 8 8 6 1 SCCP local sub systems see Section 8 8 6 2 162 Dialogic DSI Signaling Servers SWS Mode User Manual Issue 3 SCCP remote sub systems see Section 8 8 6 3 8 8 6 1 Configuring SCCP Remote Signaling Points Synopsis Each remote signaling point that the SCCP is able to communicate with must be a
202. not condone or encourage any intellectual property infringement and disclaims any responsibility related thereto These intellectual property licenses may differ from country to country and it is the responsibility of those who develop the concepts or applications to be aware of and comply with different national license requirements Dialogic Dialogic Pro Dialogic Blue Veraz Brooktrout Diva Diva ISDN Making Innovation Thrive Video is the New Voice Diastar Cantata TruFax SwitchKit SnowShore Eicon Eicon Networks NMS Communications NMS stylized Eiconcard SIPcontrol TrustedVideo Exnet EXS Connecting to Growth Fusion Vision PowerMedia PacketMedia BorderNet inCloud9 I Gate Hi Gate NaturalAccess NaturalCallControl NaturalConference NaturalFax and Shiva among others as well as related logos are either registered trademarks or trademarks of Dialogic Inc and its affiliates or subsidiaries Dialogic s trademarks may be used publicly only with permission from Dialogic Such permission may only be granted by Dialogic s legal department at 926 Rock Avenue San Jose California 95131 USA Any authorized use of Dialogic s trademarks will be subject to full respect of the trademark guidelines published by Dialogic from time to time and any use of Dialogic s trademarks requires proper acknowledgement The names of actual companies and products mentioned herein are the trademarks of their respective owners Any use case s shown and
203. nse is present but not running for software reasons e g the license is for a different mode of operation or the capability is dependant on another capability that is not active DEACTIVATED The license is present but not running due to configuration reasons it has been user deactivated in CNSYS ACTIVE The license is active ERROR This capability cannot be activated as it depends on a software license which his not present e g TCAP is present but SCCP is not RESTART The license is present but requires a system restart to allow activation CONGESTED The throughput congestion level has been reached for the capability ENFORCED The licensed traffic rate has been exceeded for a extended period and the system is now limiting traffic to the licensed rate for the capability LINKS The licensed number of links for the capability Blank means not applicable e RATE The licensed throughput rate in Kilobytes s for the capability Blank means not applicable e CREDIT The current throughput account credit if applicable The throughput account credit is expressed as a of the maximum account credit Note The maximum account credit is the licensed throughput rate 30 The throughput account credit Syntax STLCP is decremented each time traffic passes through the system The throughput account is incremented every second by the value of the licensed throughput rate If the licensed throughput is ex
204. nt STP allowing the use of the quasi associated signaling mode When operating as a pair resilience is provided at MTP3 through the use of a link set between the two units In addition to SS7 over TDM signaling the SWS supports the SIGTRAN M2PA and M3UA protocols A maximum 256 M2PA or M3UA links are configurable depending on the license installed The SWS will also allow mixed configurations deploying SS7 over TDM SS7 over ATM SS7 over M2PA and SS7 over M3UA signaling Resilience can be achieved using M2PA or M3UA links between a pair of units 1 7 Functional Summary 1 7 1 SWS Mode Overview The Signaling Server when operating in SWS Mode provides a web services interface at the top and supports all of the SS7 modules required beneith down to the SS7 links or SIGTRAN associations 13 Chapter 1 Overview Figure 2 SWS Mode modules supported Web Service Client arp Web Server MSL MAP TCAP sccP M3UA MTP3 t SS7 SIGTRAN gt 1 7 2 Application Software Application Development and the API used for this are covered in detail in the Dialogic DSI Signaling Servers SWS Application Programmer s Manual Examples of application modules are supplied in source code form for use on the client host computer 1 7 3 Fault Monitoring The SWS is able to detect internal fault conditions and report these to the user The internal faults are combined with external events to provide an alarm reportin
205. nt Ethernet Port Print Synopsis This command prints the traffic measurements for each Ethernet port on the system taken over a period of time Syntax MSEPP RESET PAGE Prerequisites None Attributes None Examples MSEPP MSEPP RESET Y PAGE 2 Output Format Ethernet Port Measurements Page 1 of 2 ETH RXKBYTE RXPKT RXERR RXDROP TXKBYTE TXPKT TXERR TXDROP PERIOD 1 0 0 0 0 0 0 0 0 16 34 41 2 96324 135705 0 4204E5 28169 4444 0 0 16 34 41 3 0 0 0 0 0 0 0 0 16 34 41 4 3760 3273 0 33615 12503 3455 0 0 16 34 41 EXECUTED Ethernet Port Measurements Page 2 of 2 ETH RXFIFO RXFRAME RXCOMP RXMULT TXFIFO TXCOLLS TXCARRIER TXCOMP PERIOD 1 0 0 0 0 0 0 0 0 16 34 41 2 0 0 0 0 0 0 0 0 16 34 41 3 0 0 0 0 0 0 0 0 16 34 41 4 0 0 0 0 0 0 0 0 16 34 41 EXECUTED The meaning of each field in the output is as follows ETH Dialogic DSI SS7G31 Signaling Server Ethernet port number in the range 1 to 4 where ETH 1 corresponds to physical port 1 ETH 2 corresponds to physical port 2 ETH 3 corresponds to physical port 3 ETH 4 corresponds to physical port 4 92 Dialogic DSI Signaling Servers SWS Mode User Manual Issue 3 e ETH Dialogic DSI SS7G32 Signaling Server Ethernet port number in the range 1 to 6 where ETH 1 corresponds to physical port 1 ETH 2 corresponds to physical port 2 ETH 3 corresponds to physical port ACT LNK A bottom ETH 4 corresponds to physical port ACT L
206. nt Interface FRAME The total number of error free frames received on the link including any duplicate frames that are discarded as a result of the internal filtering mechanism MFRAME The number of misaligned frames that is frames that are not an integer multiple of 8 octets received on the link LFRAME The number of received frames that were designated as either too long or too short for a configured protocol ABORT The number of aborts received on the link CRC Number of CRC errors received on the link DISC The number of times that the receiver was forced to discard incoming frames as a result of there being no internal buffers available to receive the incoming data This is a count of the number of events rather than a count of the number of frames discarded RBUSY The number of times the receiver has entered the busy state as a result of the number of internal buffers falling below a set threshold PERIOD The period the measurement was taken over Note Values are reset using the RESET parameter MSMLP RESET Y resets the measurement values and period to 0 6 13 5 MSRLP Measurement Remote Links Print 96 Synopsis This command prints out traffic measurements for all configured Remote SIU Links Statistics are reset using the RESET parameter MSRLP RESET Y resets the period and measurement values to 0 Syntax MSRLP RESET Prerequisites None Attributes None Examples MSRLP
207. ntext thus allowing up to 64 SS7 links to be configured between the two points Note The Network Context has significance only to the configuration of the local node including the hosts No external messages include any indication of the Network Context and the configuration of remote systems is unaffected The SWS mode is able to support architectures in which a single SWS or dual resilient SWS pair are connected into one or more different SS7 networks The SWS or SWS pair can also independently terminate multiple local point codes within the same network Section 3 3 1 and Section 3 3 2 following describe these different architectures The SWS can support up to four Network Contexts where each Network Context is a different network or different independent local point code within the same network In the configuration commands or MMI commands Network Contexts are designated NCO NC1 NC2 or NC3 Network Context NCO is also referred to as the default Network Context since this is the Network Context that is assumed if no other explicit value is specified within the command Dialogic DSI Signaling Servers SWS Mode User Manual Issue 3 3 3 1 Support for Multiple Local Point Codes In some situations it is desirable to have an SWS terminate more than one local point code within the same SS7 network Each local point code can have separate routes and associated pairs of link sets to a destination point code This means that adding additional lo
208. nts affecting the object SNMP traps identify the event affecting the object be it an alarm indication or configuration state change and an event severity level For details of the DSMI SNMP MIB supported alarms SNMP traps and configuration refer to the Dialogic DSI Signaling Servers SNMP User Manual UO5EPPO1 39 Chapter 5 System Management 5 5 Alarm Listing A system operator can obtain a listing of the current alarm status CLA CATEGORY ID and TITLE of a Signaling Server using the ALLIP management terminal command described in Section 6 8 1 ALLIP on page 54 Table 1 details the possible alarm types accessed by the ALLIP command Alarm status events may also be accessed reported by front panel LEDs relay connections API and SNMP as described in Section 3 8 Alarms on page 29 Table 1 Possible Alarm Events 40 pearing TITLE Description CATEGORY ID CLA A signaling board has failed For SS7HD board failure alarms an additional diagnostic fault code may be displayed This when available will i follow the alarm title in ALLIP output Indicates board Board failed and will be of the form fault code SYS i Satna 3 Oxnnnn excluding the apostrophes i and where nnnn is a 4 digit hexadecimal value You should contact your support channel for further information Confiduration The protocol configuration could not a be completed due to errors in the S
209. o fail SYS 0 2 A disk drive in the RAID array is Drive unavail unavailable for use SYS DRIVE ID 4 Parse errors One or more syntax errors were found SYS 0 4 in the protocol configuration file PCM loss No signal detected on PCM network PCM PORTID 4 trunk Major MAJ Remote Alarm Indication received on RAI PCM trunk interface PCM PORTID 4 SS7 link failure SS7 signaling link has failed SIG LINKID 4 Unable to achieve frame Sync loss synchronization on PCM trunk PCM PORTID 4 interface The system has detected that the voltage on one or more power rails is Voltage warning out of range This is usually due to SYS 0 4 either a faulty power supply module or a faulty board causing excessive current consumption GI GIRAN link A SIGTRAN link has failed SIG SNLINK ID 4 failure The system has detected a low priority Minor MNR Default alarm low level alarm condition You should SYS 0 5 contact your support contact for further information Traffic being processed by a Traffic congest throughput licensed protocol exceeds SYS PROTOCOL ID 5 the license limits The system is acting to reduce traffic Traffic enforce levels that exceed the throughput SYS PROTOCOL ID 5 license limits 5 6 Hard Disk Management 5 6 1 SS7G31 and SS7G32 Hard Disk Drive RAI D Management The SS7G31 and SS7G32 systems are equipped with 2 mirrored hard disk drives configured in RAID 1 array Redundant Array of Independent Disks These disks will remain synchronized provides that a
