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) 2008-2009 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:
// f32\sfile\sf_notifier.cpp
//
//
#include "sf_notifier.h"
#include "sf_file_cache.h"
CFsObjectCon* FsNotificationManager::iNotifyRequests = NULL;
RFastLock FsNotificationManager::iChainLock;
TInt FsNotificationManager::iFilterRegister[];
CFsPool<CFsNotificationBlock>* FsNotificationManager::iPool;
CFsNotificationPathFilter* CFsNotificationPathFilter::NewL(const TDesC& aPath, const TDesC& aFilename)
{
CFsNotificationPathFilter* self = new (ELeave) CFsNotificationPathFilter();
CleanupStack::PushL(self);
self->ConstructL(aPath,aFilename);
CleanupStack::Pop(self);
return self;
}
void CFsNotificationPathFilter::ConstructL(const TDesC& aPath, const TDesC& aFilename)
{
//Allocate the path and filename
iPath = aPath.AllocL();
iFilename = aFilename.AllocL();
}
CFsNotificationPathFilter::~CFsNotificationPathFilter()
{
if(iFilename)
delete iFilename;
if(iPath)
delete iPath;
}
CFsNotificationPathFilter::CFsNotificationPathFilter()
: iPath(NULL), iFilename(NULL)
{
}
CFsNotifyRequest* CFsNotifyRequest::NewL()
{
CFsNotifyRequest* self = new(ELeave) CFsNotifyRequest();
CleanupStack::PushL(self);
self->ConstructL();
CleanupStack::Pop();
return self;
}
void CFsNotifyRequest::ConstructL()
{
User::LeaveIfError(iClientSyncLock.CreateLocal());
User::LeaveIfError(iTailSemaphore.CreateLocal());
}
CFsNotifyRequest::CFsNotifyRequest()
{
SetActive(EInactive);
}
CFsNotifyRequest::~CFsNotifyRequest()
{
__PRINT(_L("CFsNotifyRequest::~CFsNotifyRequest()"));
RemoveFilters();
if(ClientMsgHandle()!=0)
iClientMsg.Complete(KErrCancel);
if(iBufferMsg.Handle()!=0)
iBufferMsg.Complete(KErrCancel);
iClientSyncLock.Close();
iTailSemaphore.Close();
}
/*
* Returns the Array of TypeFilters.
* Each TFsNotificationTypeFilter matches to a particular TFsNotification::TFsNotificationType
* and has a CFsNotificationFilter which stores the iPath and iName associated with this filter type.
*
* (These are speerated so that we can have multiple type filters for every name filter)
*/
TFsNotificationTypeArray* CFsNotifyRequest::FilterTypeList(TInt aDrive,TInt aIndex)
{
__ASSERT_DEBUG(aIndex < KNumRegisterableFilters,Fault(ENotificationFault));
TFsNotificationTypeDriveArray* filters = iDrivesTypesFiltersMap.Find(aDrive);
if(filters)
return &((*filters)[aIndex]);
else
return NULL;
}
//Sets filter's notification request status
void CFsNotifyRequest::SetActive(TNotifyRequestStatus aValue)
{
iNotifyRequestStatus = aValue;
}
CFsNotifyRequest::TNotifyRequestStatus CFsNotifyRequest::ActiveStatus()
{
return (TNotifyRequestStatus)iNotifyRequestStatus;
}
//Completes and frees notification request
//In case of KErrNone must be called with iChainLock already held
void CFsNotifyRequest::CompleteClientRequest(TInt aReason,TBool aIsCancel)
{
__PRINT(_L("CFsNotifyRequest::CompleteClientRequest()"));
iClientSyncLock.Wait();
if(aReason==KErrNone)
{
__PRINT(_L("CFsNotifyRequest::CompleteClientRequest() - Complete KErrNone"));
//Synchronising the current iServerTail to the client.
iClientHead = iClientTail; //Client has read all previous entries
iClientTail = iServerTail; //Client's new tail is everything the server has been writing since this function was last called
TInt clientTail = iClientTail;
TPckg<TInt> tailDes(clientTail);
iClientMsg.Write(KMsgPtr0,tailDes);
}
else if(aIsCancel)
{
__PRINT(_L("CFsNotifyRequest::CompleteClientRequest() - Complete isCancel"));
iServerTail = 0;
iClientTail = 0;
iClientHead = 0;
TPckgBuf<TInt> tailDes(iClientTail);
//Perhaps client has crashed so no point checking return:
iClientMsg.Write(KMsgPtr0,tailDes);
}
__PRINT(_L("CFsNotifyRequest::CompleteClientRequest() - Complete Request"));
iClientMsg.Complete(aReason);
iClientSyncLock.Signal();
}
TInt CFsNotifyRequest::SynchroniseBuffer(CFsNotificationBlock& aBlock,TInt aServerTail, TInt aNotificationSize)
{
TPtrC8 blockDes((TText8*)aBlock.Data(),aNotificationSize);
return iBufferMsg.Write(KMsgPtr0,blockDes,aServerTail);
}
//Removes all filters.
