MANUAL TCU Editado Por Henry Marin

May 12, 2018 | Author: amigoxyz007 | Category: Data Transmission, Information Technology Management, Computer Data, Computer Network, Networks
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COBERTURA Y CARACTERISTICAS DE MANTENIMIENTOACCESO CELULAR DE ESTACIONES DE ENTEL MANUAL EQUIPOS DE TRANSMISION: TCU EDITADO POR: Henry Marin LL. REGIONAL LA PAZ MZ-1 LA PAZ, AGOSTO 2017 1 TCU (Unidad de Control de Tráfico) TCU Resumen El Nodo de Transporte de Sitio (Site Transport Node =STN) es un nodo en el Sistema de Estacion Base (Base Station System =BSS), este es su nombre logico TCU, que maneja y prove interface entre la RBS (GSM, WCDMA, CDMA, LTE, solo o multi-standard, transmision o 3ra parte del equipo), y redes de transporte IP/Ethernet over IP o IP sobre E1/T1 La TCU 02 (Unidad de Conectividad de Transporte=Transport Connectivity Unit) es un componente en la familia de productos RBS 6000 y esta diseñada primordialmente parab soportar Multi Estandares de RBS con funcionalidad de transporte avanzada. HARDWARE TCU 0201 – GA Diciembre 2011 Large Volumenes (Nx100K) Capacidad optimizada para MSR e integración con todas RBSs 6000. (medidas: slot 31mm ancho & 300mm alto) – No posee FAN – 8 Puertos E1/T1 – 4 Puertos ethernet 100/1000Base-T – 4 Puertos ethernet 100/1000 SFP – 1 puerto de clock – Oscilador 2 SOFTWARE TCU 02  Abis over IP  Abis optimization  NTP, PTP client, Sync E  Ethernet Bridging  Performance monitoring  Ethernet OAM  Routing Ethernet & MLPPP (E1/T1) › IPv4 Bi-directional forwarding Detection › Policy based routing TCU Resumen Que es lo que hace la TCU? En la dirección downlink , STN desempaca los paquetes IP recibidos en la interface Ethernet. El contenido de paquetes LAPD son enviados a la BTS usando el super canal. En la dirección uplink, las tramas LAPD desde la BTSson recibidas en el super canal en formato LAPD. Las tramas LAPD desde el super canal son ordenados de acuerdo al trafico. La configuración de tipos de tráfico está dado por el operador y son ensamblados juntos para ser enviados por un solo tipo de trafico como paquetes IP y enviados a la BSC/PGW. 3 La Característica Abis sobre IP hace posible para los operadores usen una estructura IP para la transmisión se señales y carga útil (información de usuarios) entre BSC y BTS. El Packet Gateway, PGW, usa una terminal IP en el lado de la BSC. En el otro lado de la BTS, la terminal IP usa el Nodo de Sitio de Transporte (Site Transport Node) para RBSs, concido como STN. Entre la Red IP y la PGW en la BSC y el STN en la BTS se usa IPv4. Para Abis sobre IP, el concepto SC es solo un modelo en la PGW, el super canal real solo existe entre el STN y la BTS. El enlace PCM entero constituye un super canal. Similarmente las rutas digitales, son cuatro SCs con tamaño fijo de 31 timeslots posibles para ser usados por la TG. Esta relación fija existe entre TRXs y SCs, un TRX no puede transmitir sobre diferentes SCs. Las SCs van de un TG a un grupo de super canal (Super Channel Group=SCGR). Usando transporte IP en la interface Abis, el operador puede sustancialmente bajart los costos de operación y mantenimiento de redes de transporte. También las Redes IP tienen más costos efectivos de transmisión comparados con transmisión a base de E1/T1. El PGW maneja