210. on 20 Dialogic DSI Signaling Servers SWS Mode User Manual Issue 3 Chapter 3 Architecture 3 1 Overview The Dialogic DSI Signaling Server for Signaling Web Services SWS allows client applications to offer services which make use of SMS USSD and location functionality The SWS unit connects into SS7 or SIGTRAN networks and provides APIs to allow one or more instance of a client application to control this functionality The SS7 configuration parameters are specified in a text file contained within each SWS This is described in Chapter 8 Configuration A complete system requires in addition to the SWS unit at least one active client application The client applications communicate with the SWS using a web service interface For a description of the client applicator development APIs please refer to the Dialogic DSI Signaling Servers SWS Application Programmer s Manual 3 2 Signaling Topologies A single SWS may be used standalone or two units may be configured in a dual resilient configuration Each SWS may support one or more application host computers The host computer contains the physical resources controlled by the signaling such as voice circuits and databases The SWS extracts SS7 information and conveys it to the application software which can control the resource accordingly and issue the required responses to the SWS for transport over the SS7 network The minimal system consists of a single SWS connected
211. onfiguration 129 Chapter 8 Configuration 8 4 SIU SWS Commands The SIU SWS commands include e SIU_HOSTS Number of Hosts e SIU_REM_ADDR Other SIU SWS Ethernet Address 8 4 1 SIU_HOSTS Number of Hosts Synopsis When this optional command is present it specifies the number of message based host computers that the SWS via the will configure and activate The command also identifies the host backup mode Note SWS systems do not require message based hosts as they can communicate via the web services API Syntax SIU_HOSTS lt num_hosts gt lt backup_mode gt lt options gt Examples SIU_HOSTS 4 SIU_HOSTS 4 0 SIU_HOSTS 2 1 Parameters The SIU_HOSTS command includes the following parameters lt num_hosts gt The number of hosts attached to the SIU SWS in the range 0 to 64 When lt num_hosts gt is set to 0 or the SIU_HOSTS command is not present the SIU SWS configures the maximum number of hosts available in the system Only one host by default host ID 0 is activated and the rest are deactivated allowing you to dynamically activate or deactivate them using the MNINI and MNINE MML commands lt backup_mode gt The backup host algorithm with of value of 0 1 or 2 as follows When this parameter is set to 0 or the SIU_HOSTS command is not present the SIU SWS does not employ the backup host mechanism When set to a value of 1 primary and backup hosts are paired 0 1 2 3 4 5 etc If the link
212. onitor link configuration See Section 8 6 9 MONITOR_LINK on page 149 for descriptions of the parameters in the output format Syntax CNMLP ID Prerequisites None Attributes None Examples CNMLP Output Format Monitor link configuration LINK IFTYPE BPOS BLINK BPOS2 STREAM TS USER ID USER HOST FLAGS 0 TDM 3 1 3 0 16 0x0d 0 0x400210 1 TDM 3 2 3 1 16 0x0d 1 0x400210 EXECUTED 6 9 12 CNOBP Display TRAP Configuration Synopsis This command displays the current TRAP configuration The entire TRAP configuration for all available objects will be displayed if no object group is specified The list of available objects will depend on the current system mode configuration i e SWS SIU or SGW If the objgrp parameter is specified CNOBP will display settings for only that object group The CNOBS command allows the TRAP configuration to be changed Syntax CNOBP OBJGRP Prerequisites The DSMI based SNMP agent must be enabled Attributes None Examples CNOBP CNOBP OBJUGRP 3 Output Format Configuration SNMP Traps OBJGRP OBJECT UP DOWN INACTIVE IMPAIR RESTART QUIESCE WARNING 1 al CHANGE CHANGE CHANGE CHANGE CHANGE CHANGE CHANGE 1 2 CHANGE CHANGE CHANGE CHANGE CHANGE CHANGE CHANGE 1 3 CHANGE CHANGE CHANGE CHANGE CHANGE CHANGE CHANGE 2 a CHANGE CHANGE CHANGE CHANGE CHANGE CHANGE CHANGE 2 2 CHANGE CHANGE CHANGE CHANGE CHANGE CHANGE CHANGE 61 Chapter 6 Management Interface
213. opsis This command allows the administrator to define up to 32 TRAP destinations i e remote SNMP manager stations Each manager is defined by its IP address IPADDR Additionally the type of TRAP to be dispatched to the SNMP manager is specified with the TFORMAT parameter The following values are supported 1 An SNMP v1 TRAP is sent 2 An SNMP v2 TRAP is sent 3 An SNMP v2 INFORM is sent The PORT parameter allows you to configure a destination port which is different from the default standard SNMP TRAP port 162 If the remote SNMP v1 or v2c manager has been configured to only recognize TRAPs received with a community string the TCOM parameter accommodates that value If an SNMP v3 TRAP is to be issued then the USER parameter value is used The USER parameter is used to specify a user which has been defined with the CNUSI command Furthermore it will also be necessary to configure an engine identifier which has been configured on the remote SNMP manager The engine identifier is configured with the ENGINE parameter Finally the LABEL parameter is used to specify an optional string identifier for the manager Syntax CNSMI MNGR IPADDR TFORMAT PORT TCOM USER ENGINE LABEL Prerequisites The DSMI based SNMP agent must be enabled If an SNMP v3 TRAP is required the user referenced by the USER parameter must exist 65 Chapter 6 Management Interface Attributes
214. or a specific network must be sent to the correct MTP module ID as shown in Figure 12 above In most SWS configurations MTP is not the highest protocol layer and the sending of messages to the correct module is handled by the higher layer modules without further user interaction 3 3 3 2 SCCP Applications In the same manner as MTP3 there is one instance of SCCP for each Network Context therefore messages that are destined for a specific network must be sent to the correct SCCP module ID as shown in Figure 12 When TCAP or DTS is used above SCCP those modules handle the sending of messages to the correct module without further user interaction 27 Chapter 3 Architecture 3 3 3 3 TCAP MAP Applications Where a dialog is initiated remotely no change is required since TCAP and MAP automatically determine which Network Context is appropriate Where the dialog is initiated locally the application must specify the Network Context to which the message is destined This effectively indicates the point code to be used as the originating point code The Network Context should be indicated in the first message for the dialog being used In the case of TCAP this is in the first TCAP service request typically an Invoke Req using the TCPPN_NC parameter For MAP the Network Context should be indicated in the Open Request message instead of using the MAPPN_NC parameter If a Network Context is not specified the default Network Context NCO i
215. or described herein represent one or more examples of the various ways scenarios or environments in which Dialogic products can be used Such use case s are non limiting and do not represent recommendations of Dialogic as to whether or how to use Dialogic products Publication Date April 2011 Document Number 64 1149 03 Dialogic DSI Signaling Servers SWS Mode User Manual Issue 3 Contents 1 OVERVIEW ponar b ra diay n Ea ET wana den tats a n Nina na W n eases WT a nO tee ea eet Wed ne G RA 11 del General DESCHPUON xi yb n a annni aya G lnanaa kan wind Aaaa n nk nan g n ba nl awda y nln b Wn aa w aa nA EB 11 GZ Key Bene fl 55xi e c ca zay ay daa k n Wada nakine HAV Wa V dan Ta B d adan aa na DUWE E eee adem 11 1 2 1 Other Operating MOdeSy sa sra s naa kal na Ai pa nya banan hanan EA W R TA 12 1 3 Related lniotihatlOll i s 4 532 53d u ln Saha kad heel Q Sa kake Ver n S D w r bak WA WAD anka aa 12 1 4 Applicability eiman eee nat on amanc ee yeka an naa n a w halan banka di wanada ay web re o banan 13 1 5 FHardwWar OV rV le Wa casus clh nan paa la ya nania Dan kun da ka n r Da Aka eds n hul wana xu Ea di n n a n bad an kad 13 1 5 Part NUmmDOkSsyya ke b la raana k n k yu kan n na n kra an ka Mn An a way hwa diyay An MAWA VL yan M WAR W 13 1 6 Signa
216. ot be executed because the unit is busy processing another command This response may also be given during restart when the system is initializing RANGE ERROR A parameter value is out of range UNACCEPTABLE COMMAND The command is syntactically correct but references an unknown resource board link etc UNKNOWN COMMAND The command is not recognized Automatic MMI Logging To allow for audit of user MMI sessions all user dialogues are logged to a rolling log file to permit subsequent review of the command history The text format log files include all MMI commands responses and events Log files are created in the syslog sub directory of the siuftp account The most recent file is called mmi log and older files are called mmi log 1 mmi log 2 and so on up until mmi log 9 The capacity of each file is limited to prevent disk overflow Each entry in the file includes the date and time of the event For security the text value of the PASSWORD and CONFIRM parameters are replaced by the string Parameters All numeric parameters are entered and output in decimal notation The following table lists parameters and possible values Table 3 Parameter Definitions Name Description ACTIVE Determines whether something is active Y or inactive N An example of its use is the activate or deactivation of trace masks see the CNTMS command AUTH V3 SNMP Authentication en
217. other bits are reserved and should be set to zero 8 6 3 MTP_LINKSET MTP Link Set Synopsis The MTP_LINKSET command defines link sets Syntax MTP_LINKSET lt nc_id gt lt linkset_id gt lt adjacent_spc gt lt num_links gt lt flags gt lt local_spc gt lt ssf gt Example MTP_LINKSET 0 321 2 0x0000 320 0x8 MTP_LINKSET NCO 0 321 2 0x0000 320 0x8 Parameters The MTP_LINKSET command includes the following parameters e lt nc_id gt SS7 Network Context The Network Context together with a Signaling Point Code SPC uniquely identify an SS7 node by indicating the specific SS7 network it belongs to When not specified a value of NCO is assumed Supported values are NCO NC1 NC2 or NC3 e lt linkset_id gt The logical identity of the link set in the range 0 to one less than the maximum number of link sets supported This ID is used in other commands for reference lt adjacent_spc gt The point code of the adjacent signaling point lt num_links gt The maximum number of links that are allocated to the link set The valid range is 1 to 16 lt flags gt A 16 bit value used to specify run time options Bit 3 when set enables restart procedures for this link set Bit 15 assigns special functionality to a link set for use in inter SWS communication For a normal link set conforming to the SS7 specifications this bit must be set to 0 Note Bit 15 must be set for the inter SWS link set between SWSA and SW