//Deletes iPath, iFilename
TInt CFsNotifyRequest::RemoveFilters()
{
__PRINT(_L("CFsNotifyRequest::RemoveFilters()"));
//For every drive with filters set...
RHashMap<TInt,TFsNotificationTypeDriveArray>::TIter iterator(iDrivesTypesFiltersMap);
TFsNotificationTypeDriveArray* currentDriveFilters = (TFsNotificationTypeDriveArray*)iterator.NextValue();
while(currentDriveFilters)
{
//For every filter array (1 for each type of TFsNotificationType)
for(TInt filterType = 0; filterType < KNumRegisterableFilters; filterType++)
{
TFsNotificationTypeArray& filterList = (*currentDriveFilters)[filterType];
TInt filterTypeCount = filterList.Count();
if(filterTypeCount)
{
//Remove this type from the filter register
TFsNotification::TFsNotificationType type = FsNotificationHelper::NotificationType(filterType);
FsNotificationManager::SetFilterRegister(type,EFalse,filterTypeCount);
}
filterList.Reset();
filterList.Close();
}
currentDriveFilters->Reset();
currentDriveFilters->Close();
iterator.RemoveCurrent();
currentDriveFilters = (TFsNotificationTypeDriveArray*)iterator.NextValue();
}
iDrivesTypesFiltersMap.Close();
iPathFilterList.ResetAndDestroy();
iPathFilterList.Close();
return KErrNone;
}
TInt CFsNotifyRequest::AddFilterL(CFsNotificationPathFilter* aFilter, TUint aMask)
{
__PRINT(_L("CFsNotifyRequest::AddFilterL"));
iPathFilterList.AppendL(aFilter);
//Get the drive number to so know which drive array to add the filter(s) to.
TInt driveNum = FsNotificationHelper::DriveNumber(aFilter->iPath->Des());
TInt notifyType = 1;
TInt r = KErrNone;
//Create/Add a TypeFilter for each type in aMask
while((notifyType & KNotificationValidFiltersMask) && (aMask & KNotificationValidFiltersMask))
{
//If this notifyType is present in aMask
if(aMask & notifyType)
{
TFsNotificationTypeFilter typeFilter;
typeFilter.iNotificationType = (TFsNotification::TFsNotificationType) notifyType;
typeFilter.iPathFilter = aFilter;
TInt index = FsNotificationHelper::TypeToIndex(typeFilter.iNotificationType);
//If the per-drive-filterLists have not
//been set up yet then do so now.
TFsNotificationTypeDriveArray* driveArray = iDrivesTypesFiltersMap.Find(driveNum);
if(!driveArray)
{
TFsNotificationTypeDriveArray dArray;
r = iDrivesTypesFiltersMap.Insert(driveNum,dArray);
User::LeaveIfError(r);
driveArray = iDrivesTypesFiltersMap.Find(driveNum);
//Create filter arrays for every type
for(TInt i =0; i< KNumRegisterableFilters; i++)
{
TFsNotificationTypeArray filterArray;
driveArray->Append(filterArray);
}
}
TFsNotificationTypeArray& filterArray= (*driveArray)[index];
filterArray.Append(typeFilter);
//Remove this type from our mask
//and continue
aMask ^= notifyType;
}
notifyType <<= 1;
}
return r;
}
TInt CFsNotifyRequest::SetClientMessage(const RMessage2& aClientMsg)
{
__PRINT(_L("CFsNotifyRequest::SetClientMessage"));
iClientMsg = aClientMsg;
return KErrNone;
}
TInt CFsNotifyRequest::ClientMsgHandle()
{
return iClientMsg.Handle();
}
void CFsNotifyRequest::CloseNotification()
{
__PRINT(_L("CFsNotifyRequest::CloseNotification()"));
iBufferMsg.Complete(KErrNone);
if(ClientMsgHandle()!=0)
CompleteClientRequest(KErrCancel,EFalse);
}
//New notification request from client
void FsNotificationManager::AddNotificationRequestL(CFsNotifyRequest* aNotificationRequest)
{
__PRINT(_L("FsNotificationManager::AddNotificationRequestL"));
Lock();
iNotifyRequests->AddL(aNotificationRequest,ETrue);
Unlock();
}
//Notification request cancelled
//Must be called with iChainLock held
void FsNotificationManager::RemoveNotificationRequest(CFsNotifyRequest* aNotificationRequest)
{
__PRINT(_L("FsNotificationManager::RemoveNotificationRequest"));
iNotifyRequests->Remove(aNotificationRequest,ETrue);
}
void FsNotificationManager::RemoveNotificationRequest(CSessionFs* aSession)
{
__PRINT(_L("FsNotificationManager::RemoveNotificationRequest(CSessionFs*)"));
TInt count = Count();
if(count)
{
Lock();
count = Count(); //check again just incase it's changed before we got the lock
if(count)
{
for(TInt i=0; i < count; i++)
{
//Remove all notification requests associated with this session.
