/*
* Copyright (c) 2009-2010 Nokia Corporation and/or its subsidiary(-ies).
* All rights reserved.
* This component and the accompanying materials are made available
* under the terms of "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: AT command handler and notifier
*
*/
/*
* Points to consider:
* - Each of the AT commands sent to ATEXT are converted to upper case form.
* Thus the ATEXT plugins don't need to check for case. The conversion to
* upper case form stops when carriage return or '=' character is found.
*/
/*
* This file has the following functionality:
* 1) Line buffer filler:
* AddDataForParsing(), ManagePartialCommand(), ExtractLineFromInputBuffer(),
* etc. This buffer is used for parsing. These functions are used for
* splitter-combiner logic described below. CDunAtCmdPusher is used
* separately for each element in the line buffer.
* 2) Parser and splitter-combiner to handle the separater elements (subcommands)
* in the line buffer. When end of line is detected, iEndIndex is used to
* extract the next line in iInput to the line buffer (ManageEndOfCmdHandling()
* and ExtractLineFromInputBuffer()).
* 3) When end of iEndIndex is found (ExtractLineFromInputBuffer()), more data
* is asked from CDunUpstream.
* Note: There is separate handling for "one character input data" and "A/"
* command handling which should be supported only for one line based data
* (ManagePartialCommand()).
*/
/*
* The AT command handling is splitted to two parts on high level:
* 1) Splitter: splitting the sub-commands in a command line to multiple ones
* for ATEXT to process.
* 2) Combiner: combining the replies coming from ATEXT using a filter
* (the filter categories are explained in DunAtCmdPusher.cpp)
*/
/*
* Note1: This file uses AT command parsing based on heuristics.
* Refer to test specification if planning to change the heuristic.
* Note2: Input buffer management (ExtractLineFromInputBuffer()) can be tested
* with non-line based terminals such as HyperTerminal or Realterm.
*/
#include "DunAtCmdHandler.h"
#include "DunAtUrcHandler.h"
#include "DunDownstream.h"
#include "DunDebug.h"
const TInt8 KDunCancel = 24; // Used for line editing, cancel character
const TInt8 KDunEscape = 27; // Used for editor ending, escape character
// ---------------------------------------------------------------------------
// Two-phased constructor.
// ---------------------------------------------------------------------------
//
EXPORT_C CDunAtCmdHandler* CDunAtCmdHandler::NewL(
MDunAtCmdStatusReporter* aUpstream,
MDunStreamManipulator* aDownstream,
const TDesC8* aConnectionName )
{
CDunAtCmdHandler* self = new (ELeave) CDunAtCmdHandler(
aUpstream,
aDownstream,
aConnectionName );
CleanupStack::PushL( self );
self->ConstructL();
CleanupStack::Pop( self );
return self;
}
// ---------------------------------------------------------------------------
// Destructor.
// ---------------------------------------------------------------------------
//
CDunAtCmdHandler::~CDunAtCmdHandler()
{
FTRACE(FPrint( _L("CDunAtCmdHandler::~CDunAtCmdHandler()") ));
ResetData();
FTRACE(FPrint( _L("CDunAtCmdHandler::~CDunAtCmdHandler() complete") ));
}
// ---------------------------------------------------------------------------
// Resets data to initial values
// ---------------------------------------------------------------------------
//
EXPORT_C void CDunAtCmdHandler::ResetData()
{
FTRACE(FPrint( _L("CDunAtCmdHandler::ResetData()") ));
// APIs affecting this:
// IssueRequest()
Stop();
// NewL()
DeletePluginHandlers();
delete iCmdEchoer;
iCmdEchoer = NULL;
delete iNvramListen;
iNvramListen = NULL;
delete iModeListen;
iModeListen = NULL;
delete iEcomListen;
iEcomListen = NULL;
delete iAtSpecialCmdHandler;
iAtSpecialCmdHandler = NULL;
if ( iAtCmdExtCommon.Handle() )
{
iAtCmdExtCommon.SynchronousClose();
iAtCmdExtCommon.Close();
}
if ( iAtCmdExt.Handle() )
{
iAtCmdExt.SynchronousClose();
iAtCmdExt.Close();
}
iSpecials.ResetAndDestroy();
iSpecials.Close();
// AddCmdModeCallback()
iCmdCallbacks.Close();
// Internal
Initialize();
FTRACE(FPrint( _L("CDunAtCmdHandler::ResetData() complete") ));
}
// ---------------------------------------------------------------------------
// Adds callback for command mode notification
// The callback will be called when command mode starts or ends
// ---------------------------------------------------------------------------
//
EXPORT_C TInt CDunAtCmdHandler::AddCmdModeCallback( MDunCmdModeMonitor* aCallback )
{
FTRACE(FPrint( _L("CDunAtCmdHandler::AddCmdModeCallback()" ) ));
if ( !aCallback )
{
FTRACE(FPrint( _L("CDunAtCmdHandler::AddCmdModeCallback() (aCallback) not initialized!" ) ));
return KErrGeneral;
}
TInt retTemp = iCmdCallbacks.Find( aCallback );
if ( retTemp != KErrNotFound )
{
FTRACE(FPrint( _L("CDunAtCmdHandler::AddCmdModeCallback() (already exists) complete" ) ));
return KErrAlreadyExists;
}
retTemp = iCmdCallbacks.Append( aCallback );
if ( retTemp != KErrNone )
{
FTRACE(FPrint( _L("CDunAtCmdHandler::AddCmdModeCallback() (append failed!) complete" ) ));
return retTemp;
}
FTRACE(FPrint( _L("CDunAtCmdHandler::AddCmdModeCallback() complete" ) ));
return KErrNone;
}
// ---------------------------------------------------------------------------
// Adds data for parsing and parses if necessary
// ---------------------------------------------------------------------------
//
EXPORT_C TInt CDunAtCmdHandler::AddDataForParsing( TDesC8& aInput,
TBool& aMoreNeeded )
{
FTRACE(FPrint( _L("CDunAtCmdHandler::AddDataForParsing()") ));
FTRACE(FPrint( _L("CDunAtCmdHandler::AddDataForParsing() received (%d bytes):"), aInput.Length() ));
FTRACE(FPrintRaw(aInput) );
TBool editorMode = iCmdPusher->EditorMode();
if ( editorMode )
{
// Note: return here with "no more data needed" and some error to fool
// CDunUpstream into not reissuing the read request.
iCmdPusher->IssueRequest( aInput, EFalse );
aMoreNeeded = EFalse;
return KErrGeneral;
}
iInput = &aInput; // iInput only for normal mode
// Manage partial AT command
TBool moreNeeded = ManagePartialCommand();
if ( moreNeeded )
{
aMoreNeeded = ETrue;
FTRACE(FPrint( _L("CDunAtCmdHandler::AddDataForParsing() (more partial) complete") ));
return KErrNone;
}
if ( iHandleState != EDunStateIdle )
{
aMoreNeeded = EFalse;
ManageEndOfCmdHandling( EFalse, EFalse );
FTRACE(FPrint( _L("CDunAtCmdHandler::AddDataForParsing() (not ready) complete") ));
return KErrNotReady;
}
TBool pushStarted = HandleASlashCommand();
if ( pushStarted )
{
// Note: return here with "partial input" status to fool CDunUpstream
// into reissuing the read request. The AT command has not really
// started yet so this is necessary.
aMoreNeeded = ETrue;
ManageEndOfCmdHandling( EFalse, EFalse );
FTRACE(FPrint( _L("CDunAtCmdHandler::AddDataForParsing() (A/) complete") ));
return KErrNone;
}
iHandleState = EDunStateAtCmdHandling;
iDecodeInfo.iFirstDecode = ETrue;
iDecodeInfo.iDecodeIndex = 0;
iDecodeInfo.iPrevExists = EFalse;
iParseInfo.iLimit = KErrNotFound;
iParseInfo.iSendBuffer.Zero();
iEditorModeInfo.iContentFound = EFalse;
HandleNextSubCommand();
FTRACE(FPrint( _L("CDunAtCmdHandler::AddDataForParsing() complete") ));
aMoreNeeded = EFalse;
return KErrNone;
}
// ---------------------------------------------------------------------------
// Manages request to abort command handling
// ---------------------------------------------------------------------------
//
EXPORT_C TInt CDunAtCmdHandler::ManageAbortRequest()
{
FTRACE(FPrint( _L("CDunAtCmdHandler::ManageAbortRequest()") ));
// Just forward the request, do no other own processing
TInt retVal = iCmdPusher->ManageAbortRequest();
FTRACE(FPrint( _L("CDunAtCmdHandler::ManageAbortRequest() complete") ));
return retVal;
}
// ---------------------------------------------------------------------------
// Sends a character to be echoed
// ---------------------------------------------------------------------------
//
EXPORT_C TInt CDunAtCmdHandler::SendEchoCharacter( const TDesC8* aInput,
MDunAtCmdEchoer* aCallback )
{
FTRACE(FPrint( _L("CDunAtCmdHandler::SendEchoCharacter()") ));
TInt retVal = iCmdEchoer->SendEchoCharacter( aInput, aCallback );
FTRACE(FPrint( _L("CDunAtCmdHandler::SendEchoCharacter() complete") ));
return retVal;
}
// ---------------------------------------------------------------------------
// Stops sending of AT command from parse buffer
// ---------------------------------------------------------------------------
//
EXPORT_C TInt CDunAtCmdHandler::Stop()
{
FTRACE(FPrint( _L("CDunAtCmdHandler::Stop()") ));
// Only stop iCmdPusher here, not iUrcHandlers!
if ( iHandleState != EDunStateAtCmdHandling )
{
FTRACE(FPrint( _L("CDunAtCmdHandler::Stop() (not ready) complete" )));
return KErrNotReady;
}
iCmdPusher->Stop();
// The line below is used in the case when this function is called by
// CDunUpstream as a result of "data mode ON" change notification.
// In this case it is possible that HandleNextSubCommand() returns
// without resetting the iSendBuffer because of the way it checks the
// iHandleState.