las conversaciones, GPRS/EGPRS y la señalización en una sola pieza de hardware. La PGW puede manejar un mix de IP basado en transmisión Abis y transmisión Abis basado en E1/T1. Cada TG puede solo usar un tipo de modo de transmisión. Soporta manejo de QoS, que es possible para diferentes codigos de diferentes traficos. LA BSC soporta hasta 64 PGW RPs. El cantidad de tráfico que puede manejar un PGW depende de la configuración de las redes y la carga de tráfico. Un PGW puede soportar hasta 127 TRXs y hasta 500 Erlang con carga de trafico de acuerdo al modelo de tráfico. Sitios en cascada no son soportados. Ethernet bridging 4 Acceso a la TCU  Conecte la TCU via Local Management Terminal, PUTTY, TERA TERM  El conector usado es RJ45, que se conecta al Puerto de Local Management › telnet IP:192.168.1.1, MASK: 255.255.255.0 › username: admin › password: hidden o TCU prompt: OSmon> Comandos Básicos › Lista disponible de comandos: › OSmon> help Imprimir el log con la Configuracion completa: › OSmon> syslog read -s system › OSmon> syslog read -s event › OSmon> syslog read -s messages Lista de todas las alarmas activas en la TCU › OSmon>getalarmlist Imprime mtiempo de operacion en el sistema: › OSmon> uptime Reset to default factory setting, toda la Configuracion sera borrada › OSmon>ResetToFactorySetting Lista MO ejemplo en un MO especifico que contiene jerarquias e incluye instancias de objetos . Eg. › getContainmentt1 STN=0 › STN=0; › STN=0,Equipment=0; › STN=0,EthernetInterface=0; › STN=0,IPInterface=0; › STN=0,Synchronization=0; › STN=0,MeasurementDefinition=0; › STN=0,E1T1Interface=0; › STN=0,TGTransport=p2; › STN=0,TGTransport=p2,SuperChannel=0; › OperationSucceeded Despliega manejo de Objectos (MO) valores de atributos Eg › OSmon> getmoattribute stn=0,e1t1interface=0 › STN=0,E1T1Interface=0; instanceId= 0; 5 › STN=0,E1T1Interface=0; operationalState= disabled; › STN=0,E1T1Interface=0; type= E1; › STN=0,E1T1Interface=0; transmitClockSource= localTiming; › STN=0,E1T1Interface=0; receiveClockSource= notUsed; › STN=0,E1T1Interface=0; loopbackMode= off; › OperationSucceeded Ejecuta commandos de configuracion via CLI (command line interface) esta necesita estar dentro de una Transaccion=transaction Eg › starttransaction LPZ › setMOAttribute LPZ … › … › Checkconsistency LZP › commit LPZ › endtransaction LPZ SOFTWARE REFERENTE A LA TCU 6 MANTENIMIENTO PREVENTIVO: TCU 1.- CONFIGURAR TARJETA DE RED DE LA PC USADA: IP: 192.168.1.20 ("20", puede ser cualquier HOST) Mascara: 255.255.255.0 Gateway: 192.168.1.1 2.- USAR TELNET O EL PROGRAMA PUTTY: telnet: 192.168.1.1 username: admin password: hidden 7 2.1.- SI SE USA TERA TERM host: 192.168.1.1, en la primera ventana apretar OK. username: admin password: hidden NO IMPORTANDO QUE PROGRAMA SE USE COMO TELNET, CUANDO SE INICIA LA PANTALLA DE COMANDOS, se activa el OSmon (Monitoreo del Sistema Operativo) 8 3.- INICIO DE TRANSACCION:" iniciar la transacción en el OSmon, mediante las líneas de comando, que se indican: OSmon > startTransaction ENTEL 4.- VERIFICACION DEL NOMBRE DE TRANSACCION: OSmon> gettransactionid ENTEL Operation Suceeded 5.- VER CONTENIDO DE LA TCU Y SUS ATRIBUTOS DEL STN=0 (STN=0 ES EL NOMBRE LA TCU) getcontainment ENTEL stn=0 getmoattribute stn=0, <MO> 6.