author | Dremov Kirill (Nokia-D-MSW/Tampere) <kirill.dremov@nokia.com> |
Tue, 11 May 2010 17:28:22 +0300 | |
branch | RCL_3 |
changeset 110 | c734af59ce98 |
parent 87 | 2f92ad2dc5db |
permissions | -rw-r--r-- |
0 | 1 |
// Copyright (c) 2007-2009 Nokia Corporation and/or its subsidiary(-ies). |
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// All rights reserved. |
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// This component and the accompanying materials are made available |
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// under the terms of the License "Eclipse Public License v1.0" |
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// which accompanies this distribution, and is available |
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// at the URL "http://www.eclipse.org/legal/epl-v10.html". |
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// |
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// Initial Contributors: |
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// Nokia Corporation - initial contribution. |
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// |
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// Contributors: |
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// |
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// Description: |
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// |
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/** |
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The driver's name |
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@return The name of the driver |
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@internalComponent |
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*/ |
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const TDesC& RUsbInterface::Name() |
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{ |
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_LIT(KDriverName,"USBDI"); |
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return KDriverName; |
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} |
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||
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/** |
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The driver's version |
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@return The version number of the driver |
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@internalComponent |
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*/ |
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TVersion RUsbInterface::VersionRequired() |
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{ |
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const TInt KMajorVersionNumber=1; |
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const TInt KMinorVersionNumber=0; |
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const TInt KBuildVersionNumber=KE32BuildVersionNumber; |
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return TVersion(KMajorVersionNumber,KMinorVersionNumber,KBuildVersionNumber); |
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} |
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#ifndef __KERNEL_MODE__ |
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RUsbInterface::RUsbInterface() |
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: iHeadInterfaceDescriptor(NULL) |
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, iInterfaceDescriptorData(NULL) |
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, iTransferStrategy(NULL) |
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, iAlternateSetting(0) |
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{ |
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} |
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||
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/** |
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Signals to the hub driver that this interface is idle and may be suspended. |
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As suspend operates at the device level, this will only trigger a removal of bus activity if all interfaces |
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associated with the device are marked as suspended. |
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@param [in] aResumeSignal The TRequestStatus that will be completed when the interface is resumed. |
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*/ |
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void RUsbInterface::PermitSuspendAndWaitForResume(TRequestStatus& aResumeSignal) |
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{ |
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DoRequest(ESuspend, aResumeSignal); |
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} |
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||
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/** |
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Cancel the outstanding permission to suspend. |
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*/ |
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void RUsbInterface::CancelPermitSuspend() |
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{ |
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DoCancel(ECancelSuspend); |
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} |
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/** |
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Cancel the outstanding PermitSuspendAndWaitForResume request with KErrCancel |
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*/ |
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void RUsbInterface::CancelWaitForResume() |
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{ |
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DoCancel(ECancelWaitForResume); |
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} |
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/** |
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Request or clear the interface's remote wakeup flag. If any interface on the device |
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has this flag set, suspending the device will cause it to have remote wakeup capability |
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enabled. This function may only be called when the interface is active -- the device will |
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not be woken to change the status if it is currently suspended. |
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Note that clearing this flag will not prevent a device from using remote wakeup -- this |
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will happen only if all interfaces on the device do not require it. |
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By default the device will not have remote wakeup enabled. |
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@param aAllowed ETrue if remote wakeup should be permitted, EFalse if this interface does |
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not require it. |
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@return KErrNotReady if two calls have been made in succession with the same parameter. |
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KErrUsbDeviceSuspended if the interface is currently marked as suspended. |
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*/ |
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TInt RUsbInterface::PermitRemoteWakeup(TBool aAllowed) |
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{ |
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return DoControl(EPermitRemoteWakeup, (TAny*)aAllowed); |