218. parameter may be written as a single value in the range 0 to 3 Dialogic DSI Signaling Servers SWS Mode User Manual Issue 3 Alternatively it may be written as a compound parameter as described below for the SS7HD board but for these board types the processor number must be 0 and the channel is in the range 0 to 3 For the Dialogic DSI SS7HDP Network Interface Board that has two signaling processors with each processor supporting up to 32 signaling links the blink parameter is a compound parameter of the form x y where x represents the processor a value of 0 or 1 and y represents the SS7 signaling processor channel within the processor a value in the range 0 to 31 When the SS7 link is to be conveyed over M2PA the blink parameter identifies the SNLINK link_id For HSL links the signaling processor channel of the lt blink gt parameter must be set to 0 Only values of 0 0 and 1 0 are permitted On an SS7HDP board a single processor cannot be configured for both HSL and TDM links Different processors on the same SS7HDP board can be used individually for HSL and non HSL operation lt bpos2 gt The board identifier of the stream from which the signaling is to be inserted The board must have been configured using the SS7_ BOARD command This parameter must be used when setting up link connections across boards When the SS7_ BOARD is configured to be isolated from the internal telephony bus lt bpos2 gt must equal
219. perating under relatively light traffic conditions permanent activation of tracing to file at an MTP layer may be considered beneficial for maintenance purposes When tracing users should consider the confidential aspects of maintaining a log of message data Trace as well as other diagnostic data can be removed from the syslog subdirectory by performing a soft restart of the system using the following MMI command MNRSI RESTART SOFT RESET Y Syntax CNTMS MODULE IMASK OMASK MMASK ACTIVE Prerequisites The protocol should be licensed and active before attempting to configure a trace mask for it Attributes CONFIG The command affects configuration data Examples CNTMS MODULE MAP IMASK 1 OMASK 2 MMASK 3 CNTMS MODULE MAP ACTIVE Y CNTMS MODULE MAP ACTIVE N CNTMS MODULE MAP IMASK DEFAULT Note This command causes a copy of selected protocol messages to be taken and sent to destination module Oxef on host_id 0 facilitating the examination of raw SS7 parameters for diagnostic purposes The traced message is formatted in accordance with the specification of the MGT_MSG_TRACE_EV message described in Chapter 10 Application Programming Interface 75 Chapter 6 Management Interface 6 9 33 CNTPE Configuration Network Time Protocol Server End Synopsis This command is used to remove an NTP Server from the configuration of the system Syntax CNTPE NTPSER Prerequisites
220. ports both M2PA and M3UA SIGTRAN links Syntax STN_LINK M2PA lt snlink gt lt m2pa_id gt lt rip1 gt lt rip2 gt lt end gt lt lport gt lt rport gt lt flags gt lt lip1 gt lt lip2 gt STN_LINK lt nc_id gt M3UA lt snlink gt lt rip1 gt lt rip2 gt lt end gt lt lport gt lt rport gt lt flags gt lt rserver gt lt na gt lt lip1 gt lt lip2 gt Examples STN_LINK M2PA 4 3 123 12 12 123 0 0 0 0 S 2805 2805 0x0001 123 12 12 124 0 0 0 0 152 Dialogic DSI Signaling Servers SWS Mode User Manual Issue 3 STN_LINK NC1 M3UA 120 123 12 12 123 120 12 12 123 C 3805 3805 0x000e 1 4 123 12 12 124 120 12 12 124 The STN_LINK command has the following parameters lt nc_id gt SS7 Network Context The Network Context the specific SS7 network the SIGTRAN Link is operating with When not specified a value of NCO is assumed Supported values are NCO NC1 NC2 or NC3 The parameter is only applicable for M3UA operation lt type gt Identifies the SIGTRAN protocol and should be set to either M2PA or M3UA lt snlink gt Logical reference for a SIGTRAN link acceptable values are 0 255 A snlink is unique to one link and cannot be re used by another type lt m2pa_id gt A M2PA identifier in the range 0 to one less than the maximum number of M2PA links supported Used for M2PA configuration only lt rip1 gt The primary IP address on which the SWS will attempt to communicate with the remote unit An rip1 value o
221. previously configured within the SWS When using dynamic configuration all command line parameters including the element identifier value are mandatory Dynamic configuration may fail if the format of the command line does not include all the parameters identified in this manual The configuration actions supported for dynamic configuration are described in Table 5 Table 5 Supported Actions for Dynamic Configuration Configuration Affected Config txt CNURI CNURI Notes Action Command ID MODE MTP Route Current MTP Route configuration MTP_ROUTE Route ID MTPR may be view using the CNCRP MMI Addition command Re RE EL Current SSR configuration may be R SCCP_SSR SSR ID SSR view using the CNSSP MMI eri Nen command addition j SCCP Concerned Current CSSR configuration may be Sub System SCCP_CONC_SSR CSSR ID CSSR view using the CNCSP MMI addition command Current SIGTRAN route ee Route STN_ROUTE SIGTRAN Route ID M3UAR configuration can be identified using the CNSRP command Current SIGTRAN route list r nane STN_RSGLIST SIGTRAN Rsglist ID M3UARLIST configuration can be identified using the CNGLP command Current PCM configuration may be PCM Addition LIU_CONFIG Port ID LIU viewed using the CNPCP MMI command Current PCM configuration may be PCM Deletion LIU_CONFIG Port ID LIU viewed using the CNPCP MMI command Current Linkset configuration may et rns MTP_LINKSET Link
222. protocol as described below ftp 123 123 123 123 user siuftp password siuftp or as set by the CNUAS command cd syslog ascii get config txt mget startup log mget shutdown log Dialogic DSI Signaling Servers SWS Mode User Manual Issue 3 mget maint log mget trace log mget trace pcap mget mmi log bin get config CF1 bye 5 4 SNMP 5 4 1 Overview The Signaling Server supports an extended SNMP offering comprehensive support for status and traps Distributed Structure Management Information DSMI SNMP SNMP operation is disabled by default Activating SNMP SNMP support can be activated by setting the CNSNS MMI command s SNMP parameter to DSMI The server should be restarted using the MNRSI command to activate the SNMP agent 5 4 2 DSMI SNMP DSMI SNMP functionality allows the configuration of V1 RFC 1157 V2c RFC 1901 or V3 RFC 2571 SNMP traps notifying external SNMP managers of alarm conditions and configuration state changes for the objects supported on the MIB For all objects represented within the DSMI MIB and these include platform hardware components as well as configuration aspects the MIB will maintain current object state and alarm conditions affecting the object SNMP traps can be configured on a per object basis such that the remote SNMP manager is notified whenever the object is created destroyed or the object state changed Traps can also be configured to notify the manager of eve
223. r the admin account then it will be displayed as blank If the siuftp account has been set to null while a null string is displayed the user will be expected to enter the default siuftp password for the siuftp account Syntax CNUAP Prerequisites None Attributes None Examples CNUAP Output Format User Account Characteristics USER PASSWORD admin KKKKKKKK siuftp EXECUTED 6 9 37 CNUAS Configuration User Account Set Synopsis Configures the characteristics of a user account If a null password is entered for the admin account then no password will be required for MMI access If a null password is entered for siuftp the password will be set to the default password siuftp for the account Syntax CNUAS USER admin PASSWORD CONFIRM CNUAS USER siuftp PASSWORD CONFIRM Prerequisites The following restrictions apply If a PASSWORD is entered then the CONFIRM parameter is required The character strings for these two parameters must be equal The password used apart from the NULL password must Not have been one of the past 8 passwords used Be minimum of 8 characters and a maximum of 15 characters 78 Dialogic DSI Signaling Servers SWS Mode User Manual Issue 3 Have 1 Upper case character 1 Lower Case character 1 Digit and 1 special character Special characters supported are Attributes None Examples CNUAS USER admin PASSWORD Di 10gic CONFIRM Di l0gic CNUAS USER admin
224. ration config txt DOWN SNMP object transition state Traps will be generated if set to All Create Change or Destroy Traps will not be generated if set to NONE Default Change END identifies whether the SWS end of the SIGTRAN link acts as a client or server Possible values are C or S ENGINE V3 SNMP Identifies the Engine part of the remote SNMP entity manager Max 24 hexadecimal characters ETH Ethernet port number in the range 1 6 FTPPWD FTP Password enabled parameter Set to Y to enable FTP password protection or N to disable password protection FTPSER FTP server activate Set to Y to active the ftp server or N to disable the ftp server Address of an IP gateway in the form aaa bbb ccc ddd GATEWAY Set to 0 0 0 0 to indicate that no gateway is present HOSTID Logical ID of an SWS host in the range 0 to 63 HPORT Host SCTP port in the range 1 to 65535 ID Command specific ID parameter IMASK Input Mask a trace mask for signaling messages entering a protocol module 49 Chapter 6 Management Interface Table 3 Parameter Definitions Continued Name Description IMPAIR SNMP object transition state Traps will be generated if set to All Create Change or Destroy Traps will not be generated if set to NONE Default Change INACTIVE SNMP object transition state Traps will be generated if set to All Create Change or D
