// 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:
// f32\sfile\sf_cache.cpp
//
//
#include <e32std.h>
#include <e32std_private.h>
#include "sf_std.h"
#include <e32uid.h>
#include <e32wins.h>
#include <f32file.h>
#include "sf_cache.h"
const TInt KMaxCachedDirectories=6;
TInt RefreshDriveInfo();
void DestroyCachedDirectories(TPathListRecord* aPathRec);
void DestroyCachedDirectory(TDriveNumber aDrive, TDirectoryCacheHeader* aDirCache);
void DestroyCachedDirectory(TDriveNumber aDrive, TPathListRecord* aPathRec);
const TInt KCacheHeapGranularity=0x0800; // Allocate heap in 2K chunks
TBool gInitCacheCheckDrivesAndAddNotifications = EFalse;
TBool gCacheCheckDrives = ETrue;
// Cache per drive
TDriveCacheHeader* gDriveFileNamesCache[KMaxDrives];
TPathListRecord* TPathListRecord::First;
TPathListRecord* TPathListRecord::LastStatic;
#if defined(_DEBUG) || defined(_DEBUG_RELEASE)
void dumpCache()
{
TDriveNumber drive;
for (drive=EDriveA; drive<=EDriveZ; ((TInt&)drive)++)
{
TDriveCacheHeader* pDH = gDriveFileNamesCache[drive];
RDebug::Printf("Dumping Drive %d", drive);
if (!pDH)
{
RDebug::Printf("Drive %d not cached",drive);
continue;
}
TDirectoryCacheHeader* p = pDH->iDirectoryList;
for (; p; p=p->iNext)
{
RDebug::Printf(" Dumping directory %S", p->iPath->PathName());
TFileCacheRecord** pIndexes = p->iCache;
TInt j;
for(j=0; j<p->iRecordCount; j++)
{
TFileCacheRecord& f = *pIndexes[j];
TBuf8<20> en = _S8("Entry ");
en.AppendNum(j);
f.Dump((const char*)en.Ptr());
}
}
}
}
#endif
CCacheNotifyDirChange::CCacheNotifyDirChange(TDriveNumber aDrive, TDirectoryCacheHeader& aDirHead)
: CActive(EPriorityHigh), iDrive(aDrive), iDirHead(&aDirHead)
{}
CCacheNotifyDirChange::~CCacheNotifyDirChange()
{
__IF_DEBUG(Printf("~CCacheNotifyDirChange"));
Cancel();
}
void CCacheNotifyDirChange::DoCancel()
{
__IF_DEBUG(Printf("DoCancel"));
gTheLoaderFs.NotifyChangeCancel(iStatus);
}
void CCacheNotifyDirChange::RunL()
{
__IF_DEBUG(Printf("Pop!! for drive %d path %S (%d)", iDrive, iDirHead->iPath->PathName(), iStatus.Int()));
// unlink directory & delete it
DestroyCachedDirectory(iDrive, iDirHead);
gCacheCheckDrives = ETrue;
}
TInt CCacheNotifyDirChange::RegisterNotification(TPathListRecord* aPathRec, TNotifyType aType)
//
// Notification that a card has been mounted/removed
//
{
TDriveUnit drive(iDrive);
TFileName pathName(drive.Name());
pathName.Append('\\');
TInt dl = pathName.Length();
const TText* ppp = pathName.Ptr() + dl;
const TDesC8& p8 = *aPathRec->PathName();
TInt p8l = p8.Length();
pathName.SetLength(dl + p8l);
TPtr pp((TText*)ppp, 0, KMaxFileName - dl);
pp.Copy(p8);
if (pathName[dl + p8l -1] != '\\')
pathName.Append('\\');
__IF_DEBUG(Printf("RegisterNotification for drive %d path %S", iDrive, &p8));
__IF_DEBUG(Print(_L("register notification for %S"), &pathName));
gTheLoaderFs.NotifyChange(aType, iStatus, pathName);
SetActive();
__LDRTRACE({ \
if (iStatus != KRequestPending) \
RDebug::Printf("Notifier Immediate Complete %d", iStatus.Int()); \
});
return KErrNone;
}
TInt SetupNotify(TDriveNumber aDrive, TDirectoryCacheHeader& aDirHead)
{
if (aDirHead.iNotify != NULL)
{
__IF_DEBUG(Printf("SetupNotify!! notification already registered on drive %d path %S", aDrive, aDirHead.iPath->PathName()));
return KErrNone;
}
