--- /dev/null Thu Jan 01 00:00:00 1970 +0000
+++ b/fax/faxclientandserver/FAXSVR/CFAX1.CPP Tue Feb 02 01:41:59 2010 +0200
@@ -0,0 +1,1855 @@
+// Copyright (c) 1997-2009 Nokia Corporation and/or its subsidiary(-ies).
+// All rights reserved.
+// This component and the accompanying materials are made available
+// under the terms of "Eclipse Public License v1.0"
+// which accompanies this distribution, and is available
+// at the URL "http://www.eclipse.org/legal/epl-v10.html".
+//
+// Initial Contributors:
+// Nokia Corporation - initial contribution.
+//
+// Contributors:
+//
+// Description:
+//
+
+#include "FAXSERV.H"
+#include "fax_reversebytes.h"
+#include "FAXMDRV.H"
+#include "FAXMODEM.H"
+
+
+// this module has three parts
+// first receive routines rx
+// second transmit routines tx
+// third utilities
+
+/********************************************************************/
+
+CFaxModemDriver *CFaxClass1::NewLC (TFaxServerSessionSettings * aFaxServerSessionSettings, RFax::TProgress & aProgress)
+{
+ CFaxModemDriver *self = new (ELeave) CFaxClass1;
+ CleanupStack::PushL (self);
+ self->ConstructL (aFaxServerSessionSettings, aProgress);
+ return self;
+}
+
+CFaxModemDriver *CFaxClass1::NewL (TFaxServerSessionSettings * aFaxServerSessionSettings, RFax::TProgress & aProgress)
+{
+ CFaxModemDriver *self = NewLC (aFaxServerSessionSettings, aProgress);
+ CleanupStack::Pop ();
+ return self;
+}
+/********************************************************************/
+
+// here we set up a fax receive - Phase A
+// this does require HDLC frames to be sent
+
+TInt CFaxClass1::RxConnectL ()
+{
+ TInt faxIdFcf; // CSI or CIG
+ TInt capabilityFcf; // DIS or DTC
+ TBuf8 < 3 > faxIdTxt; // CSI or CIG
+ TBuf8 < 3 > capabilityTxt; // DIS or DTC
+
+ TInt i, x;
+ iDisBytes = 3;
+ iOldFrame.Zero ();
+
+ // we query the modem to find out what its speed capabilities are
+
+ CheckCadenceExportL (_L8 ("AT+FRM=?\r"));
+ // coverity[check_return]
+ iModem->ImportL (iResults, 2);
+ iModem->iOurMessage.Format (_L8 ("%S"), &iResults);
+ iModem->ProgressUpdateL ();
+ iModem->GetMatchL (_L8 ("OK"), 1);
+
+ // the available speeds are stored in iResults
+ // we set our proposed speed to the highest compatible with faxini settings
+
+ if ((iResults.FindF (_L8 ("24"))) >= 0)
+ iActualFaxSpeed = 24;
+ else
+ return (KFaxErrModemNotWorking);
+ if ((iFaxServerSessionSettings->iMaxSpeed) > 2400)
+ if ((iResults.FindF (_L8 ("48"))) >= 0)
+ iActualFaxSpeed = 48;
+ if ((iFaxServerSessionSettings->iMaxSpeed) > 4800)
+ if ((iResults.FindF (_L8 ("96"))) >= 0)
+ iActualFaxSpeed = 96;
+ if ((iFaxServerSessionSettings->iMaxSpeed) > 9600)
+ if ((iResults.FindF (_L8 ("145"))) >= 0)
+ iActualFaxSpeed = 145;
+
+ // we now prepare our DIS/DTC answer capabilities frame
+ // the resolution and compression are taken from our settings
+
+ for (x = 0; x < 5; x++)
+ iDisFrame.byte[x] = 0;
+ iDisFrame.bit.b09 = 0;
+ iDisFrame.bit.b10 = 1;
+ iDisFrame.bit.b20 = 1;
+ iDisFrame.bit.b21 = 1;
+ iDisFrame.bit.b22 = 1;
+ iDisFrame.bit.b23 = 1;
+ if (iFaxServerSessionSettings->iRxResolution == EFaxFine)
+ iDisFrame.bit.b15 = 1;
+ if (iFaxServerSessionSettings->iRxCompression == EModifiedRead)
+ iDisFrame.bit.b16 = 1;
+
+// if (iFaxServerSessionSettings->iMode & KFaxWaitForRing)
+// {
+ // while ((iModem->GetMatchL (_L8 ("RING"), 3)) == 0);
+ // iTimeOfLastRing.UniversalTime();
+// }
+// else
+// {
+ if (((iFaxServerSessionSettings->iMode & KFaxOffHook) == 0) && (!(iFaxServerSessionSettings->iMode & KFaxWaitForRing)))
+// if ((iFaxServerSessionSettings->iMode & KFaxOffHook) == 0)
+ DialFaxOnDemandL ();
+// }
+
+ // if we a trying to poll, we've dialled, so we wait for a DIS from the answerer
+ // otherwise we do an answer ourselves
+
+ if (iFaxServerSessionSettings->iMode & KFaxPoll)
+ {
+ faxIdFcf = KT30_CIG;
+ faxIdTxt.Copy (_L8 ("CIG"));
+ capabilityFcf = KT30_DTC;
+ capabilityTxt.Copy (_L8 ("DTC"));
+ iModem->iOurMessage.Format (_L8 ("about to poll fax"));
+
+ }
+ else
+ {
+ faxIdFcf = KT30_CSI;
+ faxIdTxt.Copy (_L8 ("CSI"));
+ capabilityFcf = KT30_DIS;
+ capabilityTxt.Copy (_L8 ("DIS"));
+ CheckCadenceExportL (_L8 ("ATA\r"));
+ iModem->iOurMessage.Format (_L8 ("about to receive fax"));
+ }
+
+ iModem->iProgress.iPhase = ECallEstablishment;
+ iModem->ProgressUpdateL ();
+
+ for (;;)
+ {
+ if (!(iModem->ImportL (iResults, KT30_T1)))
+ return (KFaxErrCannotConnect);
+ iModem->iOurMessage.Format (_L8 ("%S"), &iResults);
+ iModem->ProgressUpdateL ();
+ if ((iResults.FindF (_L8 ("NO DIALTONE"))) >= 0 ||
+ iResults.FindF (_L8 ("NO DIAL TONE")) >= 0)
+ return (KFaxErrNoDialTone);
+ if ((iResults.FindF (_L8 ("BUSY"))) >= 0)
+ return (KFaxErrBusy);
+ if ((iResults.FindF (_L8 ("NO ANSWER"))) >= 0)
+ return (KFaxErrNoAnswer);
+ if ((iResults.FindF (_L8 ("NO CARRIER"))) >= 0)
+ return (KFaxErrNoCarrier);
+ if ((iResults.FindF (_L8 ("CONNECT"))) >= 0)
+ break;
+ }
+
+ if (iFaxServerSessionSettings->iMode & KFaxPoll)
+ User::LeaveIfError (RxPrePollL ());
+ else
+ {
+ iModem->iOurMessage.Format (_L8 ("Fax call detected"));
+ iModem->ProgressUpdateL ();
+ }
+
+ iModem->iOurMessage.Format (_L8 ("sending %S"), &faxIdTxt);
+ iModem->ProgressUpdateL ();
+ iFrame.Zero ();
+ iFrame.Append (KT30_CTLNXT);
+ iFrame.Append (faxIdFcf);
+ for (i = 20; i > iFaxServerSessionSettings->iFaxId.Length (); i--)
+ iFrame.Append (0x20);
+ for (i = iFaxServerSessionSettings->iFaxId.Length (); i;)
+ iFrame.Append (iFaxServerSessionSettings->iFaxId[--i]);
+ if (SendframeL (iFrame) != 1)
+ return (KFaxErrCSIorCIG);
+
+ // we follow that with our DIS frame
+
+ iModem->iOurMessage.Format (_L8 ("sending %S"), &capabilityTxt);
+ iModem->iProgress.iPhase = ESessionNegotiation;
+ iModem->ProgressUpdateL ();
+ iDisFrame.byte[1] &= 0xc3;
+ switch (iActualFaxSpeed)
+ {
+ case 48:
+ iDisFrame.byte[1] |= 0x08;
+ break; /* V.27 4800+2400 */
+ case 96:
+ iDisFrame.byte[1] |= 0x0c;
+ break; /* & V.29 9600+7200 */
+ case 145:
+ iDisFrame.byte[1] |= 0x2c;
+ break; /* & V.17 14400+1200+9600+7200 */
+ default:
+ iDisFrame.byte[1] |= 0x00; /* V.27 fallback 2400 only */
+ }
+ iFrame.Zero ();
+ iFrame.Append (KT30_CTLLST);
+ iFrame.Append (capabilityFcf);
+ for (i = 0; i < iDisBytes; i++)
+ iFrame.Append (iDisFrame.byte[i]);
+ if (SendframeL (iFrame) != 1)
+ return (KFaxErrDISorDTC);
+
+ // and now we await the negotiation from the caller
+ // note that we'll resend the last frame (DIS or DTC) if we get no reply
+ // until we get a TSI or a DCS (which show the DIS or DTC was received)
+
+ return (RxPrePageL ());
+}
+
+/********************************************************************/
+
+// here we prepare for receiving via a poll
+ // we have received a DIS in iResults, so check the polling bit
+ // iResults[0] is the address
+ // iResults[1] is the control
+ // iResults[2] is the FCF
+ // iResults[3] has bits 1-8 of the FIF
+ // iResults[4] has bits 9-16 of the FIF
+ // the polling bit is bit 9
+
+TInt CFaxClass1::RxPrePollL ()
+{
+ TInt pollDocsAvailable = 0;
+ TInt i;
+ iResults.Copy (_L8 ("CALL JUST ANSWERED"));
+ for (;;)
+ {
+ if (GetframeL (iResults) == 0)
+ return (KFaxErrFrameFail);
+ iModem->ProgressUpdateL ();
+
+ // the third byte in the frame is the FCF (fax control field)
+
+ switch ((TUint8) iResults[2])
+ {
+ case 0x20: // this marks a non-standard frame, which we ignore
