/*
* Copyright (c) 2006, 2008 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: This file contains the header file of the CMidletUI class.
*
* This class implements the ECom SWInstUIPluginAPI interface
* for midlet installation.
*
*
*/
// INCLUDE FILES
#include <f32file.h>
#include <SWInstDefs.h>
#include <zipfile.h>
#include <SWInstTaskManager.h>
#include <SWInstTask.h>
#include <SWInstLogTaskParam.h>
#include <apacmdln.h>
#include <s32mem.h>
#include <e32property.h>
#include <widgetappdefs.rh>
#include "WidgetUIOperationsWatcher.h"
#include "WidgetUIConfigHandler.h" // info.plist parser
#include "WidgetRegistrationManager.h" // interface to "shell"
// CONSTANTS
_LIT( KInfoPlist,"Info.plist" );
_LIT( KIconFile, "Icon.png" );
_LIT( KMBMExt, ".mbm");
_LIT( KLprojExt, ".lproj" );
_LIT( KInfoPlistStrings, "InfoPlist.strings" );
_LIT( KWidgetAppDir, "\\private\\10282822\\" );
_LIT( KCookieFile, "c:\\private\\101f8530\\cookies.dat" );
const TUint KMaxDescLength = 0x0fffffffu;
// Note about filenames: All file name matching is case insensitive
// the EDriveName is stored as "c:" (withou a trailing backslash) all
// filenames are kept as complete pathnames (drive + path + filename)
// except when working with the widget bundle where the bundle
// contains relative paths
// TODO
// filenames are kept as drive relative pathnames (path + filename but
// not drive). The widget bundle must contain relative paths. The
// drive letter is separated because support for multiple drives and
// removable memory cards means that drive letters may change.
static void NotifyCommandHandled()
{
const TUid KMyPropertyCat = { 0x10282E5A };
enum TMyPropertyKeys { EMyPropertyState = 109 };
TInt state( 3 );
RProperty::Set( KMyPropertyCat, EMyPropertyState , state );
}
using namespace SwiUI;
// =========================== MEMBER FUNCTIONS ===============================
// ============================================================================
// CWidgetUIOperationsWatcher::NewL()
// two-phase constructor
//
// @since 3.1
// @return pointer to CWidgetUIOperationsWatcher
// ============================================================================
//
CWidgetUIOperationsWatcher* CWidgetUIOperationsWatcher::NewL()
{
CWidgetUIOperationsWatcher* self
= new (ELeave) CWidgetUIOperationsWatcher();
CleanupStack::PushL( self );
self->ConstructL();
CleanupStack::Pop( self );
return self;
}
// ============================================================================
// CWidgetUIOperationsWatcher::CWidgetUIOperationsWatcher()
// C++ constructor
//
// @since 3.1
// ============================================================================
//
CWidgetUIOperationsWatcher::CWidgetUIOperationsWatcher()
: CActive( CActive::EPriorityStandard ),
iPropertyValues( EWidgetPropertyIdCount ),
iWidgetInHS( EFalse )
{
CActiveScheduler::Add( this );
}
// ============================================================================
// CWidgetUIOperationsWatcher::ConstructL()
// Symbian second phase constructor
//
// @since 3.1
// ============================================================================
//
void CWidgetUIOperationsWatcher::ConstructL()
{
User::LeaveIfError( iRfs.Connect() );
User::LeaveIfError( iRfs.ShareProtected() );
iFileMgr = CFileMan::NewL( iRfs );
iAppManager = CWidgetRegistrationManager::NewL( iRfs );
iWidgetConfigHandler = CWidgetUIConfigHandler::NewL();
User::LeaveIfError( iRegistry.Connect() );
iServerConnected = ETrue;
TInt i = 0;
// empty values
for ( ; i < EWidgetPropertyIdCount; ++i )
{
CWidgetPropertyValue* value = CWidgetPropertyValue::NewL();
User::LeaveIfError( iPropertyValues.Insert( value, i ) );
}
*(iPropertyValues[EWidgetPropertyListVersion]) = WIDGETPROPERTYLISTVERSION;
iTaskManager = CTaskManager::NewL();
}
// ============================================================================
// CWidgetUIOperationsWatcher::~CWidgetUIOperationsWatcher()
// destructor
//
// @since 3.1
// ============================================================================
//
CWidgetUIOperationsWatcher::~CWidgetUIOperationsWatcher()
{
CActive::Cancel();
TInt i = 0;
for ( ; i < EWidgetPropertyIdCount; ++i )
{
delete iPropertyValues[i];
}
iPropertyValues.Close();
delete iMembers;
delete iZipFile;
delete iFileMgr;
iRfs.Close();
delete iUIHandler;
delete iWidgetConfigHandler;
delete iAppManager;
delete iIconConverter;
if ( iServerConnected )
{
iRegistry.Disconnect();
}
delete iTaskManager;
}
// ============================================================================
// CWidgetUIOperationsWatcher::SilentInstallL()
// Handle silent install request.
//
// @since 3.1
// ============================================================================
//
void CWidgetUIOperationsWatcher::SilentInstallL(
RFile& aFile,
const TDesC8& aMIME,
TRequestStatus& aRequestStatus )
{
iSilent = ETrue;
InstallL( aFile, aMIME, aRequestStatus );
}
// ============================================================================
// CWidgetUIOperationsWatcher::InstallSubfunctionL()
// Breaks out some install work inside trap macro because trap macro
// intereferes with some debuggers.