225. removed and not replaced 41 Chapter 5 System Management Spare hard disk drives for the SS7G31 and SS7G32 system are available as on orderable part Refer to the Dialogic DSI SS7G31 and SS7G32 Signaling Servers Product Data Sheet navigate from http www dialogic com products signalingip_ss7components signaling_servers_and_gateways htm for part number information Important Although the RAID management software has been designed to be robust it is important to follow the removal and replacement procedures described above in order for RAID array hard disk drive integrity Warning USB storage devices should not be connected to the Signaling Server during hard disk drive removal and replacement Verify that all attached USB storage devices are removed before performing HDD removal replacement and re activation Disk drive replacement should be performed during a scheduled maintenance period and for the SS7G32 which supports hot swap during a period of light traffic Re synchronization of disk drives subsequent to replacement can take between 5 10 minutes depending on the conditions and the load under which the Signaling Server is operating The Signaling Server should not be restarted during this period and MMI activity should be limited to checking the status of the re synchronization The status of the disk drives can be identified using the STDDP command see Section 6 15 5 on page 105 A status of UP indicates that a drive is
226. require load sharing which is based on SLS value Load sharing should be configured using the STN_LAS command on both units 9 11 GTT Configuration Global Title Translation GTT is a process used to add or modify information in Global Titles to enable messages to be routed onwards This may take the form of adding a Point Code or Subsystem Number or modifying the Global Title Address Information Typically GTT examines the Global Title of a Called Party Address and compares it to the rules configured If the Global Title and Global Title Address Information match then the translation is performed The message is then routed accordingly as it passes down the SS7 Protocol stack GTT support allows for simple translation of GTAI digits from one number to another GTT also supports translations using wildcard matching to identify blocks of numbers which require the same translation operation as well as more sophisticated translations which drop or insert blocks of numbers Global Title Translation is a function performed by SCCP 9 11 1 How to configure GTT GTT is performed in two stages First the match stage identifies which digits should be matched and which should be ignored through either single digit or variable length wildcards The second stage defines the translation operation to be performed The user can specify to keep the digits in the address being translated replace them with specified digits or drop that block of digits Th
227. rresponds to physical port 2 ETH 3 corresponds to physical port ACT LNK A bottom ETH 4 corresponds to physical port ACT LNK B bottom ETH 5 corresponds to physical port ACT LNK A top ETH 6 corresponds to physical port ACT LNK B top 2 2 Software Licenses This section identifies which licensable capabilities can be purchased for Signaling Server SWS Mode operation For information relating to the purchase installation and activation of software licenses see Chapter 4 Licensing Installation and Initial Configuration 2 2 1 Software Licenses for SS7G31 and SS7G32 The following SS7G30 licenses can be purchased for SWS mode ITEM MARKET NAME DESCRIPTION SS7SBG30SWS4 Signaling Web Services 4 MTP3 links Messageing Location Services SS7SBG30SWS8 Signaling Web Services 8 MTP3 links Messaging Location Services SS7SBG30SWS16 Signaling Web Services 16 MTP3 links Messaging Location Services SS7SBG30SWS32 Signaling Web Services 32 MTP3 links Messaging Location Services SS7SBG30SWS64 Signaling Web Services 64 MTP3 links Messaging Location Services SS7SBG30SWS128 Signaling Web Services 128 MTP3 links Messaging Location Services SS7SBG30SWS256 Signaling Web Services 256 MTP3 links Messaging Location Services M3UA supporting 16 SIGTRAN links and up to 154 Kilobytes sec equivalent ea TABGIOMAUAS to 16 Low speed TDM links at 0 6 Erlangs M3UA supporting 32 SIGTRAN links an
228. s and solutions visit http www dialogic com support helpweb signaling The following manuals should be read depending on the protocol options installed on the SWS e SCCP Programmer s Manual U05SSS e TCAP Programmer s Manual U06SSS MAP Programmer s Manual U14SSS e SCTP Programmer s Manual UO1STN e M3UA Programmer s Manual U02STN e M2PA Programmer s Manual U03STN Dialogic DSI Signaling Servers SWS Mode User Manual Issue 3 1 4 Applicability This manual is applicable to SS7G31 and SS7G32 operating in SWS Mode Release 1 0 0 mode only This manual is not applicable if operating in other modes such as SIGTRAN Signaling Gateway SGW or Signaling Interface Unit SIU 1 5 Hardware Overview The Signaling Server may be purchased as one of the following equipment types e An SS7G31 is a 1U Signaling Server and may be purchased with one Dialogic DSI SPCI4 Network Interface Board with 4 SS7 links and 4 T1 E1 interfaces or one Dialogic DSI SS7HDP Network Interface Board with 64 SS7 links and 4 T1 E1 interfaces or 2 HSL links e An SS7G3z2 is a 2U Signaling Server and may be purchased with one two or three Dialogic DSI SS7HDP Network Interface Boards with 64 links and 4 T1 E1 interfaces per board or 2 HSL links per board with a system maximum of 192 LSL SS7 links or 6 HSL SS7 links Note The SS7G32 also supports the installation in the field of up to 2 Dialogic SS7MD Network Interface Boards The
229. s assumed 3 4 Inter SWS Communication In a dual resilient configuration one unit nominated as SWSA the other as SWSB two physically independent communication channels exist between the two units Control information is exchanged over the Ethernet Signaling messages are exchanged when necessary over an inter SWS SS7 link set which must be configured for correct dual resilient operation The preferred route for messages transmitted from an SWS is over the links connecting that unit to the appropriate adjacent point code a point code that is either the final destination or a route to the final destination If no signaling link to an appropriate adjacent point code is available the transmit traffic is passed to the other SWS via the inter SWS link set If the inter SWS link set fails transmit messages fall back to being passed over the Ethernet If the inter SWS link set fails causing the Ethernet link to be used for transmitted messages message loss may occur at the point where the preferred route fails The SS7 network is free to deliver received messages to either SWS Special processing at the User Part level provides that any message received for a call or transaction being handled by the other unit is routed over the Ethernet The inter SWS link set is configured in the same manner as normal link sets for details refer to Chapter 8 Configuration The inter SWS link set may consist of one or more signaling links conf
230. se SS7MD boards may be used for termination and monitoring of ATM signaling links SS7MD boards cannot be installed in an SS7G31 or SS7G2x Signaling Server When using two SS7MD boards the maximum link density for the SS7G32 is increased to 248 low speed or 8 high speed signaling links which can be either ATM or Q 703 Annex A See the Signaling Servers User Manual Supplement for ATM Operation for further information regarding the installation and operation of SS7MD signaling boards When T1 or E1 is selected the Signaling Server may be configured to pass the bearer channels from one PCM port to another effectively dropping out the signaling in line The SS7G31 and SS7G32 support two hard disks configured as a RAID 1 array See Chapter 2 Specification for a definition of the capabilities of the system 1 5 1 Part Numbers For the SS7G31 and SS7G32 products refer to the Dialogic DSI SS7G31 and SS7G32 Signaling Servers Product Data Sheet navigate from http www dialogic com products signalingip_ss7components signaling_servers_and_gateways htm for a list of the ordering codes and definitions of the hardware variants of the two equipment types 1 6 Signaling Overview The signaling capability of the SWS depends on the number and type of signaling boards installed Up to a maximum of 64 link sets and 504 signaling links are supported All link sets terminate at an adjacent signaling point which may be a Signaling Transfer Poi
231. set ID MTPLS be viewed using the CNLSP MMI command The lt num links gt parameter may a be changed on a MTP linkset MTP Linkset Chanhge Mi MTP_LINKSET Linkset ID MTPLS Current Linkset configuration may be viewed using the CNLSP MMI command Current Linkset configuration may Hal zin E MTP_LINKSET Linkset ID MTPLS be viewed using the CNLSP MMI command The flags field and the first and second linksrts may be changed on MTP Route the MTP route command MTP_ROUTE Route ID MTPR Change Sue Current MTP Route configuration may be viewed using the CNCRP MMI command Current MTP Route configuration MTP Route OUTE Route ID MTPR be viewed using the CNCRP Deletion MTP_R oute may be viewed using the MMI command 174 Dialogic DSI Signaling Servers SWS Mode User Manual Issue 3 Table 5 Supported Actions for Dynamic Configuration Continued Configuration Affected Config txt CNURI CNURI Action Command ID MODE Notes Links added to SPCI4 Signaling Boards require a board reset and link activation before they can be MTE 557 Unk MTP_LINK Link ID MTPL used Addition Current MTP SS7 Link configuration may be viewed using the CNSLP MMI command Links removed from SPCI4 Signaling Boards require a board reset to complete their removal Current MTP SS7 Link configuration may be viewed using the CNSLP MMI command MTP SS7 Link 2 MTP_LINK Link ID MTPL Deletion Current Monitor Link configuration
232. sk of activity on the MMI interface events and errors and the selective logging to disk of diagnostic traces Logging to disk of MMI activity events and errors by default allows a user to capture any management information at the point a failure occurs Selective logging to disk of traces completes the capture of all the information that may be required to investigate particular issues Although activation of trace logging has a performance impact on a system customers who do not require the full performance capabilities of the SWS may choose to activate selective tracing such that the full capture of any significant information required for problem analysis To activate selective tracing the user should first configure where they wish the trace messages to be logged using the CNSYx command TRACELOG parameter and then configure and activate the relevant trace mask using CNTMx commands TRACELOG by default will be set to log trace messages to local FILE The user can however modify the TRACELOG configuration to either transmit the messages to the management module on the management HOST or to DUAL to log locally as well as transmit to the management host Events and errors will be logged to files of the name maint log in the syslog sub directory of the siuftp account These files will be limited to be a maximum of 5 MB with support being provided for up to 10 files When the maint log file reaches the 5 MB limit or the system is restarted
