--- /dev/null Thu Jan 01 00:00:00 1970 +0000
+++ b/usbdrv/peripheral/public/usbcshared.h Fri Jul 23 15:54:47 2010 +0800
@@ -0,0 +1,997 @@
+// Copyright (c) 2000-2009 Nokia Corporation and/or its subsidiary(-ies).
+// All rights reserved.
+// This component and the accompanying materials are made available
+// under the terms of the License "Eclipse Public License v1.0"
+// which accompanies this distribution, and is available
+// at the URL "http://www.eclipse.org/legal/epl-v10.html".
+//
+// Initial Contributors:
+// Nokia Corporation - initial contribution.
+//
+// Contributors:
+//
+// Description:
+// e32\include\drivers\usbcshared.h
+// Kernel side definitions for the USB Device driver stack (PIL + LDD).
+//
+//
+
+/**
+ @file usbcshared.h
+ @internalTechnology
+*/
+
+#ifndef __USBCSHARED_H__
+#define __USBCSHARED_H__
+
+//#include <drivers/usbcque.h>
+#include <usb/usbcque.h>
+
+// Define here what options are required:
+// (USB_SUPPORTS_CONTROLENDPOINTS and USB_SUPPORTS_SET_DESCRIPTOR_REQUEST
+// have never been tested though...)
+//#define USB_SUPPORTS_CONTROLENDPOINTS
+//#define USB_SUPPORTS_SET_DESCRIPTOR_REQUEST
+
+//#include <drivers/usbcdesc.h>
+#include <usb/usbcdesc.h>
+//#include <drivers/usbotgperipheralcontrolif.h>
+#include <usb/usbotgperipheralcontrolif.h>
+
+#include <usb/usb_peripheral_shai.h>
+#include <usb/usb_charger_detection_shai.h>
+
+#include <usb/usbcontrolxferif.h>
+
+// FIXME: Remove this typedef once PIL and LDD are ready for SHAI
+typedef UsbShai::TUsbPeripheralEvent TUsbcDeviceEvent;
+typedef UsbShai::TUsbPeripheralPacketArray TUsbcPacketArray;
+
+// Forward declaration
+class DControlTransferManager;
+class TUsbcSetup;
+
+// Debug Support
+
+// Use for debugging purposes only (commented out for normal operation):
+//#define USBC_LDD_BUFFER_TRACE
+
+static const char KUsbPILPanicCat[] = "USB PIL FAULT"; // kernel fault category
+_LIT(KUsbPILKillCat, "USB PIL KILL"); // thread kill category
+_LIT(KUsbLDDKillCat, "USB LDD KILL"); // thread kill category
+
+/** Error code for stalled endpoint.
+*/
+const TInt KErrEndpointStall = KErrLocked;
+
+/** Error code for Ep0 write prematurely ended by a host OUT token.
+*/
+const TInt KErrPrematureEnd = KErrDiskFull;
+
+/** The following constants control the buffer arrangement for OUT transfers (IN transfers have only 1
+ buffer). The total size of buffering for an OUT endpoint will be number of buffers * buffersize,
+ so that, for example, a Bulk OUT endpoint will have KUsbcDmaBufNumBulk * KUsbcDmaBufSzBulk bytes of
+ buffering.
+ These buffers will be physically contiguous, so that DMA may be used.
+ The number of buffers MUST be >=2 - otherwise the buffering scheme won't work.
+ The buffer sizes should be an exact fraction of 4kB and the number of buffers such that the
+ buffersize * number of buffers is an exact multiple of 4kB, otherwise memory will be wasted.
+*/
+/** Size of a Control ep buffer.
+*/
+const TInt KUsbcDmaBufSzControl = 1024;
+
+/** Size of a Bulk ep buffer.
+*/
+const TInt KUsbcDmaBufSzBulk = 4096;
+
+/** Size of an Interrupt ep buffer.
+*/
+const TInt KUsbcDmaBufSzInterrupt = 4096;
+
+/** Size of an Isochronous ep buffer.
+*/
+const TInt KUsbcDmaBufSzIsochronous = 4096;
+
+/** Number of buffers for Control OUT endpoints.
+*/
+const TInt KUsbcDmaBufNumControl = 2;
+
+/** Number of buffers for Isochronous OUT endpoints.
+*/
+const TInt KUsbcDmaBufNumIsochronous = 2;
+
+/** Number of buffers for Bulk OUT endpoints.
+*/
+const TInt KUsbcDmaBufNumBulk = 2;
+
+/** Number of buffers for Interrupt OUT endpoints.
+*/
+const TInt KUsbcDmaBufNumInterrupt = 2;
+
+/** Maximum buffer number.
+*/
+const TInt KUsbcDmaBufNumMax = MAX4(KUsbcDmaBufNumControl, KUsbcDmaBufNumIsochronous,
+ KUsbcDmaBufNumBulk, KUsbcDmaBufNumInterrupt);
+
+/** Maximum number of recorded packets possible.
+*/
+const TUint KUsbcDmaBufMaxPkts = 2;
+
+/** Number of arrays.
+*/
+const TInt KUsbcDmaBufNumArrays = 2;
+
+/** Max size that Ep0 packets might have.
+*/
+const TInt KUsbcBufSzControl = 64;
+
+/** The Ep0 RX data collection buffer area.
+ (Arbitrary size, judged to be sufficient for SET_DESCRIPTOR requests)
+*/
+const TInt KUsbcBufSz_Ep0Rx = 1024;
+
+/** The Ep0 TX buffer area.
+ (Size sufficient to hold as much data as can be requested via GET_DESCRIPTOR)
+*/
+const TInt KUsbcBufSz_Ep0Tx = 1024 * 64;
+
+
+/** The USB version the stack is compliant with: 2.0 (BCD).
+*/
+const TUint16 KUsbcUsbVersion = 0x0200;
+
+/** Maximum number of endpoints an interface (i.e. LDD) may have.
+*/
+const TInt KUsbcMaxEpNumber = 5;
+
+/** Status FIFO depth; enough for 2 complete configs.
+*/
+const TInt KUsbDeviceStatusQueueDepth = 15;
+
+/** = 'no status info'.
