MFC r334307, r335103-r335104

[FreeBSD/FreeBSD.git] / usr.sbin / bhyve / pci_xhci.c

/*-
 * Copyright (c) 2014 Leon Dang <ldang@nahannisys.com>
 * All rights reserved.
 *
 * Redistribution and use in source and binary forms, with or without
 * modification, are permitted provided that the following conditions
 * are met:
 * 1. Redistributions of source code must retain the above copyright
 *    notice, this list of conditions and the following disclaimer.
 * 2. Redistributions in binary form must reproduce the above copyright
 *    notice, this list of conditions and the following disclaimer in the
 *    documentation and/or other materials provided with the distribution.
 *
 * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND
 * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
 * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
 * ARE DISCLAIMED.  IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS 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.
 */
/*
   XHCI options:
    -s <n>,xhci,{devices}

   devices:
     tablet             USB tablet mouse
 */
#include <sys/cdefs.h>
__FBSDID("$FreeBSD$");

#include <sys/param.h>
#include <sys/uio.h>
#include <sys/types.h>
#include <sys/queue.h>

#include <stdio.h>
#include <stdlib.h>
#include <stdint.h>
#include <string.h>
#include <errno.h>
#include <pthread.h>
#include <unistd.h>

#include <dev/usb/usbdi.h>
#include <dev/usb/usb.h>
#include <dev/usb/usb_freebsd.h>
#include <xhcireg.h>

#include "bhyverun.h"
#include "pci_emul.h"
#include "pci_xhci.h"
#include "usb_emul.h"


static int xhci_debug = 0;
#define DPRINTF(params) if (xhci_debug) printf params
#define WPRINTF(params) printf params


#define XHCI_NAME               "xhci"
#define XHCI_MAX_DEVS           8       /* 4 USB3 + 4 USB2 devs */

#define XHCI_MAX_SLOTS          64      /* min allowed by Windows drivers */

/*
 * XHCI data structures can be up to 64k, but limit paddr_guest2host mapping
 * to 4k to avoid going over the guest physical memory barrier.
 */
#define XHCI_PADDR_SZ           4096    /* paddr_guest2host max size */

#define XHCI_ERST_MAX           0       /* max 2^entries event ring seg tbl */

#define XHCI_CAPLEN             (4*8)   /* offset of op register space */
#define XHCI_HCCPRAMS2          0x1C    /* offset of HCCPARAMS2 register */
#define XHCI_PORTREGS_START     0x400
#define XHCI_DOORBELL_MAX       256

#define XHCI_STREAMS_MAX        1       /* 4-15 in XHCI spec */

/* caplength and hci-version registers */
#define XHCI_SET_CAPLEN(x)              ((x) & 0xFF)
#define XHCI_SET_HCIVERSION(x)          (((x) & 0xFFFF) << 16)
#define XHCI_GET_HCIVERSION(x)          (((x) >> 16) & 0xFFFF)

/* hcsparams1 register */
#define XHCI_SET_HCSP1_MAXSLOTS(x)      ((x) & 0xFF)
#define XHCI_SET_HCSP1_MAXINTR(x)       (((x) & 0x7FF) << 8)
#define XHCI_SET_HCSP1_MAXPORTS(x)      (((x) & 0xFF) << 24)

/* hcsparams2 register */
#define XHCI_SET_HCSP2_IST(x)           ((x) & 0x0F)
#define XHCI_SET_HCSP2_ERSTMAX(x)       (((x) & 0x0F) << 4)
#define XHCI_SET_HCSP2_MAXSCRATCH_HI(x) (((x) & 0x1F) << 21)
#define XHCI_SET_HCSP2_MAXSCRATCH_LO(x) (((x) & 0x1F) << 27)

/* hcsparams3 register */
#define XHCI_SET_HCSP3_U1EXITLATENCY(x) ((x) & 0xFF)
#define XHCI_SET_HCSP3_U2EXITLATENCY(x) (((x) & 0xFFFF) << 16)

/* hccparams1 register */
#define XHCI_SET_HCCP1_AC64(x)          ((x) & 0x01)
#define XHCI_SET_HCCP1_BNC(x)           (((x) & 0x01) << 1)
#define XHCI_SET_HCCP1_CSZ(x)           (((x) & 0x01) << 2)
#define XHCI_SET_HCCP1_PPC(x)           (((x) & 0x01) << 3)
#define XHCI_SET_HCCP1_PIND(x)          (((x) & 0x01) << 4)
#define XHCI_SET_HCCP1_LHRC(x)          (((x) & 0x01) << 5)
#define XHCI_SET_HCCP1_LTC(x)           (((x) & 0x01) << 6)
#define XHCI_SET_HCCP1_NSS(x)           (((x) & 0x01) << 7)
#define XHCI_SET_HCCP1_PAE(x)           (((x) & 0x01) << 8)
#define XHCI_SET_HCCP1_SPC(x)           (((x) & 0x01) << 9)
#define XHCI_SET_HCCP1_SEC(x)           (((x) & 0x01) << 10)
#define XHCI_SET_HCCP1_CFC(x)           (((x) & 0x01) << 11)
#define XHCI_SET_HCCP1_MAXPSA(x)        (((x) & 0x0F) << 12)
#define XHCI_SET_HCCP1_XECP(x)          (((x) & 0xFFFF) << 16)