ManageEndOfCmdHandling( ETrue, EFalse );
FTRACE(FPrint( _L("CDunAtCmdHandler::Stop() complete") ));
return KErrNone;
}
// ---------------------------------------------------------------------------
// Starts URC message handling
// ---------------------------------------------------------------------------
//
EXPORT_C TInt CDunAtCmdHandler::StartUrc()
{
FTRACE(FPrint( _L("CDunAtCmdHandler::StartUrc()") ));
TInt i;
TInt count = iUrcHandlers.Count();
for ( i=0; i<count; i++ )
{
TInt retTemp = iUrcHandlers[i]->IssueRequest();
if ( retTemp!=KErrNone && retTemp!=KErrNotReady )
{
FTRACE(FPrint( _L("CDunAtCmdHandler::StartUrc() (ERROR) complete") ));
return retTemp;
}
}
FTRACE(FPrint( _L("CDunAtCmdHandler::StartUrc() complete") ));
return KErrNone;
}
// ---------------------------------------------------------------------------
// Stops URC message handling
// ---------------------------------------------------------------------------
//
EXPORT_C TInt CDunAtCmdHandler::StopUrc()
{
FTRACE(FPrint( _L("CDunAtCmdHandler::StopUrc()") ));
TInt i;
TInt retVal = KErrNone;
TInt count = iUrcHandlers.Count();
for ( i=0; i<count; i++ )
{
retVal = iUrcHandlers[i]->Stop();
}
FTRACE(FPrint( _L("CDunAtCmdHandler::StopUrc() complete") ));
return retVal;
}
// ---------------------------------------------------------------------------
// CDunAtCmdHandler::CDunAtCmdHandler
// ---------------------------------------------------------------------------
//
CDunAtCmdHandler::CDunAtCmdHandler( MDunAtCmdStatusReporter* aUpstream,
MDunStreamManipulator* aDownstream,
const TDesC8* aConnectionName ) :
iUpstream( aUpstream ),
iDownstream( aDownstream ),
iConnectionName( aConnectionName )
{
Initialize();
}
// ---------------------------------------------------------------------------
// CDunAtCmdHandler::ConstructL
// ---------------------------------------------------------------------------
//
void CDunAtCmdHandler::ConstructL()
{
FTRACE(FPrint( _L("CDunAtCmdHandler::ConstructL()") ));
if ( !iUpstream || !iDownstream || !iConnectionName )
{
User::Leave( KErrGeneral );
}
// Connect to AT command extension (must succeed)
TInt retTemp = KErrNone;
CleanupClosePushL( iAtCmdExt );
retTemp = iAtCmdExt.Connect( EDunATExtension, *iConnectionName );
if ( retTemp != KErrNone )
{
FTRACE(FPrint( _L("CDunAtCmdHandler::ConstructL() connect (%d)"), retTemp));
User::Leave( retTemp );
}
CleanupClosePushL( iAtCmdExtCommon );
retTemp = iAtCmdExtCommon.Connect( *iConnectionName );
if ( retTemp != KErrNone )
{
FTRACE(FPrint( _L("CDunAtCmdHandler::ConstructL() common connect (%d)"), retTemp));
User::Leave( retTemp );
}
// Create the array of special commands
CreateSpecialCommandsL();
// Create the plugin handlers
CreatePluginHandlersL();
// Create the echo handler
iCmdEchoer = CDunAtCmdEchoer::NewL( iDownstream );
// Create the listeners
iEcomListen = CDunAtEcomListen::NewL( &iAtCmdExt, this );
iModeListen = CDunAtModeListen::NewL( &iAtCmdExtCommon, this );
iNvramListen = CDunAtNvramListen::NewL( &iAtCmdExt, &iAtCmdExtCommon );
iAtSpecialCmdHandler = CDunAtSpecialCmdHandler::NewL();
// Set the default modes (+report) and characters
GetAndSetDefaultSettingsL();
// Start listening
iEcomListen->IssueRequest();
iModeListen->IssueRequest();
iNvramListen->IssueRequest();
CleanupStack::Pop( &iAtCmdExtCommon );
CleanupStack::Pop( &iAtCmdExt );
FTRACE(FPrint( _L("CDunAtCmdHandler::ConstructL() complete") ));
}
// ---------------------------------------------------------------------------
// Initializes this class
// ---------------------------------------------------------------------------
//
void CDunAtCmdHandler::Initialize()
{
// Don't initialize iUpstream here (it is set through NewL)
// Don't initialize iDownstream here (it is set through NewL)
// Don't initialize iConnectionName here (it is set through NewL)
iHandleState = EDunStateIdle;
iCarriageReturn = 0;
iLineFeed = 0;
iBackspace = 0;
iInput = NULL;
iDecodeInfo.iFirstDecode = ETrue;
iDecodeInfo.iDecodeIndex = KErrNotFound;
iDecodeInfo.iExtendedIndex = KErrNotFound;
iDecodeInfo.iPrevChar = 0;
iDecodeInfo.iPrevExists = EFalse;
iDecodeInfo.iAssignFound = EFalse;
iDecodeInfo.iInQuotes = EFalse;
iDecodeInfo.iSpecialFound = EFalse;
iDecodeInfo.iCmdsHandled = 0;
iEditorModeInfo.iContentFound = EFalse;
iCmdPusher = NULL;
iEcomListen = NULL;
iModeListen = NULL;
iNvramListen = NULL;
iDataMode = EFalse;
iEchoOn = EFalse;
iQuietOn = EFalse;
iVerboseOn = EFalse;
iEndIndex = KErrNotFound;
}
// ---------------------------------------------------------------------------
// Creates plugin handlers for this class
// ---------------------------------------------------------------------------
//
void CDunAtCmdHandler::CreatePluginHandlersL()
{
FTRACE(FPrint( _L("CDunAtCmdHandler::CreatePluginHandlersL()") ));
if ( !iAtCmdExt.Handle() )
{
FTRACE(FPrint( _L("CDunAtCmdHandler::CreatePluginHandlersL() complete") ));
User::Leave( KErrGeneral );
}
// First create the command reply pusher
CDunAtCmdPusher* cmdPusher = CDunAtCmdPusher::NewLC( &iAtCmdExt,
this,
iDownstream,
&iOkBuffer );
// Next create the URC handlers
TInt i;
TInt numOfPlugins = iAtCmdExt.NumberOfPlugins();
for ( i=0; i<numOfPlugins; i++ )
{
AddOneUrcHandlerL();
}
CleanupStack::Pop( cmdPusher );
iCmdPusher = cmdPusher;
FTRACE(FPrint( _L("CDunAtCmdHandler::CreatePluginHandlersL() complete") ));
}
// ---------------------------------------------------------------------------
// Creates an array of special commands
// ---------------------------------------------------------------------------
//
void CDunAtCmdHandler::CreateSpecialCommandsL()
{
FTRACE(FPrint( _L("CDunAtCmdHandler::CreateSpecialCommandsL()") ));
TInt retTemp = KErrNone;
TBool firstSearch = ETrue;
for ( ;; )
{
// Let's borrow iLineBuffer for this purpose
retTemp = iAtCmdExt.GetNextSpecialCommand( iLineBuffer, firstSearch );
if ( retTemp != KErrNone )
{
break;
}
TInt lineLength = iLineBuffer.Length();
HBufC8* specialCmd = HBufC8::NewMaxLC( lineLength );
*specialCmd = iLineBuffer;
iSpecials.AppendL( specialCmd );
CleanupStack::Pop( specialCmd );
}
iLineBuffer.Zero();
FTRACE(FPrint( _L("CDunAtCmdHandler::CreateSpecialCommandsL() complete") ));
}
// ---------------------------------------------------------------------------
// Recreates special command data.
// This is done when a plugin is installed or uninstalled.
