--- /dev/null Thu Jan 01 00:00:00 1970 +0000
+++ b/userlibandfileserver/fileserver/sfile/sf_main.cpp Mon Oct 19 15:55:17 2009 +0100
@@ -0,0 +1,589 @@
+// 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_main.cpp
+//
+//
+
+#include "sf_std.h"
+#include "sf_plugin.h"
+#include "sf_file_cache.h" // for TClosedFileUtils
+#include "sf_memory_man.h"
+
+#ifdef __WINS__
+#include <emulator.h>
+#include <e32wins.h>
+#endif
+#include "d32btrace.h"
+
+// define this macro to enable tracing very early on in the boot sequence
+//#define __ENABLE_TRACE__
+
+#ifdef __EPOC32__
+_LIT(KStartupExeSysBinName,"Z:\\Sys\\Bin\\ESTART.EXE");
+#else
+_LIT(KStartupExeName,"E32STRT.EXE");
+_LIT(KStartupExeSysBinName,"E32STRT.EXE");
+#endif
+
+//const TInt KSessionNotifyListGranularity=16; //-- not used anywhere
+
+// patch ldds should specify this as their third uid
+//const TInt KPatchLddUidValue=0x100000cc; //-- not used anywhere
+
+_LIT(KFileServerName,"!FileServer");
+
+void CServerFs::New()
+//
+// Create a new CServerFs.
+//
+ {
+ TheFileServer=new CServerFs(EPriority);
+ __ASSERT_ALWAYS(TheFileServer!=NULL,Fault(EMainCreateServer));
+ TInt r = TheFileServer->iSessionQueueLock.CreateLocal();
+ __ASSERT_ALWAYS(r==KErrNone,Fault(EMainCreateServer));
+ r=TheFileServer->Start(KFileServerName);
+ __ASSERT_ALWAYS(r==KErrNone,Fault(EMainStartServer));
+ }
+
+
+CServerFs::CServerFs(TInt aPriority)
+//
+//Constructor.
+//
+ : CServer2(aPriority,EGlobalSharableSessions)
+ {
+ }
+
+CServerFs::~CServerFs()
+//
+//Destructor.
+//
+ {
+ iSessionQueueLock.Close();
+ }
+
+void CServerFs::RunL()
+//
+// calls CServer2::RunL
+//
+ {
+ TInt fn = Message().Function();
+
+ // CServer2::DoConnectL() manipulates iSessionQ & so does CSession2::~CSession2().
+ // Unfortunately the session is deleted from a seperate thread (the disconnect
+ // thread) so we need a lock to protect it.
+ if (fn == RMessage2::EConnect)
+ {
+ SessionQueueLockWait(); // lock
+ CServer2::RunL();
+ SessionQueueLockSignal(); // unlock
+ }
+ else
+ {
+ CServer2::RunL();
+ }
+ }
+
+CSessionFs* CServerFs::operator[](TInt anIndex)
+//
+// Indexing operator used by DoFsListOpenFiles
+//
+ {
+ __ASSERT_DEBUG(anIndex>=0,Fault(ESvrBadSessionIndex));
+ iSessionIter.SetToFirst();
+ while (anIndex--)
+ iSessionIter++;
+ CSessionFs* ses=(CSessionFs*)&(*iSessionIter);
+ return(ses);
+ }
+
+_LIT(KPrivatePath,"?:\\Private\\");
+CSession2* CServerFs::NewSessionL(const TVersion& aVersion,const RMessage2& aMessage) const
+//
+// Create a new client session for this server.
