Merged patch from Johnathan White (@accenture)
Added sound support and estart
Updated framebuffer (support landscape and portrait mode)
Fixes in pointer, keyboard and hostfs
/*
* Copyright (c) 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: Device driver for SVP Host file system access
*
*/
#ifdef __WINS__
#error - this driver cannot be built for emulation
#endif
#include <e32def.h>
#include <e32cmn.h>
#include <u32std.h>
#include <kernel.h>
#include <kern_priv.h>
#include <arm.h>
#include <cache.h>
#include <nkern.h>
#include <u32hal.h>
#include <system.h>
#include "rsvphostfsdriver.h"
#include "libfdt.h"
// Debug messages - uncomment define below
//#define SVPDBG
#ifdef SVPDBG
#define DP(format...) Kern::Printf(format)
#else
#define DP(format...)
#endif
#define SVP_HOST_FS_DEVICE_ID 0xc51d0008
#define SVP_PLATFORM_DEVICE_ID 0xc51d1000
class DSVPHostFsDriverFactory : public DLogicalDevice
{
public:
DSVPHostFsDriverFactory();
virtual TInt Install();
virtual void GetCaps(TDes8& aDes) const;
virtual TInt Create(DLogicalChannelBase*& aChannel);
};
class DSVPHostFsChannel : public DLogicalChannel
{
public:
DSVPHostFsChannel(DLogicalDevice* aLogicalDevice);
~DSVPHostFsChannel();
virtual TInt DoCreate(TInt aUnit, const TDesC* anInfo, const TVersion& aVer);
virtual void HandleMsg(TMessageBase* aMsg);
protected:
virtual void DoCancel(TInt aReqNo);
virtual TInt DoRequest(TInt aReqNo, TRequestStatus* aStatus, TAny* a1, TAny* a2);
virtual TInt DoControl(TInt aFunction, TAny *a1, TAny *a2);
private:
TInt MkDir(TSVPHostFsMkDirInfo* aInfo);
TInt RmDir(TSVPHostFsRmDirInfo* aInfo);
TInt Delete(TSVPHostFsDeleteInfo* aInfo);
TInt Rename(TSVPHostFsRenameInfo* aInfo);
TInt Replace(TSVPHostFsReplaceInfo* aInfo);
TInt Entry(TSVPHostFsEntryInfo* aInfo);
TInt SetEntry(TSVPHostFsSetEntryInfo* aInfo);
TInt FileOpen(TSVPHostFsFileOpenInfo* aInfo);
TInt FileClose(TUint32 aDrive, TUint32 aHandle);
TInt FileRead(TSVPHostFsFileReadInfo* aInfo);
TInt FileWrite(TSVPHostFsFileWriteInfo* aInfo);
TInt FileSetSize(TSVPHostFsFileSetSizeInfo* aInfo);
TInt FileSetEntry(TSVPHostFsSetEntryInfo* aInfo);
TInt DirOpen(TSVPHostFsDirOpenInfo* aInfo);
TInt Flush(TUint32 aDrive);
TInt DirClose(TUint32 aDrive, TUint32 aHandle);
TInt DirRead(TSVPHostFsDirReadInfo* aInfo);
TInt GetID(TUint32 aDrive, TUint32 * aId);
TInt SetUpDrives();
TInt GetDriveMap(TAny * aMap);
private:
DThread* iClientThread;
TDfcQue* iDFCQue;
TUint32 iDriveMap[DRIVE_MAP_SIZE] ;
};
#define RET_IF_ERROR(v, e) { if ((v = (e)) != KErrNone) return v; }
#define EDeviceID 0
#define EOp 1
#define ETreeStart 1
#define EResult 2
#define EArg0 3
#define EArg1 4
#define EArg2 5
#define EArg3 6
static inline TUint32 SVPReadReg(TUint32 dev, TUint32 aReg)
{
DP("** ReadReg @ 0x%08x (%d)",dev,aReg);
return *(volatile TUint32 *)(dev + (aReg << 2));
}
static inline void SVPWriteReg(TUint32 dev, TUint32 aReg, TUint32 aVal)
{
DP("** WriteReg @ 0x%08x (%d,%d)",dev,aReg,aVal);
*(volatile TUint32*)(dev + (aReg << 2)) = aVal;
}
static inline void SVPInvoke(TUint32 dev, TUint32 aVal)
{
DP("** Invoke @ 0x%08x (%d)",dev,aVal);
*(TUint32*)(dev + (EOp << 2)) = aVal;
}
/////////////////////////////////////////////////////////////////////////
//
// DSVPHostFsDriverFactory
//