- VER EL CONTENIDO COMPLETO DE LA TCU, QUE SE LLAMA stn=0: OSmon> getcontainment LPZ stn=0 STN=0; STN=0,Bridge=BRIDGE_CP; STN=0,Bridge=BRIDGE_IUB_OAM; STN=0,Bridge=BRIDGE_IUB_OAM_2; STN=0,Bridge=BRIDGE_IUB_TRAFFIC; STN=0,Bridge=BRIDGE_IUB_TRAFFIC_2; STN=0,Bridge=BRIDGE_OYM; STN=0,Bridge=BRIDGE_UP; STN=0,E1T1Interface=0; STN=0,Equipment=0; STN=0,EthernetInterface=IUB; STN=0,EthernetInterface=OPT; STN=0,EthernetInterface=WAN; STN=0,IPInterface=ABIS_TRAFFIC; STN=0,IPInterface=TCU_OAM; STN=0,IPv6RoutingTable=0; STN=0,MeasurementDefinition=0; STN=0,RoutingTable=0; STN=0,RoutingTable=0,IpRouteSys=ABIS_TRAFFIC; STN=0,RoutingTable=0,IpRouteSys=DefaultGateway; STN=0,RoutingTable=0,IpRouteSys=TCU_OAM; STN=0,RoutingTable=1; STN=0,RoutingTable=2; STN=0,RoutingTable=3; STN=0,RoutingTable=4; STN=0,RoutingTable=5; STN=0,RoutingTable=6; STN=0,RoutingTable=7; STN=0,RoutingTable=8; STN=0,RoutingTable=9; STN=0,Synchronization=0; STN=0,TGTransport=ASEGUENCOMA-0; STN=0,TGTransport=ASEGUENCOMA-0,SuperChannel=0; STN=0,TempSensor=0; STN=0,VLANGroup=VLAN_IUB; STN=0,VLANGroup=VLAN_IUB,VLAN=IUB_OAM; STN=0,VLANGroup=VLAN_IUB,VLAN=IUB_OAM_2; STN=0,VLANGroup=VLAN_IUB,VLAN=IUB_TRAFFIC; STN=0,VLANGroup=VLAN_IUB,VLAN=IUB_TRAFFIC_2; 9 STN=0,VLANGroup=VLAN_OPT; STN=0,VLANGroup=VLAN_OPT,VLAN=X2_CP; STN=0,VLANGroup=VLAN_OPT,VLAN=X2_OYM; STN=0,VLANGroup=VLAN_OPT,VLAN=X2_UP; STN=0,VLANGroup=VLAN_TRUNK; STN=0,VLANGroup=VLAN_TRUNK,VLAN=ABIS_TRUNK; STN=0,VLANGroup=VLAN_TRUNK,VLAN=IUB_OAM; STN=0,VLANGroup=VLAN_TRUNK,VLAN=IUB_OAM_2; STN=0,VLANGroup=VLAN_TRUNK,VLAN=IUB_TRAFFIC; STN=0,VLANGroup=VLAN_TRUNK,VLAN=IUB_TRAFFIC_2; STN=0,VLANGroup=VLAN_TRUNK,VLAN=OAM_TRUNK; STN=0,VLANGroup=VLAN_TRUNK,VLAN=X2_CP; STN=0,VLANGroup=VLAN_TRUNK,VLAN=X2_OYM; STN=0,VLANGroup=VLAN_TRUNK,VLAN=X2_UP; STN=0,VRF=0; STN=0,VRF=1; STN=0,VRF=2; 7.- VER CADA UNO DE LOS ATRIBUTOS CONFIGURADOS EN LA TCU: stn=0: OSmon> getmoattribute ENTEL stn=0,EthernetInterface=OPT STN=0,EthernetInterface=0; instanceId= 0; 8.- PARA VER LAS ALARMAS ACTIVAS EN LA TCU: OSmon>getalarmlist STN=0,TGTransport=ASEGUENCOMA-0; alarmId= 1; eventTime= 1970-01-01 T00:00:36; eventType= "communicationsAlarm(2)"; perceivedSeverity= "major(2)"; probableCause= "m3100ConnectionEstablishmentError(22)"; specificProblem= "STN-to-BSC Link Down"; additionalText= "The Primary Control Connection to the BSC is disconnected."; OperationSucceeded 9.- VER LA VERSION DEL SOFTWARE DE LA TCU: OSmon> getirpversion 10.- VER LA FECHA DE INICIO DEL CLOCK: Año 2011, mes 01, dia 26 OSmon> caldate 20110126 OperationSucceeded 11.- VER LA FECHA DE EXPIRACION DEL CLOCK: Año 2012, mes 01, dia 26 OSmon> calexpdate 20120126 OperationSucceeded 12.- VER COMANDOS, MEDIANTE HELP OSmon> HELP The following commands are available: ? Displays all available commands abortsessionoperation Interrupts the uploading or downloading of bulk CM files abortswsessionoperation Interrupts software downloading 10 activate Activates changes of attribute values specified in downloaded bulk CM XML file activateE1T1TimedLoopbackMode Activates E1T1 loopback timeout activatesw Closes any established traffic connections and restarts STN with downloaded software approvesw Copies the software and config from the primary (active) area to the secondary (backup) area backup Orders the backup of OAM CM configuration to the destination file specified. caldate