/* * Copyright (c) 1998-2003 Apple Computer, Inc. All rights reserved. * * @APPLE_LICENSE_HEADER_START@ * * The contents of this file constitute Original Code as defined in and * are subject to the Apple Public Source License Version 1.2 (the * "License"). You may not use this file except in compliance with the * License. Please obtain a copy of the License at * http://www.apple.com/publicsource and read it before using this file. * * This Original Code and all software distributed under the License are * distributed on an "AS IS" basis, WITHOUT WARRANTY OF ANY KIND, EITHER * EXPRESS OR IMPLIED, AND APPLE HEREBY DISCLAIMS ALL SUCH WARRANTIES, * INCLUDING WITHOUT LIMITATION, ANY WARRANTIES OF MERCHANTABILITY, * FITNESS FOR A PARTICULAR PURPOSE, QUIET ENJOYMENT OR NON-INFRINGEMENT. * Please see the License for the specific language governing rights and * limitations under the License. * * @APPLE_LICENSE_HEADER_END@ */ #ifndef _IOKIT_IOUSBPIPE_H #define _IOKIT_IOUSBPIPE_H #include <IOKit/IOService.h> #include <IOKit/IOMemoryDescriptor.h> #include <IOKit/usb/USB.h> #include <IOKit/usb/IOUSBController.h> /*! @class IOUSBPipe @abstract The object representing an open pipe for a device. */ class IOUSBPipe : public OSObject { friend class IOUSBInterface; friend class IOUSBDevice; OSDeclareDefaultStructors(IOUSBPipe) protected: const IOUSBEndpointDescriptor * _descriptor; IOUSBController::Endpoint _endpoint; // tidied up version of descriptor IOUSBController * _controller; USBDeviceAddress _address; UInt8 _status; // no longer used struct ExpansionData { IOReturn _correctStatus; IOUSBDevice * _device; // Remember containing device for cearing TTs }; ExpansionData * _expansionData; #define _correctStatus _expansionData->_correctStatus virtual void free(); IOReturn ClosePipe(void); public: virtual bool InitToEndpoint(const IOUSBEndpointDescriptor *endpoint, UInt8 speed, USBDeviceAddress address, IOUSBController * controller); // The following method is obsolete // static IOUSBPipe *ToEndpoint(const IOUSBEndpointDescriptor *endpoint, UInt8 speed, USBDeviceAddress address, IOUSBController * controller); static IOUSBPipe *ToEndpoint(const IOUSBEndpointDescriptor *endpoint, IOUSBDevice * device, IOUSBController * controller); // Controlling pipe state /*! @function GetStatus This method does NOT work. Do not call it. See GetPipeStatus for the correct method. GetStatus will always return 0. */ virtual UInt8 GetStatus(void); /*! @function Abort This method causes all outstanding I/O on a pipe to complete with return code kIOReturnAborted. It also clears both the halted bit and the toggle bit on the endpoint in the controller. After aborting, the driver may need to synchronize the data toggle. see ClearPipeStall. */ virtual IOReturn Abort(void); /*! @function Reset This method is identical to ClearPipeStall(false). The use of that API is preferred. */ virtual IOReturn Reset(void); /*! @function ClearStall This method is equivalent to ClearPipeStall(false). This method is available before version 1.9. */ virtual IOReturn ClearStall(void); // // Transferring Data // // deprecated virtual IOReturn Read(IOMemoryDescriptor * buffer, IOUSBCompletion * completion = 0, IOByteCount * bytesRead = 0); // deprecated virtual IOReturn Write(IOMemoryDescriptor * buffer, IOUSBCompletion * completion = 0); // Transfer data over Isochronous pipes /*! @function Read Read from an isochronous endpoint @param buffer place to put the transferred data @param frameStart USB frame number of the frame to start transfer @param numFrames Number of frames to transfer @param frameList Bytes to transfer and result for each frame @param completion describes action to take when buffer has been filled */ virtual IOReturn Read(IOMemoryDescriptor * buffer, UInt64 frameStart, UInt32 numFrames, IOUSBIsocFrame *frameList, IOUSBIsocCompletion * completion = 0); /*! @function Write Write to an isochronous endpoint @param buffer place to get the transferred data @param frameStart USB frame number of the frame to start transfer @param numFrames Number of frames to transfer @param frameList Bytes to transfer and result for each frame @param completion describes action to take when buffer has been emptied */ virtual IOReturn Write(IOMemoryDescriptor * buffer, UInt64 frameStart, UInt32 numFrames, IOUSBIsocFrame *frameList, IOUSBIsocCompletion * completion = 0); // Do a control request over a Control pipe, using a memory descriptor /*! @function ControlRequest Make a control request There are two versions of this method, one uses a simple void * to point to the data portion of the transfer, the other uses an IOMemoryDescriptor to point to the data. @param request parameter block for the