CFsNotifyRequest* notify = (CFsNotifyRequest*)(*iNotifyRequests)[i];
if(notify->iSession == aSession)
{
RemoveNotificationRequest(notify);
delete notify;
}
}
if(!Count())
{
__PRINT(_L("FsNotificationManager::RemoveNotificationRequest(CSessionFs*) - Closing Manager"));
Close();
}
}
Unlock();
}
}
TBool FsNotificationManager::IsInitialised()
{
__PRINT(_L("FsNotificationManager::IsInitialised()"));
return (TBool)iNotifyRequests;
}
void FsNotificationManager::OpenL()
{
__PRINT(_L("FsNotificationManager::InitialiseL()"));
if(!iNotifyRequests)
{
if(iChainLock.Handle() == 0)
{
User::LeaveIfError(iChainLock.CreateLocal());
}
iNotifyRequests = TheContainer->CreateL();
iPool = CFsPool<CFsNotificationBlock>::New(KNotificationPoolSize);
User::LeaveIfNull(iPool);
}
}
void FsNotificationManager::SetFilterRegister(TUint aFilter, TBool aAdd, TInt aCount)
{
__PRINT2(_L("FsNotificationManager::SetFilterRegister(aFilter=%u,aAdd=%d)"),aFilter,aAdd);
TInt index = FsNotificationHelper::TypeToIndex((TFsNotification::TFsNotificationType)aFilter);
TInt& fr = FsNotificationManager::FilterRegister(index);
__ASSERT_DEBUG((aAdd) ? fr >= 0 : fr > 0,Fault(ENotificationFault));
fr+= aAdd ? aCount : -aCount;
}
void FsNotificationManager::SetFilterRegisterMask(TUint aMask,TBool aAdd)
{
__PRINT(_L("FsNotificationManager::RegisterFilterMask()"));
TInt notifyType = 1;
while(notifyType & KNotificationValidFiltersMask && aMask & KNotificationValidFiltersMask)
{
if(aMask & notifyType)
{
SetFilterRegister(notifyType,aAdd);
aMask ^= notifyType;
}
notifyType <<= 1;
}
}
TInt& FsNotificationManager::FilterRegister(TInt aIndex)
{
__PRINT(_L("FsNotificationManager::FilterRegister()"));
__ASSERT_DEBUG(aIndex < KNumRegisterableFilters,Fault(ENotificationFault));
return iFilterRegister[aIndex];
}
//Must be called with the iChainLock
void FsNotificationManager::Close()
{
__PRINT(_L("FsNotificationManager::Stop()"));
CFsObjectCon*& request = iNotifyRequests;
if(request)
{
TheContainer->Delete(request);
delete iPool;
iPool = NULL;
}
request = NULL;
}
TInt FsNotificationManager::Count()
{
__PRINT(_L("FsNotificationManager::Count()"));
if(IsInitialised())
return iNotifyRequests->Count();
return 0;
}
void FsNotificationManager::Lock()
{
__PRINT(_L("--->FsNotificationManager::Lock()"));
iChainLock.Wait();
}
void FsNotificationManager::Unlock()
{
__PRINT(_L("<---FsNotificationManager::Unlock()"));
iChainLock.Signal();
}
//Get the notification type based on the TFsMessage function
void FsNotificationHelper::NotificationType(TInt aFunction,TFsNotification::TFsNotificationType& aNotificationType)
{
__PRINT(_L("FsNotificationHelper::NotificationType"));
switch(aFunction)
{
case EFsFileWrite:
case EFsFileWriteDirty:
case EFsFileSetSize:
{
aNotificationType = TFsNotification::EFileChange;
break;
}
case EFsRename:
case EFsFileRename:
case EFsReplace:
{
aNotificationType = TFsNotification::ERename;
break;
}
case EFsMkDir:
case EFsFileCreate:
case EFsFileReplace:
{
aNotificationType = TFsNotification::ECreate;
break;
}
case EFsFileSetAtt:
case EFsFileSet:
case EFsSetEntry:
{
aNotificationType = TFsNotification::EAttribute;
break;
}
case EFsDelete:
case EFsRmDir:
{
aNotificationType = TFsNotification::EDelete;
break;
}
case EFsSetVolume:
{
aNotificationType = TFsNotification::EVolumeName;
break;
}
case EFsSetDriveName:
{
aNotificationType = TFsNotification::EDriveName;
break;
}
case EFsDismountFileSystem:
case EFsMountFileSystem:
case EFsFormatNext:
case EFsRawDiskWrite:
case EFsMountFileSystemScan:
{
aNotificationType = TFsNotification::EMediaChange;
break;
}
default:
{
aNotificationType = (TFsNotification::TFsNotificationType)0;
break;
}
}
}
//=====CFsNotificationBlock============================
// Uses CFsPool
CFsNotificationBlock* CFsNotificationBlock::New()
{
return new CFsNotificationBlock();
}
CFsNotificationBlock::CFsNotificationBlock()
{
}
CFsNotificationBlock::~CFsNotificationBlock()
{
//Nothing to do here
}
TAny* CFsNotificationBlock::Data()
{
return (TAny*)&iData;
}
//=====FsNotificationManager===========================
//Get the path of the file, folder or drive name based on the TFsMessage function
void FsNotificationHelper::PathName(CFsClientMessageRequest& aRequest, TDes& aPath)
{
__PRINT(_L("FsNotificationHelper::PathName"));
//Get the notification type
TInt function = aRequest.Operation()->Function();
//Get the filename(s)
switch(function)
{
case EFsFileWrite: //EParseSrc | EFileShare
case EFsFileSetSize: //EParseSrc | EFileShare
case EFsFileSetAtt: //EParseDst | EParseSrc, - should not use these; has share.