233. ss of submitting the License ID and UNIT ID so that a License File can be generated and sent for installation on the target Signaling Server The License Activation process is web based and the License File is sent by email To activate the license perform the following steps a Visit the web site http membersresource dialogic com ss7 license license asp or an alternative URL if listed on the License Certificate b Provide the following information Name Company Country Email address this will be used to send the License File c Provide the following information about the Signaling Server Operating System Enter Signaling Server Host ID Enter the UNIT ID User machine identification A string typically the SWS name used by you to identify the unit This may be any value relevant to you for example SWS_TEST_UNIT1 d Provide the License ID taken from the License Certificates for each protocol that is to be licensed on the target Signaling Server e Submit the form You will receive confirmation that your request has been submitted Subsequently you will receive your License File by email 31 Chapter 4 Licensing Installation and Initial Configuration 4 1 2 Temporary Licenses A temporary software license can be issued for a spare or backup signaling server in the event that an existing server encounters a problem that requires the unit to be repaired or replaced Alternatively
234. ssigned using an SCCP_SSR command This includes the adjacent signaling point and all remote signaling points Syntax SCCP_SSR lt nc_id gt lt ssr_id gt RSP lt remote_spc gt lt rsp flags gt lt pc_mask gt Example SCCP_SSR 1 RSP 1236 0 SCCP_SSR NC1 1 RSP 1236 0 Parameters The SCCP_SSR command includes the following parameters when configuring SCCP remote signaling points e lt nc_id gt SS7 Network Context This parameter uniquely identifies the SS7 network that the SSR is being configured for When not specified a value of NCO is assumed Supported values are NCO NC1 NC2 or NC3 lt ssr_id gt A unique value in the range 0 to 2047 that is used to identify the SSR 512 ssr_ids are allowed per Network Context The same ssr_id might not be used to configure an SSR of another type RSP Identifies the SCCP_SSR command type as a command for a remote signaling point lt remote_spc gt The point code of the remote signaling point which may be either an STP or an SCP lt rsp_flags gt A 16 bit value where each bit enables or disables additional features of the remote signaling point The meaning for each bit is as defined for the options parameter defined in the Configure Sub System Resource Request section of the SCCP Programmer s Manual e lt pc_mask gt A 32 bit value that specifies the part of a destination point code that must match the lt remote_spc gt value in order for an SCCP transmit message to b
235. st AGtIVAL ODN seinieni dewan d ha nar sa k Qa DARd w d Bray a Sar Wa kaba W 173 97 DYNAMIC Conflg l atl 5 sya xin klan abi kad wand Anin Hen oya Halan n na ba ir a Dua ba TO 173 9 7 1 Config txt Based Dynamic Configuration h llk lklk kk 173 9 8 SIGTRAN M2PA Sidnalil s sinin ciniyan nan rad on xun tines n j 2 an ka a da Ra WAT Gr hama na kid 175 98L OVERVIEW sn ekl i er a k da d n Deka Sok n naw d n vide weed Pe c D wec DN pa D e d k k 175 9 8 2 w M2PAVICENSC xo in var cede nay n nandin da oda henik kan Man n d ban dak ne e rk reviews iors windan anika 175 9 8 3 SST Over M2PA x sal aes erie xwa yay na AR nade Darik ya Wi la Aka n n AWA Wa VE nana d hald 175 9 8 4 Configuration Examples 3a kada si a an ak ibanany ana akan a naw na k ra biwa ya a kck a k a 175 9 9 SIGTRAN M3UA Signaling ssilk kis nanna aa W ran anak Wa wa h na daa W Re WA l WE WAN hav 176 99 T OVERVICW ras ive DT mr 176 9 9 2 Configuration EXalTip l S8x i 3 4 3ani sin war kal aA naa WA Waa dira WA x kh a Mak SUR en 177 9 9 2 1 SWS to Signaling Gateway hLh hwkkkkklkkkk kk kk kk 177 9 9 2 2 SWS to Remote Application Server IPSP Operation 177 9 10 SIGTRAN M3UA Dual Operation kk kk kk kk keka neat 178 9 11 GTT Confi
236. sue 3 Chapter 6 Management I nterface The management interface is accessed by a remote telnet session to port 8100 or 8101 For maintenance purpose the unit may also be accessed from a VT100 compatible terminal connected to the serial port of the equipment COM 2 on the back of the unit The serial port operates at 9600 baud 1 stop bit 8 data bits no parity When the session is established a welcome message containing the software product name mode of operation SWS the system identification string SYSID the date and time is displayed SS7G31 SWS lt SYSID gt logged on at lt calendar date gt lt time of day gt 6 1 Log On Off Procedure To initiate a dialog the operator must log on to one of the MML interfaces The two telnet connections provided are accessed using a standard telnet utility Ports 8100 or 8101 should be used for the connection rather than port 23 the default port To log onto a serial port the carriage return key should be entered The session is ended by an operator command to the SWS or at the expiry of an auto log off timer If a password is specified for the system then when logging on the password is required before being allowed to continue If an incorrect password is entered the system prompts again for a password If an incorrect password is entered 3 times then the port is disconnected For safety reasons the password is never required for the serial port COM 2 When the connection
237. sumed lt table_id gt Reserved for future use and must always be set to zero lt timer_id gt A text identifier for the timer to be configured It should be set to one of the following T1 T2 T3 T4 T5 T6 T10 T12 T13 T14 T15 T16 T17 T22 T23 T24 SLTC1 or SLTC2 145 Chapter 8 Configuration lt value gt The timer value in multiples of tenths of a second 100ms Any timers not configured continue to be set to the values shown in the following table ITU T or ANSI selection is made by setting the value of the MTP_CONFIG options parameter MTP3 Timer ITU T mode ANSI mode T1 1s 1s T2 1 55 1 5 s T3 1s 1s T4 1s 1s T5 1s 1s T6 1s 1s T10 45s 45s T12 1 2s 1 2s T13 1 2s 1 2s T14 3s 2 55s T15 3s 2 55 T16 1 8s 1 8s T17 1s 1s T22 270s 270s T23 270s 270s T24 500 ms 500 ms SLTC T1 7s 7s SLTC T2 30 s 30 s Note T9 is not used on the SWS Note The SWS does not perform checks on MTP3 timer values Note MTP timers not specified in this table are not configurable they well be set to their specific ITU or ANSI default value 8 6 7 MTP_ ROUTE MTP Route Synopsis The MTP_ROUTE command configures a route for use with one of more user parts Each remote signaling point must have a corresponding MTP_ROUTE entry in the configuration file which must be entered after the MTP_LINKSET command Using the lt flags gt and lt second_Is gt parameters this
238. t The timeslot on the lt stream gt that should be used for monitoring For a T1 port the range is 1 to 24 For an E1 port the valid range is 1 to 31 The timeslot must not have been previously assigned another MTP or Monitor link For HSL links the timeslot parameter should be set to Oxff to indicate that the link is attached to an LIU configured with the LIU_CONFIG command HSL might not use timeslots already configured for signaling or data e lt user_module gt The module ID of the process that will receive the incoming signaling messages passed as SS7_MSG_RX_IND messages This should be in the range 0x0d 0x1d to Oxfd lt host_id gt The logical identifier of the host to which receives SS7_MSG_RX_IND messages lt flags gt Per link flags for monitoring operation 32 bits Bit 0 Set to 1 to enable timestamping of messages monitored by the board for this link The monitored messages are received in the API MSG_RX_INDT message type to accomodate the timestamp as well as the received message Bits 10 and 11 select either 64 56 or 48 Kbps operation is being monitored and are used when a link operates over a T1 or E1 timeslot Use of these bits is as follows Bit 11 Bit 10 Rate Timeslot Usage Set both to zero for E1_HSL and T1_HSL operation HSL framed operation 0 0 64 Kbps USES these bits in a similar manner to single timeslot signaling to select 64 P Kbps 56 Kbps or 48 Kbps operation that applies
239. t interface allows the service specific parameters of the system to be configured and verified using a web browser For each service i e SMS USSD or location services there is a different page offering the appropriate configuration options for that service Select the SWS Management Interface option to configure and manage the service specific parameters of the system Further details of the parameters and services that can be configured are contained on the appropriate web pages on the system Figure 13 SWS Management I nterface Dialogic SWS Windows Internet Explorer Joe 6 gt B 172 28 148 118 ww B s x Sa Pie File Edit View Favorites Tools Help x q r Favorites B Dialogic SWS A Gl Z d h Pager Safety gt Tools Dialogic DSI SWS Management Interface SMS SMS Update Location USSD LBS Statistics SMS Service Configuration SMS Service Configuration Service Center Address Type of number International Number x Numbering plan identifier ISDN x Address 1234567 Originating Address Type of number International Number Numbering plan identifier ISDN Address 5555555555 Destination Address Type of number International Number x Numbering plan identifier ISON x Service Options El Receive optional parameters Receive only SMS text O Receive SMS network headers lt Reload Submit 123 Chapter 7 Web based Management Interface 7 3 Web based status and s
240. t the SWS Host Key 5 7 2 1 Using Linux and OpenSSH The following script initiates a single SSH tunnel The SSH Client exits rather than attempting to re establish the tunnel should the IP link be interrupted or the SWS restarted so the loop provides that the SSH client is restarted This configuration may also be used with Solaris and Sun SSH tunnel sh contains bin sh tunnel sh configures a SSH tunnel to the SWS 1 while true do ssh 1 siuftp i ssh priv_key N C L 9000 1 9000 1 done The tunnel script is started prior to starting the GCT environment with the command tunnel sh lt SWS IP Address gt 5 7 2 2 Using Windows and PuTTY The following script initiates a single SSH tunnel The SSH Client does not attempt to re establish the tunnel should the link be interrupted so the loop provides that when the SSH client returns it is started again tunnel bat contains REM tunnel bat configures a SSH tunnel to the SWS 1 start plink exe ssh 1 siuftp i priv_key ppk batch N C L 9000 1 9000 1 goto start The tunnel batch file is started prior to starting the GCT environment with the command tunnel bat lt SWS IP Address gt 43 Chapter 5 System Management 5 7 3 5 7 3 1 5 8 General Notes Your SSH Client may keep a list of known hosts The first time SSH connects to an SWS the SSH Client will prompt to accept the Host Key The Client may also warn if the Host Key changes This