+ iModem->iOurMessage.Format (_L8 ("NSF nonstandard facilities Frame"));
+ iModem->ProgressUpdateL ();
+ break;
+
+ case 0x40: // this marks the receiver ID
+ iModem->iOurMessage.Format (_L8 ("CSI identity Frame"));
+ iModem->ProgressUpdateL ();
+ iModem->iProgress.iAnswerback.Zero ();
+ for (i = 22; i > 2; i--)
+ iModem->iProgress.iAnswerback.Append (iResults[i]);
+ iModem->iOurMessage.Format (_L8 ("Remote fax ID is %S"), &iModem->iProgress.iAnswerback);
+ iModem->ProgressUpdateL ();
+ break; // the capability frame should follows
+
+ case 0x80: // this marks the receiver capability frame
+ iModem->iOurMessage.Format (_L8 ("DIS capability Frame"));
+ iModem->ProgressUpdateL ();
+ iFcfXbit = 1; // we've received a DIS, so set the X bit
+ pollDocsAvailable = iResults[4] & 0x01; // and record the polling bit too
+ break;
+
+ case 0xfa: // this means we were asked to disconnect
+ RxDCNL ();
+ return (KFaxErrRemoteDCN);
+
+ default:;
+ }
+
+ // if a final frame we return
+ // else we just issue AT+FRH=3 and continue
+
+ if (iResults[1] & 0x10)
+ break;
+ iModem->ExportL (_L8 ("AT+FRH=3\r"));
+ }
+
+ if (pollDocsAvailable)
+ {
+ iModem->iOurMessage.Format (_L8 ("Polling bit set"));
+ iModem->ProgressUpdateL ();
+ return (KErrNone);
+ }
+ return (KFaxNothingToPoll); // if the other machine isn't pollable we exit
+}
+/********************************************************************/
+
+// here we negotiate a fax reception - Phase B
+ // this function is always called after we have connected. However,
+ // it can be called at other times if we have requested a renegotiation
+ // or if the sender want to change the fax parameters
+
+TInt CFaxClass1::RxPrePageL ()
+{
+ TInt x, z, i, nullCounter;
+ TUint8 thisChar, lastChar;
+ TInt ticks;
+
+ for (;;)
+ {
+ iModem->ExportL (_L8 ("AT+FRH=3\r"));
+ if (GetframeL (iResults) == 0)
+ return (KFaxErrFrameFail);
+ iModem->iOurMessage.Format (_L8 ("Response received"));
+ iModem->ProgressUpdateL ();
+
+ // analyse the possible responses
+
+ switch ((TUint8) iResults[2])
+ {
+ case 0x42: // this is the sender ID - their capability should follow
+
+ iModem->iOurMessage.Format (_L8 ("TSI identity Frame"));
+ iModem->ProgressUpdateL ();
+ iModem->iProgress.iAnswerback.Zero ();
+ for (i = 22; i > 2; i--)
+ iModem->iProgress.iAnswerback.Append (iResults[i]);
+ iModem->iOurMessage.Format (_L8 ("Remote fax ID is %S"), &iModem->iProgress.iAnswerback);
+ iModem->ProgressUpdateL ();
+ break;
+
+ case 0x82: // here's the sender capability frame - the most complex case
+
+ iModem->iOurMessage.Format (_L8 ("DCS capability Frame"));
+ iModem->ProgressUpdateL ();
+ for (i = 0; i < 5; i++)
+ iDcsFrame.byte[i] = (TUint8) iResults[i + 3];
+
+ // we have the DCS saved - we analyse it for speed and resolution and compression
+
+ if (iDcsFrame.bit.b24 == 0)
+ iDcsFrame.byte[3] = 0;
+
+ iModem->iProgress.iResolution = TFaxResolution (iDcsFrame.bit.b15);
+ iModem->iProgress.iCompression = TFaxCompression (iDcsFrame.bit.b16);
+
+ switch (iDcsFrame.byte[1] & 0x3c)
+ {
+ case 0x08:
+ iActualFaxSpeed = 48;
+ break; /* 4800 V.27 */
+ case 0x04:
+ iActualFaxSpeed = 96;
+ break; /* 9600 V.29 */
+ case 0x0c:
+ iActualFaxSpeed = 72;
+ break; /* 7200 V.29 */
+ case 0x24:
+ iActualFaxSpeed = 97;
+ break; /* 9600 V.17 */
+ case 0x2c:
+ iActualFaxSpeed = 73;
+ break; /* 7200 V.17 */
+ case 0x20:
+ iActualFaxSpeed = 145;
+ break; /* 14400 V.17 */
+ case 0x28:
+ iActualFaxSpeed = 121;
+ break; /* 12000 V.17 */
+ default:
+ iActualFaxSpeed = 24; /* 2400 V.27 */
+ }
+
+ i = (iActualFaxSpeed & (~1));
+
+ // now we prepare to recieve the training frame that follows the DCS
+ // we try to get the carrier at this speed three times before giving up
+
+ for (x = 0; x < 3; x++)
+ {
+ iModem->iOurMessage.Format (_L8 ("setting %d00"), i);
+ iModem->iProgress.iSpeed = (i * 100);
+ iModem->ProgressUpdateL ();
+
+ iResults.Copy (_L8 ("AT+FRM="));
+ iResults.AppendNum (iActualFaxSpeed);
+ iResults.Append (_L8 ("\r"));
+ iModem->ExportL (iResults);
+ z = FramestatL ();
+ if (z == 1)
+ break;
+ if (z != 0)
+ {
+ iModem->TxcharL (Kcan);
+ if (FramestatL () < 0)
+ iModem->TxcharL (Kreturn);
+ ReceiveSilenceL ();
+ iModem->iOurMessage.Format (_L8 ("sending FTT"));
+ iModem->ProgressUpdateL ();
+ iFrame.Append (KT30_FTT);
+ if (SendframeL (iFrame) == 0)
+ return (KFaxErrTrainFail);
+ break;
+ }
+ }
+ if (x == 3)
+ return (KFaxErrAtNegotiatedSpeed);
+
+ // once we have a carrier, we start receiving the training frame
+ // we look for a clear 750 milliseconds of zeros ending in <dle><etx>
+ // this is determined by calculating the number of number of null bytes
+ // taken at any given speed
+
+ iModem->iOurMessage.Format (_L8 ("training .... "));
+ iModem->ProgressUpdateL ();
+
+ ticks = (CLK_TCK * 165) / 100; // bug fix - was originally "CLK_TICK * (165/100)"
+ // This failed because 165/100 is rounded to 1 because
+ // ticks is an integer and that made the fax server
+ // training for 1 second instead of 1.5
+ for (lastChar = 0, nullCounter = 0;;)
+ {
+ if (iModem->RxcharWaitL (ticks) == 0)
+ {
+ break;
+ }
+ thisChar = iModem->iReadone[0];
+ if (nullCounter != (i * 75 / 8))
+ {
+ if (thisChar != 0)
+ nullCounter = 0;
+ else
+ ++nullCounter;
+ }
+ if ((thisChar == Ketx) && (lastChar == Kdle))
+ break;
+ lastChar = thisChar;
+ }
+ if (FramestatL () < 0)
+ {
+ iModem->TxcharL (Kcan);
+ if (FramestatL () < 0)
+ iModem->TxcharL (Kreturn);
+ }
+
+ // now we check the count of null bytes and either send FTT
+ // (in which case the sender will send a new DCS and try again)
+ // or else send CFR confirmation and wait for the first page
+
+ iFrame.Zero ();
+ iFrame.Append (KT30_CTLLST);
+ if (nullCounter == (i * 75 / 8))
+ {
+ iModem->iOurMessage.Format (_L8 ("training OK"));
+ iModem->ProgressUpdateL ();
+ }
+ else
+ {
+ ReceiveSilenceL ();
+ iModem->iOurMessage.Format (_L8 ("sending FTT"));
+ iModem->ProgressUpdateL ();
+ iFrame.Append (KT30_FTT);
+ if (SendframeL (iFrame) == 0)
+ return (KFaxErrTrainFail);
+ break;
+ }
+
+ iModem->iOurMessage.Format (_L8 ("sending CFR"));
+ iModem->ProgressUpdateL ();
+
+ iFrame.Append (KT30_CFR);
+ if (SendframeL (iFrame) == 0)
+ return (KFaxErrCFR);
+
+ // after we send a CFR, we interpret a failure to
+ // establish a high-speed carrier as an indication
+ // that the sender didn't get our CFR, and will
+ // act as if they received an FTT
+
+ if (RxSetHighSpeedL () != KErrNone)
+ break;
+ return (KErrNone);
+
+ // lastly, we cater for the sender disconnecting us,
+ // either because we couldn't train or because our
+ // capabilities were wrong, or because they were only trying
+ // to hack our fax machine
+
+ case 0xfa:
+ RxDCNL ();
+ return (KFaxErrRemoteDCN);
+
+ default:;
+ }
+ }
+}
+/********************************************************************/
+
+// this is a small function to set a class 1 fax modem to phase C
+ // reception speed (found in iActualFaxSpeed) in preparation for
+ // receiving data. This is called before the first page and also
+ // between pages. If the modem can't find a high speed carrier, we
+ // leave the caller to decide what action to take - if we'd just sent a
+ // page confirmation we should try resending our last negotiating frame
+ // in case it was lost, but if we have just sent a CFR, we wait for the
+ // sender to retrain.
