290 lines
7.5 KiB
C++
290 lines
7.5 KiB
C++
/*
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* Copyright 2008, 2009, 2010 Free Software Foundation, Inc.
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*
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* This software is distributed under the terms of the GNU Affero Public License.
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* See the COPYING file in the main directory for details.
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*
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* This use of this software may be subject to additional restrictions.
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* See the LEGAL file in the main directory for details.
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This program is free software: you can redistribute it and/or modify
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it under the terms of the GNU Affero General Public License as published by
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the Free Software Foundation, either version 3 of the License, or
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(at your option) any later version.
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This program is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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GNU Affero General Public License for more details.
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You should have received a copy of the GNU Affero General Public License
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along with this program. If not, see <http://www.gnu.org/licenses/>.
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*/
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#include <iostream>
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#include <fstream>
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#include <TRXManager.h>
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#include <GSML1FEC.h>
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#include <GSMConfig.h>
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#include <GSMSAPMux.h>
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#include <GSML3RRMessages.h>
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#include <GSMLogicalChannel.h>
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#include <SIPInterface.h>
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#include <Globals.h>
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#include <Logger.h>
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#include <CLI.h>
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#include <CLIServer.h>
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#include <CLIParser.h>
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#include <PowerManager.h>
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#include <RRLPQueryController.h>
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#include <Configuration.h>
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#include <assert.h>
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#include <unistd.h>
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#include <string.h>
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#include <signal.h>
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using namespace std;
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using namespace GSM;
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using namespace CommandLine;
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// Load configuration from a file.
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ConfigurationTable gConfig("OpenBTS.config");
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// All of the other globals that rely on the global configuration file need to
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// be declared here.
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// The global SIPInterface object.
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SIP::SIPInterface gSIPInterface;
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// Configure the BTS object based on the config file.
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// So don't create this until AFTER loading the config file.
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GSMConfig gBTS;
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// Our interface to the software-defined radio.
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TransceiverManager gTRX(1, gConfig.getStr("TRX.IP"), gConfig.getNum("TRX.Port"));
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pid_t gTransceiverPid = 0;
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void restartTransceiver()
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{
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// This is harmless - if someone is running OpenBTS they WANT no transceiver
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// instance at the start anyway.
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if (gTransceiverPid > 0) {
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LOG(INFO) << "RESTARTING TRANSCEIVER";
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kill(gTransceiverPid,SIGKILL); // TODO - call on ctrl-c (put in signal?)
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}
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// Start the transceiver binary, if the path is defined.
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// If the path is not defined, the transceiver must be started by some other process.
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const char *TRXPath = NULL;
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if (gConfig.defines("TRX.Path")) TRXPath=gConfig.getStr("TRX.Path");
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if (TRXPath) {
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const char *TRXLogLevel = gConfig.getStr("TRX.LogLevel");
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const char *TRXLogFileName = NULL;
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if (gConfig.defines("TRX.LogFileName")) TRXLogFileName=gConfig.getStr("TRX.LogFileName");
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gTransceiverPid = vfork();
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LOG_ASSERT(gTransceiverPid>=0);
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if (gTransceiverPid==0) {
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// Pid==0 means this is the process that starts the transceiver.
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execl(TRXPath,"transceiver",TRXLogLevel,TRXLogFileName,NULL);
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LOG(ERROR) << "cannot start transceiver";
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_exit(0);
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}
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}
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}
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void startBTS()
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{
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COUT("\nStarting the system...");
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if (gConfig.defines("Control.TMSITable.SavePath")) {
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gTMSITable.load(gConfig.getStr("Control.TMSITable.SavePath"));
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}
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LOG(ALARM) << "OpenBTS starting, ver " << VERSION << " build date " << __DATE__;
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restartTransceiver();
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// Start the SIP interface.
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gSIPInterface.start();
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// Start the transceiver interface.
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// Sleep long enough for the USRP to bootload.
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sleep(5);
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gTRX.start();
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// Set up the interface to the radio.
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// Get a handle to the C0 transceiver interface.
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ARFCNManager* radio = gTRX.ARFCN(0);
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// Tuning.
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// Make sure its off for tuning.
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radio->powerOff();
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// Set TSC same as BCC everywhere.
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radio->setTSC(gBTS.BCC());
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// Tune.
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radio->tune(gConfig.getNum("GSM.ARFCN"));
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// Turn on and power up.
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radio->powerOn();
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radio->setPower(gConfig.getNum("GSM.PowerManager.MinAttenDB"));
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// Set maximum expected delay spread.