Displays or sets the calibration date calexpdate Displays or sets the calibration expire date calmode Display or set the frequency calibration mode calvalue Displays or sets the calibration value changePWD Set new password for admin or isp user. checkaaserver Checks connectivity to LDAP server checkconsistency Checks the validity and consistency of an updated configuration cleardynamicmacfwtable Removes specified entries in the MAC forwarding table collectDCGInformation Prints miscellaneous debug information commit Commits all configuration requests in the transaction createmo Creates the specified new MO dataencryption Activates data encryption or prints its status deleteAiMo Deletes all auto integration MO instances deletemo Deletes a MO identified by the baseObjectInstance destroyosmonsession Destroy osmon session download Orders the downloading of a bulk CM XML configuration file for STN configuration. downloadenrolledcertificate Enrolls and installs an operator certificate downloadsw Orders the downloading of new software for the STN. downloadtrustedcertificate Downloads and installs a trusted certificate dump Reads the most recent restart dump endsession Ends a bulk CM session endswsession Ends a software upgrading or downgrading session endtransaction Ends a basic CM transaction exit Exits from shell generatekey Generate a new SSH host key. getalarmlist Returns all active alarms in the STN getcertificateinfo Displays trusted and operator certificate information getcontainment Retrieves all MO instances in a specified MO containment hierarchy under and including the baseObjectInstance getcounters Displays Managed Object (MO) counters getethstatus Prints out Ethernet and SFP (if plugged) debug info. getike Retrieves all information of the current IKE configuration getipsec Retrieves all information of the current IPsec configuration getirpversion Displays the version number of the Integration Reference Point(IRP) used between the STN and the OSS getlinkoam Displays Ethernet LinkOAM information getmoattribute Displays Managed Object(MO) attribute values getneighbors Returns current ARP and NDP cache getosmonsessions Displays all osmon sessions 11 getospf Prints the OSPFv2 database, interfaces, border routers, neighbors and the OSPFv2 routing table getpendingconfiguration Used to determine if there is a bulk CM download file ready to be activated getppplinkstats Traces get statistics of RTT on individual PPP links getsessionids Returns the identity of existing bulk CM sessions getsessionstatus Returns the status of a specific bulk CM session getsubscriptionids Returns all subscriptions existing in the STN getsubscriptionstatus Returns the characteristics of subscriptions getswsessionids Returns the identity of existing software sessions getswsessionstatus Returns the status of a specific software upgrading or downgrading session gettemperature Displays the readout of all temperature sensors gettime Displays the current system clock setting gettransactionid Returns the identity of the transaction gettransactionstatus Returns the status of the transaction, and is only possible to perform within a transaction help Displays all available commands log Reads or monitors the system logs ping Sends ICMP ECHO_REQUEST to network hosts ping6 Sends ICMP