__IF_DEBUG(Printf("SetupNotify!! on drive %d path %S", aDrive, aDirHead.iPath->PathName()));
CCacheNotifyDirChange* pNotifier = new CCacheNotifyDirChange(aDrive, aDirHead);
if (!pNotifier)
return KErrNoMemory;
aDirHead.iNotify = pNotifier;
CActiveSchedulerLoader::Add(pNotifier);
return pNotifier->RegisterNotification(aDirHead.iPath, ENotifyFile);
}
TInt AddNotifications()
{
TDriveNumber drive;
for (drive=EDriveA; drive<EDriveZ; ((TInt&)drive)++) // Z always read-only so no notifiers required
{
TDriveCacheHeader* pDH = gDriveFileNamesCache[drive];
if (!pDH)
continue;
__IF_DEBUG(Printf("AddNotifications on drive %d att=0x%08x", drive, pDH->iDriveAtt));
TDirectoryCacheHeader* p = pDH->iDirectoryList;
for (; p; p=p->iNext)
{
TInt r = SetupNotify(drive, *p);
if (r != KErrNone)
{
DestroyCachedDirectory(drive, p);
return r;
}
}
}
gCacheCheckDrives = EFalse;
return KErrNone;
}
//=============================== TFileCacheRecord ==================================
//
TInt TFileCacheRecord::Order(const TFileCacheRecord& aL, const TFileCacheRecord& aR)
{
return aL.Name().CompareF(aR.Name());
}
//=============================== TPathListRecord ==================================
//
#if defined(_DEBUG) || defined(_DEBUG_RELEASE)
void dumpPathList()
{
RDebug::Printf("Dumping Pathlist");
TPathListRecord* p = TPathListRecord::First;
TInt count=0;
for (; p; p=p->iNext, ++count)
RDebug::Printf("Pathlist pos %d %S",count,p->PathName());
}
#endif
_LIT8(KDirSystemPrograms, "System\\Programs");
_LIT8(KDirSystemLibs, "System\\Libs");
_LIT8(KDirSystemBin, "System\\Bin");
_LIT8(KDirSysBin, "Sys\\Bin");
TInt TPathListRecord::Init()
{
if (!AddToPathList(KDirSysBin, ETrue))
return KErrNoMemory;
if(!PlatSec::ConfigSetting(PlatSec::EPlatSecEnforceSysBin))
{
if (!AddToPathList(KDirSystemPrograms, ETrue))
return KErrNoMemory;
if (!AddToPathList(KDirSystemLibs, ETrue))
return KErrNoMemory;
if (!AddToPathList(KDirSystemBin, ETrue))
return KErrNoMemory;
}
return KErrNone;
}
void TPathListRecord::MoveToHead()
{
if (iKeep || this == LastStatic->iNext)
return;
TPathListRecord* p = First;
// the record is always in the list
for (; p && p->iNext!=this; p=p->iNext) {}
__ASSERT_DEBUG(p, User::Invariant());
p->iNext = iNext;
iNext = LastStatic->iNext;
LastStatic->iNext = this;
}
TPathListRecord* TPathListRecord::FindPathNameInList(const TDesC8& aPath)
{
__IF_DEBUG(Printf("TPathListRecord::FindPathNameInList %S",&aPath));
TPathListRecord* p = DoFindPathNameInList(aPath);
if (!p)
p = AddToPathList(aPath, EFalse);
return p;
}
TPathListRecord* TPathListRecord::DoFindPathNameInList(const TDesC8& aPath)
{
// Accesses pathname list to retrieve pathname record
TPathListRecord* p = First;
for (; p; p=p->iNext)
{
if (p->PathName()->CompareF(aPath) == 0)
{
p->MoveToHead();
return p;
}
}
return NULL;
}
TPathListRecord* TPathListRecord::AddToPathList(const TDesC8& aPath, TBool aKeep)
{
__LDRTRACE(dumpPathList());
__IF_DEBUG(Printf("Pathlist adding path %S keep %d",&aPath,aKeep));
TPathListRecord* n = TPathListRecord::New(aPath, aKeep);
if (!n)
return NULL;
TPathListRecord* p = First;
TPathListRecord* q = NULL;
TInt count = 0;
for (; p && ++count<KMaxCachedDirectories; q=p, p=p->iNext) {}
if (p)
{
// need to kill off entry pointed to by p
__IF_DEBUG(Printf("In AddToPathList killing %S", p->PathName()));
__ASSERT_ALWAYS(!aKeep, User::Invariant());
q->iNext = NULL;
DestroyCachedDirectories(p);
delete p;
}
if (aKeep)
