--- /dev/null Thu Jan 01 00:00:00 1970 +0000
+++ b/commsfwutils/commsbufs/reference/loopback_driver/ldd.cpp Thu Dec 17 09:22:25 2009 +0200
@@ -0,0 +1,583 @@
+// Copyright (c) 1999-2009 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:
+//
+
+#include <kernel/kern_priv.h>
+
+#ifdef SYMBIAN_OLD_EXPORT_LOCATION
+#include <comms-infras/legacy_loopback_driver.h>
+#else
+//this header is not exported, needs to be a user include
+#include "legacy_loopback_driver.h"
+#endif
+
+#include "device.h"
+
+_LIT(KESockLoopbackPanicCategory,"ESockLoopback");
+
+
+
+/**
+ Standard export function for LDDs. This creates a DLogicalDevice derived object,
+ in this case, our DESockLoopbackFactory
+*/
+DECLARE_STANDARD_LDD()
+ {
+ return new DESockLoopbackFactory;
+ }
+
+/**
+ Constructor
+*/
+DESockLoopbackFactory::DESockLoopbackFactory()
+ {
+ // Set version number for this device
+ iVersion=RLegacyLoopbackDriver::VersionRequired();
+ // Indicate that we work with a PDD
+ iParseMask=KDeviceAllowPhysicalDevice;
+ }
+
+
+/**
+ Second stage constructor for DESockLoopbackFactory.
+ This must at least set a name for the driver object.
+
+ @return KErrNone if successful, otherwise one of the other system wide error codes.
+*/
+TInt DESockLoopbackFactory::Install()
+ {
+ return SetName(&RLegacyLoopbackDriver::Name());
+ }
+
+DESockLoopbackFactory::~DESockLoopbackFactory()
+ {
+ }
+
+/**
+ Return the drivers capabilities.
+ Called in the response to an RDevice::GetCaps() request.
+
+ @param aDes User-side descriptor to write capabilities information into
+*/
+void DESockLoopbackFactory::GetCaps(TDes8& aDes) const
+ {
+ // Create a capabilities object
+ RLegacyLoopbackDriver::TCaps caps;
+ caps.iVersion = iVersion;
+ // Write it back to user memory
+ Kern::InfoCopy(aDes,(TUint8*)&caps,sizeof(caps));
+ }
+
+/**
+ Called by the kernel's device driver framework to create a Logical Channel.
+ This is called in the context of the user thread (client) which requested the creation of a Logical Channel
+ (E.g. through a call to RBusLogicalChannel::DoCreate)
+ The thread is in a critical section.
+
+ @param aChannel Set to point to the created Logical Channel
+
+ @return KErrNone if successful, otherwise one of the other system wide error codes.
+*/
+TInt DESockLoopbackFactory::Create(DLogicalChannelBase*& aChannel)
+ {
+ aChannel=new DESockLoopbackChannel;
+ if(!aChannel)
+ return KErrNoMemory;
+
+ return KErrNone;
+ }
+
+DESockLoopbackChannel::DESockLoopbackChannel()
+ : iSendDataDfc(SendDataDfc, this, 1), // DFC is priority '1'
+ iReceiveDataDfc(ReceiveDataDfc, this, 1) // DFC is priority '1'
+ {
+ // Get pointer to client threads DThread object
+ iClient=&Kern::CurrentThread();
+
+ // Open a reference on client thread so it's control block can't dissapear until
+ // this driver has finished with it.
+ // Note, this call to Open can't fail since its the thread we are currently running in
+ iClient->Open();
+ memclr(&iDebugProbes, sizeof(iDebugProbes));
+ Kern::Printf("clearing probe points\n");
+ }
+
+/**
+ Second stage constructor called by the kernel's device driver framework.
+ This is called in the context of the user thread (client) which requested the creation of a Logical Channel
+ (E.g. through a call to RBusLogicalChannel::DoCreate)
+ The thread is in a critical section.