+*/
+const TUint32 KUsbDeviceStatusNull = 0xffffffffu;
+
+/** = 'no buffer available'.
+*/
+const TInt KUsbcInvalidBufferIndex = -1;
+
+/** = 'no packet available'.
+*/
+const TUint KUsbcInvalidPacketIndex = (TUint)(-1);
+
+/** = 'no drainable buffers'.
+*/
+const TInt KUsbcInvalidDrainQueueIndex = -1;
+
+/** Number of possible bandwidth priorities.
+*/
+const TInt KUsbcDmaBufMaxPriorities = 4;
+
+// The following buffer sizes are used within the LDD for the different
+// user-selectable endpoint bandwidth priorities
+// (EUsbcBandwidthOUTDefault/Plus1/Plus2/Maximum + the same for 'IN').
+// These values, in particular those for the Maximum setting, were obtained
+// empirically.
+
+/** Bulk IN buffer sizes for different priorities (4K, 16K, 64K, 512K).
+*/
+const TInt KUsbcDmaBufSizesBulkIN[KUsbcDmaBufMaxPriorities] =
+ {KUsbcDmaBufSzBulk, 0x4000, 0x10000, 0x80000};
+
+/** Bulk OUT buffer sizes for different priorities (4K, 16K, 64K, 512K).
+*/
+const TInt KUsbcDmaBufSizesBulkOUT[KUsbcDmaBufMaxPriorities] =
+ {KUsbcDmaBufSzBulk, 0x4000, 0x10000, 0x80000};
+
+/** Number of UDCs supported in the system.
+ (Support for more than one UDC is preliminary.)
+*/
+const TInt KUsbcMaxUdcs = 2;
+
+/** Number of endpoints a USB device can have.
+ (30 regular endpoints + 2 x Ep0)
+*/
+const TInt KUsbcEpArraySize = KUsbcMaxEndpoints + 2;
+
+/** Number of notification requests of the same kind that can be registered at
+ a time. As normally not more than one request per kind per LDD is
+ permitted, this number is roughly equivalent to the maximum number of LDDs
+ that can be operating at the same time.
+ This constant is used by the PIL while maintaining its request lists
+ (iClientCallbacks, iStatusCallbacks, iEpStatusCallbacks, iOtgCallbacks) to
+ ensure that the lists are of a finite length and thus the list traverse
+ time is bounded.
+ This value is chosen with the maximum number of USB interfaces (not
+ settings) allowed by the spec for a single device in mind.
+*/
+const TInt KUsbcMaxListLength = 256;
+
+/**
+ * device event FIFO depth, there are 5 different event define currently,
+ * 10 should be enough
+ */
+const TInt KUsbDeviceEventQueueDepth = 10;
+
+/** USB LDD client callback.
+*/
+class TUsbcClientCallback
+ {
+public:
+ inline TUsbcClientCallback(DBase* aOwner, TDfcFn aCallback, TInt aPriority);
+ inline DBase* Owner() const;
+ inline TInt DoCallback();
+ inline void Cancel();
+ inline void SetDfcQ(TDfcQue* aDfcQ);
+public:
+ /** Used by the PIL to queue callback objects into a TSglQue. */
+ TSglQueLink iLink;
+private:
+ DBase* iOwner;
+ TDfc iDfc;
+ };
+
+
+/** The endpoint halt/clear_halt status.
+*/
+class TUsbcEndpointStatusCallback
+ {
+public:
+ inline TUsbcEndpointStatusCallback(DBase* aOwner, TDfcFn aCallback, TInt aPriority);
+ inline void SetState(TUint aState);
+ inline TUint State() const;
+ inline DBase* Owner() const;
+ inline TInt DoCallback();
+ inline void Cancel();
+ inline void SetDfcQ(TDfcQue* aDfcQ);
+public:
+ /** Used by the PIL to queue callback objects into a TSglQue. */
+ TSglQueLink iLink;
+private:
+ DBase* iOwner;
+ TDfc iDfc;
+ TUint iState;
+ };
+
+
+/** Maximum number of device status requests that can be queued at a time.
+ The value chosen is thought to be sufficient in all situations.
+*/
+const TInt KUsbcDeviceStateRequests = 8;
+
+
+/** The USB device status.
+*/
+class TUsbcStatusCallback
+ {
+public:
+ inline TUsbcStatusCallback(DBase* aOwner, TDfcFn aCallback, TInt aPriority);
+ inline void SetState(UsbShai::TUsbPeripheralState aState);
+ inline UsbShai::TUsbPeripheralState State(TInt aIndex) const;
+ inline void ResetState();
+ inline DBase* Owner() const;
+ inline TInt DoCallback();
+ inline void Cancel();
+ inline void SetDfcQ(TDfcQue* aDfcQ);
+public:
+ /** Used by the PIL to queue callback objects into a TSglQue. */
+ TSglQueLink iLink;
+private:
+ DBase* iOwner;
+ TDfc iDfc;
+ UsbShai::TUsbPeripheralState iState[KUsbcDeviceStateRequests];
+ };
+
+
+/** A USB transfer request.
+
+ @publishedPartner
+ @released
+*/
+class TUsbcRequestCallback : public UsbShai::TUsbPeripheralRequest
+ {
+public:
+ /** @internalTechnology */
+ inline TUsbcRequestCallback(const DBase* aOwner, TInt aEndpointNum, TDfcFn aDfcFunc,
+ TAny* aEndpoint, TDfcQue* aDfcQ, TInt aPriority);
+ /** @internalTechnology */
+ inline ~TUsbcRequestCallback();
+
+ IMPORT_C void SetRxBufferInfo(TUint8* aBufferStart,
+ TUintPtr aBufferAddr,
+ TUint32* aPacketIndex,
+ TUint32* aPacketSize,
+ TInt aLength);
+
+ IMPORT_C void SetTxBufferInfo(TUint8* aBufferStart,
+ TUintPtr aBufferAddr,
+ TInt aLength);
+
+ /** @internalTechnology */
+ inline void SetTransferDirection(UsbShai::TTransferDirection aTransferDir);
+ /** @internalTechnology */
+ inline const DBase* Owner() const;
+ /** @internalTechnology */
+ inline TInt DoCallback();
+ /** @internalTechnology */
+ inline void Cancel();
+public:
+ /** Used by the PIL to queue callback objects into a TSglQue.
