--- /dev/null Thu Jan 01 00:00:00 1970 +0000
+++ b/userlibandfileserver/fileserver/sfile/sf_ldr.cpp Mon Oct 19 15:55:17 2009 +0100
@@ -0,0 +1,2297 @@
+// Copyright (c) 1995-2009 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_ldr.cpp
+//
+//
+
+#include "sf_std.h"
+#include <f32image.h>
+#include "sf_image.h"
+#include "sf_cache.h"
+#include "sf_ldr.h"
+#include <e32uid.h>
+#include <hal.h>
+
+
+#ifdef _DEBUG
+#define IF_DEBUG(x) x
+TInt KernHeapFailCount=0;
+TInt LdrHeapFailCount=0;
+TInt HeapFailActive=0;
+void SetupHeapFail(const RMessage2& aMsg);
+void EndHeapFailCheck(TInt);
+TInt RFsFailCount=0;
+TInt RFsErrorCode=0;
+TBool RFsFailActive=0;
+void SetupRFsFail(const RMessage2& aMsg);
+void EndRFsFailCheck(TInt);
+TRequestStatus ProcessDestructStat;
+TRequestStatus* ProcessDestructStatPtr=0;
+TBool ProcessCreated=EFalse;
+#else
+#define IF_DEBUG(x)
+#endif
+TInt DoLoaderDebugFunction(const RMessage2& aMsg);
+
+
+//#define __TRACE_LOADER_HEAP__
+
+class RLoaderFs : public RFs
+ {
+public:
+ inline TInt SendReceive(TInt aFunction, const TIpcArgs& aArgs) const
+ { return RSessionBase::SendReceive(aFunction, aArgs); }
+ };
+
+static TInt CheckLibraryHash(RLdrReq& aReq);
+const TInt KPriorityVeryHigh=14641;
+
+GLDEF_D RFs gTheLoaderFs;
+GLDEF_D TAny* gExeCodeSeg;
+GLDEF_D TUint32 gExeAttr;
+GLDEF_D TAny* gKernelCodeSeg;
+GLDEF_D TUint32 gKernelAttr;
+GLDEF_D SSecurityInfo gKernelSecInfo;
+GLDEF_D TBool gExecutesInSupervisorMode;
+GLDEF_D TAny* gFileServerCodeSeg;
+GLDEF_D TUint32 gFileServerAttr;
+GLDEF_D SSecurityInfo gFileServerSecInfo;
+GLDEF_D CActiveReaper* gActiveReaper=NULL;
+
+CSlottedChunkAllocator gFileDataAllocator;
+
+
+GLREF_D TCodePageUtils TheCodePage;
+
+
+_LIT(KDriveSystemRoot, "?:\\");
+_LIT(KLoaderThreadName, "LoaderThread");
+_LIT8(KFileExtensionExe,".EXE");
+_LIT8(KFileExtensionDll,".DLL");
+_LIT8(KFileExtensionLdd,".LDD");
+_LIT8(KFileExtensionPdd,".PDD");
+_LIT8(KFileExtensionFsy,".FSY");
+_LIT8(KFileExtensionFxt,".FXT");
+_LIT8(KFileExtensionPxt,".PXT");
+_LIT8(KFileExtensionPxy,".PXY");
+_LIT(KPathDel,"?:\\sys\\del\\");
+const TInt KPathDelLength = 11;
+const TInt KExtensionLength=4;
+
+#if defined(__EPOC32__) && defined(__X86__)
+TInt UseFloppy;
+#endif
+
+/******************************************************************************
+ * Loader top level stuff
+ ******************************************************************************/
+
+TUint32 GetCodeSegAttr(TAny* aCodeSeg, SSecurityInfo* aS, TUint32* aVer)
+ {
+ TCodeSegCreateInfo info;
+ E32Loader::CodeSegInfo(aCodeSeg, info);
+ if (aS)
+ *aS = info.iS;
+ if (aVer)
+ *aVer = info.iModuleVersion;
+ return info.iAttr;
+ }
+
+#ifdef __EPOC32__
+extern void InitExecuteInSupervisorMode();
+#endif
+
+_LIT(KNullThreadName,"EKern*Null");
+void GetKernelInfo()
+ {
+ TFindThread ft(KNullThreadName);
+ TFullName fn;
+ TInt r = ft.Next(fn);
+ if (r==KErrNone)
+ {
+ RThread null;
+ r = null.Open(ft);
+ if (r==KErrNone)
+ {
+ gKernelCodeSeg = E32Loader::ThreadProcessCodeSeg(null.Handle());
+ if (gKernelCodeSeg)
+ {
+ gKernelAttr = GetCodeSegAttr(gKernelCodeSeg, &gKernelSecInfo, NULL);
+ __IF_DEBUG(Printf("gKernelCodeSeg=%08x", gKernelCodeSeg));
+ __IF_DEBUG(Printf("gKernelAttr=%08x", gKernelAttr));
+ }
+ else
+ r=KErrGeneral;
+ null.Close();
+ }
+ }
+ if (r==KErrNone)
+ {
+ gFileServerCodeSeg = E32Loader::ThreadProcessCodeSeg(KCurrentThreadHandle);
+ if (gFileServerCodeSeg)
+ {
+ gFileServerAttr = GetCodeSegAttr(gFileServerCodeSeg, &gFileServerSecInfo, NULL);
+ __IF_DEBUG(Printf("gFileServerCodeSeg=%08x", gFileServerCodeSeg));
+ __IF_DEBUG(Printf("gFileServerAttr=%08x", gFileServerAttr));
+ }
+ else
+ r=KErrGeneral;
+ }
+
+#ifdef __EPOC32__
+ InitExecuteInSupervisorMode();
+#else
+ // When running on the emulator the loader can access all memory so effectively it is
+ // running in supervisor mode.
+ gExecutesInSupervisorMode = ETrue;
+#endif
+
+ __ASSERT_ALWAYS(r==KErrNone, Fault(ELdrGetKernelInfoFailed));
+ }
+
+
+#ifdef __TRACE_LOADER_HEAP__
+void InstallHeapTracer();
+#endif
+
+
+#ifdef __LAZY_DLL_UNLOAD
+const TInt KLoaderLazyDllDurationDefault=120; // 120 seconds default
+TInt KLoaderLazyDllDuration=KLoaderLazyDllDurationDefault;
+CLazyUnloadTimer* LazyUnloadTimer=NULL;
+
+void CLazyUnloadTimer::New()
+//
+// Create a new CLazyUnloadTimer.
+//
+ {
+
+ CLazyUnloadTimer* lazyUnloadTimer=new CLazyUnloadTimer;
+ if(lazyUnloadTimer)
+ {
+ TRAPD(err,lazyUnloadTimer->ConstructL());
+ if(err==KErrNone)
+ {
+ lazyUnloadTimer->Start();
+ }
+ else
+ {
+ delete lazyUnloadTimer;
+ }
+ }
+ }
+
+CLazyUnloadTimer::CLazyUnloadTimer()
+//
+// Constructor
+//
+ : CTimer(EPriorityIdle)
+ {
+ Finish();
+ LazyUnloadTimer = this;
+ if (KLoaderLazyDllDuration < 0)
+ KLoaderLazyDllDuration = KLoaderLazyDllDurationDefault;
+ }
+
+CLazyUnloadTimer::~CLazyUnloadTimer()
+ {
+ LazyUnloadTimer = NULL;
+ }
+
+void CLazyUnloadTimer::Start()
+ {
+ E32Loader::CodeSegDeferDeletes();
+ CActiveScheduler::Add(this);
+ TTimeIntervalMicroSeconds32 timeout=KLoaderLazyDllDuration*1000000;
+ After(timeout);
+ }
+
+void CLazyUnloadTimer::RunL()
+//
+// The timer has completed.
+//
+ {
+ E32Loader::CodeSegEndDeferDeletes();
+ delete this;
+ }
+
+void CLazyUnloadTimer::Finish()
+ {
+ if(LazyUnloadTimer)
+ {
+ LazyUnloadTimer->Cancel();
+ LazyUnloadTimer->RunL();
+ }
+ }
+
+#endif
+
+/* ReaperCleanupTimer - Used to clear /sys/del/ shortly after boot. */
+
+const TInt KLoaderReaperCleanupTimeDefault=60; // 60 seconds default
+TInt KLoaderReaperCleanupTime=KLoaderReaperCleanupTimeDefault;
+CReaperCleanupTimer* CReaperCleanupTimer::Timer=NULL;
+
+TInt CReaperCleanupTimer::New()
+//
+// Create a new CReaperCleanupTimer.
+//
+ {
+ if (Timer)
+ return KErrInUse;
+
+ CReaperCleanupTimer* timer=new CReaperCleanupTimer;
+ if(timer)
+ {
+ TRAPD(err,Timer->ConstructL());
+ if(err==KErrNone)
+ {
+ Timer->Start();
+ return KErrNone;
+ }
+ else
+ {
+ delete Timer;
+ return err;
+ }
+ }
+ return KErrNoMemory;
+ }
+
+CReaperCleanupTimer::CReaperCleanupTimer()
+ : CTimer(EPriorityIdle)
+ {
+ Timer=this;
+ }
+
+CReaperCleanupTimer::~CReaperCleanupTimer()
+ {
+ Timer = NULL;
+ }
+
+void CReaperCleanupTimer::Start()
+ {
+ CActiveScheduler::Add(this);
+ TTimeIntervalMicroSeconds32 timeout=KLoaderReaperCleanupTime*1000000;
+ After(timeout);
+ }
+
+void CReaperCleanupTimer::RunL()
+ {
+ if (gActiveReaper)
+ gActiveReaper->InitDelDir();
+ delete this;
+ }
+
+void CReaperCleanupTimer::Complete()
+ {
+ if(Timer)
+ {
+ Timer->Cancel();
+ Timer->RunL();
+ }
+ }
+
+GLDEF_C TInt LoaderThread(TAny*)
+//
+// The loader thread.
