060b161ca6
SVN-Revision: 32953
628 lines
32 KiB
C
628 lines
32 KiB
C
/*****************************************************************************
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** FILE NAME : ifxhcd.h
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** PROJECT : IFX USB sub-system V3
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** MODULES : IFX USB sub-system Host and Device driver
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** SRC VERSION : 1.0
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** DATE : 1/Jan/2009
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** AUTHOR : Chen, Howard
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** DESCRIPTION : This file contains the structures, constants, and interfaces for
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** the Host Contoller Driver (HCD).
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**
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** The Host Controller Driver (HCD) is responsible for translating requests
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** from the USB Driver into the appropriate actions on the IFXUSB controller.
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** It isolates the USBD from the specifics of the controller by providing an
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** API to the USBD.
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** FUNCTIONS :
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** COMPILER : gcc
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** REFERENCE : Synopsys DWC-OTG Driver 2.7
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** COPYRIGHT :
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** Version Control Section **
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** $Author$
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** $Date$
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** $Revisions$
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** $Log$ Revision history
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*****************************************************************************/
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/*!
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\defgroup IFXUSB_HCD HCD Interface
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\ingroup IFXUSB_DRIVER_V3
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\brief The Host Controller Driver (HCD) is responsible for translating requests
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from the USB Driver into the appropriate actions on the IFXUSB controller.
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It isolates the USBD from the specifics of the controller by providing an
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API to the USBD.
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*/
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/*!
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\file ifxhcd.h
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\ingroup IFXUSB_DRIVER_V3
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\brief This file contains the structures, constants, and interfaces for
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the Host Contoller Driver (HCD).
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*/
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#if !defined(__IFXHCD_H__)
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#define __IFXHCD_H__
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#include <linux/list.h>
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#include <linux/usb.h>
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#ifdef __USE_TIMER_4_SOF__
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#include <linux/hrtimer.h>
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#endif
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#include <linux/usb/hcd.h>
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#include "ifxusb_cif.h"
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#include "ifxusb_plat.h"
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/*!
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\addtogroup IFXUSB_HCD
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*/
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/*@{*/
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/* Phases for control transfers.*/
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typedef enum ifxhcd_control_phase {
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IFXHCD_CONTROL_SETUP,
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IFXHCD_CONTROL_DATA,
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IFXHCD_CONTROL_STATUS
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} ifxhcd_control_phase_e;
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/* Reasons for halting a host channel. */
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typedef enum ifxhcd_halt_status
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{
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HC_XFER_NO_HALT_STATUS, // Initial
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HC_XFER_COMPLETE, // Xact complete without error, upward
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HC_XFER_URB_COMPLETE, // Xfer complete without error, short upward
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HC_XFER_STALL, // HC stopped abnormally, upward/downward
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HC_XFER_XACT_ERR, // HC stopped abnormally, upward
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HC_XFER_FRAME_OVERRUN, // HC stopped abnormally, upward
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HC_XFER_BABBLE_ERR, // HC stopped abnormally, upward
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HC_XFER_AHB_ERR, // HC stopped abnormally, upward
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HC_XFER_DATA_TOGGLE_ERR,
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HC_XFER_URB_DEQUEUE, // HC stopper manually, downward
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HC_XFER_NAK // HC stopped by nak monitor, downward
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} ifxhcd_halt_status_e;
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struct ifxhcd_urbd;
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struct ifxhcd_hc ;
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struct ifxhcd_epqh ;
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struct ifxhcd_hcd;
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/*!
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\brief A URB Descriptor (URBD) holds the state of a bulk, control,
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interrupt, or isochronous transfer. A single URBD is created for each URB
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(of one of these types) submitted to the HCD. The transfer associated with
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a URBD may require one or multiple transactions.
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A URBD is linked to a EP Queue Head, which is entered in either the
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isoc, intr or non-periodic schedule for execution. When a URBD is chosen for
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execution, some or all of its transactions may be executed. After
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execution, the state of the URBD is updated. The URBD may be retired if all
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its transactions are complete or if an error occurred. Otherwise, it
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remains in the schedule so more transactions can be executed later.