case EFsFileSet:
case EFsFileWriteDirty: //EFileShare
{
CFileShare* share = NULL;
CFileCB* file = NULL;
GetFileFromScratch(&aRequest,share,file);
aPath.Append(file->DriveNumber() + 'A');
aPath.Append(':');
aPath.Append(file->FileName().Des());
break;
}
case EFsFileCreate: //EParseSrc
case EFsDelete: //EParseSrc
case EFsSetEntry: //EParseSrc,
case EFsFileRename: //EParseDst | EParseSrc,
case EFsRename: //EParseDst | EParseSrc,
case EFsReplace: //EParseDst | EParseSrc,
case EFsFileReplace: //EParseSrc
{
aPath.Copy(aRequest.Src().FullName());
break;
}
case EFsRmDir: //EParseSrc
case EFsMkDir: //EParseSrc
{
aPath.Copy(aRequest.Src().DriveAndPath());
break;
}
case EFsFormatNext: //EParseSrc
case EFsDismountFileSystem: //0
case EFsMountFileSystem: //0
case EFsSetVolume: //0
case EFsSetDriveName: //ESync
case EFsRawDiskWrite: //EParseSrc
case EFsMountFileSystemScan:
{
_LIT(KFormatDrive,"?:");
TBuf<2> drive;
drive.Append(KFormatDrive);
drive[0] = TText(aRequest.Drive()->DriveNumber() + 'A');
aPath.Copy(drive);
break;
}
default:
ASSERT(0);
break;
}
}
//Get the new path of the file, folder or drive name based on the TFsMessage function
void FsNotificationHelper::NewPathName(CFsClientMessageRequest& aRequest, TPtrC& aNewPath)
{
__PRINT(_L("FsNotificationHelper::NewPathName"));
//Get the notification type
TInt function = aRequest.Operation()->Function();
//Get the filename(s)
switch(function)
{
case EFsFileRename: //EParseDst | EParseSrc,
case EFsRename: //EParseDst | EParseSrc,
case EFsReplace: //EParseDst | EParseSrc,
{
aNewPath.Set(aRequest.Dest().FullName());
break;
}
case EFsSetDriveName: //ESync
{
TFileName name;
aRequest.ReadL(KMsgPtr1, name);
aNewPath.Set(name);
break;
}
case EFsSetVolume: //0
{
TFileName name;
aRequest.ReadL(KMsgPtr0, name);
aNewPath.Set(name);
break;
}
default:
{
ASSERT(0);
break;
}
}
}
//Get the size of the notification based on its type
TInt FsNotificationHelper::NotificationSize(CFsClientMessageRequest& aRequest, TFsNotification::TFsNotificationType aNotificationType, const TDesC& aName)
{
__PRINT(_L("FsNotificationHelper::NotificationSize"));
/*
* If there are no new names, the order of the data in the buffer is:
* Word1 : NotificationSize (2 bytes) , PathSize (2 bytes)
* Word2 : NotificationType (Lower 2 bytes)
* Word(s) : Path (TText8) , [Any sub-class members]
*
* Else for notification types ERename, EVolumeName and EDriveName the order is:
* Word1 : NotificationSize (2 bytes) , PathSize (2 bytes)
* Word2 : NewNameSize (2 bytes) , NotificationType (2 bytes)
* Word(s) : Path (TText8) , NewName (TText8)
*
* EOverflow size: KNotificationHeaderSize
*/
TInt size = KNotificationHeaderSize + Align4(aName.Size());
switch(aNotificationType)
{
//NewName
case TFsNotification::ERename:
case TFsNotification::EVolumeName:
case TFsNotification::EDriveName:
{
TPtrC dest;
NewPathName(aRequest,dest);
size += Align4(dest.Size());
break;
}
case TFsNotification::EFileChange:
{
size += sizeof(TInt64);
break;
}
case TFsNotification::EAttribute:
{
size += sizeof(TUint64);
break;
}
case TFsNotification::ECreate:
case TFsNotification::EDelete:
case TFsNotification::EMediaChange:
{
break;
}
default:
{
ASSERT(0);
break;
}
}
return (TUint16) size;
}
TFsNotification::TFsNotificationType FsNotificationHelper::NotificationType(TInt& aIndex)
{
__PRINT(_L("FsNotificationHelper::NotificationType(TInt)"));
__ASSERT_DEBUG(aIndex < KNumRegisterableFilters, Fault(ENotificationFault));
switch(aIndex) //No break statements here on purpose
{
case 7 : return TFsNotification::EMediaChange;
case 6 : return TFsNotification::EDriveName;
case 5 : return TFsNotification::EVolumeName;
case 4 : return TFsNotification::EDelete;
case 3 : return TFsNotification::EAttribute;
case 2 : return TFsNotification::ECreate;
case 1 : return TFsNotification::ERename;
case 0 : return TFsNotification::EFileChange;
default: ASSERT(0); return (TFsNotification::TFsNotificationType) 0;
}
}
//Get the array index of the notification based on its type