{
// add to front of list
n->iNext = First;
First = n;
if (!LastStatic)
LastStatic = n;
}
else
{
// add new entry to front of dynamic list
n->iNext = LastStatic->iNext;
LastStatic->iNext = n;
}
// Refresh cache now we've added a new path
gCacheCheckDrives = ETrue;
__LDRTRACE(dumpPathList());
return n;
}
TPathListRecord* TPathListRecord::New(const TDesC8& aPath, TBool aKeep)
{
TInt l = aPath.Length();
TInt size = sizeof(TPathListRecord) + Align4(l) + sizeof(TDesC8);
TPathListRecord* p = (TPathListRecord*)User::Alloc(size);
if (p)
{
p->iNext = NULL;
p->iKeep = aKeep;
TInt* pb = (TInt*)(p+1);
*pb = l;
memcpy(pb+1, aPath.Ptr(), l);
}
return p;
}
void DestroyCachedDirectory(TDriveNumber aDrive, TPathListRecord* aPathRec)
{
__IF_DEBUG(Printf("DestroyCachedDirectory drive=%d path=%S",aDrive,aPathRec->PathName()));
TDriveCacheHeader* pDH = gDriveFileNamesCache[aDrive];
TDirectoryCacheHeader* p = pDH->iDirectoryList;
TDirectoryCacheHeader* q = 0;
for (; p && p->iPath!=aPathRec; q=p, p=p->iNext) {}
if (p)
{
__IF_DEBUG(Printf(" unlinking directory %S",p->iPath->PathName()));
if (q)
q->iNext = p->iNext;
else
pDH->iDirectoryList = p->iNext;
__IF_DEBUG(Printf(" deleting directory %S",p->iPath->PathName()));
delete p;
}
}
void DestroyCachedDirectory(TDriveNumber aDrive, TDirectoryCacheHeader* aDirCache)
{
// First see if it contained in our list
__IF_DEBUG(Printf("DestroyCachedDirectory drive=%d path=%S", aDrive, aDirCache->iPath->PathName()));
TDriveCacheHeader* pDH = gDriveFileNamesCache[aDrive];
TDirectoryCacheHeader* p = pDH->iDirectoryList;
TDirectoryCacheHeader* q = 0;
for (; p && p!=aDirCache; q=p, p=p->iNext) {}
if (p)
{
__IF_DEBUG(Printf(" unlinking directory %S",p->iPath->PathName()));
if (q)
q->iNext = p->iNext;
else
pDH->iDirectoryList = p->iNext;
}
__IF_DEBUG(Printf(" deleting directory %S", aDirCache->iPath->PathName()));
delete aDirCache;
}
void DestroyCachedDirectories(TPathListRecord* aPathRec)
{
__IF_DEBUG(Printf("DestroyCachedDirectories %S",aPathRec->PathName()));
TDriveNumber drive;
for (drive=EDriveA; drive<=EDriveZ; ((TInt&)drive)++)
{
TDriveCacheHeader* pDH = gDriveFileNamesCache[drive];
if (pDH)
{
__IF_DEBUG(Printf("DestroyCachedDirectories drive=%d driveatt=0x%08x",drive,pDH->iDriveAtt));
DestroyCachedDirectory(drive, aPathRec);
}
}
}
//=============================== TCacheHeapList ==================================
//
TCacheHeapList::TCacheHeapList(TInt aSize)
: iAllocated(Align4(sizeof(TCacheHeapList))),
iSize(aSize)
{}
TAny* TCacheHeapList::Allocate(TInt aBytes)
{
__IF_DEBUG(Printf("TCacheHeapList::Allocate used=%d request=%d",iAllocated,aBytes));
TInt req = Align4(aBytes);
if (iAllocated+req > iSize)
return NULL;
TAny* p = PtrAdd(this, iAllocated);
iAllocated+=req;
return p;
}
//=============================== TDriveCacheHeader==================================
//
TDriveCacheHeader::TDriveCacheHeader()
: iDirectoryList(NULL)
{}
TDriveCacheHeader::~TDriveCacheHeader()
{
__IF_DEBUG(Printf("~TDriveCacheHeader"));
while (iDirectoryList)
{
TDirectoryCacheHeader* p = iDirectoryList;
iDirectoryList = p->iNext;
__IF_DEBUG(Printf(" deleting directory %S",p->iPath->PathName()));
delete p;
}
}
TDirectoryCacheHeader* TDriveCacheHeader::FindDirCache(TPathListRecord* aPath)
{
TDirectoryCacheHeader* p = iDirectoryList;
for (; p && p->iPath!=aPath; p=p->iNext) {}
return p;