+
+// If the protocol is out of sync and we get a low speed carrier
+ // then we'll get a +FCERROR response (same as ERROR)
+
+TInt CFaxClass1::RxSetHighSpeedL ()
+{
+ TInt x, portSpeed;
+ switch (iActualFaxSpeed)
+ {
+ case 145:
+ x = 144;
+ portSpeed = 146;
+ break;
+ case 121:
+ x = 120;
+ portSpeed = 122;
+ break;
+ case 97:
+ x = 96;
+ portSpeed = 98;
+ break;
+ case 73:
+ x = 72;
+ portSpeed = 74;
+ break;
+ default:
+ x = portSpeed = iActualFaxSpeed;
+ }
+
+ iModem->iOurMessage.Format (_L8 ("setting %d00"), x);
+ iModem->iProgress.iSpeed = (x * 100);
+ iModem->ProgressUpdateL ();
+
+ iResults.Copy (_L8 ("AT+FRM="));
+ iResults.AppendNum (portSpeed);
+ iResults.Append (_L8 ("\r"));
+ iModem->ExportL (iResults);
+
+ x = FramestatL (KT30_T2); // always wait 6 seconds before a timeout
+ if (x == 1)
+ {
+ return (RxStartPageL ());
+ }
+ if (x != 0)
+ {
+ iModem->TxcharL (Kcan);
+ if (FramestatL () < 0)
+ iModem->TxcharL (Kreturn);
+ }
+ return (KFaxErrAtNegotiatedSpeed);
+}
+/********************************************************************/
+
+// after page data has been received, we go back to 300 bps negotiation
+// for the post-page message which the transmitter sends 75ms after the
+// end of the data
+
+TInt CFaxClass1::RxPostPageL ()
+{
+ TInt i, x = 0;
+ iOldFrame.Zero ();
+ iModem->iProgress.iPhase = EPostPageStatus;
+ iModem->ProgressUpdateL ();
+
+ // wait for the modem to react to the end of fax data before proceeding
+
+ if ((iModem->GetMatchL (_L8 ("NO CARRIER"), 5)) == 0)
+ return (KFaxErrCannotEndData);
+
+ for (;;)
+ {
+
+ // we start by requesting a frame
+
+ iModem->ExportL (_L8 ("AT+FRH=3\r"));
+ if (GetframeL (iResults) == 0)
+ {
+ if (x++ == 3)
+ return (KFaxErrFrameFail);
+ continue;
+ }
+
+ iModem->iOurMessage.Format (_L8 ("Response received"));
+ iModem->ProgressUpdateL ();
+
+ // now we work out what it is
+
+ switch ((TUint8) iResults[2])
+ {
+
+ // the first case is where the last page was the end of the fax
+
+ case 0x3e: // we recognize PRI-Q frames but treat them like non-PRI-Q variants
+ iModem->iOurMessage.Format (_L8 ("PRI-Q bit set"));
+ iModem->ProgressUpdateL ();
+ // fallthrough
+ case 0x2e:
+ iModem->iOurMessage.Format (_L8 ("EOP end of page %u and transmission"), iModem->iProgress.iPage);
+ iModem->ProgressUpdateL ();
+ iModem->iOurMessage.Format (_L8 ("sending MCF"));
+ iModem->ProgressUpdateL ();
+ iFrame.Zero ();
+ iFrame.Append (KT30_CTLLST);
+ iFrame.Append (KT30_MCF);
+ if (SendframeL (iFrame) == 0)
+ return (KFaxErrMCF);
+
+ // now it isn't an error if get a DCN and hang up
+ // so, loop and wait for it
+
+ iModem->iProgress.iPhase = EDisconnection;
+ continue;
+
+ // the second case is where the sender demands a renegotiation
+
+ case 0x9e: // we recognize PRI-Q frames but treat them like non-PRI-Q variants
+ iModem->iOurMessage.Format (_L8 ("PRI-Q bit set"));
+ iModem->ProgressUpdateL ();
+ // fallthrough
+ case 0x8e:
+ iModem->iOurMessage.Format (_L8 ("EOM end of page %u and document"), iModem->iProgress.iPage);
+ iModem->ProgressUpdateL ();
+ iModem->iOurMessage.Format (_L8 ("sending MCF"));
+ iModem->ProgressUpdateL ();
+ iFrame.Zero ();
+ iFrame.Append (KT30_CTLLST);
+ iFrame.Append (KT30_MCF);
+ if (SendframeL (iFrame) == 0)
+ return (KFaxErrMCF);
+ iModem->iProgress.iPhase = ESessionNegotiation;
+ iOldFrame.Zero ();
+ iOldFrame.Append (KT30_CTLLST);
+ iOldFrame.Append (KT30_DIS);
+ for (i = 0; i < iDisBytes; i++)
+ iOldFrame.Append (iDisFrame.byte[i]);
+ return (RxPrePageL ());
+
+ // the third case is where another page is going to follow
+
+ case 0x5e: // we recognize PRI-Q frames but treat them like non-PRI-Q variants
+
+ iModem->iOurMessage.Format (_L8 ("PRI-Q bit set"));
+ iModem->ProgressUpdateL ();
+ // fallthrough
+ case 0x4e:
+ iModem->iOurMessage.Format (_L8 ("MPS end of page %u"), iModem->iProgress.iPage);
+ iModem->ProgressUpdateL ();
+
+ iModem->iOurMessage.Format (_L8 ("sending MCF"));
+ iModem->ProgressUpdateL ();
+
+ iFrame.Zero ();
+ iFrame.Append (KT30_CTLLST);
+ iFrame.Append (KT30_MCF);
+ if (SendframeL (iFrame) == 0)
+ return (KFaxErrMCF);
+
+ for (x = 0; x < 3; x++)
+ {
+ if (RxSetHighSpeedL () == KErrNone)
+ return (KErrNone);
+ iModem->iOurMessage.Format (_L8 ("Resending last response .... "));
+ iModem->ProgressUpdateL ();
+ if (SendframeL (iOldFrame) == 0)
+ return (KFaxErrMCF);
+ }
+ return (KFaxErrMCF);
+
+ // the fourth case is where we are told to disconnect
+ // it's an error if we hadn't been expecting it
+
+ case 0xfa:
+ if (iModem->iProgress.iPhase == EDisconnection)
+ {
+ RxDCNL ();
+ return (KErrNone);
+ }
+
+ RxDCNL ();
+ return (KFaxErrRemoteDCN);
+
+ // the fifth case is where we see a negotiation frame
+ // the sixth case is where we see a negotiation frame
+ // our supposed page may have been a mistake
+ // just go back to phase B and try to recover that way
+
+ case 0x42: // TSI frame
+ case 0x82: // DCS frame
+ if ((TUint8) iResults[2] == 0x42)
+ iModem->iOurMessage.Format (_L8 ("TSI identity"));
+ else
+ iModem->iOurMessage.Format (_L8 ("DCS capability"));
+ iModem->iOurMessage.Append (_L8 (" Frame - renegotiating session parameters"));
+ iModem->ProgressUpdateL ();
+ iModem->iProgress.iPhase = ESessionNegotiation;
+ return (RxPrePageL ());
+
+ // the last case is where we see an unsupported frame
+ // if it is a final frame we ask for a repeat via CRP
+
+ default:
+ if (SendCRPL () != KErrNone)
+ return (KFaxErrCRP);
+ }
+ }
+}
+/********************************************************************/
+
+// here we have detected a disconnection frame so we hang up the modem
+
+void CFaxClass1::RxDCNL ()
+{
+ iModem->iOurMessage.Format (_L8 ("DCN disconnect Frame"));
+ iModem->iProgress.iPhase = EDisconnection;
+ iModem->ProgressUpdateL ();
+}
+/********************************************************************/
+
+// here we send a DCN disconnect frame and then hang up the modem
+
+TInt CFaxClass1::TxDCNL ()
+{
+ iModem->iOurMessage.Format (_L8 ("sending DCN"));
+ iModem->iProgress.iPhase = EDisconnection;
+ iModem->ProgressUpdateL ();
+ ReceiveSilenceL ();
+ iFrame.Zero ();
+ iFrame.Append (KT30_CTLLST);
+ iFrame.Append (KT30_DCN);
+ if (SendframeL (iFrame) == 0)
+ return (KFaxErrDCN);
+ return (KErrNone);
+}
+/********************************************************************/
+
+// here we set up a fax transmit - Phase A
+ // there's no HDLC stuff here
+
+TInt CFaxClass1::TxConnectL ()
+{
+
+ // we query the modem to find out what its speed capabilities are