+ @internalTechnology
+ */
+ TSglQueLink iLink;
+public:
+ /** The endpoint number. */
+ const TInt iEndpointNum;
+
+ /** Indicates the LDD client for this transfer. */
+ const DBase* const iOwner;
+ /** DFC, used by PIL to call back the LDD when transfer completes to the LDD. */
+ TDfc iDfc;
+ };
+
+/** USB On-The-Go feature change callback.
+*/
+class TUsbcOtgFeatureCallback
+ {
+public:
+ inline TUsbcOtgFeatureCallback(DBase* aOwner, TDfcFn aCallback, TInt aPriority);
+ inline void SetFeatures(TUint8 aFeatures);
+ inline TUint8 Features() const;
+ inline DBase* Owner() const;
+ inline TInt DoCallback();
+ inline void Cancel();
+ inline void SetDfcQ(TDfcQue* aDfcQ);
+public:
+ /** Used by the PIL to queue callback objects into a TSglQue. */
+ TSglQueLink iLink;
+private:
+ DBase* iOwner;
+ TDfc iDfc;
+ TUint8 iValue;
+ };
+
+//
+//########################### Physical Device Driver (PIL + PSL) ######################
+//
+
+class TUsbcLogicalEndpoint;
+
+/** This models a physical (real) endpoint of the UDC.
+*/
+class TUsbcPhysicalEndpoint
+ {
+public:
+ TUsbcPhysicalEndpoint();
+ ~TUsbcPhysicalEndpoint();
+ TBool EndpointSuitable(const TUsbcEndpointInfo* aEpInfo, TInt aIfcNumber) const; // Check Todo, SC will pass pointer to derived class
+ TInt TypeAvailable(TUint aType) const;
+ TInt DirAvailable(TUint aDir) const;
+public:
+ /** This endpoint's capabilities. */
+ UsbShai::TUsbPeripheralEndpointCaps iCaps;
+ /** USB address: 0x00, 0x80, 0x01, 0x81, etc. */
+ TUint8 iEndpointAddr;
+ /** Pointer to interface # this endpoint has been assigned to. */
+ const TUint8* iIfcNumber;
+ /** Pointer to corresponding logical endpoint or NULL. */
+ const TUsbcLogicalEndpoint* iLEndpoint;
+ /** Only used when searching for available endpoints. */
+ TBool iSettingReserve;
+ /** True if endpoint is halted (i.e. issues STALL handshakes), false otherwise. */
+ TBool iHalt;
+ };
+
+
+class DUsbClientController;
+class TUsbcInterface;
+
+/** This is a 'logical' endpoint, as used by our device configuration model.
+*/
+class TUsbcLogicalEndpoint
+ {
+public:
+ TUsbcLogicalEndpoint(DUsbClientController* aController, TUint aEndpointNum,
+ const TUsbcEndpointInfo& aEpInfo, TUsbcInterface* aInterface,
+ TUsbcPhysicalEndpoint* aPEndpoint); // Check Todo, SC will pass pointer to derived class
+ ~TUsbcLogicalEndpoint();
+public:
+ /** Pointer to controller object. */
+ DUsbClientController* iController;
+ /** The virtual (logical) endpoint number. */
+ const TInt iLEndpointNum;
+ /** This endpoint's info structure. */
+ TUsbcEndpointInfo iInfo; // Check Todo, SC will pass pointer to derived class
+ /** Stores the endpoint size to be used for FS. */
+ TInt iEpSize_Fs;
+ /** Stores the endpoint size to be used for HS. */
+ TInt iEpSize_Hs;
+ /** 'Back' pointer. */
+ const TUsbcInterface* iInterface;
+ /** Pointer to corresponding physical endpoint, never NULL. */
+ TUsbcPhysicalEndpoint* const iPEndpoint;
+ };
+
+
+class TUsbcInterfaceSet;
+
+/** This is an 'alternate setting' of an interface.
+*/
+class TUsbcInterface
+ {
+public:
+ TUsbcInterface(TUsbcInterfaceSet* aIfcSet, TUint8 aSetting, TBool aNoEp0Requests);
+ ~TUsbcInterface();
+public:
+ /** Array of endpoints making up (belonging to) this setting. */
+ RPointerArray<TUsbcLogicalEndpoint> iEndpoints;
+ /** 'Back' pointer. */
+ TUsbcInterfaceSet* const iInterfaceSet;
+ /** bAlternateSetting (zero-based). */
+ const TUint8 iSettingCode;
+ /** KUsbcInterfaceInfo_NoEp0RequestsPlease: stall non-std Setup requests. */
+ const TBool iNoEp0Requests;
+ };
+
+
+/** This is an 'interface' (owning 1 or more alternate settings).
+
+ @see TUsbcInterface
+*/
+class TUsbcInterfaceSet
+ {
+public:
+ TUsbcInterfaceSet(const DBase* aClientId, TUint8 aIfcNum);
+ ~TUsbcInterfaceSet();
+ inline const TUsbcInterface* CurrentInterface() const;
+ inline TUsbcInterface* CurrentInterface();
+public:
+ /** Array of alternate settings provided by (belonging to) this interface. */
+ RPointerArray<TUsbcInterface> iInterfaces;
+ /** Pointer to the LDD which created and owns this interface. */
+ const DBase* const iClientId;
+ /** bInterfaceNumber (zero-based). */
+ TUint8 iInterfaceNumber;
+ /** bAlternateSetting (zero-based). */
+ TUint8 iCurrentInterface;
+ };
+
+
+/** This is a 'configuration' of the USB device.
+ Currently we support only one configuration.
+*/
+class TUsbcConfiguration
+ {
+public:
+ TUsbcConfiguration(TUint8 aConfigVal);
+ ~TUsbcConfiguration();
+public:
+ /** Array of interfaces making up (belonging to) this configuration. */
+ RPointerArray<TUsbcInterfaceSet> iInterfaceSets;
+ /** bConfigurationValue (one-based). */
+ const TUint8 iConfigValue;
+ };
+
+
+/** The USB controller's power handler class.
