LOCAL_C TInt NTRasThreadFunction(TAny* /*aThreadData*/) { _LIT(KCsyName,"LOOPBACK.CSY"); _LIT(KPortName,"LOOPBACK::1"); _LIT8(KServerText,"SERVER"); CTrapCleanup* cleanup; if ((cleanup=CTrapCleanup::New())==NULL) return KErrGeneral; RCommServ commServ; TInt r=commServ.Connect(); r=commServ.LoadCommModule(KCsyName); RComm comm; r=comm.Open(commServ,KPortName,ECommShared); TBuf8<6> readBuf; TRequestStatus stat0; comm.Read(stat0,readBuf); User::WaitForRequest(stat0) ; comm.Write(stat0,KServerText); User::WaitForRequest(stat0) ; delete cleanup; ASSERT(RThread().RequestCount()==0); return r; }
bool SerialPortInfo::isValid() const { if (!loadDevices()) return false; RCommServ server; TInt r = server.Connect(); if (r != KErrNone) return false; RComm port; TPtrC portName(static_cast<const TUint16*>(systemLocation().utf16()), systemLocation().length()); r = port.Open(server, portName, ECommExclusive); if (r == KErrNone) port.Close(); return r == KErrNone || r == KErrLocked; }
TInt CTestDriveDataCallCallBack::DriveETelApiL() /** * This method contains the real meat of the Client-side "Data Call dial-up networking * call-back" test code. This method sets up an outgoing data-call write test that is * terminated from the remote end. The test then quickly responds to an incoming call. * Data is received and the call is terminated again from the remote end. */ { _LIT(KDataLineName,"Data"); INFO_PRINTF1(_L("Opening Mobile Phone\n")); RLine line; INFO_PRINTF1(_L("Opening Data Line\n")); TESTL(line.Open(iPhone,KDataLineName)==KErrNone); INFO_PRINTF1(_L("Opening New Data Call\n")); RCall call; TESTL(call.OpenNewCall(line)==KErrNone); TRequestStatus reqStatus; RMobilePhone::TMMTableSettings tableSettings; tableSettings.iLocId=KInternetAccessPoint; RMobilePhone::TMMTableSettingsPckg tableSettingsPckg(tableSettings); iPhone.InitialiseMM(reqStatus , tableSettingsPckg); User::WaitForRequest(reqStatus); TESTL(reqStatus == KErrNone); // dial _LIT(KDialString,"+1234"); TESTL(call.Dial(KDialString)==KErrNone); INFO_PRINTF1(_L("Loan Data Call Port to Comm Server\n")); RCall::TCommPort commPort; TESTL(call.LoanDataPort(commPort)==KErrNone); RCommServ cs; TESTL(cs.Connect()==KErrNone); RComm port; TESTL(port.Open(cs,commPort.iPort,ECommShared)==KErrNone); // Transfer data TRequestStatus stat; port.Write(stat,KWriteTestCallBackData); User::WaitForRequest(stat); TESTL(stat.Int()==KErrNone); //-- a small delay between successive writes to the COM port //-- I had to insert it to fix mistiming between script execution and sending AT-commands to modem User::After(500000); port.Write(stat,KWriteTestCallBackData); User::WaitForRequest(stat); TESTL(stat.Int()==KErrNone); // Remote termination of call should have occurred in scripts, // close port and comm server port.Close(); cs.Close(); INFO_PRINTF1(_L("Reclaim Data Call Port from Comm Server\n")); TESTL(call.RecoverDataPort()==KErrNone); // Now wait for an incoming call... INFO_PRINTF1(_L("Wait to Answer incoming Data Call\n")); TESTL(call.AnswerIncomingCall()==KErrNone); INFO_PRINTF1(_L("Loan Data Call Port to Comm Server\n")); TESTL(call.LoanDataPort(commPort)==KErrNone); TESTL(cs.Connect()==KErrNone); TESTL(port.Open(cs,commPort.iPort,ECommShared)==KErrNone); port.Write(stat,KWriteTestCallBackData2); User::WaitForRequest(stat); TESTL(stat.Int()==KErrNone); //-- a small delay between