+ iModem->ExportL (_L8 ("AT+FTM=?\r"));
+ // coverity[check_return]
+ iModem->ImportL (iResults, 2);
+ iModem->iOurMessage.Format (_L8 ("%S"), &iResults);
+ iModem->ProgressUpdateL ();
+ iModem->GetMatchL (_L8 ("OK"), 1);
+
+ // the available speeds are stored in iResults
+ // we set our proposed speed to the highest compatible with faxini settings
+
+ if ((iResults.FindF (_L8 ("24"))) >= 0)
+ iActualFaxSpeed = 24;
+ else
+ return (KFaxErrModemNotWorking);
+ if ((iFaxServerSessionSettings->iMaxSpeed) > 2400)
+ if ((iResults.FindF (_L8 ("48"))) >= 0)
+ iActualFaxSpeed = 48;
+ if ((iFaxServerSessionSettings->iMaxSpeed) > 4800)
+ if ((iResults.FindF (_L8 ("96"))) >= 0)
+ iActualFaxSpeed = 96;
+ if ((iFaxServerSessionSettings->iMaxSpeed) > 9600)
+ if ((iResults.FindF (_L8 ("145"))) >= 0)
+ iActualFaxSpeed = 145;
+
+ // we now issue our ATD command, and if we aren't in immediate
+ // transmit mode (already off hook) then we dial a number
+
+ iModem->ExportL (_L8 ("ATD"));
+ if ((iFaxServerSessionSettings->iMode & KFaxOffHook) == 0)
+ iModem->ExportL (iFaxServerSessionSettings->iPhoneNumber);
+ iModem->TxcharL (Kreturn);
+ iModem->iOurMessage.Format (_L8 ("Call has been dialled"));
+ iModem->iProgress.iPhase = ECallEstablishment;
+ iModem->ProgressUpdateL ();
+
+ // now we wait up to KDialTimeout seconds for the modem to connect
+
+ for (;;)
+ {
+ if (!(iModem->ImportL (iResults, KDialTimeout)))
+ return (KFaxErrNoDial);
+ iModem->iOurMessage.Format (_L8 ("%S"), &iResults);
+ iModem->ProgressUpdateL ();
+ if ((iResults.FindF (_L8 ("NO DIALTONE"))) >= 0 ||
+ iResults.FindF (_L8 ("NO DIAL TONE")) >= 0)
+ return (KFaxErrNoDialTone);
+ if ((iResults.FindF (_L8 ("BUSY"))) >= 0)
+ return (KFaxErrBusy);
+ if ((iResults.FindF (_L8 ("NO ANSWER"))) >= 0)
+ return (KFaxErrNoAnswer);
+ if ((iResults.FindF (_L8 ("NO CARRIER"))) >= 0)
+ return (KFaxErrNoCarrier);
+ if ((iResults.FindF (_L8 ("CONNECT"))) >= 0)
+ break;
+ }
+
+ // we can now go on to phase B
+
+ iResults.Copy (_L8 ("CALL JUST ANSWERED"));
+ return (TxPrePageL ());
+}
+/********************************************************************/
+
+// here we negotiate a fax transmission, or a polled reception - Phase B
+// this function is always called after we have connected. However,
+// it can be called at other times if the receiver has requested a
+// renegotiation or if we want to change the fax parameters, in which
+// case we would enter with iModem->iProgress.iPhase == RFax::EPostPageStatus
+
+TInt CFaxClass1::TxPrePageL ()
+{
+ TInt i;
+ //TInt x;
+ TInt successiveErrors = 0;
+ TInt trainingAttempts = 0;
+ iDcsBytes = 3;
+ iOldFrame.Zero ();
+ TInt ticks;
+ TInt trainbytes;
+
+ // this routine is one big frame waiting loop - note that on first entry
+ // here we have set the length of the last frame stored in iOldFrame to
+ // zero, so we don't resend any last frame on first entry here.
+ // Subsequent iterations of our receive loop will resend the iOldFrame
+ // if nothing is received, in an attempt at error recovery, unless of
+ // course we have deliberately reset iOldFrame to zero again
+
+ //x = 0;
+ for (;;)
+ {
+ if (iModem->iProgress.iPhase != EPostPageStatus)
+ {
+ if (GetframeL (iResults) == 0)
+ {
+ if (successiveErrors++ > 3)
+ return (KFaxErrFrameFail);
+
+ if (iModem->iProgress.iPhase == ECallEstablishment)
+ // no point in carrying on without any capability frame
+ {
+ iModem->ExportL (_L8 ("AT+FRH=3\r"));
+ continue;
+ }
+ // if (iModem->iProgress.iPhase == ECallEstablishment)
+ // {
+ // if (x++ == 3)
+ // return (KFaxErrFrameFail);
+ //
+ // iModem->ExportL (_L8 ("AT+FRH=3\r"));
+ // continue;
+ // }
+
+ // no point in carrying on without any capability frame
+ // else
+
+ iResults[1] = 0x10;
+ iResults[2] = 0xff;
+
+ // this is a nonexistent response
+ // the effect of this is to force a retransmission of the TSI and DCS
+ // with (hopefully) a subsequent retrain in an attempt to resync
+ }
+ else
+ successiveErrors = 0;
+
+
+
+ if (iResults[2] != 0xff)
+ {
+
+ iModem->iOurMessage.Format (_L8 ("Response received"));
+ iModem->ProgressUpdateL ();
+
+ // the third byte in the frame is the FCF (fax control field)
+
+ switch ((TUint8) iResults[2])
+ {
+ case 0xff: // this is our dummy octet to force a restart
+ break;
+
+ case 0x40: // this marks the receiver ID
+ iModem->iOurMessage.Format (_L8 ("CSI identity Frame"));
+ iModem->ProgressUpdateL ();
+ iModem->iProgress.iAnswerback.Zero ();
+ for (i = 22; i > 2; i--)
+ iModem->iProgress.iAnswerback.Append (iResults[i]);
+ iModem->iOurMessage.Format (_L8 ("Remote fax ID is %S"), &iModem->iProgress.iAnswerback);
+ iModem->ProgressUpdateL ();
+ break; // the capability frame should follows
+
+ case 0x80: // this marks the receiver capability frame
+ iFcfXbit = 1; // we've received a DIS, so set the X bit
+ iModem->iOurMessage.Format (_L8 ("DIS capability Frame"));
+ iModem->ProgressUpdateL ();
+ AnalyseDISL (); // analyse the DIS and compose a DCS
+ if (iDisFrame.bit.b10 != 1)
+ return (KFaxErrRemoteCannotReceive); // if the other machine can't receive we exit
+ break;
+
+ case 0x84: // this marks a good train and is the normal exit from this loop
+ iModem->iOurMessage.Format (_L8 ("CFR confirmation Frame"));
+ iModem->ProgressUpdateL ();
+ return (TxSetHighSpeedL ());
+
+ case 0x44: // this marks a failed train so we drop the speed
+ iModem->iOurMessage.Format (_L8 ("FTT failure to train Frame"));
+ iModem->ProgressUpdateL ();
+ if (++trainingAttempts & 1) // train down on failures 2 4 6 8
+ break;
+ if (iActualFaxSpeed == 73)
+ iActualFaxSpeed = 96;
+ else
+ iActualFaxSpeed -= 24;
+ if (iActualFaxSpeed < (iFaxServerSessionSettings->iMinSpeed / 100))
+ {
+ TxDCNL ();
+ return (KFaxBelowMinSpeed);
+ }
+ break;
+
+ case 0xfa: // this means we were asked to disconnect
+ RxDCNL ();
+ return (KFaxErrRemoteDCN);
+
+ case 0x20: // this marks a non-standard frame, which we ignore
+ iModem->iOurMessage.Format (_L8 ("NSF nonstandard facilities Frame"));
+ iModem->ProgressUpdateL ();
+ break;
+
+ // the last case is where we see an unsupported frame
+ // if it is a final frame we ask for a repeat via CRP
+
+ default:
+ if (SendCRPL () != KErrNone)
+ return (KFaxErrCRP);
+ }
+
+ // if not a final frame we just issue AT+FRH=3 and continue
+
+ if (!(iResults[1] & 0x10))
+ {
+ iModem->ExportL (_L8 ("AT+FRH=3\r"));
+ continue;
+ }
+ // otherwise we send our proposals, starting with our own ID
+
+ iModem->iOurMessage.Format (_L8 ("Final frame received"));
+ iModem->ProgressUpdateL ();
+ }