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*/
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typedef struct ifxhcd_urbd {
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struct list_head urbd_list_entry; // Hook for EPQH->urbd_list and ifxhcd->urbd_complete_list
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struct urb *urb; /*!< URB for this transfer */
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//struct urb {
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// struct list_head urb_list;
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// struct list_head anchor_list;
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// struct usb_anchor * anchor;
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// struct usb_device * dev;
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// struct usb_host_endpoint * ep;
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// unsigned int pipe;
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// int status;
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// unsigned int transfer_flags;
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// void * transfer_buffer;
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// dma_addr_t transfer_dma;
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// u32 transfer_buffer_length;
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// u32 actual_length;
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// unsigned char * setup_packet;
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// dma_addr_t setup_dma;
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// int start_frame;
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// int number_of_packets;
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// int interval;
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// int error_count;
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// void * context;
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// usb_complete_t complete;
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// struct usb_iso_packet_descriptor iso_frame_desc[0];
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//};
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//urb_list For use by current owner of the URB.
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//anchor_list membership in the list of an anchor
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//anchor to anchor URBs to a common mooring
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//dev Identifies the USB device to perform the request.
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//ep Points to the endpoint's data structure. Will
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// eventually replace pipe.
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//pipe Holds endpoint number, direction, type, and more.
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// Create these values with the eight macros available; u
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// sb_{snd,rcv}TYPEpipe(dev,endpoint), where the TYPE is
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// "ctrl", "bulk", "int" or "iso". For example
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// usb_sndbulkpipe or usb_rcvintpipe. Endpoint numbers
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// range from zero to fifteen. Note that "in" endpoint two
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// is a different endpoint (and pipe) from "out" endpoint
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// two. The current configuration controls the existence,
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// type, and maximum packet size of any given endpoint.
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//status This is read in non-iso completion functions to get
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// the status of the particular request. ISO requests
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// only use it to tell whether the URB was unlinked;
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// detailed status for each frame is in the fields of
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// the iso_frame-desc.
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//transfer_flags A variety of flags may be used to affect how URB
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// submission, unlinking, or operation are handled.
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// Different kinds of URB can use different flags.
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// URB_SHORT_NOT_OK
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// URB_ISO_ASAP
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// URB_NO_TRANSFER_DMA_MAP
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// URB_NO_SETUP_DMA_MAP
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// URB_NO_FSBR
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// URB_ZERO_PACKET
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// URB_NO_INTERRUPT
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//transfer_buffer This identifies the buffer to (or from) which the I/O
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// request will be performed (unless URB_NO_TRANSFER_DMA_MAP
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// is set). This buffer must be suitable for DMA; allocate it
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// with kmalloc or equivalent. For transfers to "in"
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// endpoints, contents of this buffer will be modified. This
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// buffer is used for the data stage of control transfers.
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//transfer_dma When transfer_flags includes URB_NO_TRANSFER_DMA_MAP, the
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// device driver is saying that it provided this DMA address,
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// which the host controller driver should use in preference
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// to the transfer_buffer.
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//transfer_buffer_length How big is transfer_buffer. The transfer may be broken
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// up into chunks according to the current maximum packet size
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// for the endpoint, which is a function of the configuration
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// and is encoded in the pipe. When the length is zero, neither
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// transfer_buffer nor transfer_dma is used.
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//actual_length This is read in non-iso completion functions, and it tells
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// how many bytes (out of transfer_buffer_length) were transferred.
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// It will normally be the same as requested, unless either an error
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// was reported or a short read was performed. The URB_SHORT_NOT_OK
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// transfer flag may be used to make such short reads be reported
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// as errors.
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//setup_packet Only used for control transfers, this points to eight bytes of
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// setup data. Control transfers always start by sending this data
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// to the device. Then transfer_buffer is read or written, if needed.
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//setup_dma For control transfers with URB_NO_SETUP_DMA_MAP set, the device
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// driver has provided this DMA address for the setup packet. The
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// host controller driver should use this in preference to setup_packet.
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//start_frame Returns the initial frame for isochronous transfers.
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//number_of_packets Lists the number of ISO transfer buffers.
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//interval Specifies the polling interval for interrupt or isochronous transfers.