}
TInt TDriveCacheHeader::GetDirCache(TDirectoryCacheHeader*& aCache, TPathListRecord* aPath, const TDesC8& aDriveAndPath)
{
__IF_DEBUG(Printf(">GetDirCache %S", &aDriveAndPath));
aCache = FindDirCache(aPath);
if (aCache)
{
__IF_DEBUG(Printf("<GetDirCache already exists %08x", aCache));
return KErrNone;
}
TDirectoryCacheHeader* p = new TDirectoryCacheHeader(aPath);
if (!p)
return KErrNoMemory;
TInt r = p->PopulateFromDrive(aDriveAndPath);
__IF_DEBUG(Printf("PopulateFromDrive ret %d", r));
if (r != KErrNoMemory && r != KErrLocked && iDriveNumber != EDriveZ)
r = SetupNotify((TDriveNumber)iDriveNumber, *p);
if (r == KErrNoMemory || r == KErrLocked)
{
delete p;
return r;
}
// Ignore other errors and keep created entry anyway, so for things like 'path not found'
// we have an empty directory cache which will get updated (via notification) if it get created.
// This empty entry also allows for a quicker check the second time around.
p->iNext = iDirectoryList;
iDirectoryList = p;
__IF_DEBUG(Printf("<GetDirCache new %08x", p));
aCache = p;
return KErrNone;
}
//============================= TDirectoryCacheHeader================================
//
TDirectoryCacheHeader::TDirectoryCacheHeader(TPathListRecord* aPath)
: iFirstHeapBlock(NULL), iPath(aPath), iRecordCount(0), iCache(NULL),
iNotPresent(ETrue), iNotify(NULL)
{}
TDirectoryCacheHeader::~TDirectoryCacheHeader()
{
__IF_DEBUG(Printf("~TDirectoryCacheHeader %S",iPath->PathName()));
User::Free(iCache);
delete iNotify;
while (iFirstHeapBlock)
{
TCacheHeapList* p = iFirstHeapBlock;
iFirstHeapBlock = p->iNext;
User::Free(p);
}
}
TInt TDirectoryCacheHeader::GetMoreHeap()
{
TAny* mem = User::Alloc(KCacheHeapGranularity);
if (!mem)
return KErrNoMemory;
TCacheHeapList* n = new (mem) TCacheHeapList(KCacheHeapGranularity);
n->iNext = iFirstHeapBlock;
iFirstHeapBlock = n;
return KErrNone;
}
TAny* TDirectoryCacheHeader::Allocate(const TInt aBytes)
{
TAny* p = iFirstHeapBlock ? iFirstHeapBlock->Allocate(aBytes) : NULL;
if (!p)
{
if (GetMoreHeap()!=KErrNone)
return NULL;
p = iFirstHeapBlock->Allocate(aBytes);
}
return p;
}
TFileCacheRecord* TDirectoryCacheHeader::NewRecord(const TDesC8& aName, TUint32 aAttr, TUint32 aVer, const TEntry& aEntry)
{
TInt l = aName.Length();
TInt minsize = l + sizeof(TFileCacheRecord);
TInt extra = aEntry.iSize >> 12; // allow for 8 exports per 4K of file
if(extra>128)
extra = 128;
TInt size = (minsize + extra + 15) &~ 15;
TFileCacheRecord* p = (TFileCacheRecord*)Allocate(size);
if (p)
{
memclr(p, sizeof(TFileCacheRecord));
p->iAttr = aAttr;
p->iModuleVersion = aVer;
p->iExportDirCount = size - minsize;
p->iNameLength = l;
p->iExportDescType = (aEntry.iAtt & KEntryAttXIP) ? KImageHdr_ExpD_Xip : KImageHdr_ExpD_NoHoles; // for now
p->iCacheStatus = 0;
memcpy(p+1, aName.Ptr(), l);
}
return p;
}
TFileCacheRecord* TDirectoryCacheHeader::NewRecord(const TFileCacheRecord& aRecord, TInt aEDS)
{
TInt l = aRecord.Name().Length();
TInt minsize = l + sizeof(TFileCacheRecord);
TInt extra = aEDS + 2;
TInt size = (minsize + extra + 15) &~ 15;
TFileCacheRecord* p = (TFileCacheRecord*)Allocate(size);
if (p)
{
memcpy(p, &aRecord, minsize);
memclr((TUint8*)p + minsize, size - minsize);
}
return p;
}
TInt TDirectoryCacheHeader::PopulateFromDrive(const TDesC8& aPathName)
{
// Wildcard searches through a named directory on a drive.