// ---------------------------------------------------------------------------
//
TInt CDunAtCmdHandler::RecreateSpecialCommands()
{
FTRACE(FPrint( _L("CDunAtCmdHandler::RecreateSpecialCommands()") ));
iSpecials.ResetAndDestroy();
TRAPD( retTrap, CreateSpecialCommandsL() );
FTRACE(FPrint( _L("CDunAtCmdHandler::RecreateSpecialCommands() complete") ));
return retTrap;
}
// ---------------------------------------------------------------------------
// Gets default settings from RATExtCommon and sets them to RATExt
// ---------------------------------------------------------------------------
//
void CDunAtCmdHandler::GetAndSetDefaultSettingsL()
{
FTRACE(FPrint( _L("CDunAtCmdHandler::GetAndSetDefaultSettingsL()") ));
// Note: Let's assume command mode is off by default
TUint modeSet = GetCurrentModeL( KModeEcho | KModeQuiet | KModeVerbose );
iEchoOn = ( modeSet & KEchoModeBase ) ? ETrue : EFalse;
iQuietOn = ( modeSet & KQuietModeBase ) ? ETrue : EFalse;
iVerboseOn = ( modeSet & KVerboseModeBase ) ? ETrue : EFalse;
iCarriageReturn = GetCurrentModeL( KModeCarriage );
iLineFeed = GetCurrentModeL( KModeLineFeed );
iBackspace = GetCurrentModeL( KModeBackspace );
iAtCmdExt.ReportQuietModeChange( iQuietOn );
iAtCmdExt.ReportVerboseModeChange( iVerboseOn );
iAtCmdExt.ReportCharacterChange( ECharTypeCarriage, iCarriageReturn );
iAtCmdExt.ReportCharacterChange( ECharTypeLineFeed, iLineFeed );
iAtCmdExt.ReportCharacterChange( ECharTypeBackspace, iBackspace );
RegenerateReplyStrings();
FTRACE(FPrint( _L("CDunAtCmdHandler::GetAndSetDefaultSettingsL() settings: E=%d, Q=%d, V=%d"), iEchoOn, iQuietOn, iVerboseOn ));
FTRACE(FPrint( _L("CDunAtCmdHandler::GetAndSetDefaultSettingsL() settings: CR=%u, LF=%u, BS=%u"), iCarriageReturn, iLineFeed, iBackspace ));
FTRACE(FPrint( _L("CDunAtCmdHandler::GetAndSetDefaultSettingsL() complete") ));
}
// ---------------------------------------------------------------------------
// Regenerates the reply strings based on settings
// ---------------------------------------------------------------------------
//
TBool CDunAtCmdHandler::RegenerateReplyStrings()
{
FTRACE(FPrint( _L("CDunAtCmdHandler::RegenerateReplyStrings()") ));
TBool retVal = EFalse;
retVal |= RegenerateOkReply();
retVal |= RegenerateErrorReply();
FTRACE(FPrint( _L("CDunAtCmdHandler::RegenerateReplyStrings() complete") ));
return retVal;
}
// ---------------------------------------------------------------------------
// Regenerates the ok reply based on settings
// ---------------------------------------------------------------------------
//
TBool CDunAtCmdHandler::RegenerateOkReply()
{
FTRACE(FPrint( _L("CDunAtCmdHandler::RegenerateOkReply()") ));
if ( iDownstream->IsDataInQueue(&iOkBuffer) )
{
FTRACE(FPrint( _L("CDunAtCmdHandler::RegenerateOkReply() (in queue!) complete") ));
return iQuietOn;
}
iOkBuffer.Zero();
if ( iQuietOn )
{
FTRACE(FPrint( _L("CDunAtCmdHandler::RegenerateOkReply() (quiet) complete") ));
return ETrue;
}
if ( iVerboseOn )
{
_LIT8( KVerboseOk, "OK" );
iOkBuffer.Append( iCarriageReturn );
iOkBuffer.Append( iLineFeed );
iOkBuffer.Append( KVerboseOk );
iOkBuffer.Append( iCarriageReturn );
iOkBuffer.Append( iLineFeed );
}
else
{
_LIT8( KNumericOk, "0" );
iOkBuffer.Append( KNumericOk );
iOkBuffer.Append( iCarriageReturn );
}
FTRACE(FPrint( _L("CDunAtCmdHandler::RegenerateOkReply() complete") ));
return EFalse;
}
// ---------------------------------------------------------------------------
// Regenerates the error reply based on settings
// ---------------------------------------------------------------------------
//
TBool CDunAtCmdHandler::RegenerateErrorReply()
{
FTRACE(FPrint( _L("CDunAtCmdHandler::RegenerateErrorReply()") ));
if ( iDownstream->IsDataInQueue(&iErrorBuffer) )
{
FTRACE(FPrint( _L("CDunAtCmdHandler::RegenerateErrorReply() (in queue!) complete") ));
return iQuietOn;
}
iErrorBuffer.Zero();
if ( iQuietOn )
{
FTRACE(FPrint( _L("CDunAtCmdHandler::RegenerateErrorReply() (quiet) complete") ));
return ETrue;
}
if ( iVerboseOn )
{
_LIT8( KVerboseError, "ERROR" );
iErrorBuffer.Append( iCarriageReturn );
iErrorBuffer.Append( iLineFeed );
iErrorBuffer.Append( KVerboseError );
iErrorBuffer.Append( iCarriageReturn );
iErrorBuffer.Append( iLineFeed );
}
else
{
_LIT8( KNumericError, "4" );
iErrorBuffer.Append( KNumericError );
iErrorBuffer.Append( iCarriageReturn );
}
FTRACE(FPrint( _L("CDunAtCmdHandler::RegenerateErrorReply() complete") ));
return EFalse;
}
// ---------------------------------------------------------------------------
// Gets current mode
// ---------------------------------------------------------------------------
//
TUint CDunAtCmdHandler::GetCurrentModeL( TUint aMask )
{
FTRACE(FPrint( _L("CDunAtCmdHandler::GetCurrentModeL()") ));
TUint maskCheck = aMask & ( ~KSupportedModes );
if ( maskCheck != 0 )
{
FTRACE(FPrint( _L("CDunAtCmdHandler::GetCurrentModeL() (not supported) complete") ));
User::Leave( KErrNotSupported );
}
TUint newMode = 0;
TInt retTemp = iAtCmdExtCommon.GetMode( aMask, newMode );
if ( retTemp != KErrNone )
{
FTRACE(FPrint( _L("CDunAtCmdHandler::GetCurrentModeL() (ERROR) complete") ));
User::Leave( retTemp );
}
FTRACE(FPrint( _L("CDunAtCmdHandler::GetCurrentModeL() complete") ));
return newMode & (KModeChanged-1);
}
// ---------------------------------------------------------------------------
// Instantiates one URC message handling class instance and adds it to the URC
// message handler array
// ---------------------------------------------------------------------------
//
CDunAtUrcHandler* CDunAtCmdHandler::AddOneUrcHandlerL()
{
FTRACE(FPrint( _L("CDunAtCmdHandler::AddOneUrcHandlerL()") ));
CDunAtUrcHandler* urcHandler = CDunAtUrcHandler::NewLC( &iAtCmdExt,
iDownstream );
iUrcHandlers.AppendL( urcHandler );
CleanupStack::Pop( urcHandler );
FTRACE(FPrint( _L("CDunAtCmdHandler::AddOneUrcHandlerL() complete") ));
return urcHandler;
}
// ---------------------------------------------------------------------------
// Deletes all instantiated URC message handlers
// ---------------------------------------------------------------------------
//
void CDunAtCmdHandler::DeletePluginHandlers()
{
FTRACE(FPrint( _L("CDunAtCmdHandler::DeletePluginHandlers()") ));
delete iCmdPusher;
iCmdPusher = NULL;
TInt i;
TInt count = iUrcHandlers.Count();
for ( i=0; i<count; i++ )
{
delete iUrcHandlers[i];
iUrcHandlers[i] = NULL;
}
iUrcHandlers.Reset();
iUrcHandlers.Close();
FTRACE(FPrint( _L("CDunAtCmdHandler::DeletePluginHandlers() complete") ));
}
// ---------------------------------------------------------------------------
// Manages partial AT command
// ---------------------------------------------------------------------------
//
TBool CDunAtCmdHandler::ManagePartialCommand()
{
FTRACE(FPrint( _L("CDunAtCmdHandler::ManagePartialCommand()") ));
// Check one character (or unit) based input data
if ( iInput->Length() == KDunChSetMaxCharLen )
{
EchoCommand();
// Handle backspace and cancel characters
TBool found = HandleSpecialCharacters();
if ( found )
{
FTRACE(FPrint( _L("CDunAtCmdHandler::ManagePartialCommand() (special) complete") ));
return ETrue;
}
}
TBool moreNeeded = ExtractLineFromInputBuffer();
if ( moreNeeded )
{
// More data is not needed with "A/" (no carriage return), check that
// special case here, otherwise continue processing
if ( !IsASlashCommand() )
{
FTRACE(FPrint( _L("CDunAtCmdHandler::ManagePartialCommand() (more) complete") ));
return ETrue;
}
}
// If something went wrong, do nothing (return consumed)
if ( iLineBuffer.Length() <= 0 )
{
FTRACE(FPrint( _L("CDunAtCmdHandler::ManagePartialCommand() (length) complete") ));
return ETrue;
}
// For other commands, just return with consumed
FTRACE(FPrint( _L("CDunAtCmdHandler::ManagePartialCommand() complete") ));
return EFalse;
}
// ---------------------------------------------------------------------------
// Echoes a command if echo is on
// ---------------------------------------------------------------------------
//
TBool CDunAtCmdHandler::EchoCommand()
{
FTRACE(FPrint( _L("CDunAtCmdHandler::EchoCommand()") ));
if ( iInput->Length() > KDunChSetMaxCharLen )
{
FTRACE(FPrint( _L("CDunAtCmdHandler::EchoCommand() (wrong length) complete") ));
return EFalse;
}
if ( iEchoOn )
{
if ( iDownstream->IsDataInQueue(&iEchoBuffer) )
{
FTRACE(FPrint( _L("CDunAtCmdHandler::EchoCommand() (in queue!) complete") ));
return EFalse;
}
iEchoBuffer.Copy( *iInput );
iDownstream->NotifyDataPushRequest( &iEchoBuffer, NULL );
FTRACE(FPrint( _L("CDunAtCmdHandler::EchoCommand() complete") ));
return ETrue;
}
FTRACE(FPrint( _L("CDunAtCmdHandler::EchoCommand() (not started) complete") ));
return EFalse;
}
// ---------------------------------------------------------------------------
// Handles backspace and cancel characters
// ---------------------------------------------------------------------------
//
TBool CDunAtCmdHandler::HandleSpecialCharacters()
{
FTRACE(FPrint( _L("CDunAtCmdHandler::HandleSpecialCharacters()") ));
if ( iInput->Length() != KDunChSetMaxCharLen )
{
FTRACE(FPrint( _L("CDunAtCmdHandler::HandleSpecialCharacters() (wrong length) complete") ));
return EFalse;
}
if ( (*iInput)[0] == iBackspace )
{
TInt lineLength = iLineBuffer.Length();
if ( lineLength > 0 )
{
iLineBuffer.SetLength( lineLength-1 );
}
FTRACE(FPrint( _L("CDunAtCmdHandler::HandleSpecialCharacters() (backspace) complete") ));
return ETrue;
}
if ( (*iInput)[0] == KDunCancel )
{
ManageEndOfCmdHandling( EFalse, EFalse );
FTRACE(FPrint( _L("CDunAtCmdHandler::HandleSpecialCharacters() (cancel) complete") ));
return ETrue;
}
FTRACE(FPrint( _L("CDunAtCmdHandler::HandleSpecialCharacters() complete") ));
return EFalse;
}
// ---------------------------------------------------------------------------
// Extracts line from input buffer to line buffer
// ---------------------------------------------------------------------------
//
TBool CDunAtCmdHandler::ExtractLineFromInputBuffer()
{
FTRACE(FPrint( _L("CDunAtCmdHandler::ExtractLineFromInputBuffer()") ));
FTRACE(FPrint( _L("CDunAtCmdHandler::ExtractLineFromInputBuffer() before (%d bytes):"), iLineBuffer.Length() ));
FTRACE(FPrintRaw(iLineBuffer) );
// Case1: If no data in iLineBuffer and end-of-line character in iInputBuffer[start]:
// - Skip end-of-line characters, find start-of-line condition, find end-of-line character
// - If partial line found (start-of-line condition and no end-of-line character):
// - Save partial line to iLineBuffer
// - Set iEndIndex to end of iInputBuffer
// - If full line found (start-of-line condition and end-of-line character):
// - Save full line to iLineBuffer
// - Skip multiple end-of-line characters until next start-of-line
// condition or end of iInputBuffer -> save this position to iEndIndex
// Case2: If no data in iLineBuffer and non-end-of-line character in iInputBuffer[start]:
// - Find end-of-line character
// - If partial line found (no end-of-line character):
// - Save partial line to iLineBuffer
// - Set iEndIndex to end of iLineBuffer
// - If full line found (end-of-line character):
// - Save full line to iLineBuffer
// - Skip multiple end-of-line characters until next start-of-line
// condition or end of iInputBuffer -> save this position to iEndIndex
// Case3: If data in iLineBuffer and end-of-line character in iInputBuffer[start]:
// - Skip end-of-line characters
// - Keep string currently in iLineBuffer
// - Skip end-of-line characters until non-end-of-line or end of
// iInputBuffer -> save this position to iEndIndex
// Case4: If data in iLineBuffer and non-end-of-line character in iInputBuffer[start]:
// - Processed the same way as Case1, however "Skip end-of-line characters" does
// not have any effect
if ( iInput->Length() <= 0 )
{
FTRACE(FPrint( _L("CDunAtCmdHandler::ExtractLineFromInputBuffer() (wrong length) complete") ));
return ETrue;
}
TBool moreNeeded = ETrue;
TBool copyNeeded = EFalse;
TInt copyLength = KErrNotFound;
TInt lineLength = iLineBuffer.Length();
TInt lineMaxLength = iLineBuffer.MaxLength();
TInt freeLineSpace = lineMaxLength - lineLength;
TInt inputLength = iInput->Length();
TInt startIndex = ( iEndIndex>=0 ) ? iEndIndex : 0;
if ( startIndex >= inputLength )
{
iEndIndex = KErrNotFound;
FTRACE(FPrint( _L("CDunAtCmdHandler::ExtractLineFromInputBuffer() (input end) complete") ));
return ETrue;
}
// Cases here:
// Case1: If no data in iLineBuffer and end-of-line character in iInputBuffer[start]
// Case2: If no data in iLineBuffer and non-end-of-line character in iInputBuffer[start]
// Case3: If data in iLineBuffer and end-of-line character in iInputBuffer[start]
// Case4: If data in iLineBuffer and non-end-of-line character in iInputBuffer[start]
// Summary: Cases 1, 2 and 4 can be combined. Case 3 needs a separate check.