TInt FsNotificationHelper::TypeToIndex(TFsNotification::TFsNotificationType aType)
{
__PRINT(_L("FsNotificationHelper::ArrayIndex"));
TInt index = 0;
switch(aType) //No break statements here on purpose
{
case TFsNotification::EMediaChange: index++;
case TFsNotification::EDriveName: index++;
case TFsNotification::EVolumeName: index++;
case TFsNotification::EDelete: index++;
case TFsNotification::EAttribute: index++;
case TFsNotification::ECreate: index++;
case TFsNotification::ERename: index++;
case TFsNotification::EFileChange: // skip;
default: break;
}
__ASSERT_DEBUG(index < KNumRegisterableFilters, Fault(ENotificationFault));
return index;
}
TInt FsNotificationHelper::DriveNumber(const TPtrC& aPath)
{
if(aPath.Length() >= 2 && ((TChar)aPath[1])==(TChar)':')
{
TChar driveChar = ((TChar)aPath[0]);
driveChar.UpperCase();
TInt driveNum = driveChar-(TChar)'A';
return driveNum;
}
else
{
return KErrNotFound;
}
}
//Get the attributes set and cleared
void FsNotificationHelper::Attributes(CFsClientMessageRequest& aRequest, TUint& aSet, TUint& aClear)
{
__PRINT(_L("FsNotificationHelper::Attributes"));
TInt function = aRequest.Operation()->Function();
const RMessage2& msg = aRequest.Message();
switch(function)
{
case EFsFileSet:
{
aSet = msg.Int1();
aClear = msg.Int2();
break;
}
case EFsFileSetAtt:
{
aSet = msg.Int0();
aClear = msg.Int1();
break;
}
case EFsSetEntry:
{
aSet = msg.Int2();
aClear = msg.Int3();
break;
}
default:
{
ASSERT(0);
break;
}
}
}
TBool CFsNotifyRequest::ValidateNotification(TInt aNotificationSize, TInt& aServerTail)
{
__PRINT(_L("CFsNotifyRequest::ValidateNotification"));
//RDebug::Print(_L("CFsNotifyRequest::ValidateNotification - iServerTail=%d, aServerTail=%d, iClientTail=%d,iClientHead=%d, aNotificationSize=%d"),iServerTail,aServerTail,iClientTail,iClientHead,aNotificationSize);
//
//Start Validation
//
TBool overflow = EFalse;
//Check that we have not filled the buffer
//Also if iClientMsg is present this is the first notification
if (aServerTail == iClientHead && ClientMsgHandle()==0)
{
//Overflow
overflow = ETrue;
return overflow;
}
//Work out remaining size taking account of whether the end position is
//before or after the overflow position.
TInt remainingSize = (iClientHead > aServerTail)
? iClientHead - aServerTail
: iClientBufferSize - (aServerTail - iClientHead);
//In order to ensure that we can always fit in an overflow notification,
//Remove the size of an overflow notification from the total free space in the buffer
remainingSize -= KNotificationHeaderSize;
//Check whether there is any chance of this notification fitting in the buffer
if (aNotificationSize > remainingSize)
{
//Overflow
overflow = ETrue;
}
//Check that the notification fits in a contiguous chunk.
//If we've wrapped around already..
else if (iClientHead > aServerTail)
{
//Does it fit?
if ((iClientHead - aServerTail) < aNotificationSize)
{
//Overflow
overflow = ETrue;
}
}
//Else, We've not wrapped around yet.
//Does it fit at the end?
else if ((iClientBufferSize - aServerTail) < aNotificationSize)
{
//Notification won't fit in the space at the end of the buffer
//Fill end of buffer with KNotificationBufferFiller (if we're not at the very end already)
if(iServerTail != iClientBufferSize)
{
//If there is any dead space it should always be at least 1 word big
TPtrC8 fillerDes((TText8*) &KNotificationBufferFiller, sizeof(TUint));
iBufferMsg.Write(KMsgPtr0, fillerDes, aServerTail);
}
//It doesn't fit at the end,
//does it fit at the beginning?
if (iClientHead < aNotificationSize)
{
//Overflow
overflow = ETrue;
}
//Notification would fit at the beginning...
else
{
//...however we need to ensure that there is
//still space for overflow next time.
if ((iClientHead - aNotificationSize) < KNotificationHeaderSize)
{
overflow = ETrue;
}
else
{
//Everything was ok, update aServerTail
aServerTail = 0;
}
}
}
//
//End Validation
//
return overflow;
}
// Called from FsNotificationManager::HandleChange().