// Creates and fills records to newly populate the drive cache..
// only want gen-u-ine files
RDir d;
TFileName dp;
dp.Copy(aPathName);
__IF_DEBUG(Print(_L("Opening Directory %S"), &dp));
iNotPresent=ETrue;
TInt r=d.Open(gTheLoaderFs, dp, KEntryAttMatchExclude|KEntryAttDir|KEntryAttVolume);
__IF_DEBUG(Printf("Returns %d", r));
if (r != KErrNone)
{
return r;
}
TEntryArray array;
TInt sizeofIndexArray=0;
TFileCacheRecord** pIndexes=NULL;
TInt currentIndex=0;
do {
r=d.Read(array);
if (r==KErrNone || r==KErrEof)
{
TInt count=array.Count();
if (count==0)
break;
TInt newSize=currentIndex+count;
// Round alloc granularity up to the size of the cache cells, to avoid heap fragmentation when
// indexing large dirs (z:\sys\bin) - interference effect is minimised by allocating in larger blocks and by
// ensuring the freed memory can be reused for cache cells. See INC065949 for original defect.
const TInt arrayGranularity = KCacheHeapGranularity + RHeap::EAllocCellSize;
sizeofIndexArray = (sizeof(TFileCacheRecord*)*newSize + arrayGranularity - 1) / arrayGranularity * arrayGranularity;
TFileCacheRecord** p=(TFileCacheRecord**)User::ReAlloc(pIndexes,sizeofIndexArray);
if (!p)
{
r=KErrNoMemory;
break;
}
pIndexes=p;
TInt i=0;
while (i<count)
{
const TEntry& e = array[i++];
TInt nl = e.iName.Length();
if (nl > KMaxKernelName)
{
__IF_DEBUG(Printf("Name length %d - too long", nl));
continue;
}
TBuf8<KMaxKernelName> n8;
r = CheckedCollapse(n8, e.iName);
if (r != KErrNone)
{
__IF_DEBUG(Printf("Non-ASCII name"));
continue;
}
TFileNameInfo fni;
r = fni.Set(n8, 0);
if (r != KErrNone)
{
__IF_DEBUG(Printf("Bad name"));
continue;
}
TBuf8<KMaxKernelName> rootname;
fni.GetName(rootname, TFileNameInfo::EIncludeBaseExt);
TUint32 attr = fni.VerLen() ? ECodeSegAttExpVer : 0;
TFileCacheRecord* pR = NewRecord(rootname, attr, fni.Version(), e);
if (!pR)
{
r=KErrNoMemory;
break;
}
pIndexes[currentIndex] = pR;
currentIndex++;
}
}
} while (r==KErrNone);
d.Close();
if(r==KErrNoMemory)
return r;
iCache = (TFileCacheRecord**)User::ReAlloc(pIndexes,sizeof(TFileCacheRecord*)*currentIndex);
if(!iCache)
return KErrNoMemory;
iNotPresent = EFalse;
iRecordCount = currentIndex;
if (currentIndex>1)
{
// don't sort an empty list, or a list with only 1 element
RPointerArray<TFileCacheRecord> rarray(iCache, iRecordCount);
rarray.Sort(&TFileCacheRecord::Order);
}
__LDRTRACE( { \
RDebug::Printf("RArray sorted"); \
TInt i; \
for (i=0; i<iRecordCount; i++) \
{ \
TFileCacheRecord* f = iCache[i]; \
const TDesC8& name = f->Name(); \
RDebug::Printf("%d: Entry=%S att %08x ver %08x", i, &name, f->iAttr, f->iModuleVersion); \
} \
});
return KErrNone;
}
TInt RefreshDriveInfo()
{
// Find out what drives are present
__IF_DEBUG(Printf(">RefreshDriveInfo"));
TDriveList list;
TInt r = gTheLoaderFs.DriveList(list);
if (r!=KErrNone)
{
return r;
}
TDriveInfo d;
TDriveNumber drive;
for (drive=EDriveA; drive<=EDriveZ; ((TInt&)drive)++)
{
TInt att = list[drive];
if (att)
{
r = gTheLoaderFs.Drive(d,drive);
if (r != KErrNone)
continue;
if ((d.iDriveAtt & KDriveAttRemote) || (d.iDriveAtt & KDriveAttSubsted))
continue; //Don't cache remote or substituted drives