//
// @since 5.0
// ============================================================================
//
void CWidgetUIOperationsWatcher::InstallSubfunctionL(
RFile& aFile,
TBool& userCancel,
TRequestStatus& aRequestStatus )
{
iZipFile = CZipFile::NewL( iRfs, aFile );
// do initial bundle processing (parse and validate, total size,
// check if replacing existing widget with same bundle ID, etc.)
//
// this step doesn't do anything that would need to be undone
TBool replaceExisting = PreprocessWidgetBundleL();
if ( PromptUserForInstallL( replaceExisting )
&& PromptUserForUntrustedWidgetL( ) )
{
if ( replaceExisting )
{
//Runnning widget should be first closed
RApaLsSession apaLsSession;
apaLsSession.Connect();
TApaAppInfo info;
TUid aUid = TUid::Uid( *(iPropertyValues[EUid]) );
User::LeaveIfError( apaLsSession.GetAppInfo( info, aUid ) );
iWidgetName = info.iFullName;
HBufC *widgetName = iWidgetName.AllocLC();
if(iWidgetInHS)
NotifyCommandHandled();
HandleWidgetCommandL(apaLsSession, *widgetName, aUid, Deactivate);
CleanupStack::PopAndDestroy( widgetName );
apaLsSession.Close();
}
// reinitialize
delete iMembers;
iMembers = NULL;
iMembers = iZipFile->GetMembersL();
// now that install location is known, update MainHTML
const TDesC& base = *(iPropertyValues[EBasePath]);
const TDesC& main = *(iPropertyValues[EMainHTML]);
if ( KMaxFileName < (base.Length() + main.Length()) )
{
User::Leave( KErrCorrupt );
}
TFileName tempFile;
tempFile.Copy( base );
tempFile.Append( main );
*(iPropertyValues[EMainHTML]) = tempFile;
// diplay explanation: 1. The progress display only comes up
// if the total size is over 1 kilobyte (this
// conditionalization is in UIHandler). 2. The displays stack
// on top of each other so if progress display comes up it
// will hide the finalize and then when progesss is removed,
// the finalize will be revealed. 3. Also, finalize failed to
// come up when triggered at the end of RunL() on a tiny
// widget file with no icon. Why, I'm not sure but probably
// had to do with this active object blocking display
// processing. So here is a good place to put up the displays
// (before RunL() is invoked) which lets other objects run.
if ( !iSilent )
{
iUIHandler->DisplayFinalizeDialogL(); // a dialog without a cancel option
iUIHandler->DisplayProgressDialogL(); // progress bar
}
if ( replaceExisting )
{
BackupL(); // nothing need be undone if backup leaves
// backup will gaurantee that install dir is empty
// now don't execute any leaving code before starting RunL
}
else
{
// new widget, allocate a UID for this widget
const TDesC& drive = *(iPropertyValues[EDriveName]);
*(iPropertyValues[EUid]) = iRegistry.GetAvailableUidL(drive[0]).iUid;
// check that install location is empty and remove what is
// there if it isn't
TUint attributes = 0;
TInt e = iRfs.Att( base, attributes );
if ( (KErrNotFound != e)
&& (KErrPathNotFound != e) )
{
(void)iFileMgr->RmDir( base );
}
}
}
else
{
userCancel = ETrue;
if ( !iSilent ) { iUIHandler->DisplayCancelL(); }
TRequestStatus* status = &aRequestStatus;
User::RequestComplete( status, KErrNone );
}
}
// ============================================================================
// CWidgetUIOperationsWatcher::InstallL()
// NORMAL INSTALL STEPS:
// 1. open zip file
// 2. get metadata file (e.g. Info.plist) and parse it
// 3. prompt user to install (or replace identically named existing widget)
// 4. prompt user for install location (built-in mem or mem card)
// and do free space check
// 5. if replacing existing widget then move currently installed files
// to backup for possible restore on install error
// 6. continue install in an active object runl to make install
// cancellable also do icon processing in a separate active object
// (the icon processing active object is a questionable design because
// it doesn't follow the conventional CActive request/response pattern
// and might as well be done here in the RunL)
//
// @since 3.1
// ============================================================================
//
void CWidgetUIOperationsWatcher::InstallL(
RFile& aFile,
const TDesC8& /*aMIME*/,
TRequestStatus& aRequestStatus )
{
// Wrapper CWidgetInstallerUI::InstallL() guards against
// a second install request while currently installing.
iCancelled = EFalse;
// These three bools will be flase until doing something that
// needs to be cleaned up on error/cancel.