+//
+ {
+#ifdef __TRACE_LOADER_HEAP__
+ InstallHeapTracer();
+#endif
+
+ TInt r;
+ __IF_DEBUG(Printf("LoaderThread"));
+ User::SetCritical(User::ESystemCritical);
+ GetKernelInfo();
+
+ CServerLoader* serverLoader;
+ CActiveSchedulerLoader* scheduler;
+
+ CTrapCleanup* cleanup=CTrapCleanup::New();
+ __ASSERT_ALWAYS(cleanup!=NULL, Fault(ELdrCleanupCreate));
+ scheduler=CActiveSchedulerLoader::New();
+ __ASSERT_ALWAYS(scheduler!=NULL, Fault(ELdrSchedulerCreate));
+ serverLoader=CServerLoader::New();
+ __ASSERT_ALWAYS(serverLoader!=NULL, Fault(ELdrServerCreate));
+
+ RThread::Rendezvous(KErrNone);
+ r=gTheLoaderFs.Connect();
+ __ASSERT_ALWAYS(r==KErrNone, Fault(ELdrFsConnect));
+ TBuf<sizeof(KDriveSystemRoot)> driveSystemRoot(KDriveSystemRoot);
+ driveSystemRoot[0] = (TUint8) RFs::GetSystemDriveChar();
+ r=gTheLoaderFs.SetSessionPath(driveSystemRoot);
+ __ASSERT_ALWAYS(r==KErrNone, Fault(ELdrFsSetPath));
+
+#ifdef __EPOC32__
+ InitializeFileNameCache();
+
+ r=gFileDataAllocator.Construct();
+ __ASSERT_ALWAYS(r==KErrNone, Fault(ELdrFileDataAllocInit));
+#endif
+
+#ifdef __LAZY_DLL_UNLOAD
+ CLazyUnloadTimer::New();
+#endif
+
+ gActiveReaper = CActiveReaper::New();
+ __ASSERT_ALWAYS(gActiveReaper!=NULL, Fault(ELdrReaperCreate));
+
+ r=CReaperCleanupTimer::New();
+ __ASSERT_ALWAYS(r==KErrNone, Fault(ELdrReaperCleanupTimerCreate));
+
+ CActiveSchedulerLoader::Start();
+ Fault(ELdrSchedulerStopped);
+ return 0;
+ }
+
+TInt InitLoader()
+ {
+
+ TRequestStatus lts;
+ RThread loaderThread;
+ RHeap* h = (RHeap*)&User::Allocator();
+ TInt maxsize = h->MaxLength(); // loader heap max size = file server heap max size
+ TInt r=loaderThread.Create(KLoaderThreadName,LoaderThread,KLoaderStackSize,KHeapMinSize,maxsize,NULL);
+ if (r!=KErrNone)
+ {
+ return r;
+ }
+ loaderThread.Rendezvous(lts);
+ loaderThread.Resume();
+ User::WaitForRequest(lts);
+ loaderThread.Close();
+ return lts.Int();
+ }
+
+TInt CompareVersions(TUint32 aL, TUint32 aR)
+ {
+ if (aL>aR)
+ return 1;
+ if (aL<aR)
+ return -1;
+ return 0;
+ }
+
+TInt DetailedCompareVersions(TUint32 aCandidate, TUint32 aRequest)
+ {
+ if (aRequest == KModuleVersionNull)
+ return EVersion_MinorBigger;
+ if (aCandidate == KModuleVersionNull)
+ return EVersion_MajorSmaller;
+ TUint32 C = aCandidate >> 16;
+ TUint32 c = aCandidate & 0x0000ffffu;
+ TUint32 R = aRequest >> 16;
+ TUint32 r = aRequest & 0x0000ffffu;
+ if (C==R)
+ {
+ if (c>r)
+ return EVersion_MinorBigger;
+ if (c==r)
+ return EVersion_Exact;
+ return EVersion_MinorSmaller;
+ }
+ if (C>R)
+ return EVersion_MajorBigger;
+ return EVersion_MajorSmaller;
+ }
+
+TInt DetailedCompareVersions(TUint32 aCandidate, TUint32 aRequest, TUint32 aCurrent, TBool aStrict)
+ {
+ TInt cvc = DetailedCompareVersions(aCandidate, aCurrent);
+ if (aRequest == KModuleVersionWild)
+ {
+ return (cvc == EVersion_MinorBigger || cvc == EVersion_MajorBigger) ? EAction_Replace : EAction_Skip;
+ }
+ TInt candidate_state = DetailedCompareVersions(aCandidate, aRequest);
+ if (aStrict)
+ {
+ if (candidate_state > EVersion_Exact)
+ return EAction_Skip; // no match
+ if (cvc == EVersion_MinorBigger)
+ return EAction_Replace; // later minor version so take it
+ return EAction_Skip; // same or earlier minor version
+ }
+ TInt current_state = DetailedCompareVersions(aCurrent, aRequest);
+ if (candidate_state < current_state)
+ {
+ // better match
+ if (candidate_state <= EVersion_Exact)
+ return EAction_Replace;
+ return (candidate_state == EVersion_MajorBigger) ? EAction_CheckImports : EAction_CheckLastImport;
+ }
+ if (candidate_state > current_state)
+ return EAction_Skip; // worse match
+ // match state same
+ // skip if (i) state=exact
+ // (ii) state=major smaller
+ // replace if (i) state=minor bigger and candidate minor > current minor
+ // (ii) state=minor smaller and candidate minor > current minor
+ // (iii) state=major bigger, candidate major=current major and candidate minor > current minor
+ // check if (i) state=major bigger and candidate major < current major
+ switch (candidate_state)
+ {
+ case EVersion_MinorBigger:
+ case EVersion_MinorSmaller:
+ return (cvc == EVersion_MinorBigger) ? EAction_Replace : EAction_Skip;
+ case EVersion_MajorBigger:
+ if (cvc == EVersion_MinorBigger)
+ return EAction_Replace;
+ return (cvc == EVersion_MajorSmaller) ? EAction_CheckImports : EAction_Skip;
+ default:
+ return EAction_Skip;
+ }
+ }
+
+TFileNameInfo::TFileNameInfo()
+ {
+ memclr(this, sizeof(TFileNameInfo));
+ }
+
+TInt TFileNameInfo::Set(const TDesC8& aFileName, TUint aFlags)
+ {
+ __IF_DEBUG(Printf(">TFileNameInfo::Set %S %08x", &aFileName, aFlags));
+ iUid = 0;
+ iVersion = 0;
+ iPathPos = 0;
+ iName = aFileName.Ptr();
+ iLen = aFileName.Length();
+ iExtPos = aFileName.LocateReverse('.');
+ if (iExtPos<0)
+ iExtPos = iLen;
+ TInt osq = aFileName.LocateReverse('[');
+ TInt csq = aFileName.LocateReverse(']');
+ if (!(aFlags & EAllowUid) && (osq>=0 || csq>=0))
+ {
+ __IF_DEBUG(Printf("<TFileNameInfo::Set BadName1"));
+ return KErrBadName;
+ }
+ if (osq>=iExtPos || csq>=iExtPos)
+ {
+ __IF_DEBUG(Printf("<TFileNameInfo::Set BadName2"));
+ return KErrBadName;
+ }
+ TInt p = iExtPos;
+ if ((aFlags & EAllowUid) && p>=10 && iName[p-1]==']' && iName[p-10]=='[')
+ {
+ TPtrC8 uidstr(iName + p - 9, 8);
+ TLex8 uidlex(uidstr);
+ TUint32 uid = 0;
+ TInt r = uidlex.Val(uid, EHex);
+ if (r==KErrNone && uidlex.Eos())
+ iUid = uid, p -= 10;
+ }
+ iUidPos = p;
+ TInt ob = aFileName.LocateReverse('{');
+ TInt cb = aFileName.LocateReverse('}');
+ if (ob>=iUidPos || cb>=iUidPos)
+ {
+ __IF_DEBUG(Printf("<TFileNameInfo::Set BadName3"));
+ return KErrBadName;
+ }
+ if (ob>=0 && cb>=0 && p-1==cb)
+ {
+ TPtrC8 p8(iName, p);
+ TInt d = p8.LocateReverse('.');
+ TPtrC8 verstr(iName+ob+1, p-ob-2);
+ TLex8 verlex(verstr);
+ if (ob==p-10 && d<ob)
+ {
+ TUint32 ver = 0;
+ TInt r = verlex.Val(ver, EHex);
+ if (r==KErrNone && verlex.Eos())
+ iVersion = ver, p = ob;
+ }
+ else if (d>ob && p-1>d && (aFlags & EAllowDecimalVersion))
+ {
+ TUint32 maj = 0;
+ TUint32 min = 0;
+ TInt r = verlex.Val(maj, EDecimal);
+ TUint c = (TUint)verlex.Get();
+ TInt r2 = verlex.Val(min, EDecimal);
+ if (r==KErrNone && c=='.' && r2==KErrNone && verlex.Eos() && maj<32768 && min<32768)
+ iVersion = (maj << 16) | min, p = ob;
+ }
+ }
+ iVerPos = p;
+ if (iLen>=2 && iName[1]==':')
+ {
+ TUint c = iName[0];
+ if (c!='?' || !(aFlags & EAllowPlaceholder))
+ {
+ c |= 0x20;
+ if (c<'a' || c>'z')
+ {
+ __IF_DEBUG(Printf("<TFileNameInfo::Set BadName4"));
+ return KErrBadName;
+ }
+ }
+ iPathPos = 2;
+ }
+ TPtrC8 pathp(iName+iPathPos, iVerPos-iPathPos);
+ if (pathp.Locate('[')>=0 || pathp.Locate(']')>=0 || pathp.Locate('{')>=0 || pathp.Locate('}')>=0 || pathp.Locate(':')>=0)
+ {
+ __IF_DEBUG(Printf("<TFileNameInfo::Set BadName5"));
+ return KErrBadName;
+ }
+ iBasePos = pathp.LocateReverse('\\') + 1 + iPathPos;
+ __IF_DEBUG(Printf("<TFileNameInfo::Set OK"));
+ __LDRTRACE(Dump());
+ return KErrNone;
+ }
+
+void TFileNameInfo::GetName(TDes8& aName, TUint aFlags) const
+ {
+ if (aFlags & EIncludeDrive)
+ aName.Append(Drive());
+ if (aFlags & EIncludePath)
+ {
+ if (PathLen() && iName[iPathPos]!='\\')
+ aName.Append('\\');
+ aName.Append(Path());
+ }
+ if (aFlags & EIncludeBase)
+ aName.Append(Base());
+ if ((aFlags & EForceVer) || ((aFlags & EIncludeVer) && VerLen()) )
+ {
+ aName.Append('{');
+ aName.AppendNumFixedWidth(iVersion, EHex, 8);
+ aName.Append('}');
+ }
+ if ((aFlags & EForceUid) || ((aFlags & EIncludeUid) && UidLen()) )
+ {
+ aName.Append('[');
+ aName.AppendNumFixedWidth(iUid, EHex, 8);
+ aName.Append(']');
+ }
+ if (aFlags & EIncludeExt)