control request @param completion describes action to take when the request has been executed */ virtual IOReturn ControlRequest(IOUSBDevRequestDesc *request, IOUSBCompletion *completion = 0); // Do a control request over a Control pipe, using a simple buffer virtual IOReturn ControlRequest(IOUSBDevRequest *request, IOUSBCompletion *completion = 0); /* * Accessors */ /*! @function GetEndpoint returns a pointer to the Endpoint structure for the pipe. */ virtual const IOUSBController::Endpoint * GetEndpoint(); /*! @function GetEndpointDescriptor returns the endpoint descriptor for the pipe. */ virtual const IOUSBEndpointDescriptor * GetEndpointDescriptor(); /*! @function GetDirection returns the direction of the pipe:kUSBOut/kUSBIn for a bulk or interrupt pipe, kUSBAnyDirn for a control pipe. */ virtual UInt8 GetDirection(); /*! @function GetType returns the pipe type: kUSBControl, kUSBBulk or kUSBInterrupt. */ virtual UInt8 GetType(); /*! @function GetEndpointNumber returns the endpoint number in the device that the pipe is connected to. */ virtual UInt8 GetEndpointNumber(); virtual USBDeviceAddress GetAddress(); virtual UInt16 GetMaxPacketSize(); virtual UInt8 GetInterval(); // Transfer data over Bulk pipes with timeouts. OSMetaClassDeclareReservedUsed(IOUSBPipe, 0); // deprecated virtual IOReturn Read(IOMemoryDescriptor * buffer, UInt32 noDataTimeout, UInt32 completionTimeout, IOUSBCompletion * completion = 0, IOByteCount * bytesRead = 0); OSMetaClassDeclareReservedUsed(IOUSBPipe, 1); // deprecated virtual IOReturn Write(IOMemoryDescriptor * buffer, UInt32 noDataTimeout, UInt32 completionTimeout, IOUSBCompletion * completion = 0); OSMetaClassDeclareReservedUsed(IOUSBPipe, 2); // Do a control request over a Control pipe, using a memory descriptor /*! @function ControlRequest Make a control request. There are two versions of this method, one uses a simple void * to point to the data portion of the transfer, the other uses an IOMemoryDescriptor to point to the data. @param request parameter block for the control request @param noDataTimeout Specifies an amount of time (in ms) after which the command will be aborted if no data has been transferred on the bus. @param completionTimeout Specifies an amount of time (in ms) after which the command will be aborted if the entire command has not been completed. @param completion describes action to take when the request has been executed */ virtual IOReturn ControlRequest(IOUSBDevRequestDesc *request, UInt32 noDataTimeout, UInt32 completionTimeout, IOUSBCompletion *completion = 0); OSMetaClassDeclareReservedUsed(IOUSBPipe, 3); // Do a control request over a Control pipe, using a simple buffer virtual IOReturn ControlRequest(IOUSBDevRequest *request, UInt32 noDataTimeout, UInt32 completionTimeout, IOUSBCompletion *completion = 0); OSMetaClassDeclareReservedUsed(IOUSBPipe, 4); /*! @function Read Read from an interrupt or bulk endpoint @param buffer place to put the transferred data @param noDataTimeout number of milliseconds of no bus activity until transaction times out. Note that if a tranasction times out the driver software may have to resynchronize the data toggle. See ClearPipeStall. @param completionTimeout number of milliseconds from the time the transaction is placed on the bus until it times out @param reqCount requested number of bytes to transfer. must be <= buffer->getLength() @param completion describes action to take when buffer has been filled @param bytesRead returns total bytes read for synchronous reads */ virtual IOReturn Read(IOMemoryDescriptor * buffer, UInt32 noDataTimeout, UInt32 completionTimeout, IOByteCount reqCount, IOUSBCompletion * completion = 0, IOByteCount * bytesRead = 0); OSMetaClassDeclareReservedUsed(IOUSBPipe, 5); /*! @function Write Write to an interrupt or bulk endpoint @param buffer place to get the transferred data @param noDataTimeout number of milliseconds of no bus activity until transaction times out. Note that if a tranasction times out the driver software may have to resynchronize the data toggle. See ClearPipeStall. @param completionTimeout number of milliseconds from the time the transaction is placed on the bus until it times out @param reqCount requested number of bytes to transfer. must be <= buffer->getLength() @param completion describes action to take when buffer has been emptied */ virtual IOReturn Write(IOMemoryDescriptor * buffer, UInt32 noDataTimeout, UInt32 completionTimeout, IOByteCount reqCount, IOUSBCompletion * completion = 0); OSMetaClassDeclareReservedUsed(IOUSBPipe, 6); /*! @function GetPipeStatus Returns the status of the pipe (kIOUSBPipeStalled of the pipe is stalled, else kIOReturnSuccess) */ virtual IOReturn