+*/
+NONSHARABLE_CLASS(DUsbcPowerHandler) : public DPowerHandler
+ {
+public:
+ void PowerUp();
+ void PowerDown(TPowerState);
+public:
+ DUsbcPowerHandler(DUsbClientController* aController);
+private:
+ DUsbClientController* iController;
+ };
+
+
+/*
+This is the EndpointInfo class used by the usb shared chunk client driver.
+*/
+
+class TUsbcScEndpointInfo;
+
+
+/**
+Used to represent an array of (or inheriting from) TUsbcEndpointInfo objects.
+
+@see DUsbClientController::SetInterface
+*/
+
+class TUsbcEndpointInfoArray
+ {
+public:
+ typedef enum {EUsbcEndpointInfo, EUsbcScEndpointInfo} TArrayType;
+
+ TUsbcEndpointInfoArray(const TUsbcEndpointInfo* aData, TInt aDataSize=0);
+ TUsbcEndpointInfoArray(const TUsbcScEndpointInfo* aData, TInt aDataSize=0);
+ inline TUsbcEndpointInfo& operator[](TInt aIndex) const;
+
+ TArrayType iType;
+private:
+ TUint8* iData;
+ TInt iDataSize;
+ };
+
+class TUsbPeriDeviceEventQueue
+ {
+public:
+ TUsbPeriDeviceEventQueue();
+
+ void FifoAdd(TUsbcDeviceEvent aDeviceStatus);
+ TUsbcDeviceEvent FifoGet();
+
+private:
+ TUsbcDeviceEvent iDeviceEventQueue[KUsbDeviceEventQueueDepth];
+ TInt iDeviceQueueHead;
+ TInt iDeviceQueueTail;
+ };
+
+class TUsbcRequestCallback; // todo?? required only for class below
+
+/** The USB Device software controller class.
+
+ Implements the platform-independent layer (PIL), and defines the interface to the
+ platform-specific layer PSL).
+
+ The implementation of the platform-specific layer interfaces with the hardware.
+*/
+NONSHARABLE_CLASS(DUsbClientController) : public DBase,
+ public MUsbOtgPeripheralControlIf,
+ public UsbShai::MUsbPeripheralPilCallbackIf,
+ public MControlTransferIf,
+ public UsbShai::MChargerDetectorObserverIf
+ {
+ friend class UsbShai::UsbPeripheralPil;
+ friend class TUsbHostWrapperEntry;
+ friend class DUsbcPowerHandler;
+ friend TUsbcLogicalEndpoint::~TUsbcLogicalEndpoint();
+ //
+ // --- Platform Independent Layer (PIL) ---
+ //
+
+
+private:
+ /**
+ * Two-phase constructor used by the friend classes that receive
+ * the registration calls for peripheral controllers.
+ *
+ * @param aPeripheralControllerIf Reference to the Peripheral
+ * Controller interface implemented by the registering PSL.
+ *
+ * @param aProperties Reference to an object describing the
+ * static properties of the Peripheral Controller. The PIL
+ * layer requires that the supplied reference remains valid
+ * indefinitely, as a Peripheral Controller cannot unregister.
+ *
+ * @param aIsOtgPort ETrue if this Peripheral Controller is part
+ * of an OTG port. EFalse otherwise.
+ *
+ * @return Pointer to a new instance or NULL if failed
+ */
+ IMPORT_C static DUsbClientController* Create(UsbShai::MPeripheralControllerIf& aPeripheralControllerIf,
+ const UsbShai::TPeripheralControllerProperties& aProperties,
+ TBool aIsOtgPort);
+
+
+public:
+
+ //
+ // --- The following functions constitute the PIL interface to the LDD ---
+ //
+ virtual ~DUsbClientController();
+ IMPORT_C void DisableClientStack();
+ IMPORT_C void EnableClientStack();
+ IMPORT_C TBool IsActive();
+ IMPORT_C TInt RegisterClientCallback(TUsbcClientCallback& aCallback);
+ IMPORT_C static DUsbClientController* UsbcControllerPointer(TInt aUdc=0);
+ IMPORT_C void EndpointCaps(const DBase* aClientId, TDes8 &aCapsBuf) const;
+ IMPORT_C void DeviceCaps(const DBase* aClientId, TDes8 &aCapsBuf) const;
+ IMPORT_C TInt SetInterface(const DBase* aClientId, DThread* aThread, TInt aInterfaceNum,
+ TUsbcClassInfo& aClass, TDesC8* aString, TInt aTotalEndpointsUsed,
+ const TUsbcEndpointInfo aEndpointData[], TInt (*aRealEpNumbers)[6],
+ TUint32 aFeatureWord);
+ IMPORT_C TInt SetInterface(const DBase* aClientId, DThread* aThread,
+ TInt aInterfaceNum, TUsbcClassInfo& aClass,
+ TDesC8* aString, TInt aTotalEndpointsUsed,
+ const TUsbcEndpointInfoArray aEndpointData,
+ TInt aRealEpNumbers[], TUint32 aFeatureWord);
+ IMPORT_C TInt ReleaseInterface(const DBase* aClientId, TInt aInterfaceNum);
+ IMPORT_C TInt ReEnumerate();
+ IMPORT_C TInt PowerUpUdc();
+ IMPORT_C TInt UsbConnect();
+ IMPORT_C TInt UsbDisconnect();
+ IMPORT_C TInt RegisterForStatusChange(TUsbcStatusCallback& aCallback);
+ IMPORT_C TInt DeRegisterForStatusChange(const DBase* aClientId);
+ IMPORT_C TInt RegisterForEndpointStatusChange(TUsbcEndpointStatusCallback& aCallback);
+ IMPORT_C TInt DeRegisterForEndpointStatusChange(const DBase* aClientId);
+ IMPORT_C TInt GetInterfaceNumber(const DBase* aClientId, TInt& aInterfaceNum) const;
+ IMPORT_C TInt DeRegisterClient(const DBase* aClientId);