TChar character = (*iInput)[startIndex];
TBool endOfLine = IsEndOfLine(character);
if ( lineLength>0 && endOfLine )
{
moreNeeded = HandleSpecialBufferManagement( startIndex,
copyLength,
copyNeeded );
}
else
{
moreNeeded = HandleGenericBufferManagement( startIndex,
copyLength,
copyNeeded );
}
if ( copyNeeded && copyLength>0 )
{
// Check the case copyLength does not fit to iLineBuffer
// This case should be handled by returning "more data needed"
// Also reset the iLineBuffer to ensure the handling doesn't stuck
// for rest of the commands (usability case)
if ( copyLength > freeLineSpace )
{
iLineBuffer.Zero();
iEndIndex = KErrNotFound;
FTRACE(FPrint( _L("CDunAtCmdHandler::ExtractLineFromInputBuffer() after (%d bytes):"), iLineBuffer.Length() ));
FTRACE(FPrintRaw(iLineBuffer) );
FTRACE(FPrint( _L("CDunAtCmdHandler::ExtractLineFromInputBuffer() (overflow) complete") ));
return ETrue;
}
iLineBuffer.Append( &(*iInput)[startIndex], copyLength );
FTRACE(FPrint( _L("CDunAtCmdHandler::ExtractLineFromInputBuffer() after (%d bytes):"), iLineBuffer.Length() ));
FTRACE(FPrintRaw(iLineBuffer) );
}
if ( moreNeeded )
{
iEndIndex = KErrNotFound;
FTRACE(FPrint( _L("CDunAtCmdHandler::ExtractLineFromInputBuffer() (more needed) complete") ));
return ETrue;
}
// As a last step adjust the possible multiple IsDelimiterCharacter()
// characters and set length of iLineBuffer. Leave iEndIndex untouched.
lineLength = iLineBuffer.Length();
for ( TInt i=lineLength-1; i>=0; i-- )
{
TChar character = iLineBuffer[i];
if ( !IsDelimiterCharacter(character) )
{
iLineBuffer.SetLength( i + 1 );
FTRACE(FPrint( _L("CDunAtCmdHandler::ExtractLineFromInputBuffer() after (%d bytes):"), iLineBuffer.Length() ));
FTRACE(FPrintRaw(iLineBuffer) );
break;
}
}
FTRACE(FPrint( _L("CDunAtCmdHandler::ExtractLineFromInputBuffer() (line found) complete") ));
return EFalse;
}
// ---------------------------------------------------------------------------
// Handles generic buffer management
// (explanation in ExtractLineFromInputBuffer())
// ---------------------------------------------------------------------------
//
TBool CDunAtCmdHandler::HandleGenericBufferManagement( TInt& aStartIndex,
TInt& aCopyLength,
TBool& aCopyNeeded )
{
FTRACE(FPrint( _L("CDunAtCmdHandler::HandleGenericBufferManagement()") ));
TInt inputLength = iInput->Length();
TInt currentIndex = SkipEndOfLineCharacters( aStartIndex );
if ( currentIndex >= inputLength )
{
// No data in iLineBuffer and only end-of-lines in new buffer
// return with "need more data"
iEndIndex = inputLength;
aCopyLength = 0;
aCopyNeeded = EFalse;
FTRACE(FPrint( _L("CDunAtCmdHandler::HandleGenericBufferManagement() (new end for old no data) complete") ));
return ETrue;
}
// No data in iLineBuffer and non-end-of-line character found
// Try to find the first start-of-line condition
TInt lineLength = iLineBuffer.Length();
if ( lineLength == 0 )
{
currentIndex = SkipSubCommandDelimiterCharacters( aStartIndex );
if ( currentIndex >= inputLength )
{
// No data in iLineBuffer and only end-of-lines+delimiter in new buffer
// return with "need more data"
iEndIndex = inputLength;
aCopyLength = 0;
aCopyNeeded = EFalse;
FTRACE(FPrint( _L("CDunAtCmdHandler::HandleGenericBufferManagement() (new end+delim for old no data) complete") ));
return ETrue;
}
}
aStartIndex = currentIndex;
// No data in iLineBuffer and other than end-of-line or delimiter character found
// Variable currentIndex is now the start of new command
// Next try to find the end of the command
TInt endIndex = FindEndOfLine( aStartIndex );
if ( endIndex >= inputLength )
{
// No data in iLineBuffer and start of command found without end
// return with "need more data"
iEndIndex = inputLength;
aCopyLength = inputLength - aStartIndex;
aCopyNeeded = ETrue;
FTRACE(FPrint( _L("CDunAtCmdHandler::HandleGenericBufferManagement() (start but no end for old no data) complete") ));
return ETrue;
}
// No data in iLineBuffer and end-of-line character found
// Try to skip possible multiple end-of-line characters
currentIndex = SkipEndOfLineCharacters( endIndex );
// Variable currentIndex is now either start of next command or end of iInput
// Note that this requires that Case 2 must skip the possible IsDelimiterCharacter()s
iEndIndex = currentIndex;
aCopyLength = endIndex - aStartIndex;
aCopyNeeded = ETrue;
FTRACE(FPrint( _L("CDunAtCmdHandler::HandleGenericBufferManagement() (line found) complete") ));
return EFalse;
}
// ---------------------------------------------------------------------------
// Handles special buffer management
// (explanation in ExtractLineFromInputBuffer())
// ---------------------------------------------------------------------------
//
TBool CDunAtCmdHandler::HandleSpecialBufferManagement( TInt aStartIndex,
TInt& aCopyLength,
TBool& aCopyNeeded )
{
FTRACE(FPrint( _L("CDunAtCmdHandler::HandleSpecialBufferManagement()") ));
TInt currentIndex = SkipEndOfLineCharacters( aStartIndex );
// Variable currentIndex is now either start of next command or end of iInput
iEndIndex = currentIndex;
aCopyLength = 0;
aCopyNeeded = EFalse;
FTRACE(FPrint( _L("CDunAtCmdHandler::HandleSpecialBufferManagement() complete") ));
return EFalse;
}
// ---------------------------------------------------------------------------
// Skips end-of-line characters
// ---------------------------------------------------------------------------
//
TInt CDunAtCmdHandler::SkipEndOfLineCharacters( TInt aStartIndex )
{
FTRACE(FPrint( _L("CDunAtCmdHandler::SkipEndOfLineCharacters()") ));
TInt foundIndex = iInput->Length();
TInt inputLength = foundIndex;
for ( TInt i=aStartIndex; i<inputLength; i++ )
{
TChar character = (*iInput)[i];
if ( !IsEndOfLine(character) )
{
foundIndex = i;
break;
}
}
FTRACE(FPrint( _L("CDunAtCmdHandler::SkipEndOfLineCharacters() complete") ));
return foundIndex;
}
// ---------------------------------------------------------------------------
// Skips subcommand delimiter characters
// ---------------------------------------------------------------------------
//
TInt CDunAtCmdHandler::SkipSubCommandDelimiterCharacters( TInt aStartIndex )
{
FTRACE(FPrint( _L("CDunAtCmdHandler::SkipSubCommandDelimiterCharacters()") ));
TInt inputLength = iInput->Length();
TInt foundIndex = inputLength;
for ( TInt i=aStartIndex; i<inputLength; i++ )
{
TChar character = (*iInput)[i];
if ( !IsDelimiterCharacter(character) )
{
foundIndex = i;
break;
}
}
FTRACE(FPrint( _L("CDunAtCmdHandler::SkipSubCommandDelimiterCharacters() complete") ));
return foundIndex;
}
// ---------------------------------------------------------------------------
// Finds the end of the line
// ---------------------------------------------------------------------------
//
TInt CDunAtCmdHandler::FindEndOfLine( TInt aStartIndex )
{
FTRACE(FPrint( _L("CDunAtCmdHandler::FindEndOfLine()") ));
TInt inputLength = iInput->Length();
TInt foundIndex = inputLength;
for ( TInt i=aStartIndex; i<inputLength; i++ )
{
TChar character = (*iInput)[i];
// Checking for IsDelimiterCharacter() here needs more logic (a parser).