// Sends notifications into the client's buffer.
// If there is a iClientMsg then this is the first time this
// has been called since the client called RequestNotifications.
// In this situation we complete the client request.
TInt CFsNotifyRequest::NotifyChange(CFsClientMessageRequest* aRequest,const TDesC& aName, TFsNotification::TFsNotificationType aNotificationType, CFsNotificationBlock& aBlock)
{
/*
* Different notification types have different data associated with them.
*
* All types EXCEPT for ERename, EVolumeName and EDriveName have the following data
* and are aligned in the buffer like so:
* Word1 : NotificationSize (2 bytes) , PathSize (2 bytes)
* Word2 : NotificationType (Lower 2 bytes)
* Word(s) : Path (TText8) , [Any sub-class members]
*
* Else for notification types ERename, EVolumeName and EDriveName the order is:
* Word1 : NotificationSize (2 bytes) , PathSize (2 bytes)
* Word2 : NewNameSize (2 bytes) , NotificationType (2 bytes)
* Word(s) : Path (TText8) , NewName (TText8)
*
* Overflow notification type doesn't have a name, so its namesize is 0
* and there will be no Word3.
*/
__PRINT(_L("CFsNotifyRequest::NotifyChange()"));
TInt notificationSize = FsNotificationHelper::NotificationSize(*aRequest,aNotificationType,aName);
iClientSyncLock.Wait();
iTailSemaphore.Wait();
TInt tail = iServerTail;
//Validation
TBool overflow = ValidateNotification(notificationSize, tail);
//Now that we know there is enough space in the buffer we can write
//the standard attributes that all notifications have.
//We can store the size of the notification
//and the size of the name in the same word.
TUint16 nameLen = 0; //Overflow has no name
TInt notifSize = KNotificationHeaderSize;
if(!overflow)
{
nameLen = (TUint16)aName.Size();
notifSize = notificationSize;
}
else
{
aNotificationType = TFsNotification::EOverflow;
}
iServerTail = tail + notifSize;
iTailSemaphore.Signal();
TInt writeOffset = 0; //Where to write in the block
//Store notification Size and NameSize (Word1)
TUint sizeNameLen = (notifSize << 16) | nameLen;
memcpy((TText8*)aBlock.Data()+writeOffset,&sizeNameLen,sizeof(TUint));
writeOffset+=sizeof(TUint);
TPtrC newName;
if (aNotificationType == TFsNotification::ERename ||
aNotificationType == TFsNotification::EVolumeName ||
aNotificationType == TFsNotification::EDriveName)
{
FsNotificationHelper::NewPathName(*aRequest,newName);
//Store NewNameSize and notification Type (Word2)
TUint typeNewNameLen = ((TUint16)newName.Size() << 16) | (TUint16)aNotificationType;
memcpy((TText8*)aBlock.Data()+writeOffset,&typeNewNameLen,sizeof(TUint));
}
else
{
//Store notification Type (Word2)
memcpy((TText8*)aBlock.Data()+writeOffset,&aNotificationType,sizeof(TUint));
}
writeOffset+=sizeof(TUint);
CFileShare* share = NULL;
CFileCB* file = NULL;
if(aRequest) //Don't always have a request such as when called from localdrives.
{
GetFileFromScratch(aRequest, share, file);
}
//
//Store UID
/*
TUid uid;
uid.iUid = KErrUnknown;
if(aRequest && aRequest->Operation()->iFunction == EFsFileWriteDirty)
{
uid = aRequest->iUID;
}
else if(aRequest)
{
uid = aRequest->Message().Identity();
}
memcpy((TText8*)aBlock.Data()+writeOffset,&uid.iUid,sizeof(TUint32));
writeOffset+=sizeof(TUint32);
*/
if(!overflow)
{
//Store Name (Word3)
memcpy((TText8*)aBlock.Data()+writeOffset,aName.Ptr(),aName.Size());
writeOffset += Align4(aName.Size());
switch (aNotificationType)
{
case TFsNotification::EFileChange:
{
TInt64 size = 0;
size = file->CachedSize64();
memcpy((TText8*)aBlock.Data()+writeOffset,&size,sizeof(TInt64));
writeOffset += sizeof(TInt64);
break;
}
case TFsNotification::ERename:
case TFsNotification::EVolumeName:
case TFsNotification::EDriveName:
{
//Store NewName
memcpy((TText8*)aBlock.Data()+writeOffset,newName.Ptr(),newName.Size());
writeOffset += Align4(newName.Size());
break;
}
case TFsNotification::EAttribute:
{
TUint set=0;
TUint clear=0;
FsNotificationHelper::Attributes(*aRequest,set,clear);
TUint64 att = MAKE_TUINT64(set,clear);
memcpy((TText8*)aBlock.Data()+writeOffset,&att,sizeof(TUint64));
writeOffset += sizeof(TUint64);
break;
}
default:
{
break;
}
}
}
//Write to client buffer
TInt r = SynchroniseBuffer(aBlock,tail,notifSize);
//Signal the iClientSyncLock.