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radio->setMaxDelay(gConfig.getNum("GSM.MaxExpectedDelaySpread"));
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// Set Receiver Gain
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radio->setRxGain(gConfig.getNum("GSM.RxGain"));
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// C-V on C0T0
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radio->setSlot(0,5);
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// SCH
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SCHL1FEC SCH;
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SCH.downstream(radio);
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SCH.open();
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// FCCH
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FCCHL1FEC FCCH;
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FCCH.downstream(radio);
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FCCH.open();
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// BCCH
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BCCHL1FEC BCCH;
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BCCH.downstream(radio);
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BCCH.open();
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// RACH
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RACHL1FEC RACH(gRACHC5Mapping);
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RACH.downstream(radio);
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RACH.open();
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// CCCHs
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CCCHLogicalChannel CCCH0(gCCCH_0Mapping);
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CCCH0.downstream(radio);
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CCCH0.open();
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CCCHLogicalChannel CCCH1(gCCCH_1Mapping);
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CCCH1.downstream(radio);
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CCCH1.open();
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CCCHLogicalChannel CCCH2(gCCCH_2Mapping);
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CCCH2.downstream(radio);
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CCCH2.open();
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// use CCCHs as AGCHs
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gBTS.addAGCH(&CCCH0);
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gBTS.addAGCH(&CCCH1);
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gBTS.addAGCH(&CCCH2);
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// C-V C0T0 SDCCHs
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SDCCHLogicalChannel C0T0SDCCH[4] = {
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SDCCHLogicalChannel(0,gSDCCH_4_0),
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SDCCHLogicalChannel(0,gSDCCH_4_1),
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SDCCHLogicalChannel(0,gSDCCH_4_2),
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SDCCHLogicalChannel(0,gSDCCH_4_3),
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};
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Thread C0T0SDCCHControlThread[4];
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for (int i=0; i<4; i++) {
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C0T0SDCCH[i].downstream(radio);
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C0T0SDCCHControlThread[i].start((void*(*)(void*))Control::DCCHDispatcher,&C0T0SDCCH[i]);
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C0T0SDCCH[i].open();
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gBTS.addSDCCH(&C0T0SDCCH[i]);
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}
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// Count configured slots.
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unsigned sCount = 1;
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bool halfDuplex = gConfig.defines("GSM.HalfDuplex");
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if (halfDuplex) { LOG(NOTICE) << "Configuring for half-duplex operation." ; }
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else { LOG(NOTICE) << "Configuring for full-duplex operation."; }
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if (halfDuplex) sCount++;
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// Create C-VII slots.
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for (int i=0; i<gConfig.getNum("GSM.NumC7s"); i++) {
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gBTS.createCombinationVII(gTRX,sCount/8,sCount);
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if (halfDuplex) sCount++;
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sCount++;
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}
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// Create C-I slots.
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for (int i=0; i<gConfig.getNum("GSM.NumC1s"); i++) {
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gBTS.createCombinationI(gTRX,sCount/8,sCount);
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if (halfDuplex) sCount++;
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sCount++;
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}
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// Set up idle filling on C0 as needed.
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while (sCount<8) {
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gBTS.createCombination0(gTRX,sCount/8,sCount);
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if (halfDuplex) sCount++;
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sCount++;
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}
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/*
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Note: The number of different paging subchannels on
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the CCCH is:
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MAX(1,(3 - BS-AG-BLKS-RES)) * BS-PA-MFRMS
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if CCCH-CONF = "001"
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(9 - BS-AG-BLKS-RES) * BS-PA-MFRMS
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for other values of CCCH-CONF
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*/
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// Set up the pager.
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// Set up paging channels.
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// HACK -- For now, use a single paging channel, since paging groups are broken.
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gBTS.addPCH(&CCCH2);
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// Be sure we are not over-reserving.
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LOG_ASSERT(gConfig.getNum("GSM.PagingReservations")<gBTS.numAGCHs());
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// OK, now it is safe to start the BTS.
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gBTS.start();
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LOG(INFO) << "system ready";
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}
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void stopBTS()
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{
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if (gConfig.defines("Control.TMSISavePath")) {
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gTMSITable.save(gConfig.getStr("Control.TMSISavePath"));
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}
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if (gTransceiverPid) kill(gTransceiverPid, SIGKILL);
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}
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int main(int argc, char *argv[])
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{
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srandom(time(NULL));
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COUT("\n\n" << gOpenBTSWelcome << "\n");
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if (gConfig.defines("Log.FileName")) {
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gSetLogFile(gConfig.getStr("Log.FileName"));
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}
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startBTS();
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if (strcasecmp(gConfig.getStr("CLI.Type"),"TCP") == 0) {
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ConnectionServerSocketTCP serverSock(gConfig.getNum("CLI.TCP.Port"),
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gConfig.getStr("CLI.TCP.IP"));
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runCLIServer(&serverSock);
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} else if (strcasecmp(gConfig.getStr("CLI.Type"),"Unix") == 0) {
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ConnectionServerSocketUnix serverSock(gConfig.getStr("CLI.Unix.Path"));
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runCLIServer(&serverSock);
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} else {
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runCLI(&gParser);
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}
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stopBTS();
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}
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// vim: ts=4 sw=4
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