+
+ @param aUnit The unit argument supplied by the client to RBusLogicalChannel::DoCreate
+ @param aInfo The info argument supplied by the client to RBusLogicalChannel::DoCreate
+ @param aVer The version argument supplied by the client to RBusLogicalChannel::DoCreate
+
+ @return KErrNone if successful, otherwise one of the other system wide error codes.
+*/
+TInt DESockLoopbackChannel::DoCreate(TInt /*aUnit*/, const TDesC8* /*aInfo*/, const TVersion& aVer)
+ {
+ // Check Platform Security capabilities of client thread (if required).
+ //
+ // Here we handle the simple case where:
+ // 1. The device driver can only have one client thread
+ // 2. The security policy is the binary all-or-nothing policy.
+ // E.g. "If you have the right capability you can do anything with the driver
+ // and if you don't have the capability you can't do anything"
+ //
+ // If only some functionality of the driver is restricted, then the security check should
+ // go elsewhere. E.g. in DoRequest/DoControl. In that case Kern::CurrentThreadHasCapability
+ // shouldn't be used because the 'current thread' isn't the client.
+ //
+ // In this example we do a check here for ECapability_None (which always passes)...
+ if(!Kern::CurrentThreadHasCapability(ECapability_None,__PLATSEC_DIAGNOSTIC_STRING("Checked by ESockLoopback")))
+ return KErrPermissionDenied;
+
+ // Check version
+ if (!Kern::QueryVersionSupported(RLegacyLoopbackDriver::VersionRequired(),aVer))
+ return KErrNotSupported;
+
+ // Setup LDD for receiving client messages
+ SetDfcQ(((DESockLoopbackPddFactory*)iPhysicalDevice)->iDfcQ);
+ iMsgQ.Receive();
+
+ // Associate DFCs with the same queue we set above to receive client messages on
+ iSendDataDfc.SetDfcQ(iDfcQ);
+ iReceiveDataDfc.SetDfcQ(iDfcQ);
+
+ // Give PDD a pointer to this channel
+ Pdd()->iLdd=this;
+
+ // Done
+ return KErrNone;
+ }
+
+#define PRINT_PROBE_POINTS(name) \
+ {\
+ Kern::Printf("probe list:%s\n\t", name); \
+ for(TInt i = 0; i < (sizeof(iDebugProbes) / sizeof(TInt)); i++)\
+ { \
+ Kern::Printf("%d:%d, ", i, iDebugProbes[i]); \
+ } \
+ Kern::Printf("\n\n"); \
+ }
+
+#define PROBE_LDD(index) (iDebugProbes[index]++)
+#define PROBE_LDD_STATIC(index, obj) (((obj)->iDebugProbes[index])++)
+
+DESockLoopbackChannel::~DESockLoopbackChannel()
+ {
+ // Cancel all processing that we may be doing
+ DoCancel(RLegacyLoopbackDriver::EAllRequests);
+ // Close our reference on the client thread
+ Kern::SafeClose((DObject*&)iClient,NULL);
+ }
+
+/**
+ Called when a user thread requests a handle to this channel.
+*/
+TInt DESockLoopbackChannel::RequestUserHandle(DThread* aThread, TOwnerType aType)
+ {
+ // Make sure that only our client can get a handle
+ if (aType!=EOwnerThread || aThread!=iClient)
+ return KErrAccessDenied;
+ return KErrNone;
+ }
+
+/**
+ Process a message for this logical channel.
+ This function is called in the context of a DFC thread.
+
+ @param aMessage The message to process.
+ The iValue member of this distinguishes the message type:
+ iValue==ECloseMsg, channel close message
+ iValue==KMaxTInt, a 'DoCancel' message
+ iValue>=0, a 'DoControl' message with function number equal to iValue
+ iValue<0, a 'DoRequest' message with function number equal to ~iValue
+*/
+void DESockLoopbackChannel::HandleMsg(TMessageBase* aMsg)
+ {
+ TThreadMessage& m=*(TThreadMessage*)aMsg;
+
+ // Get message type
+ TInt id=m.iValue;
+
+ // Decode the message type and dispatch it to the relevent handler function...