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// The units are frames (milliseconds) for for full and low speed devices,
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// and microframes (1/8 millisecond) for highspeed ones.
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//error_count Returns the number of ISO transfers that reported errors.
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//context For use in completion functions. This normally points to request-specific
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// driver context.
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//complete Completion handler. This URB is passed as the parameter to the completion
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// function. The completion function may then do what it likes with the URB,
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// including resubmitting or freeing it.
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//iso_frame_desc[0] Used to provide arrays of ISO transfer buffers and to collect the transfer
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// status for each buffer.
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struct ifxhcd_epqh *epqh;
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// Actual data portion, not SETUP or STATUS in case of CTRL XFER
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// DMA adjusted
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uint8_t *setup_buff; /*!< Pointer to the entire transfer buffer. (CPU accessable)*/
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uint8_t *xfer_buff; /*!< Pointer to the entire transfer buffer. (CPU accessable)*/
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uint32_t xfer_len; /*!< Total number of bytes to transfer in this xfer. */
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unsigned is_in :1;
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unsigned is_active:1;
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// For ALL XFER
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uint8_t error_count; /*!< Holds the number of bus errors that have occurred for a transaction
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within this transfer.
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*/
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/*== AVM/BC 20101111 Needed for URB Complete List ==*/
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int status;
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// For ISOC XFER only
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#ifdef __EN_ISOC__
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int isoc_frame_index; /*!< Index of the next frame descriptor for an isochronous transfer. A
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frame descriptor describes the buffer position and length of the
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data to be transferred in the next scheduled (micro)frame of an
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isochronous transfer. It also holds status for that transaction.
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The frame index starts at 0.
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*/
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// For SPLITed ISOC XFER only
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uint8_t isoc_split_pos; /*!< Position of the ISOC split on full/low speed */
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uint16_t isoc_split_offset;/*!< Position of the ISOC split in the buffer for the current frame */
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#endif
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} ifxhcd_urbd_t;
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/*!
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\brief A EP Queue Head (EPQH) holds the static characteristics of an endpoint and
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maintains a list of transfers (URBDs) for that endpoint. A EPQH structure may
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be entered in either the isoc, intr or non-periodic schedule.
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*/
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typedef struct ifxhcd_epqh {
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struct list_head epqh_list_entry; // Hook for EP Queues
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struct list_head urbd_list; /*!< List of URBDs for this EPQH. */
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struct ifxhcd_hc *hc; /*!< Host channel currently processing transfers for this EPQH. */
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struct ifxhcd_urbd *urbd; /*!< URBD currently assigned to a host channel for this EPQH. */
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struct usb_host_endpoint *sysep;
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uint8_t ep_type; /*!< Endpoint type. One of the following values:
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- IFXUSB_EP_TYPE_CTRL
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- IFXUSB_EP_TYPE_ISOC
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- IFXUSB_EP_TYPE_BULK
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- IFXUSB_EP_TYPE_INTR
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*/
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uint16_t mps; /*!< wMaxPacketSize Field of Endpoint Descriptor. */
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/* == AVM/WK 20100710 Fix - Use toggle of usbcore ==*/
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/*uint8_t data_toggle;*/ /*!< Determines the PID of the next data packet
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One of the following values:
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- IFXHCD_HC_PID_DATA0
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- IFXHCD_HC_PID_DATA1
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*/
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uint8_t is_active;
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uint8_t pkt_count_limit;
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#ifdef __EPQD_DESTROY_TIMEOUT__
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struct timer_list destroy_timer;
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#endif
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uint16_t wait_for_sof;
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uint8_t need_split; /*!< Full/low speed endpoint on high-speed hub requires split. */
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uint16_t interval; /*!< Interval between transfers in (micro)frames. (for INTR)*/
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uint16_t period_counter; /*!< Interval between transfers in (micro)frames. */
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uint8_t period_do;
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uint8_t aligned_checked;
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#if defined(__UNALIGNED_BUFFER_ADJ__)
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uint8_t using_aligned_setup;
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uint8_t *aligned_setup;
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uint8_t using_aligned_buf;
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uint8_t *aligned_buf;
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unsigned aligned_buf_len : 19;
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#endif
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uint8_t *dump_buf;
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} ifxhcd_epqh_t;
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#if defined(__HC_XFER_TIMEOUT__)
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struct ifxusb_core_if;
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struct ifxhcd_hc;
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typedef struct hc_xfer_info
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{
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struct ifxusb_core_if *core_if;
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struct ifxhcd_hc *hc;
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} hc_xfer_info_t;
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#endif //defined(__HC_XFER_TIMEOUT__)
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/*!