+ aName.Append(Ext());
+ }
+
+TInt OpenFile8(RFile& aFile, const TDesC8& aName)
+ {
+ TFileName fn;
+ fn.Copy(aName);
+ TInt r = aFile.Open(gTheLoaderFs, fn, EFileStream|EFileRead|EFileShareReadersOnly|EFileReadDirectIO);
+ return r;
+ }
+
+RLdrReq::RLdrReq()
+ {
+ memclr(&iFileName, sizeof(RLdrReq) - sizeof(TLdrInfo));
+ }
+
+void RLdrReq::Close()
+ {
+ delete iFileName;
+ delete iCmd;
+ delete iPath;
+ iClientThread.Close();
+ iClientProcess.Close();
+ }
+
+void RLdrReq::Panic(TInt aPanic)
+ {
+ iMsg->Panic(KLitLoader,aPanic);
+ }
+
+TInt CheckedCollapse(TDes8& aDest, const TDesC16& aSrc)
+ {
+ TInt rl = aSrc.Length();
+ aDest.SetLength(rl);
+ TText8* d = (TText8*)aDest.Ptr();
+ const TText16* s = aSrc.Ptr();
+ const TText16* sE = s + rl;
+ while (s<sE && *s>=0x20u && *s<0x7fu)
+ *d++ = (TText8)*s++;
+ return (s<sE) ? KErrBadName : KErrNone;
+ }
+
+TInt RLoaderMsg::GetString(HBufC8*& aBuf, TInt aParam, TInt aMaxLen, TInt aHeadroom, TBool aReduce) const
+ {
+ aBuf=NULL;
+ TInt l=GetDesLength(aParam);
+ if (l<0)
+ return l;
+ if (l>aMaxLen)
+ return KErrOverflow;
+ aBuf=HBufC8::New((l+aHeadroom)*sizeof(TText));
+ if (!aBuf)
+ return KErrNoMemory;
+ TPtr8 bp8(aBuf->Des());
+ TPtr16 bp16((TText*)bp8.Ptr(), 0, bp8.MaxLength()/sizeof(TText));
+ TInt r = Read(aParam, bp16);
+ if (r == KErrNone)
+ {
+ TInt rl = bp16.Length();
+ if (aReduce)
+ r = CheckedCollapse(bp8, bp16);
+ else
+ bp8.SetLength(rl*sizeof(TText));
+ }
+ if (r!=KErrNone)
+ {
+ delete aBuf;
+ aBuf=NULL;
+ }
+ return r;
+ }
+
+TInt RLoaderMsg::GetLdrInfo(TLdrInfo& aInfo) const
+ {
+ TPckg<TLdrInfo> infoPckg(aInfo);
+ return Read(0, infoPckg);
+ }
+
+TInt RLoaderMsg::UpdateLdrInfo(const TLdrInfo& aInfo) const
+ {
+ TPckgC<TLdrInfo> infoPckg(aInfo);
+ return Write(0, infoPckg);
+ }
+
+TInt RLdrReq::AddFileExtension(const TDesC8& aExt)
+ {
+ if (iFileName->LocateReverse('.')==KErrNotFound)
+ {
+ if (iFileName->Length()+aExt.Length()>KMaxFileName)
+ return KErrBadName;
+ iFileName->Des().Append(aExt);
+ }
+ TInt r = iFileNameInfo.Set(*iFileName, TFileNameInfo::EAllowDecimalVersion);
+ if (r == KErrNone)
+ {
+ TInt l = iFileNameInfo.BaseLen() + iFileNameInfo.ExtLen();
+ if (l > KMaxProcessName)
+ r = KErrBadName;
+ }
+ return r;
+ }
+
+TInt CheckSubstDrive(TDes8& aDest, const TDesC8& aSrc, TBool aIsPathOnly)
+ {
+ TInt r = KErrNone;
+ TInt l = aSrc.Length();
+ TInt mdl = aDest.MaxLength();
+ TInt pathStart = 0;
+ if (l>=3 && aSrc[1]==':')
+ {
+ // drive letter specified...
+ pathStart = 2;
+ TInt drive;
+ TDriveInfo dI;
+ r = RFs::CharToDrive((TChar)aSrc[0], drive);
+ if (r!=KErrNone)
+ {
+ return r;
+ }
+ r = gTheLoaderFs.Drive(dI, drive);
+ if (r!=KErrNone)
+ {
+ return r;
+ }
+ if (dI.iDriveAtt & KDriveAttSubsted)
+ {
+ TPtr16 ptr16(aDest.Expand());
+ r = gTheLoaderFs.Subst(ptr16, drive);
+ if (r!=KErrNone)
+ {
+ return r;
+ }
+ aDest.SetLength(ptr16.Length()*sizeof(TText));
+ aDest.Collapse();
+ TInt srcm = (aSrc[2]=='\\') ? 3 : 2;
+ TPtrC8 rest(aSrc.Mid(srcm));
+ if (rest.Length() + aDest.Length() > mdl)
+ return KErrBadName;
+ aDest.Append(rest);
+ r=1;
+ }
+ }
+
+ if(!PlatSec::ConfigSetting(PlatSec::EPlatSecEnforceSysBin))
+ return r;
+
+ // make sure path starts with "\sys\bin\"...
+
+ // get filename/path...
+ TPtrC8 ptr;
+ if(!r)
+ ptr.Set(aSrc);
+ else
+ ptr.Set(aDest);
+
+ // set pathStart to first character of path (after any initial '\')
+ if(ptr.Length() && ptr[pathStart]=='\\')
+ ++pathStart; // drop initial '\'
+
+ // set pathEnd to first character after path (the final '\' if present)
+ TInt pathEnd;
+ if(aIsPathOnly)
+ {
+ pathEnd = ptr.Length();
+ if(pathEnd && ptr[pathEnd-1]==';')
+ --pathEnd; // drop trailing ';'
+ if(pathEnd && ptr[pathEnd-1]=='\\')
+ --pathEnd; // drop trailing '\'
+ }
+ else
+ {
+ pathEnd = ptr.LocateReverse('\\');
+ if(pathEnd<0)
+ return r; // no path, so end
+ }
+
+ // check if path starts with "sys\bin"...
+ const TUint8* fn = ptr.Ptr();
+ _LIT8(KSysBin,"sys\\bin");
+ const TInt KSysBinLength = 7;
+ if(pathStart+KSysBinLength <= pathEnd)
+ if(KSysBin().CompareF(TPtrC8(fn+pathStart,KSysBinLength))==0)
+ return r; // path already starts with "sys\bin", so end
+
+ // replace path with "sys\bin"...
+ TBuf8<KMaxFileName*sizeof(TText)> temp;
+ temp.Append(TPtrC8(fn,pathStart)); // add bits before path
+ temp.Append(KSysBin); // add "sys\bin"
+ TInt rootLen = ptr.Length()-pathEnd;
+ if(temp.Length()+rootLen>temp.MaxLength())
+ return KErrBadName; // would overflow
+ temp.Append(TPtrC8(fn+pathEnd,rootLen)); // add bits after path
+
+ // return modified string...
+ aDest = temp;
+ return 1;
+ }
+
+
+TInt RLdrReq::CheckForSubstDriveInName()
+ {
+ TBuf8<KMaxFileName*sizeof(TText)> temp;
+ TInt r = CheckSubstDrive(temp, *iFileName, EFalse);
+ if (r<0)
+ {
+ return r;
+ }
+ if (r>0)
+ {
+ TInt l=temp.Length();
+ HBufC8* p = HBufC8::New(l+KExtensionLength);
+ if (!p)
+ return KErrNoMemory;
+ TPtr8 bp8(p->Des());
+ bp8 = temp;
+ delete iFileName;
+ iFileName = p;
+ r = KErrNone;
+ }
+ return r;
+ }
+
+
+TInt RLdrReq::CheckForSubstDrivesInPath()
+ {
+ if (!iPath)
+ return KErrNone;
+ TBuf8<(KMaxFileName+1)*sizeof(TText)> temp;
+ TInt ppos = 0;
+ TInt plen = iPath->Length();
+ HBufC8* newpath = NULL;
+ while (ppos < plen)
+ {
+ TPtrC8 rmn(iPath->Mid(ppos));
+ TInt term = rmn.Locate(';');
+ TInt pel = (term<0) ? rmn.Length() : term+1;
+ TPtrC8 path_element(iPath->Mid(ppos, pel));
+ ppos += pel;
+ temp.Zero();
+ TInt r = CheckSubstDrive(temp, path_element, ETrue);
+ if (r<0)
+ {
+ delete newpath;
+ return r;
+ }
+ else if (r>0 || newpath)
+ {
+ if(!newpath)
+ {
+ // initialise 'newpath' to contain everything in path before the element just processed...
+ newpath = iPath->Left(ppos-pel).Alloc();
+ if(!newpath)
+ return KErrNoMemory;
+ }
+ // grow 'newpath'...
+ TInt xl = (r>0) ? temp.Length() : pel;
+ HBufC8* np = newpath->ReAlloc(newpath->Length() + xl);
+ if(!np)
+ {
+ delete newpath;
+ return KErrNoMemory;
+ }
+ newpath = np;
+ // append modified path element to the 'newpath'...
+ newpath->Des().Append( (r>0) ? (const TDesC8&)temp : (const TDesC8&)path_element);
+ }
+ }
+ if(newpath)
+ {
+ delete iPath;
+ iPath = newpath;
+ }
+ return KErrNone;
+ }
+
+#ifdef __VC32__
+#pragma warning( disable : 4701 ) // disable warning C4701: local variable 'missingCaps' may be used without having been initialized
+#endif
+
+TInt RLdrReq::CheckSecInfo(const SSecurityInfo& aCandidate) const
+//
+// Check that the security info of a candidate loadee is sufficient
+//
+ {
+ if (iSecureId && iSecureId != aCandidate.iSecureId)
+ return KErrPermissionDenied;
+
+ SCapabilitySet missingCaps;
+ TUint32 checkFail = 0;
+ for (TInt i=0; i<SCapabilitySet::ENCapW; ++i)
+ {
+ TUint32 missing = iPlatSecCaps[i] & ~aCandidate.iCaps[i];
+ missingCaps[i] = missing;
+ checkFail |= missing;
+ }
+ if(!checkFail)
+ return KErrNone;
+ // Failed check...
+ if(iImporter)
+ {
+#ifndef __REMOVE_PLATSEC_DIAGNOSTICS__
+ return PlatSec::LoaderCapabilityViolation(iImporter->iFileName,*iFileName,missingCaps);
+#else //__REMOVE_PLATSEC_DIAGNOSTICS__
+ return PlatSec::EmitDiagnostic();
+#endif //!__REMOVE_PLATSEC_DIAGNOSTICS__
+ }
+
+#ifndef __REMOVE_PLATSEC_DIAGNOSTICS__
+ return PlatSec::LoaderCapabilityViolation(iClientProcess,*iFileName,missingCaps);
+#else //__REMOVE_PLATSEC_DIAGNOSTICS__
+ return PlatSec::EmitDiagnostic();
+#endif //!__REMOVE_PLATSEC_DIAGNOSTICS__
+ }
+
+#ifdef __VC32__
+#pragma warning( default : 4701 ) // enable warning C4701: local variable 'missingCaps' may be used without having been initialized
+#endif
+
+void CSessionLoader::ServiceL(const RMessage2& aMessage)
+//
+// Handle messages for this server.