+ IMPORT_C TInt Ep0PacketSize() const;
+ IMPORT_C TInt Ep0Stall(const DBase* aClientId);
+ IMPORT_C void SendEp0StatusPacket(const DBase* aClientId);
+ IMPORT_C UsbShai::TUsbPeripheralState GetDeviceStatus() const;
+ IMPORT_C TEndpointState GetEndpointStatus(const DBase* aClientId, TInt aEndpointNum) const;
+ IMPORT_C TInt SetupReadBuffer(TUsbcRequestCallback& aCallback);
+ IMPORT_C TInt SetupWriteBuffer(TUsbcRequestCallback& aCallback);
+ IMPORT_C void CancelReadBuffer(const DBase* aClientId, TInt aRealEndpoint);
+ IMPORT_C void CancelWriteBuffer(const DBase* aClientId, TInt aRealEndpoint);
+ IMPORT_C TInt HaltEndpoint(const DBase* aClientId, TInt aEndpointNum);
+ IMPORT_C TInt ClearHaltEndpoint(const DBase* aClientId, TInt aEndpointNum);
+ IMPORT_C TInt SetDeviceControl(const DBase* aClientId);
+ IMPORT_C TInt ReleaseDeviceControl(const DBase* aClientId);
+ IMPORT_C TUint EndpointZeroMaxPacketSizes() const;
+ IMPORT_C TInt SetEndpointZeroMaxPacketSize(TInt aMaxPacketSize);
+ IMPORT_C TInt GetDeviceDescriptor(DThread* aThread, TDes8& aDeviceDescriptor);
+ IMPORT_C TInt SetDeviceDescriptor(DThread* aThread, const TDes8& aDeviceDescriptor);
+ IMPORT_C TInt GetDeviceDescriptorSize(DThread* aThread, TDes8& aSize);
+ IMPORT_C TInt GetConfigurationDescriptor(DThread* aThread, TDes8& aConfigurationDescriptor);
+ IMPORT_C TInt SetConfigurationDescriptor(DThread* aThread, const TDes8& aConfigurationDescriptor);
+ IMPORT_C TInt GetConfigurationDescriptorSize(DThread* aThread, TDes8& aSize);
+ IMPORT_C TInt SetOtgDescriptor(DThread* aThread, const TDesC8& aOtgDesc);
+ IMPORT_C TInt GetOtgDescriptor(DThread* aThread, TDes8& aOtgDesc) const;
+ IMPORT_C TInt GetOtgFeatures(DThread* aThread, TDes8& aFeatures) const;
+ IMPORT_C TInt GetCurrentOtgFeatures(TUint8& aFeatures) const;
+ IMPORT_C TInt RegisterForOtgFeatureChange(TUsbcOtgFeatureCallback& aCallback);
+ IMPORT_C TInt DeRegisterForOtgFeatureChange(const DBase* aClientId);
+ IMPORT_C TInt GetInterfaceDescriptor(DThread* aThread, const DBase* aClientId, TInt aSettingNum,
+ TDes8& aInterfaceDescriptor);
+ IMPORT_C TInt SetInterfaceDescriptor(DThread* aThread, const DBase* aClientId, TInt aSettingNum,
+ const TDes8& aInterfaceDescriptor);
+ IMPORT_C TInt GetInterfaceDescriptorSize(DThread* aThread, const DBase* aClientId, TInt aSettingNum,
+ TDes8& aSize);
+ IMPORT_C TInt GetEndpointDescriptor(DThread* aThread, const DBase* aClientId, TInt aSettingNum,
+ TInt aEndpointNum, TDes8& aEndpointDescriptor);
+ IMPORT_C TInt SetEndpointDescriptor(DThread* aThread, const DBase* aClientId, TInt aSettingNum,
+ TInt aEndpointNum, const TDes8& aEndpointDescriptor);
+ IMPORT_C TInt GetEndpointDescriptorSize(DThread* aThread, const DBase* aClientId, TInt aSettingNum,
+ TInt aEndpointNum, TDes8& aSize);
+ IMPORT_C TInt GetDeviceQualifierDescriptor(DThread* aThread, TDes8& aDeviceQualifierDescriptor);
+ IMPORT_C TInt SetDeviceQualifierDescriptor(DThread* aThread, const TDes8& aDeviceQualifierDescriptor);
+ IMPORT_C TInt GetOtherSpeedConfigurationDescriptor(DThread* aThread, TDes8& aConfigurationDescriptor);
+ IMPORT_C TInt SetOtherSpeedConfigurationDescriptor(DThread* aThread, const TDes8& aConfigurationDescriptor);
+ IMPORT_C TInt GetCSInterfaceDescriptorBlock(DThread* aThread, const DBase* aClientId, TInt aSettingNum,
+ TDes8& aInterfaceDescriptor);
+ IMPORT_C TInt SetCSInterfaceDescriptorBlock(DThread* aThread, const DBase* aClientId, TInt aSettingNum,
+ const TDes8& aInterfaceDescriptor, TInt aSize);
+ IMPORT_C TInt GetCSInterfaceDescriptorBlockSize(DThread* aThread, const DBase* aClientId,
+ TInt aSettingNum, TDes8& aSize);
+ IMPORT_C TInt GetCSEndpointDescriptorBlock(DThread* aThread, const DBase* aClientId, TInt aSettingNum,
+ TInt aEndpointNum, TDes8& aEndpointDescriptor);
+ IMPORT_C TInt SetCSEndpointDescriptorBlock(DThread* aThread, const DBase* aClientId, TInt aSettingNum,
+ TInt aEndpointNum, const TDes8& aEndpointDescriptor,
+ TInt aSize);
+ IMPORT_C TInt GetCSEndpointDescriptorBlockSize(DThread* aThread, const DBase* aClientId, TInt aSettingNum,
+ TInt aEndpointNum, TDes8& aSize);
+ IMPORT_C TInt GetStringDescriptorLangId(DThread* aThread, TDes8& aLangId);
+ IMPORT_C TInt SetStringDescriptorLangId(TUint16 aLangId);
+ IMPORT_C TInt GetManufacturerStringDescriptor(DThread* aThread, TDes8& aString);
+ IMPORT_C TInt SetManufacturerStringDescriptor(DThread* aThread, const TDes8& aString);
+ IMPORT_C TInt RemoveManufacturerStringDescriptor();
+ IMPORT_C TInt GetProductStringDescriptor(DThread* aThread, TDes8& aString);