if (gDriveFileNamesCache[drive] == NULL)
{
__IF_DEBUG(Printf("In RefreshDriveInfo adding drive %d, drive= 0x%08x media=0x%08x", drive, d.iDriveAtt, d.iMediaAtt));
TDriveCacheHeader* pDH = new TDriveCacheHeader;
if (!pDH)
return KErrNoMemory;
gDriveFileNamesCache[drive] = pDH;
pDH->iDriveAtt = d.iDriveAtt;
pDH->iDriveNumber = drive;
}
continue;
}
TDriveCacheHeader* pDH = gDriveFileNamesCache[drive];
delete pDH;
gDriveFileNamesCache[drive] = NULL;
}
__IF_DEBUG(Printf("<RefreshDriveInfo"));
return KErrNone;
}
//
void InitializeFileNameCache()
{
__IF_DEBUG(Printf("InitializeFileNameCache"));
gInitCacheCheckDrivesAndAddNotifications = EFalse;
gCacheCheckDrives = ETrue;
__ASSERT_ALWAYS(TPathListRecord::Init()==KErrNone, User::Invariant());
}
TInt CheckLoaderCacheInit()
{
TInt r=KErrNone;
if(RefreshZDriveCache)
{
// force z: drive cache to be refreshed
__IF_DEBUG(Print(_L("Deleting z: drive cache\r\n")));
TDriveCacheHeader* pDH=gDriveFileNamesCache[EDriveZ];
delete pDH;
gDriveFileNamesCache[EDriveZ]=NULL;
gCacheCheckDrives=ETrue;
RefreshZDriveCache=EFalse;
}
if (gCacheCheckDrives)
{
__IF_DEBUG(Printf("Refreshing cache"));
r = RefreshDriveInfo(); // refreshing is a 'once-only' operation after setting
gCacheCheckDrives = EFalse; // gCacheCheckDrives so as to prevent excessive refreshing
}
if (!gInitCacheCheckDrivesAndAddNotifications && StartupInitCompleted)
{
__IF_DEBUG(Printf("Refreshing cache and adding notifications after FS initialisation"));
r = RefreshDriveInfo(); // this is to provide an extra refresh to explicitly find
r = AddNotifications(); // all drives set up during FS initialisation
gInitCacheCheckDrivesAndAddNotifications = ETrue;
}
return r;
}
TFileCacheRecordSearch::TFileCacheRecordSearch(const TDesC8& aSearchName)
{
iNameLength = aSearchName.Length();
if(iNameLength>sizeof(iSearchName))
User::Invariant();
memcpy(iSearchName, aSearchName.Ptr(), iNameLength);
}
TInt RImageFinder::SearchSingleDir()
{
__IF_DEBUG(Printf("SearchSingleDir %S drive %d", &iCurrentPath, iCurrentDrive));
TDriveCacheHeader* pDH = gDriveFileNamesCache[iCurrentDrive];
if (!pDH)
{
__IF_DEBUG(Printf("No such drive"));
return KErrNone;
}
TInt pl = iCurrentPath.Length();
TInt start = 0;
TInt len = pl;
if (pl)
{
if (iCurrentPath[0] == '\\')
start = 1, --len;
if (len>0 && iCurrentPath[start + len - 1] == '\\')
--len;
}
TPtrC8 path(iCurrentPath.Mid(start, len));
__IF_DEBUG(Printf("Normalised path %S", &path));
TChar c;
RFs::DriveToChar(iCurrentDrive, c);
TBuf8<KMaxFileName> drive_and_path = _S8("?:\\");
drive_and_path[0] = (TText8)c;
drive_and_path.Append(path);
if (drive_and_path[drive_and_path.Length()-1] != '\\')
drive_and_path.Append('\\');
TPathListRecord* prec = TPathListRecord::FindPathNameInList(path);
if (!prec)
return KErrNoMemory;
TDirectoryCacheHeader* dch = NULL;
TInt r = pDH->GetDirCache(dch, prec, drive_and_path);
if (r != KErrNone || dch->iNotPresent || dch->iRecordCount==0)
{
return r;
}
// set up to search for root name
__IF_DEBUG(Printf("Search directory for %S", &iRootName));
TFileCacheRecordSearch search(iRootName);
__LDRTRACE({const TDesC8& sr = search.Name(); RDebug::Printf("Search record %S", &sr);});
RPointerArray<TFileCacheRecord> rarray(dch->iCache, dch->iRecordCount);