successive writes to the COM port //-- I had to insert it to fix mistiming between script execution and sending AT-commands to modem User::After(500000); port.Write(stat,KWriteTestCallBackData2); User::WaitForRequest(stat); TESTL(stat.Int()==KErrNone); // Remote termination of call should have occurred in scripts, // close port and comm server port.Close(); cs.Close(); INFO_PRINTF1(_L("Reclaim Data Call Port from Comm Server\n")); TESTL(call.RecoverDataPort()==KErrNone); TInt32 ss; TInt8 bar; iPhone.GetSignalStrength(stat,ss,bar); // mmPhone.GetSignalStrength(stat,ss,bar); User::WaitForRequest(stat); TESTL(stat==KErrNone); // close iPhone, line and call line.Close(); call.Close(); return KErrNone; }
TInt CTestDriveRemoteHangupDial::DriveETelApiL() /** * This method contains the real meat of the Client-side "Data Call answer and remote * hang-up closely followed by a dial" test code. This method sets up to answer a * call and receive a data transfer. The call is then terminated from the remote end, * and then must quickly respond by dialing the remote end back. Data is then * transfered and the call is terminated again from the remote end. * * @return KErrNone. */ { _LIT(KMmPhoneName,"GsmPhone1"); _LIT(KDataLineName,"Data"); INFO_PRINTF1(_L("Opening Mobile Phone\n")); RMobilePhone mmPhone; TESTL(mmPhone.Open(iServer,KMmPhoneName)==KErrNone); RLine line; INFO_PRINTF1(_L("Opening Data Line\n")); TESTL(line.Open(iPhone,KDataLineName)==KErrNone); INFO_PRINTF1(_L("Opening New Data Call\n")); RCall call; TESTL(call.OpenNewCall(line)==KErrNone); TRequestStatus reqStatus; RMobilePhone::TMMTableSettings tableSettings; tableSettings.iLocId=KInternetAccessPoint; RMobilePhone::TMMTableSettingsPckg tableSettingsPckg(tableSettings); iPhone.InitialiseMM(reqStatus , tableSettingsPckg); User::WaitForRequest(reqStatus); TESTL(reqStatus == KErrNone); // // Initialization complete // // Now wait for an incoming call... INFO_PRINTF1(_L("Wait to Answer incoming Data Call\n")); TESTL(call.AnswerIncomingCall()==KErrNone); INFO_PRINTF1(_L("Loan Data Call Port to Comm Server\n")); RCall::TCommPort commPort; TESTL(call.LoanDataPort(commPort)==KErrNone); RCommServ cs; TESTL(cs.Connect()==KErrNone); RComm port; TESTL(port.Open(cs,commPort.iPort,ECommShared)==KErrNone); // Transfer data TRequestStatus stat; port.Write(stat,KWriteTestRemoteHangupData); User::WaitForRequest(stat); TESTL(stat.Int()==KErrNone); //-- a small delay between successive writes to the COM port //-- I had to insert it to fix mistiming between script execution and sending AT-commands to modem User::After(500000); port.Write(stat,KWriteTestRemoteHangupData); User::WaitForRequest(stat); TESTL(stat.Int()==KErrNone); // Remote termination of call should have occurred in scripts, // close port and comm server port.Close(); cs.Close(); INFO_PRINTF1(_L("Reclaim Data Call Port from Comm Server\n")); TESTL(call.RecoverDataPort()==KErrNone); // Now perform the user specified delay before making outgoing call... INFO_PRINTF2(_L("Start the %d sec delay before making outgoing call\n"), iVarDelay); User::After( (TTimeIntervalMicroSeconds32)(iVarDelay*1000000L) ); INFO_PRINTF2(_L("End of the delay before making outgoing call\n"), iVarDelay); // Now perform the outgoing call... // dial _LIT(KDialString,"+1234"); TESTL(call.Dial(KDialString)==KErrNone); INFO_PRINTF1(_L("Loan Data