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} |
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/** |
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Select the specified alternate interface. |
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Asserts that all open pipes have been closed. |
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@param [in] aAlternateInterface The alternate interface to select. |
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@return KErrArgument if the specified alternate interface does not exist. |
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@return KErrOverflow if selecting this alternate interface would overcommit the bus' bandwidth. |
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*/ |
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TInt RUsbInterface::SelectAlternateInterface(TInt aAlternateInterface) |
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{ |
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TInt err = DoControl(ESelectAlternateInterface, (TAny*)aAlternateInterface); |
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if(err == KErrNone) |
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{ |
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iAlternateSetting = aAlternateInterface; |
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} |
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return err; |
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} |
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TInt RUsbInterface::GetStringDescriptor(TDes8& aStringDescriptor, TUint8 aIndex, TUint16 aLangId) |
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{ |
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TUint32 params; |
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params = aIndex | (aLangId << 16); |
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return DoControl(EGetStringDescriptor, &aStringDescriptor, ¶ms); |
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} |
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/** |
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Performs an Endpoint 0 transfer. |
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*/ |
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void RUsbInterface::Ep0Transfer(TUsbTransferRequestDetails& aDetails, const TDesC8& aSend, TDes8& aRecv, TRequestStatus& aRequest) |
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{ |
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aDetails.iSend = &aSend; |
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aDetails.iRecv = &aRecv; |
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DoRequest(EEp0Transfer, aRequest, (TAny*)&aDetails); |
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} |
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/** |
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Cancel an Endpoint 0 transfer. |
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*/ |
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void RUsbInterface::CancelEP0Transfer() |
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{ |
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DoCancel(ECancelEp0Transfer); |
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} |
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/** |
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Establish a pipe between host and device. The RUsbPipe object returned is ready for use. |
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@param aPipe The pipe to connect to the remote endpoint. [out] |
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@param aEndpoint The endpoint on the remote device to connect to. [in] |
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@param aUseDMA In future implementations where DMA is supported this flag indicates DMA must be used. The Open attempt will fail if DMA cannot be offered on the pipe. [in] |
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@return KErrArgument if the specified endpoint does not exist. |
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@see SelectAlternateInterface |
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*/ |
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TInt RUsbInterface::OpenPipeForEndpoint(RUsbPipe& aPipe, TInt aEndpoint, TBool /*aUseDMA*/) |
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{ |
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if(aPipe.iHandle) |
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{ |
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return KErrInUse; |
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} |
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TInt err = GetEndpointDescriptor(iAlternateSetting, aEndpoint, aPipe.iHeadEndpointDescriptor); |
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// Allow KErrNotFound as audio endpoint descriptors are not valid endpoint descriptors |
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if ((err == KErrNone) || (err == KErrNotFound)) |
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{ |
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TUint32 pipeHandle; |
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err = DoControl(EOpenPipe, &pipeHandle, reinterpret_cast<TAny*>(aEndpoint)); |
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if (err == KErrNone) |
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{ |
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aPipe.iHandle = pipeHandle; |
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aPipe.iInterface = this; |
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} |
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} |
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return err; |
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} |
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/** |
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@internalComponent |
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*/ |
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TInt RUsbInterface::AllocateSharedChunk(RChunk& aChunk, TInt aSize, TInt& aOffset) |
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{ |
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TInt chunkHandle = 0; |
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RUsbInterface::TChunkRequestDetails details; |
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details.iRequestSize = aSize; |
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details.iChunkHandle = &chunkHandle; |
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details.iOffset = &aOffset; |
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TInt err = DoControl(EAllocChunk, &details); |
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if(err == KErrNone) |
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{ |
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aChunk.SetHandle(chunkHandle); |
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} |
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return err; |
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} |
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/** |
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Return the section of the USB Configuration Descriptor under this interface, including any alternate |
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interfaces. |
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Note: the supplied TUsbInterfaceDescriptor is owned by the caller, but any descriptor objects linked to it |