+ }// if (iResults[2] !=0) statement
+ if (iModem->iProgress.iPhase == ECallEstablishment)
+ {
+ iModem->iOurMessage.Format (_L8 ("sending TSI"));
+ iModem->ProgressUpdateL ();
+ iFrame.Zero ();
+ iFrame.Append (KT30_CTLNXT);
+ iFrame.Append (KT30_TSI);
+ for (i = 20; i > iFaxServerSessionSettings->iFaxId.Length (); i--)
+ iFrame.Append (0x20);
+ for (i = iFaxServerSessionSettings->iFaxId.Length (); i;)
+ iFrame.Append (iFaxServerSessionSettings->iFaxId[--i]);
+ if (SendframeL (iFrame) != 1)
+ return (KFaxErrHDLC);
+ }
+ else
+ {
+ iModem->ExportL (_L8 ("AT+FTH=3\r"));
+ if (FramestatL () != 1)
+ return (KFaxErrHDLC);
+ }
+
+ iModem->iProgress.iPhase = ESessionNegotiation;
+
+ // before sending our DCS frame we ensure the speeds bits match what we want
+
+ iDcsFrame.byte[1] &= 0xc3;
+ switch (iActualFaxSpeed)
+ {
+ case 48:
+ iDcsFrame.byte[1] |= 0x08;
+ break; /* 4800 */
+ case 96:
+ iDcsFrame.byte[1] |= 0x04;
+ break; /* 9600 V.29 */
+ case 97:
+ iDcsFrame.byte[1] |= 0x24;
+ break; /* 9600 V.17 */
+ case 72:
+ iDcsFrame.byte[1] |= 0x0c;
+ break; /* 7200 V.29 */
+ case 73:
+ iDcsFrame.byte[1] |= 0x2c;
+ break; /* 7200 V.17 */
+ case 145:
+ iDcsFrame.byte[1] |= 0x20;
+ break; /* 14400 */
+ case 121:
+ iDcsFrame.byte[1] |= 0x28;
+ break; /* 12000 */
+ default:
+ iDcsFrame.byte[1] |= 0x00; /* 2400 */
+ }
+ iModem->iOurMessage.Format (_L8 ("sending DCS "));
+ iModem->ProgressUpdateL ();
+ iFrame.Zero ();
+ iFrame.Append (KT30_CTLLST);
+ iFrame.Append (KT30_DCS);
+ //x = 3;
+ for (i = 0; i < iDcsBytes; i++)
+ iFrame.Append (iDcsFrame.byte[i]);
+ if (SendframeL (iFrame) != 1)
+ return (KFaxErrHDLC);
+
+ // after sending our DCS frame we wait fot 75 ms before training
+ //
+ // Note on the 75 millisecond delays
+ // =================================
+ // At this point we need to introduce a 75 ms delay (+-20%).
+ // this is usually done with the AT+FTS=8 command and the code
+ // would normally run as follows :
+ //
+ // iModem->ExportL (_L8 ("AT+FTS=8\r"));
+ // if ((iModem->GetMatchL (_L8 ("OK"), 3)) == 0)
+ // return (KFaxErrStopAndWait);
+ //
+ // or, alternatively, we could use our own routines to delay
+ // for this amount of time using
+ //
+ // iModem->Silence (75000);
+ //
+ // However, the innards of the comms driver in EPOC32 introduces
+ // 2-tick delays on timed reads and writes - in other words, there
+ // was a 2-tick delay before the OK from our last frame was received
+ // and there will also be a 2-tick delay before the next command
+ // reaches the modem. Note that a 2-tick delay could be from 15
+ // to 30 ms - we want a delay from 60ms to 90 ms (75 ms +- 20%) -
+ // which must be between 4 and 6 ticks. All the delays we use
+ // here are empirically arrived at via Faxlab testing rather
+ // than being worked out in advance.
+
+ // NOTE : these delays are really applicable ONLY to Protea/ARM7100
+ // the machine dependency is unavoidable under the
+ // circumstances. Protea ticks @ 64 Hz, which gives
+ // us 15.625 ms per tick. WINS ticks @ 10 Hz,
+ // which gives us 100 microseconds per tick - clearly a
+ // significant difference - the delta timers in the comms
+ // kernel are therefore also very different
+
+ iModem->iOurMessage.Format (_L8 ("delaying for 75 ms"));
+ iModem->ProgressUpdateL ();
+
+ // iModem->Silence ((iModem->iGranularity - 125) * 4); // 4 ticks pre-TCF - below iModem->iGranularity x 1
+
+ TInt delay=iModem->iCalls*37; //iCalls for 2ms *37 to get an approximatelly 75ms delay
+ TInt k=0;
+
+ for (k=0;k<delay;k++) // this loop will generate the 75ms delay
+ iModem->clock();
+
+ i = (iActualFaxSpeed & 0xfe);
+ iModem->iOurMessage.Format (_L8 ("setting %d00"), i);
+ iModem->iProgress.iSpeed = (i * 100);
+ iModem->ProgressUpdateL ();
+ iResults.Copy (_L8 ("AT+FTM="));
+ iResults.AppendNum (iActualFaxSpeed);
+ iResults.Append (_L8 ("\r"));
+ iModem->ExportL (iResults);
+
+ // say how many bytes in the 1.5 second TCF
+ // prepare a null filled transmit buffer length and get length to maxnulls
+ // calculate minimum scan line times
+ // wait for the modem CONNECT
+
+ trainbytes = (i * 150 / 8);
+ iModem->iOurMessage.Format (_L8 ("training sequence for %d bytes"), trainbytes);
+
+ iModem->iTransmitBuffer.SetMax ();
+ iModem->iTransmitBuffer.FillZ ();
+ TInt maxnulls = iModem->iTransmitBuffer.Length ();
+ iModem->ProgressUpdateL ();
+ if (iMinscan == 0)
+ iMinlinelength = 0;
+ else
+ iMinlinelength = ((iModem->iProgress.iSpeed / (1000 / iMinscan)) / 8) + 1;
+ if ((iModem->GetMatchL (_L8 ("CONNECT"), 5)) == 0)
+ return (KFaxErrAtNegotiatedSpeed);
+
+ // now we send our TCF with flow control
+
+ iModem->Xonon ();
+
+ iModem->iOurMessage.Format (_L8 ("Entering training loop"));
+ iModem->ProgressUpdateL ();
+
+ while (trainbytes != 0)
+ {
+ if (maxnulls > trainbytes)
+ {
+ iModem->iTransmitBuffer.SetLength (trainbytes);
+ trainbytes = 0;
+ }
+ else
+ {
+ iModem->iTransmitBuffer.SetMax ();
+ trainbytes -= maxnulls;
+ }
+ iModem->CommitTransmitBufferL ();
+ }
+
+ iModem->iTransmitBuffer.Append (Kdle);
+ iModem->iTransmitBuffer.Append (Ketx);
+ iModem->CommitTransmitBufferL ();
+
+
+ iModem->iOurMessage.Format (_L8 ("Train complete"));
+ iModem->ProgressUpdateL ();
+
+ // now wait for the modem to return to command mode
+
+ while (iModem->Rxstat () != 0)
+ {
+ ticks = CLK_TCK;
+ iModem->RxcharWaitL (ticks);
+ }
+ if ((iModem->GetMatchL (_L8 ("OK"), 5)) == 0)
+ return (KFaxErrTrainStop);
+
+ iModem->Xonoff ();
+ // there's no frame to resend, so we prepare a CRP in case of
+ // any errors before looping for the response
+
+ iOldFrame.Zero ();
+ iModem->ExportL (_L8 ("AT+FRH=3\r"));
+ }
+}
+/********************************************************************/
+
+// this is a small function to set a class 1 fax modem to phase C
+ // transmission speed (found in iActualFaxSpeed) in preparation for
+ // sending data. This function is called before the first page
+ // and also between pages. Class 1 modems require that we delay for
+ // 75 ms before going to phase C transmission - see the note
+ // earlier on method of achieving a 75 ms delay here
+
+TInt CFaxClass1::TxSetHighSpeedL ()
+{
+ TInt x, portSpeed;
+ iFrame.SetMax ();
+ iModem->iOurMessage.Format (_L8 ("delaying for 75 ms"));
+ iModem->ProgressUpdateL ();
+// iModem->Silence ((iModem->iGranularity - 125) * 4); // 4 ticks pre-T4 - below iModem->iGranularity x 3
+
+ TInt delay=iModem->iCalls*37; //iCalls for 2ms *37 to get an approximatelly 75ms delay
+ TInt k=0;
+
+ for (k=0;k<delay;k++) // this loop will generate the 75ms delay