/////////////////////////////////////////////////////////////////////////
//
// DSVPHostFsDriverFactory constructor
//
DSVPHostFsDriverFactory::DSVPHostFsDriverFactory()
{
DP("** (SVPHOSTFSDRIVER) DSVPHostFsDriverFactory::DSVPHostFsDriverFactory()");
iVersion = TVersion(KMajorVersionNumber,KMinorVersionNumber,KBuildVersionNumber);
}
//
// DSVPHostFsDriverFactory::Create
//
TInt DSVPHostFsDriverFactory::Create(DLogicalChannelBase*& aChannel)
{
DP("** (SVPHOSTFSDRIVER) DSVPHostFsDriverFactory::Create()");
aChannel = new DSVPHostFsChannel(this);
return aChannel ? KErrNone : KErrNoMemory;
}
//
// DSVPHostFsDriverFactory::Install
//
TInt DSVPHostFsDriverFactory::Install()
{
DP("** (SVPHOSTFSDRIVER) DSVPHostFsDriverFactory::Install()");
return(SetName(&KSVPHostFsDriverName));
}
//
// DSVPHostFsDriverFactory::Install
//
void DSVPHostFsDriverFactory::GetCaps(TDes8& aDes) const
{
DP("** (SVPHOSTFSDRIVER) DSVPHostFsDriverFactory::GetCaps()");
TCapsSVPHostFsDriver b;
b.iVersion = TVersion(KMajorVersionNumber, KMinorVersionNumber, KBuildVersionNumber);
aDes.FillZ(aDes.MaxLength());
aDes.Copy((TUint8 *)&b, Min(aDes.MaxLength(), sizeof(b)));
}
/////////////////////////////////////////////////////////////////////////
//
// DSVPHostFsChannel implementation
//
/////////////////////////////////////////////////////////////////////////
//
// DSVPHostFsChannel constructor
//
DSVPHostFsChannel::DSVPHostFsChannel(DLogicalDevice* aLogicalDevice)
{
DP("** (SVPHOSTFSDRIVER) DSVPHostFsChannel::DSVPHostFsChannel()");
iDevice = aLogicalDevice;
iClientThread = &Kern::CurrentThread();
iClientThread->Open();
}
//
// DSVPHostFsChannel destructor
//
DSVPHostFsChannel::~DSVPHostFsChannel()
{
DP("** (SVPHOSTFSDRIVER) DSVPHostFsChannel::~DSVPHostFsChannel()");
Kern::SafeClose((DObject*&)iClientThread, NULL);
}
//
// DSVPHostFsChannel::DoCreate
//
TInt DSVPHostFsChannel::DoCreate(TInt /*aUnit*/, const TDesC* anInfo, const TVersion& aVer)
{
DP("** (SVPHOSTFSDRIVER) DSVPHostFsChannel::DoCreate()");
if (!Kern::QueryVersionSupported(TVersion(KMajorVersionNumber, KMinorVersionNumber, KBuildVersionNumber), aVer))
return KErrNotSupported;
//Setup the driver for receiving client messages
SetDfcQ(Kern::DfcQue0());
iMsgQ.Receive();
SetUpDrives();
DP("** (SVPHOSTFSDRIVER) DSVPHostFsChannel::DoCreate()- checking device");
TUint id = SVPReadReg(KHwSVPHostFileSystemDevice, EDeviceID);
DP("** (SVPHOSTFSDRIVER) DSVPHostFsChannel::DoCreate()- checked device- 0x%08x -expected 0x%08x",
id, SVP_HOST_FS_DEVICE_ID);
return id == SVP_HOST_FS_DEVICE_ID ? KErrNone : KErrHardwareNotAvailable;
}
TInt DSVPHostFsChannel::SetUpDrives()
{
DP("** (SVPHOSTFSDRIVER) DSVPHostFsChannel::SetUpDrives() @ 0x%08x", KHwSVPPlatformDevice) ;
TUint32 platId = SVPReadReg(KHwSVPPlatformDevice, EDeviceID);
DP("** (SVPHOSTFSDRIVER) DSVPHostFsChannel::SetUpDrives()- checked device- 0x%08x -expected 0x%08x",
platId, SVP_PLATFORM_DEVICE_ID);
if (platId != SVP_PLATFORM_DEVICE_ID) return KErrHardwareNotAvailable;
TUint32 * fdt = (TUint32 *)((char *)(SVPReadReg(KHwSVPPlatformDevice, ETreeStart) + KHwSVPPlatformDevice));
DP("** (SVPHOSTFSDRIVER) DSVPHostFsChannel::SetUpDrives()- device tree @ 0x%08x", fdt);
// Iteratate over the tree looking for "syborg,hostfs" nodes.