+//
+ {
+ TVersion v(KF32MajorVersionNumber,KF32MinorVersionNumber,KF32BuildVersionNumber);
+ TBool r=User::QueryVersionSupported(v,aVersion);
+ if (!r)
+ User::Leave(KErrNotSupported);
+ __CALL(if(UserHeapAllocFailCount>=0){__UHEAP_FAILNEXT(10);}); // Create session must succeed
+ CSessionFs* ses=CSessionFs::NewL();
+ CleanupStack::PushL(ses);
+ TUid aUid = aMessage.SecureId();
+ TBuf<30> thePath = KPrivatePath();
+ thePath[0] = (TUint8) RFs::GetSystemDriveChar();
+ thePath.AppendNumFixedWidth(aUid.iUid, EHex, 8);
+ thePath.Append(KSlash);
+ HBufC* pP=thePath.AllocL();
+ ses->SetPath(pP);
+ __CALL(if (UserHeapAllocFailCount>=0){__UHEAP_FAILNEXT(UserHeapAllocFailCount);});
+
+
+ RThread idClient;
+ User::LeaveIfError(aMessage.Client(idClient, EOwnerThread));
+ ses->SetThreadId(idClient.Id());
+ idClient.Close();
+
+ CleanupStack::Pop(); //ses
+
+ return(ses);
+ }
+
+void CSessionFs::ServiceL(const RMessage2& aMessage)
+//
+// Service this message for the server
+//
+ {
+ __CALL( if (SimulateError(&aMessage)) { aMessage.Complete(ErrorCondition); return; } );
+ const TInt ipcFunction = aMessage.Function() & KIpcFunctionMask;
+
+ if((ipcFunction) >= EMaxClientOperations)
+ {
+ __THRD_PRINT1(_L("CSessionFs::DoServiceL() - func 0x%x KErrNotSupported"), ipcFunction);
+ aMessage.Complete(KErrNotSupported);
+ return;
+ }
+
+ const TOperation& oP = OperationArray[ipcFunction];
+ CFsClientMessageRequest* pR = NULL;
+ TInt r = RequestAllocator::GetMessageRequest(oP, aMessage, pR);
+ if(r != KErrNone)
+ {
+ if(r == KErrBadHandle)
+ {
+ _LIT(KPanic,"Panic");
+ aMessage.Panic(KPanic, r);
+ return;
+ }
+ aMessage.Complete(r);
+ return;
+ }
+ pR->Set(aMessage, oP, this);
+ __PRINT4TEMP(_L("***** Received Message sess %08x req %08x func 0x%x - %S"), this, pR, ipcFunction, GetFunctionName(ipcFunction));
+ pR->Dispatch();
+ }
+
+void CActiveSchedulerFs::New()
+//
+// Create and install the active scheduler.
+//
+ {
+
+ CActiveSchedulerFs* pA=new CActiveSchedulerFs;
+ __ASSERT_ALWAYS(pA!=NULL,Fault(EMainCreateScheduler));
+ CActiveScheduler::Install(pA);
+ }
+
+void CActiveSchedulerFs::Error(TInt anError) const
+//
+// Called if any Run() method leaves, which should never happen.
+//
+ {
+
+ __PRINT1(_L("FileSystemActiveScheduler Error %d"),anError);
+ User::Panic(_L("FSRV-ERR"),anError);
+ }
+
+
+void createAllL()
+//
+// Create the initial objects
+//
+ {
+//
+// First we need to create all the containers.
+//
+ TheContainer=CFsObjectConIx::NewL();
+ FileSystems=TheContainer->CreateL();
+ Extensions=TheContainer->CreateL();
+ ProxyDrives=TheContainer->CreateL();
+ Files=TheContainer->CreateL();
+ FileShares=TheContainer->CreateL();
+ Dirs=TheContainer->CreateL();
+ Formats=TheContainer->CreateL();
+ RawDisks=TheContainer->CreateL();
+ TClosedFileUtils::InitL();
+
+//
+// Initialize the drives
+//
+ for (TInt i=0;i<KMaxDrives;i++)
+ TheDrives[i].CreateL(i);
+
+//
+// Next we need to create the ROM file system.
+//
+#if defined(__EPOC32__)
+ InstallRomFileSystemL();
+ CFileSystem* romFs=GetFileSystem(_L("Rom"));
+//#ifndef __DATA_CAGING__
+ TheDefaultPath=_L("Z:\\"); // Temporarily set the default path to the ROM
+//#endif
+ TheDrives[EDriveZ].SetAtt(KDriveAttRom|KDriveAttInternal);
+ TheDrives[EDriveZ].GetFSys()=romFs;
+ TInt r=FsThreadManager::InitDrive(EDriveZ,ETrue);
+ User::LeaveIfError(r);
+#endif
+ }
+
+
+TInt InitializeLocalFileSystem(const TDesC& aName)
+//
+// Initialize the local file system
+//
+ {
+
+ __PRINT(_L("InitializeLocalFileSystem"));
+ CFileSystem* localFileSystem=GetFileSystem(aName);
+ __ASSERT_DEBUG(localFileSystem!=NULL,Fault(EMainGetLocalFileSystem));
+ if(localFileSystem == NULL)
+ return KErrNotFound;
+#if defined(__WINS__)
+ TheDrives[EDriveZ].GetFSys()=localFileSystem;
+ TheDrives[EDriveZ].SetAtt(KDriveAttRom|KDriveAttInternal);
+ TInt r=FsThreadManager::InitDrive(EDriveZ,ETrue);
+ __ASSERT_ALWAYS(r==KErrNone,Fault(EMainInitialiseRomFs));
+#endif
+
+//
+// Initialize the default path
+//
+//#ifndef __DATA_CAGING__
+#if !defined(__WINS__)
+ TInt r;
+#endif
+ r=localFileSystem->DefaultPath(TheDefaultPath);
+ __ASSERT_ALWAYS(r==KErrNone,Fault(EMainGetLocalDefaultPath));
+//#endif
+
+ LocalFileSystemInitialized=ETrue;
+
+ return KErrNone;
+
+ }
+
+_LIT(KMediaLddName, "ELOCD");
+
+TInt StartupThread(TAny*)
+//
+// The startup thread.