241. t use older command formats may give rise to restart errors indicating inconsistent command format Syntax MTP_ROUTE lt nc_id gt lt route_id gt lt dpc gt lt linkset_id gt lt user_part_mask gt lt flags gt lt second_ls gt lt reserved gt Example MTP_ROUTE 1 567 1 0x0008 0x0000 0 0 MTP_ROUTE NCO 1 567 1 0x0008 0x0000 0 0 Parameters The MTP_ROUTE command includes the following parameters lt nc_id gt SS7 Network Context This parameter identifies the SS7 network in which the route exists The Network Context must match that of the link set s in the route Supported values are NCO NC1 NC2 or NC3 When the parameter is not present a value of NCO is assumed lt route_id gt A unique value in the range 0 to 128 used to identify the MTP route lt dpc gt The remote destination signaling point code for the route lt linkset_id gt The logical identity of the link set in the range 0 to one less than the maximum number of link sets supported This value is set for each configured link set in the MTP_LINKSET command lt user_part_mask gt A 16 bit value with bit n in the range 3 to 15 set to allow the route to be used for messages with Service Indicator SI n For each user part supported the bit corresponding to the Service Indicator for that user part should be set For example to enable SCCP routing which uses an SI of 3 a value of 0x0008 should be used To enable both SCCP 3 and ISUP 5 a valu
242. tails the possible alarm reports The interpretation of the ID field in the listing is dependent on the value in the TITLE field 6 8 2 ALTEE Alarm Tet End 54 Synopsis Clears a test alarm Syntax ALTEE CLA 5 CLA 4 CLA 3 Prerequisites The alarm test must already have been initiated Attributes None Examples ALTEE CLA 3 Dialogic DSI Signaling Servers SWS Mode User Manual Issue 3 6 8 3 ALTEI Alarm Test I nitiate Synopsis The command generates an active test alarm of the specified class which is entered in the alarm log Alarm tests can be useful for validating the operation of hardware such as LEDS and alarm relays Syntax ALTE CLA 5 CLA 4 CLA 3 Attributes None Examples ALTEI CLA 3 55 Chapter 6 Management Interface 6 9 56 Configuration Commands The configuration commands include CNBOP Configuration Board Print CNBUI Configuration Backup Initiate CNBUS Configuration Backup Set CNCRP Configuration MTP Route Print CNCSP Configuration Concerned Subsystem Print CNGAP Configuration GTT Address Print CNGLP Configuration SIGTRAN Gateway List CNGPP Configuration GTT Pattern Print CNGTP Configuration Global Title Translation Print CNLSP Configuration MTP Linkset Print CNMLP Configuration Monitor Link Print CNOBP Display TRAP Configuration CNOBS Set TRAP Configuration CNPCP Configuration PCM Print CNRDI Configuration Restore D
243. tatistics Select the MMI Interface to access a menu of functions available from the SWS The functionality is similar to that offered by many of the MMI commands offered via the console based management interface 124 Figure 14 SWS Web based status control panel File Edit View History Bookmarks Tools Help 6 BD htp 172 28 148 118 mmi htmi Lad D Dialogic DSI SS7G3x System Management Software Version System Configuration System Status System Measurements System Alarm Log Summary System Alarm Log License Status License Measurements Time amp Date NTP Server Configuration NTP Server Status Disk Drive Status Inter SIU Link Status Host SIU Link Status Trace Mask Configuration IP Subsystem Management o IP Ethernet Port Configuration o IP Ethernet Port Status o IP Ethernet Port Measurements e IP Gateway Configuration SNMP Subsystem Management e SNMP Configuration SNMP Manager Configuration SNMP User Configuration e SNMP Object Traps Configuration Board Subsystem Management e Board Status e PCM Port Configuration PCM Port Status e PCM Port Measurements e ATM Cell Stream Configuration e ATM Cell Stream Measurements SS7 Subsystem Management e S57 Linkset Configuration e 557 Link Configuration e 557 Link Status e 557 Link Measurements e 557 Route Configuration e SS7 Route Status e S57 Monitor Link Configuration e S57 Monitor Link Status e 55
244. te are PROHIBITED Sub system resource Prohibited ALLOWED Sub system resource Allowed 6 15 17 STSTP SIGTRAN Link Status Synopsis This command requests a printout of the status of configured SIGTRAN signaling links If the LINK parameter is specified the status of the corresponding link is displayed If the LINK parameter is not specified the status of all configured SIGTRAN signaling links are displayed If TYPE is specified only configured links of the type are displayed Syntax STSTP SNLINK TYPE PAGE Prerequisites If specified the SNLINK should already be configured Attributes None Examples STSTP STSTP SNLINK 1 STSTP TYPE M3UA PAGE 2 115 Chapter 6 Management Interface Output format lt ststp SIGTRAN Signaling Link Status Page 1 of 2 SNLINK TYPE SP STATUS SCTP STATUS 1 M3UA AVAILABLE ESTABLISHED 2 M2PA ESTABLISHED EXECUTED lt ststp page 2 SIGTRAN Signaling Link Status Page 2 of 2 SNLINK TYPE IPADDR STATUS IPADDR RTO IPADDR2 STATUS IPADDR2 RTO 1 M3UA ACTIVE 500 Not Configured 2 M2PA ACTIVE 500 Not Configured EXECUTED Note M2PA links do not display SP STATUS The retransmission timeout RTO is a time between 500 and 6000 milliseconds when SCTP waits before retransmitting an octet The RTO value dynamically changes according to line conditions and provides an indication of the quality of the connection to the remote IP address SCTP S
245. tes Note Bit 10 must always be set to 1 for ANSI operation Bit 11 is used to enable Multiple Message Priority operation Note Bit 11 must always be set to 1 for ANSI operation Bit 16 is used to control the usage of the hdr gt id field of MTP Transfer Indication messages When set to 0 the id field contains the User Part Reference or Service Indicator this is primarily useful for backward compatibility When set to 1 the id field provides an indication of the MTP Label Format used in the parameter area This is the recommended setting for all new designs Note Bit 16 must to be set to 1 for the mixed network ISUP configuration Bit 17 controls how received Transfer Controlled and Signaling Route Set Congestion Messages that are not destined for the local point code are processed When set to 0 messages are discarded When set to 1 messages are sent to fixed module_id 0x0a on the host Bit 18 controls MTP3 operation on detection of Remote Processor Outage RPO When set to 0 on detection of RPO the signaling link is taken out of service and restoration commences This setting is useful for backward compatibility When set to 1 normal setting RPO is handled in accordance with the ITU T 1992 and later recommendations Bit 19 is used when MTP3 is operating in dual mode to control which bit of the Sub Service Field is used to flag messages that have been received by one MTP3 and are being conv
246. the lt global_title gt parameter value should be 0 zero base10 without Ox prefix Global title includes Nature of Address Indicator NAI only The lt global_title gt parameter 0001 see below should be a single hexadecimal octet prefix 0x followed by two hexadecimal digits the octet value being the NAI 0010 Global title includes Translation Type TT only The lt global_title gt parameter should be a single hexadecimal octet the octet value being the TT Global title includes TT Numbering Plan NP and Encoding Scheme ES The 0011 lt global_title gt parameter should be two hexadecimal octets prefix 0x followed by four hexadecimal digits the TT in the first octet the NP and ES four bits each in the second octet Global title includes TT NP ES and NAI The lt global_title gt parameter should be three 0100 hexadecimal octets prefix 0x followed by six hexadecimal digits the TT in the first octet the NP and ES four bits each in the second octet and the NAI in the third octet 161 Chapter 8 Configuration Other values are undefined spares or reserved Bit 2 SSN Indicator A 1 indicates that SubSystem Number is used in addressing Bit 1 PC Indicator A 1 indicates that Point Code is used in addressing For ANSI the parameter is defined as Bit 8 Designated for national use 0 indicates that the address is international and 1 indicates that the address is national
247. tication allows the operator to use SSH to connect to the SWS without using a password For security reasons this is recommended where the connection is made using a script This process requires an RSA or DSA key pair generated for each Host Refer to the documentation for the SSH package for more information Using Secure FTP to connect to the SWS e If the ssh directory does not exist in the siuftp account create one Create a text file and add the Public Key for each Host on a new line e Upload the file to ssh authorized_keys e Ensure the permissions on the ssh directory and its parent directory siuftp are set to 750 e Ensure the permissions on ssh authorized_keys are set to 640 It is recommended that the first connection using the Public Key Authentication method be made manually When using SSH or Secure FTP to connect to the Signaling Server specifying the Private Key will allow you to log in as siuftp without using the password 5 7 2 SSH Tunneling for RSI To protect RSI traffic between the SWS and SWS Host the SWS Host may be configured to use an SSH tunnel to transport the RSI traffic to the SWS The configuration of the SSH Client on each SWS Host depends on the SSH package used The following instructions show a suggested configuration method for both Linux and Windows operating systems For both systems it is recommended that the first connection is made manually to allow the Client accep
248. tifies the SCCP_SSR command type as a command for a local SCCP sub system lt local_ssn gt The local sub system number as defined by the SCCP protocol lt module_id gt Set to 0x45 for correct SWS operation e lt Iss_flags gt A 16 bit value where each bit enables or disables additional features of the local sub system The meaning of each bit is as defined for the options parameter described in the Configure Sub System Resource Request section of the SCCP Programmer s Manual lt protocol gt Set to MAP For example to configure a local sub system SSN 8 for use in SWS mode the following command would be used SCCP_SSR 3 LSS 0x08 0x45 0x0000 MAP 8 8 6 3 Configuring SCCP Remote Sub Systems Synopsis This command defines a remote sub system known to the SIU Each entry contains the signaling point code and sub system number Multiple SCCP_SSR entries may be included in the file The presence of an RSS command causes the SCCP to generate sub system test SST messages for the sub system Syntax SCCP_SSR lt nc_id gt lt ssr_id gt RSS lt remote_spc gt lt remote_ssn gt lt rss_flags gt Example SCCP_SSR 4 RSS 1236 0x67 0 SCCP_SSR NC1 4 RSS 1236 0x67 0 Parameters The SCCP_SSR command includes the following parameters when configuring SCCP remote sub systems e lt nc_id gt SS7 Network Context This parameter uniquely identifies the SS7 network that the SSR is being configured for When not specified a value o