ECHO_REQUEST to network hosts ping_ethernet Sends out LoopBack Messages (LBM) from the SIU quit Exits from shell resettofactorysetting Resets the STN to default factory settings restart Initiates a restart of the STN restore Restores new configuration on the node. resumepmmeasurements Initiates/Enables PM data uploading. resumesubscription Activates a defined but suspended subscription rev Returns revisions of everything setmoattribute Sets MO attribute values settime Sets the value of the system clock show Command for displaying extended network settings on STN. showInterfaceMapping The command displays mapping of currently configured interfaces between STN MO and data link layer showmacfwtable Shows all entries in the MAC forwarding table simpleping A simple function to make ping between source and destination address simpleping6 A simple function to make ping6 between source and destination address startsession Starts a bulk CM session startswsession Starts a software upgrading or downgrading session starttransaction Starts a basic CM transaction subscribe Defines a new IP address to subscribe for SNMP alarms & notifications suspendpmmeasurements Stops/Disables PM data collection and PM data upload suspendsubscription Disables or stops the sending of alarms and notifications syslog Reads or monitors the system logs timeservertest Displays information on the connectivity and the quality of the network towards a timeserver traceallmoattributeinlog Prints values of all MIB configuration attributes in log. tracepath Traces path to a network host discovering MTU along this path tracepath6 Traces path to a network host discovering MTU along this path traceroute Prints the route packets take to network hosts traceroute6 Prints the route packets take to network hosts 12 traceroute_ethernet Sends out LinkTrace Messages (LTM) from the SIU unsubscribe Disables or stops the sending of alarms, notifications and removes the subscription upload Orders the uploading of a bulk CM XML configuration file to the destination file specified. uptime Displays how long the system has been running uselocalsftp Use the local terminal for SFTP (default off). uselocalsshd This command no longer has any effect. 13.- FINALIZAR TRANSACCION: "si no cierra la transacción con el nombre de usuario, en este ejemplo “ENTEL”, no podrán ingresar nuevos usuarios" OSmon> endtransaction ENTEL Configuracion TCU › Attaching Local Terminal O&M › Resetting Configuration › Set Time for TCU › Start basic CM Transaction › Set Unique Name for TCU › Configuring WAN & VLAN › Configuring IP interface Traffic & OAM › Configuring Routing Table for IP Interface Traffic › Configuring OSS Registration for TCU › Configuring Time Reference for TCU › Configuring Synchronization for TCU › Configuring E1/T1 › Configuring TG Transport and Super Channel › Configuring QoS Mapping Policy › Finishing Configuration TCU › Getting TCU logs LED TCU 0201 Basic trouble shooting knowledge: indicadores LED › Power – Green color.  On, TCU has power  Off, TCU has no power › Fault – Red color.  On, Major alarms detected.  Off, No faults detected. › Operational – Green color.  On, TCU is operational.  Flashing 10 Hz, active SSH or SFTP session.  Flashing 0.5 Hz, TCU powered but not operational.  Off, TCU no powered. › Information – Yellow color.  