+//
+ {
+ const RLoaderMsg& msg = (const RLoaderMsg&)aMessage;
+ TLoaderMsg mid=(TLoaderMsg)msg.Function();
+ __IF_DEBUG(Printf("Loader: RX msg %d", mid));
+ if (mid<1 || mid>=EMaxLoaderMsg)
+ {
+ aMessage.Complete(KErrNotSupported);
+ return;
+ }
+#ifdef __EPOC32__
+#ifdef __X86__
+ UseFloppy = -1;
+#endif
+ TInt r=CheckLoaderCacheInit();
+ if (r!=KErrNone)
+ {
+ aMessage.Complete(r);
+ return;
+ }
+#else
+ TInt r = KErrNone;
+#endif
+#ifdef _DEBUG
+ if(mid==ELoaderDebugFunction)
+ {
+ msg.Complete(DoLoaderDebugFunction(msg));
+ return;
+ }
+#endif
+ if(mid==ELoaderCancelLazyDllUnload)
+ {
+#ifdef __LAZY_DLL_UNLOAD
+ CLazyUnloadTimer::Finish();
+#endif
+ msg.Complete(KErrNone);
+ return;
+ }
+#ifdef _DEBUG
+ gTheLoaderFs.ResourceCountMarkStart();
+#endif
+ if(mid==EGetInfoFromHeader)
+ {
+ r=GetInfoFromHeader(msg);
+#ifdef _DEBUG
+ gTheLoaderFs.ResourceCountMarkEnd();
+#endif
+ msg.Complete(r);
+ return;
+ }
+
+ if (mid == ELdrDelete)
+ {
+ // TCB and AllFiles are sufficient to ensure that write
+ // access to any part of the file system without having to
+ // check substitutions and access rights here.
+ if (! aMessage.HasCapability(ECapabilityTCB, ECapabilityAllFiles, __PLATSEC_DIAGNOSTIC_STRING("ELdrDelete,TCB+AllFiles")))
+ {
+ r = KErrPermissionDenied;
+ }
+ // because this function is a general-purpose replacement for RFs::Delete,
+ // it doesn't use the transformed filename which would be put into ldrReq.iFileName,
+ // but the literal filename which was supplied, provided it is absolute.
+ else
+ {
+ TInt filenameLength = msg.GetDesLength(1);
+ if(filenameLength<0)
+ r = filenameLength;
+ else
+ {
+ HBufC* fnSupply = HBufC::New(filenameLength);
+ if(!fnSupply)
+ r = KErrNoMemory;
+ else
+ {
+ TPtr buf = fnSupply->Des();
+ if ((r=msg.Read( 1, buf)) == KErrNone)
+ {
+ _LIT(KAbsolutePathPattern,"?:\\*");
+ if (fnSupply->MatchF(KAbsolutePathPattern) != 0)
+ r = KErrBadName;
+ else
+ {
+ _LIT(KSysBin,"?:\\sys\\bin\\*");
+ if (fnSupply->MatchF(KSysBin) == 0)
+ r = DeleteExecutable(*fnSupply);
+ else
+ r = gTheLoaderFs.Delete(*fnSupply);
+ }
+ }
+ delete fnSupply;
+ }
+ }
+ } // endif !aMessage.HasCapability
+
+#ifdef _DEBUG
+ gTheLoaderFs.ResourceCountMarkEnd();
+#endif
+ msg.Complete(r);
+ return;
+ }
+
+ RLdrReq ldrReq;
+ ldrReq.iMsg=&msg;
+ r=msg.GetString(ldrReq.iFileName, 1, KMaxFileName, KExtensionLength, ETrue);
+ __IF_DEBUG(Printf("Filename: %S", ldrReq.iFileName));
+ if (r==KErrNone)
+ r = ldrReq.CheckForSubstDriveInName();
+ __IF_DEBUG(Printf("Post-subst filename: %S", ldrReq.iFileName));
+ if (r!=KErrNone)
+ goto error;
+
+ ldrReq.iPlatSecCaps = AllCapabilities; // secure default, require loaded executable to have all capabilities
+
+#ifndef __EPOC32__
+ // On the emulator, temporarily disable CPU speed restrictions whilst loading executables...
+ TInt cpu;
+ HAL::Get(HALData::ECPUSpeed, cpu);
+ HAL::Set(HALData::ECPUSpeed, 0);
+#endif
+ IF_DEBUG(SetupRFsFail(msg));
+ IF_DEBUG(SetupHeapFail(msg));
+ switch (mid)
+ {
+ //__DATA_CAGING__
+ case EGetInfo:
+ {
+ r=ldrReq.AddFileExtension(KFileExtensionDll);
+ if (r==KErrNone)
+ r=msg.GetLdrInfo(ldrReq);
+ if (r==KErrNone)
+ r=GetModuleInfo(ldrReq);
+ break;
+ }
+ //__DATA_CAGING__
+ case ELoadProcess:
+ {
+ r=ldrReq.AddFileExtension(KFileExtensionExe);
+ if (r==KErrNone)
+ r=msg.GetString(ldrReq.iCmd, 2, KMaxTInt, 0, EFalse);
+ if (r==KErrNone)
+ r=msg.GetLdrInfo(ldrReq);
+ if (r==KErrNone)
+ {
+ static const SCapabilitySet NoCapabilities={{0}};
+ ldrReq.iPlatSecCaps=NoCapabilities; // We don't care what EXEs capabilities are
+ r=LoadProcess(ldrReq);
+ }
+ break;
+ }
+ case ELoadLibrary:
+ {
+ r=E32Loader::CheckClientState(msg.Handle());
+ if (r!=KErrNone)
+ ldrReq.Panic(ELoadLibraryWithoutDllLock);
+ else
+ r=ldrReq.AddFileExtension(KFileExtensionDll);
+ if (r==KErrNone)
+ r=msg.GetString(ldrReq.iPath, 2, KMaxPath, 0, ETrue);
+ if (ldrReq.iPath)
+ {
+ __IF_DEBUG(Printf("Path: %S", ldrReq.iPath));
+ }
+ if (r==KErrNone)
+ r = ldrReq.CheckForSubstDrivesInPath();
+ if (ldrReq.iPath)
+ {
+ __IF_DEBUG(Printf("Post-subst Path: %S", ldrReq.iPath));
+ }
+ if (r==KErrNone)
+ r=msg.GetLdrInfo(ldrReq);
+ if (r==KErrNone)
+ r=LoadLibrary(ldrReq);
+ break;
+ }
+
+ case ECheckLibraryHash:
+
+ r = ldrReq.AddFileExtension(KFileExtensionDll);
+ if (r==KErrNone)
+ {
+ r = CheckLibraryHash(ldrReq);
+ }
+ break;
+
+ case ELoadLogicalDevice:
+ {
+ r=ldrReq.AddFileExtension(KFileExtensionLdd);
+ if (r==KErrNone)
+ r=LoadDeviceDriver(ldrReq, 0);
+ break;
+ }
+ case ELoadPhysicalDevice:
+ {
+ r=ldrReq.AddFileExtension(KFileExtensionPdd);
+ if (r==KErrNone)
+ r=LoadDeviceDriver(ldrReq, 1);
+ break;
+ }
+ case ELoadLocale:
+ {
+ r=ldrReq.AddFileExtension(KFileExtensionDll);
+ if (r==KErrNone)
+ {
+ ldrReq.iRequestedUids=TUidType(TUid::Uid(KDynamicLibraryUidValue),TUid::Uid(KLocaleDllUidValue));
+ ldrReq.iOwnerType=EOwnerProcess;
+ ldrReq.iHandle=0;
+ ldrReq.iPlatSecCaps=AllCapabilities;
+ ldrReq.iMsg=NULL; // null msg -> client is self
+ TLibraryFunction functionList[KNumLocaleExports];
+ r=LoadLocale(ldrReq, functionList);
+ if(r==KErrNone)
+ {
+ TInt size = KNumLocaleExports * sizeof(TLibraryFunction);
+ TPtr8 functionListBuf((TUint8*)&functionList[0], size, size);
+ TRAP(r, aMessage.WriteL(2, functionListBuf, 0));
+ }
+ }
+ break;
+ }
+ case ELoadCodePage:
+ {
+ if (!KCapDiskAdmin.CheckPolicy(aMessage, __PLATSEC_DIAGNOSTIC_STRING("Loader : ELoadCodePage")))
+ {
+ r = KErrPermissionDenied;
+ break;
+ }
+ r=ldrReq.AddFileExtension(KFileExtensionDll);
+ if (r==KErrNone)
+ {
+ ldrReq.iRequestedUids=TUidType(TUid::Uid(KDynamicLibraryUidValue),TUid::Uid(KLocaleDllUidValue));
+ ldrReq.iOwnerType=EOwnerProcess;
+ ldrReq.iHandle=0;
+ ldrReq.iPlatSecCaps=gFileServerSecInfo.iCaps;
+ ldrReq.iMsg=NULL; // null msg -> client is self
+ r=LoadLibrary(ldrReq);
+ if (r==KErrNone)
+ {
+ // call file server to install code page dll
+ r = ((RLoaderFs*)&gTheLoaderFs)->SendReceive(EFsLoadCodePage, TIpcArgs(ldrReq.iHandle));
+ }
+ }
+ if (r!=KErrNone)
+ {
+ RLibrary lib;
+ lib.SetHandle(ldrReq.iHandle);
+ lib.Close();
+ }
+ break;
+ }
+ case ELoadFileSystem:
+ {
+ if (!KCapFsAddFileSystem.CheckPolicy(aMessage, __PLATSEC_DIAGNOSTIC_STRING("Add File System")))
+ {
+ r = KErrPermissionDenied;
+ break;
+ }
+ r=ldrReq.AddFileExtension(KFileExtensionFsy);
+ if (r==KErrNone)
+ {
+ ldrReq.iRequestedUids=TUidType(TUid::Uid(KDynamicLibraryUidValue),TUid::Uid(KFileSystemUidValue));
+ ldrReq.iOwnerType=EOwnerProcess;
+ ldrReq.iHandle=0;
+ ldrReq.iPlatSecCaps=gFileServerSecInfo.iCaps;
+ ldrReq.iMsg=NULL; // null msg -> client is self
+ r=LoadLibrary(ldrReq);
+ if (r==KErrNone)
+ {
+ // call file server to install file system
+ r = ((RLoaderFs*)&gTheLoaderFs)->SendReceive(EFsAddFileSystem, TIpcArgs(ldrReq.iHandle));
+ }
+ }
+ if (r!=KErrNone)
+ {
+ RLibrary lib;
+ lib.SetHandle(ldrReq.iHandle);
+ lib.Close();
+ }
+ break;
+ }
+ case ELoadFSExtension:
+ {
+ if (!KCapFsAddExtension.CheckPolicy(aMessage, __PLATSEC_DIAGNOSTIC_STRING("Add File Extension")))
+ {
+ r = KErrPermissionDenied;
+ break;
+ }
+ r=ldrReq.AddFileExtension(KFileExtensionFxt);
+ if (r==KErrNone)
+ {