const char * compatible = "syborg,hostfs" ;
int offset = fdt_node_offset_by_compatible(fdt, -1, compatible);
while (offset != -FDT_ERR_NOTFOUND)
{
if (offset < 0)
{
DP("FDT: Node not found %d", offset) ;
return KErrHardwareNotAvailable ;
}
int lenp1, lenp2 = 0;
TUint32 * deviceAddressp = (TUint32 *)fdt_getprop(fdt,offset,"reg",&lenp1);
if (!deviceAddressp)
{
DP("FDT format error: reg %d", lenp1);
return KErrHardwareNotAvailable ;
}
TUint32 * driveNumberp = (TUint32 *)fdt_getprop(fdt,offset,"drive-number",&lenp2);
if (!driveNumberp)
{
DP("FDT format error: drive-number %d", lenp2);
return KErrHardwareNotAvailable ;
}
TUint32 deviceAddressPhys = bswap_32(*deviceAddressp);
#define PhysicalToLinear(addr) ((addr & (~(Epoc::LinearToPhysical(KPrimaryIOBase)))) | KPrimaryIOBase)
TUint32 deviceAddressLin = PhysicalToLinear(deviceAddressPhys) ;
TUint32 driveNumber = bswap_32(*driveNumberp) ;
DP("FDT: dev address phys 0x%08x lin 0x%08x len1 %d drive number %08x len2 %d",
deviceAddressPhys, deviceAddressLin, lenp1, driveNumber, lenp2) ;
TUint32 fsId = SVPReadReg(deviceAddressLin, EDeviceID) ;
DP("FDT: dev id 0x%08x", fsId) ;
if (fsId != SVP_HOST_FS_DEVICE_ID) return KErrHardwareNotAvailable ;
// we have a disagreement about the base number of the drives: 0 or 1?
iDriveMap[driveNumber-1] = deviceAddressLin ;
offset = fdt_node_offset_by_compatible(fdt, offset, compatible);
}
return KErrNone;
}
//
// DSVPHostFsChannel::DoCancel
//
void DSVPHostFsChannel::DoCancel(TInt aReqNo)
{
DP("** (SVPHOSTFSDRIVER) DSVPHostFsChannel::DoCancel() %x(%d)", aReqNo, aReqNo);
}
//
// DSVPHostFsChannel::DoRequest
//
TInt DSVPHostFsChannel::DoRequest(TInt aReqNo, TRequestStatus* aStatus, TAny* a1, TAny* a2)
{
DP("** (SVPHOSTFSDRIVER) DSVPHostFsChannel::DoRequest() %x(%d)", aReqNo, aReqNo);
TInt err = KErrGeneral;
(void)aStatus;
switch(aReqNo)
{
case RSVPHostFsDriver::EMkDir:
{
err = MkDir((TSVPHostFsMkDirInfo*)a1);
break;
}
case RSVPHostFsDriver::ERmDir:
{
err = RmDir((TSVPHostFsRmDirInfo*)a1);
break;
}
case RSVPHostFsDriver::EDelete:
{
err = Delete((TSVPHostFsDeleteInfo*)a1);
break;
}
case RSVPHostFsDriver::ERename:
{
err = Rename((TSVPHostFsRenameInfo*)a1);
break;
}
case RSVPHostFsDriver::EReplace:
{
err = Replace((TSVPHostFsReplaceInfo*)a1);
break;
}
case RSVPHostFsDriver::EEntry:
{
err = Entry((TSVPHostFsEntryInfo*)a1);
break;
}
case RSVPHostFsDriver::ESetEntry:
{
err = SetEntry((TSVPHostFsSetEntryInfo*)a1);
break;
}
case RSVPHostFsDriver::EFileOpen:
{
err = FileOpen((TSVPHostFsFileOpenInfo*)a1);
break;
}
case RSVPHostFsDriver::EDirOpen:
{
err = DirOpen((TSVPHostFsDirOpenInfo*)a1);
break;
}
case RSVPHostFsDriver::EFileClose:
{
err = FileClose((TUint32)a1, (TUint32)a2);
break;
}
case RSVPHostFsDriver::EFileRead:
{
err = FileRead((TSVPHostFsFileReadInfo*)a1);
break;
}
case RSVPHostFsDriver::EFileWrite:
{
err = FileWrite((TSVPHostFsFileWriteInfo*)a1);
break;
}
case RSVPHostFsDriver::EFileSetSize:
{
err = FileSetSize((TSVPHostFsFileSetSizeInfo*)a1);
break;
}
case RSVPHostFsDriver::EFileFlushAll:
{
err = Flush((TUint32)a1);
break;
}
case RSVPHostFsDriver::EDirClose:
{
err = DirClose((TUint32)a1, (TUint32)a2);
break;
}
case RSVPHostFsDriver::EDirRead:
{
err = DirRead((TSVPHostFsDirReadInfo*)a1);
break;
}
case RSVPHostFsDriver::EGetDeviceID:
{
err = GetID((TUint32)a1, (TUint32*)a2);
break;
}
case RSVPHostFsDriver::EGetDriveMap:
{
err = GetDriveMap((TUint32*)a1);
break;
}
default:
{