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remain the property of the RUsbInterface object. Memory leaks will result if the head pointer is not |
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cleaned up, but the pointed to objects should not be destroyed. |
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@param [out] aDescriptor The supplied TUsbInterfaceDescriptor object will be populated from the data retrieved from |
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the device. Note that the caller owns the head of the list, but not any children or peers. |
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@return System wide error code. |
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*/ |
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TInt RUsbInterface::GetInterfaceDescriptor(TUsbInterfaceDescriptor& aDescriptor) |
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{ |
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if (!iHeadInterfaceDescriptor) |
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{ |
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return KErrNotReady; |
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} |
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aDescriptor = *iHeadInterfaceDescriptor; |
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return KErrNone; |
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} |
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/** |
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Find and return the section of the USB Configuration Descriptor under the supplied alternate interface. |
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Note: the supplied TUsbInterfaceDescriptor is owned by the caller, but any descriptor objects linked to it |
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remain the property of the RUsbInterface object. Memory leaks will result if the head pointer is not |
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cleaned up, but the pointed to objects should not be destroyed. |
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@param aAlternateInterface The alternate interface number to return the descriptor for. [in] |
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@param aDescriptor The supplied TUsbInterfaceDescriptor object will be populated from the data retrieved from |
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the device. Note that the caller owns the head of the list, but not any children or peers. [out] |
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@return KErrArgument if the specified alternate interface does not exist. |
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*/ |
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TInt RUsbInterface::GetAlternateInterfaceDescriptor(TInt aAlternateInterface, TUsbInterfaceDescriptor& aDescriptor) |
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{ |
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if (!iHeadInterfaceDescriptor) |
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{ |
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return KErrNotReady; |
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} |
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TUsbGenericDescriptor* descriptor = iHeadInterfaceDescriptor; |
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while (descriptor) |
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{ |
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TUsbInterfaceDescriptor* interface = TUsbInterfaceDescriptor::Cast(descriptor); |
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if (interface) |
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{ |
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if (interface->AlternateSetting() == aAlternateInterface) |
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{ |
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aDescriptor = *interface; |
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return KErrNone; |
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} |
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} |
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// we must check any Interface Association Descriptors for |
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// Alternate Interface settings. The spec is abiguous on how these may be organised so we |
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// presume the worst and do a full search |
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TUsbInterfaceAssociationDescriptor* iad = TUsbInterfaceAssociationDescriptor::Cast(descriptor); |
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if (iad) |
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{ |
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TUsbGenericDescriptor* assocDes = iad->iFirstChild; |
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while (assocDes) |
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{ |
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interface = TUsbInterfaceDescriptor::Cast(assocDes); |
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if (interface) |
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{ |
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if (interface->AlternateSetting() == aAlternateInterface) |
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{ |
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aDescriptor = *interface; |
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return KErrNone; |
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} |
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} |
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assocDes = assocDes->iNextPeer; |
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} |
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} |
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descriptor = descriptor->iNextPeer; |
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} |
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return KErrArgument; |
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} |
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/** |
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Find and return the section of the USB Configuration Descriptor under the supplied endpoint. |
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Note: the supplied TUsbEndpointDescriptor is owned by the caller, but any descriptor objects linked to it |
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remain the property of the RUsbInterface object. Memory leaks will result if the head pointer is not |
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cleaned up, but the pointed to objects should not be destroyed. |
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@param aAlternateInterface The alternate interface number to return the descriptor for. [in] |
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@param aEndpoint The endpoint number to return the descriptor for. [in] |
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@param aDescriptor The supplied TUsbEndpointDescriptor object will be populated from the data retrieved from |
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the device. Note that the caller owns the head of the list, but not any children or peers. [out] |
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@return KErrArgument if the specified alternate interface does not exist, or KErrNotFound if the specified |
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endpoint cannot be found on the alternate interface. |
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*/ |