+ ldrReq.iRequestedUids=TUidType(TUid::Uid(KDynamicLibraryUidValue),TUid::Uid(KFileSystemUidValue));
+ ldrReq.iOwnerType=EOwnerProcess;
+ ldrReq.iHandle=0;
+ ldrReq.iPlatSecCaps=gFileServerSecInfo.iCaps;
+ ldrReq.iMsg=NULL; // null msg -> client is self
+ r=LoadLibrary(ldrReq);
+ if (r==KErrNone)
+ {
+ // call file server to install file system
+ r = ((RLoaderFs*)&gTheLoaderFs)->SendReceive(EFsAddExtension, TIpcArgs(ldrReq.iHandle));
+ }
+ }
+ if (r!=KErrNone)
+ {
+ RLibrary lib;
+ lib.SetHandle(ldrReq.iHandle);
+ lib.Close();
+ }
+ break;
+ }
+ case ELoadFSProxyDrive:
+ {
+ if (!KCapFsAddProxyDrive.CheckPolicy(aMessage, __PLATSEC_DIAGNOSTIC_STRING("Add Proxy Drive")))
+ {
+ r = KErrPermissionDenied;
+ break;
+ }
+ r=ldrReq.AddFileExtension(KFileExtensionPxy);
+ if (r==KErrNone)
+ {
+ ldrReq.iRequestedUids=TUidType(TUid::Uid(KDynamicLibraryUidValue),TUid::Uid(KFileSystemUidValue));
+ ldrReq.iOwnerType=EOwnerProcess;
+ ldrReq.iHandle=0;
+ ldrReq.iPlatSecCaps=gFileServerSecInfo.iCaps;
+ ldrReq.iMsg=NULL; // null msg -> client is self
+ r=LoadLibrary(ldrReq);
+ if (r==KErrNone)
+ {
+ // call file server to install file system
+ r = ((RLoaderFs*)&gTheLoaderFs)->SendReceive(EFsAddProxyDrive, TIpcArgs(ldrReq.iHandle));
+ }
+ }
+ if (r!=KErrNone)
+ {
+ RLibrary lib;
+ lib.SetHandle(ldrReq.iHandle);
+ lib.Close();
+ }
+ break;
+ }
+ case ELoadFSPlugin:
+ {
+ r=ldrReq.AddFileExtension(KFileExtensionPxt);
+ if (r==KErrNone)
+ {
+ ldrReq.iRequestedUids=TUidType(TUid::Uid(KDynamicLibraryUidValue),TUid::Uid(KFileSystemUidValue));
+ ldrReq.iOwnerType=EOwnerProcess;
+ ldrReq.iHandle=0;
+ ldrReq.iPlatSecCaps=gFileServerSecInfo.iCaps;
+ ldrReq.iMsg=NULL; // null msg -> client is self
+ r=LoadLibrary(ldrReq);
+ if (r==KErrNone)
+ {
+ // call file server to install file system
+ r = ((RLoaderFs*)&gTheLoaderFs)->SendReceive(EFsAddPlugin, TIpcArgs(ldrReq.iHandle));
+ }
+ }
+ if (r!=KErrNone)
+ {
+ RLibrary lib;
+ lib.SetHandle(ldrReq.iHandle);
+ lib.Close();
+ }
+ break;
+ }
+
+ default:
+ r=KErrNotSupported;
+ break;
+ }
+
+ ldrReq.Close();
+ IF_DEBUG(EndRFsFailCheck(r));
+ IF_DEBUG(EndHeapFailCheck(r));
+#ifndef __EPOC32__
+ HAL::Set(HALData::ECPUSpeed, cpu);
+#endif
+error:
+#ifdef _DEBUG
+ gTheLoaderFs.ResourceCountMarkEnd();
+#endif
+ if (!aMessage.IsNull())
+ {
+ __IF_DEBUG(Printf("Loader: msg complete %d", r));
+ aMessage.Complete(r);
+ }
+ }
+
+//-----------------------------------------------------------------------------------
+#ifndef __WINS__
+/**
+ Helper function that reads a hash file from c:\\sys\\hash and compares it with the givem dll hash.
+
+ @param aHashFile represents opened hash file in c:\\sys\\hash directory
+ @param aDllFileName full path to the dll file, which hash will be calculated and compared with aHashFile contents.
+ @leave on file operation error or if hashes differ.
+*/
+static void DoCheckHashL(RFile& aHashFile, const TDesC& aDllFileName)
+ {
+ TBuf8<SHA1_HASH> hashInstalled; //-- installed dll hash, from c:\\sys\\hash
+ User::LeaveIfError(aHashFile.Read(hashInstalled));
+
+ CSHA1* hasher=CSHA1::NewL();
+ CleanupStack::PushL(hasher);
+
+ RFile fileDll;
+ CleanupClosePushL(fileDll);
+
+ //-- open dll file
+ User::LeaveIfError(fileDll.Open(gTheLoaderFs, aDllFileName, EFileRead|EFileReadDirectIO));
+
+ TInt fileSz;
+ User::LeaveIfError(fileDll.Size(fileSz));
+
+ //-- check if the file is on removable media
+ TInt drvNum;
+ TDriveInfo drvInfo;
+ User::LeaveIfError(fileDll.Drive(drvNum, drvInfo));
+ if(!(drvInfo.iDriveAtt & KDriveAttRemovable))
+ User::Leave(KErrNotSupported);
+
+ TInt offset=0;
+ TInt readSize = KHashFileReadSize;
+ RBuf8 readBuf;
+
+ CleanupClosePushL(readBuf);
+ readBuf.CreateMaxL(readSize);
+
+ //-- calculate dll hash
+ do {
+ if((fileSz - offset) < readSize)
+ readSize = (fileSz - offset);
+
+ User::LeaveIfError(fileDll.Read(offset, readBuf, readSize));
+ hasher->Update(readBuf);
+ offset+=readSize;
+ }
+ while(offset < fileSz);
+
+ TBuf8<SHA1_HASH> hashCalculated; //-- calculated dll hash
+ hashCalculated=hasher->Final();
+
+ //-- compare hashes
+ if(hashCalculated.Compare(hashInstalled) !=0)
+ User::Leave(KErrCorrupt);
+
+ CleanupStack::PopAndDestroy(3); //hasher, fileDll, readBuf
+ }
+#endif //__WINS__
+
+//-----------------------------------------------------------------------------------
+
+/**
+ Check if specified dll hash exists in \\sys\\hash on system drive and optionally validate it.
+
+
+ @param aReq loader request parameters
+
+ @return System-wide error code, see RLoader::CheckLibraryHash() description
+ @return KErrNotSupported for the emulator version, because loading dlls from the emulated removable media is not supported
+*/
+static TInt CheckLibraryHash(RLdrReq& aReq)
+ {
+#ifdef __WINS__
+ (void)aReq;
+ return KErrNotSupported; //-- loading dlls from removable media and dll hashing isn't supported for WINS
+#else
+
+ const TInt fNameLen=aReq.iFileName->Length();
+ if(fNameLen <= 0 || fNameLen > KMaxFileName)
+ return KErrArgument;
+
+ const TBool bValidateHash=aReq.iMsg->Int2();
+
+ //-- extract pure dll name
+ TInt posNameStart=aReq.iFileName->LocateReverse('\\');
+ if(posNameStart <0)
+ posNameStart = 0;
+ else
+ posNameStart++;
+
+ //-- compose hash file name \\sys\\hash\\xxx on system drive
+ TFileName hashFName;
+ hashFName.Copy(aReq.iFileName->Right(fNameLen-posNameStart));
+ hashFName.Insert(0, KSysHash);
+ hashFName[0] = (TUint8) RFs::GetSystemDriveChar();
+
+ //-- try to locate hash file
+ TInt nRes=KErrNone;
+ RFile fileHash;
+ nRes = fileHash.Open(gTheLoaderFs, hashFName, EFileRead|EFileReadDirectIO);
+
+ if(nRes != KErrNone)
+ {
+ nRes = KErrNotFound; //-- hash file couldn't be found
+ }
+ else if(bValidateHash)
+ {//-- request to validate the hash.
+ hashFName.Copy(aReq.iFileName->Left(fNameLen)); //-- expand file name to unicode
+ TRAP(nRes, DoCheckHashL(fileHash, hashFName));
+
+ if(nRes != KErrNone)
+ nRes=KErrCorrupt;
+ }
+
+ fileHash.Close();
+
+ return nRes;
+
+#endif //__WINS__
+ }
+
+// This safely deletes something that could be an executable (ie in /sys/bin)
+// aName will be deleted either in, or sometime after this call
+// (The descriptor and the file it represents)
+TInt CSessionLoader::DeleteExecutable(const TDesC& aName)
+ {
+ __IF_DEBUG(Printf("DeleteExecutable %S", &aName));
+ TInt r;
+ r = gTheLoaderFs.Delete(aName);
+ if (r!=KErrInUse)
+ {
+ return r;
+ }
+ RFile toDelete;
+ CReaperCleanupTimer::Complete();
+
+ HBufC* newName=NULL;
+ r = toDelete.Open(gTheLoaderFs,aName,EFileShareExclusive|EFileReadDirectIO);
+ if (r==KErrNone)
+ {
+ TInt64 startPos=0;
+ SBlockMapInfo blockmapInfo;
+
+ // find drive number, and starting block
+ r = toDelete.BlockMap(blockmapInfo,startPos, 1, ETrue);
+ if (r == KErrCompletion)
+ {
+ TInt64 startBlock = blockmapInfo.iStartBlockAddress +
+ ((TBlockMapEntry *)(&(blockmapInfo.iMap[0])))->iStartBlock *
+ blockmapInfo.iBlockGranularity +
+ blockmapInfo.iBlockStartOffset;
+ TInt driveNumber = blockmapInfo.iLocalDriveNumber;
+
+ newName = HBufC::New(KPathDelLength+2+16); // + 2 digits for drive and 16 for start block block
+ if(!newName)
+ r = KErrNoMemory;
+ else
+ {
+ // make unique name for file...