err = KErrGeneral;
}
}
if (KErrNone != err)
{
if (err == KErrNotSupported)
{
err = KErrNone; // trap KErrNotSupported
}
DP("Error %d from DoRequest %d", err, aReqNo);
}
return err;
}
//
// DSVPHostFsChannel::DoControl
//
TInt DSVPHostFsChannel::DoControl(TInt aFunction, TAny* a1, TAny* a2)
{
DP("** (SVPHOSTFSDRIVER) DSVPHostFsChannel::DoControl()");
DP("DoControl Function %d", aFunction);
TInt err = KErrGeneral;
/* There should be a good reason to use a control rather than a request. */
if (KErrNone != err)
{
if (err == KErrNotSupported)
{
err = KErrNone; // trap KErrNotSupported
}
DP("** (SVPHOSTFSDRIVER) Error %d from control function", err);
}
return err;
}
void DSVPHostFsChannel::HandleMsg(TMessageBase* aMsg)
{
TThreadMessage& m = *(TThreadMessage*)aMsg;
TInt id = m.iValue;
DP("** (SVPHOSTFSDRIVER) DSVPHostFsChannel::HandleMsg() %x(%d)", id, id);
if (id == (TInt)ECloseMsg)
{
m.Complete(KErrNone, EFalse);
return;
}
if (id == KMaxTInt)
{
// DoCancel
DoCancel(m.Int0());
m.Complete(KErrNone, ETrue);
return;
}
if (id < 0)
{
// DoRequest
TRequestStatus* pStatus = (TRequestStatus*)m.Ptr0();
TInt r = DoRequest(~id, pStatus, m.Ptr1(), m.Ptr2());
// if (r != KErrNone)
Kern::RequestComplete(iClientThread,pStatus,r);
m.Complete(KErrNone, ETrue);
}
else
{
// DoControl
TInt r = DoControl(id, m.Ptr0(), m.Ptr1());
m.Complete(r, ETrue);
}
}
TInt DSVPHostFsChannel::MkDir(TSVPHostFsMkDirInfo* aInfo)
{
DP("** (SVPHOSTFSDRIVER) DSVPHostFsChannel::MkDir()");
TSVPHostFsMkDirInfo info;
TInt err = KErrNone;
RET_IF_ERROR(err, Kern::ThreadRawRead(iClientThread, aInfo, (TUint8*)&info, sizeof(TSVPHostFsMkDirInfo)));
if (!info.iName)
return KErrArgument;
TUint16 pathData[KMaxPath];
RET_IF_ERROR(err, Kern::ThreadRawRead(iClientThread, info.iName, (TUint8*)pathData, info.iLength*2));
TUint32 device = iDriveMap[info.iDrive];
SVPWriteReg(device, EArg0, Epoc::LinearToPhysical((TUint32)pathData));
SVPWriteReg(device, EArg1, info.iLength);
SVPWriteReg(device, EArg2, info.iFlags);
SVPInvoke(device, RSVPHostFsDriver::EMkDir);
//return SVPReadReg(device, EResult);
err = SVPReadReg(device, EResult);
if(err == KErrPathNotFound)
err = KErrNotFound;
return err;
}
TInt DSVPHostFsChannel::RmDir(TSVPHostFsRmDirInfo* aInfo)
{
DP("** (SVPHOSTFSDRIVER) DSVPHostFsChannel::RmDir()");
TSVPHostFsRmDirInfo info;
TInt err = KErrNone;
RET_IF_ERROR(err, Kern::ThreadRawRead(iClientThread, aInfo, (TUint8*)&info, sizeof(TSVPHostFsRmDirInfo)));
if (!info.iName)
return KErrArgument;
TUint16 pathData[KMaxPath];
RET_IF_ERROR(err, Kern::ThreadRawRead(iClientThread, info.iName, (TUint8*)pathData, info.iLength*2));
TUint32 device = iDriveMap[info.iDrive];
SVPWriteReg(device, EArg0, Epoc::LinearToPhysical((TUint32)pathData));
SVPWriteReg(device, EArg1, info.iLength);
SVPInvoke(device, RSVPHostFsDriver::ERmDir);
return SVPReadReg(device, EResult);
}
TInt DSVPHostFsChannel::Delete(TSVPHostFsDeleteInfo* aInfo)
{
DP("** (SVPHOSTFSDRIVER) DSVPHostFsChannel::Delete()");
TSVPHostFsDeleteInfo info;
TInt err = KErrNone;
RET_IF_ERROR(err, Kern::ThreadRawRead(iClientThread, aInfo, (TUint8*)&info, sizeof(TSVPHostFsDeleteInfo)));
if (!info.iName)
return KErrArgument;
TUint16 pathData[KMaxPath];
RET_IF_ERROR(err, Kern::ThreadRawRead(iClientThread, info.iName, (TUint8*)pathData, info.iLength*2));
TUint32 device = iDriveMap[info.iDrive];
SVPWriteReg(device, EArg0, Epoc::LinearToPhysical((TUint32)pathData));
