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path: root/target/linux/cns3xxx/files/drivers/usb/dwc/otg_hcd_intr.c
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/* ==========================================================================
 * $File: //dwh/usb_iip/dev/software/otg/linux/drivers/dwc_otg_hcd_intr.c $
 * $Revision: #70 $
 * $Date: 2008/10/16 $
 * $Change: 1117667 $
 *
 * Synopsys HS OTG Linux Software Driver and documentation (hereinafter,
 * "Software") is an Unsupported proprietary work of Synopsys, Inc. unless
 * otherwise expressly agreed to in writing between Synopsys and you.
 *
 * The Software IS NOT an item of Licensed Software or Licensed Product under
 * any End User Software License Agreement or Agreement for Licensed Product
 * with Synopsys or any supplement thereto. You are permitted to use and
 * redistribute this Software in source and binary forms, with or without
 * modification, provided that redistributions of source code must retain this
 * notice. You may not view, use, disclose, copy or distribute this file or
 * any information contained herein except pursuant to this license grant from
 * Synopsys. If you do not agree with this notice, including the disclaimer
 * below, then you are not authorized to use the Software.
 *
 * THIS SOFTWARE IS BEING DISTRIBUTED BY SYNOPSYS SOLELY ON AN "AS IS" BASIS
 * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
 * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
 * ARE HEREBY DISCLAIMED. IN NO EVENT SHALL SYNOPSYS BE LIABLE FOR ANY DIRECT,
 * INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
 * (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR
 * SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER
 * CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
 * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
 * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH
 * DAMAGE.
 * ========================================================================== */
#ifndef DWC_DEVICE_ONLY

#include <linux/version.h>

#include "otg_driver.h"
#include "otg_hcd.h"
#include "otg_regs.h"

/** @file
 * This file contains the implementation of the HCD Interrupt handlers.
 */

/** This function handles interrupts for the HCD. */
int32_t dwc_otg_hcd_handle_intr(dwc_otg_hcd_t *dwc_otg_hcd)
{
	int retval = 0;

	dwc_otg_core_if_t *core_if = dwc_otg_hcd->core_if;
	gintsts_data_t gintsts;
#ifdef DEBUG
	dwc_otg_core_global_regs_t *global_regs = core_if->core_global_regs;
#endif

	/* Check if HOST Mode */
	if (dwc_otg_is_host_mode(core_if)) {
		gintsts.d32 = dwc_otg_read_core_intr(core_if);
		if (!gintsts.d32) {
			return 0;
		}

#ifdef DEBUG
		/* Don't print debug message in the interrupt handler on SOF */
# ifndef DEBUG_SOF
		if (gintsts.d32 != DWC_SOF_INTR_MASK)
# endif
			DWC_DEBUGPL(DBG_HCD, "\n");
#endif

#ifdef DEBUG
# ifndef DEBUG_SOF
		if (gintsts.d32 != DWC_SOF_INTR_MASK)
# endif
			DWC_DEBUGPL(DBG_HCD, "DWC OTG HCD Interrupt Detected gintsts&gintmsk=0x%08x\n", gintsts.d32);
#endif
		if (gintsts.b.usbreset) {
			DWC_PRINT("Usb Reset In Host Mode\n");
		}
		if (gintsts.b.sofintr) {
			retval |= dwc_otg_hcd_handle_sof_intr(dwc_otg_hcd);
		}
		if (gintsts.b.rxstsqlvl) {
			retval |= dwc_otg_hcd_handle_rx_status_q_level_intr(dwc_otg_hcd);
		}
		if (gintsts.b.nptxfempty) {
			retval |= dwc_otg_hcd_handle_np_tx_fifo_empty_intr(dwc_otg_hcd);
		}
		if (gintsts.b.i2cintr) {
			/** @todo Implement i2cintr handler. */
		}
		if (gintsts.b.portintr) {
			retval |= dwc_otg_hcd_handle_port_intr(dwc_otg_hcd);
		}
		if (gintsts.b.hcintr) {
			retval |= dwc_otg_hcd_handle_hc_intr(dwc_otg_hcd);
		}
		if (gintsts.b.ptxfempty) {
			retval |= dwc_otg_hcd_handle_perio_tx_fifo_empty_intr(dwc_otg_hcd);
		}
#ifdef DEBUG
# ifndef DEBUG_SOF
		if (gintsts.d32 != DWC_SOF_INTR_MASK)
# endif
		{
			DWC_DEBUGPL(DBG_HCD, "DWC OTG HCD Finished Servicing Interrupts\n");
			DWC_DEBUGPL(DBG_HCDV, "DWC OTG HCD gintsts=0x%08x\n",
				    dwc_read_reg32(&global_regs->gintsts));
			DWC_DEBUGPL(DBG_HCDV, "DWC OTG HCD gintmsk=0x%08x\n",
				    dwc_read_reg32(&global_regs->gintmsk));
		}
#endif

#ifdef DEBUG
# ifndef DEBUG_SOF
	if (gintsts.d32 != DWC_SOF_INTR_MASK)
# endif
		DWC_DEBUGPL(DBG_HCD, "\n");
#endif

	}
	S3C2410X_CLEAR_EINTPEND();

	return retval;
}

#ifdef DWC_TRACK_MISSED_SOFS
#warning Compiling code to track missed SOFs
#define FRAME_NUM_ARRAY_SIZE 1000
/**
 * This function is for debug only.
 */
static inline void track_missed_sofs(uint16_t curr_frame_number)
{
	static uint16_t		frame_num_array[FRAME_NUM_ARRAY_SIZE];
	static uint16_t		last_frame_num_array[FRAME_NUM_ARRAY_SIZE];
	static int		frame_num_idx = 0;
	static uint16_t		last_frame_num = DWC_HFNUM_MAX_FRNUM;
	static int		dumped_frame_num_array = 0;

	if (frame_num_idx < FRAME_NUM_ARRAY_SIZE) {
		if (((last_frame_num + 1) & DWC_HFNUM_MAX_FRNUM) != curr_frame_number) {
			frame_num_array[frame_num_idx] = curr_frame_number;
			last_frame_num_array[frame_num_idx++] = last_frame_num;
		}
	} else if (!dumped_frame_num_array) {
		int i;
		printk(KERN_EMERG USB_DWC "Frame     Last Frame\n");
		printk(KERN_EMERG USB_DWC "-----     ----------\n");
		for (i = 0; i < FRAME_NUM_ARRAY_SIZE; i++) {
			printk(KERN_EMERG USB_DWC "0x%04x    0x%04x\n",
			       frame_num_array[i], last_frame_num_array[i]);
		}
		dumped_frame_num_array = 1;
	}
	last_frame_num = curr_frame_number;
}
#endif

/**
 * Handles the start-of-frame interrupt in host mode. Non-periodic
 * transactions may be queued to the DWC_otg controller for the current
 * (micro)frame. Periodic transactions may be queued to the controller for the
 * next (micro)frame.
 */
int32_t dwc_otg_hcd_handle_sof_intr(dwc_otg_hcd_t *hcd)
{
	hfnum_data_t		hfnum;
	struct list_head	*qh_entry;
	dwc_otg_qh_t		*qh;
	dwc_otg_transaction_type_e tr_type;
	gintsts_data_t gintsts = {.d32 = 0};

	hfnum.d32 = dwc_read_reg32(&hcd->core_if->host_if->host_global_regs->hfnum);

#ifdef DEBUG_SOF
	DWC_DEBUGPL(DBG_HCD, "--Start of Frame Interrupt--\n");
#endif
	hcd->frame_number = hfnum.b.frnum;

#ifdef DEBUG
	hcd->frrem_accum += hfnum.b.frrem;
	hcd->frrem_samples++;
#endif

#ifdef DWC_TRACK_MISSED_SOFS
	track_missed_sofs(hcd->frame_number);
#endif

	/* Determine whether any periodic QHs should be executed. */
	qh_entry = hcd->periodic_sched_inactive.next;
	while (qh_entry != &hcd->periodic_sched_inactive) {
		qh = list_entry(qh_entry, dwc_otg_qh_t, qh_list_entry);
		qh_entry = qh_entry->next;
		if (dwc_frame_num_le(qh->sched_frame, hcd->frame_number)) {
			/*
			 * Move QH to the ready list to be executed next
			 * (micro)frame.
			 */
			list_move(&qh->qh_list_entry, &hcd->periodic_sched_ready);
		}
	}

	tr_type = dwc_otg_hcd_select_transactions(hcd);
	if (tr_type != DWC_OTG_TRANSACTION_NONE) {
		dwc_otg_hcd_queue_transactions(hcd, tr_type);
	}

	/* Clear interrupt */
	gintsts.b.sofintr = 1;
	dwc_write_reg32(&hcd->core_if->core_global_regs->gintsts, gintsts.d32);

	return 1;
}

/** Handles the Rx Status Queue Level Interrupt, which indicates that there is at
 * least one packet in the Rx FIFO.  The packets are moved from the FIFO to
 * memory if the DWC_otg controller is operating in Slave mode. */
int32_t dwc_otg_hcd_handle_rx_status_q_level_intr(dwc_otg_hcd_t *dwc_otg_hcd)
{
	host_grxsts_data_t grxsts;
	dwc_hc_t *hc = NULL;

	DWC_DEBUGPL(DBG_HCD, "--RxStsQ Level Interrupt--\n");

	grxsts.d32 = dwc_read_reg32(&dwc_otg_hcd->core_if->core_global_regs->grxstsp);

	hc = dwc_otg_hcd->hc_ptr_array[grxsts.b.chnum];