+//
+ {
+
+ __PRINT(_L("StartupThread"));
+ User::SetCritical(User::ESystemCritical);
+
+ TInt r;
+#ifdef SYMBIAN_FTRACE_ENABLE
+ r = User::LoadLogicalDevice(_L("D_FTRACE"));
+ __PRINT1(_L("User::LoadLogicalDevice(D_FTRACE) returns %d"),r);
+ __ASSERT_ALWAYS(r==KErrNone || r==KErrAlreadyExists,Fault(ETraceLddLoadFailure));
+
+ r = TheFtrace.Open(EOwnerProcess);
+ __ASSERT_ALWAYS(r==KErrNone || r==KErrAlreadyExists,Fault(ETraceLddLoadFailure));
+#endif
+
+#if defined (__ENABLE_TRACE__)
+ {
+ RBTrace trace;
+
+ trace.Open();
+
+// trace.SetMode(RBTrace::EEnable + RBTrace::EFreeRunning);
+ trace.SetFilter(BTrace::EThreadIdentification,1);
+
+ trace.SetFilter(UTF::EBorder,1);
+ trace.SetFilter(UTF::EError,1);
+
+ trace.SetFilter2(EF32TraceUidEfsrv,1);
+// trace.SetFilter2(EF32TraceUidFileSys,1);
+// trace.SetFilter2(EF32TraceUidProxyDrive,1);
+
+ trace.Close();
+ }
+
+#endif
+
+//
+// Load the file system's device driver
+//
+ r=User::LoadLogicalDevice(KMediaLddName);
+ __PRINT1(_L("User::LoadLogicalDevice(KMediaLddName) returns %d"),r);
+
+ __ASSERT_ALWAYS(r==KErrNone || r==KErrAlreadyExists || r==KErrNotFound,Fault(EMainCreateResources6));
+ #ifdef __WINS__
+ // Load media drivers using Win32 functions. It is not possible to directly
+ // read the \epoc32\release\wins\udeb directory, and ELOCAL must be mounted
+ // to access Win32 anyway.
+
+ _LIT(KMDW1, "MED*.PDD");
+ TBuf<9> KMDW(KMDW1); // reserve space for \0
+
+ TFileName *pfn = new TFileName;
+ __ASSERT_ALWAYS(pfn != NULL, Fault(EMainScanMediaDriversMem1));
+ TFileName &fn = *pfn;
+
+ MapEmulatedFileName(fn, KMDW);
+ __ASSERT_ALWAYS(fn.Length() < KMaxFileName, Fault(EMainScanMediaDriversLocation));
+
+ WIN32_FIND_DATA ffd;
+ HANDLE h = Emulator::FindFirstFile(fn.PtrZ(), &ffd);
+ BOOL fF = (h != INVALID_HANDLE_VALUE);
+ while (fF)
+ {
+ TPtrC mdNm(ffd.cFileName); // null terminated wchar_t array
+
+ // NB: parse Win32 file path with EPOC32 functionality.
+ TParse *pprs = new TParse;
+ __ASSERT_ALWAYS(pprs != NULL, Fault(EMainScanMediaDriversMem2));
+ TParse &prs = *pprs;
+ prs.Set(mdNm, NULL, NULL);
+ r = User::LoadPhysicalDevice(prs.NameAndExt());
+ __ASSERT_ALWAYS(r==KErrNone || r==KErrAlreadyExists || r==KErrNotFound,Fault(EMainLoadMediaDriver));
+ fF = Emulator::FindNextFile(h, &ffd);
+ delete pprs;
+ }
+ FindClose(h); // Win32 direct
+
+ delete pfn;
+ #else
+ // Load media drivers for EPOC32 using built-in rom file system.