SVPWriteReg(device, EArg1, info.iLength);
SVPInvoke(device, RSVPHostFsDriver::EDelete);
return SVPReadReg(device, EResult);
}
TInt DSVPHostFsChannel::Rename(TSVPHostFsRenameInfo* aInfo)
{
DP("** (SVPHOSTFSDRIVER) DSVPHostFsChannel::Rename()");
TSVPHostFsRenameInfo info;
TInt err = KErrNone;
RET_IF_ERROR(err, Kern::ThreadRawRead(iClientThread, aInfo, (TUint8*)&info, sizeof(TSVPHostFsRenameInfo)));
if (!info.iOldName)
return KErrArgument;
if (!info.iNewName)
return KErrArgument;
TUint16 oldPathData[KMaxPath];
RET_IF_ERROR(err, Kern::ThreadRawRead(iClientThread, info.iOldName, (TUint8*)oldPathData, info.iOldLength*2));
TUint16 newPathData[KMaxPath];
RET_IF_ERROR(err, Kern::ThreadRawRead(iClientThread, info.iNewName, (TUint8*)newPathData, info.iNewLength*2));
TUint32 device = iDriveMap[info.iDrive];
SVPWriteReg(device, EArg0, Epoc::LinearToPhysical((TUint32)oldPathData));
SVPWriteReg(device, EArg1, info.iOldLength);
SVPWriteReg(device, EArg2, Epoc::LinearToPhysical((TUint32)newPathData));
SVPWriteReg(device, EArg3, info.iNewLength);
SVPInvoke(device, RSVPHostFsDriver::ERename);
return SVPReadReg(device, EResult);
}
TInt DSVPHostFsChannel::Replace(TSVPHostFsReplaceInfo* aInfo)
{
DP("** (SVPHOSTFSDRIVER) DSVPHostFsChannel::Replace()");
TSVPHostFsReplaceInfo info;
TInt err = KErrNone;
RET_IF_ERROR(err, Kern::ThreadRawRead(iClientThread, aInfo, (TUint8*)&info, sizeof(TSVPHostFsReplaceInfo)));
if (!info.iOldName)
return KErrArgument;
if (!info.iNewName)
return KErrArgument;
TUint16 oldPathData[KMaxPath];
RET_IF_ERROR(err, Kern::ThreadRawRead(iClientThread, info.iOldName, (TUint8*)oldPathData, info.iOldLength*2));
TUint16 newPathData[KMaxPath];
RET_IF_ERROR(err, Kern::ThreadRawRead(iClientThread, info.iNewName, (TUint8*)newPathData, info.iNewLength*2));
TUint32 device = iDriveMap[info.iDrive];
SVPWriteReg(device, EArg0, Epoc::LinearToPhysical((TUint32)oldPathData));
SVPWriteReg(device, EArg1, info.iOldLength);
SVPWriteReg(device, EArg2, Epoc::LinearToPhysical((TUint32)newPathData));
SVPWriteReg(device, EArg3, info.iNewLength);
SVPInvoke(device, RSVPHostFsDriver::EReplace);
return SVPReadReg(device, EResult);
}
TInt DSVPHostFsChannel::Entry(TSVPHostFsEntryInfo* aInfo)
{
DP("** (SVPHOSTFSDRIVER) DSVPHostFsChannel::Entry()");
TSVPHostFsEntryInfo info;
TInt err = KErrNone;
RET_IF_ERROR(err, Kern::ThreadRawRead(iClientThread, aInfo, (TUint8*)&info, sizeof(TSVPHostFsEntryInfo)));
if (!info.iName)
return KErrArgument;
TUint16 pathData[KMaxPath];
RET_IF_ERROR(err, Kern::ThreadRawRead(iClientThread, info.iName, (TUint8*)pathData, info.iLength*2));
TUint32 device = iDriveMap[info.iDrive];
SVPWriteReg(device, EArg0, Epoc::LinearToPhysical((TUint32)pathData));
SVPWriteReg(device, EArg1, info.iLength);
SVPInvoke(device, RSVPHostFsDriver::EEntry);
//RET_IF_ERROR(err, SVPReadReg(device, EResult));
err = SVPReadReg(device, EResult);
if(err!=KErrNone)
{
if(err == KErrPathNotFound)
err = KErrNotFound;
return err;
}
TUint32 att = SVPReadReg(device, EArg0);
TUint32 modified = SVPReadReg(device, EArg1);
TUint32 filesize = SVPReadReg(device, EArg2);
// TODO: Yuk! Hack alert! Say EWindows for now. But really should probably say EUnknown,
// since the device won't tell us. Not sure if it can (easily) given remote mounting etc.
// However this probably delays the problem. On the other hand it is probably best to make
// the file service guess, since it need only guess once, and cache its guess.