//When all locks on this are signaled then CompleteClientRequest can be called.
//This signal moves when we have a cache system
iClientSyncLock.Signal();
//We need to complete if this was the first
//write to the client's buffer
if(ClientMsgHandle()!=0 && r==KErrNone)
{
__PRINT4(_L("CFsNotifyRequest::NotifyChange iClientHead(%d) iClientTail(%d) iServerTail(%d) iClientBufferSize(%d)"),iClientHead,iClientTail,iServerTail,iClientBufferSize);
CompleteClientRequest(KErrNone);
}
else if(!overflow)
{
SetActive(CFsNotifyRequest::EOutstanding);
}
else
{
SetActive(CFsNotifyRequest::EOutstandingOverflow);
}
if(r!= KErrNone)
{
//RDebug::Print(_L("sf_notifier.cpp line %d function = %d, r = %d"),__LINE__, aRequest->FsFunction(),r);
//RDebug::Print(_L("iServerTail=%d, tail=%d, iClientBufferSize=%d, overflow=%d"),iServerTail,tail,iClientBufferSize,overflow);
SetActive(CFsNotifyRequest::EInactive);
}
return r;
}
#ifdef SYMBIAN_F32_ENHANCED_CHANGE_NOTIFICATION
//A change has occurred in f32 represented by this
//request object. Work out which CfsNotify’s are interested
// (if any) and call CfsNotifyRequest::NotifyChange.
void FsNotificationManager::HandleChange(CFsClientMessageRequest* aRequest,const TDesC& aOperationName, TFsNotification::TFsNotificationType aType)
{
__PRINT2(_L("FsNotificationManager::HandleChange() aRequest=0x%x, aType=%d"),&aRequest,aType);
Lock(); //ToDo: Read Lock (Read/Write Lock)
if(Count())
{
//Only search while there are filters of this type set up.
TInt index = FsNotificationHelper::TypeToIndex(aType);
TInt& filterCount = FsNotificationManager::FilterRegister(index);
TInt seenFilter = filterCount; //Number of requests set up for this type
//Iterate CFsNotifyRequests
TInt count = iNotifyRequests->Count();
if(aType == TFsNotification::EMediaChange)
seenFilter = count;
//If there aren't any requests then breakout
if(count == 0)
{
Unlock();
return;
}
TInt driveNum = FsNotificationHelper::DriveNumber(aOperationName);
//For every notification request.
for(TInt i=0; i<count && seenFilter; ++i)
{
CFsNotifyRequest* notifyRequest = (CFsNotifyRequest*)(*iNotifyRequests)[i];
CFsNotifyRequest::TNotifyRequestStatus status = notifyRequest->ActiveStatus();
if(! (status==CFsNotifyRequest::EActive ||
status==CFsNotifyRequest::EOutstanding))
{
//Not active; check next notification request
continue;
}
//Check whether we are interested in this change.
//Get the filters associated with this operation on this drive
TFsNotificationTypeArray* filterList = notifyRequest->FilterTypeList(driveNum,index);
DoHandleChange(filterList,seenFilter,aRequest,notifyRequest,aOperationName,aType);
if(aType==TFsNotification::EMediaChange)
continue; //next request
//If there are still filters to check
if(seenFilter)
{
//Check changes that are not tied to a particular drive
filterList = notifyRequest->FilterTypeList(KErrNotFound,index);
DoHandleChange(filterList,seenFilter,aRequest,notifyRequest,aOperationName,aType);
}
}
}
Unlock();
}
//A change has occurred in f32 represented by this
//request object. Work out which CfsNotify’s are interested
// (if any) and call CfsNotifyRequest::NotifyChange.
void FsNotificationManager::HandleChange(CFsClientMessageRequest& aRequest, TFsNotification::TFsNotificationType aType)
{
__PRINT(_L("FsNotificationManager::HandleChange"));
TFileName currentOperationsName;
FsNotificationHelper::PathName(aRequest, currentOperationsName);
if(currentOperationsName.Length())
HandleChange(&aRequest,currentOperationsName,aType);
}
//A change has occurred in f32 represented by this
//request object. Work out which CfsNotify’s are interested
// (if any) and call CfsNotifyRequest::NotifyChange.