+ iModem->clock();
+
+ switch (iActualFaxSpeed)
+ {
+ case 145:
+ x = 144;
+ portSpeed = 146;
+ break;
+ case 121:
+ x = 120;
+ portSpeed = 122;
+ break;
+ case 97:
+ x = 96;
+ portSpeed = 98;
+ break;
+ case 73:
+ x = 72;
+ portSpeed = 74;
+ break;
+ default:
+ x = portSpeed = iActualFaxSpeed;
+ }
+ iModem->iOurMessage.Format (_L8 ("setting %d00"), x);
+ iModem->iProgress.iSpeed = (x * 100);
+ iModem->ProgressUpdateL ();
+ iResults.Copy (_L8 ("AT+FTM="));
+ iResults.AppendNum (portSpeed);
+ iResults.Append (_L8 ("\r"));
+ iModem->ExportL (iResults);
+ if (FramestatL () != 1)
+ return (KFaxErrAtNegotiatedSpeed);
+ return (TxStartPageL ());
+}
+/********************************************************************/
+
+// here's where we wait after sending a page and the postpage
+// message to see what the receiver thought - there are five responses
+// MCF RTP PIP = good page RTN PIN = bad page
+//
+// TxPostPage should return either with
+//
+// a) an error code and iPhase set to RFax::EPostPageStatus, in which case the send returns with the error
+// b) KErrNone and iPhase set to RFax::EDataTransfer, in which case we send the next page
+// c) KErrNone and iPhase set to RFax::EDisconnection, in which case the send returns with KErrNone
+//
+
+TInt CFaxClass1::TxPostPageL ()
+{
+ if (iModem->iProgress.iCompression == EModifiedRead)
+ {
+ iModem->iTransmitBuffer.Append (0x00);
+ iModem->iTransmitBuffer.Append (0x60);
+ iModem->iTransmitBuffer.Append (0x00);
+ iModem->iTransmitBuffer.Append (0x0C);
+ iModem->iTransmitBuffer.Append (0x80);
+ iModem->iTransmitBuffer.Append (0x01);
+ iModem->iTransmitBuffer.Append (0x30);
+ iModem->iTransmitBuffer.Append (0x00);
+ iModem->iTransmitBuffer.Append (0x06);
+ iModem->iTransmitBuffer.Append (0xC0);
+ }
+ else
+ {
+ for (TInt x = 3; x; x--)
+ {
+ iModem->iTransmitBuffer.Append (0x0);
+ iModem->iTransmitBuffer.Append (0x08);
+ iModem->iTransmitBuffer.Append (0x80);
+ }
+ }
+ iModem->iTransmitBuffer.Append (Kdle);
+ iModem->iTransmitBuffer.Append (Ketx);
+ iModem->CommitTransmitBufferL ();
+
+ iModem->iOurMessage.Format (_L8 ("<dle><etx> transmitted after %d lines"), iModem->iProgress.iLines);
+ iModem->iProgress.iPhase = EPostPageStatus;
+ iModem->ProgressUpdateL ();
+ while (iModem->Txstat () != 0)
+ ;
+
+ // we've just ended phase C data, so we need to wait for the modem to respond with OK
+
+ if (iModem->GetMatchL (_L8 ("OK"), (32 * 1024) / (iModem->iProgress.iSpeed / 10)) == 0)
+ return (KFaxErrCannotEndData);
+
+ iModem->Xonoff ();
+
+ iModem->iOurMessage.Format (_L8 ("delaying for 75 ms"));
+ iModem->ProgressUpdateL ();
+
+
+/************************************* NOTE *******************************************************
+// see the note earlier on reason for the lack of an explicit 75 ms delay here
+
+
+// iModem->Silence ((iModem->iGranularity - 125) * 4); 4 ticks post-T4 - below iModem->iGranularity x 1
+// The above line of code was removed because the Silence function calls User::After which is fairly inaccurate
+// Faxlab revealed that we were actually waiting for 432 ms !!! instead of the recomended 75ms +- 20%
+// The delay is now generated using the timing callibration loop
+// This is more CPU intensive than the User::After call because essentially is a aoftware delay loop but
+// will enhance the reliability of fax class 1 especially over GSM
+*****************************************************************************************************************/
+ TInt delay=iModem->iCalls*30; //iCalls for 2ms *37 to get an approximatelly 75ms delay
+ TInt k=0;
+
+ for (k=0;k<delay;k++) // this loop will generate the 75ms delay
+ iModem->clock();
+
+ iOldFrame.Zero ();
+ iFrame.Zero ();
+ iFrame.Append (KT30_CTLLST);
+
+
+ if ((iFaxServerSessionSettings->iTxPages) == iModem->iProgress.iPage)
+ {
+ iModem->iOurMessage.Format (_L8 ("sending EOP"));
+ iModem->ProgressUpdateL ();
+
+ iFrame.Append ((KT30_EOP));
+ if (SendframeL (iFrame) == 0)
+ return (KFaxErrEOP);
+
+ iModem->iOurMessage.Format (_L8 ("End of document transmitted"));
+ iModem->ProgressUpdateL ();
+ }
+ else
+ {
+ iModem->iOurMessage.Format (_L8 ("sending MPS"));
+ iModem->ProgressUpdateL ();
+
+ iFrame.Append ((KT30_MPS));
+ if (SendframeL (iFrame) == 0)
+ return (KFaxErrMPS);
+
+ iModem->iOurMessage.Format (_L8 ("End of page %u transmitted"), iModem->iProgress.iPage);
+ iModem->ProgressUpdateL ();
+ }
+
+ // now we await the post-page response from the receiver
+ // we loop here because we need a final frame
+
+ for (;;)
+ {
+ iModem->ExportL (_L8 ("AT+FRH=3\r"));
+ if (GetframeL (iResults) == 0)
+ return (KFaxErrFrameFail);
+ iModem->iOurMessage.Format (_L8 ("Response received"));
+ iModem->ProgressUpdateL ();
+
+ // the third byte in the frame is the FCF (fax control field)
+ // for those we recognize straight off, we say so
+ // for any others, we either loop immediately or after a CRP request
+
+ switch ((TUint8) iResults[2])
+ {
+ case 0x8c:
+ iModem->iOurMessage.Format (_L8 ("MCF"));
+ break;
+ case 0xcc:
+ iModem->iOurMessage.Format (_L8 ("RTP"));
+ break;
+ case 0xac:
+ iModem->iOurMessage.Format (_L8 ("PIP"));
+ break;
+ case 0x4c:
+ iModem->iOurMessage.Format (_L8 ("RTN"));
+ break;
+ case 0x2c:
+ iModem->iOurMessage.Format (_L8 ("PIN"));
+ break;
+
+ // the last case is where we see an unsupported frame
+ // if it is a final frame we ask for a repeat via CRP
+
+ default:
+ if (SendCRPL () != KErrNone)
+ return (KFaxErrCRP);
+ continue;
+ }
+
+ // now back to look at the FCF some more
+ switch ((TUint8) iResults[2])
+ {
+ case 0x8c:
+ case 0xcc: // for good pages we say confirmed
+ case 0xac:
+ iModem->iOurMessage.Append (_L8 (" message confirmation"));
+ iModem->ProgressUpdateL ();
+ break;
+
+ case 0x4c: // for bad pages we say no good
+ case 0x2c: // if we haven't done so, resent last page
+ iModem->iOurMessage.Append (_L8 (" : page not confirmed"));
+ iModem->ProgressUpdateL ();
+ if (iRepeatPage == 0)
+ {
+ iRepeatPage++;
+ iModem->iProgress.iPage--;
+ return (TxPrePageL ());
+ }
+
+ default:;
+ }
+
+ // we aren't going to resend the last page now
+
+ iRepeatPage = 0;
+
+ // if we've reached the end, we just quit
+
+ if ((iFaxServerSessionSettings->iTxPages) == iModem->iProgress.iPage)
+ {
+ return (TxDCNL ());
+ }
+
+ // if we've received an MCF we carry on with phase C
+
+ if (iResults[2] == KT30_MCF) // carry on with phase C only if MCF
+
+ {
+ return (TxSetHighSpeedL ());
+ }
+
+ // we renegotiate if PIP or RTP, or PIN or RTN with no resend