	/* Packet Status */
	DWC_DEBUGPL(DBG_HCDV, "    Ch num = %d\n", grxsts.b.chnum);
	DWC_DEBUGPL(DBG_HCDV, "    Count = %d\n", grxsts.b.bcnt);
	DWC_DEBUGPL(DBG_HCDV, "    DPID = %d, hc.dpid = %d\n", grxsts.b.dpid, hc->data_pid_start);
	DWC_DEBUGPL(DBG_HCDV, "    PStatus = %d\n", grxsts.b.pktsts);

	switch (grxsts.b.pktsts) {
	case DWC_GRXSTS_PKTSTS_IN:
		/* Read the data into the host buffer. */
		if (grxsts.b.bcnt > 0) {
			dwc_otg_read_packet(dwc_otg_hcd->core_if,
					    hc->xfer_buff,
					    grxsts.b.bcnt);

			/* Update the HC fields for the next packet received. */
			hc->xfer_count += grxsts.b.bcnt;
			hc->xfer_buff += grxsts.b.bcnt;
		}

	case DWC_GRXSTS_PKTSTS_IN_XFER_COMP:
	case DWC_GRXSTS_PKTSTS_DATA_TOGGLE_ERR:
	case DWC_GRXSTS_PKTSTS_CH_HALTED:
		/* Handled in interrupt, just ignore data */
		break;
	default:
		DWC_ERROR("RX_STS_Q Interrupt: Unknown status %d\n", grxsts.b.pktsts);
		break;
	}

	return 1;
}

/** This interrupt occurs when the non-periodic Tx FIFO is half-empty. More
 * data packets may be written to the FIFO for OUT transfers. More requests
 * may be written to the non-periodic request queue for IN transfers. This
 * interrupt is enabled only in Slave mode. */
int32_t dwc_otg_hcd_handle_np_tx_fifo_empty_intr(dwc_otg_hcd_t *dwc_otg_hcd)
{
	DWC_DEBUGPL(DBG_HCD, "--Non-Periodic TxFIFO Empty Interrupt--\n");
	dwc_otg_hcd_queue_transactions(dwc_otg_hcd,
				       DWC_OTG_TRANSACTION_NON_PERIODIC);
	return 1;
}

/** This interrupt occurs when the periodic Tx FIFO is half-empty. More data
 * packets may be written to the FIFO for OUT transfers. More requests may be
 * written to the periodic request queue for IN transfers. This interrupt is
 * enabled only in Slave mode. */
int32_t dwc_otg_hcd_handle_perio_tx_fifo_empty_intr(dwc_otg_hcd_t *dwc_otg_hcd)
{
	DWC_DEBUGPL(DBG_HCD, "--Periodic TxFIFO Empty Interrupt--\n");
	dwc_otg_hcd_queue_transactions(dwc_otg_hcd,
				       DWC_OTG_TRANSACTION_PERIODIC);
	return 1;
}

/** There are multiple conditions that can cause a port interrupt. This function
 * determines which interrupt conditions have occurred and handles them
 * appropriately. */
int32_t dwc_otg_hcd_handle_port_intr(dwc_otg_hcd_t *dwc_otg_hcd)
{
	int retval = 0;
	hprt0_data_t hprt0;
	hprt0_data_t hprt0_modify;

	hprt0.d32 = dwc_read_reg32(dwc_otg_hcd->core_if->host_if->hprt0);
	hprt0_modify.d32 = dwc_read_reg32(dwc_otg_hcd->core_if->host_if->hprt0);

	/* Clear appropriate bits in HPRT0 to clear the interrupt bit in
	 * GINTSTS */

	hprt0_modify.b.prtena = 0;
	hprt0_modify.b.prtconndet = 0;
	hprt0_modify.b.prtenchng = 0;
	hprt0_modify.b.prtovrcurrchng = 0;

	/* Port Connect Detected
	 * Set flag and clear if detected */
	if (hprt0.b.prtconndet) {
		DWC_DEBUGPL(DBG_HCD, "--Port Interrupt HPRT0=0x%08x "
			    "Port Connect Detected--\n", hprt0.d32);
		dwc_otg_hcd->flags.b.port_connect_status_change = 1;
		dwc_otg_hcd->flags.b.port_connect_status = 1;
		hprt0_modify.b.prtconndet = 1;

		/* B-Device has connected, Delete the connection timer. */
		del_timer( &dwc_otg_hcd->conn_timer );

		/* The Hub driver asserts a reset when it sees port connect
		 * status change flag */
		retval |= 1;
	}

	/* Port Enable Changed
	 * Clear if detected - Set internal flag if disabled */
	if (hprt0.b.prtenchng) {
		DWC_DEBUGPL(DBG_HCD, "  --Port Interrupt HPRT0=0x%08x "
			    "Port Enable Changed--\n", hprt0.d32);
		hprt0_modify.b.prtenchng = 1;
		if (hprt0.b.prtena == 1) {
			int do_reset = 0;
			dwc_otg_core_params_t *params = dwc_otg_hcd->core_if->core_params;
			dwc_otg_core_global_regs_t *global_regs = dwc_otg_hcd->core_if->core_global_regs;
			dwc_otg_host_if_t *host_if = dwc_otg_hcd->core_if->host_if;

			/* Check if we need to adjust the PHY clock speed for
			 * low power and adjust it */
			if (params->host_support_fs_ls_low_power) {
				gusbcfg_data_t usbcfg;

				usbcfg.d32 = dwc_read_reg32(&global_regs->gusbcfg);

				if (hprt0.b.prtspd == DWC_HPRT0_PRTSPD_LOW_SPEED ||
				    hprt0.b.prtspd == DWC_HPRT0_PRTSPD_FULL_SPEED) {
					/*
					 * Low power
					 */
					hcfg_data_t hcfg;
					if (usbcfg.b.phylpwrclksel == 0) {
						/* Set PHY low power clock select for FS/LS devices */
						usbcfg.b.phylpwrclksel = 1;
						dwc_write_reg32(&global_regs->gusbcfg, usbcfg.d32);
						do_reset = 1;
					}

					hcfg.d32 = dwc_read_reg32(&host_if->host_global_regs->hcfg);

					if (hprt0.b.prtspd == DWC_HPRT0_PRTSPD_LOW_SPEED &&
					    params->host_ls_low_power_phy_clk ==
					     DWC_HOST_LS_LOW_POWER_PHY_CLK_PARAM_6MHZ) {
						/* 6 MHZ */
						DWC_DEBUGPL(DBG_CIL, "FS_PHY programming HCFG to 6 MHz (Low Power)\n");
						if (hcfg.b.fslspclksel != DWC_HCFG_6_MHZ) {
							hcfg.b.fslspclksel = DWC_HCFG_6_MHZ;
							dwc_write_reg32(&host_if->host_global_regs->hcfg,
									hcfg.d32);
							do_reset = 1;
						}
					} else {
						/* 48 MHZ */
						DWC_DEBUGPL(DBG_CIL, "FS_PHY programming HCFG to 48 MHz ()\n");
						if (hcfg.b.fslspclksel != DWC_HCFG_48_MHZ) {
							hcfg.b.fslspclksel = DWC_HCFG_48_MHZ;
							dwc_write_reg32(&host_if->host_global_regs->hcfg,
									hcfg.d32);
							do_reset = 1;
						}
					}
				} else {
					/*
					 * Not low power
					 */
					if (usbcfg.b.phylpwrclksel == 1) {
						usbcfg.b.phylpwrclksel = 0;
						dwc_write_reg32(&global_regs->gusbcfg, usbcfg.d32);
						do_reset = 1;
					}
				}

				if (do_reset) {
					tasklet_schedule(dwc_otg_hcd->reset_tasklet);
				}
			}

			if (!do_reset) {
				/* Port has been enabled set the reset change flag */
				dwc_otg_hcd->flags.b.port_reset_change = 1;
			}
		} else {
			dwc_otg_hcd->flags.b.port_enable_change = 1;
		}
		retval |= 1;
	}

	/** Overcurrent Change Interrupt */
	if (hprt0.b.prtovrcurrchng) {
		DWC_DEBUGPL(DBG_HCD, "  --Port Interrupt HPRT0=0x%08x "
			    "Port Overcurrent Changed--\n", hprt0.d32);
		dwc_otg_hcd->flags.b.port_over_current_change = 1;
		hprt0_modify.b.prtovrcurrchng = 1;
		retval |= 1;
	}

	/* Clear Port Interrupts */
	dwc_write_reg32(dwc_otg_hcd->core_if->host_if->hprt0, hprt0_modify.d32);

	return retval;
}

/** This interrupt indicates that one or more host channels has a pending
 * interrupt. There are multiple conditions that can cause each host channel
 * interrupt. This function determines which conditions have occurred for each
 * host channel interrupt and handles them appropriately. */
int32_t dwc_otg_hcd_handle_hc_intr(dwc_otg_hcd_t *dwc_otg_hcd)
{
	int i;
	int retval = 0;
	haint_data_t haint;

	/* Clear appropriate bits in HCINTn to clear the interrupt bit in
	 * GINTSTS */

	haint.d32 = dwc_otg_read_host_all_channels_intr(dwc_otg_hcd->core_if);

	for (i = 0; i < dwc_otg_hcd->core_if->core_params->host_channels; i++) {
		if (haint.b2.chint & (1 << i)) {
			retval |= dwc_otg_hcd_handle_hc_n_intr(dwc_otg_hcd, i);
		}
	}

	return retval;
}

/* Macro used to clear one channel interrupt */
#define clear_hc_int(_hc_regs_, _intr_) \
do { \
	hcint_data_t hcint_clear = {.d32 = 0}; \
	hcint_clear.b._intr_ = 1; \
	dwc_write_reg32(&(_hc_regs_)->hcint, hcint_clear.d32); \
} while (0)