iUnzipping = EFalse;
iOverwriting = EFalse;
iProcessingIcon = EFalse;
iIconSearchFinished = EFalse;
iIconError = KErrNone;
// outside trap because without a UI we can't display an error message
iUIHandler =
CWidgetUIHandler::NewL( CWidgetUIHandler::EModeInstall, this );
TBool userCancel = EFalse;
TRAPD( error, InstallSubfunctionL( aFile, userCancel, aRequestStatus ) );
if ( KErrNone != error )
{
if ( !iSilent ) { iUIHandler->DisplayErrorL( error ); }
User::Leave( error );
}
else if ( userCancel )
{
return; // can't do return inside trap
}
// start putting bundle files in install area, registy won't be
// changed until done unzipping and processing icon (if present)
iUnzipping = ETrue;
// set client request to pending state
iRequestStatus = &aRequestStatus;
*iRequestStatus = KRequestPending;
// start RunL
TRequestStatus* status = &iStatus;
User::RequestComplete( status, KErrNone );
SetActive();
}
// ============================================================================
// CWidgetUIOperationsWatcher::PreprocessWidgetBundleL()
// Handles parsing and creating widget
//
// @since 3.1
// ============================================================================
//
TBool CWidgetUIOperationsWatcher::PreprocessWidgetBundleL()
{
TBool found = EFalse;
TFileName tempFile;
TFileName bundleRoot; // root dir in widget bundle (not install root)
TUint32 zipfileUncompressedSize = 0;
iMembers = iZipFile->GetMembersL();
if ( NULL == iMembers )
{
User::Leave( KErrNotSupported );
}
// compute total installed (uncompressed) size for use in progress
// meter (doesn't account for some derived things like scaled
// icons and registry data)
CZipFileMember* member = iMembers->NextL();
for ( ; member ; member = iMembers->NextL() )
{
zipfileUncompressedSize += member->UncompressedSize();
delete member;
}
if ( 0 == zipfileUncompressedSize )
{
User::Leave( KErrNotSupported );
}
*(iPropertyValues[EFileSize]) = zipfileUncompressedSize;
// find the top-level directory under which to get metadata
// TODO this isn't robust, check cases where there are multiple
// top-level dirs and no top-level dirs.
delete iMembers;
iMembers = NULL;
iMembers = iZipFile->GetMembersL();
member = iMembers->NextL();
TPtrC fName( *member->Name() );
TInt pos = fName.Locate( KPathDelimiter );
if ( (KErrNotFound == pos) || (KMaxFileName < pos) )
{
User::Leave( KErrNotSupported );
}
bundleRoot.Copy( fName.Left( pos ) );
delete member;
delete iMembers;
iMembers = NULL;
// metadata file: "WeatherBug.wdgt\Info.plist"
if ( KMaxFileName
< (bundleRoot.Length() + 1 /* slash */ + KInfoPlist().Length()) )
{
User::Leave( KErrCorrupt );
}
tempFile.Copy( bundleRoot );
tempFile.Append( KPathDelimiter );
tempFile.Append( KInfoPlist );
CZipFileMember* infoFileMember =
iZipFile->CaseInsensitiveMemberL( tempFile );
if ( NULL == infoFileMember )
{
// missing metadata file
User::Leave( KErrNotSupported );
}
CleanupStack::PushL( infoFileMember );
// we will use descriptors to handle the Info.plist contents so
// the file may not be larger than a descriptor can handle
if ( KMaxDescLength < infoFileMember->UncompressedSize() )
{
User::Leave( KErrCorrupt );
}
// extract Info.plist from zip into a buffer
RZipFileMemberReaderStream* stream;
iZipFile->GetInputStreamL( infoFileMember, stream );
CleanupStack::PushL( stream );
HBufC8* buffer = HBufC8::NewLC( infoFileMember->UncompressedSize() );
TPtr8 bufferPtr( buffer->Des() );
User::LeaveIfError(
stream->Read( bufferPtr, infoFileMember->UncompressedSize() ) );
// METADATA PARSE
iWidgetConfigHandler->ParseValidateBundleMetadataL(
bufferPtr, iPropertyValues, iRfs );
CleanupStack::PopAndDestroy( 3 ); // infoFileMember, stream, buffer
// EXISTING WIDGET?
if( iRegistry.WidgetExistsL( *(iPropertyValues[EBundleIdentifier]) ) )
{
// replacement for currently installed widget
*(iPropertyValues[EUid]) = iRegistry.GetWidgetUidL(
*(iPropertyValues[EBundleIdentifier]));
found = ETrue;
TUid aUid = TUid::Uid( *(iPropertyValues[EUid]) );
iWidgetInHS = iRegistry.IsWidgetInMiniView( aUid );
// get original install dir from registry in case user
// decides to "overrite" to another memory location
iOriginalDir = *( iRegistry.GetWidgetPropertyValueL(
TUid::Uid( *(iPropertyValues[EUid]) ),
EBasePath ) );
}
// uid for a new widget will be gotten once install location (c: or
// e:) is selected
// see if main.html is in zip bundle
const TDesC& main = *(iPropertyValues[EMainHTML]);
if ( KMaxFileName
< (bundleRoot.Length() + 1 /* slash */ + main.Length()) )
{
User::Leave( KErrCorrupt );
}
tempFile.Copy( bundleRoot );
tempFile.Append( KPathDelimiter );
tempFile.Append( main );
CZipFileMember* mainFileMember
= iZipFile->CaseInsensitiveMemberL( tempFile );
if ( !mainFileMember )
{
// missing main html file
User::Leave( KErrCorrupt );
}
delete mainFileMember;
mainFileMember = NULL;
// save MainHTML partial path to combine with base path when
// install location is selected
*(iPropertyValues[EMainHTML]) = tempFile;
// see if there is an Icon.png in root and get partial path
if ( KMaxFileName
< (bundleRoot.Length() + 1 /* slash */ + KIconFile().Length()) )
{
User::Leave( KErrCorrupt );
}
tempFile.Copy( bundleRoot );
tempFile.Append( KPathDelimiter );
tempFile.Append( KIconFile );
CZipFileMember* iconFileMember
= iZipFile->CaseInsensitiveMemberL( tempFile );
if ( iconFileMember )
{
// save this partial path to identify Icon.png during unzip
*(iPropertyValues[EIconPath]) = tempFile;
}
else
{
iIconSearchFinished = ETrue;
}
// ex. infoLocFile pathname "WeatherBug.wdgt\en.lproj\InfoPlist.strings"
TBuf<32> lproj;
iRegistry.GetLprojName( lproj ); // e.g. "en", "fr", "zh_Hans" ...