+
+ if (id==(TInt)ECloseMsg)
+ {
+ // Channel Close
+ PRINT_PROBE_POINTS("ldd");
+ DoCancel(RLegacyLoopbackDriver::EAllRequests);
+ m.Complete(KErrNone, EFalse);
+ return;
+ }
+
+ if (id==KMaxTInt)
+ {
+ // DoCancel
+ DoCancel(m.Int0());
+ m.Complete(KErrNone,ETrue);
+ return;
+ }
+
+ if (id<0)
+ {
+ // DoRequest
+ TRequestStatus* pS=(TRequestStatus*)m.Ptr0();
+ TInt r=DoRequest(~id,pS,m.Ptr1(),m.Ptr2());
+ if (r!=KErrNone)
+ {
+ Kern::RequestComplete(iClient,pS,r);
+ }
+ m.Complete(KErrNone,ETrue);
+ }
+ else
+ {
+ // DoControl
+ TInt r=DoControl(id,m.Ptr0(),m.Ptr1());
+ m.Complete(r,ETrue);
+ }
+ }
+
+/**
+ Process synchronous 'control' requests
+*/
+TInt DESockLoopbackChannel::DoControl(TInt aFunction, TAny* a1, TAny* a2)
+ {
+ (void)a2; // a2 not used in this example
+
+ TInt r;
+
+ switch (aFunction)
+ {
+ case RLegacyLoopbackDriver::EGetConfig:
+ r = GetConfig((TDes8*)a1);
+ break;
+
+ case RLegacyLoopbackDriver::ESetConfig:
+ r = SetConfig((const TDesC8*)a1);
+ break;
+
+ default:
+ r = KErrNotSupported;
+ break;
+ }
+
+ return r;
+ }
+
+/**
+ Process asynchronous requests.
+*/
+TInt DESockLoopbackChannel::DoRequest(TInt aReqNo, TRequestStatus* aStatus, TAny* a1, TAny* a2)
+ {
+ (void)a2; // a2 not used in this example
+
+ TInt r;
+
+ switch(aReqNo)
+ {
+ case RLegacyLoopbackDriver::ESendData:
+ r=SendData(aStatus,(const TDesC8*)a1);
+ break;
+
+ case RLegacyLoopbackDriver::EReceiveData:
+ // Example Platform Security capability check which tests the
+ // client for ECapability_None (which always passes)...
+ if(iClient->HasCapability(ECapability_None,__PLATSEC_DIAGNOSTIC_STRING("Checked by ESockLoopback")))
+ r=ReceiveData(aStatus,(TDes8*)a1);
+ else
+ r=KErrPermissionDenied;
+ break;
+
+ default:
+ r = KErrNotSupported;
+ break;
+ }
+
+ return r;
+ }
+
+/**
+ Process cancelling of asynchronous requests.
+*/
+void DESockLoopbackChannel::DoCancel(TUint aMask)
+ {
+ if(aMask&(1<<RLegacyLoopbackDriver::ESendData))
+ SendDataCancel();
+ if(aMask&(1<<RLegacyLoopbackDriver::EReceiveData))
+ ReceiveDataCancel();
+ }
+
+/**
+ Process a GetConfig control message. This writes the current driver configuration to a
+ RLegacyLoopbackDriver::TConfigBuf supplied by the client.
+*/
+TInt DESockLoopbackChannel::GetConfig(TDes8* aConfigBuf)
+ {
+ // Create a structure giving the current configuration
+ RLegacyLoopbackDriver::TConfig config;
+ CurrentConfig(config);
+
+ // Write the config to the client
+ TPtrC8 ptr((const TUint8*)&config,sizeof(config));
+ return Kern::ThreadDesWrite(iClient,aConfigBuf,ptr,0,KTruncateToMaxLength,NULL);
+ }
+
+/**
+ Process a SetConfig control message. This sets the driver configuration using a
+ RLegacyLoopbackDriver::TConfigBuf supplied by the client.