/*
 * Macro used to disable one channel interrupt. Channel interrupts are
 * disabled when the channel is halted or released by the interrupt handler.
 * There is no need to handle further interrupts of that type until the
 * channel is re-assigned. In fact, subsequent handling may cause crashes
 * because the channel structures are cleaned up when the channel is released.
 */
#define disable_hc_int(_hc_regs_, _intr_) \
do { \
	hcintmsk_data_t hcintmsk = {.d32 = 0}; \
	hcintmsk.b._intr_ = 1; \
	dwc_modify_reg32(&(_hc_regs_)->hcintmsk, hcintmsk.d32, 0); \
} while (0)

/**
 * Gets the actual length of a transfer after the transfer halts. _halt_status
 * holds the reason for the halt.
 *
 * For IN transfers where halt_status is DWC_OTG_HC_XFER_COMPLETE,
 * *short_read is set to 1 upon return if less than the requested
 * number of bytes were transferred. Otherwise, *short_read is set to 0 upon
 * return. short_read may also be NULL on entry, in which case it remains
 * unchanged.
 */
static uint32_t get_actual_xfer_length(dwc_hc_t *hc,
				       dwc_otg_hc_regs_t *hc_regs,
				       dwc_otg_qtd_t *qtd,
				       dwc_otg_halt_status_e halt_status,
				       int *short_read)
{
	hctsiz_data_t	hctsiz;
	uint32_t	length;

	if (short_read != NULL) {
		*short_read = 0;
	}
	hctsiz.d32 = dwc_read_reg32(&hc_regs->hctsiz);

	if (halt_status == DWC_OTG_HC_XFER_COMPLETE) {
		if (hc->ep_is_in) {
			length = hc->xfer_len - hctsiz.b.xfersize;
			if (short_read != NULL) {
				*short_read = (hctsiz.b.xfersize != 0);
			}
		} else if (hc->qh->do_split) {
			length = qtd->ssplit_out_xfer_count;
		} else {
			length = hc->xfer_len;
		}
	} else {
		/*
		 * Must use the hctsiz.pktcnt field to determine how much data
		 * has been transferred. This field reflects the number of
		 * packets that have been transferred via the USB. This is
		 * always an integral number of packets if the transfer was
		 * halted before its normal completion. (Can't use the
		 * hctsiz.xfersize field because that reflects the number of
		 * bytes transferred via the AHB, not the USB).
		 */
		length = (hc->start_pkt_count - hctsiz.b.pktcnt) * hc->max_packet;
	}

	return length;
}

/**
 * Updates the state of the URB after a Transfer Complete interrupt on the
 * host channel. Updates the actual_length field of the URB based on the
 * number of bytes transferred via the host channel. Sets the URB status
 * if the data transfer is finished.
 *
 * @return 1 if the data transfer specified by the URB is completely finished,
 * 0 otherwise.
 */
static int update_urb_state_xfer_comp(dwc_hc_t *hc,
				      dwc_otg_hc_regs_t *hc_regs,
				      struct urb *urb,
				      dwc_otg_qtd_t *qtd)
{
	int		xfer_done = 0;
	int		short_read = 0;

	urb->actual_length += get_actual_xfer_length(hc, hc_regs, qtd,
						     DWC_OTG_HC_XFER_COMPLETE,
						     &short_read);

	if (short_read || urb->actual_length == urb->transfer_buffer_length) {
		xfer_done = 1;
		if (short_read && (urb->transfer_flags & URB_SHORT_NOT_OK)) {
			urb->status = -EREMOTEIO;
		} else {
			urb->status = 0;
		}
	}

#ifdef DEBUG
	{
		hctsiz_data_t	hctsiz;
		hctsiz.d32 = dwc_read_reg32(&hc_regs->hctsiz);
		DWC_DEBUGPL(DBG_HCDV, "DWC_otg: %s: %s, channel %d\n",
			    __func__, (hc->ep_is_in ? "IN" : "OUT"), hc->hc_num);
		DWC_DEBUGPL(DBG_HCDV, "  hc->xfer_len %d\n", hc->xfer_len);
		DWC_DEBUGPL(DBG_HCDV, "  hctsiz.xfersize %d\n", hctsiz.b.xfersize);
		DWC_DEBUGPL(DBG_HCDV, "  urb->transfer_buffer_length %d\n",
			    urb->transfer_buffer_length);
		DWC_DEBUGPL(DBG_HCDV, "  urb->actual_length %d\n", urb->actual_length);
		DWC_DEBUGPL(DBG_HCDV, "  short_read %d, xfer_done %d\n",
			    short_read, xfer_done);
	}
#endif

	return xfer_done;
}

/*
 * Save the starting data toggle for the next transfer. The data toggle is
 * saved in the QH for non-control transfers and it's saved in the QTD for
 * control transfers.
 */
static void save_data_toggle(dwc_hc_t *hc,
			     dwc_otg_hc_regs_t *hc_regs,
			     dwc_otg_qtd_t *qtd)
{
	hctsiz_data_t hctsiz;
	hctsiz.d32 = dwc_read_reg32(&hc_regs->hctsiz);

	if (hc->ep_type != DWC_OTG_EP_TYPE_CONTROL) {
		dwc_otg_qh_t *qh = hc->qh;
		if (hctsiz.b.pid == DWC_HCTSIZ_DATA0) {
			qh->data_toggle = DWC_OTG_HC_PID_DATA0;
		} else {
			qh->data_toggle = DWC_OTG_HC_PID_DATA1;
		}
	} else {
		if (hctsiz.b.pid == DWC_HCTSIZ_DATA0) {
			qtd->data_toggle = DWC_OTG_HC_PID_DATA0;
		} else {
			qtd->data_toggle = DWC_OTG_HC_PID_DATA1;
		}
	}
}

/**
 * Frees the first QTD in the QH's list if free_qtd is 1. For non-periodic
 * QHs, removes the QH from the active non-periodic schedule. If any QTDs are
 * still linked to the QH, the QH is added to the end of the inactive
 * non-periodic schedule. For periodic QHs, removes the QH from the periodic
 * schedule if no more QTDs are linked to the QH.
 */
static void deactivate_qh(dwc_otg_hcd_t *hcd,
			  dwc_otg_qh_t *qh,
			  int free_qtd)
{
	int continue_split = 0;
	dwc_otg_qtd_t *qtd;

	DWC_DEBUGPL(DBG_HCDV, "  %s(%p,%p,%d)\n", __func__, hcd, qh, free_qtd);

	spin_lock(&hcd->lock);
	qtd = list_entry(qh->qtd_list.next, dwc_otg_qtd_t, qtd_list_entry);

	if (qtd->complete_split) {
		continue_split = 1;
	} else if (qtd->isoc_split_pos == DWC_HCSPLIT_XACTPOS_MID ||
		   qtd->isoc_split_pos == DWC_HCSPLIT_XACTPOS_END) {
		continue_split = 1;
	}

	if (free_qtd) {
		dwc_otg_hcd_qtd_remove_and_free(hcd, qtd);
		continue_split = 0;
	}

	qh->channel = NULL;
	qh->qtd_in_process = NULL;
	spin_unlock(&hcd->lock);
	dwc_otg_hcd_qh_deactivate(hcd, qh, continue_split);
}

/**
 * Updates the state of an Isochronous URB when the transfer is stopped for
 * any reason. The fields of the current entry in the frame descriptor array
 * are set based on the transfer state and the input _halt_status. Completes
 * the Isochronous URB if all the URB frames have been completed.
 *
 * @return DWC_OTG_HC_XFER_COMPLETE if there are more frames remaining to be
 * transferred in the URB. Otherwise return DWC_OTG_HC_XFER_URB_COMPLETE.
 */
static dwc_otg_halt_status_e
update_isoc_urb_state(dwc_otg_hcd_t *hcd,
		      dwc_hc_t *hc,
		      dwc_otg_hc_regs_t *hc_regs,
		      dwc_otg_qtd_t *qtd,
		      dwc_otg_halt_status_e halt_status)
{
	struct urb *urb = qtd->urb;
	dwc_otg_halt_status_e ret_val = halt_status;
	struct usb_iso_packet_descriptor *frame_desc;

	frame_desc = &urb->iso_frame_desc[qtd->isoc_frame_index];
	switch (halt_status) {
	case DWC_OTG_HC_XFER_COMPLETE:
		frame_desc->status = 0;
		frame_desc->actual_length =
			get_actual_xfer_length(hc, hc_regs, qtd,
					       halt_status, NULL);
		break;
	case DWC_OTG_HC_XFER_FRAME_OVERRUN:
		urb->error_count++;
		if (hc->ep_is_in) {
			frame_desc->status = -ENOSR;
		} else {
			frame_desc->status = -ECOMM;
		}
		frame_desc->actual_length = 0;
		break;
	case DWC_OTG_HC_XFER_BABBLE_ERR:
		urb->error_count++;
		frame_desc->status = -EOVERFLOW;
		/* Don't need to update actual_length in this case. */
		break;
	case DWC_OTG_HC_XFER_XACT_ERR:
		urb->error_count++;
		frame_desc->status = -EPROTO;
		frame_desc->actual_length =
			get_actual_xfer_length(hc, hc_regs, qtd,
					       halt_status, NULL);
	default:
		DWC_ERROR("%s: Unhandled _halt_status (%d)\n", __func__,
			  halt_status);
		BUG();
		break;
	}