// Just check with "IsEndOfLine()"
if ( IsEndOfLine(character) )
{
foundIndex = i;
break;
}
}
FTRACE(FPrint( _L("CDunAtCmdHandler::FindEndOfLine() complete") ));
return foundIndex;
}
// ---------------------------------------------------------------------------
// Handles next subcommand from line buffer
// ---------------------------------------------------------------------------
//
TBool CDunAtCmdHandler::HandleNextSubCommand()
{
FTRACE(FPrint( _L("CDunAtCmdHandler::HandleNextSubCommand()") ));
if ( iHandleState != EDunStateAtCmdHandling )
{
FTRACE(FPrint( _L("CDunAtCmdHandler::HandleNextSubCommand() (not ready) complete") ));
return EFalse;
}
TBool extracted = ExtractNextSubCommand();
if ( !extracted )
{
ManageEndOfCmdHandling( ETrue, ETrue );
FTRACE(FPrint( _L("CDunAtCmdHandler::HandleNextSubCommand() (last) complete") ));
return EFalse;
}
// Next convert the decoded AT command to uppercase
// Don't check for case status -> let mixed cases pass
TInt oldLength = iParseInfo.iSendBuffer.Length();
iParseInfo.iSendBuffer.SetLength( iParseInfo.iLimit );
iParseInfo.iSendBuffer.UpperCase();
iParseInfo.iSendBuffer.SetLength( oldLength );
// Next always send the command to ATEXT
iCmdPusher->IssueRequest( iParseInfo.iSendBuffer );
FTRACE(FPrint( _L("CDunAtCmdHandler::HandleNextSubCommand() complete") ));
return ETrue;
}
// ---------------------------------------------------------------------------
// Manages end of AT command handling
// ---------------------------------------------------------------------------
//
void CDunAtCmdHandler::ManageEndOfCmdHandling( TBool aNotifyLocal,
TBool aNotifyExternal )
{
FTRACE(FPrint( _L("CDunAtCmdHandler::ManageEndOfCmdHandling()") ));
FTRACE(FPrint( _L("CDunAtCmdHandler::ManageEndOfCmdHandling() (loc=%d, ext=%d)"), aNotifyLocal, aNotifyExternal ));
// If iEndIndex is (>=0 && <iInput.Length()) it means more data waits in
// iInput that didn't fit in iInputBuffer.
TInt cmdLength = iInput->Length();
TBool subBlock = ( iEndIndex>=0&&iEndIndex<cmdLength ) ? ETrue : EFalse;
if ( iLineBuffer.Length()>0 && !subBlock )
{
// Line buffer set and no partial subblock, copy to lastbuffer
iLastBuffer.Copy( iLineBuffer );
}
iLineBuffer.Zero();
iDecodeInfo.iFirstDecode = ETrue;
iDecodeInfo.iDecodeIndex = 0;
iDecodeInfo.iPrevExists = EFalse;
iParseInfo.iLimit = KErrNotFound;
iParseInfo.iSendBuffer.Zero();
iEditorModeInfo.iContentFound = EFalse;
iHandleState = EDunStateIdle;
if ( aNotifyLocal )
{
iCmdPusher->SetEndOfCmdLine();
}
// iEndIndex must not be reset to KErrNotFound only when
// ExtractLineFromInputBuffer() found the next line
// (when moreNeeded is EFalse)
TBool resetIndex = ETrue;
if ( aNotifyExternal )
{
TBool moreNeeded = ExtractLineFromInputBuffer();
if ( moreNeeded )
{
iUpstream->NotifyParserNeedsMoreData();
}
else
{
// AppendBlockToInputBuffer() was able to fill with known end, handle next
iHandleState = EDunStateAtCmdHandling;
HandleNextSubCommand();
resetIndex = EFalse;
}
}
if ( resetIndex )
{
iEndIndex = KErrNotFound;
}
FTRACE(FPrint( _L("CDunAtCmdHandler::ManageEndOfCmdHandling() complete") ));
}
// ---------------------------------------------------------------------------
// Extracts next subcommand from line buffer to send buffer
// ---------------------------------------------------------------------------
//
TBool CDunAtCmdHandler::ExtractNextSubCommand( TBool aPeek )
{
FTRACE(FPrint( _L("CDunAtCmdHandler::ExtractNextSubCommand()") ));
TDunDecodeInfo oldInfo = iDecodeInfo;
iParseInfo.iLimit = KErrNotFound;
iParseInfo.iSendBuffer.Zero();
// Find start of subcommand from line buffer
TInt startIndex = FindStartOfSubCommand();
if ( startIndex < 0 )
{
RestoreOldDecodeInfo( aPeek, oldInfo );
FTRACE(FPrint( _L("CDunAtCmdHandler::ExtractNextDecodedCommand() (no start) complete") ));
return EFalse;
}
iDecodeInfo.iDecodeIndex = startIndex;
TBool specialCmd = EFalse;
TInt endIndex = KErrNotFound;
specialCmd = CheckSpecialCommand( endIndex );
if ( !specialCmd )
{
FindSubCommand( endIndex );
}
TInt lineLength = iLineBuffer.Length();
TBool inStartLimits = ( startIndex >= 0 && startIndex < lineLength ) ? ETrue : EFalse;
TBool inEndLimits = ( endIndex >= 0 && endIndex < lineLength ) ? ETrue : EFalse;
if ( !inStartLimits || !inEndLimits )
{
RestoreOldDecodeInfo( aPeek, oldInfo );
FTRACE(FPrint( _L("CDunAtCmdHandler::ExtractNextSubCommand() (no end) complete") ));
return EFalse;
}
TInt cmdLength = endIndex - startIndex + 1;
// If the limit was not already set then do it now
if ( iParseInfo.iLimit < 0 )
{
iParseInfo.iLimit = cmdLength;
}
// Next create a new command
if ( !iDecodeInfo.iFirstDecode )
{
_LIT( KAtPrefix, "AT" );
iParseInfo.iSendBuffer.Append( KAtPrefix );
if ( !specialCmd ) // Already added with CheckSpecialCommand()
{
iParseInfo.iLimit += 2; // Length of "AT"
}
// Note: The length of iDecodeBuffer is not exceeded here because "AT"
// is added only for the second commands after that.
}
iParseInfo.iSendBuffer.Append( &iLineBuffer[startIndex], cmdLength );
// Change settings for the next decode round
iDecodeInfo.iFirstDecode = EFalse;
iDecodeInfo.iDecodeIndex = endIndex + 1;
RestoreOldDecodeInfo( aPeek, oldInfo );
if ( !aPeek )
{
iDecodeInfo.iCmdsHandled++;
FTRACE(FPrint( _L("CDunAtCmdHandler::ExtractNextSubCommand() (handled=%d)"), iDecodeInfo.iCmdsHandled ));
}
FTRACE(FPrint( _L("CDunAtCmdHandler::ExtractNextSubCommand() complete") ));
return ETrue;
}
// ---------------------------------------------------------------------------
// Finds the start of subcommand from line buffer
// ---------------------------------------------------------------------------
//
TBool CDunAtCmdHandler::FindStartOfSubCommand()
{
FTRACE(FPrint( _L("CDunAtCmdHandler::FindStartOfSubCommand()") ));
TInt i;
TInt foundIndex = KErrNotFound;
TInt lineLength = iLineBuffer.Length();
for ( i=iDecodeInfo.iDecodeIndex; i<lineLength; i++ )
{
TChar character = iLineBuffer[i];
if ( !IsDelimiterCharacter(character) )
{
foundIndex = i;
break;
}
}
FTRACE(FPrint( _L("CDunAtCmdHandler::FindStartOfSubCommand() complete") ));
return foundIndex;
}
// ---------------------------------------------------------------------------
// Restores old decode info. For ExtractNextDecodedCommand() when aPeeks is
// ETrue.