/* hccparams2 register */
#define XHCI_SET_HCCP2_U3C(x)           ((x) & 0x01)
#define XHCI_SET_HCCP2_CMC(x)           (((x) & 0x01) << 1)
#define XHCI_SET_HCCP2_FSC(x)           (((x) & 0x01) << 2)
#define XHCI_SET_HCCP2_CTC(x)           (((x) & 0x01) << 3)
#define XHCI_SET_HCCP2_LEC(x)           (((x) & 0x01) << 4)
#define XHCI_SET_HCCP2_CIC(x)           (((x) & 0x01) << 5)

/* other registers */
#define XHCI_SET_DOORBELL(x)            ((x) & ~0x03)
#define XHCI_SET_RTSOFFSET(x)           ((x) & ~0x0F)

/* register masks */
#define XHCI_PS_PLS_MASK                (0xF << 5)      /* port link state */
#define XHCI_PS_SPEED_MASK              (0xF << 10)     /* port speed */
#define XHCI_PS_PIC_MASK                (0x3 << 14)     /* port indicator */

/* port register set */
#define XHCI_PORTREGS_BASE              0x400           /* base offset */
#define XHCI_PORTREGS_PORT0             0x3F0
#define XHCI_PORTREGS_SETSZ             0x10            /* size of a set */

#define MASK_64_HI(x)                   ((x) & ~0xFFFFFFFFULL)
#define MASK_64_LO(x)                   ((x) & 0xFFFFFFFFULL)

#define FIELD_REPLACE(a,b,m,s)          (((a) & ~((m) << (s))) | \
                                        (((b) & (m)) << (s)))
#define FIELD_COPY(a,b,m,s)             (((a) & ~((m) << (s))) | \
                                        (((b) & ((m) << (s)))))

struct pci_xhci_trb_ring {
        uint64_t ringaddr;              /* current dequeue guest address */
        uint32_t ccs;                   /* consumer cycle state */
};

/* device endpoint transfer/stream rings */
struct pci_xhci_dev_ep {
        union {
                struct xhci_trb         *_epu_tr;
                struct xhci_stream_ctx  *_epu_sctx;
        } _ep_trbsctx;
#define ep_tr           _ep_trbsctx._epu_tr
#define ep_sctx         _ep_trbsctx._epu_sctx

        union {
                struct pci_xhci_trb_ring _epu_trb;
                struct pci_xhci_trb_ring *_epu_sctx_trbs;
        } _ep_trb_rings;
#define ep_ringaddr     _ep_trb_rings._epu_trb.ringaddr
#define ep_ccs          _ep_trb_rings._epu_trb.ccs
#define ep_sctx_trbs    _ep_trb_rings._epu_sctx_trbs

        struct usb_data_xfer *ep_xfer;  /* transfer chain */
};

/* device context base address array: maps slot->device context */
struct xhci_dcbaa {
        uint64_t dcba[USB_MAX_DEVICES+1]; /* xhci_dev_ctx ptrs */
};

/* port status registers */
struct pci_xhci_portregs {
        uint32_t        portsc;         /* port status and control */
        uint32_t        portpmsc;       /* port pwr mgmt status & control */
        uint32_t        portli;         /* port link info */
        uint32_t        porthlpmc;      /* port hardware LPM control */
} __packed;
#define XHCI_PS_SPEED_SET(x)    (((x) & 0xF) << 10)

/* xHC operational registers */
struct pci_xhci_opregs {
        uint32_t        usbcmd;         /* usb command */
        uint32_t        usbsts;         /* usb status */
        uint32_t        pgsz;           /* page size */
        uint32_t        dnctrl;         /* device notification control */
        uint64_t        crcr;           /* command ring control */
        uint64_t        dcbaap;         /* device ctx base addr array ptr */
        uint32_t        config;         /* configure */

        /* guest mapped addresses: */
        struct xhci_trb *cr_p;          /* crcr dequeue */
        struct xhci_dcbaa *dcbaa_p;     /* dev ctx array ptr */
};

/* xHC runtime registers */
struct pci_xhci_rtsregs {
        uint32_t        mfindex;        /* microframe index */
        struct {                        /* interrupter register set */
                uint32_t        iman;   /* interrupter management */
                uint32_t        imod;   /* interrupter moderation */
                uint32_t        erstsz; /* event ring segment table size */
                uint32_t        rsvd;
                uint64_t        erstba; /* event ring seg-tbl base addr */
                uint64_t        erdp;   /* event ring dequeue ptr */
        } intrreg __packed;