if ( KMaxFileName
< (bundleRoot.Length() + 1 /* slash */ + lproj.Length()
+ KLprojExt().Length() + 1 /* slash */
+ KInfoPlistStrings().Length()) )
{
User::Leave( KErrCorrupt );
}
TFileName infoLocFile( bundleRoot );
infoLocFile.Append( KPathDelimiter );
infoLocFile.Append( lproj );
infoLocFile.Append( KLprojExt );
infoLocFile.Append( KPathDelimiter );
infoLocFile.Append( KInfoPlistStrings );
CZipFileMember* infoLocFileMember =
iZipFile->CaseInsensitiveMemberL( infoLocFile );
if ( infoLocFileMember )
{
CleanupStack::PushL( infoLocFileMember );
RZipFileMemberReaderStream* stream;
iZipFile->GetInputStreamL( infoLocFileMember, stream );
CleanupStack::PushL( stream );
// we will use descriptors to handle the l10n contents so
// the file may not be larger than a descriptor can handle
if ( KMaxDescLength < infoLocFileMember->UncompressedSize() )
{
User::Leave( KErrCorrupt );
}
HBufC8* buffer
= HBufC8::NewLC( infoLocFileMember->UncompressedSize() );
TPtr8 bufferPtr( buffer->Des() );
User::LeaveIfError(
stream->Read( bufferPtr, infoLocFileMember->UncompressedSize() ) );
// parse the l10n file and localize the bundle display name
iWidgetConfigHandler->ParseInfoLocL(
bufferPtr, iRfs, *(iPropertyValues[EBundleDisplayName]) );
CleanupStack::PopAndDestroy( 3 ); // buffer, stream, infoLocFileMember
}
return found;
}
// ============================================================================
// CWidgetUIOperationsWatcher::RunL()
// RunL is called only for Intall/Overwrite. It's sole resposibilty is
// unzipping the bundle files into the widget subdir.
//
// @since 3.1
// ============================================================================
//
void CWidgetUIOperationsWatcher::RunL()
{
if ( !iCancelled )
{
CZipFileMember* member = iMembers->NextL();
if ( member )
{
CleanupStack::PushL( member );
// build up the install pathname
TPtrC zipedFileName( *member->Name() );
TFileName zipedFileNameAndPath;
const TDesC& base = *(iPropertyValues[EBasePath]);
if ( KMaxFileName < (base.Length() + zipedFileName.Length()) )
{
User::Leave( KErrCorrupt );
}
zipedFileNameAndPath.Copy( base );
zipedFileNameAndPath.Append( zipedFileName );
// index is supposed to separate the path from the
// basename, unless it is just a directory
TInt index = zipedFileNameAndPath.LocateReverse( KPathDelimiter );
TPtrC path = zipedFileNameAndPath.Left( index + 1 /* slash */ );
// make the directory, it's dumb and will try to create
// directories that it has already created
TInt e = iRfs.MkDirAll( path );
if ( (KErrNone != e)
&& (KErrAlreadyExists != e) )
{
User::Leave( KErrCorrupt );
}
// a member can be just a directory name but if it is a file
// then uncompress the contents
if ( zipedFileNameAndPath[zipedFileNameAndPath.Length()-1]
!= KPathDelimiter ) // skip directory paths
{
// uncompress the compressed file into a buffer
RZipFileMemberReaderStream* stream;
iZipFile->GetInputStreamL( member, stream );
CleanupStack::PushL( stream );
TUint32 fileSize = member->UncompressedSize();
if ( KMaxDescLength < fileSize )
{
User::Leave( KErrCorrupt );
}
HBufC8* buffer = HBufC8::NewLC( member->UncompressedSize() );
TPtr8 bufferPtr( buffer->Des() );
User::LeaveIfError(
stream->Read( bufferPtr, member->UncompressedSize() ) );
// write the buffer into a file
RFile file;
CleanupClosePushL( file );
User::LeaveIfError(
file.Create( iRfs, zipedFileNameAndPath, EFileWrite ) );
if ( fileSize > 0 )
{
User::LeaveIfError( file.Write( *buffer ) );
}
CleanupStack::PopAndDestroy( 3 ); // file, buffer, stream
}
if ( !iSilent )
{
// more progress!!!