+ {
+ RFs fsM;
+ r = fsM.Connect();
+ __ASSERT_ALWAYS(r==KErrNone,Fault(EMainScanMediaDriverConnect));
+
+//#ifdef __EPOC32__
+ _LIT(KMDSysBinHome, "Z:\\Sys\\Bin\\med*.pdd");
+//#else
+// _LIT(KMDHome, "med*.pdd");
+//#endif
+ RDir d;
+ r = d.Open(fsM, KMDSysBinHome, KEntryAttMaskSupported);
+ __ASSERT_ALWAYS(r==KErrNone,Fault(EMainScanMediaDriverDirOpen));
+
+ TBool done = EFalse;
+ do
+ {
+ TEntryArray ea;
+ r = d.Read(ea);
+ __ASSERT_ALWAYS(r == KErrNone || r == KErrEof, Fault(EMainScanMediaDriverDirRead));
+ done = (r == KErrEof);
+
+ for (TInt i = 0; i < ea.Count(); ++i)
+ {
+ const TEntry &e = ea[i];
+ if (!e.IsDir())
+ {
+ TParse *pprs = new TParse;
+ __ASSERT_ALWAYS(pprs != NULL, Fault(EMainScanMediaDriversMem1));
+ TParse &prs = *pprs;
+ prs.Set(e.iName, NULL, NULL);
+ TPtrC mdName(prs.NameAndExt());
+ r = User::LoadPhysicalDevice(mdName);
+ __PRINT1(_L("User::LoadPhysicalDevice(mdName) returns %d"),r);
+ __ASSERT_ALWAYS(r==KErrNone || r==KErrAlreadyExists || r==KErrNotFound,Fault(EMainLoadMediaDriver));
+ delete pprs;
+ }
+ }
+ } while (! done);
+ d.Close();
+
+ fsM.Close();
+ }
+ #endif // else __WINS__
+
+#if defined(__WINS__)
+//#ifndef __DATA_CAGING__
+ TheDefaultPath=_L("?:\\");
+ TheDefaultPath[0] = (TUint8) RFs::GetSystemDriveChar();
+//#endif
+#endif
+
+#if defined(__EPOC32__)
+ TMachineStartupType reason;
+ UserHal::StartupReason(reason);
+#if defined(_DEBUG) || defined(_DEBUG_RELEASE)
+ PrintStartUpReason(reason);
+#endif
+ OpenOnDriveZOnly = (reason==EStartupSafeReset);
+#endif
+
+//
+// Now we must load estart from z:
+//
+ RProcess eStart;
+#if defined(__WINS__)
+ const char* eStartPath = NULL;
+ UserSvr::HalFunction(EHalGroupEmulator,EEmulatorHalStringProperty,(TAny*)"EStart",&eStartPath);
+ if (eStartPath == NULL)
+ {
+ r=eStart.Create(KStartupExeSysBinName,KNullDesC);
+ }
+ else
+ {
+ TPtrC8 temp((unsigned char *)eStartPath);
+ TBuf16<KMaxFileName> buf;
+ buf.Copy(temp);
+ r=eStart.Create(buf,KNullDesC);
+ }
+#else
+ r=eStart.Create(KStartupExeSysBinName,KNullDesC);
+#endif
+
+ if (r!=KErrNone) // Whoops!
+ Fault(EMainStartupNoEStart);
+ eStart.Resume(); // Start the process going
+ eStart.Close(); // Get rid of our handle
+#if defined(_LOCKABLE_MEDIA)
+ // Create a global semaphore for the asynchronous WriteToDisk() threads.
+ RSemaphore s;
+ r = s.CreateGlobal(_L("dwsem"), 1); // only supp 1 thd at a time
+ __ASSERT_ALWAYS(r == KErrNone, Fault(EMainStartupWriteToDiskSemaphore));
+#endif
+
+//
+// Now we can just exit the startup thread as its no longer needed.
+//
+ return(KErrNone);
+ }
+
+void commonInitialize()
+//
+// Initialization common to all platforms.