	if (++qtd->isoc_frame_index == urb->number_of_packets) {
		/*
		 * urb->status is not used for isoc transfers.
		 * The individual frame_desc statuses are used instead.
		 */
		dwc_otg_hcd_complete_urb(hcd, urb, 0);
		ret_val = DWC_OTG_HC_XFER_URB_COMPLETE;
	} else {
		ret_val = DWC_OTG_HC_XFER_COMPLETE;
	}

	return ret_val;
}

/**
 * Releases a host channel for use by other transfers. Attempts to select and
 * queue more transactions since at least one host channel is available.
 *
 * @param hcd The HCD state structure.
 * @param hc The host channel to release.
 * @param qtd The QTD associated with the host channel. This QTD may be freed
 * if the transfer is complete or an error has occurred.
 * @param halt_status Reason the channel is being released. This status
 * determines the actions taken by this function.
 */
static void release_channel(dwc_otg_hcd_t *hcd,
			    dwc_hc_t *hc,
			    dwc_otg_qtd_t *qtd,
			    dwc_otg_halt_status_e halt_status)
{
	dwc_otg_transaction_type_e tr_type;
	int free_qtd;

	DWC_DEBUGPL(DBG_HCDV, "  %s: channel %d, halt_status %d\n",
		    __func__, hc->hc_num, halt_status);

	switch (halt_status) {
	case DWC_OTG_HC_XFER_URB_COMPLETE:
		free_qtd = 1;
		break;
	case DWC_OTG_HC_XFER_AHB_ERR:
	case DWC_OTG_HC_XFER_STALL:
	case DWC_OTG_HC_XFER_BABBLE_ERR:
		free_qtd = 1;
		break;
	case DWC_OTG_HC_XFER_XACT_ERR:
		if (qtd->error_count >= 3) {
			DWC_DEBUGPL(DBG_HCDV, "  Complete URB with transaction error\n");
			free_qtd = 1;
			qtd->urb->status = -EPROTO;
			dwc_otg_hcd_complete_urb(hcd, qtd->urb, -EPROTO);
		} else {
			free_qtd = 0;
		}
		break;
	case DWC_OTG_HC_XFER_URB_DEQUEUE:
		/*
		 * The QTD has already been removed and the QH has been
		 * deactivated. Don't want to do anything except release the
		 * host channel and try to queue more transfers.
		 */
		goto cleanup;
	case DWC_OTG_HC_XFER_NO_HALT_STATUS:
		DWC_ERROR("%s: No halt_status, channel %d\n", __func__, hc->hc_num);
		free_qtd = 0;
		break;
	default:
		free_qtd = 0;
		break;
	}

	deactivate_qh(hcd, hc->qh, free_qtd);

 cleanup:
	/*
	 * Release the host channel for use by other transfers. The cleanup
	 * function clears the channel interrupt enables and conditions, so
	 * there's no need to clear the Channel Halted interrupt separately.
	 */
	dwc_otg_hc_cleanup(hcd->core_if, hc);
	list_add_tail(&hc->hc_list_entry, &hcd->free_hc_list);

	switch (hc->ep_type) {
	case DWC_OTG_EP_TYPE_CONTROL:
	case DWC_OTG_EP_TYPE_BULK:
		hcd->non_periodic_channels--;
		break;

	default:
		/*
		 * Don't release reservations for periodic channels here.
		 * That's done when a periodic transfer is descheduled (i.e.
		 * when the QH is removed from the periodic schedule).
		 */
		break;
	}

	/* Try to queue more transfers now that there's a free channel. */
	tr_type = dwc_otg_hcd_select_transactions(hcd);
	if (tr_type != DWC_OTG_TRANSACTION_NONE) {
		dwc_otg_hcd_queue_transactions(hcd, tr_type);
	}
}

/**
 * Halts a host channel. If the channel cannot be halted immediately because
 * the request queue is full, this function ensures that the FIFO empty
 * interrupt for the appropriate queue is enabled so that the halt request can
 * be queued when there is space in the request queue.
 *
 * This function may also be called in DMA mode. In that case, the channel is
 * simply released since the core always halts the channel automatically in
 * DMA mode.
 */
static void halt_channel(dwc_otg_hcd_t *hcd,
			 dwc_hc_t *hc,
			 dwc_otg_qtd_t *qtd,
			 dwc_otg_halt_status_e halt_status)
{
	if (hcd->core_if->dma_enable) {
		release_channel(hcd, hc, qtd, halt_status);
		return;
	}

	/* Slave mode processing... */
	dwc_otg_hc_halt(hcd->core_if, hc, halt_status);

	if (hc->halt_on_queue) {
		gintmsk_data_t gintmsk = {.d32 = 0};
		dwc_otg_core_global_regs_t *global_regs;
		global_regs = hcd->core_if->core_global_regs;

		if (hc->ep_type == DWC_OTG_EP_TYPE_CONTROL ||
		    hc->ep_type == DWC_OTG_EP_TYPE_BULK) {
			/*
			 * Make sure the Non-periodic Tx FIFO empty interrupt
			 * is enabled so that the non-periodic schedule will
			 * be processed.
			 */
			gintmsk.b.nptxfempty = 1;
			dwc_modify_reg32(&global_regs->gintmsk, 0, gintmsk.d32);
		} else {
			/*
			 * Move the QH from the periodic queued schedule to
			 * the periodic assigned schedule. This allows the
			 * halt to be queued when the periodic schedule is
			 * processed.
			 */
			list_move(&hc->qh->qh_list_entry,
				  &hcd->periodic_sched_assigned);

			/*
			 * Make sure the Periodic Tx FIFO Empty interrupt is
			 * enabled so that the periodic schedule will be
			 * processed.
			 */
			gintmsk.b.ptxfempty = 1;
			dwc_modify_reg32(&global_regs->gintmsk, 0, gintmsk.d32);
		}
	}
}

/**
 * Performs common cleanup for non-periodic transfers after a Transfer
 * Complete interrupt. This function should be called after any endpoint type
 * specific handling is finished to release the host channel.
 */
static void complete_non_periodic_xfer(dwc_otg_hcd_t *hcd,
				       dwc_hc_t *hc,
				       dwc_otg_hc_regs_t *hc_regs,
				       dwc_otg_qtd_t *qtd,
				       dwc_otg_halt_status_e halt_status)
{
	hcint_data_t hcint;

	qtd->error_count = 0;

	hcint.d32 = dwc_read_reg32(&hc_regs->hcint);
	if (hcint.b.nyet) {
		/*
		 * Got a NYET on the last transaction of the transfer. This
		 * means that the endpoint should be in the PING state at the
		 * beginning of the next transfer.
		 */
		hc->qh->ping_state = 1;
		clear_hc_int(hc_regs, nyet);
	}

	/*
	 * Always halt and release the host channel to make it available for
	 * more transfers. There may still be more phases for a control
	 * transfer or more data packets for a bulk transfer at this point,
	 * but the host channel is still halted. A channel will be reassigned
	 * to the transfer when the non-periodic schedule is processed after
	 * the channel is released. This allows transactions to be queued
	 * properly via dwc_otg_hcd_queue_transactions, which also enables the
	 * Tx FIFO Empty interrupt if necessary.
	 */
	if (hc->ep_is_in) {
		/*
		 * IN transfers in Slave mode require an explicit disable to
		 * halt the channel. (In DMA mode, this call simply releases
		 * the channel.)
		 */
		halt_channel(hcd, hc, qtd, halt_status);
	} else {
		/*
		 * The channel is automatically disabled by the core for OUT
		 * transfers in Slave mode.
		 */
		release_channel(hcd, hc, qtd, halt_status);
	}
}

/**
 * Performs common cleanup for periodic transfers after a Transfer Complete
 * interrupt. This function should be called after any endpoint type specific
 * handling is finished to release the host channel.
 */
static void complete_periodic_xfer(dwc_otg_hcd_t *hcd,
				   dwc_hc_t *hc,
				   dwc_otg_hc_regs_t *hc_regs,
				   dwc_otg_qtd_t *qtd,
				   dwc_otg_halt_status_e halt_status)
{
	hctsiz_data_t hctsiz;
	qtd->error_count = 0;

	hctsiz.d32 = dwc_read_reg32(&hc_regs->hctsiz);
	if (!hc->ep_is_in || hctsiz.b.pktcnt == 0) {
		/* Core halts channel in these cases. */
		release_channel(hcd, hc, qtd, halt_status);
	} else {
		/* Flush any outstanding requests from the Tx queue. */
		halt_channel(hcd, hc, qtd, halt_status);
	}
}

/**
 * Handles a host channel Transfer Complete interrupt. This handler may be
 * called in either DMA mode or Slave mode.
 */
static int32_t handle_hc_xfercomp_intr(dwc_otg_hcd_t *hcd,
				       dwc_hc_t *hc,
				       dwc_otg_hc_regs_t *hc_regs,
				       dwc_otg_qtd_t *qtd)
{
	int			urb_xfer_done;
	dwc_otg_halt_status_e	halt_status = DWC_OTG_HC_XFER_COMPLETE;
	struct urb		*urb = qtd->urb;
	int			pipe_type = usb_pipetype(urb->pipe);