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\brief Host channel descriptor. This structure represents the state of a single
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host channel when acting in host mode. It contains the data items needed to
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transfer packets to an endpoint via a host channel.
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*/
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typedef struct ifxhcd_hc
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{
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struct list_head hc_list_entry ; // Hook to free hc
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struct ifxhcd_epqh *epqh ; /*!< EP Queue Head for the transfer being processed by this channel. */
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uint8_t hc_num ; /*!< Host channel number used for register address lookup */
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uint8_t *xfer_buff ; /*!< Pointer to the entire transfer buffer. */
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uint32_t xfer_count ; /*!< Number of bytes transferred so far. The offset of the begin of the buf */
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uint32_t xfer_len ; /*!< Total number of bytes to transfer in this xfer. */
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uint16_t start_pkt_count ; /*!< Packet count at start of transfer. Used to calculate the actual xfer size*/
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ifxhcd_halt_status_e halt_status; /*!< Reason for halting the host channel. */
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unsigned dev_addr : 7; /*!< Device to access */
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unsigned ep_num : 4; /*!< EP to access */
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unsigned is_in : 1; /*!< EP direction. 0: OUT, 1: IN */
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unsigned speed : 2; /*!< EP speed. */
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unsigned ep_type : 2; /*!< Endpoint type. */
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unsigned mps :11; /*!< Max packet size in bytes */
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unsigned data_pid_start : 2; /*!< PID for initial transaction. */
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unsigned do_ping : 1; /*!< Set to 1 to indicate that a PING request should be issued on this
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channel. If 0, process normally.
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*/
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unsigned xfer_started : 1; /*!< Flag to indicate whether the transfer has been started. Set to 1 if
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it has been started, 0 otherwise.
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*/
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unsigned halting : 1; /*!< Set to 1 if the host channel has been halted, but the core is not
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finished flushing queued requests. Otherwise 0.
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*/
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unsigned short_rw : 1; /*!< When Tx, means termination needed.
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When Rx, indicate Short Read */
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/* Split settings for the host channel */
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unsigned split : 2; /*!< Split: 0-Non Split, 1-SSPLIT, 2&3 CSPLIT */
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/*== AVM/BC 20100701 - Workaround FullSpeed Interrupts with HiSpeed Hub ==*/
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unsigned nyet_count;
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/* nak monitor */
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unsigned nak_retry_r : 16;
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unsigned nak_retry : 16;
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#define nak_retry_max 40000
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unsigned nak_countdown : 8;
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unsigned nak_countdown_r: 8;
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#define nak_countdown_max 1
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uint16_t wait_for_sof;
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ifxhcd_control_phase_e control_phase; /*!< Current phase for control transfers (Setup, Data, or Status). */
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uint32_t ssplit_out_xfer_count; /*!< How many bytes transferred during SSPLIT OUT */
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#ifdef __DEBUG__
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uint32_t start_hcchar_val;
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#endif
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#ifdef __HC_XFER_TIMEOUT__
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hc_xfer_info_t hc_xfer_info;
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struct timer_list hc_xfer_timer;
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#endif
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uint32_t hcchar;
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/* Split settings for the host channel */
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uint8_t hub_addr; /*!< Address of high speed hub */
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uint8_t port_addr; /*!< Port of the low/full speed device */
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#ifdef __EN_ISOC__
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uint8_t isoc_xact_pos; /*!< Split transaction position */
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#endif
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} ifxhcd_hc_t;
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/*!
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\brief This structure holds the state of the HCD, including the non-periodic and
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periodic schedules.
