Trying to figure out how to implement my WINC like compatibility layer. Going the emulation way is probably not so smart. We should not use the kernel but rather hook native functions in the Exec calls.
// Copyright (c) 1996-2009 Nokia Corporation and/or its subsidiary(-ies).
// All rights reserved.
// This component and the accompanying materials are made available
// under the terms of the License "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:
// e32test\pccd\t_pccd1.cpp
//
//
#include <e32test.h>
#include <e32svr.h>
#include <e32hal.h>
#include <e32uid.h>
#include <d_pccdif.h>
LOCAL_D RTest test(_L("T_PCCD1"));
const TSocket KSocket=0;
const TInt KFunc=0;
GLDEF_C TInt E32Main()
{
#if defined (__WINS__)
// Connect to all the local drives first as will be the case in ARM
TBusLocalDrive Drive[KMaxLocalDrives];
TBool ChangedFlag[KMaxLocalDrives];
TInt i;
for (i=0;i<KMaxLocalDrives;i++)
Drive[i].Connect(i,ChangedFlag[i]);
#endif
test.Title();
TDriveInfoV1Buf diBuf;
UserHal::DriveInfo(diBuf);
TDriveInfoV1 &di=diBuf();
test.Printf(_L("SOCKETS PRESENT :%d\r\n"),di.iTotalSockets);
test.Printf(_L("1ST SOCKET NAME :%- 16S\r\n"),&di.iSocketName[0]);
test.Printf(_L("2ND SOCKET NAME :%- 16S\r\n"),&di.iSocketName[1]);
test.Printf(_L("3RD SOCKET NAME :%- 16S\r\n"),&di.iSocketName[2]);
test.Printf(_L("4TH SOCKET NAME :%- 16S\r\n"),&di.iSocketName[3]);
//test.Printf( _L("Hit a key\r\n"));
//test.Getch();
//
test.Start(_L("Load/open logical device"));
TInt r;
r=User::LoadLogicalDevice(_L("D_PCCDIF"));
test(r==KErrNone||r==KErrAlreadyExists);
RPcCardCntrlIf pccdDrv;
r=pccdDrv.Open(KSocket,pccdDrv.VersionRequired());
test(r==KErrNone);
test.Next(_L("Power card, check card type."));
UserSvr::ForceRemountMedia(ERemovableMedia0); // Media change - ensures test always starts from same state
User::After(300000); // Allow 0.3s after power down for controller to detect door closed.
pccdDrv.Reset();
TPcCardStatus s;
TSocketSignals ind;
test(pccdDrv.SocketInfo(s,ind)==KErrNone);
test(s==EPcCardNotReady);
test(ind.iCardDetected);
#if defined (__WINS__)
test(ind.iVoltSense==0x01);
#else
if(ind.iVoltSense!=0x03)
test.Printf(_L("vs=%d"),ind.iVoltSense);
test(ind.iVoltSense==0x03);
#endif
TRequestStatus rs;
pccdDrv.PwrUp(&rs);
User::WaitForRequest(rs);
test(rs.Int()==KErrNone);
test(pccdDrv.SocketInfo(s,ind)==KErrNone);
test(s==EPcCardReady);
TPcCardTypePckg tyBuf;
TPcCardType &ty=tyBuf();
test(pccdDrv.CardInfo(&tyBuf)==KErrNone);
test(ty.iFuncType[0]==EFFixedDiskCard);
test(ty.iFuncCount==1);
test.Next(_L("Tuple reading."));
TBuf8<257> tbuf;
test(pccdDrv.GetTuple(KFunc,KPccdNonSpecificTuple,&tbuf)==KErrNone);
test(tbuf[0]==KCisTupleDevice);
test(pccdDrv.GetTuple(KFunc,KCisTupleFuncId,&tbuf)==KErrNone);
test(tbuf[0]==KCisTupleFuncId&&tbuf[1]==0x02&&tbuf[2]==0x04&&tbuf[3]==0x01);