On, Minor alarm detected.  Off, No faults detected. 13 › Synchronized – Green color.  On, TCU provides sufficient timing to RBSs for RF generation.  Off, Timing provided by TCU cannot be used for RF generation Configuracion TCU Resetting Configuration To reset the STN configuration to default values, do the following:  Command: resettofactorysetting This command resets the TCU to default factory setting. MIB content is erased and persistent data including security and synchronization data is cleared. Software archives are not affected by this command. The STN restart takes a few minutes. Set Time for TCU Example: settime Year(1970->) Mon(1-12) Day(1-31) Hour(0-23) Min(0-59) Sec(0-59) Msec(0-999) settime 2011 6 15 24 00 00 000 Start basic CM Transaction Example: starttransaction ENTEL Name of the transaction can be changed with unique name eg.; 1,2,3,asdf,t1, ENTEL, LPZ etc. Set the Unique Name (maximum 18 characters) for TCU Example: setmoattribute ENTEL STN=0 stn_name TCURBR0073 Configuring WAN & VLAN Example: createmo ENTEL STN=0,EthernetInterface=WAN setmoattribute ENTEL STN=0,EthernetInterface=WAN port WANFastEthernet setmoattribute ENTEL STN=0,EthernetInterface=WAN mode AUTO setmoattribute ENTEL STN=0,EthernetInterface=WAN portNumber 0 setmoattribute ENTEL STN=0,EthernetInterface=WAN sendLinkAlarmAllowed true createmo ENTEL STN=0,VLANGroup=WAN setmoattribute ENTEL STN=0,VLANGroup=WAN depLinkLayer STN=0,EthernetInterface=WAN createmo ENTEL STN=0,VLANGroup=WAN,VLAN=2G setmoattribute ENTEL STN=0,VLANGroup=WAN,VLAN=2G tagValue 3172 !VLAN ABIS! setmoattribute ENTEL STN=0,VLANGroup=WAN,VLAN=2G tagged true createmo ENTELf STN=0,VLANGroup=WAN,VLAN=OM setmoattribute ENTEL STN=0,VLANGroup=WAN,VLAN=OM tagValue 3122 !VLAN OM! setmoattribute ENTEL STN=0,VLANGroup=WAN,VLAN=OM tagged true 14 Configuring IP interface Traffic & OAM Example: createmo ENTEL STN=0,IPInterface=2G setmoattribute ENTEL STN=0,IPInterface=2G primaryIP_Address 10.235.1.20 !IP address ABIS! setmoattribute ENTEL STN=0,IPInterface=2G primarySubNetMask 255.255.255.240 !Netmask ABIS! setmoattribute ENTEL STN=0,IPInterface=2G depLinkLayer STN=0,VLANGroup=WAN,VLAN=2G setmoattribute ENTEL STN=0,IPInterface=2G trustDSCP true createmo ENTEL STN=0,IPInterface=OM setmoattribute ENTEL STN=0,IPInterface=OM primaryIP_Address 10.234.1.204 IP address OM! setmoattribute ENTEL STN=0,IPInterface=OM primarySubNetMask 255.255.255.240 !Netmask OM! setmoattribute ENTEL STN=0,IPInterface=OM defaultGateway 10.234.1.193 !Default gateway OM! setmoattribute ENTEL STN=0,IPInterface=OM depLinkLayer STN=0,VLANGroup=WAN,VLAN=OM setmoattribute ENTEL STN=0,IPInterface=OM trustDSCP true setmoattribute ENTEL STN=0 depIP_interface stn=0,ipinterface=OM Configuring Routing Table for IP Interface Traffic Example: createmo ENTEL STN=0,RoutingTable=0,IPRoute=2G setmoattribute ENTEL STN=0,RoutingTable=0,IPRoute=2G forwardingInterface STN=0,IPInterface=2G setmoattribute ENTEL STN=0,RoutingTable=0,IPRoute=2G nextHopIpAddress 10.235.1.193 !Default gateway ABIS! setmoattribute ENTEL STN=0,RoutingTable=0,IPRoute=2G destIpSubnet 10.235.0.128/26 !destIpSubnet PGW! setmoattribute ENTEL STN=0,RoutingTable=0,IpRoute=2G admDistance 2 createmo ENTEL STN=0,RoutingTable=0,IPRoute=NWIE setmoattribute ENT STN=0,RoutingTable=0,IpRoute=NWIE