	DWC_DEBUGPL(DBG_HCD, "--Host Channel %d Interrupt: "
		    "Transfer Complete--\n", hc->hc_num);

	/*
	 * Handle xfer complete on CSPLIT.
	 */
	if (hc->qh->do_split) {
		qtd->complete_split = 0;
	}

	/* Update the QTD and URB states. */
	switch (pipe_type) {
	case PIPE_CONTROL:
		switch (qtd->control_phase) {
		case DWC_OTG_CONTROL_SETUP:
			if (urb->transfer_buffer_length > 0) {
				qtd->control_phase = DWC_OTG_CONTROL_DATA;
			} else {
				qtd->control_phase = DWC_OTG_CONTROL_STATUS;
			}
			DWC_DEBUGPL(DBG_HCDV, "  Control setup transaction done\n");
			halt_status = DWC_OTG_HC_XFER_COMPLETE;
			break;
		case DWC_OTG_CONTROL_DATA: {
			urb_xfer_done = update_urb_state_xfer_comp(hc, hc_regs, urb, qtd);
			if (urb_xfer_done) {
				qtd->control_phase = DWC_OTG_CONTROL_STATUS;
				DWC_DEBUGPL(DBG_HCDV, "  Control data transfer done\n");
			} else {
				save_data_toggle(hc, hc_regs, qtd);
			}
			halt_status = DWC_OTG_HC_XFER_COMPLETE;
			break;
		}
		case DWC_OTG_CONTROL_STATUS:
			DWC_DEBUGPL(DBG_HCDV, "  Control transfer complete\n");
			if (urb->status == -EINPROGRESS) {
				urb->status = 0;
			}
			dwc_otg_hcd_complete_urb(hcd, urb, urb->status);
			halt_status = DWC_OTG_HC_XFER_URB_COMPLETE;
			break;
		}

		complete_non_periodic_xfer(hcd, hc, hc_regs, qtd, halt_status);
		break;
	case PIPE_BULK:
		DWC_DEBUGPL(DBG_HCDV, "  Bulk transfer complete\n");
		urb_xfer_done = update_urb_state_xfer_comp(hc, hc_regs, urb, qtd);
		if (urb_xfer_done) {
			dwc_otg_hcd_complete_urb(hcd, urb, urb->status);
			halt_status = DWC_OTG_HC_XFER_URB_COMPLETE;
		} else {
			halt_status = DWC_OTG_HC_XFER_COMPLETE;
		}

		save_data_toggle(hc, hc_regs, qtd);
		complete_non_periodic_xfer(hcd, hc, hc_regs, qtd, halt_status);
		break;
	case PIPE_INTERRUPT:
		DWC_DEBUGPL(DBG_HCDV, "  Interrupt transfer complete\n");
		update_urb_state_xfer_comp(hc, hc_regs, urb, qtd);

		/*
		 * Interrupt URB is done on the first transfer complete
		 * interrupt.
		 */
		dwc_otg_hcd_complete_urb(hcd, urb, urb->status);
		save_data_toggle(hc, hc_regs, qtd);
		complete_periodic_xfer(hcd, hc, hc_regs, qtd,
				       DWC_OTG_HC_XFER_URB_COMPLETE);
		break;
	case PIPE_ISOCHRONOUS:
		DWC_DEBUGPL(DBG_HCDV,  "  Isochronous transfer complete\n");
		if (qtd->isoc_split_pos == DWC_HCSPLIT_XACTPOS_ALL) {
			halt_status = update_isoc_urb_state(hcd, hc, hc_regs, qtd,
							    DWC_OTG_HC_XFER_COMPLETE);
		}
		complete_periodic_xfer(hcd, hc, hc_regs, qtd, halt_status);
		break;
	}

	disable_hc_int(hc_regs, xfercompl);

	return 1;
}

/**
 * Handles a host channel STALL interrupt. This handler may be called in
 * either DMA mode or Slave mode.
 */
static int32_t handle_hc_stall_intr(dwc_otg_hcd_t *hcd,
				    dwc_hc_t *hc,
				    dwc_otg_hc_regs_t *hc_regs,
				    dwc_otg_qtd_t *qtd)
{
	struct urb *urb = qtd->urb;
	int pipe_type = usb_pipetype(urb->pipe);

	DWC_DEBUGPL(DBG_HCD, "--Host Channel %d Interrupt: "
		    "STALL Received--\n", hc->hc_num);

	if (pipe_type == PIPE_CONTROL) {
		dwc_otg_hcd_complete_urb(hcd, urb, -EPIPE);
	}

	if (pipe_type == PIPE_BULK || pipe_type == PIPE_INTERRUPT) {
		dwc_otg_hcd_complete_urb(hcd, urb, -EPIPE);
		/*
		 * USB protocol requires resetting the data toggle for bulk
		 * and interrupt endpoints when a CLEAR_FEATURE(ENDPOINT_HALT)
		 * setup command is issued to the endpoint. Anticipate the
		 * CLEAR_FEATURE command since a STALL has occurred and reset
		 * the data toggle now.
		 */
		hc->qh->data_toggle = 0;
	}

	halt_channel(hcd, hc, qtd, DWC_OTG_HC_XFER_STALL);

	disable_hc_int(hc_regs, stall);

	return 1;
}

/*
 * Updates the state of the URB when a transfer has been stopped due to an
 * abnormal condition before the transfer completes. Modifies the
 * actual_length field of the URB to reflect the number of bytes that have
 * actually been transferred via the host channel.
 */
static void update_urb_state_xfer_intr(dwc_hc_t *hc,
				       dwc_otg_hc_regs_t *hc_regs,
				       struct urb *urb,
				       dwc_otg_qtd_t *qtd,
				       dwc_otg_halt_status_e halt_status)
{
	uint32_t bytes_transferred = get_actual_xfer_length(hc, hc_regs, qtd,
							    halt_status, NULL);
	urb->actual_length += bytes_transferred;

#ifdef DEBUG
	{
		hctsiz_data_t	hctsiz;
		hctsiz.d32 = dwc_read_reg32(&hc_regs->hctsiz);
		DWC_DEBUGPL(DBG_HCDV, "DWC_otg: %s: %s, channel %d\n",
			    __func__, (hc->ep_is_in ? "IN" : "OUT"), hc->hc_num);
		DWC_DEBUGPL(DBG_HCDV, "  hc->start_pkt_count %d\n", hc->start_pkt_count);
		DWC_DEBUGPL(DBG_HCDV, "  hctsiz.pktcnt %d\n", hctsiz.b.pktcnt);
		DWC_DEBUGPL(DBG_HCDV, "  hc->max_packet %d\n", hc->max_packet);
		DWC_DEBUGPL(DBG_HCDV, "  bytes_transferred %d\n", bytes_transferred);
		DWC_DEBUGPL(DBG_HCDV, "  urb->actual_length %d\n", urb->actual_length);
		DWC_DEBUGPL(DBG_HCDV, "  urb->transfer_buffer_length %d\n",
			    urb->transfer_buffer_length);
	}
#endif
}

/**
 * Handles a host channel NAK interrupt. This handler may be called in either
 * DMA mode or Slave mode.
 */
static int32_t handle_hc_nak_intr(dwc_otg_hcd_t *hcd,
				  dwc_hc_t *hc,
				  dwc_otg_hc_regs_t *hc_regs,
				  dwc_otg_qtd_t *qtd)
{
	DWC_DEBUGPL(DBG_HCD, "--Host Channel %d Interrupt: "
		    "NAK Received--\n", hc->hc_num);

	/*
	 * Handle NAK for IN/OUT SSPLIT/CSPLIT transfers, bulk, control, and
	 * interrupt.  Re-start the SSPLIT transfer.
	 */
	if (hc->do_split) {
		if (hc->complete_split) {
			qtd->error_count = 0;
		}
		qtd->complete_split = 0;
		halt_channel(hcd, hc, qtd, DWC_OTG_HC_XFER_NAK);
		goto handle_nak_done;
	}

	switch (usb_pipetype(qtd->urb->pipe)) {
	case PIPE_CONTROL:
	case PIPE_BULK:
		if (hcd->core_if->dma_enable && hc->ep_is_in) {
			/*
			 * NAK interrupts are enabled on bulk/control IN
			 * transfers in DMA mode for the sole purpose of
			 * resetting the error count after a transaction error
			 * occurs. The core will continue transferring data.
			 */
			qtd->error_count = 0;
			goto handle_nak_done;
		}

		/*
		 * NAK interrupts normally occur during OUT transfers in DMA
		 * or Slave mode. For IN transfers, more requests will be
		 * queued as request queue space is available.
		 */
		qtd->error_count = 0;

		if (!hc->qh->ping_state) {
			update_urb_state_xfer_intr(hc, hc_regs, qtd->urb,
						   qtd, DWC_OTG_HC_XFER_NAK);
			save_data_toggle(hc, hc_regs, qtd);
			if (qtd->urb->dev->speed == USB_SPEED_HIGH) {
				hc->qh->ping_state = 1;
			}
		}