if ( member->UncompressedSize() )
{
iUIHandler->UpdateProgressDialogL( member->UncompressedSize() );
}
}
// if this is the icon file, then start icon processing
if ( EFalse == iIconSearchFinished )
{
const TDesC& icon = *(iPropertyValues[EIconPath]);
if ( 0 == icon.CompareF( zipedFileName ) )
{
iIconSearchFinished = ETrue;
const TPtrC& path =
zipedFileNameAndPath.Left(index + 1 /* slash */ );
*(iPropertyValues[EIconPath]) = path;
TUid uid = TUid::Uid( *(iPropertyValues[EUid]) );
TRAPD( error, ConvertIconL( uid, path ) );
if ( KErrNone != error )
{
// forget the provided icon and proceed
iPropertyValues[EIconPath]->Reset();
}
}
}
CleanupStack::PopAndDestroy(); // member
// done with that file from the zip, go to next
TRequestStatus* stat = &iStatus;
User::RequestComplete( stat, KErrNone );
SetActive();
}
else // done with zip archive
{
if ( !iSilent ) { iUIHandler->CloseProgressDialogL(); }
// and reveal finalize dialog underneath
// finished unzip
iUnzipping = EFalse;
if ( !iProcessingIcon )
{
FinishInstallL();
}
// if we are processing icons, then we wait for icon
// processing to complete
// don't call RequestComplete on installer status (the
// higher level caller's status) here because we are not
// done
}
}
else // user cancel (not DoCancel)
{
if ( !iSilent )
{
iUIHandler->CloseProgressDialogL();
iUIHandler->CloseFinalizeDialogL();
iUIHandler->DisplayCancelL();
}
// stop icon conversion (if there is a converter)
delete iIconConverter;
iIconConverter = NULL;
iProcessingIcon = EFalse;
iIconError = KErrNone;
iUnzipping = EFalse;
FinishInstallL();
}
}
// ============================================================================
// CWidgetUIOperationsWatcher::NotifyCompletionL()
// Icon conversion calls this when it is complete.
//
// @since 3.1
// ============================================================================
//
void CWidgetUIOperationsWatcher::NotifyCompletionL( TInt aErr )
{
iProcessingIcon = EFalse;
iIconError = aErr;
if ( KErrNone != iIconError )
{
iPropertyValues[EIconPath]->Reset();
}
// don't really need iCancelled in test as that combination
// shouldn't be possible
if ( !(iUnzipping || iCancelled) )
{
// NotifyCompletionL shouldn't ever leave since the caller
// is IconConverter and that is just a utility module.
TRAP_IGNORE( FinishInstallL() );
}
}
// ============================================================================
// CWidgetUIOperationsWatcher::FinishInstallL()
//
// @since 3.1
// ============================================================================
//
void CWidgetUIOperationsWatcher::FinishInstallL()
{
if ( !iCancelled )
{
if ( iOverwriting )
{
TUid uid = TUid::Uid( *(iPropertyValues[EUid]) );
iAppManager->DeregisterWidgetL( uid );
iRegistry.DeRegisterWidgetL( uid );
}
// TODO if registration steps fail does it leave inconsistent state???
iAppManager->RegisterWidgetL( *(iPropertyValues[EMainHTML]),
*(iPropertyValues[EBundleDisplayName]),
*(iPropertyValues[EIconPath]),
*(iPropertyValues[EDriveName]),
TUid::Uid( *(iPropertyValues[EUid]) ) );
iRegistry.RegisterWidgetL( iPropertyValues );
if ( iOverwriting )
{
// delete backup
(void)iFileMgr->RmDir( iBackupDir );
}
if ( !iSilent )
{
iUIHandler->CloseFinalizeDialogL();
iUIHandler->DisplayCompleteL();
}
HandleLogsL(*(iPropertyValues[EBundleDisplayName]), TUid::Uid( *(iPropertyValues[EUid]) ), *(iPropertyValues[ENokiaWidget]), SwiUI::ELogTaskActionInstall);
}
else // cancelled
{
// delete what was being installed, and restore previous
(void)iFileMgr->RmDir( *(iPropertyValues[EBasePath]) );
if ( iOverwriting )
{
RestoreL();
}
}
User::RequestComplete( iRequestStatus, KErrNone );
iRequestStatus = NULL;
iUnzipping = EFalse;
iOverwriting = EFalse;
iProcessingIcon = EFalse;
iIconError = KErrNone;
iCancelled = EFalse;
}
// ============================================================================
// CWidgetUIOperationsWatcher::UserCancelL()
// If user selects cancel softkey on progress dialog only.
//
// @since 3.1
// ============================================================================
//
void CWidgetUIOperationsWatcher::UserCancelL( TBool /*aCancelImmediately*/ )
{
// It is only possible to get here while we have the progress
// dialog up during unzipping (iUnzipping is set). When unzipping
// finishes but icon processing is not finished, we display a
// finalize dialog without a cancel option.
iCancelled = ETrue;
// don't do anything other than set the flag as it will be tested
// while processing
}
// ============================================================================
// CWidgetUIOperationsWatcher::DoCancel()
// This should not be called directly. This function is called by
// CActive when Cancel() is called on this object IF there is a
// request outstanding. So indirectly it handles canceling the
// install operation. Icon converter doesn't ever directly cause a
// Cancel() even when it errors out because it is a service provider
// to this object. If this method is called then RunL is not called
// (they are mutually exclusive).