GetPipeStatus(void); OSMetaClassDeclareReservedUsed(IOUSBPipe, 7); /*! @function ClearPipeStall AVAILABLE ONLY IN VERSION 1.9 AND ABOVE This method causes all outstanding I/O on a pipe to complete with return code kIOUSBTransactionReturned. It also clears both the halted bit and the toggle bit on the endpoint in the controller. The driver may need to reset the data toggle within the device to avoid losing any data. If the device correctly handles the ClearFeature(ENDPOINT_HALT) device request, then this API will handle that by sending the correct request to the device. @param withDeviceRequest if true, a ClearFeature(ENDPOINT_HALT) is sent to the appropriate endpoint on the device after the transactions on the controllers endpoint are returned and the toggle bit on the controllers endpoint is cleared. if this parameter is false, then this is equivalent to the pre-1.9 API. This means that the endpoint on the controller is cleared, but no DeviceRequest is sent to the device's endpoint. */ virtual IOReturn ClearPipeStall(bool withDeviceRequest); OSMetaClassDeclareReservedUsed(IOUSBPipe, 8); /*! @function SetPipePolicy AVAILABLE ONLY IN VERSION 1.9 AND ABOVE This method allows a driver to change the maxPacketSize of an Isochronous pipe, or the polling interval for an interrupt pipe. There is a limited amount of bandwidth on any single bus, and isochronous pipes tend to use much of this bandwidth. The driver may know, however, that there will never be as much bandwidth used as is specified in the pipe's endpoint descriptor. Therefore, the driver may return some of this bandwidth to the system by using this method. Additionally, if on an open of an IOUSBInterface any of the Isochronous pipes is unable to be opened because of a lack of bandwidth, the pipe will be created with a bandwidth of zero, and the driver may get some of the limited bandwidth remaining by using this call. This method returns kIOReturnBadArgument if the pipe is a bulk on control pipe, or if the maxPacketSize parameter is larger than the amount specified in the endpoint descriptor. It returns kIOReturnNoBandwidth if the bandwidth requested cannot be allocated. Otherwise it returns kIOReturnSuccess. @param maxPacketSize specifies the maximum number of bytes to be used in any one millisecond frame by this pipe. The value must be less than or equal to the maxPacketSize specified in the endpoint descriptor. @param maxInterval not currently used. reserved for future expansion */ virtual IOReturn SetPipePolicy(UInt16 maxPacketSize, UInt8 maxInterval); OSMetaClassDeclareReservedUsed(IOUSBPipe, 9); // Transfer data over Isochronous pipes and process the frame list at hardware interrupt time /*! @function Read AVAILABLE ONLY IN VERSION 1.9.2 AND ABOVE Read from an isochronous endpoint and process the IOUSBLowLatencyIsocFrame fields at hardware interrupt time @param buffer place to put the transferred data @param frameStart USB frame number of the frame to start transfer @param numFrames Number of frames to transfer @param frameList Bytes to transfer, result, and time stamp for each frame @param completion describes action to take when buffer has been filled @param updateFrequency describes how often (in milliseconds) should the frame list be processed */ virtual IOReturn Read(IOMemoryDescriptor * buffer, UInt64 frameStart, UInt32 numFrames, IOUSBLowLatencyIsocFrame *frameList, IOUSBLowLatencyIsocCompletion * completion = 0, UInt32 updateFrequency = 0); OSMetaClassDeclareReservedUsed(IOUSBPipe, 10); /*! @function Write AVAILABLE ONLY IN VERSION 1.9.2 AND ABOVE Write to an isochronous endpoint @param buffer place to get the data to transfer @param frameStart USB frame number of the frame to start transfer @param numFrames Number of frames to transfer @param frameList Pointer to list of frames indicating bytes to transfer and result for each frame @param completion describes action to take when buffer has been emptied @param updateFrequency describes how often (in milliseconds) should the frame list be processed */ virtual IOReturn Write(IOMemoryDescriptor * buffer, UInt64 frameStart, UInt32 numFrames, IOUSBLowLatencyIsocFrame *frameList, IOUSBLowLatencyIsocCompletion * completion = 0, UInt32 updateFrequency = 0); OSMetaClassDeclareReservedUnused(IOUSBPipe, 11); OSMetaClassDeclareReservedUnused(IOUSBPipe, 12); OSMetaClassDeclareReservedUnused(IOUSBPipe, 13); OSMetaClassDeclareReservedUnused(IOUSBPipe, 14); OSMetaClassDeclareReservedUnused(IOUSBPipe, 15); OSMetaClassDeclareReservedUnused(IOUSBPipe, 16); OSMetaClassDeclareReservedUnused(IOUSBPipe, 17); OSMetaClassDeclareReservedUnused(IOUSBPipe, 18); OSMetaClassDeclareReservedUnused(IOUSBPipe, 19); }; #endif /* _IOKIT_IOUSBPIPE_H */