test(pccdDrv.GetTuple(KFunc,KCisTupleFuncId,&tbuf)==KErrNotFound);
test(pccdDrv.ResetCis(KFunc)==KErrNone);
test(pccdDrv.GetTuple(KFunc,KCisTupleFuncId,&tbuf)==KErrNone);
test(pccdDrv.GetTuple(KFunc,KCisTupleNoLink,&tbuf)==KErrNone);
test(tbuf[0]==KCisTupleNoLink&&tbuf[1]==0x00);
test(pccdDrv.GetTuple(KFunc,KCisTupleBattery,&tbuf)==KErrNotFound);
test.Next(_L("Read card configuration 1."));
TPcCardConfigInfoPckg ciBuf;
TPcCardConfigInfo &ci=ciBuf();
test(pccdDrv.GetConfig(KFunc,&ciBuf)==KErrNone);
test(ci.iAccessSpeed==EAccSpeed200nS);
test(ci.iActiveSignals==(KSignalWaitRequired|KSignalReadyActive));
test(ci.iVccMaxInMilliVolts==5500&&ci.iVccMinInMilliVolts==4500);
test(ci.iValidChunks==1);
test(ci.iChnk[0].iMemType==EPcCardCommon16Mem&&ci.iChnk[0].iMemBaseAddr==0&&ci.iChnk[0].iMemLen==0x800); // 2K
test(ci.iIsIoAndMem==FALSE&&ci.iIsDefault);
test(ci.iVppMaxInMilliVolts==0&&ci.iVppMinInMilliVolts==0);
test(ci.iPwrDown&&ci.iOperCurrentInMicroAmps==80000&&ci.iPwrDwnCurrentInMicroAmps==0);
test(ci.iInterruptInfo==0);
test(ci.iConfigOption==0&&ci.iConfigBaseAddr==0x200&&ci.iRegPresent==0x0F);
test.Next(_L("Read card configuration 2."));
test(pccdDrv.GetConfig(KFunc,&ciBuf)==KErrNone);
test(ci.iAccessSpeed==EAccSpeed200nS);
test(ci.iActiveSignals==(KSignalWaitRequired|KSignalReadyActive));
test(ci.iVccMaxInMilliVolts==3465&&ci.iVccMinInMilliVolts==3135);
test(ci.iValidChunks==1);
test(ci.iChnk[0].iMemType==EPcCardCommon16Mem&&ci.iChnk[0].iMemBaseAddr==0&&ci.iChnk[0].iMemLen==0x800); // 2K
test(ci.iIsIoAndMem==FALSE&&ci.iIsDefault==FALSE);
test(ci.iVppMaxInMilliVolts==0&&ci.iVppMinInMilliVolts==0);
test(ci.iPwrDown&&ci.iOperCurrentInMicroAmps==45000&&ci.iPwrDwnCurrentInMicroAmps==0);
test(ci.iInterruptInfo==0);
test(ci.iConfigOption==0&&ci.iConfigBaseAddr==0x200&&ci.iRegPresent==0x0F);
test.Next(_L("Read card configuration 3."));
test(pccdDrv.GetConfig(KFunc,&ciBuf)==KErrNone);
test(ci.iAccessSpeed==EAccSpeed200nS);
test(ci.iActiveSignals==KSignalReadyActive);
test(ci.iVccMaxInMilliVolts==5500&&ci.iVccMinInMilliVolts==4500);
test(ci.iValidChunks==1);
test(ci.iChnk[0].iMemType==EPcCardIo16Mem&&ci.iChnk[0].iMemBaseAddr==0&&ci.iChnk[0].iMemLen==0x10); // 16bytes
test(ci.iIsIoAndMem&&ci.iIsDefault);
test(ci.iVppMaxInMilliVolts==0&&ci.iVppMinInMilliVolts==0);
test(ci.iPwrDown&&ci.iOperCurrentInMicroAmps==80000&&ci.iPwrDwnCurrentInMicroAmps==0);
test(ci.iInterruptInfo==(KPcCardIntShare|KPcCardIntPulse|KPcCardIntLevel));
test(ci.iConfigOption==1&&ci.iConfigBaseAddr==0x200&&ci.iRegPresent==0x0F);
test.Next(_L("Read card configuration 4."));
test(pccdDrv.GetConfig(KFunc,&ciBuf)==KErrNone);
test(ci.iAccessSpeed==EAccSpeed200nS);
test(ci.iActiveSignals==KSignalReadyActive);
test(ci.iVccMaxInMilliVolts==3465&&ci.iVccMinInMilliVolts==3135);
test(ci.iValidChunks==1);