TUint32 filetimetype = EWindows;
RET_IF_ERROR(err, Kern::ThreadRawWrite(iClientThread, &aInfo->iAtt, (TUint8*)&att, sizeof(att)));
RET_IF_ERROR(err, Kern::ThreadRawWrite(iClientThread, &aInfo->iModified, (TUint8*)&modified, sizeof(modified)));
RET_IF_ERROR(err, Kern::ThreadRawWrite(iClientThread, &aInfo->iSize, (TUint8*)&filesize, sizeof(filesize)));
RET_IF_ERROR(err, Kern::ThreadRawWrite(iClientThread, &aInfo->iTimeType, (TUint8*)&filetimetype, sizeof(filetimetype)));
return KErrNone;
}
TInt DSVPHostFsChannel::SetEntry(TSVPHostFsSetEntryInfo* aInfo)
{
DP("** (SVPHOSTFSDRIVER) DSVPHostFsChannel::SetEntry()");
return KErrNotSupported;
}
TInt DSVPHostFsChannel::Flush(TUint32 aDrive)
{
DP("** (SVPHOSTFSDRIVER) DSVPHostFsChannel::Flush()");
TUint32 device = iDriveMap[aDrive];
SVPInvoke(device, RSVPHostFsDriver::EFileFlushAll);
return KErrNone;
}
TInt DSVPHostFsChannel::DirOpen(TSVPHostFsDirOpenInfo* aInfo)
{
DP("** (SVPHOSTFSDRIVER) DSVPHostFsChannel::DirOpen()");
TSVPHostFsDirOpenInfo info;
TInt err = KErrNone;
RET_IF_ERROR(err, Kern::ThreadRawRead(iClientThread, aInfo, (TUint8*)&info, sizeof(TSVPHostFsDirOpenInfo)));
if (!info.iName)
return KErrArgument;
TUint16 pathData[KMaxPath];
RET_IF_ERROR(err, Kern::ThreadRawRead(iClientThread, info.iName, (TUint8*)pathData, info.iLength*2));
TUint32 device = iDriveMap[info.iDrive];
SVPWriteReg(device, EArg0, Epoc::LinearToPhysical((TUint32)pathData));
SVPWriteReg(device, EArg1, info.iLength);
SVPInvoke(device, RSVPHostFsDriver::EDirOpen);
//RET_IF_ERROR(err, SVPReadReg(device, EResult));
err = SVPReadReg(device, EResult);
if(err!=KErrNone)
{
if(err==KErrPathNotFound)
err=KErrNotFound;
return err;
}
// handle is in arg 0
TUint32 handle = SVPReadReg(device, EArg0);
return Kern::ThreadRawWrite(iClientThread, &aInfo->iHandle, (TUint8*)&handle, sizeof(handle));
}
TInt DSVPHostFsChannel::FileOpen(TSVPHostFsFileOpenInfo* aInfo)
{
DP("** (SVPHOSTFSDRIVER) DSVPHostFsChannel::FileOpen()");
TSVPHostFsFileOpenInfo info;
TInt err = KErrNone;
RET_IF_ERROR(err, Kern::ThreadRawRead(iClientThread, aInfo, (TUint8*)&info, sizeof(TSVPHostFsFileOpenInfo)));
if (!info.iName)
return KErrArgument;
TUint16 pathData[KMaxPath];
RET_IF_ERROR(err, Kern::ThreadRawRead(iClientThread, info.iName, (TUint8*)pathData, info.iLength*2));
TUint32 device = iDriveMap[info.iDrive];
SVPWriteReg(device, EArg0, Epoc::LinearToPhysical((TUint32)pathData));
SVPWriteReg(device, EArg1, info.iLength);
SVPWriteReg(device, EArg2, info.iMode);
SVPWriteReg(device, EArg3, info.iOpen);
SVPInvoke(device, RSVPHostFsDriver::EFileOpen);
//RET_IF_ERROR(err, SVPReadReg(device, EResult));
err = SVPReadReg(device, EResult);
if(err!=KErrNone)
{
if(err == KErrPathNotFound)
err = KErrNotFound;
return err;
}
TUint32 handle = SVPReadReg(device, EArg0);
TUint32 att = SVPReadReg(device, EArg1);
TUint32 modified = SVPReadReg(device, EArg2);
TUint32 size = SVPReadReg(device, EArg3);
TUint32 timeType = EWindows;
RET_IF_ERROR(err, Kern::ThreadRawWrite(iClientThread, &aInfo->iHandle, (TUint8*)&handle, sizeof(handle)));
RET_IF_ERROR(err, Kern::ThreadRawWrite(iClientThread, &aInfo->iAtt, (TUint8*)&att, sizeof(att)));
RET_IF_ERROR(err, Kern::ThreadRawWrite(iClientThread, &aInfo->iModified, (TUint8*)&modified, sizeof(modified)));
