Convert Kernelhwsrv package from SFL to EPL
kernel\eka\compsupp is subject to the ARM EABI LICENSE
userlibandfileserver\fatfilenameconversionplugins\unicodeTables is subject to the Unicode license
kernel\eka\kernel\zlib is subject to the zlib license
// 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);
}