+ IMPORT_C TInt SetProductStringDescriptor(DThread* aThread, const TDes8& aString);
+ IMPORT_C TInt RemoveProductStringDescriptor();
+ IMPORT_C TInt GetSerialNumberStringDescriptor(DThread* aThread, TDes8& aString);
+ IMPORT_C TInt SetSerialNumberStringDescriptor(DThread* aThread, const TDes8& aString);
+ IMPORT_C TInt RemoveSerialNumberStringDescriptor();
+ IMPORT_C TInt GetConfigurationStringDescriptor(DThread* aThread, TDes8& aString);
+ IMPORT_C TInt SetConfigurationStringDescriptor(DThread* aThread, const TDes8& aString);
+ IMPORT_C TInt RemoveConfigurationStringDescriptor();
+ IMPORT_C TInt GetStringDescriptor(DThread* aThread, TUint8 aIndex, TDes8& aString);
+ IMPORT_C TInt SetStringDescriptor(DThread* aThread, TUint8 aIndex, const TDes8& aString);
+ IMPORT_C TInt RemoveStringDescriptor(TUint8 aIndex);
+ IMPORT_C TBool QueryEndpointResource(const DBase* aClientId, TInt aEndpointNum,
+ TUsbcEndpointResource aResource);
+ IMPORT_C TInt EndpointPacketSize(const DBase* aClientId, TInt aEndpointNum);
+
+ // Called by LDD
+ IMPORT_C TDfcQue* DfcQ(TInt aIndex);
+ IMPORT_C void DumpRegisters();
+ IMPORT_C TInt SignalRemoteWakeup();
+ IMPORT_C TBool CurrentlyUsingHighSpeed();
+
+ TInt RegisterUdc(TInt aUdc);
+
+protected:
+
+ // From base class MUsbPeripheralPilCallbackIf
+ void EnablePeripheralStack();
+ void DisablePeripheralStack();
+ void SetOtgObserver(MUsbOtgPeripheralObserverIf* aObserver);
+
+ // Function derived from MUsbPeripheralPilCallbackIf
+ UsbShai::TControlStage EnquireEp0NextStage(const TUint8* aSetupBuf) const;
+ TInt Ep0RequestComplete(TInt aRealEndpoint, TInt aCount, TInt aError,UsbShai::TControlPacketType aPktType);
+ void EndpointRequestComplete(UsbShai::TUsbPeripheralRequest* aCallback);
+ TInt DeviceEventNotification(TUsbcDeviceEvent aEvent);
+ void MoveToAddressState();
+ TInt ProcessSetConfiguration(const TUsbcSetup& aPacket);
+ void HandleHnpRequest(TInt aHnpState);
+ void GetEp0RxBufferInfo(TUint8*& aBuffer, TInt& aBufferLen);
+ void SetRmWakeupStatusEnabled(TBool aRmEnabled);
+ UsbShai::TUsbPeripheralState DeviceStatus() const;
+ TBool Ep0ReceivedNonStdRequest();
+
+ // Functions derived from MControlTransferIf
+ // PSL -> PIL
+ void ProcessDataInPacket(TInt aCount,TInt aErrCode);
+ void ProcessStatusInPacket(TInt aErrCode);
+ void ProcessDataOutPacket(TInt aCount,TInt aErrCode);
+ void ProcessStatusOutPacket(TInt aErrCode);
+ void ProcessSetupPacket(TInt aCount,TInt aErrCode);
+
+ // Request from PIL -> PSL
+ TInt ProcessSetupEndpointZeroRead();
+ TInt ProcessSetupEndpointZeroWrite(const TUint8* aBuffer, TInt aLength, TBool aZlpReqd=EFalse);
+ TInt ProcessSendEp0ZeroByteStatusPacket();
+ TInt ProcessStallEndpoint(TInt aRealEndpoint);
+
+ // Flow control PIL <--> PSL
+ void ProcessEp0SetupPacketProceed();
+ void ProcessEp0DataPacketProceed();
+
+ // Functions from MChargerDetectorObserverIf
+ void NotifyPortType(UsbShai::TPortType aPortType);
+ //
+ //
+ // --- Functions and data members provided by PIL, called by PSL ---
+ //
+private:
+ struct TUsbPeripheralDescriptorPool
+ {
+ TUsbcDeviceDescriptor* iDeviceDesc;
+ TUsbcConfigDescriptor* iConfigDesc;
+ TUsbcLangIdDescriptor* iLangId;
+ TUsbcStringDescriptor* iManufacturer;
+ TUsbcStringDescriptor* iProduct;
+ TUsbcStringDescriptor* iSerialNum;
+ TUsbcStringDescriptor* iConfig;
+ TUsbcOtgDescriptor* iOtgDesc;
+ };
+
+private:
+ // Internal functions that used in Construct only
+ // This function will new a set of descriptors
+ TBool CreateDescriptors(TUsbPeripheralDescriptorPool& aOutput);
+
+ TBool Initialise(TUsbPeripheralDescriptorPool& aDescPool,
+ const UsbShai::TUsbPeripheralEndpointCaps* aEndpointCaps,
+ TInt aTotalEndpoint);
+
+ DUsbClientController(UsbShai::MPeripheralControllerIf& aPeripheralControllerIf,
+ const UsbShai::TPeripheralControllerProperties& aProperties,
+ TBool aIsOtgPort);
+
+ TInt Construct();
+
+ void ProcessStandardRequest(TInt aCount,const TUsbcSetup& aPacket);
+ void ProcessNonStandardRequest(TInt aCount,const TUsbcSetup& aPacket);
+
+ const DBase* FindNonStandardRequestClient(TUint8 aPacketTypeDestination,const TUsbcSetup& aPacket);
+
+ TInt SetupEp0StateMachine();
+
+private:
+
+ /** This info can be used by the PSL before sending ZLPs.
+
+ @publishedPartner @released
+ */
+ TBool iEp0ReceivedNonStdRequest;
+
+ /** True if RMW is currently enabled (set by either PIL or PSL).
+
+ @publishedPartner @released
+ */
+ TBool iRmWakeupStatus_Enabled;
+
+ /** Ep0 incoming (rx) data is placed here (one packet).