forwardingInterface STN=0,IPInterface=2G setmoattribute ENTEL STN=0,RoutingTable=0,IpRoute=NWIE nextHopIpAddress 10.235.1 .193 !Default gw ABIS! setmoattribute ENTEL STN=0,RoutingTable=0,IpRoute=NWIE destIpSubnet 10.235.0.0 /25 !destIpSubnet NWIE! setmoattribute ENTEL STN=0,RoutingTable=0,IpRoute=NWIE admDistance 3 Configuring OSS Registration for TCU Set wake-up registration to OSS, the OSS IP address is used. Example: › setmoattribute ENTEL STN=0 wakeupregistration 10.224.16.4 !IP Address OSS! Configure SNMP to IP address OSS Example: › subscribe 10.224.16.4 3 !Configure SNMP to IP Address OSS! 15 Configuring Time Reference for TCU Example: › setmoattribute ENTEL STN=0 systemClockTimeServer 192.168.1.25 !IP Address NTP Server! › setmoattribute ENTEL STN=0 systemClockTimeServerType NTP › setmoattribute ENTEL STN=0 STN_systemClockUDP_Port 123 Configuring Synchronization for TCU Example: › setmoattribute ENTEL STN=0,synchronization=0 synchType timeServer › setmoattribute ENTEL STN=0,synchronization=0 DSCP_synchronization 48 !DSCP for Synchronization! › setmoattribute ENTEL STN=0,synchronization=0 depIP_interface stn=0,ipinterface=OM › createmo ENTEL STN=0,synchronization=0,Timeserver=TS1 › setmoattribute ENTEL STN=0,synchronization=0,Timeserver=TS1 timeServerType NTP › setmoattribute ENTEL STN=0,synchronization=0,Timeserver=TS1 STN_TS_UDP_Port 123 › setmoattribute ENTEL STN=0,synchronization=0,Timeserver=TS1 TS_IP_Address 192.168.1.25 !IP Address NTP Server! › setmoattribute ENTEL STN=0,synchronization=0,Timeserver=TS1 TS_Priority 1 !Pbit for NTP Sync! Configuring E1/T1 Example: E1/T1 port 1 › createmo ENTEL STN=0,E1T1Interface=0 › setmoattribute ENTEL STN=0,E1T1Interface=0 type E1 › createmo ENTEL STN=0,E1T1Interface=1 › setmoattribute ENTEL STN=0,E1T1Interface=1 type E1 E1/T1 port 2 › createmo ENTEL STN=0,E1T1Interface=2 › setmoattribute ENTEL STN=0,E1T1Interface=2 type E1 › createmo ENTEL STN=0,E1T1Interface=3 › setmoattribute ENTEL STN=0,E1T1Interface=3 type E1 Configuring TG Transport and Super Channel Example: TG Transport for E1/T1 port1 › createmo ENTEL STN=0,TGTransport=RBR0073_TG0153 › setmoattribute ENTEL STN=0,TGTransport=RBR0073_TG0153 depIP_interface stn=0,ipinterface=2G › setmoattribute ENTEL STN=0,TGTransport=RBR0073_TG0153 pgw_ip_address 10.235.0.131 !IP Address pool PGW! › setmoattribute ENTEL STN=0,TGTransport=RBR0073_TG0153 DSCP_L2TP_CP 48 !DSCP for L2TP_CP! 16 › createmo ENTEL STN=0,TGTransport=RBR0073_TG0153,SuperChannel=0 › createmo ENTEL STN=0,TGTransport=RBR0073_TG0153,SuperChannel=1 › setmoattribute ENTEL STN=0,TGTransport=RBR0073_TG0153,SuperChannel=0 depE1T1Interface 0 › setmoattribute ENTEL STN=0,TGTransport=RBR0073_TG0153,SuperChannel=1 depE1T1Interface 1 TG Transport for E1/T1 port2 › createmo ENTEL STN=0,TGTransport=RBR0073_TG0154 › setmoattribute ENTEL STN=0,TGTransport=RBR0073_TG0154 depIP_interface stn=0,ipinterface=2G › setmoattribute ENTEL STN=0,TGTransport=RBR0073_TG0154 pgw_ip_address 10.235.0.131 !IP Address pool PGW! › setmoattribute ENTEL STN=0,TGTransport=RBR0073_TG0154 DSCP_L2TP_CP 48 !DSCP for L2TP_CP! › createmo ENTEL STN=0,TGTransport=RBR0073_TG0154,SuperChannel=0 › createmo ENTEL STN=0,TGTransport=RBR0073_TG0154,SuperChannel=1 › setmoattribute ENTEL STN=0,TGTransport=RBR0073_TG0154,SuperChannel=0 