//
// @since 3.1
// ============================================================================
//
void CWidgetUIOperationsWatcher::DoCancel()
{
// can't cancel uninstall because that is synchronous and runs in
// one step and this is only called by CActive if there is an
// outstanding request, that means we are in the prcess of
// unzipping the archive (but not in RunL presently), also note
// that this is not a user cancel (see separate function for that)
iCancelled = ETrue;
TRAP_IGNORE(
{
if ( !iSilent )
{
iUIHandler->CloseProgressDialogL();
iUIHandler->CloseFinalizeDialogL();
iUIHandler->DisplayCancelL();
}
// stop icon conversion (if there is a converter)
delete iIconConverter;
iIconConverter = NULL;
iProcessingIcon = EFalse;
iIconError = KErrNone;
iUnzipping = EFalse;
FinishInstallL();
}
);
}
// ============================================================================
// CWidgetUIOperationsWatcher::RunError()
// This should not be called directly. It is called by CActive when
// RunL leaves. RunL is only for installing so this handles leaving
// errors during installing widget.
//
// @since 3.1
// ============================================================================
//
TInt CWidgetUIOperationsWatcher::RunError( TInt aError )
{
iCancelled = ETrue;
iUnzipping = EFalse;
TRAP_IGNORE(
{
if ( !iSilent )
{
iUIHandler->CloseProgressDialogL();
iUIHandler->CloseFinalizeDialogL();
iUIHandler->DisplayErrorL( aError );
}
// stop icon conversion (if there is a converter)
delete iIconConverter;
iIconConverter = NULL;
iProcessingIcon = EFalse;
iIconError = KErrNone;
FinishInstallL();
}
);
return KErrNone; // indicates error was handled
}
// ============================================================================
// CWidgetUIOperationsWatcher::SilentUninstallL()
// Handle silent uninstall request.
//
// @since 3.1
// ============================================================================
//
void CWidgetUIOperationsWatcher::SilentUninstallL(
const TUid& aUid,
TRequestStatus& aRequestStatus )
{
iSilent = ETrue;
UninstallL( aUid, aRequestStatus );
}
// ============================================================================
// CWidgetUIOperationsWatcher::UninstallL()
// Handle uninstall request.
//
// @since 3.1
// ============================================================================
//
void CWidgetUIOperationsWatcher::UninstallL(
const TUid& aUid,
TRequestStatus& aRequestStatus )
{
// initialize state
iCancelled = EFalse;
iUnzipping = EFalse;
iOverwriting = EFalse;
iProcessingIcon = EFalse;
iIconError = KErrNone;
// outside trap because without a UI we can't display an error message
iUIHandler =
CWidgetUIHandler::NewL( CWidgetUIHandler::EModeUninstall, this );
// save client status to use in finish uninstall
iRequestStatus = &aRequestStatus;
TBuf<KWidgetRegistryVal> bundleName;
iRegistry.GetWidgetBundleName( aUid, bundleName );
if( bundleName.Length() <= 0 )
{
FinishUninstallL( KErrCorrupt );
return;
}
TBool widgetinHomeScreen(EFalse);
widgetinHomeScreen = iRegistry.IsWidgetInMiniView( aUid );
TBool uninstall( ETrue );
if ( !iSilent )
{
uninstall = iUIHandler->DisplayUninstallL( bundleName,widgetinHomeScreen );
}
// prompt user to uninstall
if( uninstall )
{
if(iRegistry.IsWidgetRunning( aUid ))
//Runnning widget should be first closed
{
RApaLsSession apaLsSession;
apaLsSession.Connect();
TApaAppInfo info;
User::LeaveIfError( apaLsSession.GetAppInfo( info, aUid ) );
HBufC* widgetName = info.iFullName.AllocLC();
HandleWidgetCommandL(apaLsSession,*widgetName,aUid,Deactivate);
CleanupStack::PopAndDestroy( widgetName );
apaLsSession.Close();
}
if ( !iSilent ) { iUIHandler->DisplayUninstallInProgressL(); }
TBuf<KWidgetRegistryVal> widgetPath;
iRegistry.GetWidgetPath( aUid, widgetPath );
TBool aVendor = *(iRegistry.GetWidgetPropertyValueL(aUid, ENokiaWidget));
// TODO if any of next steps leave does state become inconsistent?
// remove the dir for the widget
// TODO why this validation?