+
+ @publishedPartner @released
+ */
+ TUint8 iEp0_RxBuf[KUsbcBufSzControl];
+
+private:
+
+ //
+ // --- Private member functions (used by PIL) ---
+ //
+ TInt DeRegisterClientCallback(const DBase* aClientId);
+ TBool CheckEpAvailability(TInt aEndpointsUsed, const TUsbcEndpointInfoArray& aEndpointData, TInt aIfcNumber)
+ const;
+ TUsbcInterface* CreateInterface(const DBase* aClientId, TInt aIfc, TUint32 aFeatureWord);
+ TInt CreateEndpoints(TUsbcInterface* aIfc, TInt aEndpointsUsed, const TUsbcEndpointInfoArray& aEndpointData,
+ TInt *aRealEpNumbers);
+ TInt SetupIfcDescriptor(TUsbcInterface* aIfc, TUsbcClassInfo& aClass, DThread* aThread, TDesC8* aString,
+ const TUsbcEndpointInfoArray& aEndpointData);
+ TInt ClientId2InterfaceNumber(const DBase* aClientId) const;
+ TUsbcInterfaceSet* ClientId2InterfacePointer(const DBase* aClientId) const;
+ const DBase* InterfaceNumber2ClientId(TInt aIfcSet) const;
+ TUsbcInterfaceSet* InterfaceNumber2InterfacePointer(TInt aIfcSet) const;
+ inline const DBase* PEndpoint2ClientId(TInt aRealEndpoint) const;
+ inline TInt PEndpoint2LEndpoint(TInt aRealEndpoint) const;
+ TInt ActivateHardwareController();
+ void DeActivateHardwareController();
+ void DeleteInterfaceSet(TInt aIfcSet);
+ void DeleteInterface(TInt aIfcSet, TInt aIfc);
+ void CancelTransferRequests(TInt aRealEndpoint);
+ void DeleteRequestCallback(const DBase* aClientId, TInt aEndpointNum, UsbShai::TTransferDirection aTransferDir);
+ void DeleteRequestCallbacks(const DBase* aClientId);
+ void StatusNotify(UsbShai::TUsbPeripheralState aState, const DBase* aClientId=NULL);
+ void EpStatusNotify(TInt aRealEndpoint);
+ void OtgFeaturesNotify();
+ void RunClientCallbacks();
+ void ProcessDataTransferDone(TUsbcRequestCallback& aRcb);
+ void NextDeviceState(UsbShai::TUsbPeripheralState aNextState);
+ TInt ProcessSuspendEvent();
+ TInt ProcessSuspendEventProceed();
+ TInt ProcessResumeEvent();
+ TInt ProcessResetEvent(TBool aPslUpcall=ETrue);
+ TInt ProcessVbusRisenEvent();
+ TInt ProcessVbusFallenEvent();
+
+ void ProcessGetDeviceStatus(const TUsbcSetup& aPacket);
+ void ProcessGetInterfaceStatus(const TUsbcSetup& aPacket);
+ void ProcessGetEndpointStatus(const TUsbcSetup& aPacket);
+ void ProcessSetClearDevFeature(const TUsbcSetup& aPacket);
+ void ProcessSetClearIfcFeature(const TUsbcSetup& aPacket);
+ void ProcessSetClearEpFeature(const TUsbcSetup& aPacket);
+ void ProcessSetAddress(const TUsbcSetup& aPacket);
+ void ProcessGetDescriptor(const TUsbcSetup& aPacket);
+ void ProcessSetDescriptor(const TUsbcSetup& aPacket);
+ void ProcessGetConfiguration(const TUsbcSetup& aPacket);
+ void ProcessGetInterface(const TUsbcSetup& aPacket);
+ void ProcessSetInterface(const TUsbcSetup& aPacket);
+ void ProcessSynchFrame(const TUsbcSetup& aPacket);
+
+ void ProceedSetDescriptor();
+ void ProcessDeviceEventNotification(TUsbcDeviceEvent aEvent);
+
+ void SetClearHaltFeature(TInt aRealEndpoint, TUint8 aRequest);
+ TInt ClearHaltFeature(TInt aRealEndpoint);
+ void ChangeConfiguration(TUint16 aValue);
+ void InterfaceSetup(TUsbcInterface* aIfc);
+ void InterfaceSetTeardown(TUsbcInterfaceSet* aIfc);
+ void ChangeInterface(TUsbcInterface* aIfc);
+ TInt DoForEveryEndpointInUse(TInt (DUsbClientController::*aFunction)(TInt), TInt& aCount);
+ void EnterFullSpeed();
+ void EnterHighSpeed();
+ TInt EvaluateOtgConnectFlags();
+ inline const TUsbcConfiguration* CurrentConfig() const;
+ inline TUsbcConfiguration* CurrentConfig();
+ inline TBool InterfaceExists(TInt aNumber) const;
+ inline TBool EndpointExists(TUint aAddress) const;
+ void Buffer2Setup(const TAny* aBuf, TUsbcSetup& aSetup) const;
+ inline TUint EpIdx2Addr(TUint aRealEndpoint) const;
+ inline TUint EpAddr2Idx(TUint aAddress) const;
+ inline void SetEp0DataOutVars(const DBase* aClientId = NULL);
+ inline void ResetEp0DataOutVars();
+ inline TBool IsInTheStatusList(const TUsbcStatusCallback& aCallback);
+ inline TBool IsInTheEpStatusList(const TUsbcEndpointStatusCallback& aCallback);
+ inline TBool IsInTheOtgFeatureList(const TUsbcOtgFeatureCallback& aCallback);
+ inline TBool IsInTheRequestList(const TUsbcRequestCallback& aCallback);
+ static void ReconnectTimerCallback(TAny* aPtr);
+ static void CableStatusTimerCallback(TAny* aPtr);
+ static void PowerUpDfc(TAny* aPtr);
+ static void PowerDownDfc(TAny* aPtr);
+ static void DeviceEventNotifyDfc(TAny* aPtr);
+ static void ThreadContextFinderDfc(TAny* aPtr);
+
+private:
+
+ //
+ // --- Private data members ---
+ //
+
+ static DUsbClientController* UsbClientController[KUsbcMaxUdcs];
+
+ TInt iDeviceTotalEndpoints; // number of endpoints reported by PSL
+ TInt iDeviceUsableEndpoints; // number of endpoints reported to LDD
+
+ UsbShai::TUsbPeripheralState iDeviceState; // states as of USB spec chapter 9.1
+ UsbShai::TUsbPeripheralState iDeviceStateB4Suspend; // state before entering suspend state
+
+ TBool iSelfPowered; // true if device is capable of beeing self-powered
+ TBool iRemoteWakeup; // true if device is capable of signalling rmwakeup
+ TBool iHardwareActivated; // true if controller silicon is in operating state
+ TBool iOtgSupport; // true if OTG is supported by this device
+ TUint8 iOtgFuncMap; // bitmap indicating OTG extension features
+ TBool iHighSpeed; // true if currently operating at high-speed
+
+ TInt iEp0MaxPacketSize; // currently configured max packet size for Ep0
+ const DBase* iEp0ClientId; // see comment at the begin of ps_usbc.cpp
+ TUint16 iEp0DataReceived; // indicates how many bytes have already been received
+ TBool iEp0WritePending; // true if a write on ep0 has been set up
+ TBool iEp0ClientDataTransmitting; // true if ep0's in DATA_IN on behalf of a client
+ const DBase* iEp0DeviceControl; // Device Ep0 requests are delivered to this LDD
+
+ TUsbcDescriptorPool iDescriptors; // the descriptors as of USB spec chapter 9.5
+ TUint8 iCurrentConfig; // bConfigurationValue of current Config (1-based!)