249. tion k hkWW hk k kk 152 8 7 4 STN_NC SIGTRAN Network Context kW kk kk kk k 154 8 7 5 STN_RAS SIGTRAN Remote Application Server Configuration 154 8 7 6 STN_RASLIST SIGTRAN Remote Application Server List Configuration 155 8 7 7 STN ROUTE SIGTRAN Route Configuration cccceeeee cece eee errereen 155 8 7 8 STN_RSGLIST SIGTRAN Route signaling Gateway List Configuration 156 8 8 SCOP Configuration CommandS E kk kk nantes 157 8 8 1 SCCP_CONFIG SCCP Configuration Lh h lkllkkk kk kk 157 8 8 2 SCCP_NC_CONFIG SCCP Network Context Configuration 158 8 8 3 SCCP_GTT Global Title Translation c cccsceseecesseseeeeeeeseeeeeseseeseeaaees 158 8 8 4 SCCP_GTT_ADDRESS Global Title Translation Address ccce 159 8 8 5 SCCP_GTT_PATTERN Global Title Translation Pattern kh 161 8 8 6 SCCP_SSR SCCP Sub System R SOUICES cccccccesseceeaseeeeeeeaseeseneeeeeaes 162 8 8 6 1 Configuring SCCP Remote Signaling POINtS cccssseeeseeeeeee eee es 163 8 8 6 2 Configuring SCCP Local SUD SYStEMS ccccecseeeeeeetee eee eneeaeeneaes 163 8 8 6 3 Configuring SCCP Remote SUub SySteEMS Lkhkl kh khkd kk 164 8 8 7 SCCP_CONC_SSR SCCP Concerned Sub Systems Configuration 165 8 9 TCAP Configuration COMMANAS xl us ka yk y la k a kekan kk yy yak a raa E we ken Ke ka aka 166 8 9 1 TCAP_CO
250. tion 3 2 Signaling Topologies on page 21 4 2 1 Connecting a VT100 Terminal 32 A VT100 compatible terminal can be connected using a DKL29 cable to the serial port COM2 on the rear of the unit After pressing the carriage return Enter key the Signaling Gateway interface prompt is displayed Default serial port settings are 9600 baud 8 data bits 1 stop bits and no parity bits The output on the VT100 screen is similar to one of the following SS7G30 SWS logged on at 2004 01 20 14 52 29 Dialogic DSI Signaling Servers SWS Mode User Manual Issue 3 lt to indicate SWS operation OR SS7G30 SIU logged on at 2004 01 20 14 52 29 lt to indicate SIU operation 4 2 2 IP Configuration The SWS should be connected to the Ethernet network using an RJ 45 10 100 1000 BASE T cable The SWS is configured with a default IP address of 192 168 0 1 If this address is not unique or not suitable for the existing network configuration it will be necessary to change this value to a unique IP address in the Ethernet network to which it is connected Instructions for making this change are provided in the following paragraphs A VT100 compatible terminal should be connected using a DKL29 cable to the serial port COM 2 on the rear of the unit After pressing the carriage return ENTER key the SWS interface prompt is displayed The default serial port settings are 9600 Baud 8 data bits 1 stop bits and no parity bits SS
251. tive alarms are indicated on the front panel of the Signaling Server except SS7G31 with three LEDs identifying severity CRT MJR MNR Active alarms may be indicated remotely from the Signaling Server except SS7G31 when the alarm relay outputs are connected to a remote management system e Alarm events occurrence and clearing class category and ID may be reported via Management messages to the host application as detailed in Chapter 10 API Commands thus permitting remote monitoring and or logging e Alarm events may be reported to an SNMP manager SNMP support is described in Section 5 4 SNMP on page 39 e A system operator can obtain a listing of the current alarm status CLA CATEGORY ID and TITLE using the ALLIP management terminal command described in Section 6 8 1 ALLIP on page 54 Test Critical 29 Chapter 3 Architecture Major or Minor may be activated using the ALTE management command and cleared using the ALTEE management command 30 Dialogic DSI Signaling Servers SWS Mode User Manual Issue 3 Chapter 4 Licensing Installation and Initial Configuration 4 1 Software Licensing Functional capabilities and signaling protocols are activated on the Signaling Server through the use of software licenses The following section provides information on the purchase of software licenses as well as information relating to temporary operation of the Signaling Server without software licenses
252. to all timeslots within the HSL link 0 1 48 Kbps bits 7 amp 8 not used 1 1 56 Kbps bit 8 not used Bit 12 sequence number length Set to 1 the HSL signaling link will use a 12 bit sequence number Set to 0 the HSL signaling link will use a 7 bit sequence number All other bits should be set to 0 150 8 7 Dialogic DSI Signaling Servers SWS Mode User Manual Issue 3 SIGTRAN Configuration Commands The SIGTRAN commands include STN_LAS SIGTRAN Local Application Server Configuration STN_LBIND SIGTRAN Local Bind Configuration STN_LINK SIGTRAN Link Configuration STN_NC SIGTRAN Network Context STN_RAS SIGTRAN Remote Application Server Configuration STN_RASLIST SIGTRAN Remote Application Server List Configuration STN_ROUTE SIGTRAN Route Configuration STN_RSGLIST SIGTRAN Route signaling Gateway List Configuration 8 7 1 STN_LAS SIGTRAN Local Application Server Configuration Synopsis This command initiates a local application server An application server is a logical entity representing a SS7 end point Syntax STN LAS lt nc_id gt lt las gt lt opc gt lt rc gt lt trmd gt lt flags gt Examples STN_LAS NC2 1 1200 1 LS 0x0000 STN_LAS 2 1300 2 OR 0x0000 Parameters The STN_LAS command has the following parameters lt nc_id gt SS7 Network Context The Network Context together with the Originating Point Code OPC uniquely identify an SS7 node by indicating the specific SS7
253. to host 0 fails messages are sent instead to host 1 and vice versa When the link recovers normal routing resumes When set to a value of 2 primary and backup hosts are paired 0 32 1 33 2 34 etc If the link to host 0 fails messages are sent instead to host 32 and vice versa When the link recovers normal routing resumes The ability to configure backup hosts allows management and or signaling messages to be redirected to a backup host application in the event of primary host failure Once the primary host link has been recovered messages are again sent to it from the SIU SWS Backup hosts may be used for SCCP operation however they might not be used in configurations that utilize DTS DTC You should ensure that both primary and backup hosts are configured and active e Options A 32 bit value each bit of which enables or disables additional configuration options BIT 0 When set received MTP Transfer I ndications will be evenly distributed across all available hosts The distribution will be in a Round Robin manner such that the subsequent message gets routed to the next available host All other bits are reserved and should be set to zero 130 Dialogic DSI Signaling Servers SWS Mode User Manual Issue 3 8 4 2 SIU_REM_ADDR Other SI U SWS Ethernet Address Synopsis The SIU_REM_ADDR command defines the network IP address of the other unit when configured in a dual resilient configuration This command should be
254. to the unit for the telnet session is changed you are automatically logged out of the session You can however login again without delay using the new IP address Note Network infrastructure may introduce a delay while MAC addresses and newly configured IP addresses are reconciled The Ethernet connection should be verified by attempting to ping the SWS from a computer connected to the same Ethernet network using the following command 33 Chapter 4 Licensing Installation and Initial Configuration ping 123 124 125 126 If the SWS has been configured correctly it responds to the ping and the host machine displays a message confirming communication with the SWS the exact format and response of this message is operating system dependant If ping fails check that the IP address was entered correctly and that there is no fault with the cabling to the SWS Once ping shows that the Ethernet connection is valid it should be possible to access the management interface previously used on the VT100 compatible terminal via telnet This is achieved by establishing a telnet session to port 8100 or 8101 Note It is not possible to telnet to the standard telnet port 23 For example on a typical host console the following command starts a telnet session to an SWS with an IP address of 123 124 125 126 telnet 123 124 125 126 8100 The telnet terminal displays the MML interface prompt SS7G30 SWS logged on at 2004 09 01 00 28 13 lt
255. tput format Board Configuration BPOS BTYPE FLAGS 1 SPCI4 Ox0041 3 SPCI4 0x0041 Where BPOS Board position BPOS Board type FLAGS Board Flags 6 9 2 CNBUI Configuration Backup Initiate Synopsis This command is used to create a local backup internally stored of the existing protocol configuration file config txt before an edit session Syntax CNBUI Prerequisites None Attributes None Example CNBUI 6 9 3 CNBUS Configuration Backup Set Synopsis This command is used to restore the protocol configuration file config txt from the previously backed up state 57 Chapter 6 Management Interface Syntax CNBUS Prerequisites None Attributes CONFIG The command affects configuration data Example CNBUS 6 9 4 CNCRP Configuration MTP Route Print Synopsis This command displays the current MTP route configuration See Section 8 6 7 MTP_ROUTE on page 146 for descriptions of the parameters in the output format Syntax CNCRP ID Prerequisites None Attributes None Examples CNCRP Output Format MTP route configuration ROUTE NC DPC LS1 LS2 UPMASK FLAGS 1 0 1 0 0 0x00020 0x00000 2 0 2 1 0 0x00020 0x00000 EXECUTED 6 9 5 CNCSP Configuration Concerned Subsystem Print Synopsis This command displays the concerned resources configuration See Section 8 8 7 SCCP_CONC_SSR on page 165 for descriptions of the parameters in the output format Syntax CNCSP ID
256. ue in multiples of tenths of a second 100 ms Any timers not configured continue to be set to the values shown in the following table ITU T or ANSI selection is made by setting the value of the MTP_CONFIG options parameter 144 MTP2 Timer ITU T 64k mode ITU T 48k mode ANSI 64k mode ANSI 56k mode HSL T1 45s 45s 13s 13s 300 s T2 30 s 30 s 23s 23s 30s T3 1 2 s 1 2 s 11 5 s 11 5 s 1 2 s T4N 8 25s 2 35 2s 2 35 30s T4E 500 ms 600 ms 500 ms 600 ms 500 ms Dialogic DSI Signaling Servers SWS Mode User Manual Issue 3 MTP2 Timer ITU T 64k mode ITU T 48k mode ANSI 64k mode ANSI 56k mode HSL T5 100 ms 100 ms 100 ms 100 ms 100 ms T6 5 55 5 55 5 5 sS 5 55s 5 5 sS T7 1 75 1 75 1 55 1 5 s 1 55 Note The SWS does not perform checks on MTP2 timer values 8 6 6 MTP3_ TIMER MTP3 Timer Configuration Synopsis The MTP3_ TIMER command provides the ability to configure the MTP3 protocol timers from the configuration file Syntax MTP3_ TIMER lt nc_id gt lt table id gt lt timer_id gt lt value gt Example MTP3 TIMER 0 T4 12 MTP3 TIMER NC1 0 T4 12 Parameters The MTP3_ TIMER command includes the following parameters e lt nc_id gt SS7 Network Context This parameter uniquely identifies the SS7 network that the MTP3 Timer is being configured for Supported values are NCO NC1 NC2 and NC3 When the parameter is not present a value of NCO is as