+*/
+TInt DESockLoopbackChannel::SetConfig(const TDesC8* aConfigBuf)
+ {
+ // Don't allow configuration changes whilst we're busy
+ if(iSendDataStatus || iReceiveDataStatus)
+ return KErrInUse;
+
+ // Create a config structure.
+ RLegacyLoopbackDriver::TConfig config;
+ CurrentConfig(config);
+
+ // Note: We have filled config with the current settings, this is to allow
+ // backwards compatibility when a client gives us an old (and shorter) version
+ // of the config structure.
+
+ // Read the config structure from client
+ TPtr8 ptr((TUint8*)&config,sizeof(config));
+ TInt r=Kern::ThreadDesRead(iClient,aConfigBuf,ptr,0);
+ if(r!=KErrNone)
+ return r;
+
+ // Use config data to setup the driver. Checking that parameters which aren't settable
+ // either contain the correct values or are zero (meaning 'default')
+ if(config.iPddBufferSize && config.iPddBufferSize!=Pdd()->BufferSize())
+ return KErrArgument;
+
+ if(config.iMaxSendDataSize && config.iMaxSendDataSize!=KLoopbackMTU)
+ return KErrArgument;
+
+ if(config.iMaxReceiveDataSize && config.iMaxReceiveDataSize!=KLoopbackMTU)
+ return KErrArgument;
+
+ r=Pdd()->SetSpeed(config.iSpeed);
+ if(r!=KErrNone)
+ return r;
+
+ return r;
+ }
+
+/**
+ Fill a TConfig with the drivers current configuration.
+*/
+void DESockLoopbackChannel::CurrentConfig(RLegacyLoopbackDriver::TConfig& aConfig)
+ {
+ aConfig.iSpeed = Pdd()->Speed();
+ aConfig.iPddBufferSize = Pdd()->BufferSize();
+ aConfig.iMaxSendDataSize = KLoopbackMTU;
+ aConfig.iMaxReceiveDataSize = KLoopbackMTU;
+ }
+
+/**
+ Start processing a SendData request.
+*/
+TInt DESockLoopbackChannel::SendData(TRequestStatus* aStatus,const TDesC8* aData)
+ {
+ // Check that a 'SendData' isn't already in progress
+ PROBE_LDD(0);
+ if(iSendDataStatus)
+ {
+ Kern::ThreadKill(iClient,EExitPanic,ERequestAlreadyPending,KESockLoopbackPanicCategory);
+ return KErrInUse;
+ }
+
+ // Read data from client into our buffer
+ TInt r=Kern::ThreadDesRead(iClient,aData,Pdd()->SendBuffer(),0);
+ if(r!=KErrNone)
+ return r;
+
+ // Give data to PDD so that it can do the work
+ r=Pdd()->RequestDataSend();
+ if(r!=KErrNone)
+ return r;
+
+ // Save the client request status and return
+ PROBE_LDD(1);
+ iSendDataStatus = aStatus;
+ return KErrNone;
+ }
+
+/**
+ Cancel a SendData request.
+*/
+void DESockLoopbackChannel::SendDataCancel()
+ {
+ if(iSendDataStatus)
+ {
+ // Tell PDD to stop processing the request
+ Pdd()->SendDataCancel();
+
+ // Cancel DFC
+ iSendDataDfc.Cancel();
+
+ // Complete clients request
+ Kern::RequestComplete(iClient,iSendDataStatus,KErrCancel);
+ }
+ }
+
+/**
+ Called by PDD from ISR to indicate that a SendData operation has completed.
+*/
+void DESockLoopbackChannel::SendDataComplete(TInt aResult)
+ {
+ PROBE_LDD(2);
+ // Save result code
+ iSendDataResult = aResult;
+
+ // Queue DFC
+ iSendDataDfc.Add();
+ }
+
+/**
+ DFC callback which gets triggered after the PDD has signalled that SendData completed.
+ This just casts aPtr and calls DoSendDataComplete().
+*/
+void DESockLoopbackChannel::SendDataDfc(TAny* aPtr)
+ {
+ PROBE_LDD_STATIC(3, ((DESockLoopbackChannel*)aPtr));
+ ((DESockLoopbackChannel*)aPtr)->DoSendDataComplete();
+ }
+
+/**
+ Called from a DFC after the PDD has signalled that SendData completed.