RET_IF_ERROR(err, Kern::ThreadRawWrite(iClientThread, &aInfo->iSize, (TUint8*)&size, sizeof(size)));
return Kern::ThreadRawWrite(iClientThread, &aInfo->iTimeType, (TUint8*)&timeType, sizeof(timeType));
}
TInt DSVPHostFsChannel::FileClose(TUint32 aDrive, TUint32 aHandle)
{
DP("** (SVPHOSTFSDRIVER) DSVPHostFsChannel::FileClose()");
TUint32 device = iDriveMap[aDrive];
SVPWriteReg(device, EArg0, aHandle);
SVPInvoke(device, RSVPHostFsDriver::EFileClose);
return SVPReadReg(device, EResult);
}
TInt DSVPHostFsChannel::FileRead(TSVPHostFsFileReadInfo* aInfo)
{
DP("** (SVPHOSTFSDRIVER) DSVPHostFsChannel::FileRead()");
char buf[0x400];
TSVPHostFsFileReadInfo info;
TInt err = KErrNone;
RET_IF_ERROR(err, Kern::ThreadRawRead(iClientThread, aInfo, (TUint8*)&info, sizeof(TSVPHostFsFileReadInfo)));
DP("** (SVPHOSTFSDRIVER) DSVPHostFsChannel::FileRead handle %d length %d pos %d phys_addr 0x%08x info.iBuf 0x%08x",
info.iHandle, info.iLength, info.iPos, Epoc::LinearToPhysical((TUint32)buf), info.iBuf);
TUint32 device = iDriveMap[info.iDrive];
SVPWriteReg(device, EArg0, info.iHandle);
SVPWriteReg(device, EArg1, info.iPos);
SVPWriteReg(device, EArg2, Epoc::LinearToPhysical((TUint32)buf));
SVPWriteReg(device, EArg3, info.iLength);
SVPInvoke(device, RSVPHostFsDriver::EFileRead);
RET_IF_ERROR(err, SVPReadReg(device, EResult));
TUint32 len = SVPReadReg(device, EArg0);
DP("** (SVPHOSTFSDRIVER) Read %d bytes", len);
RET_IF_ERROR(err, Kern::ThreadRawWrite(iClientThread, &aInfo->iLength, (TUint8*)&len, sizeof(len)));
return Kern::ThreadRawWrite(iClientThread, (TUint8*)info.iBuf, (TUint8*)&buf, len);
}
TInt DSVPHostFsChannel::FileWrite(TSVPHostFsFileWriteInfo* aInfo)
{
DP("** (SVPHOSTFSDRIVER) DSVPHostFsChannel::FileWrite()");
char buf[0x400];
TSVPHostFsFileWriteInfo info;
TInt err = KErrNone;
RET_IF_ERROR(err, Kern::ThreadRawRead(iClientThread, aInfo, (TUint8*)&info, sizeof(TSVPHostFsFileWriteInfo)));
DP("** (SVPHOSTFSDRIVER) DSVPHostFsChannel::FileWrite handle %d length %d pos %d phys_addr 0x%08x info.iBuf 0x%08x",
info.iHandle, info.iLength, info.iPos, Epoc::LinearToPhysical((TUint32)buf), info.iBuf);
RET_IF_ERROR(err, Kern::ThreadRawRead(iClientThread, (TUint8 *)info.iBuf, buf, info.iLength));
TUint32 device = iDriveMap[info.iDrive];
SVPWriteReg(device, EArg0, info.iHandle);
SVPWriteReg(device, EArg1, info.iPos);
SVPWriteReg(device, EArg2, Epoc::LinearToPhysical((TUint32)buf));
SVPWriteReg(device, EArg3, info.iLength);
SVPInvoke(device, RSVPHostFsDriver::EFileWrite);
// RET_IF_ERROR(err, SVPReadReg(device, EResult));
err = SVPReadReg(device, EResult);
if(err!=KErrNone)
{
if(err == KErrPathNotFound)
err = KErrNotFound;
return err;
}
TUint32 len = SVPReadReg(device, EArg0);
DP("** (SVPHOSTFSDRIVER) Wrote %d bytes", len);
return Kern::ThreadRawWrite(iClientThread, &aInfo->iLength, (TUint8*)&len, sizeof(len));
}
TInt DSVPHostFsChannel::FileSetSize(TSVPHostFsFileSetSizeInfo* aInfo)
{
DP("** (SVPHOSTFSDRIVER) DSVPHostFsChannel::FileSetSize()");
TSVPHostFsFileSetSizeInfo info;
TInt err = KErrNone;
RET_IF_ERROR(err, Kern::ThreadRawRead(iClientThread, aInfo, (TUint8*)&info, sizeof(TSVPHostFsFileSetSizeInfo)));
TUint32 device = iDriveMap[info.iDrive];
SVPWriteReg(device, EArg0, info.iHandle);
SVPWriteReg(device, EArg1, info.iLength);
SVPInvoke(device, RSVPHostFsDriver::EFileSetSize);