+ TPtr name = newName->Des();
+ name.Copy(KPathDel);
+ name[0] = aName[0]; // copy drive letter
+ name.AppendNumFixedWidth(driveNumber, EHex, 2);
+ name.AppendNumFixedWidth(TUint32(startBlock>>32), EHex, 8);
+ name.AppendNumFixedWidth(TUint32(startBlock), EHex, 8);
+
+ TLoaderDeletedList* tmpLink = new TLoaderDeletedList();
+ if(tmpLink==NULL)
+ r = KErrNoMemory;
+ else
+ {
+ toDelete.Close();
+ gTheLoaderFs.MkDirAll(*newName); // ignore error and let rename fail if path doesn't exists
+ r = gTheLoaderFs.Rename(aName, *newName);
+ __IF_DEBUG(Printf("DeleteExecutable rename to %S returns %d", &newName, r));
+ if(r==KErrNone)
+ {
+ // add to pending deletion list
+ tmpLink->iStartBlock = startBlock;
+ tmpLink->iDriveNumber = driveNumber;
+ tmpLink->iFileName = newName;
+ gActiveReaper->AddDeleted(tmpLink);
+ return r;
+ } //endif rename
+ delete tmpLink;
+ } // alloc
+ delete newName;
+ } // alloc name
+ } //endif blockmap
+ else if (r == KErrNotSupported)
+ r = KErrInUse;
+ else if (r == KErrNone)
+ r = KErrGeneral;
+ toDelete.Close();
+ } // endif open
+ return r;
+ }
+
+
+GLDEF_C TInt LoadProcess(RLdrReq& aReq)
+ {
+ __LDRTRACE(aReq.Dump("LoadProcess:"));
+ TInt32* uid=(TInt32*)&aReq.iRequestedUids;
+ if (uid[0] && uid[0]!=KExecutableImageUidValue)
+ return KErrNotSupported;
+ uid[0]=KExecutableImageUidValue;
+ gExeCodeSeg=NULL; // new process doesn't load into another process
+ gExeAttr=0;
+ E32Image* e=new E32Image;
+ if (!e)
+ return KErrNoMemory;
+ e->iMain=e;
+ TInt r=e->LoadProcess(aReq);
+ if (r==KErrNone)
+ {
+ aReq.iHandle=e->iFinalHandle;
+ r=aReq.iMsg->UpdateLdrInfo(aReq);
+ if (r!=KErrNone)
+ aReq.Panic(KErrBadDescriptor);
+ }
+ if (r!=KErrNone && e->iProcessHandle)
+ {
+ RProcess p;
+ p.SetHandle(e->iProcessHandle);
+ p.Kill(0);
+ }
+ delete e;
+ return r;
+ }
+
+
+
+TInt LoadLibrary(RLdrReq& aReq)
+ {
+ __LDRTRACE(aReq.Dump("LoadLibrary:"));
+ TInt32* uid=(TInt32*)&aReq.iRequestedUids;
+ if (uid[0] && uid[0]!=KDynamicLibraryUidValue)
+ return KErrNotSupported;
+ uid[0]=KDynamicLibraryUidValue;
+ TInt r=KErrNone;
+ if (aReq.iMsg)
+ {
+ r = aReq.iMsg->Client(aReq.iClientThread);
+ if (r==KErrNone)
+ r = aReq.iClientThread.Process(aReq.iClientProcess);
+ if (r!=KErrNone)
+ {
+ return r;
+ }
+ }
+ else
+ {
+ aReq.iClientThread.SetHandle(KCurrentThreadHandle);
+ aReq.iClientProcess.SetHandle(KCurrentProcessHandle);
+ }
+ E32Loader::CodeSegDeferDeletes();
+ gExeCodeSeg=E32Loader::ThreadProcessCodeSeg(aReq.iClientThread.Handle());
+ SSecurityInfo si;
+ gExeAttr=GetCodeSegAttr(gExeCodeSeg, &si, NULL);
+ aReq.iPlatSecCaps=si.iCaps;
+ E32Loader::CodeSegEndDeferDeletes();
+ E32Image* e=new E32Image;
+ if (!e)
+ return KErrNoMemory;
+ e->iMain=e;
+ e->iClientProcessHandle=aReq.iClientProcess.Handle();
+ __IF_DEBUG(Printf("e->iClientProcessHandle = %08x", e->iClientProcessHandle));
+ if (r==KErrNone)
+ r=e->LoadCodeSeg(aReq);
+ if (r==KErrNone)
+ {
+ TLibraryCreateInfo libInfo;
+ libInfo.iCodeSegHandle=e->iHandle;
+ libInfo.iClientHandle=aReq.iClientThread.Handle();
+ libInfo.iLibraryHandle=0;
+ libInfo.iOwnerType=aReq.iOwnerType;
+ r=E32Loader::LibraryCreate(libInfo);
+ if (r==KErrNone)
+ {
+ aReq.iHandle=libInfo.iLibraryHandle;
+ if (aReq.iMsg)
+ {
+ r=aReq.iMsg->UpdateLdrInfo(aReq);
+ if (r!=KErrNone)
+ aReq.Panic(KErrBadDescriptor);
+ }
+ }
+ }
+ delete e;
+ return r;
+ }
+
+struct TFatUtilityFunctions;
+
+GLDEF_C TInt LoadLocale(RLdrReq& aReq, TLibraryFunction* aExportsList)
+ {
+ __LDRTRACE(aReq.Dump("LoadLocale:"));
+ TUint32* uid=(TUint32*)&aReq.iRequestedUids;
+ uid[2]=0;
+ gExeCodeSeg=NULL;
+ gExeAttr = gFileServerAttr;
+ E32Image* e=new E32Image;
+ if (!e)
+ return KErrNoMemory;
+ e->iMain=e;
+ e->iAttr=ECodeSegAttGlobal;
+ TInt r=e->LoadCodeSeg(aReq);
+ if (r==KErrNone)
+ {
+ r = E32Loader::LocaleExports(e->iHandle, aExportsList);
+#ifdef SYMBIAN_DISTINCT_LOCALE_MODEL
+ _LIT8(KLocLan, "elocl_lan");
+ _LIT8(KLoc, "elocl.");
+ if(aReq.iFileName->Find(KLocLan) != KErrNotFound)
+ {
+ TheCodePage.SetLocaleCodePage((TFatUtilityFunctions*)aExportsList[FnFatUtilityFunctionsV2]());
+ }
+ if(aReq.iFileName->Find(KLoc) != KErrNotFound)
+ {
+ TheCodePage.SetLocaleCodePage((TFatUtilityFunctions*)aExportsList[FnFatUtilityFunctions]());
+ }
+#else
+ // The 'old' version of the locale DLL contained a set of code page conversion exports.
+ // This has now been superceeded by the use of a seperate code page DLL.
+ // - To ease migration both are currently supported.
+ // - If both locale and CP DLL functions are present, CP DLL's will take precedence
+ // - This functionality will eventually be deprecated.
+ TheCodePage.SetLocaleCodePage((TFatUtilityFunctions*)aExportsList[FnFatUtilityFunctions]());
+#endif
+ }
+ delete e;
+ return r;
+ }
+
+TInt LoadDeviceDriver(RLdrReq& aReq, TInt aDeviceType)
+ {
+ __IF_DEBUG(Printf("LoadDeviceDriver type %d", aDeviceType));
+ __LDRTRACE(aReq.Dump(""));
+ TUint32* uid=(TUint32*)&aReq.iRequestedUids;
+ uid[0]=KDynamicLibraryUidValue;
+ uid[1]=aDeviceType ? KPhysicalDeviceDriverUidValue : KLogicalDeviceDriverUidValue;
+ uid[2]=0;
+ gExeCodeSeg=gKernelCodeSeg;
+ gExeAttr=gKernelAttr;
+ E32Image* e=new E32Image;
+ if (!e)
+ return KErrNoMemory;
+ e->iMain=e;
+ e->iAttr=ECodeSegAttKernel;
+ aReq.iOwnerType=EOwnerProcess;
+ aReq.iHandle=0;
+ aReq.iPlatSecCaps=gKernelSecInfo.iCaps;
+ TInt r=e->LoadCodeSeg(aReq);
+ if (r==KErrNone)
+ r=E32Loader::DeviceLoad(e->iHandle, aDeviceType);
+ delete e;
+ return r;
+ }
+
+CServerLoader* CServerLoader::New()
+//
+// Create a new CServerLoader.
+//
+ {
+ CServerLoader* pS=new CServerLoader(EPriorityNormal);
+ if (pS==NULL)
+ return(NULL);
+ _LIT(KLoaderServerName,"!Loader");
+ TInt r=pS->Start(KLoaderServerName);
+ if (r!=KErrNone)
+ return(NULL);
+ return(pS);
+ }
+
+CServerLoader::CServerLoader(TInt aPriority)
+//
+// Constructor.
+//
+ : CServer2(aPriority)
+ {
+ }
+
+CSession2* CServerLoader::NewSessionL(const TVersion& aVersion, const RMessage2&) const
+//
+// Create a new client for this server.
+//
+ {
+
+ TVersion v(KLoaderMajorVersionNumber,KLoaderMinorVersionNumber,KF32BuildVersionNumber);
+ TBool r=User::QueryVersionSupported(v,aVersion);
+ if (!r)
+ User::Leave(KErrNotSupported);
+ return new (ELeave) CSessionLoader;
+ }
+
+TInt CServerLoader::RunError(TInt aError)
+//
+// Complete the request with the error code
+//
+ {
+ Message().Complete(aError);
+ ReStart();
+ return KErrNone;
+ }
+
+CActiveSchedulerLoader* CActiveSchedulerLoader::New()
+//
+// Create and install the active scheduler.
+//
+ {
+
+ CActiveSchedulerLoader* pA=new CActiveSchedulerLoader;
+ if (pA==NULL)
+ return(NULL);
+ CActiveScheduler::Install(pA);
+ return(pA);
+ }
+
+void CActiveSchedulerLoader::Error(TInt anError) const
+//
+// Called if any Run() method leaves.