+*/
+void DESockLoopbackChannel::DoSendDataComplete()
+ {
+ TInt result = iSendDataResult;
+
+ // Complete clients request
+ Kern::RequestComplete(iClient,iSendDataStatus,result);
+ }
+
+/**
+ Start processing a ReceiveData request.
+*/
+TInt DESockLoopbackChannel::ReceiveData(TRequestStatus* aStatus,TDes8* aPtr)
+ {
+ PROBE_LDD(4);
+ // Check that a 'ReceiveData' isn't already in progress
+ if(iReceiveDataStatus)
+ {
+ Kern::ThreadKill(iClient,EExitPanic,ERequestAlreadyPending,KESockLoopbackPanicCategory);
+ return KErrInUse;
+ }
+
+ // Save the client request status and descriptor for later completion
+ iReceiveDataStatus = aStatus;
+ iReceiveDataDescriptor = aPtr;
+
+ if(Pdd()->ReceivedQueueLen() > 0)
+ {
+ // complete with waiting data
+ DoReceiveDataComplete();
+ }
+
+ // Ask PDD for data
+ NKern::Lock();
+ TInt r = Pdd()->RequestDataReceipt();
+ NKern::Unlock();
+
+ if(r != KErrNone)
+ {
+ iReceiveDataDescriptor = NULL;
+ return r;
+ }
+
+ PROBE_LDD(5);
+ return KErrNone;
+ }
+
+/**
+ Cancel a ReceiveData request.
+*/
+void DESockLoopbackChannel::ReceiveDataCancel()
+ {
+ if(iReceiveDataStatus)
+ {
+ // Tell PDD to stop processing the request
+ Pdd()->ReceiveDataCancel();
+
+ // Cancel DFC
+ iReceiveDataDfc.Cancel();
+
+ // Finished with client descriptor, so NULL it to help detect coding errors
+ iReceiveDataDescriptor = NULL;
+
+ // Complete clients request
+ Kern::RequestComplete(iClient,iReceiveDataStatus,KErrCancel);
+ }
+ }
+
+/**
+ Called by PDD from ISR to indicate that a ReceiveData operation has completed.
+*/
+void DESockLoopbackChannel::ReceiveDataComplete(TInt aResult)
+ {
+ PROBE_LDD(6);
+ // Save result code
+ iReceiveDataResult = aResult;
+
+ // Queue DFC
+ NKern::Lock();
+ iReceiveDataDfc.Add();
+ NKern::Unlock();
+ }
+
+/**
+ DFC Callback which gets triggered after the PDD has signalled that ReceiveData completed.
+ This just casts aPtr and calls DoReceiveDataComplete().
+*/
+void DESockLoopbackChannel::ReceiveDataDfc(TAny* aPtr)
+ {
+ PROBE_LDD_STATIC(7, ((DESockLoopbackChannel*)aPtr));
+ ((DESockLoopbackChannel*)aPtr)->DoReceiveDataComplete();
+ }
+
+/**
+ Called from a DFC after the PDD has signalled that ReceiveData completed.
+*/
+void DESockLoopbackChannel::DoReceiveDataComplete()
+ {
+ if(iReceiveDataStatus)
+ {
+ PROBE_LDD(8);
+
+ // Write data to client from our buffer
+ TInt result = Kern::ThreadDesWrite(iClient, iReceiveDataDescriptor, Pdd()->ReceiveBuffer(), 0);
+
+ // Finished with client descriptor, so NULL it to help detect coding errors
+ iReceiveDataDescriptor = NULL;
+
+ // Step the receive queue
+ Pdd()->AdvanceReceiveQueue();
+
+ // Use result code from PDD if it was an error
+ if(iReceiveDataResult != KErrNone)
+ result = iReceiveDataResult;
+
+ // Complete client's request
+ Kern::RequestComplete(iClient, iReceiveDataStatus, result);
+ }
+ }
+
+