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*/
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typedef struct ifxhcd_hcd
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{
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struct device *dev;
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struct hc_driver hc_driver;
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ifxusb_core_if_t core_if; /*!< Pointer to the core interface structure. */
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struct usb_hcd *syshcd;
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volatile union ifxhcd_internal_flags
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{
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uint32_t d32;
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struct
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{
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unsigned port_connect_status_change : 1;
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unsigned port_connect_status : 1;
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unsigned port_reset_change : 1;
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unsigned port_enable_change : 1;
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unsigned port_suspend_change : 1;
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unsigned port_over_current_change : 1;
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unsigned reserved : 27;
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} b;
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} flags; /*!< Internal HCD Flags */
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struct ifxhcd_hc ifxhc[MAX_EPS_CHANNELS]; /*!< Array of pointers to the host channel descriptors. Allows accessing
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a host channel descriptor given the host channel number. This is
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useful in interrupt handlers.
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*/
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struct list_head free_hc_list; /*!< Free host channels in the controller. This is a list of ifxhcd_hc_t items. */
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uint8_t *status_buf; /*!< Buffer to use for any data received during the status phase of a
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control transfer. Normally no data is transferred during the status
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phase. This buffer is used as a bit bucket.
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*/
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#define IFXHCD_STATUS_BUF_SIZE 64
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struct list_head epqh_np_active; // with URBD, with HC
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struct list_head epqh_np_ready; // with URBD, No HC
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struct list_head epqh_intr_active; // with URBD, with HC
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struct list_head epqh_intr_ready; // with URBD, no pass, No HC
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#ifdef __EN_ISOC__
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struct list_head epqh_isoc_active; // with URBD, with HC
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struct list_head epqh_isoc_ready; // with URBD, no pass, No HC
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#endif
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/*== AVM/BC 20101111 URB Complete List ==*/
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struct list_head urbd_complete_list;
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struct list_head epqh_stdby;
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/* AVM/BC 20101111 flags removed */
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//unsigned process_channels_in_use : 1;
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//unsigned select_eps_in_use : 1;
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struct tasklet_struct select_eps; /*!< Tasket to do a reset */
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uint32_t lastframe;
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spinlock_t lock;
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#ifdef __USE_TIMER_4_SOF__
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struct hrtimer hr_timer;
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#endif
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} ifxhcd_hcd_t;
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/* Gets the ifxhcd_hcd from a struct usb_hcd */
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static inline ifxhcd_hcd_t *syshcd_to_ifxhcd(struct usb_hcd *syshcd)
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{
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return (ifxhcd_hcd_t *)(syshcd->hcd_priv[0]);
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}
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/* Gets the struct usb_hcd that contains a ifxhcd_hcd_t. */
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static inline struct usb_hcd *ifxhcd_to_syshcd(ifxhcd_hcd_t *ifxhcd)
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{
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return (struct usb_hcd *)(ifxhcd->syshcd);
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}
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/*! \brief HCD Create/Destroy Functions */
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/*@{*/
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extern int ifxhcd_init (ifxhcd_hcd_t *_ifxhcd);
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extern void ifxhcd_remove(ifxhcd_hcd_t *_ifxhcd);
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/*@}*/
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/*! \brief Linux HC Driver API Functions */
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/*@{*/
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extern int ifxhcd_start(struct usb_hcd *hcd);
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extern void ifxhcd_stop (struct usb_hcd *hcd);
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extern int ifxhcd_get_frame_number(struct usb_hcd *hcd);
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/*!
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\brief This function does the setup for a data transfer for a host channel and
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starts the transfer. May be called in either Slave mode or DMA mode. In
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Slave mode, the caller must ensure that there is sufficient space in the
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request queue and Tx Data FIFO.
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For an OUT transfer in Slave mode, it loads a data packet into the
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appropriate FIFO. If necessary, additional data packets will be loaded in
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the Host ISR.
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For an IN transfer in Slave mode, a data packet is requested. The data
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packets are unloaded from the Rx FIFO in the Host ISR. If necessary,
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additional data packets are requested in the Host ISR.
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For a PING transfer in Slave mode, the Do Ping bit is set in the HCTSIZ
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register along with a packet count of 1 and the channel is enabled. This
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causes a single PING transaction to occur. Other fields in HCTSIZ are
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simply set to 0 since no data transfer occurs in this case.