if ( widgetPath.Length() > 0 )
{
iFileMgr->RmDir( widgetPath );
//Widget should delete any cookie it created
HBufC* fileName = HBufC::NewLC(KMaxFileName);
TPtr ptr(fileName->Des());
TBuf<8> buf1;
ptr = KCookieFile;
TInt pos = ptr.LocateReverse('.');
buf1.AppendNum(aUid.iUid,EHex);
ptr.Insert(pos,_L("_"));
ptr.Insert(pos+1,buf1);
iRfs.Delete(ptr);
CleanupStack::PopAndDestroy(fileName);
}
iAppManager->DeregisterWidgetL( aUid );
iRegistry.DeRegisterWidgetL( aUid );
TInt err = KErrNone;
TRAP(err, FinishUninstallL( KErrNone ));
if(err == KErrNone)
{
HandleLogsL(bundleName, aUid, aVendor, SwiUI::ELogTaskActionUninstall);
}
}
else
{
if ( !iSilent ) { iUIHandler->DisplayCancelL(); }
// must return cancel because upper-levels will take uninstall
// actions (remove widget from applications list) if we return KErrNone
User::RequestComplete( iRequestStatus, KErrCancel );
return;
}
}
// ============================================================================
// CWidgetUIOperationsWatcher::FinishUninstallL()
//
// @since 3.1
// ============================================================================
//
void CWidgetUIOperationsWatcher::FinishUninstallL( TInt aErr )
{
if ( !iSilent ) { iUIHandler->CloseUninstallInProgressDialogL(); }
if ( aErr )
{
if ( !iSilent ) { iUIHandler->DisplayErrorL( aErr ); }
User::Leave( aErr );
}
if ( !iSilent ) { iUIHandler->DisplayCompleteL(); }
User::RequestComplete( iRequestStatus, KErrNone );
iRequestStatus = NULL;
}
// ============================================================================
// CWidgetUIOperationsWatcher::IsShowingDialog()
//
// @since 3.1
// ============================================================================
//
TBool CWidgetUIOperationsWatcher::IsShowingDialog()
{
return ETrue;
}
// ============================================================================
// CWidgetUIOperationsWatcher::CancelEngine()
//
// @since 3.1
// ============================================================================
//
void CWidgetUIOperationsWatcher::CancelEngine()
{
// TODO ???
}
// ============================================================================
// CWidgetUIOperationsWatcher::ForceCancel()
//
// @since 3.1
// ============================================================================
//
void CWidgetUIOperationsWatcher::ForceCancel()
{
// TODO ???
}
// ============================================================================
// CWidgetUIOperationsWatcher::StartedCancellingL()
//
// @since 3.1
// ============================================================================
//
void CWidgetUIOperationsWatcher::StartedCancellingL()
{
// TODO ???
}
// ============================================================================
// CWidgetUIOperationsWatcher::SelectMemoryL()
//
// @since 3.1
// ============================================================================
//
TBool CWidgetUIOperationsWatcher::SelectMemoryL()
{
TDriveUnit selectedDrive;
TBool isSufficient = EFalse;
if ( !iUIHandler->SelectDriveL( iRfs,
selectedDrive, isSufficient,
*(iPropertyValues[EFileSize] )) )
{
UserCancelL();
return EFalse;
}
else if ( !isSufficient )
{
User::Leave( KErrNoMemory );
}
UpdateWidgetBasePathL( selectedDrive );
*(iPropertyValues[EDriveName]) = selectedDrive.Name();
return ETrue;
}
// ============================================================================
// CWidgetUIOperationsWatcher::UpdateWidgetBasePathL()
//
// @since 3.1
// ============================================================================
//
void CWidgetUIOperationsWatcher::UpdateWidgetBasePathL( TDriveUnit& aDrive )
{
const TDesC& bundleId = *(iPropertyValues[EBundleIdentifier]);
HBufC* basePath = HBufC::NewL(
aDrive.Name().Length() + KWidgetAppDir().Length()
+ bundleId.Length() + 1 /* slash */ );
basePath->Des().Append( aDrive.Name() );
basePath->Des().Append( KWidgetAppDir );
basePath->Des().Append( *(iPropertyValues[EBundleIdentifier]) );
basePath->Des().Append( KPathDelimiter );
*(iPropertyValues[EBasePath]) = *basePath;
delete basePath;
}
// ============================================================================
// CWidgetUIOperationsWatcher::ConvertIconL()
// Convert icon.png into mbm format for widget
//
// @since 3.1
// ============================================================================
//
void CWidgetUIOperationsWatcher::ConvertIconL(
TUid& aUid,
const TDesC& aIconPath )
{
delete iIconConverter;
iIconConverter = NULL;
iIconConverter = CIconConverter::NewL( this, iRfs );
TFileName pngIcon;
pngIcon.Copy( aIconPath );
if ( pngIcon.Length() )
{
pngIcon.Append( KIconFile );
TFileName mbmIcon;
mbmIcon.Copy( aIconPath );
mbmIcon.Append( aUid.Name() );
mbmIcon.Append( KMBMExt() );
iIconConverter->StartToDecodeL( pngIcon, mbmIcon );
iProcessingIcon = ETrue;
}
}
// ============================================================================
// CWidgetUIOperationsWatcher::PromptUserForInstallL()
// Prompt to confirm install and where to install. SetActive() has not
// been called yet.
//
// @since 3.1
// ============================================================================
//
TBool CWidgetUIOperationsWatcher::PromptUserForInstallL( TBool aOverwrite )
{
TBool userAnswer( ETrue );
if ( !iSilent )
{
if ( aOverwrite )
{
userAnswer =
iUIHandler->DisplayOverwriteL( *(iPropertyValues[EBundleDisplayName]) );
}
else
{
userAnswer =
iUIHandler->DisplayInstallL( *(iPropertyValues[EBundleDisplayName]) );
}
if ( userAnswer )
{
userAnswer = SelectMemoryL();
}
}
else
{
TDriveUnit selectedDrive(_L("C")); // in real should be read from install options which are ignore too at the moment.