Call Port to Comm Server\n")); TESTL(call.LoanDataPort(commPort)==KErrNone); TESTL(cs.Connect()==KErrNone); TESTL(port.Open(cs,commPort.iPort,ECommShared)==KErrNone); // Transfer data port.Write(stat,KWriteTestRemoteHangupData2); User::WaitForRequest(stat); TESTL(stat.Int()==KErrNone); //-- a small delay between successive writes to the COM port //-- I had to insert it to fix mistiming between script execution and sending AT-commands to modem User::After(500000); port.Write(stat,KWriteTestRemoteHangupData2); User::WaitForRequest(stat); TESTL(stat.Int()==KErrNone); // Remote termination of call should have occurred in scripts, // close port and comm server port.Close(); cs.Close(); INFO_PRINTF1(_L("Reclaim Data Call Port from Comm Server\n")); TESTL(call.RecoverDataPort()==KErrNone); TInt32 ss; TInt8 bar=0; mmPhone.GetSignalStrength(stat,ss,bar); User::WaitForRequest(stat); TESTL(stat==KErrNone); // close iPhone, line and call mmPhone.Close(); line.Close(); call.Close(); return KErrNone; }
TInt CTestDriveSSData::DriveETelApiL() // // This function contains the real meat of the Client-side test code // { _LIT(KDataLineName,"Data"); _LIT(KMmPhoneName,"GsmPhone1"); RMobilePhone mmPhone; INFO_PRINTF1(_L("Opening Multimode Phone\n")); TESTL(mmPhone.Open(iServer,KMmPhoneName)==KErrNone); RLine line; INFO_PRINTF1(_L("Opening Data Line\n")); TESTL(line.Open(iPhone,KDataLineName)==KErrNone); INFO_PRINTF1(_L("Opening New Data Call\n")); RSpecialCall call; TESTL(call.OpenNewCall(line)==KErrNone); TRequestStatus stat,stat1,reqStatus; RMobilePhone::TMMTableSettings tableSettings; tableSettings.iLocId=KInternetAccessPoint; RMobilePhone::TMMTableSettingsPckg tableSettingsPckg(tableSettings); iPhone.InitialiseMM(reqStatus , tableSettingsPckg); User::WaitForRequest(reqStatus); TESTL(reqStatus == KErrNone); _LIT(KDialString,"+1234"); TInt status = call.Dial(KDialString); TESTL(status == KErrNone); TInt32 signalStrength; TInt8 bar = 0; mmPhone.GetSignalStrength(stat1,signalStrength,bar); RCall::TCommPort commPort; TESTL(call.LoanDataPort(commPort)==KErrNone); RCommServ cs; TESTL(cs.Connect()==KErrNone); RComm port; TESTL(port.Open(cs,commPort.iPort,ECommShared)==KErrNone); port.Write(stat,KDataSsWriteTestData); User::WaitForRequest(stat); TESTL(stat.Int()==KErrNone); //-- a small delay between successive writes to the COM port //-- I had to insert it to fix mistiming between script execution and sending AT-commands to modem User::After(500000); port.Write(stat,KDataSsWriteTestData); User::WaitForRequest(stat); TESTL(stat.Int()==KErrNone); port.Close(); cs.Close(); call.RecoverDataPort(); User::After(500000L); User::WaitForRequest(stat1); // Result of GetSignalStrength() TESTL(stat1==KErrAccessDenied); TESTL(call.HangUp()==KErrNone); mmPhone.Close(); line.Close(); call.Close(); return KErrNone; }
TInt CTestDriveDataCallRemoteTerm::DriveETelApiL() /** * This method contains the real meat of the Client-side the "Data Call set-up, data * transfer and remote termination" test code. This method sets up to make a data-call * and then transfer data. After the data transfer, the call is terminated by the remote end. * * @return KErrNone. */ { _LIT(KMmPhoneName,"GsmPhone1"); _LIT(KDataLineName,"Data"); INFO_PRINTF1(_L("Opening Mobile Phone\n")); RMobilePhone mmPhone; TESTL(mmPhone.Open(iServer,KMmPhoneName)==KErrNone); RLine