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For a PING transfer in DMA mode, the HCTSIZ register is initialized with
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all the information required to perform the subsequent data transfer. In
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addition, the Do Ping bit is set in the HCTSIZ register. In this case, the
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controller performs the entire PING protocol, then starts the data
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transfer.
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@param _ifxhc Information needed to initialize the host channel. The xfer_len
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value may be reduced to accommodate the max widths of the XferSize and
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PktCnt fields in the HCTSIZn register. The multi_count value may be changed
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to reflect the final xfer_len value.
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*/
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extern void ifxhcd_hc_start(ifxusb_core_if_t *_core_if, ifxhcd_hc_t *_ifxhc);
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//extern int ifxhcd_urb_enqueue(struct usb_hcd *_syshcd, struct usb_host_endpoint *_sysep, struct urb *_urb, gfp_t mem_flags);
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//extern int ifxhcd_urb_dequeue(struct usb_hcd *_syshcd, struct urb *_urb);
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extern irqreturn_t ifxhcd_irq(struct usb_hcd *_syshcd);
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int ifxhcd_urb_enqueue( struct usb_hcd *_syshcd,
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/*--- struct usb_host_endpoint *_sysep, Parameter im 2.6.28 entfallen ---*/
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struct urb *_urb,
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gfp_t _mem_flags);
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int ifxhcd_urb_dequeue( struct usb_hcd *_syshcd,
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struct urb *_urb, int status /* Parameter neu in 2.6.28 */);
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extern void ifxhcd_endpoint_disable(struct usb_hcd *_syshcd, struct usb_host_endpoint *_sysep);
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extern int ifxhcd_hub_status_data(struct usb_hcd *_syshcd, char *_buf);
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extern int ifxhcd_hub_control( struct usb_hcd *_syshcd,
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u16 _typeReq,
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u16 _wValue,
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u16 _wIndex,
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char *_buf,
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u16 _wLength);
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/*@}*/
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/*! \brief Transaction Execution Functions */
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/*@{*/
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extern void ifxhcd_complete_urb (ifxhcd_hcd_t *_ifxhcd, ifxhcd_urbd_t *_urbd, int _status);
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/*@}*/
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/*! \brief Deferred Transaction Execution Functions */
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/*@{*/
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/*== AVM/BC 20101111 URB Complete List ==*/
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extern void defer_ifxhcd_complete_urb (ifxhcd_hcd_t *_ifxhcd, ifxhcd_urbd_t *_urbd, int _status);
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/*!
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\brief Clears the transfer state for a host channel. This function is normally
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called after a transfer is done and the host channel is being released.
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*/
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extern void ifxhcd_hc_cleanup(ifxusb_core_if_t *_core_if, ifxhcd_hc_t *_ifxhc);
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/*!
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\brief Attempts to halt a host channel. This function should only be called in
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Slave mode or to abort a transfer in either Slave mode or DMA mode. Under
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normal circumstances in DMA mode, the controller halts the channel when the
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transfer is complete or a condition occurs that requires application
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intervention.
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In slave mode, checks for a free request queue entry, then sets the Channel
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Enable and Channel Disable bits of the Host Channel Characteristics
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register of the specified channel to intiate the halt. If there is no free
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request queue entry, sets only the Channel Disable bit of the HCCHARn
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register to flush requests for this channel. In the latter case, sets a
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flag to indicate that the host channel needs to be halted when a request
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queue slot is open.
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In DMA mode, always sets the Channel Enable and Channel Disable bits of the
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HCCHARn register. The controller ensures there is space in the request
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queue before submitting the halt request.
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Some time may elapse before the core flushes any posted requests for this
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host channel and halts. The Channel Halted interrupt handler completes the
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deactivation of the host channel.
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*/
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extern void ifxhcd_hc_halt(ifxusb_core_if_t *_core_if,
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ifxhcd_hc_t *_ifxhc,
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ifxhcd_halt_status_e _halt_status);
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/*!
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\brief Prepares a host channel for transferring packets to/from a specific
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endpoint. The HCCHARn register is set up with the characteristics specified
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in _ifxhc. Host channel interrupts that may need to be serviced while this
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transfer is in progress are enabled.