// ---------------------------------------------------------------------------
//
void CDunAtCmdHandler::RestoreOldDecodeInfo( TBool aPeek,
TDunDecodeInfo& aOldInfo )
{
FTRACE(FPrint( _L("CDunAtCmdHandler::RestoreOldDecodeInfo()") ));
if ( aPeek )
{
iEditorModeInfo.iPeekInfo = iDecodeInfo;
iDecodeInfo = aOldInfo;
}
FTRACE(FPrint( _L("CDunAtCmdHandler::RestoreOldDecodeInfo() complete") ));
}
// ---------------------------------------------------------------------------
// Tests for end of AT command line
// ---------------------------------------------------------------------------
//
TBool CDunAtCmdHandler::IsEndOfLine( TChar& aCharacter )
{
FTRACE(FPrint( _L("CDunAtCmdHandler::IsEndOfCommand()") ));
if ( aCharacter==iCarriageReturn || aCharacter==iLineFeed )
{
FTRACE(FPrint( _L("CDunAtCmdHandler::IsEndOfCommand() (found) complete") ));
return ETrue;
}
FTRACE(FPrint( _L("CDunAtCmdHandler::IsEndOfCommand() (not found) complete") ));
return EFalse;
}
// ---------------------------------------------------------------------------
// Checks if character is delimiter character
// ---------------------------------------------------------------------------
//
TBool CDunAtCmdHandler::IsDelimiterCharacter( TChar aCharacter )
{
FTRACE(FPrint( _L("CDunAtCmdHandler::IsDelimiterCharacter()") ));
if ( aCharacter.IsSpace() || aCharacter==';' || aCharacter==0x00 )
{
FTRACE(FPrint( _L("CDunAtCmdHandler::IsDelimiterCharacter() complete") ));
return ETrue;
}
FTRACE(FPrint( _L("CDunAtCmdHandler::IsDelimiterCharacter() (not delimiter) complete") ));
return EFalse;
}
// ---------------------------------------------------------------------------
// Checks if character is of extended group
// ---------------------------------------------------------------------------
//
TBool CDunAtCmdHandler::IsExtendedCharacter( TChar aCharacter )
{
FTRACE(FPrint( _L("CDunAtCmdHandler::IsExtendedCharacter()") ));
if ( aCharacter=='+' || aCharacter=='&' || aCharacter=='%' ||
aCharacter=='\\' || aCharacter=='*' || aCharacter=='#' ||
aCharacter=='$' || aCharacter=='^' )
{
FTRACE(FPrint( _L("CDunAtCmdHandler::IsExtendedCharacter() complete") ));
return ETrue;
}
FTRACE(FPrint( _L("CDunAtCmdHandler::IsExtendedCharacter() (not extended) complete") ));
return EFalse;
}
// ---------------------------------------------------------------------------
// Checks special command
// ---------------------------------------------------------------------------
//
TBool CDunAtCmdHandler::CheckSpecialCommand( TInt& aEndIndex )
{
FTRACE(FPrint( _L("CDunAtCmdHandler::CheckSpecialCommand()") ));
TInt atPrefixLen = 0;
TInt startIndex = iDecodeInfo.iDecodeIndex;
TInt newLength = iLineBuffer.Length() - startIndex;
TBuf8<KDunLineBufLength> upperBuf;
if ( !iDecodeInfo.iFirstDecode )
{
// For cases such as "ATM1L3DT*99#" "DT" must have "AT"
_LIT8( KAtPrefix, "AT" );
upperBuf.Copy( KAtPrefix );
atPrefixLen = 2; // "AT"
newLength += atPrefixLen;
}
upperBuf.Append( &iLineBuffer[startIndex], newLength );
upperBuf.UpperCase();
TInt i;
TInt count = iSpecials.Count();
for ( i=0; i<count; i++ )
{
HBufC8* specialCmd = iSpecials[i];
TInt specialLength = specialCmd->Length();
if ( newLength < specialLength )
{
continue;
}
TInt origLength = newLength;
if ( newLength > specialLength )
{
upperBuf.SetLength( specialLength );
}
TInt cmpResult = upperBuf.Compare( *specialCmd );
upperBuf.SetLength( origLength );
if ( cmpResult == 0 )
{
iParseInfo.iLimit = specialLength;
aEndIndex = (origLength-1) + startIndex - atPrefixLen;
FTRACE(FPrint( _L("CDunAtCmdHandler::CheckSpecialCommand() complete") ));
return ETrue;
}
}
FTRACE(FPrint( _L("CDunAtCmdHandler::CheckSpecialCommand() (not found) complete") ));
return EFalse;
}
// ---------------------------------------------------------------------------
// Saves character decode state for a found character
// ---------------------------------------------------------------------------
//
void CDunAtCmdHandler::SaveFoundCharDecodeState( TChar aCharacter,
TBool aAddSpecial )
{
FTRACE(FPrint( _L("CDunAtCmdHandler::SaveFoundCharDecodeState()") ));
iDecodeInfo.iPrevExists = ETrue;
iDecodeInfo.iPrevChar = aCharacter;
if ( aAddSpecial )
{
iDecodeInfo.iSpecialFound =
iAtSpecialCmdHandler->IsCompleteSubCommand( aCharacter );
}
FTRACE(FPrint( _L("CDunAtCmdHandler::SaveFoundCharDecodeState() complete") ));
}
// ---------------------------------------------------------------------------
// Saves character decode state for a not found character
// ---------------------------------------------------------------------------
//
void CDunAtCmdHandler::SaveNotFoundCharDecodeState()
{
FTRACE(FPrint( _L("CDunAtCmdHandler::SaveNotFoundCharDecodeState()") ));
iDecodeInfo.iPrevExists = EFalse;
// Note: don't set iAssignFound or iInQuotes here
iDecodeInfo.iSpecialFound = EFalse;
FTRACE(FPrint( _L("CDunAtCmdHandler::SaveNotFoundCharDecodeState() complete") ));
}
// ---------------------------------------------------------------------------
// Find quotes within subcommands
// ---------------------------------------------------------------------------
//
TBool CDunAtCmdHandler::FindSubCommandQuotes( TChar aCharacter,
TInt aStartIndex,
TInt& aEndIndex )
{
FTRACE(FPrint( _L("CDunAtCmdHandler::FindSubCommandQuotes()") ));
if ( aCharacter == '"' )
{
if ( iParseInfo.iLimit < 0 ) // Only first the first '"'
{
iParseInfo.iLimit = aEndIndex - aStartIndex;
}
iDecodeInfo.iInQuotes ^= ETrue; // EFalse to ETrue or ETrue to EFalse
SaveFoundCharDecodeState( aCharacter, EFalse );
FTRACE(FPrint( _L("CDunAtCmdHandler::FindSubCommandQuotes() (quote) complete") ));
return ETrue;
}
// The next ones are those that are not in quotes.
// We still need to save the iParseInfo.iLimit and skip non-delimiter characters.
if ( aCharacter == '=' )
{
if ( iParseInfo.iLimit < 0 ) // Only first the first '"'
{
iParseInfo.iLimit = aEndIndex - aStartIndex;
}
iDecodeInfo.iAssignFound = ETrue;
SaveFoundCharDecodeState( aCharacter, EFalse );
FTRACE(FPrint( _L("CDunAtCmdHandler::FindSubCommandQuotes() (equals) complete") ));
return ETrue;
}
if ( iDecodeInfo.iInQuotes )
{
SaveNotFoundCharDecodeState();
FTRACE(FPrint( _L("CDunAtCmdHandler::FindSubCommandQuotes() (in quotes) complete") ));
return ETrue;
}
FTRACE(FPrint( _L("CDunAtCmdHandler::FindSubCommandQuotes() (not found) complete") ));
return EFalse;
}
// ---------------------------------------------------------------------------
// Check if in next subcommand's extended border
// ---------------------------------------------------------------------------
//
TBool CDunAtCmdHandler::IsExtendedBorder( TChar aCharacter,
TInt aStartIndex,
TInt& aEndIndex )
{
FTRACE(FPrint( _L("CDunAtCmdHandler::IsExtendedBorder()") ));
TInt expectedIndex = 0; // "+CMD" when iDecodeInfo.iFirstDecode is EFalse
TInt extendedIndex = aEndIndex - aStartIndex; // absolute index to the extended character
if ( iDecodeInfo.iFirstDecode )
{
expectedIndex = 2; // "AT+CMD"
}
if ( extendedIndex == expectedIndex )
{
iDecodeInfo.iExtendedIndex = aEndIndex;
SaveFoundCharDecodeState( aCharacter );
FTRACE(FPrint( _L("CDunAtCmdHandler::IsExtendedBorder() (no border normal) complete") ));
return EFalse;
}
// Now suspect border found so peek the next character after the suspected
// extended character. If it is not alphabetical character, return with EFalse.
// This case is to detect the cases such as "AT+VTS={*,3000}", where '*' would
// be the start of the next command in normal cases.
TInt peekIndex = aEndIndex + 1;
TInt lineLength = iLineBuffer.Length();
if ( peekIndex < lineLength )
{
TChar nextCharacter = iLineBuffer[peekIndex];
if ( !nextCharacter.IsAlpha() )
{
SaveFoundCharDecodeState( aCharacter );
FTRACE(FPrint( _L("CDunAtCmdHandler::IsExtendedBorder() (no border special) complete") ));
return EFalse;
}
}
aEndIndex--;
FTRACE(FPrint( _L("CDunAtCmdHandler::IsExtendedBorder() (border) complete") ));
return ETrue;
}
// ---------------------------------------------------------------------------
// Finds subcommand with alphanumeric borders
// ---------------------------------------------------------------------------
//
TBool CDunAtCmdHandler::FindSubCommandAlphaBorder( TChar aCharacter,
TInt& aEndIndex )
{
FTRACE(FPrint( _L("CDunAtCmdHandler::FindSubCommandAlphaBorder()") ));
if ( iDecodeInfo.iAssignFound && !iDecodeInfo.iInQuotes )
{
// Check the special case when assigning a number with "basic" command
// and there is no delimiter after it. In this case <Numeric>|<Alpha>
// border must be detected but only for a "basic" command, not for
// extended.