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TInt RUsbInterface::GetEndpointDescriptor(TInt aAlternateInterface, TInt aEndpoint, TUsbEndpointDescriptor& aDescriptor) |
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{ |
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TUsbEndpointDescriptor* descriptor = &aDescriptor; |
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TInt err = GetEndpointDescriptor(aAlternateInterface, aEndpoint, descriptor); |
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if ((err == KErrNone) && descriptor) |
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{ |
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aDescriptor = *descriptor; |
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} |
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return err; |
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} |
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TInt RUsbInterface::GetEndpointDescriptor(TInt aAlternateInterface, TInt aEndpoint, TUsbEndpointDescriptor*& aDescriptor) |
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{ |
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aDescriptor = NULL; |
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TUsbInterfaceDescriptor alternate; |
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TInt err = GetAlternateInterfaceDescriptor(aAlternateInterface, alternate); |
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if (err != KErrNone) |
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{ |
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return err; |
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} |
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TUsbGenericDescriptor* descriptor = alternate.iFirstChild; |
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while (descriptor) |
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{ |
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TUsbEndpointDescriptor* endpoint = TUsbEndpointDescriptor::Cast(descriptor); |
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if (endpoint && (endpoint->EndpointAddress() == aEndpoint)) |
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{ |
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aDescriptor = endpoint; |
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return KErrNone; |
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} |
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descriptor = descriptor->iNextPeer; |
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} |
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return KErrNotFound; |
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} |
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/** |
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@return Number of alternate interface options on this interface. |
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*/ |
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TInt RUsbInterface::GetAlternateInterfaceCount() |
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{ |
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if (!iHeadInterfaceDescriptor) |
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{ |
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return KErrNotReady; |
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} |
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TInt count = 0; |
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// Don't need to look for children of the interface -- all the alternates |
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// must be peers. |
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TUsbGenericDescriptor* descriptor = iHeadInterfaceDescriptor; |
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while (descriptor) |
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{ |
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TUsbInterfaceDescriptor* interface = TUsbInterfaceDescriptor::Cast(descriptor); |
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if (interface) |
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{ |
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++count; |
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} |
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else |
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{ |
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// we must check any Interface Association Descriptors for |
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// Alternate Interface settings. The spec is abiguous on how these may be organised so we |
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// presume the worst and do a full search |
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TUsbInterfaceAssociationDescriptor* iad = TUsbInterfaceAssociationDescriptor::Cast(descriptor); |
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if (iad) |
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{ |
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TUsbGenericDescriptor* assocDes = iad->iFirstChild; |
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while (assocDes) |
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{ |
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interface = TUsbInterfaceDescriptor::Cast(assocDes); |
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if (interface) |
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{ |
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++count; |
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} |
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assocDes = assocDes->iNextPeer; |
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} |
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} |
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} |
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descriptor = descriptor->iNextPeer; |
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} |
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return count; |
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} |
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/** |
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Count the endpoints on an alternate interface. |
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@param [in] aAlternateInterface The alternate interface to count endpoints on. |
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@return Number of endpoionts on the requested alternate interface or an error code. |
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*/ |
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TInt RUsbInterface::EnumerateEndpointsOnInterface(TInt aAlternateInterface) |
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{ |
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TUsbInterfaceDescriptor alternate; |
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TInt err = GetAlternateInterfaceDescriptor(aAlternateInterface, alternate); |
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if (err != KErrNone) |
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{ |
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return err; |
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} |
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return alternate.NumEndpoints(); |
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} |
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/** |
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Returns an identifier that is unique for the bus that the device that provides this interface is on. |
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@param aBusId On success provides an identifier that is unique for the bus this interface is on. |