+
+ iModem->iOurMessage.Format (_L8 ("Renegotiating session parameters"));
+ iModem->ProgressUpdateL ();
+ return (TxPrePageL ());
+ }
+}
+/********************************************************************/
+
+// the analysis of the DIS frame and composition of the DCS frame
+ // has been moved here for readability
+
+inline void CFaxClass1::AnalyseDISL ()
+{
+ TInt i;
+
+ // we copy iResults to our iDisFrame and compose our reply in iDcsFrame
+
+ for (i = 0; i < 5; i++)
+ iDisFrame.byte[i] = (TUint8) iResults[i + 3];
+
+ for (i = 0; i < 5; i++)
+ iDcsFrame.byte[i] = 0;
+
+ // we always set T.4
+
+ iDcsFrame.bit.b10 = 1;
+
+ // we check the speed capability next and reset our iActualFaxSpeed
+
+ switch (iDisFrame.byte[1] & 0x3c)
+ {
+ case 0x08:
+ i = 48;
+ break; /* V.27 ter 4800 2400 */
+ case 0x0c:
+ i = 96;
+ break; /* V.29 9600 7200 + V.27 */
+ case 0x2c:
+ i = 145;
+ break; /* V.17 14400 + V.29 + V.27 */
+ default:
+ i = 24; /* V.27 fallback 2400 only */
+ }
+ if (i < (iActualFaxSpeed))
+ iActualFaxSpeed = i;
+
+ // we set our resolution to that of the fax we want to send
+ // but if the receiver can only understand normal resolution
+ // then we send all our faxes as normal and resign ourselves
+ // to stretching them to double length
+
+ iDcsFrame.bit.b15 = iFaxServerSessionSettings->iTxResolution;
+ if (iDisFrame.bit.b15 == 0)
+ iDcsFrame.bit.b15 = 0;
+ iModem->iProgress.iResolution = TFaxResolution (iDcsFrame.bit.b15);
+
+ // we set our compression to that of the fax we want to send
+ // unless the receiver can only understand 1D compression - in
+ // which case the sender should be able to compensate from the
+ // progress settings
+
+ iDcsFrame.bit.b16 = iFaxServerSessionSettings->iTxCompression;
+ if (iDisFrame.bit.b16 == 0)
+ {
+ iDcsFrame.bit.b16 = 0;
+ }
+
+ if ((iDisFrame.bit.b16==1) && ((iFaxServerSessionSettings->iTxCompression==EModifiedRead)))
+ {
+ iDcsFrame.bit.b16 = 1;
+ }
+
+ iModem->iProgress.iCompression = TFaxCompression (iDcsFrame.bit.b16);
+
+ if (iModem->iProgress.iCompression==0)
+ {
+ iModem->iOurMessage.Format (_L8("DCS frame set to 1D"));
+ iModem->ProgressUpdateL();
+ }
+ else
+ {
+ iModem->iOurMessage.Format (_L8("DCS frame set to 2D"));
+ iModem->ProgressUpdateL();
+ }
+
+
+ // we set the minumum scan line time to that of the receiver
+
+ iDcsFrame.byte[2] &= 0x8f;
+ switch (iDisFrame.byte[2] & 0x70)
+ {
+ case 0x70:
+ iMinscan = 0;
+ iDcsFrame.byte[2] |= 0x70;
+ break; /* b21=1 b22=1 b23=1 */
+ case 0x50:
+ if (iDcsFrame.bit.b15 == 0)
+ {
+ iMinscan = 40;
+ iDcsFrame.byte[2] |= 0x40;
+ }
+ else
+ {
+ iMinscan = 20;
+ }
+ break; /* b21=1 b22=0 b23=1 - for fine res, /by 2 */
+ case 0x30:
+ if (iDcsFrame.bit.b15 == 0)
+ {
+ iMinscan = 20;
+ }
+ else
+ {
+ iMinscan = 10;
+ iDcsFrame.byte[2] |= 0x20;
+ }
+ break; /* b21=1 b22=1 b23=0 - for fine res, /by 2 */
+ case 0x60:
+ if (iDcsFrame.bit.b15 == 0)
+ {
+ iMinscan = 10;
+ iDcsFrame.byte[2] |= 0x20;
+ }
+ else
+ {
+ iMinscan = 5;
+ iDcsFrame.byte[2] |= 0x10;
+ }
+ break; /* b21=0 b22=1 b23=1 - for fine res, /by 2 */
+ case 0x10:
+ iMinscan = 5;
+ iDcsFrame.byte[2] |= 0x10;
+ break; /* b21=1 b22=0 b23=0 */
+ case 0x20:
+ iMinscan = 10;
+ iDcsFrame.byte[2] |= 0x20;
+ break; /* b21=0 b22=1 b23=0 */
+ case 0x40:
+ iMinscan = 40;
+ iDcsFrame.byte[2] |= 0x40;
+ break; /* b21=0 b22=0 b23=1 */
+ default:
+ iMinscan = 20; /* b21=0 b22=0 b23=0 */
+ }
+
+ // lastly, we always match our page length to the receiver page length
+
+ iDcsFrame.bit.b19 = iDisFrame.bit.b19;
+ iDcsFrame.bit.b20 = iDisFrame.bit.b20;
+}
+/********************************************************************/
+
+// this is where we wait for modem responses
+
+ // this function can be called either with a timeout in seconds
+ // or with nothing, in which case we use a default as follows :
+
+ // when we wait for the frame data we use a 6 second timeout
+ // as specified in T.30 as timer T2 if we are waiting for
+ // a command or a 3 second timer as specified in timer T4
+ // if we are waiting for a response, with the presence of
+ // a resendable frame in iOldFrame being the test
+
+ // notice that importL() takes a timeout specified in seconds
+
+ // normally OK and CONNECT are good with ERROR or NO CARRIER being bad
+ // we save the actual result for inspection as ERROR codes after
+ // frame reception with AT+FRH needs special handling via GETFRAMESTAT
+
+TInt CFaxClass1::FramestatL ()
+{
+ TInt ticks;
+ if (iOldFrame.Length () == 0)
+ ticks = KT30_T2;
+ else
+ ticks = KT30_T4;
+ return (FramestatL (ticks));
+}
+/********************************************************************/
+
+TInt CFaxClass1::FramestatL (TInt aTicks)
+{
+ for (;;)
+ {
+ iModemString.SetMax ();
+ if (iModem->ImportL (iModemString, aTicks) == 0)
+ return (-1);;
+
+ iModem->iOurMessage.Format (_L8 ("%S"), &iModemString);
+ iModem->ProgressUpdateL ();
+
+ if ((iModemString.FindF (_L8 ("OK"))) >= 0)
+ return (1);
+ if ((iModemString.FindF (_L8 ("CONNECT"))) >= 0)
+ return (1);
+ if ((iModemString.FindF (_L8 ("ERROR"))) >= 0)
+ return (0);
+ if ((iModemString.FindF (_L8 ("NO CARRIER"))) >= 0)
+ return (0);
+ }
+}
+/********************************************************************/
+
+// if we have an ERROR result on receiving a frame it means that
+ // the CRC was incorrect - the action is to wait until 200 ms of
+ // silence have elapsed before resending the last frame - we use
+ // the ReceiveSilenceL function for this
+
+TInt CFaxClass1::GetFramestatL ()
+{
+ TInt code = FramestatL ();
+ if ((iModemString.FindF (_L8 ("ERROR"))) >= 0)
+ ReceiveSilenceL ();
+ return (code);
+}
+/********************************************************************/
+
+// this is the HDLC frame reception handler after AT+FRH commands
+
+TInt CFaxClass1::GetframeL (TDes8 & aResult)
+{
+ TInt i, retries = 0, frameStatus = 1;
+ TInt ticks;
+ TUint8 thisChar, lastChar;
+ TBuf8 < 4 > iHexchar;
+
+ iModem->iOurMessage.Format (_L8 ("Waiting for Frame"));
+ iModem->ProgressUpdateL ();
+
+ // framestat is set to 1 for no error before entry to the loop
+
+ for (;;)
+ {
+
+ // we only try three times before giving up
+
+ retries++;
+ if (retries > 3)
+ return (0);
+
+ // if we timed out, cancel the frame before proceeding
+
+ if (frameStatus < 0)
+ {
+ iModem->TxcharL (Kcan);
+ iModem->iOurMessage.Format (_L8 ("Frame timed out"));
+ iModem->ProgressUpdateL ();
+ GetFramestatL ();
+ }
+
+ // on any error, we resend the last frame if possible before