		/*
		 * Halt the channel so the transfer can be re-started from
		 * the appropriate point or the PING protocol will
		 * start/continue.
		 */
		halt_channel(hcd, hc, qtd, DWC_OTG_HC_XFER_NAK);
		break;
	case PIPE_INTERRUPT:
		qtd->error_count = 0;
		halt_channel(hcd, hc, qtd, DWC_OTG_HC_XFER_NAK);
		break;
	case PIPE_ISOCHRONOUS:
		/* Should never get called for isochronous transfers. */
		BUG();
		break;
	}

 handle_nak_done:
	disable_hc_int(hc_regs, nak);

	return 1;
}

/**
 * Handles a host channel ACK interrupt. This interrupt is enabled when
 * performing the PING protocol in Slave mode, when errors occur during
 * either Slave mode or DMA mode, and during Start Split transactions.
 */
static int32_t handle_hc_ack_intr(dwc_otg_hcd_t *hcd,
				  dwc_hc_t *hc,
				  dwc_otg_hc_regs_t *hc_regs,
				  dwc_otg_qtd_t *qtd)
{
	DWC_DEBUGPL(DBG_HCD, "--Host Channel %d Interrupt: "
		    "ACK Received--\n", hc->hc_num);

	if (hc->do_split) {
		/*
		 * Handle ACK on SSPLIT.
		 * ACK should not occur in CSPLIT.
		 */
		if (!hc->ep_is_in && hc->data_pid_start != DWC_OTG_HC_PID_SETUP) {
			qtd->ssplit_out_xfer_count = hc->xfer_len;
		}
		if (!(hc->ep_type == DWC_OTG_EP_TYPE_ISOC && !hc->ep_is_in)) {
			/* Don't need complete for isochronous out transfers. */
			qtd->complete_split = 1;
		}

		/* ISOC OUT */
		if (hc->ep_type == DWC_OTG_EP_TYPE_ISOC && !hc->ep_is_in) {
			switch (hc->xact_pos) {
			case DWC_HCSPLIT_XACTPOS_ALL:
				break;
			case DWC_HCSPLIT_XACTPOS_END:
				qtd->isoc_split_pos = DWC_HCSPLIT_XACTPOS_ALL;
				qtd->isoc_split_offset = 0;
				break;
			case DWC_HCSPLIT_XACTPOS_BEGIN:
			case DWC_HCSPLIT_XACTPOS_MID:
				/*
				 * For BEGIN or MID, calculate the length for
				 * the next microframe to determine the correct
				 * SSPLIT token, either MID or END.
				 */
				{
					struct usb_iso_packet_descriptor *frame_desc;

					frame_desc = &qtd->urb->iso_frame_desc[qtd->isoc_frame_index];
					qtd->isoc_split_offset += 188;

					if ((frame_desc->length - qtd->isoc_split_offset) <= 188) {
						qtd->isoc_split_pos = DWC_HCSPLIT_XACTPOS_END;
					} else {
						qtd->isoc_split_pos = DWC_HCSPLIT_XACTPOS_MID;
					}

				}
				break;
			}
		} else {
			halt_channel(hcd, hc, qtd, DWC_OTG_HC_XFER_ACK);
		}
	} else {
		qtd->error_count = 0;

		if (hc->qh->ping_state) {
			hc->qh->ping_state = 0;
			/*
			 * Halt the channel so the transfer can be re-started
			 * from the appropriate point. This only happens in
			 * Slave mode. In DMA mode, the ping_state is cleared
			 * when the transfer is started because the core
			 * automatically executes the PING, then the transfer.
			 */
			halt_channel(hcd, hc, qtd, DWC_OTG_HC_XFER_ACK);
		}
	}

	/*
	 * If the ACK occurred when _not_ in the PING state, let the channel
	 * continue transferring data after clearing the error count.
	 */

	disable_hc_int(hc_regs, ack);

	return 1;
}

/**
 * Handles a host channel NYET interrupt. This interrupt should only occur on
 * Bulk and Control OUT endpoints and for complete split transactions. If a
 * NYET occurs at the same time as a Transfer Complete interrupt, it is
 * handled in the xfercomp interrupt handler, not here. This handler may be
 * called in either DMA mode or Slave mode.
 */
static int32_t handle_hc_nyet_intr(dwc_otg_hcd_t *hcd,
				   dwc_hc_t *hc,
				   dwc_otg_hc_regs_t *hc_regs,
				   dwc_otg_qtd_t *qtd)
{
	DWC_DEBUGPL(DBG_HCD, "--Host Channel %d Interrupt: "
		    "NYET Received--\n", hc->hc_num);

	/*
	 * NYET on CSPLIT
	 * re-do the CSPLIT immediately on non-periodic
	 */
	if (hc->do_split && hc->complete_split) {
		if (hc->ep_type == DWC_OTG_EP_TYPE_INTR ||
		    hc->ep_type == DWC_OTG_EP_TYPE_ISOC) {
			int frnum = dwc_otg_hcd_get_frame_number(dwc_otg_hcd_to_hcd(hcd));

			if (dwc_full_frame_num(frnum) !=
			    dwc_full_frame_num(hc->qh->sched_frame)) {
				/*
				 * No longer in the same full speed frame.
				 * Treat this as a transaction error.
				 */
#if 0
				/** @todo Fix system performance so this can
				 * be treated as an error. Right now complete
				 * splits cannot be scheduled precisely enough
				 * due to other system activity, so this error
				 * occurs regularly in Slave mode.
				 */
				qtd->error_count++;
#endif
				qtd->complete_split = 0;
				halt_channel(hcd, hc, qtd, DWC_OTG_HC_XFER_XACT_ERR);
				/** @todo add support for isoc release */
				goto handle_nyet_done;
			}
		}

		halt_channel(hcd, hc, qtd, DWC_OTG_HC_XFER_NYET);
		goto handle_nyet_done;
	}

	hc->qh->ping_state = 1;
	qtd->error_count = 0;

	update_urb_state_xfer_intr(hc, hc_regs, qtd->urb, qtd,
				   DWC_OTG_HC_XFER_NYET);
	save_data_toggle(hc, hc_regs, qtd);

	/*
	 * Halt the channel and re-start the transfer so the PING
	 * protocol will start.
	 */
	halt_channel(hcd, hc, qtd, DWC_OTG_HC_XFER_NYET);

handle_nyet_done:
	disable_hc_int(hc_regs, nyet);
	return 1;
}

/**
 * Handles a host channel babble interrupt. This handler may be called in
 * either DMA mode or Slave mode.
 */
static int32_t handle_hc_babble_intr(dwc_otg_hcd_t *hcd,
				     dwc_hc_t *hc,
				     dwc_otg_hc_regs_t *hc_regs,
				     dwc_otg_qtd_t *qtd)
{
	DWC_DEBUGPL(DBG_HCD, "--Host Channel %d Interrupt: "
		    "Babble Error--\n", hc->hc_num);
	if (hc->ep_type != DWC_OTG_EP_TYPE_ISOC) {
		dwc_otg_hcd_complete_urb(hcd, qtd->urb, -EOVERFLOW);
		halt_channel(hcd, hc, qtd, DWC_OTG_HC_XFER_BABBLE_ERR);
	} else {
		dwc_otg_halt_status_e halt_status;
		halt_status = update_isoc_urb_state(hcd, hc, hc_regs, qtd,
						    DWC_OTG_HC_XFER_BABBLE_ERR);
		halt_channel(hcd, hc, qtd, halt_status);
	}
	disable_hc_int(hc_regs, bblerr);
	return 1;
}

/**
 * Handles a host channel AHB error interrupt. This handler is only called in
 * DMA mode.
 */
static int32_t handle_hc_ahberr_intr(dwc_otg_hcd_t *hcd,
				     dwc_hc_t *hc,
				     dwc_otg_hc_regs_t *hc_regs,
				     dwc_otg_qtd_t *qtd)
{
	hcchar_data_t	hcchar;
	hcsplt_data_t	hcsplt;
	hctsiz_data_t	hctsiz;
	uint32_t	hcdma;
	struct urb	*urb = qtd->urb;

	DWC_DEBUGPL(DBG_HCD, "--Host Channel %d Interrupt: "
		    "AHB Error--\n", hc->hc_num);

	hcchar.d32 = dwc_read_reg32(&hc_regs->hcchar);
	hcsplt.d32 = dwc_read_reg32(&hc_regs->hcsplt);
	hctsiz.d32 = dwc_read_reg32(&hc_regs->hctsiz);
	hcdma = dwc_read_reg32(&hc_regs->hcdma);

	DWC_ERROR("AHB ERROR, Channel %d\n", hc->hc_num);
	DWC_ERROR("  hcchar 0x%08x, hcsplt 0x%08x\n", hcchar.d32, hcsplt.d32);
	DWC_ERROR("  hctsiz 0x%08x, hcdma 0x%08x\n", hctsiz.d32, hcdma);
		  DWC_DEBUGPL(DBG_HCD, "DWC OTG HCD URB Enqueue\n");
	DWC_ERROR("  Device address: %d\n", usb_pipedevice(urb->pipe));
	DWC_ERROR("  Endpoint: %d, %s\n", usb_pipeendpoint(urb->pipe),
		  (usb_pipein(urb->pipe) ? "IN" : "OUT"));
	DWC_ERROR("  Endpoint type: %s\n",
		  ({char *pipetype;
		    switch (usb_pipetype(urb->pipe)) {
		    case PIPE_CONTROL: pipetype = "CONTROL"; break;
		    case PIPE_BULK: pipetype = "BULK"; break;
		    case PIPE_INTERRUPT: pipetype = "INTERRUPT"; break;
		    case PIPE_ISOCHRONOUS: pipetype = "ISOCHRONOUS"; break;
		    default: pipetype = "UNKNOWN"; break;
		   }; pipetype;}));
	DWC_ERROR("  Speed: %s\n",
		  ({char *speed;
		    switch (urb->dev->speed) {
		    case USB_SPEED_HIGH: speed = "HIGH"; break;
		    case USB_SPEED_FULL: speed = "FULL"; break;
		    case USB_SPEED_LOW: speed = "LOW"; break;
		    default: speed = "UNKNOWN"; break;
		   }; speed;}));
	DWC_ERROR("  Max packet size: %d\n",
		  usb_maxpacket(urb->dev, urb->pipe, usb_pipeout(urb->pipe)));
	DWC_ERROR("  Data buffer length: %d\n", urb->transfer_buffer_length);
	DWC_ERROR("  Transfer buffer: %p, Transfer DMA: %p\n",
		  urb->transfer_buffer, (void *)urb->transfer_dma);
	DWC_ERROR("  Setup buffer: %p, Setup DMA: %p\n",
		  urb->setup_packet, (void *)urb->setup_dma);
	DWC_ERROR("  Interval: %d\n", urb->interval);

	dwc_otg_hcd_complete_urb(hcd, urb, -EIO);