if ( iDecodeInfo.iExtendedIndex<0 && iDecodeInfo.iPrevExists &&
iDecodeInfo.iPrevChar.IsDigit() && aCharacter.IsAlpha() )
{
aEndIndex--;
FTRACE(FPrint( _L("CDunAtCmdHandler::FindSubCommandAlphaBorder() (N|A) complete") ));
return ETrue;
}
// The code below is for the following type of cases:
// (do not check alphanumeric borders if "=" set without quotes):
// AT+CMD=a
FTRACE(FPrint( _L("CDunAtCmdHandler::FindSubCommandAlphaBorder() (skip) complete") ));
return EFalse;
}
if ( !iDecodeInfo.iPrevExists || !aCharacter.IsAlpha() )
{
FTRACE(FPrint( _L("CDunAtCmdHandler::FindSubCommandAlphaBorder() (not found) complete") ));
return EFalse;
}
if ( iDecodeInfo.iPrevChar.IsAlpha() )
{
// The check below detects the following type of cases
// (note that special handling is needed to separate the Alpha|Alpha boundary):
// AT&FE0
if ( iDecodeInfo.iSpecialFound )
{
// Special command was found before and this is Alpha|Alpha boundary -> end
aEndIndex--;
FTRACE(FPrint( _L("CDunAtCmdHandler::FindSubCommandAlphaBorder() (special) complete") ));
return ETrue;
}
// The code below is for the following type of cases
// (note there is no border between C|M, for example -> continue):
// ATCMD
FTRACE(FPrint( _L("CDunAtCmdHandler::FindSubCommandAlphaBorder() (continue) complete") ));
return EFalse;
}
// The code below is for skipping the following type of cases:
// AT+CMD [the '+' must be skipped]
if ( aEndIndex-1 == iDecodeInfo.iExtendedIndex )
{
FTRACE(FPrint( _L("CDunAtCmdHandler::FindSubCommandAlphaBorder() (extended) complete") ));
return EFalse;
}
// The code below is for the following type of cases:
// ATCMD?ATCMD
FTRACE(FPrint( _L("CDunAtCmdHandler::FindSubCommandAlphaBorder() (boundary) complete") ));
aEndIndex--;
return ETrue;
}
// ---------------------------------------------------------------------------
// Finds subcommand
// ---------------------------------------------------------------------------
//
TInt CDunAtCmdHandler::FindSubCommand( TInt& aEndIndex )
{
FTRACE(FPrint( _L("CDunAtCmdHandler::FindSubCommand()") ));
TInt startIndex = iDecodeInfo.iDecodeIndex;
aEndIndex = startIndex;
TBool found = EFalse;
TInt lineLength = iLineBuffer.Length();
iDecodeInfo.iAssignFound = EFalse;
iDecodeInfo.iInQuotes = EFalse;
iDecodeInfo.iExtendedIndex = KErrNotFound;
SaveNotFoundCharDecodeState();
iAtSpecialCmdHandler->ResetComparisonBuffer(); // just to be sure
for ( ; aEndIndex<lineLength; aEndIndex++ )
{
TChar character = iLineBuffer[aEndIndex];
found = FindSubCommandQuotes( character, startIndex, aEndIndex );
if ( found )
{
continue;
}
if ( character == '?' )
{
FTRACE(FPrint( _L("CDunAtCmdHandler::FindSubCommand() (?) complete") ));
return KErrNone;
}
// The check below detects the following type of cases:
// ATCMD<delimiter>
if ( IsDelimiterCharacter(character) )
{
aEndIndex--;
FTRACE(FPrint( _L("CDunAtCmdHandler::FindSubCommand() (delimiter) complete") ));
return KErrNone;
}
// The check below detects the following type of cases:
// ATCMD+CMD [first + as delimiter]
// AT+CMD+CMD [second + as delimiter]
if ( IsExtendedCharacter(character) )
{
found = IsExtendedBorder( character, startIndex, aEndIndex );
if ( !found )
{
continue;
}
FTRACE(FPrint( _L("CDunAtCmdHandler::FindSubCommand() (extended) complete") ));
return KErrNone;
}
found = FindSubCommandAlphaBorder( character, aEndIndex );
if ( found )
{
FTRACE(FPrint( _L("CDunAtCmdHandler::FindSubCommand() (alpha sub) complete") ));
return KErrNone;
}
SaveFoundCharDecodeState( character );
}
aEndIndex--;
FTRACE(FPrint( _L("CDunAtCmdHandler::FindSubCommand() (not found) complete") ));
return KErrNotFound;
}
// ---------------------------------------------------------------------------
// Check if "A/" command
// ---------------------------------------------------------------------------
//
TBool CDunAtCmdHandler::IsASlashCommand()
{
FTRACE(FPrint( _L("CDunAtCmdHandler::IsASlashCommand()") ));
if ( iLineBuffer.Length() == 2 )
{
if ( iLineBuffer[1] == '/' &&
(iLineBuffer[0] == 'A' || iLineBuffer[0] == 'a') )
{
FTRACE(FPrint( _L("CDunAtCmdHandler::IsASlashCommand() (found) complete") ));
return ETrue;
}
}
FTRACE(FPrint( _L("CDunAtCmdHandler::IsASlashCommand() (not found) complete") ));
return EFalse;
}
// ---------------------------------------------------------------------------
// Handles "A/" command
// ---------------------------------------------------------------------------
//
TBool CDunAtCmdHandler::HandleASlashCommand()
{
FTRACE(FPrint( _L("CDunAtCmdHandler::HandleASlashCommand()") ));
// If not "A/" command, return
if ( !IsASlashCommand() )
{
FTRACE(FPrint( _L("CDunAtCmdHandler::HandleASlashCommand() (no push) complete") ));
return EFalse;
}
iEndIndex = iInput->Length(); // Causes skipping of last '/' in ManageEndOfCmdHandling()
// If "A/" command and last buffer exist, set the last buffer as the current buffer
if ( iLastBuffer.Length() > 0 )
{
iLineBuffer.Copy( iLastBuffer );
FTRACE(FPrint( _L("CDunAtCmdHandler::HandleASlashCommand() (copy) complete") ));
return EFalse;
}
// Last buffer not set so return "ERROR"
iDownstream->NotifyDataPushRequest( &iErrorBuffer, NULL );
FTRACE(FPrint( _L("CDunAtCmdHandler::HandleASlashCommand() complete") ));
return ETrue;
}
// ---------------------------------------------------------------------------
// Manages command mode change
// ---------------------------------------------------------------------------
//
TBool CDunAtCmdHandler::ManageCommandModeChange( TUint aMode )
{
FTRACE(FPrint( _L("CDunAtCmdHandler::ManageCommandModeChange()" ) ));
if ( aMode & KCommandModeChanged )
{
if ( aMode & KModeCommand ) // command mode ON
{
ReportCommandModeChange( ETrue );
FTRACE(FPrint( _L("CDunAtCmdHandler::ManageCommandModeChange() command mode changed ON" ) ));
}
else // command mode OFF
{
ReportCommandModeChange( EFalse );
FTRACE(FPrint( _L("CDunAtCmdHandler::ManageCommandModeChange() command mode changed OFF" ) ));
}
FTRACE(FPrint( _L("CDunAtCmdHandler::ManageCommandModeChange() (change) complete" ) ));
return ETrue;
}
FTRACE(FPrint( _L("CDunAtCmdHandler::ManageCommandModeChange()" ) ));
return EFalse;
}
// ---------------------------------------------------------------------------
// Reports command mode start/end change
// ---------------------------------------------------------------------------
//
void CDunAtCmdHandler::ReportCommandModeChange( TBool aStart )
{
FTRACE(FPrint( _L("CDunAtCmdHandler::ReportCommandModeChange()" ) ));
TInt i;
TInt count = iCmdCallbacks.Count();
if ( aStart )
{
if ( iDataMode )
{
for ( i=0; i<count; i++ )
{
iCmdCallbacks[i]->NotifyCommandModeStart();
}
iDataMode = EFalse;
}
}
else // end
{
if ( !iDataMode )
{
for ( i=0; i<count; i++ )
{
iCmdCallbacks[i]->NotifyCommandModeEnd();
}
iDataMode = ETrue;
}
}
FTRACE(FPrint( _L("CDunAtCmdHandler::ReportCommandModeChange() complete" ) ));
}
// ---------------------------------------------------------------------------
// Manages echo mode change
// ---------------------------------------------------------------------------
//
TBool CDunAtCmdHandler::ManageEchoModeChange( TUint aMode )
{
FTRACE(FPrint( _L("CDunAtCmdHandler::ManageEchoModeChange()" ) ));
if ( aMode & KEchoModeChanged )
{
FTRACE(FPrint( _L("CDunAtCmdHandler::ManageEchoModeChange() checking echo mode..." ) ));
if ( aMode & KModeEcho ) // echo mode ON
{
iEchoOn = ETrue;
FTRACE(FPrint( _L("CDunAtCmdHandler::ManageEchoModeChange() echo mode changed ON" ) ));
}
else // echo mode OFF
{
iEchoOn = EFalse;
FTRACE(FPrint( _L("CDunAtCmdHandler::ManageEchoModeChange() echo mode changed OFF" ) ));
}
FTRACE(FPrint( _L("CDunAtCmdHandler::ManageEchoModeChange() (change) complete" ) ));
return ETrue;
}
FTRACE(FPrint( _L("CDunAtCmdHandler::ManageEchoModeChange() complete" ) ));
return EFalse;
}
// ---------------------------------------------------------------------------
// Manages quiet mode change
// ---------------------------------------------------------------------------
//
TBool CDunAtCmdHandler::ManageQuietModeChange( TUint aMode )
{
FTRACE(FPrint( _L("CDunAtCmdHandler::ManageQuietModeChange()" ) ));
if ( aMode & KQuietModeChanged )
{
FTRACE(FPrint( _L("CDunAtCmdHandler::ManageEchoModeChange() checking quiet mode..." ) ));
if ( aMode & KModeQuiet ) // quiet mode ON
{
iAtCmdExt.ReportQuietModeChange( ETrue );
iQuietOn = ETrue;
FTRACE(FPrint( _L("CDunAtCmdHandler::ManageQuietModeChange() quiet mode changed ON" ) ));
}
else // quiet mode OFF
{
iAtCmdExt.ReportQuietModeChange( EFalse );
iQuietOn = EFalse;
FTRACE(FPrint( _L("CDunAtCmdHandler::ManageQuietModeChange() quiet mode changed OFF" ) ));
}
FTRACE(FPrint( _L("CDunAtCmdHandler::ManageQuietModeChange() (change) complete" ) ));
return ETrue;
}
FTRACE(FPrint( _L("CDunAtCmdHandler::ManageQuietModeChange() complete" ) ));
return EFalse;
}
// ---------------------------------------------------------------------------
// Manages quiet mode change
// ---------------------------------------------------------------------------
//
TBool CDunAtCmdHandler::ManageVerboseModeChange( TUint aMode )
{
FTRACE(FPrint( _L("CDunAtCmdHandler::ManageVerboseModeChange()" ) ));
if ( aMode & KVerboseModeChanged )
{
FTRACE(FPrint( _L("CDunAtCmdHandler::ManageVerboseModeChange() checking verbose mode..." ) ));
if ( aMode & KModeVerbose ) // verbose mode ON
{
iAtCmdExt.ReportVerboseModeChange( ETrue );
iVerboseOn = ETrue;
FTRACE(FPrint( _L("CDunAtCmdHandler::NotifyVerboseStatusChange() verbose mode changed ON" ) ));
}
else // verbose mode OFF
{
iAtCmdExt.ReportVerboseModeChange( EFalse );
iVerboseOn = EFalse;
FTRACE(FPrint( _L("CDunAtCmdHandler::NotifyVerboseStatusChange() verbose mode changed OFF" ) ));
}
FTRACE(FPrint( _L("CDunAtCmdHandler::ManageVerboseModeChange() (change) complete" ) ));
return ETrue;
}
FTRACE(FPrint( _L("CDunAtCmdHandler::ManageVerboseModeChange() complete" ) ));
return EFalse;
}
// ---------------------------------------------------------------------------
// Manages character change
// ---------------------------------------------------------------------------
//
void CDunAtCmdHandler::ManageCharacterChange( TUint aMode )
{
FTRACE(FPrint( _L("CDunAtCmdHandler::ManageCharacterChange()" ) ));
if ( aMode & KCarriageChanged )
{
iCarriageReturn = aMode & (KModeChanged-1);
iAtCmdExt.ReportCharacterChange( ECharTypeCarriage, iCarriageReturn );
FTRACE(FPrint( _L("CDunAtCmdHandler::ManageCharacterChange() carriage return changed" ) ));
}
else if ( aMode & KLineFeedChanged )
{
iLineFeed = aMode & (KModeChanged-1);
iAtCmdExt.ReportCharacterChange( ECharTypeLineFeed, iLineFeed );
FTRACE(FPrint( _L("CDunAtCmdHandler::ManageCharacterChange() line feed changed" ) ));
}
else if ( aMode & KBackspaceChanged )
{
iBackspace = aMode & (KModeChanged-1);
iAtCmdExt.ReportCharacterChange( ECharTypeBackspace, iBackspace );
FTRACE(FPrint( _L("CDunAtCmdHandler::ManageCharacterChange() backspace changed" ) ));
}
FTRACE(FPrint( _L("CDunAtCmdHandler::ManageCharacterChange() complete" ) ));
}
// ---------------------------------------------------------------------------
// Manages editor mode reply
// ---------------------------------------------------------------------------
//
TInt CDunAtCmdHandler::ManageEditorModeReply( TBool aStart )
{
FTRACE(FPrint( _L("CDunAtCmdHandler::ManageEditorModeReply()" ) ));
// Two modes possible here:
// 1) Sending data directly from DTE to DCE, i.e. no subsequent data in
// the input buffer -> Reissue read request from DTE.