depE1T1Interface 2 › setmoattribute ENTEL STN=0,TGTransport=RBR0073_TG0154,SuperChannel=1 depE1T1Interface 3 Configuring QoS Mapping Policy Example: DSCP-to-Queue mapping › createmo ENTEL STN=0,QoSPolicy=0 › setmoattribute ENTEL STN=0,QoSPolicy=0 dscp2q48 1 › setmoattribute ENTEL STN=0,QoSPolicy=0 dscp2q46 2 › setmoattribute ENTEL STN=0,QoSPolicy=0 dscp2q28 3 DSCP-to-PCP mapping › setmoattribute ENTEL STN=0,QoSPolicy=0 dscp2pcp48 7 › setmoattribute ENTEL STN=0,QoSPolicy=0 dscp2pcp46 5 › setmoattribute ENTEL STN=0,QoSPolicy=0 dscp2pcp32 6 › setmoattribute ENTEL STN=0,QoSPolicy=0 dscp2pcp28 4 › setmoattribute ENTEL STN=0,QoSPolicy=0 dscp2pcp8 4 Finishing Configuration TCU Example: › checkconsistency asdf › commit asdf forcedcommit › endTransaction asdf Getting TCU logs Example: › log clear › traceallmoattributeinlog › log read 17 VERIFYING TCU STATUS Do ping test: › Ping from TCU to ME Router › Ping from TCU to OSS › Ping from TCU to FTP Time Server › Ping from TCU to NWIE and PGW CREACION DE BACKUP DE LA CONFIGURACION DE LA TCU 1.- CONFIGURAR TARJETA DE RED DE LA PC USADA: IP: 192.168.1.20 ("20" puede ser cualquier HOST) Mascara: 255.255.255.0 Gateway: 192.168.1.1 2.- HACER CORRER EL PROGRAMA FTP MINI sftp-server, activándolo en “START” User: tcu Password: tcu **** el password no se verá en la pantalla Port: 22 Routh Path: C:/tcu/ **** ubicación de la carpeta “tcu” en el disco “C:/”, donde se guarda el backup 3.- HACER CORRER EL PROGRAMA PUTTY, TERA TERM (telnet) 18 4.- CREAR EL BACKUP DE LA CONFIGURACION DE LA TCU, INDICANDO EL DISCO DE DESTINO Y SU CARPETA: BACKUP CONFIGURACION TCU Login: admin Password: hidden OSmon> startsession ENTEL OperationSucceeded OSmon> uselocalsftp on SFTP already set to local OP Port. OSmon> backup ENTEL sftp://tcu:[email protected]/miraflores.xml abcd OperationSucceeded OSmon> getsessionstatus ENTEL UploadCompleted OperationSucceeded OSmon> endsession ENTEL OperationSucceeded 19 ************************************************************************************************************************************* NOTA.- ENTEL es el nombre de usuario NOTA.- La dirección 192.168.1.20 corresponde a la tarjeta de red de la PC de usuario NOTA.- “miraflores” es el nombre que uno le asigna a la copia de la configuración de la TCU Salvada. NOTA.- toda copia salvada se la guarda con extensión “.xml” NOTA.- "abcd" es el password requerido para salvar la copia el mismo se requiere para la RESTAURACION NOTA.- ENTELes el nombre de usuario ************************************************************************************************************************************* 5.- LA COPIA DEL GUARDADA EN LA COMPUTADORA, SE LA COPIA EN LA MEMORIA DEL SIU, MEDIANTE EL PROCESO DE RESTAURACION, RESTORE: RESTORE CONFIGURACION TCU OSmon> startsession ENTEL OperationSucceeded OSmon> getsessionstatus ENTEL Idle OperationSucceeded OSmon> uselocalsftp on SFTP already set to local OP Port. OSmon> download ENTEL sftp://tcu:[email protected]/miraflores.xml OperationSucceeded OSmon> getsessionstatus ENTEL DownloadCompleted OperationSucceeded OSmon> restore ENTEL abcd OperationSucceeded OSmon> getsessionstatus ENTEL ActivationCompleted OperationSucceeded OSmon> endsession ENTEL OperationSucceeded 20
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