TInt first = rarray.SpecificFindInOrder(&search, &TFileCacheRecord::Order, EArrayFindMode_First);
TInt last = rarray.SpecificFindInOrder(&search, &TFileCacheRecord::Order, EArrayFindMode_Last);
__IF_DEBUG(Printf("First %d Last %d", first, last));
TInt ix;
for (ix = first; ix < last; ++ix)
{
TFileCacheRecord* f = dch->iCache[ix];
RImageInfo img_info;
r = KErrNone;
if (!f->ExtrasValid())
{
r = f->GetImageInfo(img_info, drive_and_path, dch, ix);
if (r == KErrNoMemory)
return r;
f = dch->iCache[ix]; // may have been moved
}
if (r==KErrNone)
{
img_info = *f;
r = Try(img_info, f->Name(), drive_and_path);
if (r == KErrNoMemory)
{
img_info.Close();
return r;
}
f->iCacheStatus = img_info.iCacheStatus;
}
else
RecordCorruptFile();
img_info.Close();
if (r==KErrCompletion)
break;
}
return KErrNone;
}
// Populate the 'extras' in the cache record by reading the file header
// aPathName must be of the form ?:\dir\...\dir\ so that a fully qualified file name is obtained by
// appending the file name.
TInt TFileCacheRecord::GetImageInfo(RImageInfo& aInfo, const TDesC8& aPathName, TDirectoryCacheHeader* aDirHead, TInt aIndex)
{
const TDesC8& rootname = Name();
TBuf8<KMaxFileName> fn = aPathName;
TFileNameInfo fni;
fni.Set(rootname, 0);
fni.iVersion = iModuleVersion;
TUint flags = (iAttr & ECodeSegAttExpVer) ? TFileNameInfo::EForceVer : 0;
fni.GetName(fn, TFileNameInfo::EIncludeBaseExt | flags);
__IF_DEBUG(Printf("Opening file %S", &fn));
TInt r = OpenFile8(aInfo.iFile, fn);
__IF_DEBUG(Printf("Open file returns %d", r));
if (r != KErrNone)
return r;
TInt address = 0;
r = aInfo.iFile.Seek(ESeekAddress, address);
if (r!=KErrNotSupported)
{
__IF_DEBUG(Printf("ROM file at %08x", address));
TUint att;
r = aInfo.iFile.Att(att);
if (r!=KErrNone)
{
aInfo.Close();
return r;
}
if (att & KEntryAttXIP)
{
const TRomImageHeader& rih = *(const TRomImageHeader*)address;
__IF_DEBUG(Printf("XIP file"));
SetXIP(&rih);
if ((iAttr & ECodeSegAttExpVer) && iModuleVersion != rih.iModuleVersion)
{
// version in file name does not match version in header
aInfo.Close();
return KErrBadName;
}
iModuleVersion = rih.iModuleVersion;
iS = rih.iS;
iExportDirCount = (TUint16)rih.iExportDirCount;
iExportDescType = (TUint8)KImageHdr_ExpD_Xip;
iAttr |= rih.iFlags & (KRomImageFlagFixedAddressExe|KRomImageABIMask);
__LDRTRACE(Dump("Cached Info XIP"));
return KErrNone;
}
}
TFileCacheRecord* t = this;
r = E32ImageHeader::New(aInfo.iHeader, aInfo.iFile);
if (r != KErrNone)
{
aInfo.Close();
__IF_DEBUG(Printf("E32ImageHeader::New returns %d", r));
return r;
}
E32ImageHeader* h = aInfo.iHeader;
if ((iAttr & ECodeSegAttExpVer) && iModuleVersion != h->iModuleVersion)
{
// version in file name does not match version in header
aInfo.Close();
return KErrBadName;
}
wordmove(iUid, &h->iUid1, sizeof(iUid));
iModuleVersion = h->ModuleVersion();
h->GetSecurityInfo(iS);
iAttr |= (h->iFlags & ECodeSegAttFixed) | h->ABI();
if(h->iFlags&KImageNmdExpData)
iAttr |= ECodeSegAttNmdExpData;
TUint avail = iExportDirCount;
iExportDirCount = (TUint16)h->iExportDirCount;
iExportDescType = KImageHdr_ExpD_NoHoles;
// get export description...