+//
+ {
+
+ __PRINT(_L("commonInitialize"));
+#if defined(_DEBUG) || defined(_DEBUG_RELEASE)
+ ErrorCondition=KErrNone;
+ ErrorCount=0;
+ UserHeapAllocFailCount=-1;
+ KernHeapAllocFailCount=-1;
+#endif
+
+ TInt r= RequestAllocator::iCacheLock.CreateLocal();
+ __ASSERT_ALWAYS(r==KErrNone,Fault(EFsCacheLockFailure));
+
+ // initialise the TParse pool lock object
+ r = TParsePool::Init();
+ __ASSERT_ALWAYS(r==KErrNone,Fault(EFsParsePoolLockFailure));
+
+ // Get local copies of capability sets
+ TCapabilitySet caps;
+ caps.SetAllSupported();
+ AllCapabilities=*(SCapabilitySet*)∩︀
+ caps.SetDisabled();
+ DisabledCapabilities=*(SCapabilitySet*)∩︀
+
+ FsThreadManager::SetMainThreadId();
+ r=FsThreadManager::CreateDisconnectThread();
+ __ASSERT_ALWAYS(r==KErrNone,Fault(EMainDisconnectThread));
+
+ RequestAllocator::Initialise();
+
+ //
+ // Install a trap handler
+ //
+ CTrapCleanup* trapHandler=CTrapCleanup::New();
+ __ASSERT_ALWAYS(trapHandler!=NULL,Fault(EMainCreateResources1));
+
+ TRAP(r,createAllL())
+ __ASSERT_ALWAYS(r==KErrNone,Fault(EMainCreateResources1));
+ CActiveSchedulerFs::New();
+ CServerFs::New();
+ TheKernEventNotifier = CKernEventNotifier::New();
+ __ASSERT_ALWAYS(TheKernEventNotifier,Fault(EMainCreateResources5));
+ CActiveSchedulerFs::Add(TheKernEventNotifier);
+ TheKernEventNotifier->Start();
+//
+ __ASSERT_ALWAYS(InitLoader()==KErrNone,Fault(ELdrRestartInit));
+//
+ LocalFileSystemInitialized=EFalse;
+ StartupInitCompleted=EFalse;
+ RefreshZDriveCache=EFalse;
+ CompFsMounted=EFalse;
+ CompFsSync=ETrue;
+
+ // initialise notification information
+ FsNotify::Initialise();
+ // initialise local drive specific information
+ LocalDrives::Initialise();
+
+ TRAP(r, FsPluginManager::InitialiseL());
+ __ASSERT_ALWAYS(r==KErrNone,Fault(EMainCreateStartupThread0));
+
+ RThread t;
+ r=t.Create(_L("StartupThread"),StartupThread,KDefaultStackSize,KHeapMinSize,KHeapMinSize,NULL);
+ __ASSERT_ALWAYS(r==KErrNone,Fault(EMainCreateStartupThread1));
+ t.SetPriority(EPriorityLess);
+
+ CLogon* pL=NULL;
+ TRAP(r,pL=CLogon::NewL());
+ __ASSERT_ALWAYS(r==KErrNone,Fault(EMainCreateStartupThread2));
+
+ // NOTE: This function only returns after the startup thread has exited
+ r=pL->Logon(t);
+
+ __ASSERT_ALWAYS(r==KErrNone,Fault(EMainCreateStartupThread3));
+ delete pL;
+
+ // Make a proper process relative handle to the server
+ r=TheServerThread.Duplicate(TheServerThread);
+ __ASSERT_ALWAYS(r==KErrNone,Fault(EMainCreateStartupThread4));
+ ServerThreadAllocator = &User::Heap();
+ }
+
+TBool ServerIsRunning()
+//
+// Check whether or not the server already exists
+//
+ {
+
+ TFullName serverName;
+ TFindServer fileServer(KFileServerName);
+ TInt result=fileServer.Next(serverName);
+ if (result!=KErrNotFound)
+ return(ETrue);
+ return(EFalse);
+ }
+
+TInt E32Main()
+//
+// The file server.
+//
+ {
+ if (ServerIsRunning())
+ return(KErrNone);
+
+#if defined(_DEBUG) || defined(_DEBUG_RELEASE)
+ if (UserSvr::DebugMask() & 0x402) // KBOOT | KDLL
+ //DebugReg=KFLDR;
+ //DebugReg=KFSERV|KFLDR;
+ DebugReg=KFSERV|KFLDR|KLFFS|KTHRD|KROFS;
+
+// DebugReg=KFSYS|KFSERV|KFLDR|KLFFS|KTHRD|KCACHE|KROFS|KCOMPFS|KCACHE;
+// User::SetDebugMask(0x80004000);
+
+#endif
+ __PRINT(_L("FileServer E32Main"));
+
+ UserSvr::FsRegisterThread();
+ RThread().SetPriority(EPriorityMore);
+ commonInitialize();
+ CActiveSchedulerFs::Start();
+ return(KErrNone);
+ }
+