test(ci.iChnk[0].iMemType==EPcCardIo16Mem&&ci.iChnk[0].iMemBaseAddr==0&&ci.iChnk[0].iMemLen==0x10); // 16bytes
test(ci.iIsIoAndMem&&ci.iIsDefault==FALSE);
test(ci.iVppMaxInMilliVolts==0&&ci.iVppMinInMilliVolts==0);
test(ci.iPwrDown&&ci.iOperCurrentInMicroAmps==45000&&ci.iPwrDwnCurrentInMicroAmps==0);
test(ci.iInterruptInfo==(KPcCardIntShare|KPcCardIntPulse|KPcCardIntLevel));
test(ci.iConfigOption==1&&ci.iConfigBaseAddr==0x200&&ci.iRegPresent==0x0F);
test.Next(_L("Read card configuration 5."));
test(pccdDrv.GetConfig(KFunc,&ciBuf)==KErrNone);
test(ci.iAccessSpeed==EAccSpeed200nS);
test(ci.iActiveSignals==KSignalReadyActive);
test(ci.iVccMaxInMilliVolts==5500&&ci.iVccMinInMilliVolts==4500);
test(ci.iValidChunks==2);
test(ci.iChnk[0].iMemType==EPcCardIo16Mem&&ci.iChnk[0].iMemBaseAddr==0x1F0&&ci.iChnk[0].iMemLen==8); // 8bytes
test(ci.iChnk[1].iMemType==EPcCardIo16Mem&&ci.iChnk[1].iMemBaseAddr==0x3F6&&ci.iChnk[1].iMemLen==2); // 2bytes
test(ci.iIsIoAndMem&&ci.iIsDefault);
test(ci.iVppMaxInMilliVolts==0&&ci.iVppMinInMilliVolts==0);
test(ci.iPwrDown&&ci.iOperCurrentInMicroAmps==80000&&ci.iPwrDwnCurrentInMicroAmps==0);
test(ci.iInterruptInfo==(KPcCardIntShare|KPcCardIntPulse|KPcCardIntLevel));
test(ci.iConfigOption==2&&ci.iConfigBaseAddr==0x200&&ci.iRegPresent==0x0F);
test.Next(_L("Read card configuration 6."));
test(pccdDrv.GetConfig(KFunc,&ciBuf)==KErrNone);
test(ci.iAccessSpeed==EAccSpeed200nS);
test(ci.iActiveSignals==KSignalReadyActive);
test(ci.iVccMaxInMilliVolts==3465&&ci.iVccMinInMilliVolts==3135);
test(ci.iValidChunks==2);
test(ci.iChnk[0].iMemType==EPcCardIo16Mem&&ci.iChnk[0].iMemBaseAddr==0x1F0&&ci.iChnk[0].iMemLen==8); // 8bytes
test(ci.iChnk[1].iMemType==EPcCardIo16Mem&&ci.iChnk[1].iMemBaseAddr==0x3F6&&ci.iChnk[1].iMemLen==2); // 2bytes
test(ci.iIsIoAndMem&&ci.iIsDefault==FALSE);
test(ci.iVppMaxInMilliVolts==0&&ci.iVppMinInMilliVolts==0);
test(ci.iPwrDown&&ci.iOperCurrentInMicroAmps==45000&&ci.iPwrDwnCurrentInMicroAmps==0);
test(ci.iInterruptInfo==(KPcCardIntShare|KPcCardIntPulse|KPcCardIntLevel));
test(ci.iConfigOption==2&&ci.iConfigBaseAddr==0x200&&ci.iRegPresent==0x0F);
test.Next(_L("Read card configuration 7."));
test(pccdDrv.GetConfig(KFunc,&ciBuf)==KErrNone);
test(ci.iAccessSpeed==EAccSpeed200nS);
test(ci.iActiveSignals==KSignalReadyActive);
test(ci.iVccMaxInMilliVolts==5500&&ci.iVccMinInMilliVolts==4500);
test(ci.iValidChunks==2);
test(ci.iChnk[0].iMemType==EPcCardIo16Mem&&ci.iChnk[0].iMemBaseAddr==0x170&&ci.iChnk[0].iMemLen==8); // 8bytes
test(ci.iChnk[1].iMemType==EPcCardIo16Mem&&ci.iChnk[1].iMemBaseAddr==0x376&&ci.iChnk[1].iMemLen==2); // 2bytes
test(ci.iIsIoAndMem&&ci.iIsDefault);
test(ci.iVppMaxInMilliVolts==0&&ci.iVppMinInMilliVolts==0);
test(ci.iPwrDown&&ci.iOperCurrentInMicroAmps==80000&&ci.iPwrDwnCurrentInMicroAmps==0);
test(ci.iInterruptInfo==(KPcCardIntShare|KPcCardIntPulse|KPcCardIntLevel));