257. ured using the LIU_CONFIG command in the config txt file Attributes None Examples MSPCP MSPCP RESET Y Output Format PCM Traffic Measurements PORTID PCM FMSLIP OUTSYN ERRSEC SEVSEC PERIOD 1 1 3 57 60 23 1 23 00 00 2 1 4 12 35 33 4 01 00 00 3 2 3 53 55 4 0 01 00 00 EXECUTED The meaning of each field in the output is as follows e PORTID Port ID as configured in config txt file PCM PCM on a board FMSLIP Frame Slip count OUTSYN Out sync transitions ERRSEC Errored Seconds count SEVSEC Severely Errored Seconds count e PERIOD Time since measurements on the port were last reset Specified in hours minutes and seconds Note PCM statistics are reset using the RESET parameter MSPCP RESET Y resets period and measurement values to 0 97 Chapter 6 Management Interface 6 13 7 MSSLP Measurement SS7 Link Print Synopsis This command prints out traffic measurements for SS7 links SS7 link statistics are reset using the RESET parameter MSSLP RESET Y resets the period and measurement values to 0 Syntax MSSLP RESET PAGE Prerequisites None Attributes None Examples MSSLP MSSLP RESET Y PAGE 2 Output Format SS7 link measurements Page 1 of 2 LINK OOSDUR RXNACK RXMSU RXOCT TXMSU TXOCT RTXOCT NCONG PERIOD 0 0 0 375 8220 16320 124306 0 0 00 12 00 1 0 0 392 8624 17036 141860 0 0 00 12 00 EXECUTED SS7 link measurements page 2 of 2 LINK ALIGN SUERR TBUSY TCON
258. vailable for selection 6 15 4 STCRP Status SS7 Route Print Synopsis This command shows the status of all configured SS7 routes Syntax STCRP Prerequisites None Attributes None Example STCRP Output Format CCS SS7 route status ROUTE NC DPC ROUTE STATUS CONG LEVEL LS1 STATUS LS2 STATUS 1 1 1021 Available 0 Available 2 T 2171 Available 0 Available Available 3 2 51 Unavailable 0 Unavailable EXECUTED The meaning of each field in the output is as follows 104 ROUTE Logical reference for an SS7 route NC SS7 Network Context ROUTE STATUS Possible values are Available The route is available for traffic to the remote point code of the route Unavailable The route is unavailable for traffic to the remote point code of the route CONG LEVEL Possible values are 0 no congestion 1 2 or 3 indicates the ITU ANSI congestion level Dialogic DSI Signaling Servers SWS Mode User Manual Issue 3 e LS1 STATUS and LS2 STATUS Possible values are Available The link set on the route is available for traffic to the adjacent point code Unavailable The link set on the route is unavailable for traffic to the adjacent point code 6 15 5 STDDP Status Disk Drive Print Synopsis This command displays the status of hard disk drives within the RAID array Syntax STDDP Prerequisites None Attributes None Example STDDP Output Format STDDP Disk Dri
259. ve Status DRIVE STATUS 0 UP 1 UP EXECUTED The STATUS field will display one of the following values e UP The disk drive is operational If the disk forms part of a RAID array then all the RAID devices on this drive are in an active sync state DOWN The disk drive is non operational If the disk forms part of a RAID array then one or more of the Raid devices on this drive is faulty RESTARTING One or more of the raid devices on this drive is synchronizing with another Raid device The disk is considered non operational until synchronization is complete e INACTIVE The drive is not configured as part of the RAID array and therefore is not in use This may be due to user action through MMI the drive not being physically present at startup or a failed drive being removed by the operating software at startup from the RAID array Caution Before replacing a failed drive the drive must first be taken out of service using the MNINI command Once the replacement drive is in place the disk can be restored to service using the MNINE command See Section 5 6 1 SS7G31 and SS7G32 Hard Disk Drive RAID Management on page 41 6 15 6 STEPP Status Ethernet Port Print Synopsis This command provides the status of Ethernet ports on the system Syntax STEPP Prerequisites None 105 Chapter 6 Management Interface Attributes None Example STEPP Output Format ETH PARTNER SPEE
260. which a Message Signal Unit MSU should be directed Distributed Signaling Interface A term used to describe a system that consists of two SIUs configured as a single point code in the SS7 network Under normal circumstances both SIUs share the load If one unit fails the partner unit maintains operation of the node An fully associated link that connects two signaling end points for example SSPs and SCPs F links are not usually used in networks with STPs In networks without STPs F links directly connect signaling points File Transfer Protocol A program that handles the initialization sequence and creates inter process communication The Hypertext Transfer Protocol HTTP is a protocol used extensively to provide the application level communication between client and servers in web and web service enviroments Mobile Application Part MAP An SS7 stack layer supporting messages sent between mobile switches and databases to support user authentication equipment identification and roaming Message Transfer Part Layers 1 to 3 of the SS7 protocol stack broadly equivalent to the Physical Data Link and Network layers in the OSI protocol stack See also MTP1 MTP2 and MTP3 Message Signal Unit A data unit that carries signaling information for call control transaction processing network management and maintenance Typically the MSU is carried in the Signaling Information Field SIF of SS7 messages Line Interface
261. y and additional gateways As the SWS supports static rather than dynamic IP routing the SWS should not be configured with different IP addresses within the same IP network Instead resilience between two IP ports within the same network can be achieved by using IP port bonding which allows two physical IP ports to be bonded together in an active standby configuration under a single IP address See Section 9 2 IP Port Bonding on page 171 for more information 3 7 Management Reporting The SWS reports management alarms such as PCM trunk status and SS7 level 2 link status to a single software process identified as module_id Oxef that exists by default on host 0 The user management application is responsible for interpreting the management messages described in Chapter 10 Application Programming Interface performing the appropriate action and distributing these messages to other hosts if required The identity of the default management host is displayed by the DMHOST parameter on the CNSYP MMI command and may be changed through use of the CNSYS command Any host may assume the role of management by sending a management request in the form of an API_MSG_ COMMAND request On receipt of this request the SWS begins to send management events to the new host Unlike the setting of the DMHOST through MMI setting of a management host using the API_MSG_COMMAND will require the user to transmit the API_MSG_ COMMAND with the desired manag
262. y be referred to collectively as SS7G3x In addition unless otherwise stated text within this document is applicable to all servers within the Dialogic DSI SS7 Signaling Server range when operating in 11 Chapter 1 Overview SWS mode and the terms SWS and Signaling Web Services may be used to refer to a Dialogic DSI Signaling Server being operated in SWS mode The Signaling Server may be purchased as one of two equipment types SS7G31 and SS7G32 Both servers use the same software but use different chassis and different signaling boards See Section 1 5 Hardware Overview on page 13 for a fuller description of the Signaling Server hardware The SS7G31 and SS7G32 Signaling Servers are shipped in TEST Mode without any operation mode license installed To enable SWS functionality order an appropriate SWS license 1 2 1 Other Operating Modes Signaling I nterface Mode SIU A Signaling Server with the SIU Mode software license installed and enabled operates as a Signaling Interface Unit hereinafter sometimes referred to as SIU offering SS7 Protocol support over a TCP IP interface In this mode the server offers support for many SS7 protocols such as ISUP BICC SCCP TCAP MAP INAP and IS41 In addition the server offers support for monitoring applications Description and use of the system acting as a Siganling Interface Unit is outside the scope of this manual See the Dialogic DSI Signaling Servers
263. y for the user application to detect any restart of the SWS and reconfigure the unit as needed 9 7 1 Config txt Based Dynamic Configuration In config txt based dynamic configuration the user transmits an updated config txt file to the system then executes an MMI command to load the configuration into system memory for use Since the new configuration exists within a config txt file the updated configuration is preserved over a restart The process for config txt based dynamic configuration is as follows 1 Add delete or modify the configuration element in the config txt file 2 Transfer the config txt file to the unit via FTP 3 Invoke the CNURx MMI command to update the unit configuration In every case when the SWS is restarted the configuration file last transferred will be applied to the unit The CNURx commands return the following responses RANGE ERROR the identifier value is invalid 173 Chapter 9 Configuration Guidelines e UNACCEPTABLE COMMAND the command does not satisfy all prerequisite conditions GENERAL ERROR the config txt command line is incorrectly formatted or the operation failed to complete successfully the configuration of the system is restored to the state prior to command execution Note the following When adding configuration elements the elements might not already be configured within the SWS When changing or deleting configuration elements the elements must already have been
264. ystem Configuration files present on the portable media will overwrite any in the SIUFTP directory Note Once the system has been restored you must ensure that the CD or USB is removed from the Signaling Server otherwise on subsequent re boot the system will again install the files stored on portable media If you change dynamically configurable data on the system using MMI i e MMI commands described in the user manual with the attribute CONFIG you may wish to create a new backup of the config CF1 file containing the new configuration data to the syslog directory in the siuftp account To do so without restarting the system type the following command CNBUI DTYPE SYSCFG Following this command a new portable media archive should be created following the procedures identified above Note You also have the ability to re install any of the previously backed up system files identified above or to install a new text configuration file using FTP rather than from portable media In this case they should ftp the files onto the unit using the procedures defined in this manual 5 9 SIGTRAN Throughput Licensing The SIGTRAN license installed on the unit determines the number of SIGTRAN links that can be configured on the system For license descriptions see Section 2 2 Software Licenses on page 17 Throughput is restricted through a congestion mechanism which allows a system to briefly exceed the licensed throughput provid
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