	/*
	 * Force a channel halt. Don't call halt_channel because that won't
	 * write to the HCCHARn register in DMA mode to force the halt.
	 */
	dwc_otg_hc_halt(hcd->core_if, hc, DWC_OTG_HC_XFER_AHB_ERR);

	disable_hc_int(hc_regs, ahberr);
	return 1;
}

/**
 * Handles a host channel transaction error interrupt. This handler may be
 * called in either DMA mode or Slave mode.
 */
static int32_t handle_hc_xacterr_intr(dwc_otg_hcd_t *hcd,
				      dwc_hc_t *hc,
				      dwc_otg_hc_regs_t *hc_regs,
				      dwc_otg_qtd_t *qtd)
{
	DWC_DEBUGPL(DBG_HCD, "--Host Channel %d Interrupt: "
		    "Transaction Error--\n", hc->hc_num);

	switch (usb_pipetype(qtd->urb->pipe)) {
	case PIPE_CONTROL:
	case PIPE_BULK:
		qtd->error_count++;
		if (!hc->qh->ping_state) {
			update_urb_state_xfer_intr(hc, hc_regs, qtd->urb,
						   qtd, DWC_OTG_HC_XFER_XACT_ERR);
			save_data_toggle(hc, hc_regs, qtd);
			if (!hc->ep_is_in && qtd->urb->dev->speed == USB_SPEED_HIGH) {
				hc->qh->ping_state = 1;
			}
		}

		/*
		 * Halt the channel so the transfer can be re-started from
		 * the appropriate point or the PING protocol will start.
		 */
		halt_channel(hcd, hc, qtd, DWC_OTG_HC_XFER_XACT_ERR);
		break;
	case PIPE_INTERRUPT:
		qtd->error_count++;
		if (hc->do_split && hc->complete_split) {
			qtd->complete_split = 0;
		}
		halt_channel(hcd, hc, qtd, DWC_OTG_HC_XFER_XACT_ERR);
		break;
	case PIPE_ISOCHRONOUS:
		{
			dwc_otg_halt_status_e halt_status;
			halt_status = update_isoc_urb_state(hcd, hc, hc_regs, qtd,
							    DWC_OTG_HC_XFER_XACT_ERR);

			halt_channel(hcd, hc, qtd, halt_status);
		}
		break;
	}

	disable_hc_int(hc_regs, xacterr);

	return 1;
}

/**
 * Handles a host channel frame overrun interrupt. This handler may be called
 * in either DMA mode or Slave mode.
 */
static int32_t handle_hc_frmovrun_intr(dwc_otg_hcd_t *hcd,
				       dwc_hc_t *hc,
				       dwc_otg_hc_regs_t *hc_regs,
				       dwc_otg_qtd_t *qtd)
{
	DWC_DEBUGPL(DBG_HCD, "--Host Channel %d Interrupt: "
		    "Frame Overrun--\n", hc->hc_num);

	switch (usb_pipetype(qtd->urb->pipe)) {
	case PIPE_CONTROL:
	case PIPE_BULK:
		break;
	case PIPE_INTERRUPT:
		halt_channel(hcd, hc, qtd, DWC_OTG_HC_XFER_FRAME_OVERRUN);
		break;
	case PIPE_ISOCHRONOUS:
		{
			dwc_otg_halt_status_e halt_status;
			halt_status = update_isoc_urb_state(hcd, hc, hc_regs, qtd,
							    DWC_OTG_HC_XFER_FRAME_OVERRUN);

			halt_channel(hcd, hc, qtd, halt_status);
		}
		break;
	}

	disable_hc_int(hc_regs, frmovrun);

	return 1;
}

/**
 * Handles a host channel data toggle error interrupt. This handler may be
 * called in either DMA mode or Slave mode.
 */
static int32_t handle_hc_datatglerr_intr(dwc_otg_hcd_t *hcd,
					 dwc_hc_t *hc,
					 dwc_otg_hc_regs_t *hc_regs,
					 dwc_otg_qtd_t *qtd)
{
	DWC_DEBUGPL(DBG_HCD, "--Host Channel %d Interrupt: "
		    "Data Toggle Error--\n", hc->hc_num);

	if (hc->ep_is_in) {
		qtd->error_count = 0;
	} else {
		DWC_ERROR("Data Toggle Error on OUT transfer,"
			  "channel %d\n", hc->hc_num);
	}

	disable_hc_int(hc_regs, datatglerr);

	return 1;
}

#ifdef DEBUG
/**
 * This function is for debug only. It checks that a valid halt status is set
 * and that HCCHARn.chdis is clear. If there's a problem, corrective action is
 * taken and a warning is issued.
 * @return 1 if halt status is ok, 0 otherwise.
 */
static inline int halt_status_ok(dwc_otg_hcd_t *hcd,
				 dwc_hc_t *hc,
				 dwc_otg_hc_regs_t *hc_regs,
				 dwc_otg_qtd_t *qtd)
{
	hcchar_data_t hcchar;
	hctsiz_data_t hctsiz;
	hcint_data_t hcint;
	hcintmsk_data_t hcintmsk;
	hcsplt_data_t hcsplt;

	if (hc->halt_status == DWC_OTG_HC_XFER_NO_HALT_STATUS) {
		/*
		 * This code is here only as a check. This condition should
		 * never happen. Ignore the halt if it does occur.
		 */
		hcchar.d32 = dwc_read_reg32(&hc_regs->hcchar);
		hctsiz.d32 = dwc_read_reg32(&hc_regs->hctsiz);
		hcint.d32 = dwc_read_reg32(&hc_regs->hcint);
		hcintmsk.d32 = dwc_read_reg32(&hc_regs->hcintmsk);
		hcsplt.d32 = dwc_read_reg32(&hc_regs->hcsplt);
		DWC_WARN("%s: hc->halt_status == DWC_OTG_HC_XFER_NO_HALT_STATUS, "
			 "channel %d, hcchar 0x%08x, hctsiz 0x%08x, "
			 "hcint 0x%08x, hcintmsk 0x%08x, "
			 "hcsplt 0x%08x, qtd->complete_split %d\n",
			 __func__, hc->hc_num, hcchar.d32, hctsiz.d32,
			 hcint.d32, hcintmsk.d32,
			 hcsplt.d32, qtd->complete_split);

		DWC_WARN("%s: no halt status, channel %d, ignoring interrupt\n",
			 __func__, hc->hc_num);
		DWC_WARN("\n");
		clear_hc_int(hc_regs, chhltd);
		return 0;
	}

	/*
	 * This code is here only as a check. hcchar.chdis should
	 * never be set when the halt interrupt occurs. Halt the
	 * channel again if it does occur.
	 */
	hcchar.d32 = dwc_read_reg32(&hc_regs->hcchar);
	if (hcchar.b.chdis) {
		DWC_WARN("%s: hcchar.chdis set unexpectedly, "
			 "hcchar 0x%08x, trying to halt again\n",
			 __func__, hcchar.d32);
		clear_hc_int(hc_regs, chhltd);
		hc->halt_pending = 0;
		halt_channel(hcd, hc, qtd, hc->halt_status);
		return 0;
	}

	return 1;
}
#endif

/**
 * Handles a host Channel Halted interrupt in DMA mode. This handler
 * determines the reason the channel halted and proceeds accordingly.
 */
static void handle_hc_chhltd_intr_dma(dwc_otg_hcd_t *hcd,
				      dwc_hc_t *hc,
				      dwc_otg_hc_regs_t *hc_regs,
				      dwc_otg_qtd_t *qtd)
{
	hcint_data_t hcint;
	hcintmsk_data_t hcintmsk;
	int out_nak_enh = 0;

	/* For core with OUT NAK enhancement, the flow for high-
	 * speed CONTROL/BULK OUT is handled a little differently.
	 */
	if (hcd->core_if->snpsid >= 0x4F54271A) {
		if (hc->speed == DWC_OTG_EP_SPEED_HIGH && !hc->ep_is_in &&
		    (hc->ep_type == DWC_OTG_EP_TYPE_CONTROL ||
		     hc->ep_type == DWC_OTG_EP_TYPE_BULK)) {
			DWC_DEBUGPL(DBG_HCD, "OUT NAK enhancement enabled\n");
			out_nak_enh = 1;
		} else {
			DWC_DEBUGPL(DBG_HCD, "OUT NAK enhancement disabled, not HS Ctrl/Bulk OUT EP\n");
		}
	} else {
		DWC_DEBUGPL(DBG_HCD, "OUT NAK enhancement disabled, no core support\n");
	}

	if (hc->halt_status == DWC_OTG_HC_XFER_URB_DEQUEUE ||
	    hc->halt_status == DWC_OTG_HC_XFER_AHB_ERR) {
		/*
		 * Just release the channel. A dequeue can happen on a
		 * transfer timeout. In the case of an AHB Error, the channel
		 * was forced to halt because there's no way to gracefully
		 * recover.
		 */
		release_channel(hcd, hc, qtd, hc->halt_status);
		return;
	}