+ RPointerArray<TUsbcConfiguration> iConfigs; // the root of the modelled USB device
+ TUsbcPhysicalEndpoint iRealEndpoints[KUsbcEpArraySize]; // array will be filled once at startup
+ TUint8 iEp0_TxBuf[KUsbcBufSz_Ep0Tx]; // ep0 outgoing (tx) data is placed here
+#ifdef USB_SUPPORTS_SET_DESCRIPTOR_REQUEST
+ TUint8 iEp0_RxCollectionBuf[KUsbcBufSz_Ep0Rx]; // used for (optional) SET_DESCRIPTOR request
+#endif
+ TInt iEp0_RxExtraCount; // number of bytes received but not yet delivered
+ TBool iEp0_RxExtraData; // true if iEp0_RxExtraCount is valid
+ TInt iEp0_TxNonStdCount; // number of bytes requested by non-std Ep0 request
+
+ TUsbcRequestCallback* iRequestCallbacks[KUsbcEpArraySize]; // xfer requests; indexed by real ep number
+ TSglQue<TUsbcRequestCallback> iEp0ReadRequestCallbacks; // list of ep0 read requests
+ TSglQue<TUsbcClientCallback> iClientCallbacks; // registered LDD clients and their callback functions
+ TSglQue<TUsbcStatusCallback> iStatusCallbacks; // list of device state notification requests
+ TSglQue<TUsbcEndpointStatusCallback> iEpStatusCallbacks; // list of endpoint state notification requests
+ TSglQue<TUsbcOtgFeatureCallback> iOtgCallbacks; // list of OTG feature change requests
+
+ NTimer iReconnectTimer; // implements USB re-enumeration delay
+ NTimer iCableStatusTimer; // implements USB cable status detection delay
+ DUsbcPowerHandler* iPowerHandler; // pointer to USB power handler object
+ TSpinLock iUsbLock; // implement SMP for USB PDD and LDD
+ NFastMutex iMutex; // To pretect interface set with NFastMutex
+ UsbShai::MPeripheralControllerIf& iController; // PSL code
+
+ const UsbShai::TPeripheralControllerProperties& iControllerProperties; // Static configuration from PSL
+ TBool iIsOtgPort; // Is this instance a driver for otg port,
+ // Set at construction time.
+
+ /**
+ * Pointer to the currently set OTG Observer, if any. Not owned.
+ */
+ MUsbOtgPeripheralObserverIf* iOtgObserver; // Otg interface which is used to listen event from DeviceEventNotification
+
+ DControlTransferManager* iConTransferMgr; // Usb Control transfer manager, responsible for chaptor9
+
+ TInt iLastError; // Used by chaptor9 sm. No else.
+ TBool iSetupPacketPending; // Indicate whether the no-req-callback data is a setup packet
+
+ TUsbPeriDeviceEventQueue iDevEventQueue; // PSL can call DeviceEventNotification(...) at any context,
+ // but for PIL, we want to serialize the execution of each event
+
+ // The thread context for the DfcQ pass by PSL to us.
+ NThread* iCommonDfcQThread;
+
+protected:
+ TDfc iPowerUpDfc; // queued by power handler upon power-up
+ TDfc iPowerDownDfc; // queued by power handler upon power-down
+ TDfc iDeviceEventNotifyDfc; // queued by device event notification
+ TDfc iThreadContextFinder; // this is used to find which thread does the DfcQ passed by PSL
+ // is runing.
+
+private:
+ TBool iStandby; // toggled by power handler as appropriate
+ TBool iStackIsActive; // client stack's function is usable
+ TBool iClientSupportReady; // user-side USB Client support is loaded & active
+ TBool iUsbResetDeferred; // set when user-side wasn't ready yet
+
+public:
+ // FIXME: These used to be filled by the OTG component Dummy DCD
+ // so that the PIL layer can call it to enable and disable the D+
+ // pull-up. This mechanism is no longer used
+ TInt (*iEnablePullUpOnDPlus)(TAny* aOtgContext);
+ TInt (*iDisablePullUpOnDPlus)(TAny* aOtgContext);
+ TAny* iOtgContext;
+ };
+
+/** Simple queue of status changes to be recorded.
+ Items are fetched by userside when able.
+*/
+class TUsbcDeviceStatusQueue
+ {
+public:
+ TUsbcDeviceStatusQueue();
+ void AddStatusToQueue(TUint32 aDeviceStatus);
+ TInt GetDeviceQueuedStatus(TUint32& aDeviceStatus);
+ void FlushQueue();
+
+private:
+ TUint32 iDeviceStatusQueue[KUsbDeviceStatusQueueDepth];
+ TInt iStatusQueueHead;
+ };
+
+#include <usb/usbcshared.inl>
+
+#endif // __USBCSHARED_H__