test(ci.iConfigOption==3&&ci.iConfigBaseAddr==0x200&&ci.iRegPresent==0x0F);
test.Next(_L("Read card configuration 8."));
test(pccdDrv.GetConfig(KFunc,&ciBuf)==KErrNone);
test(ci.iAccessSpeed==EAccSpeed200nS);
test(ci.iActiveSignals==KSignalReadyActive);
test(ci.iVccMaxInMilliVolts==3465&&ci.iVccMinInMilliVolts==3135);
test(ci.iValidChunks==2);
test(ci.iChnk[0].iMemType==EPcCardIo16Mem&&ci.iChnk[0].iMemBaseAddr==0x170&&ci.iChnk[0].iMemLen==8); // 8bytes
test(ci.iChnk[1].iMemType==EPcCardIo16Mem&&ci.iChnk[1].iMemBaseAddr==0x376&&ci.iChnk[1].iMemLen==2); // 2bytes
test(ci.iIsIoAndMem&&ci.iIsDefault==FALSE);
test(ci.iVppMaxInMilliVolts==0&&ci.iVppMinInMilliVolts==0);
test(ci.iPwrDown&&ci.iOperCurrentInMicroAmps==45000&&ci.iPwrDwnCurrentInMicroAmps==0);
test(ci.iInterruptInfo==(KPcCardIntShare|KPcCardIntPulse|KPcCardIntLevel));
test(ci.iConfigOption==3&&ci.iConfigBaseAddr==0x200&&ci.iRegPresent==0x0F);
test(pccdDrv.GetConfig(KFunc,&ciBuf)==KErrNotFound);
test.Next(_L("Read card memory regions."));
TPcCardRegionInfoPckg rgBuf;
TPcCardRegionInfo &rg=rgBuf();
test.Next(_L("Read card region."));
test(pccdDrv.ResetCis(KFunc)==KErrNone);
test(pccdDrv.GetRegion(KFunc,&rgBuf)==KErrNone);
#if defined (__WINS__)
test(rg.iAccessSpeed==EAccSpeed750nS);
test(rg.iExtendedAccSpeedInNanoSecs==700);
test(rg.iActiveSignals==0);
test(rg.iVcc==EPcCardSocket_5V0);
#else
test(rg.iAccessSpeed==EAccSpeed250nS);
test(rg.iExtendedAccSpeedInNanoSecs==0);
test(rg.iActiveSignals==KSignalWaitRequired);
test(rg.iVcc==EPcCardSocket_3V3);
#endif
test(rg.iChnk.iMemType==EPcCardCommon16Mem&&rg.iChnk.iMemBaseAddr==0&&rg.iChnk.iMemLen==0x800); // 2K
test(rg.iDeviceType==EMDeviceFunSpec);
test(pccdDrv.GetRegion(KFunc,&rgBuf)==KErrNotFound);
TInt reg=0;
test.Next(_L("Request card configuration."));
test(pccdDrv.ReadConfigReg(KFunc,0,reg)==KErrGeneral);
test(pccdDrv.ReqConfig(KFunc,2)==KErrNone);
test(pccdDrv.ReadConfigReg(KFunc,0,reg)==KErrNone);
test(reg==2);
test(pccdDrv.ReqConfig(KFunc,1)==KErrInUse);
pccdDrv.Reset(); // Release config
test(pccdDrv.ReqConfig(KFunc,1)==KErrNone);
test.Next(_L("Configuration register read/write test.")); // Set IoIs8 bit in ConfigAndStatus register
test(pccdDrv.ReadConfigReg(KFunc,1,reg)==KErrNone);
test.Printf(_L("reg=0x%x"),reg);
test((reg&0x20)==0);
reg|=0x20;
test(pccdDrv.WriteConfigReg(KFunc,1,reg)==KErrNone);
TInt newReg=0;
test(pccdDrv.ReadConfigReg(KFunc,1,newReg)==KErrNone);
if(reg!=newReg)
test.Printf(_L("reg=0x%x, new reg=0x%x"),reg,newReg);
test(reg==newReg);
reg&=0xDF;
test(pccdDrv.WriteConfigReg(KFunc,1,reg)==KErrNone);
test.Next(_L("Close/free device"));
pccdDrv.Close();
r=User::FreeLogicalDevice(_L("PccdIf"));
test(r==KErrNone);
test.End();
#if defined (__WINS__)
for (i=0;i<KMaxLocalDrives;i++)
Drive[i].Disconnect();
#endif
return(0);
}