+//
+ {
+ _LIT(KPanicLoaderErr, "LOADER-ERR");
+ User::Panic(KPanicLoaderErr,anError);
+ }
+
+/******************************************************************************
+ * E32Image functions common to WINS and EPOC
+ ******************************************************************************/
+
+TInt CheckUids(const TUidType& aUids, const TUidType& aRequestedUids)
+ {
+ const TUint32* uid=(const TUint32*)&aUids;
+ const TUint32* req=(const TUint32*)&aRequestedUids;
+ __IF_DEBUG(Printf("CheckUids %08x,%08x,%08x req %08x,%08x,%08x", uid[0],uid[1],uid[2],
+ req[0],req[1],req[2]));
+ return (CheckUid(uid[0],req[0]) && CheckUid(uid[1],req[1]) && CheckUid(uid[2],req[2]))
+ ? KErrNone : KErrNotSupported;
+ }
+
+E32Image::E32Image()
+ {
+ __IF_DEBUG(Printf("E32Image Constructor"));
+ Mem::FillZ(&iUids, sizeof(E32Image)-sizeof(iFileName));
+ }
+
+E32Image::~E32Image()
+ {
+
+ __IF_DEBUG(Printf("E32Image Destructor"));
+ Reset();
+ }
+
+void E32Image::Reset()
+ {
+ __IF_DEBUG(Printf("E32Image::Reset"));
+ delete iHeader;
+ __IF_DEBUG(Printf("iHeader"));
+
+ // demand paging fixup data
+ User::Free(iImportFixupTable);
+ __IF_DEBUG(Printf("iImportFixupTable"));
+
+ // demand paging file data
+ __IF_DEBUG(Printf("iCodePageOffsets"));
+ delete[] iCodePageOffsets;
+ __IF_DEBUG(Printf("iCodeBlockMapEntries"));
+ User::Free(iCodeBlockMapEntries);
+
+ __IF_DEBUG(Printf("iCodeRelocSection"));
+ User::Free(iCodeRelocTable);
+ __IF_DEBUG(Printf("iDataRelocSection"));
+ User::Free(iRestOfFileData);
+ __IF_DEBUG(Printf("iRestOfFileData"));
+ User::Free(iCurrentImportList);
+ __IF_DEBUG(Printf("iCurrentImportList"));
+ User::Free(iFixups);
+ __IF_DEBUG(Printf("iFixups"));
+ gFileDataAllocator.Free(iFileData);
+ iFileData = NULL;
+ __IF_DEBUG(Printf("iFileData"));
+ iFile.Close();
+ __IF_DEBUG(Printf("iFile"));
+ User::Free(iCopyOfExportDir);
+ if (iProcessHandle)
+ {
+ RProcess p;
+ p.SetHandle(iProcessHandle);
+ p.Close();
+ __IF_DEBUG(Printf("iProcessHandle"));
+ }
+ if (iCloseCodeSeg)
+ E32Loader::CodeSegClose(iCloseCodeSeg);
+ if (iMain==this)
+ E32Loader::CodeSegClose(NULL);
+
+ // Unclamp file if load failed. Cannot handle error from RFs here.
+ __IF_DEBUG(Printf("iFileClamp,%ld,%ld", iFileClamp.iCookie[0], iFileClamp.iCookie[1]));
+ iFileClamp.Close(gTheLoaderFs);
+
+ __IF_DEBUG(Printf("Reset done"));
+ }
+
+
+TInt E32Image::OpenFile()
+ {
+ TBuf8<KMaxFileName*sizeof(TText)> fnb;
+ if (iAttr & ECodeSegAttExpVer)
+ {
+ TFileNameInfo fi;
+ fi.Set(iFileName, 0);
+ fi.iVersion = iModuleVersion;
+ fi.GetName(fnb, TFileNameInfo::EIncludeDrivePathBaseExt|TFileNameInfo::EForceVer);
+ }
+ else
+ fnb = iFileName;
+ TPtr16 fn(fnb.Expand());
+ __IF_DEBUG(Print(_L(">E32Image::OpenFile %S"),&fn));
+ TInt r = iFile.Open(gTheLoaderFs, fn, EFileStream|EFileRead|EFileShareReadersOnly|EFileReadDirectIO);
+ __IF_DEBUG(Printf("<E32Image::OpenFile %d", r));
+ return r;
+ }
+
+
+/**
+Check if this executable is already loaded. If it is, set iAlreadyLoaded true and
+iHandle to an newly opened reference on the CodeSeg. Also set iExportDirLoad if the
+export directory of the executable is directly visible to the Loader.
+*/
+TInt E32Image::CheckAlreadyLoaded()
+ {
+ __IF_DEBUG(Printf(">E32Image::CheckAlreadyLoaded %S", &iFileName));
+ __IF_DEBUG(Printf("UIDs %08x,%08x,%08x",iUids[0],iUids[1],iUids[2]));
+ __IF_DEBUG(Printf("VER %08x",iModuleVersion));
+ __IF_DEBUG(Printf("CAPS %08x %08x SID %08x", iS.iSecureId, iS.iCaps[1], iS.iCaps[0]));
+ __IF_DEBUG(Printf("Client process handle %08x",iClientProcessHandle));
+
+ TFindCodeSeg find;
+ find.iUids = iUids;
+ find.iRomImgHdr = NULL;
+#ifndef __WINS__
+ // Make sure we check the code segment attributes (kernel or global)
+ // as part of the decision as to whether we are loaded or not.
+ find.iAttrMask = (ECodeSegAttKernel|ECodeSegAttGlobal);
+ find.iAttrVal = iAttr&(ECodeSegAttKernel|ECodeSegAttGlobal);
+#else
+ // On the emulator, all DLLs are loaded into the same process, so we
+ // don't distinguish between instances of the same DLL loaded with
+ // different code segment attributes.
+ find.iAttrMask = 0;
+ find.iAttrVal = 0;
+#endif
+ find.iProcess = iClientProcessHandle;
+ find.iS = iS;
+ find.iModuleVersion = iModuleVersion;
+ find.iName = RootName();
+ __IF_DEBUG(Printf("Required root name %S", &find.iName));
+
+ E32Loader::CodeSegDeferDeletes();
+ iHandle = NULL;
+ TAny* h = NULL;
+ TInt r = KErrNone;
+ E32Loader::CodeSegNext(h, find);
+ if(h)
+ {
+ // found...
+ iHandle = h;
+ __IF_DEBUG(Printf("Client process handle %08x",iClientProcessHandle));
+ E32Loader::CodeSegInfo(h, *this);
+ __IF_DEBUG(Printf("Client process handle %08x",iClientProcessHandle));
+ r = E32Loader::CodeSegOpen(h, iClientProcessHandle);
+ }
+ E32Loader::CodeSegEndDeferDeletes();
+
+ if(iHandle && r==KErrNone)
+ {
+ iAlreadyLoaded = ETrue;
+ TUint32 attrMask = (gExecutesInSupervisorMode)?
+ // The loader reads export directories in kernel mode so it can access
+ // kernel code export directories and global export directories.
+ ECodeSegAttKernel | ECodeSegAttGlobal :
+ // The loader reads export directories in user mode so it can't access
+ // kernel code export directories but can access global export directories.
+ ECodeSegAttGlobal;
+
+ if(iAttr & attrMask)
+ {// The export directory is visible to loader so set iExportDirLoad to prevent
+ // the loader from invoking E32Loader::ReadExportDir() to copy the kernel's copy
+ // of the export directory to the loader's heap.
+ iExportDirLoad = iExportDir;
+ }
+ }
+
+ __IF_DEBUG(Printf("<E32Image::CheckAlreadyLoaded %08x, %d",iHandle,r));
+ return r;
+ }
+
+TInt E32Image::Order(const E32Image& aL, const E32Image& aR)
+ {
+ return aL.RootName().CompareF(aR.RootName());
+ }
+
+/******************************************************************************
+ * Loader debug code
+ ******************************************************************************/
+
+#ifdef _DEBUG
+TInt DoLoaderDebugFunction(const RMessage2& aMsg)
+ {
+ TInt f=aMsg.Int0();
+ __IF_DEBUG(Printf("LdrDbg: %d,%d,%d,%d",f,aMsg.Int1(),aMsg.Int2(),aMsg.Int3()));
+ switch(f)
+ {
+ case ELoaderDebug_SetHeapFail:
+ KernHeapFailCount=aMsg.Int2();
+ LdrHeapFailCount=aMsg.Int1();
+ return KErrNone;
+ case ELoaderDebug_SetRFsFail:
+ RFsErrorCode = aMsg.Int1();
+ RFsFailCount = aMsg.Int2();
+ return KErrNone;
+ default:
+ return KErrNotSupported;
+ }
+ }
+#endif
+
+#ifdef _DEBUG
+void SetupHeapFail(const RMessage2& /*aMsg*/)
+ {
+ __IF_DEBUG(Printf("SetupHeapFail: %d,%d",LdrHeapFailCount,KernHeapFailCount));
+ if (KernHeapFailCount>0)
+ {
+ __KHEAP_SETFAIL(RHeap::EFailNext, KernHeapFailCount);
+ __KHEAP_MARK;
+ HeapFailActive|=1;
+ }
+ if (LdrHeapFailCount>0)
+ {
+ __UHEAP_SETFAIL(RHeap::EFailNext, LdrHeapFailCount);
+ __UHEAP_MARK;
+ HeapFailActive|=2;
+ }
+ ProcessCreated = EFalse;
+ ProcessDestructStat = KRequestPending;
+ ProcessDestructStatPtr = &ProcessDestructStat;
+ }
+
+void EndHeapFailCheck(TInt aError)
+ {
+ __IF_DEBUG(Printf("EndHeapFail: %d",aError));
+ if (aError==KErrNone && ProcessCreated)
+ {
+ User::CancelMiscNotifier(ProcessDestructStat);
+ User::WaitForRequest(ProcessDestructStat);
+ }
+ if (aError!=KErrNone)
+ {
+ if (ProcessCreated)
+ // wait for any partially created process to die
+ User::WaitForRequest(ProcessDestructStat);
+
+ // wait for reaper to run
+ TInt rr;
+ if (CActiveScheduler::RunIfReady(rr,KPriorityVeryHigh))
+ User::WaitForAnyRequest();
+
+ // wait for any async cleanup in the supervisor to finish
+ UserSvr::HalFunction(EHalGroupKernel, EKernelHalSupervisorBarrier, 0, 0);
+
+ if (HeapFailActive&1)
+ {
+ __KHEAP_MARKEND;
+ }
+ if (HeapFailActive&2)