TUint32 res = SVPReadReg(device, EResult);
RET_IF_ERROR(err, res);
return res;
}
TInt DSVPHostFsChannel::FileSetEntry(TSVPHostFsSetEntryInfo* aInfo)
{
DP("** (SVPHOSTFSDRIVER) DSVPHostFsChannel::FileSetEntry()");
return KErrNone;
}
TInt DSVPHostFsChannel::DirClose(TUint32 aDrive, TUint32 aHandle)
{
DP("** (SVPHOSTFSDRIVER) DSVPHostFsChannel::DirClose()");
TUint32 device = iDriveMap[aDrive];
SVPWriteReg(device, EArg0, aHandle);
SVPInvoke(device, RSVPHostFsDriver::EDirClose);
return SVPReadReg(device, EResult);
}
TInt DSVPHostFsChannel::DirRead(TSVPHostFsDirReadInfo* aInfo)
{
DP("** (SVPHOSTFSDRIVER) DSVPHostFsChannel::DirRead()");
TUint16 name[KMaxPath];
TSVPHostFsDirReadInfo info;
TInt err = KErrNone;
RET_IF_ERROR(err, Kern::ThreadRawRead(iClientThread, aInfo, (TUint8*)&info, sizeof(TSVPHostFsDirReadInfo)));
TUint32 device = iDriveMap[info.iDrive];
SVPWriteReg(device, EArg0, info.iHandle);
SVPWriteReg(device, EArg1, Epoc::LinearToPhysical((TUint32)name));
SVPWriteReg(device, EArg2, KMaxPath);
SVPInvoke(device, RSVPHostFsDriver::EDirRead);
RET_IF_ERROR(err, SVPReadReg(device, EResult));
TUint32 att = SVPReadReg(device, EArg0);
TUint32 modified = SVPReadReg(device, EArg1);
TUint32 filesize = SVPReadReg(device, EArg2);
TUint32 namesize = SVPReadReg(device, EArg3);
// TODO: Yuk! Hack alert! Say EWindows for now. But really should probably say EUnknown,
// since the device won't tell us. Not sure if it can (easily) given remote mounting etc.
// However this probably delays the problem. On the other hand it is probably best to make
// the file service guess, since it need only guess once, and cache its guess.
TUint32 filetimetype = EWindows;
RET_IF_ERROR(err, Kern::ThreadRawWrite(iClientThread, &aInfo->iAtt, (TUint8*)&att, sizeof(att)));
RET_IF_ERROR(err, Kern::ThreadRawWrite(iClientThread, &aInfo->iModified, (TUint8*)&modified, sizeof(modified)));
RET_IF_ERROR(err, Kern::ThreadRawWrite(iClientThread, &aInfo->iSize, (TUint8*)&filesize, sizeof(filesize)));
RET_IF_ERROR(err, Kern::ThreadRawWrite(iClientThread, &aInfo->iTimeType, (TUint8*)&filetimetype, sizeof(filetimetype)));
RET_IF_ERROR(err, Kern::ThreadRawWrite(iClientThread, &aInfo->iLength, (TUint8*)&namesize, sizeof(namesize)));
return Kern::ThreadRawWrite(iClientThread, &aInfo->iName, (TUint8*)&name, namesize * sizeof(TUint16));
}
TInt DSVPHostFsChannel::GetID(TUint32 aDrive, TUint32 * aId)
{
DP("** (SVPHOSTFSDRIVER) DSVPHostFsChannel::GetID");
TUint32 device = iDriveMap[aDrive];
TUint32 id = SVPReadReg(device, EDeviceID);
return Kern::ThreadRawWrite(iClientThread, aId, &id, sizeof(TUint32));
}
TInt DSVPHostFsChannel::GetDriveMap(TAny * aMap)
{
DP("** (SVPHOSTFSDRIVER) DSVPHostFsChannel::GetDriveMap");
return Kern::ThreadRawWrite(iClientThread, aMap, iDriveMap, sizeof(iDriveMap));
}
DECLARE_EXTENSION_LDD()
{
DP("** (SVPHOSTFSDRIVER) DSVPHostFsDriverFactory created");
return new DSVPHostFsDriverFactory;
}
DECLARE_STANDARD_EXTENSION()
{
DP("** (SVPHOSTFSDRIVER) SVPHostFs extension entry point");
DP("** (SVPHOSTFSDRIVER) Creating LocDrv device");
TInt r;
DSVPHostFsDriverFactory* device = new DSVPHostFsDriverFactory;
if (device==NULL)
r=KErrNoMemory;
else
r=Kern::InstallLogicalDevice(device);
DP("** (SVPHOSTFSDRIVER) Installing LocDrv device in kernel returned %d",r);
return r;
}