	/* Read the HCINTn register to determine the cause for the halt. */
	hcint.d32 = dwc_read_reg32(&hc_regs->hcint);
	hcintmsk.d32 = dwc_read_reg32(&hc_regs->hcintmsk);

	if (hcint.b.xfercomp) {
		/** @todo This is here because of a possible hardware bug.  Spec
		 * says that on SPLIT-ISOC OUT transfers in DMA mode that a HALT
		 * interrupt w/ACK bit set should occur, but I only see the
		 * XFERCOMP bit, even with it masked out.  This is a workaround
		 * for that behavior.  Should fix this when hardware is fixed.
		 */
		if (hc->ep_type == DWC_OTG_EP_TYPE_ISOC && !hc->ep_is_in) {
			handle_hc_ack_intr(hcd, hc, hc_regs, qtd);
		}
		handle_hc_xfercomp_intr(hcd, hc, hc_regs, qtd);
	} else if (hcint.b.stall) {
		handle_hc_stall_intr(hcd, hc, hc_regs, qtd);
	} else if (hcint.b.xacterr) {
		if (out_nak_enh) {
			if (hcint.b.nyet || hcint.b.nak || hcint.b.ack) {
				printk(KERN_DEBUG "XactErr with NYET/NAK/ACK\n");
				qtd->error_count = 0;
			} else {
				printk(KERN_DEBUG "XactErr without NYET/NAK/ACK\n");
			}
		}

		/*
		 * Must handle xacterr before nak or ack. Could get a xacterr
		 * at the same time as either of these on a BULK/CONTROL OUT
		 * that started with a PING. The xacterr takes precedence.
		 */
		handle_hc_xacterr_intr(hcd, hc, hc_regs, qtd);
	} else if (!out_nak_enh) {
		if (hcint.b.nyet) {
			/*
			 * Must handle nyet before nak or ack. Could get a nyet at the
			 * same time as either of those on a BULK/CONTROL OUT that
			 * started with a PING. The nyet takes precedence.
			 */
			handle_hc_nyet_intr(hcd, hc, hc_regs, qtd);
		} else if (hcint.b.bblerr) {
			handle_hc_babble_intr(hcd, hc, hc_regs, qtd);
		} else if (hcint.b.frmovrun) {
			handle_hc_frmovrun_intr(hcd, hc, hc_regs, qtd);
		} else if (hcint.b.nak && !hcintmsk.b.nak) {
			/*
			 * If nak is not masked, it's because a non-split IN transfer
			 * is in an error state. In that case, the nak is handled by
			 * the nak interrupt handler, not here. Handle nak here for
			 * BULK/CONTROL OUT transfers, which halt on a NAK to allow
			 * rewinding the buffer pointer.
			 */
			handle_hc_nak_intr(hcd, hc, hc_regs, qtd);
		} else if (hcint.b.ack && !hcintmsk.b.ack) {
			/*
			 * If ack is not masked, it's because a non-split IN transfer
			 * is in an error state. In that case, the ack is handled by
			 * the ack interrupt handler, not here. Handle ack here for
			 * split transfers. Start splits halt on ACK.
			 */
			handle_hc_ack_intr(hcd, hc, hc_regs, qtd);
		} else {
			if (hc->ep_type == DWC_OTG_EP_TYPE_INTR ||
			    hc->ep_type == DWC_OTG_EP_TYPE_ISOC) {
				/*
				 * A periodic transfer halted with no other channel
				 * interrupts set. Assume it was halted by the core
				 * because it could not be completed in its scheduled
				 * (micro)frame.
				 */
#ifdef DEBUG
				DWC_PRINT("%s: Halt channel %d (assume incomplete periodic transfer)\n",
					  __func__, hc->hc_num);
#endif
				halt_channel(hcd, hc, qtd, DWC_OTG_HC_XFER_PERIODIC_INCOMPLETE);
			} else {
				DWC_ERROR("%s: Channel %d, DMA Mode -- ChHltd set, but reason "
					  "for halting is unknown, hcint 0x%08x, intsts 0x%08x\n",
					  __func__, hc->hc_num, hcint.d32,
					  dwc_read_reg32(&hcd->core_if->core_global_regs->gintsts));
			}
		}
	} else {
		printk(KERN_DEBUG "NYET/NAK/ACK/other in non-error case, 0x%08x\n", hcint.d32);
	}
}

/**
 * Handles a host channel Channel Halted interrupt.
 *
 * In slave mode, this handler is called only when the driver specifically
 * requests a halt. This occurs during handling other host channel interrupts
 * (e.g. nak, xacterr, stall, nyet, etc.).
 *
 * In DMA mode, this is the interrupt that occurs when the core has finished
 * processing a transfer on a channel. Other host channel interrupts (except
 * ahberr) are disabled in DMA mode.
 */
static int32_t handle_hc_chhltd_intr(dwc_otg_hcd_t *hcd,
				     dwc_hc_t *hc,
				     dwc_otg_hc_regs_t *hc_regs,
				     dwc_otg_qtd_t *qtd)
{
	DWC_DEBUGPL(DBG_HCD, "--Host Channel %d Interrupt: "
		    "Channel Halted--\n", hc->hc_num);

	if (hcd->core_if->dma_enable) {
		handle_hc_chhltd_intr_dma(hcd, hc, hc_regs, qtd);
	} else {
#ifdef DEBUG
		if (!halt_status_ok(hcd, hc, hc_regs, qtd)) {
			return 1;
		}
#endif
		release_channel(hcd, hc, qtd, hc->halt_status);
	}

	return 1;
}

/** Handles interrupt for a specific Host Channel */
int32_t dwc_otg_hcd_handle_hc_n_intr(dwc_otg_hcd_t *dwc_otg_hcd, uint32_t num)
{
	int retval = 0;
	hcint_data_t hcint;
	hcintmsk_data_t hcintmsk;
	dwc_hc_t *hc;
	dwc_otg_hc_regs_t *hc_regs;
	dwc_otg_qtd_t *qtd;

	DWC_DEBUGPL(DBG_HCDV, "--Host Channel Interrupt--, Channel %d\n", num);

	hc = dwc_otg_hcd->hc_ptr_array[num];
	hc_regs = dwc_otg_hcd->core_if->host_if->hc_regs[num];
	qtd = list_entry(hc->qh->qtd_list.next, dwc_otg_qtd_t, qtd_list_entry);

	hcint.d32 = dwc_read_reg32(&hc_regs->hcint);
	hcintmsk.d32 = dwc_read_reg32(&hc_regs->hcintmsk);
	DWC_DEBUGPL(DBG_HCDV, "  hcint 0x%08x, hcintmsk 0x%08x, hcint&hcintmsk 0x%08x\n",
		    hcint.d32, hcintmsk.d32, (hcint.d32 & hcintmsk.d32));
	hcint.d32 = hcint.d32 & hcintmsk.d32;

	if (!dwc_otg_hcd->core_if->dma_enable) {
		if (hcint.b.chhltd && hcint.d32 != 0x2) {
			hcint.b.chhltd = 0;
		}
	}

	if (hcint.b.xfercomp) {
		retval |= handle_hc_xfercomp_intr(dwc_otg_hcd, hc, hc_regs, qtd);
		/*
		 * If NYET occurred at same time as Xfer Complete, the NYET is
		 * handled by the Xfer Complete interrupt handler. Don't want
		 * to call the NYET interrupt handler in this case.
		 */
		hcint.b.nyet = 0;
	}
	if (hcint.b.chhltd) {
		retval |= handle_hc_chhltd_intr(dwc_otg_hcd, hc, hc_regs, qtd);
	}
	if (hcint.b.ahberr) {
		retval |= handle_hc_ahberr_intr(dwc_otg_hcd, hc, hc_regs, qtd);
	}
	if (hcint.b.stall) {
		retval |= handle_hc_stall_intr(dwc_otg_hcd, hc, hc_regs, qtd);
	}
	if (hcint.b.nak) {
		retval |= handle_hc_nak_intr(dwc_otg_hcd, hc, hc_regs, qtd);
	}
	if (hcint.b.ack) {
		retval |= handle_hc_ack_intr(dwc_otg_hcd, hc, hc_regs, qtd);
	}
	if (hcint.b.nyet) {
		retval |= handle_hc_nyet_intr(dwc_otg_hcd, hc, hc_regs, qtd);
	}
	if (hcint.b.xacterr) {
		retval |= handle_hc_xacterr_intr(dwc_otg_hcd, hc, hc_regs, qtd);
	}
	if (hcint.b.bblerr) {
		retval |= handle_hc_babble_intr(dwc_otg_hcd, hc, hc_regs, qtd);
	}
	if (hcint.b.frmovrun) {
		retval |= handle_hc_frmovrun_intr(dwc_otg_hcd, hc, hc_regs, qtd);
	}
	if (hcint.b.datatglerr) {
		retval |= handle_hc_datatglerr_intr(dwc_otg_hcd, hc, hc_regs, qtd);
	}

	return retval;
}

#endif /* DWC_DEVICE_ONLY */