+ {
+ __UHEAP_MARKEND;
+ }
+ }
+ if (HeapFailActive & 3)
+ {
+ __KHEAP_TOTAL_RESET;
+ __UHEAP_TOTAL_RESET;
+ }
+ HeapFailActive=0;
+ ProcessDestructStatPtr = 0;
+ ProcessCreated = EFalse;
+ }
+
+void SetupRFsFail(const RMessage2& /*aMsg*/)
+ {
+ __IF_DEBUG(Printf("SetupRFsFail: %d,%d", RFsErrorCode, RFsFailCount));
+ if (RFsErrorCode!=KErrNone && RFsFailCount>0)
+ {
+ gTheLoaderFs.SetErrorCondition(RFsErrorCode, RFsFailCount);
+ RFsFailActive = ETrue;
+ }
+ }
+
+void EndRFsFailCheck(TInt /*aError*/)
+ {
+ if (RFsFailActive)
+ {
+ gTheLoaderFs.SetErrorCondition(KErrNone);
+ RFsFailActive = EFalse;
+ }
+ }
+
+#endif
+
+#if defined(_DEBUG) || defined(_DEBUG_RELEASE)
+void RLdrReq::Dump(const char* aTitle) const
+ {
+ RDebug::Printf(aTitle);
+ if (iFileName)
+ RDebug::Printf("iFileName=%S", iFileName);
+ if (iPath)
+ RDebug::Printf("iPath=%S", iPath);
+ RDebug::Printf("SID %08x Caps %08x %08x", iSecureId, iPlatSecCaps[1], iPlatSecCaps[0]);
+ const TUint32* uid = (const TUint32*)&iRequestedUids;
+ RDebug::Printf("REQ UIDs %08x %08x %08x REQ VER %08x", uid[0], uid[1], uid[2], iRequestedVersion);
+ iFileNameInfo.Dump();
+ }
+
+void TFileNameInfo::Dump() const
+ {
+ const TDesC8& d = Drive();
+ const TDesC8& p = Path();
+ const TDesC8& b = Base();
+ const TDesC8& v = VerStr();
+ const TDesC8& u = UidStr();
+ const TDesC8& e = Ext();
+ RDebug::Printf("D=%S P=%S B=%S V=%S U=%S E=%S", &d, &p, &b, &v, &u, &e);
+ }
+#endif
+
+#ifdef __TRACE_LOADER_HEAP__
+
+class RTraceHeap : public RAllocator
+ {
+public:
+ virtual TAny* Alloc(TInt aSize);
+ virtual void Free(TAny* aPtr);
+ virtual TAny* ReAlloc(TAny* aPtr, TInt aSize, TInt aMode=0);
+ virtual TInt AllocLen(const TAny* aCell) const;
+ virtual TInt Compress();
+ virtual void Reset();
+ virtual TInt AllocSize(TInt& aTotalAllocSize) const;
+ virtual TInt Available(TInt& aBiggestBlock) const;
+ virtual TInt DebugFunction(TInt aFunc, TAny* a1=NULL, TAny* a2=NULL);
+public:
+ RAllocator* iA;
+ };
+
+void InstallHeapTracer()
+ {
+ RTraceHeap* p = new RTraceHeap;
+ __ASSERT_ALWAYS(p!=NULL, User::Invariant());
+ p->iA = &User::Heap();
+ User::SwitchHeap(p);
+ }
+
+TAny* RTraceHeap::Alloc(TInt aSize)
+ {
+ RDebug::Printf("TH:Alloc(%08x)", aSize);
+ TAny* p = iA->Alloc(aSize);
+ RDebug::Printf("TH:returns %08x", p);
+ return p;
+ }
+
+void RTraceHeap::Free(TAny* aPtr)
+ {
+ RDebug::Printf("TH:Free(%08x)", aPtr);
+ iA->Free(aPtr);
+ }
+
+TAny* RTraceHeap::ReAlloc(TAny* aPtr, TInt aSize, TInt aMode=0)
+ {
+ RDebug::Printf("TH:ReAlloc(%08x,%08x,%x)", aPtr, aSize, aMode);
+ TAny* p = iA->ReAlloc(aPtr,aSize,aMode);
+ RDebug::Printf("TH:returns %08x", p);
+ return p;
+ }
+
+TInt RTraceHeap::AllocLen(const TAny* aCell) const
+ {
+ RDebug::Printf("TH:AllocLen(%08x)", aCell);
+ TInt l = iA->AllocLen(aCell);
+ RDebug::Printf("TH:returns %08x", l);
+ return l;
+ }
+
+TInt RTraceHeap::Compress()
+ {
+ RDebug::Printf("TH:Compress()");
+ TInt l = iA->Compress();
+ RDebug::Printf("TH:returns %08x", l);
+ return l;
+ }
+
+void RTraceHeap::Reset()
+ {
+ RDebug::Printf("TH:Reset()");
+ iA->Reset();
+ }
+
+TInt RTraceHeap::AllocSize(TInt& aTotalAllocSize) const
+ {
+ RDebug::Printf("TH:AllocSize()");
+ TInt s;
+ TInt r = iA->AllocSize(s);
+ RDebug::Printf("TH:returns %08x(%08x)", r, s);
+ aTotalAllocSize = s;
+ return r;
+ }
+
+TInt RTraceHeap::Available(TInt& aBiggestBlock) const
+ {
+ RDebug::Printf("TH:Available()");
+ TInt s;
+ TInt r = iA->Available(s);
+ RDebug::Printf("TH:returns %08x(%08x)", r, s);
+ aBiggestBlock = s;
+ return r;
+ }
+
+TInt RTraceHeap::DebugFunction(TInt aFunc, TAny* a1=NULL, TAny* a2=NULL)
+ {
+ RDebug::Printf("TH:DebugFunction(%d,%08x,%08x)", aFunc, a1, a2);
+ TInt r = iA->DebugFunction(aFunc, a1, a2);
+ RDebug::Printf("TH:returns %08x", r);
+ return r;
+ }
+
+#endif
+
+/* The Reaper - Used to delete binarys in /sys/del/ after they are no longer needed by demand paging */
+
+CActiveReaper::CActiveReaper()
+ : CActive(KPriorityVeryHigh)
+ {
+ iLoaderDeletedList=NULL;
+ }
+
+CActiveReaper* CActiveReaper::New()
+ {
+ CActiveReaper *self = new CActiveReaper();
+ if (self!=NULL)
+ self->Construct();
+ return self;
+ }
+
+void CActiveReaper::Construct()
+ {
+ iStatus=KRequestPending;
+ CActiveScheduler::Add(this);
+ E32Loader::NotifyIfCodeSegDestroyed(iStatus);
+ SetActive();
+ }
+
+/*
+Initialises the \sys\del\ directory, where files can be moved too, on deletion.
+If the directory exists, then it is emptied.
+*/
+
+void CActiveReaper::InitDelDir()
+ {
+ TDriveList driveList;
+ TDriveInfo driveInfo;
+ CDir* dir=NULL;
+ TFileName fileName;
+ TInt i;
+ TBuf<KPathDelLength> drivePath(KPathDel);
+ TInt r = gTheLoaderFs.DriveList(driveList);
+ if (r!=KErrNone)
+ return;
+ TChar ch;
+ for (TInt drvNum=0; drvNum<KMaxDrives; ++drvNum)
+ {
+ if(!driveList[drvNum])
+ continue; //-- skip nonexistent drive
+ r = gTheLoaderFs.Drive(driveInfo, drvNum);
+ if ((r==KErrNone) && (driveInfo.iDriveAtt & KDriveAttPageable) && !(driveInfo.iMediaAtt & KMediaAttWriteProtected))
+ {
+ gTheLoaderFs.DriveToChar(drvNum, ch);
+ drivePath[0]=(TText)ch;
+ r = gTheLoaderFs.GetDir(drivePath,KEntryAttMatchExclude | KEntryAttDir ,ESortNone,dir);
+ if (r==KErrNone)
+ {
+ for (i=dir->Count()-1;i>=0;i--)
+ {
+ fileName = drivePath;
+ fileName.Append((*dir)[i].iName);
+ r = gTheLoaderFs.SetAtt(fileName,0,KEntryAttReadOnly|KEntryAttSystem);
+ r = gTheLoaderFs.Delete(fileName);
+ }
+ delete dir;
+ }
+ }
+ }
+ }
+
+
+void CActiveReaper::RunL()
+ {
+
+ TCodeSegLoaderCookie cookie;
+ TInt r;
+
+ TLoaderDeletedList* link;
+ TLoaderDeletedList* prev;
+
+ iStatus=KRequestPending;
+ E32Loader::NotifyIfCodeSegDestroyed(iStatus);
+ SetActive();
+ FOREVER
+ {
+ r=E32Loader::GetDestroyedCodeSegInfo(cookie);
+ if (r!=KErrNone)
+ break;
+ r = cookie.iFileClamp.Close(gTheLoaderFs);
+ // See if its on our list.
+ if (r==KErrNone)
+ {
+ link = iLoaderDeletedList;
+ prev= (TLoaderDeletedList*) &iLoaderDeletedList;
+
+ while (link!=NULL)
+ {
+ if ((link->iStartBlock==cookie.iStartAddress) && (link->iDriveNumber==cookie.iDriveNumber))
+ {
+ gTheLoaderFs.Delete(*link->iFileName);
+ // Ignore error from file delete operation. If it does fail then the
+ // file will just have to sit around until it is cleaned up on the next reboot.
+
+ // Remove from our list.
+ prev->iNext=link->iNext;
+ delete link;
+ link = prev->iNext;
+ }
+ else
+ {
+ prev = link;
+ link = link->iNext;
+ }
+ }// while
+ } // if unclamp ok
+ } //Forever
+ }
+
+void CActiveReaper::DoCancel(){};
+
+CActiveReaper::~CActiveReaper() {}
+
+void CActiveReaper::AddDeleted(TLoaderDeletedList* aLink)
+ {
+ aLink->iNext=iLoaderDeletedList;
+ iLoaderDeletedList = aLink;
+ }
+
+/* Slotted allocator - used to store iFileData from hashchecked images */
+
+TInt CSlottedChunkAllocator::Construct()
+ {
+ TInt r = iChunk.CreateDisconnectedLocal(0, 0, KSlotSize * KSlots);
+ if (r == KErrNone)
+ iBase = iChunk.Base();
+ return r;
+ }
+
+TAny* CSlottedChunkAllocator::Alloc(TUint aSize)
+ {
+ if (aSize == 0 || aSize > KSlotSize)
+ return NULL;
+
+ for (TInt i=0; i<KSlots; ++i)
+ if (!iUsed[i])
+ {
+ if (iChunk.Commit(i * KSlotSize, aSize) == KErrNone)
+ {
+ iUsed[i] = aSize;
+ return iBase + i * KSlotSize;
+ }
+ else
+ return NULL;
+ }
+
+ return NULL;
+ }
+
+void CSlottedChunkAllocator::Free(TAny* aPtr)
+ {
+ if (!aPtr)
+ return;
+
+ TInt offset = ((TUint8*)aPtr) - iBase;
+ TInt slot = offset / KSlotSize;
+ __ASSERT_DEBUG(offset % KSlotSize == 0 && slot >= 0 && slot < KSlots, Fault(ELdrFileDataAllocError));
+#ifdef _DEBUG
+ TInt r =
+#endif
+ iChunk.Decommit(offset, iUsed[slot]);
+ __ASSERT_DEBUG(r==KErrNone, Fault(ELdrFileDataAllocError));
+ iUsed[slot] = 0;
+ }