line; INFO_PRINTF1(_L("Opening Data Line\n")); TESTL(line.Open(iPhone,KDataLineName)==KErrNone); INFO_PRINTF1(_L("Opening New Data Call\n")); RCall call; TESTL(call.OpenNewCall(line)==KErrNone); TRequestStatus reqStatus; RMobilePhone::TMMTableSettings tableSettings; tableSettings.iLocId=KInternetAccessPoint; RMobilePhone::TMMTableSettingsPckg tableSettingsPckg(tableSettings); iPhone.InitialiseMM(reqStatus , tableSettingsPckg); User::WaitForRequest(reqStatus); TESTL(reqStatus == KErrNone); // dial _LIT(KDialString,"+1234"); TESTL(call.Dial(KDialString)==KErrNone); INFO_PRINTF1(_L("Loan Data Call Port to Comm Server\n")); RCall::TCommPort commPort; TESTL(call.LoanDataPort(commPort)==KErrNone); RCommServ cs; TESTL(cs.Connect()==KErrNone); RComm port; TESTL(port.Open(cs,commPort.iPort,ECommShared)==KErrNone); // Transfer data TRequestStatus stat; port.Write(stat,KWriteTestRemoteData); User::WaitForRequest(stat); TESTL(stat.Int()==KErrNone); //-- a small delay between successive writes to the COM port //-- I had to insert it to fix mistiming between script execution and sending AT-commands to modem User::After(500000); port.Write(stat,KWriteTestRemoteData); User::WaitForRequest(stat); TESTL(stat.Int()==KErrNone); // Remote termination of call should have occurred in scripts, // close port and comm server port.Close(); cs.Close(); INFO_PRINTF1(_L("Reclaim Data Call Port from Comm Server\n")); TESTL(call.RecoverDataPort()==KErrNone); TInt32 ss; TInt8 bar=0; mmPhone.GetSignalStrength(stat,ss,bar); User::WaitForRequest(stat); TESTL(stat==KErrNone); // close iPhone, line and call mmPhone.Close(); line.Close(); call.Close(); return KErrNone; }
// Do the example LOCAL_C void doExampleL() { _LIT(KStatus0,"Connect to file server\n"); _LIT(KStatus1,"Connect to comm server\n"); _LIT(KStatus2,"Load IrCOMM.CSY\n"); _LIT(KStatus3,"Open IrCOMM::0\n"); _LIT(KStatus4,"Write to IrCOMM::0\n"); _LIT(KStatus5,"Close IrCOMM::0\n"); _LIT(KStatus6,"Close server connection\n"); _LIT(KIrCOMM,"IrCOMM"); _LIT(KIrCOMM0,"IrCOMM::0"); const TTimeIntervalMicroSeconds32 KTimeOut(4000000); //time-out value console->Printf(KStatus0); // force a link to the file server // so that we're sure the loader // will be present RFs f; User::LeaveIfError(f.Connect()); f.Close(); // Initialisation Init(); RCommServ server; // Connect to the comm server console->Printf(KStatus1); server.Connect(); // Load the IrCOMM comm module // C32 will automatically search \System\Libs // on all drives for IrCOMM.CSY console->Printf(KStatus2); TInt ret=server.LoadCommModule(KIrCOMM); //test(ret==KErrNone); User::LeaveIfError(ret); RComm commPort; // Open the IrCOMM port unit 0 (the only one supported) // Open port in exclusive mode because we don't // have any access control code. console->Printf(KStatus3); ret=commPort.Open(server,KIrCOMM0,ECommExclusive); //test(ret==KErrNone); User::LeaveIfError(ret); TRequestStatus status; // Write to the IrCOMM port - the first write // takes a long time as the IrDA connection is // set up in response to this request. Subsequent // writes to IrCOMM are very fast. console->Printf(KStatus4); commPort.Write(status,KTimeOut,DATA_STRING); User::WaitForRequest(status); //test(status.Int()==KErrNone); User::LeaveIfError(status.Int()); // Close port console->Printf(KStatus5); commPort.Close(); console->Printf(KStatus6); server.Close(); }