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*/
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extern void ifxhcd_hc_init(ifxusb_core_if_t *_core_if, ifxhcd_hc_t *_ifxhc);
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/*!
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\brief This function is called to handle the disconnection of host port.
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*/
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int32_t ifxhcd_disconnect(ifxhcd_hcd_t *_ifxhcd);
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/*@}*/
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/*! \brief Interrupt Handler Functions */
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/*@{*/
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extern irqreturn_t ifxhcd_oc_irq(int _irq, void *_dev);
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extern int32_t ifxhcd_handle_oc_intr(ifxhcd_hcd_t *_ifxhcd);
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extern int32_t ifxhcd_handle_intr (ifxhcd_hcd_t *_ifxhcd);
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/*@}*/
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/*! \brief Schedule Queue Functions */
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/*@{*/
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extern ifxhcd_epqh_t *ifxhcd_epqh_create (ifxhcd_hcd_t *_ifxhcd, struct urb *_urb);
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extern void ifxhcd_epqh_free ( ifxhcd_epqh_t *_epqh);
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extern void select_eps (ifxhcd_hcd_t *_ifxhcd);
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extern void process_channels(ifxhcd_hcd_t *_ifxhcd);
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extern void process_channels_sub(ifxhcd_hcd_t *_ifxhcd);
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extern void complete_channel(ifxhcd_hcd_t *_ifxhcd, ifxhcd_hc_t *_ifxhc, ifxhcd_urbd_t *_urbd);
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extern void ifxhcd_epqh_ready(ifxhcd_hcd_t *_ifxhcd, ifxhcd_epqh_t *_epqh);
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extern void ifxhcd_epqh_active(ifxhcd_hcd_t *_ifxhcd, ifxhcd_epqh_t *_epqh);
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extern void ifxhcd_epqh_idle(ifxhcd_hcd_t *_ifxhcd, ifxhcd_epqh_t *_epqh);
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extern void ifxhcd_epqh_idle_periodic(ifxhcd_epqh_t *_epqh);
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extern int ifxhcd_urbd_create (ifxhcd_hcd_t *_ifxhcd,struct urb *_urb);
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/*@}*/
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/*! \brief Gets the usb_host_endpoint associated with an URB. */
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static inline struct usb_host_endpoint *ifxhcd_urb_to_endpoint(struct urb *_urb)
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{
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struct usb_device *dev = _urb->dev;
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int ep_num = usb_pipeendpoint(_urb->pipe);
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return (usb_pipein(_urb->pipe))?(dev->ep_in[ep_num]):(dev->ep_out[ep_num]);
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}
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/*!
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* \brief Gets the endpoint number from a _bEndpointAddress argument. The endpoint is
|
|
* qualified with its direction (possible 32 endpoints per device).
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|
*/
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#define ifxhcd_ep_addr_to_endpoint(_bEndpointAddress_) ((_bEndpointAddress_ & USB_ENDPOINT_NUMBER_MASK) | \
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((_bEndpointAddress_ & USB_DIR_IN) != 0) << 4)
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/* AVM/WK: not needed?
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|
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extern struct usb_device *usb_alloc_dev (struct usb_device *parent, struct usb_bus *, unsigned port);
|
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extern int usb_add_hcd (struct usb_hcd *syshcd, unsigned int irqnum, unsigned long irqflags);
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extern void usb_remove_hcd (struct usb_hcd *syshcd);
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extern struct usb_hcd *usb_create_hcd (const struct hc_driver *driver, struct device *dev, char *bus_name);
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extern void usb_hcd_giveback_urb (struct usb_hcd *syshcd, struct urb *urb);
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extern void usb_put_hcd (struct usb_hcd *syshcd);
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extern long usb_calc_bus_time (int speed, int is_input, int isoc, int bytecount);
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|
|
*/
|
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/** Internal Functions */
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void ifxhcd_dump_state(ifxhcd_hcd_t *_ifxhcd);
|
|
extern char *syserr(int errno);
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/*@}*//*IFXUSB_HCD*/
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#endif // __IFXHCD_H__
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