UpdateWidgetBasePathL( selectedDrive );
*(iPropertyValues[EDriveName]) = selectedDrive.Name();
}
return userAnswer;
}
// ============================================================================
// CWidgetUIOperationsWatcher::PromptUserForUntrustedWidgetL()
// Prompt to confirm install of untrusted widget. SetActive() has not
// been called yet.
//
// @since 3.1
// ============================================================================
//
TBool CWidgetUIOperationsWatcher::PromptUserForUntrustedWidgetL( )
{
TBool userAnswer(ETrue);
if ( !iSilent )
{
userAnswer = iUIHandler->DisplayUntrustedSecurityDialogL();
}
return userAnswer;
}
// ============================================================================
// CWidgetUIOperationsWatcher::BackupL()
// When overwriting an installed widget, backup so can restore on error.
//
// @since 3.1
// ============================================================================
//
void CWidgetUIOperationsWatcher::BackupL()
{
// if backup leaves, there is nothing caller needs to do to clean up
// move to backup (by renaming) the existing install dir for the widget
// first create a "unique" backup dir on the original dir drive
// (same drive required since can't "rename" across drives)
TParse p;
p.Set( iOriginalDir, NULL, NULL );
TFileName path;
path.Copy( p.Drive() );
path.Append( KWidgetAppDir );
// NOT A GOOD WAY TO CREATE A UNIQUE DIRECTORY First we create a
// unique file and then delete it and then create a directory with
// same name.
RFile file;
CleanupClosePushL( file );
User::LeaveIfError( file.Temp( iRfs, path, iBackupDir, EFileWrite ) );
CleanupStack::PopAndDestroy(); // file
// delete the temp file and...
User::LeaveIfError( iFileMgr->Delete( iBackupDir ) );
// ...convert to dir name
iBackupDir.Append( KPathDelimiter );
// make the backup
User::LeaveIfError( iFileMgr->Rename( iOriginalDir, iBackupDir ) );
// original dir doesn't seem to be gone after rename so rmdir
// it...this is IMPORTANT because we want to be able to look at
// the list of install directories to get a list of installed
// widgets without checking if they are empty!
(void)iFileMgr->RmDir( iOriginalDir );
// overwriting boolean is only true when backup is successful
iOverwriting = ETrue;
}
// ============================================================================
// CWidgetUIOperationsWatcher::RestoreL()
//
// @since 3.1
// ============================================================================
//
void CWidgetUIOperationsWatcher::RestoreL()
{
// move (by renaming) the backup copy to the install dir for the widget
// to assure a clean destination, try deleting install dir first
(void)iFileMgr->RmDir( iOriginalDir );
// TODO if this fails then do some cleanup, maybe unregister?
User::LeaveIfError( iFileMgr->Rename( iBackupDir, iOriginalDir ) );
// backup dir doesn't seem to be gone so rmdir it
(void)iFileMgr->RmDir( iBackupDir );
// restore complete
iOverwriting = EFalse;
}
// ============================================================================
//
// CWidgetUIOperationsWatcher::HandleLogsL
//
// ============================================================================
void CWidgetUIOperationsWatcher::HandleLogsL(const TDesC& aWidgetName, const TUid &aUid, TBool aVender, SwiUI::TLogTaskAction aAction)
{
CTask* task = CTask::NewL( KLogTaskImplUid, EFalse );
CleanupStack::PushL(task);
TLogTaskParam params;
params.iName.Copy(aWidgetName);
params.iUid = aUid;
params.iAction = aAction;
params.iVendor.Copy((aVender ? _L("Nokia") : _L("Non-Nokia")));
TTime time;
time.UniversalTime();
params.iTime = time;
TLogTaskParamPckg pckg( params );
task->SetParameterL( pckg, 0 );
iTaskManager->AddTaskL( task );
iTaskManager->CommitL();
CleanupStack::Pop(task);
}
// ============================================================================
//
// CWidgetUIOperationsWatcher::HandleWidgetCommandL
//
// ============================================================================
void CWidgetUIOperationsWatcher::HandleWidgetCommandL( RApaLsSession& aSession,const TDesC& aWidget,const TUid& aUid,TUint32 aOperation )
{
const TInt size( 2* aWidget.Length() + 3*sizeof( TUint32 ) );
// Message format is <filenameLength><unicode_filename><someintegervalue>
CApaCommandLine* cmd( CApaCommandLine::NewLC() );
HBufC8* opaque( HBufC8::NewLC( size ) );
RDesWriteStream stream;
TPtr8 des( opaque->Des() );
stream.Open( des );
CleanupClosePushL( stream );
// Generate the command.
stream.WriteUint32L( aUid.iUid );
stream.WriteUint32L( aWidget.Length() );
stream.WriteL( reinterpret_cast< const TUint8* >( aWidget.Ptr() ),
aWidget.Size() );
stream.WriteInt32L( aOperation );
CleanupStack::PopAndDestroy( &stream );
// Generate command.
cmd->SetCommandL( EApaCommandBackgroundAndWithoutViews );
cmd->SetOpaqueDataL( *opaque );
CleanupStack::PopAndDestroy( opaque );
cmd->SetExecutableNameL( KLauncherApp );
User::LeaveIfError( aSession.StartApp( *cmd ) );
CleanupStack::PopAndDestroy( cmd );
}
// End of File