E32ImageHeaderV* v = (E32ImageHeaderV*)h;
iExportDescType = v->iExportDescType;
TUint eds = v->iExportDescSize;
if (eds + 2 > avail)
{
// must reallocate this entry
t = aDirHead->NewRecord(*this, eds);
if (!t)
{
aInfo.Close();
return KErrNoMemory;
}
aDirHead->iCache[aIndex] = t;
}
TUint8* xd = (TUint8*)t->ExportDescription();
xd[0] = (TUint8)eds;
xd[1] = (TUint8)(eds>>8);
memcpy(xd+2, v->iExportDesc, eds);
__LDRTRACE(t->Dump("Cached Info"));
return KErrNone;
}
RImageInfo& RImageInfo::operator=(const TFileCacheRecord& aRecord)
{
wordmove(this, &aRecord, sizeof(TImageInfo));
if (aRecord.ExtrasValid())
{
if (aRecord.IsXIP())
{
iRomImageHeader = aRecord.RomImageHeader();
wordmove(iUid, &iRomImageHeader->iUid1, sizeof(iUid));
}
else if (iExportDescType != KImageHdr_ExpD_NoHoles)
{
const TUint8* xd = (TUint8*)aRecord.ExportDescription();
iExportDescSize = (TUint16)(xd[0] | (xd[1]<<8));
iExportDesc = xd + 2;
}
}
return *this;
}
#if defined(_DEBUG) || defined(_DEBUG_RELEASE)
extern void memory_dump(const TAny* a, TUint l);
void TFileCacheRecord::Dump(const char* aTitle)
{
RDebug::Printf(aTitle);
TUint32 uid1 = iUid[0];
TBool xip = (uid1 != (TUint32)KExecutableImageUidValue && uid1 != (TUint32)KDynamicLibraryUidValue);
const TDesC8& name = Name();
if (xip)
{
const TRomImageHeader* rih = RomImageHeader();
RDebug::Printf("Name: %S Ver %08x Attr %08x", &name, rih->iModuleVersion, iAttr);
RDebug::Printf("UIDS %08x %08x %08x SID %08x CAP %08x %08x", rih->iUid1, rih->iUid2, rih->iUid3,
rih->iS.iSecureId, rih->iS.iCaps[1], rih->iS.iCaps[0]);
RDebug::Printf("ExportDirCount %d ExportDescType %02x", rih->iExportDirCount, iExportDescType);
}
else
{
RDebug::Printf("Name: %S Ver %08x Attr %08x", &name, iModuleVersion, iAttr);
RDebug::Printf("UIDS %08x %08x %08x SID %08x CAP %08x %08x", iUid[0], iUid[1], iUid[2],
iS.iSecureId, iS.iCaps[1], iS.iCaps[0]);
RDebug::Printf("ExportDirCount %d ExportDescType %02x", iExportDirCount, iExportDescType);
if (iExportDescType != KImageHdr_ExpD_NoHoles)
{
const TUint8* xd = ExportDescription();
TUint eds = (xd[1]<<8) | xd[0];
RDebug::Printf("ExportDescSize %04x", eds);
memory_dump(xd+2, eds);
}
}
}
#endif