void FsNotificationManager::HandleChange(CFsClientMessageRequest& aRequest)
{
if(Count() && aRequest.Message().Handle() != KLocalMessageHandle)
{
__PRINT(_L("FsNotificationManager::HandleChange"));
TFsNotification::TFsNotificationType operationNotificationType;
FsNotificationHelper::NotificationType(aRequest.FsFunction(), operationNotificationType);
HandleChange(aRequest,operationNotificationType);
}
}
////
#else
////
void FsNotificationManager::HandleChange(CFsClientMessageRequest* ,const TDesC&, TFsNotification::TFsNotificationType)
{
return;
}
void FsNotificationManager::HandleChange(CFsClientMessageRequest& , TFsNotification::TFsNotificationType)
{
return;
}
void FsNotificationManager::HandleChange(CFsClientMessageRequest&)
{
return;
}
#endif //SYMBIAN_F32_ENHANCED_CHANGE_NOTIFICATION
//Called from FsNotificationManager::DoHandleChange
FsNotificationManager::TFsNotificationFilterMatch FsNotificationManager::DoMatchFilter(CFsClientMessageRequest* aRequest, const TDesC& aOperationName,CFsNotificationPathFilter& aFilter)
{
TFsNotificationFilterMatch filterMatch = EDifferent;
TParsePtrC parseOp(aOperationName);
TPtrC pathOpDes = parseOp.DriveAndPath();
TPtrC nameOpDes = parseOp.NameAndExt();
TInt pathLength = aFilter.iPath->Des().Length();
TInt nameLength = aFilter.iFilename->Des().Length();
TInt paths = -1;
TInt names = -1;
if(pathLength != 0)
{
paths = pathOpDes.MatchF(aFilter.iPath->Des());
}
else //if no path filter was set up
// then we need to ensure we don't notify on data-caged areas which we shouldn't
{
TInt r = PathCheck(aRequest,aOperationName.Mid(2),&KCapFsSysFileTemp,&KCapFsPriFileTemp,&KCapFsROFileTemp, __PLATSEC_DIAGNOSTIC_STRING("FsNotificationManager::DoHandleChange"));
if(r != KErrNone)
return EContinue; //next filter
}
if(nameLength != 0)
{
names = nameOpDes.MatchF(aFilter.iFilename->Des());
}
//Check: Path & Names Match
if((paths == 0 || pathLength==0) && // paths match &&
(names >= 0 || (nameLength==0 && nameOpDes.Length()==0))) // names match OR there are no names (i.e. operation is a dir and no filename filter)
{
filterMatch = EMatch;
}
return filterMatch;
}
// This is called on a per drive basis.
void FsNotificationManager::DoHandleChange(TFsNotificationTypeArray* aFilterTypeArray,TInt& aSeenFilter, CFsClientMessageRequest* aRequest, CFsNotifyRequest* aNotifyRequest, const TDesC& aOperationName, TFsNotification::TFsNotificationType& aType)
{
__PRINT(_L("FsNotificationManager::DoHandleChange()"));
if(!aFilterTypeArray)
return;
TInt numFilters = aFilterTypeArray->Count();
if(aType == TFsNotification::EMediaChange)
numFilters = 1; //Only need to notify once per drive.
//For every filter in this request
for(TInt j = 0; j < numFilters;++j)
{
//Is the correct notification type
aSeenFilter--;
TBool filterMatch = EDifferent;
if(aType != TFsNotification::EMediaChange)
{
CFsNotificationPathFilter& filter = *(((*aFilterTypeArray)[j]).iPathFilter);
__PRINT2(_L("FsNotificationManager::DoHandleChange() operationName=%S, filterName=%S"),&aOperationName,filter.iPath);
filterMatch = DoMatchFilter(aRequest,aOperationName,filter);
if(filterMatch == FsNotificationManager::EContinue)
continue; //triggers for data cages
//We need to check for changes coming in to a directory when its rename
if(aType == TFsNotification::ERename && filterMatch==FsNotificationManager::EDifferent)
{
TPtrC aDestinationNamePtrC;
FsNotificationHelper::NewPathName(*aRequest,aDestinationNamePtrC);
__PRINT2(_L("FsNotificationManager::DoHandleChange() destinationName=%S, filterName=%S"),&aDestinationNamePtrC,filter.iPath);
filterMatch = DoMatchFilter(aRequest,aDestinationNamePtrC,filter);
}
}
if(filterMatch || (aType == TFsNotification::EMediaChange))//Match or MediaChange (report regardless of filters)
{
//Matching - Handle change
//Get a CFsNotificationBlock to use
//So that we can do IPC from a single place.
CFsNotificationBlock* block = iPool->Allocate();
TInt r = aNotifyRequest->NotifyChange(aRequest,aOperationName,aType,*block);
//Free block
iPool->Free(block);
if(r != KErrNone)
{
//Something went wrong writing to the client's buffer
aNotifyRequest->SetActive(CFsNotifyRequest::EInactive);
if(aNotifyRequest->ClientMsgHandle()!=0)
aNotifyRequest->CompleteClientRequest(r,EFalse);
break; //Go to outer for (i.e. next request in HandleChange)
}
}
continue; //next filter
}
}