+ // waiting for another go
+
+ if (frameStatus != 1)
+ {
+ if (SendframeL (iOldFrame) == 0)
+ {
+ iModem->iOurMessage.Format (_L8 ("Cannot resend Frame"));
+ iModem->ProgressUpdateL ();
+ return (0);
+ }
+ iModem->iOurMessage.Format (_L8 ("Frame has been resent"));
+ iModem->ProgressUpdateL ();
+ iModem->ExportL (_L8 ("AT+FRH=3\r"));
+ }
+
+ // if we've just answered the phone, we don't wait for a result
+ // otherwise we must have an OK or CONNECT before proceeding
+
+ if ((aResult.Compare (_L8 ("CALL JUST ANSWERED"))) == 0)
+ {
+ frameStatus = 1;
+ }
+ else
+ {
+ frameStatus = GetFramestatL ();
+ }
+
+ aResult.FillZ ();
+ aResult.SetMax ();
+
+ // if we got NO CARRIER or ERROR then we have to try again
+
+ if (frameStatus != 1)
+ continue;
+
+ // when we wait for the frame data we use a 6 second timeout
+ // as specified in T.30 as timer T2 if we are waiting for
+ // a command or a 3 second timer as specified in timer T4
+ // if we are waiting for a response, with the presence of
+ // a resendable frame in iOldFrame being the test
+
+ // note that RxcharWaitL () takes a timeout in microseconds
+
+ if (iOldFrame.Length () == 0)
+ ticks = CLK_TCK * KT30_T2;
+ else
+ ticks = CLK_TCK * KT30_T4;
+
+ // we expect data with dle shielding, ending with dle etx,
+ // and with a hex dump for our session log
+
+ // there is a 3 second maximum length to a frame but
+ // the modem will detect bad HDLC frames for us and
+ // flag with ERROR
+
+ for (i = 0, lastChar = 0; i < 64;)
+ {
+ if ((iModem->RxcharWaitL (ticks)) == 0)
+ {
+ frameStatus = (-1);
+ break;
+ }
+ thisChar = iModem->iReadone[0];
+ if (lastChar == Kdle)
+ {
+ if (thisChar == Ketx)
+ break;
+ lastChar = 0;
+ if (thisChar != Kdle)
+ continue;
+ }
+ else if (thisChar == Kdle)
+ {
+ lastChar = Kdle;
+ continue;
+ }
+ aResult[i++] = thisChar;
+
+ iHexchar.Format (_L8 ("%x "), thisChar);
+ if ((iModem->iOurMessage.Length () + iHexchar.Length ()) + 18 < iModem->iOurMessage.MaxLength ())
+ iModem->iOurMessage.Append (iHexchar);
+ }
+
+ iModem->ProgressUpdateL ();
+
+ // if we timed out during the wait, then go round again and handle it
+
+ if (frameStatus != 1)
+ continue;
+
+ // otherwise we wait for the result code following the dle etx
+ // and handle any errors from that
+
+ frameStatus = GetFramestatL ();
+ if (frameStatus != 1)
+ continue;
+
+ // the third byte in the frame is the FCF (fax control field)
+ // we don't care whether we originated or answered the call
+ // so we always knock off the T.30 X bit (LSB)
+
+ aResult[2] &= 0xfe;
+
+ // if we have been asked for a frame repeat we do that in here
+
+ if (aResult[2] == 0x1a)
+ {
+ iModem->iOurMessage.Format (_L8 ("CRP command repeat Frame"));
+ iModem->ProgressUpdateL ();
+ ReceiveSilenceL ();
+ frameStatus = 0; // treat as a timeout and resend
+ continue;
+ }
+
+ // otherwise we can now return with success
+
+ return (1);
+ }
+}
+/********************************************************************/
+
+// this is the send HDLC frame handler following AT+FTH commands
+
+TInt CFaxClass1::SendframeL (TDes8 & newframe)
+{
+ TUint8 i;
+ TInt frameSize;
+ TBuf8 < 4 > iHexchar;
+
+ // we take a copy of the frame we've been passed in case we want
+ // to resend for error recovery during GetFrame - it's the copy
+ // we work with
+
+ if (&newframe != &iOldFrame)
+ iOldFrame.Copy (newframe);
+ frameSize = iOldFrame.Length ();
+ if (frameSize < 2)
+ return (0);
+
+ // all frames must be at least three characters
+ // note that calling SendframeL with an empty frame disables
+ // resends - iOldFrame.Zero() is rather quicker though
+
+ // we don't need to tell the modem that we're going to send a frame
+ // if we're sending DCS or CSI or DIS/DTC for the first time after a CONNECT response
+ // (not a resend) - in all other cases we need to send AT+FTH
+
+ iOldFrame[1] |= iFcfXbit; // combine the FCF with the X bit
+ i = iOldFrame[1];
+
+ if (!((&newframe != &iOldFrame) && (i == (KT30_DCS|iFcfXbit)) || (i == KT30_CSI) || (i == (KT30_DIS|iFcfXbit))))
+ {
+ iModem->ExportL (_L8 ("AT+FTH=3\r"));
+ if (FramestatL () != 1)
+ return (0);
+ }
+
+ // we have a short delay before sending data here after any modem response
+
+ iModem->ExportL (_L8 (""));
+
+ // we now send the frame, starting with the fixed address followed
+ // by the data we have been passed. We use dle shielding and end
+ // with dle etx and a hex dump before returning with the modem
+ // response code
+
+ iModem->TxcharL (KT30_ADDR);
+ iModem->iOurMessage.Format (_L8 ("%x "), KT30_ADDR);
+ for (i = 0; i < frameSize; i++)
+ {
+ iModem->TxcharL (iOldFrame[i]);
+ iHexchar.Format (_L8 ("%x "), iOldFrame[i]);
+ if ((iModem->iOurMessage.Length () + iHexchar.Length ()) + 18 < iModem->iOurMessage.MaxLength ())
+ iModem->iOurMessage.Append (iHexchar);
+ if (iOldFrame[i] == Kdle)
+ iModem->TxcharL (Kdle);
+ }
+ iModem->TxcharL (Kdle);
+ iModem->TxcharL (Ketx);
+ iModem->ProgressUpdateL ();
+ return (FramestatL ());
+}
+/********************************************************************/
+
+// this is short routine to request a resend of a frame
+
+TInt CFaxClass1::SendCRPL ()
+{
+ iModem->iOurMessage.Format (_L8 ("Inappropriate frame %x"), (TUint8) iResults[2]);
+ iModem->ProgressUpdateL ();
+ if (iResults[1] & 0x10)
+ {
+ iModem->iOurMessage.Format (_L8 ("sending CRP"));
+ iModem->ProgressUpdateL ();
+ ReceiveSilenceL ();
+ iFrame.Zero ();
+ iFrame.Append (KT30_CTLLST);
+ iFrame.Append (KT30_CRP);
+ if (SendframeL (iFrame) == 0)
+ return (KFaxErrCRP);
+ iResults[1] = 0x0;
+ }
+ return (KErrNone);
+}
+/********************************************************************/
+
+// this utility waits for 200 ms of silence before proceeding. We allow
+// a three second timeout here in case we are waiting for a train to
+// finish. we used the modem AT+FRS command - if it fails we'll have
+// waited for three seconds in any case, so why bother with an error ? -
+// this code is used mostly for error recovery purposes but note that
+// not all modems support the +FRS command properly for example the
+// Megahertz PCMCIA sportster
+
+void CFaxClass1::ReceiveSilenceL ()
+{
+ iModem->ExportL (_L8 ("AT+FRS=20\r"));
+ if ((iModem->GetMatchL (_L8 ("OK"), 3)) == 0)
+ {
+ iModem->iOurMessage.Format (_L8 ("Timeout waiting for silence"));
+ iModem->ProgressUpdateL ();
+ iModem->TxcharL (Kcan);
+ if (iModem->GetMatchL (_L8 ("OK"), 1) == 0)
+ iModem->TxcharL (Kreturn);
+ }
+}
+/********************************************************************/
+