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@return KErrNone on success, otherwise a system-wide error code. |
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*/ |
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TInt RUsbInterface::GetBusId(TUsbBusId& aBusId) |
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{ |
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return DoControl(EGetBusId, &aBusId); |
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} |
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||
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/** |
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Returns the size of pages used by the HCD. |
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@internalComponent |
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87
2f92ad2dc5db
Revision: 201013
Dremov Kirill (Nokia-D-MSW/Tampere) <kirill.dremov@nokia.com>
parents:
0
diff
changeset
|
417 |
@param aHcdPageSize on success provides the HCD's page size. |
2f92ad2dc5db
Revision: 201013
Dremov Kirill (Nokia-D-MSW/Tampere) <kirill.dremov@nokia.com>
parents:
0
diff
changeset
|
418 |
@return KErrNone on success, otherwise a system-wide error code. |
0 | 419 |
*/ |
87
2f92ad2dc5db
Revision: 201013
Dremov Kirill (Nokia-D-MSW/Tampere) <kirill.dremov@nokia.com>
parents:
0
diff
changeset
|
420 |
TInt RUsbInterface::GetHcdPageSize(TInt& aHcdPageSize) |
0 | 421 |
{ |
87
2f92ad2dc5db
Revision: 201013
Dremov Kirill (Nokia-D-MSW/Tampere) <kirill.dremov@nokia.com>
parents:
0
diff
changeset
|
422 |
return DoControl(EHcdPageSize, &aHcdPageSize); |
0 | 423 |
} |
424 |
||
425 |
/** |
|
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Returns the speed the remote device is connected at. |
|
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@param aDeviceSpeed On sucess an enumeration value describing the current speed of the remote device. |
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@return KErrNone on success, otherwise a system-wide error code. |
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*/ |
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TInt RUsbInterface::GetDeviceSpeed(RUsbInterface::TDeviceSpeed& aDeviceSpeed) |
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{ |
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return DoControl(EGetDeviceSpeed, &aDeviceSpeed); |
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} |
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435 |
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436 |
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437 |
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438 |
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RUsbPipe::RUsbPipe() |
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: iHandle(0) |
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, iInterface(NULL) |
|
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{ |
|
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} |
|
444 |
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TUint32 RUsbPipe::Handle() const |
|
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{ |
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return iHandle; |
|
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} |
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/** |
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Close a pipe to a remote device. |
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*/ |
|
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void RUsbPipe::Close() |
|
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{ |
|
455 |
if (iInterface) |
|
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{ |
|
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static_cast<void>(iInterface->DoControl(EClose, (TAny*)iHandle)); |
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} |
|
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iHeadEndpointDescriptor = NULL; |
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iInterface = NULL; |
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iHandle = 0; |
|
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} |
|
463 |
||
464 |
/** |
|
465 |
Clear a stall on the remote endpoint. |
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466 |
||
467 |
@return System-wide error code. |
|
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*/ |
|
469 |
TInt RUsbPipe::ClearRemoteStall() |
|
470 |
{ |
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471 |
__ASSERT_ALWAYS(iHandle, User::Panic(UsbdiPanics::KUsbdiPanicCat, UsbdiPanics::EPipeRequestMadeWhileClosed)); |
|
472 |
__ASSERT_DEBUG(iInterface, User::Panic(UsbdiFaults::KUsbdiFaultCat, UsbdiFaults::EUsbPipeHasHandleButNoInterface)); |
|
473 |
return iInterface->DoControl(EClearRemoteStall, (TAny*)iHandle); |
|
474 |
} |
|
475 |
||
476 |
/** |
|
477 |
Cancel all queued transfers |
|
478 |
*/ |
|
479 |
void RUsbPipe::CancelAllTransfers() |
|
480 |
{ |
|
481 |
__ASSERT_ALWAYS(iHandle, User::Panic(UsbdiPanics::KUsbdiPanicCat, UsbdiPanics::EPipeRequestMadeWhileClosed)); |
|
482 |
__ASSERT_DEBUG(iInterface, User::Panic(UsbdiFaults::KUsbdiFaultCat, UsbdiFaults::EUsbPipeHasHandleButNoInterface)); |
|
483 |
static_cast<void>(iInterface->DoControl(EAbort, (TAny*)iHandle)); |
|
484 |
} |
|
485 |
||
486 |
/** |
|
487 |
Issues a transfer. |
|
488 |
@internalComponent |
|
489 |
*/ |
|
490 |
void RUsbPipe::IssueTransfer(TInt aTransferHandle, TRequestStatus& aRequest) |
|
491 |
{ |
|
492 |
__ASSERT_ALWAYS(iHandle, User::Panic(UsbdiPanics::KUsbdiPanicCat, UsbdiPanics::EPipeRequestMadeWhileClosed)); |
|
493 |
__ASSERT_DEBUG(iInterface, User::Panic(UsbdiFaults::KUsbdiFaultCat, UsbdiFaults::EUsbPipeHasHandleButNoInterface)); |
|
494 |
iInterface->DoRequest(EIssueTransfer, aRequest, (TAny*)iHandle, (TAny*)aTransferHandle); |
|
495 |
} |
|
496 |
||
497 |
/** |
|
498 |
Get endpoint ID |
|
499 |
*/ |
|
500 |
TInt RUsbPipe::GetEndpointId(TUsbEndpointId& aEndpointId) |
|
501 |
{ |
|
502 |
__ASSERT_ALWAYS(iHandle, User::Panic(UsbdiPanics::KUsbdiPanicCat, UsbdiPanics::EPipeRequestMadeWhileClosed)); |
|
503 |
__ASSERT_DEBUG(iInterface, User::Panic(UsbdiFaults::KUsbdiFaultCat, UsbdiFaults::EUsbPipeHasHandleButNoInterface)); |
|
504 |
return iInterface->DoControl(EGetEndpointId, reinterpret_cast<TAny*>(iHandle), &aEndpointId); |
|
505 |
} |
|
506 |
||
507 |
/** |
|
508 |
Get Bus ID |
|
509 |
*/ |
|
510 |
TInt RUsbPipe::GetBusId(TUsbBusId& aBusId) |
|
511 |
{ |
|
512 |
__ASSERT_ALWAYS(iHandle, User::Panic(UsbdiPanics::KUsbdiPanicCat, UsbdiPanics::EPipeRequestMadeWhileClosed)); |
|
513 |
__ASSERT_DEBUG(iInterface, User::Panic(UsbdiFaults::KUsbdiFaultCat, UsbdiFaults::EUsbPipeHasHandleButNoInterface)); |
|
514 |
return iInterface->GetBusId(aBusId); |
|
515 |
} |
|
516 |
||
517 |
/** |
|
518 |
Return the section of the USB Configuration Descriptor under the supplied endpoint. |
|
519 |
||
520 |
@param [out] aDescriptor The descriptor tree for this endpoint. |
|
521 |
@return System-wide error code. |
|
522 |
*/ |
|
523 |
TInt RUsbPipe::GetEndpointDescriptor(TUsbEndpointDescriptor& aDescriptor) |
|
524 |
{ |
|
525 |
__ASSERT_ALWAYS(iHandle, User::Panic(UsbdiPanics::KUsbdiPanicCat, UsbdiPanics::EPipeRequestMadeWhileClosed)); |
|
526 |
__ASSERT_DEBUG(iInterface, User::Panic(UsbdiFaults::KUsbdiFaultCat, UsbdiFaults::EUsbPipeHasHandleButNoInterface)); |
|
527 |
||
528 |
if (iHeadEndpointDescriptor) |
|
529 |
{ |
|
530 |
aDescriptor = *iHeadEndpointDescriptor; |
|
531 |
return KErrNone; |
|
532 |
} |
|
533 |
else |
|
534 |
{ |
|
535 |
return KErrNotFound; |
|
536 |
} |
|
537 |
} |
|
538 |
||
539 |
#endif |