// 2) Sending data from input buffer to DCE -> Do not reissue read request
// from DTE: send the data in a loop
// In summary: send data byte-by-byte in editor mode until end of input.
// When end of input notify CDunUpstream to reissue the read request.
TBool nextContentFound = FindNextContent( aStart );
if ( !nextContentFound )
{
iUpstream->NotifyEditorModeReply( aStart );
FTRACE(FPrint( _L("CDunAtCmdHandler::ManageEditorModeReply() complete") ));
return KErrNone;
}
// In block mode end the block mode by sending <ESC> and hope it works.
iEscapeBuffer.Zero();
iEscapeBuffer.Append( KDunEscape );
iCmdPusher->IssueRequest( iEscapeBuffer, EFalse );
FTRACE(FPrint( _L("CDunAtCmdHandler::ManageEditorModeReply() complete" ) ));
return KErrNone;
}
// ---------------------------------------------------------------------------
// Finds the next content from the input data
// ---------------------------------------------------------------------------
//
TBool CDunAtCmdHandler::FindNextContent( TBool aStart )
{
FTRACE(FPrint( _L("CDunAtCmdHandler::FindNextContent()" ) ));
if ( !aStart )
{
FTRACE(FPrint( _L("CDunAtCmdHandler::FindNextContent() (skip) complete" ) ));
return iEditorModeInfo.iContentFound;
}
// If iEndIndex is (>=0 && <iInput.Length()) it means more data waits in
// iInput that didn't fit in iInputBuffer. Only check FindStartOfCommand()
// if iEndIndex < 0, meaning more data is needed from CDunUpstream.
TBool contentFound = EFalse;
TInt cmdLength = iInput->Length();
TBool subBlock = ( iEndIndex>=0&&iEndIndex<cmdLength ) ? ETrue : EFalse;
if ( subBlock )
{
contentFound = ETrue;
}
if ( !contentFound )
{
contentFound = ExtractNextSubCommand( ETrue ); // peek
}
iEditorModeInfo.iContentFound = contentFound;
FTRACE(FPrint( _L("CDunAtCmdHandler::FindNextContent() complete" ) ));
return contentFound;
}
// ---------------------------------------------------------------------------
// From class MDunAtCmdPusher.
// Notifies about end of AT command processing. This is after all reply data
// for an AT command is multiplexed to the downstream.
// ---------------------------------------------------------------------------
//
TInt CDunAtCmdHandler::NotifyEndOfProcessing( TInt /*aError*/ )
{
FTRACE(FPrint( _L("CDunAtCmdHandler::NotifyEndOfProcessing()" ) ));
TBool editorMode = iCmdPusher->EditorMode();
if ( editorMode )
{
ManageEditorModeReply( ETrue );
FTRACE(FPrint( _L("CDunAtCmdHandler::NotifyEndOfProcessing() (editor) complete" ) ));
return KErrNone;
}
HandleNextSubCommand();
FTRACE(FPrint( _L("CDunAtCmdHandler::NotifyEndOfProcessing() complete" ) ));
return KErrNone;
}
// ---------------------------------------------------------------------------
// From class MDunAtCmdPusher.
// Notifies about request to stop AT command handling for the rest of the
// command line data
// ---------------------------------------------------------------------------
//
void CDunAtCmdHandler::NotifyEndOfCmdLineProcessing()
{
FTRACE(FPrint( _L("CDunAtCmdHandler::NotifyEndOfCmdLineProcessing()" ) ));
ManageEndOfCmdHandling( ETrue, ETrue );
FTRACE(FPrint( _L("CDunAtCmdHandler::NotifyEndOfCmdLineProcessing() complete" ) ));
}
// ---------------------------------------------------------------------------
// From class MDunAtCmdPusher.
// Notifies about request to peek for the next command
// ---------------------------------------------------------------------------
//
TBool CDunAtCmdHandler::NotifyNextCommandPeekRequest()
{
FTRACE(FPrint( _L("CDunAtCmdHandler::NotifyNextCommandPeekRequest()") ));
TBool extracted = ExtractNextSubCommand( ETrue );
FTRACE(FPrint( _L("CDunAtCmdHandler::NotifyNextCommandPeekRequest() complete") ));
return extracted;
}
// ---------------------------------------------------------------------------
// From class MDunAtCmdPusher.
// Notifies about editor mode reply
// ---------------------------------------------------------------------------
//
TInt CDunAtCmdHandler::NotifyEditorModeReply()
{
FTRACE(FPrint( _L("CDunAtCmdHandler::NotifyEditorModeReply()") ));
TInt retVal = ManageEditorModeReply( EFalse );
FTRACE(FPrint( _L("CDunAtCmdHandler::NotifyEditorModeReply() complete") ));
return retVal;
}
// ---------------------------------------------------------------------------
// From class MDunAtEcomListen.
// Notifies about new plugin installation
// ---------------------------------------------------------------------------
//
TInt CDunAtCmdHandler::NotifyPluginInstallation( TUid& /*aPluginUid*/ )
{
FTRACE(FPrint( _L("CDunAtCmdHandler::NotifyPluginInstallation()" ) ));
CDunAtUrcHandler* urcHandler = NULL;
TRAPD( retTrap, urcHandler=AddOneUrcHandlerL() );
if ( retTrap != KErrNone )
{
FTRACE(FPrint( _L("CDunAtCmdHandler::NotifyPluginInstallation() (trapped!) complete" ) ));
return retTrap;
}
TInt retTemp = urcHandler->IssueRequest();
if ( retTemp != KErrNone )
{
FTRACE(FPrint( _L("CDunAtCmdHandler::NotifyPluginInstallation() (issuerequest) complete" ) ));
return retTemp;
}
TUid ownerUid = urcHandler->OwnerUid();
iAtCmdExt.ReportListenerUpdateReady( ownerUid, EEcomTypeInstall );
// As a last step recreate the special command data
retTemp = RecreateSpecialCommands();
if ( retTemp != KErrNone )
{
FTRACE(FPrint( _L("CDunAtCmdHandler::NotifyPluginInstallation() (recreate) complete" ) ));
return retTemp;
}
FTRACE(FPrint( _L("CDunAtCmdHandler::NotifyPluginInstallation() complete" ) ));
return KErrNone;
}
// ---------------------------------------------------------------------------
// From class MDunAtEcomListen.
// Notifies about existing plugin uninstallation
// ---------------------------------------------------------------------------
//
TInt CDunAtCmdHandler::NotifyPluginUninstallation( TUid& aPluginUid )
{
FTRACE(FPrint( _L("CDunAtCmdHandler::NotifyPluginUninstallation()" ) ));
TInt i;
TInt count = iUrcHandlers.Count();
for ( i=count-1; i>=0; i-- )
{
TUid ownerUid = iUrcHandlers[i]->OwnerUid();
if ( ownerUid == aPluginUid )
{
delete iUrcHandlers[i];
iUrcHandlers.Remove( i );
iAtCmdExt.ReportListenerUpdateReady( ownerUid,
EEcomTypeUninstall );
}
}
// As a last step recreate the special command data
TInt retTemp = RecreateSpecialCommands();
if ( retTemp != KErrNone )
{
FTRACE(FPrint( _L("CDunAtCmdHandler::NotifyPluginUninstallation() (recreate) complete" ) ));
return retTemp;
}
FTRACE(FPrint( _L("CDunAtCmdHandler::NotifyPluginUninstallation() complete" ) ));
return KErrNone;
}
// ---------------------------------------------------------------------------
// From class MDunAtModeListen.
// Gets called on mode status change
// ---------------------------------------------------------------------------
//
TInt CDunAtCmdHandler::NotifyModeStatusChange( TUint aMode )
{
FTRACE(FPrint( _L("CDunAtCmdHandler::NotifyModeStatusChange()") ));
TBool commandModeSet = ManageCommandModeChange( aMode );
TBool echoModeSet = ManageEchoModeChange( aMode );
TBool quietModeSet = ManageQuietModeChange( aMode );
TBool verboseModeSet = ManageVerboseModeChange( aMode );
if ( quietModeSet || verboseModeSet )
{
FTRACE(FPrint( _L("CDunAtCmdHandler::NotifyModeStatusChange() new settings: E=%d, Q=%d, V=%d"), iEchoOn, iQuietOn, iVerboseOn ));
FTRACE(FPrint( _L("CDunAtCmdHandler::NotifyModeStatusChange() (regenerate) mode set" ) ));
RegenerateReplyStrings();
return KErrNone;
}
// Keep the following after "quietModeSet || verboseModeSet" in order to
// regenerate the reply also if two modes change at the same time
if ( commandModeSet || echoModeSet )
{
FTRACE(FPrint( _L("CDunAtCmdHandler::NotifyModeStatusChange() new settings: E=%d, Q=%d, V=%d"), iEchoOn, iQuietOn, iVerboseOn ));
FTRACE(FPrint( _L("CDunAtCmdHandler::NotifyModeStatusChange() mode set" ) ));
return KErrNone;
}
ManageCharacterChange( aMode );
FTRACE(FPrint( _L("CDunAtCmdHandler::NotifyModeStatusChange() new settings: CR=%u, LF=%u, BS=%u"), iCarriageReturn, iLineFeed, iBackspace ));
RegenerateReplyStrings();
FTRACE(FPrint( _L("CDunAtCmdHandler::NotifyModeStatusChange() complete") ));
return KErrNone;
}