        /* guest mapped addresses */
        struct xhci_event_ring_seg *erstba_p;
        struct xhci_trb *erst_p;        /* event ring segment tbl */
        int             er_deq_seg;     /* event ring dequeue segment */
        int             er_enq_idx;     /* event ring enqueue index - xHCI */
        int             er_enq_seg;     /* event ring enqueue segment */
        uint32_t        er_events_cnt;  /* number of events in ER */
        uint32_t        event_pcs;      /* producer cycle state flag */
};


struct pci_xhci_softc;


/*
 * USB device emulation container.
 * This is referenced from usb_hci->hci_sc; 1 pci_xhci_dev_emu for each
 * emulated device instance.
 */
struct pci_xhci_dev_emu {
        struct pci_xhci_softc   *xsc;

        /* XHCI contexts */
        struct xhci_dev_ctx     *dev_ctx;
        struct pci_xhci_dev_ep  eps[XHCI_MAX_ENDPOINTS];
        int                     dev_slotstate;

        struct usb_devemu       *dev_ue;        /* USB emulated dev */
        void                    *dev_sc;        /* device's softc */

        struct usb_hci          hci;
};

struct pci_xhci_softc {
        struct pci_devinst *xsc_pi;

        pthread_mutex_t mtx;

        uint32_t        caplength;      /* caplen & hciversion */
        uint32_t        hcsparams1;     /* structural parameters 1 */
        uint32_t        hcsparams2;     /* structural parameters 2 */
        uint32_t        hcsparams3;     /* structural parameters 3 */
        uint32_t        hccparams1;     /* capability parameters 1 */
        uint32_t        dboff;          /* doorbell offset */
        uint32_t        rtsoff;         /* runtime register space offset */
        uint32_t        hccparams2;     /* capability parameters 2 */

        uint32_t        regsend;        /* end of configuration registers */

        struct pci_xhci_opregs  opregs;
        struct pci_xhci_rtsregs rtsregs;

        struct pci_xhci_portregs *portregs;
        struct pci_xhci_dev_emu  **devices; /* XHCI[port] = device */
        struct pci_xhci_dev_emu  **slots;   /* slots assigned from 1 */
        int             ndevices;

        int             usb2_port_start;
        int             usb3_port_start;
};


/* portregs and devices arrays are set up to start from idx=1 */
#define XHCI_PORTREG_PTR(x,n)   &(x)->portregs[(n)]
#define XHCI_DEVINST_PTR(x,n)   (x)->devices[(n)]
#define XHCI_SLOTDEV_PTR(x,n)   (x)->slots[(n)]

#define XHCI_HALTED(sc)         ((sc)->opregs.usbsts & XHCI_STS_HCH)

#define XHCI_GADDR(sc,a)        paddr_guest2host((sc)->xsc_pi->pi_vmctx, \
                                    (a),                                 \
                                    XHCI_PADDR_SZ - ((a) & (XHCI_PADDR_SZ-1)))

static int xhci_in_use;

/* map USB errors to XHCI */
static const int xhci_usb_errors[USB_ERR_MAX] = {
        [USB_ERR_NORMAL_COMPLETION]     = XHCI_TRB_ERROR_SUCCESS,
        [USB_ERR_PENDING_REQUESTS]      = XHCI_TRB_ERROR_RESOURCE,
        [USB_ERR_NOT_STARTED]           = XHCI_TRB_ERROR_ENDP_NOT_ON,
        [USB_ERR_INVAL]                 = XHCI_TRB_ERROR_INVALID,
        [USB_ERR_NOMEM]                 = XHCI_TRB_ERROR_RESOURCE,
        [USB_ERR_CANCELLED]             = XHCI_TRB_ERROR_STOPPED,
        [USB_ERR_BAD_ADDRESS]           = XHCI_TRB_ERROR_PARAMETER,
        [USB_ERR_BAD_BUFSIZE]           = XHCI_TRB_ERROR_PARAMETER,
        [USB_ERR_BAD_FLAG]              = XHCI_TRB_ERROR_PARAMETER,
        [USB_ERR_NO_CALLBACK]           = XHCI_TRB_ERROR_STALL,
        [USB_ERR_IN_USE]                = XHCI_TRB_ERROR_RESOURCE,
        [USB_ERR_NO_ADDR]               = XHCI_TRB_ERROR_RESOURCE,
        [USB_ERR_NO_PIPE]               = XHCI_TRB_ERROR_RESOURCE,
        [USB_ERR_ZERO_NFRAMES]          = XHCI_TRB_ERROR_UNDEFINED,
        [USB_ERR_ZERO_MAXP]             = XHCI_TRB_ERROR_UNDEFINED,
        [USB_ERR_SET_ADDR_FAILED]       = XHCI_TRB_ERROR_RESOURCE,
        [USB_ERR_NO_POWER]              = XHCI_TRB_ERROR_ENDP_NOT_ON,
        [USB_ERR_TOO_DEEP]              = XHCI_TRB_ERROR_RESOURCE,
        [USB_ERR_IOERROR]               = XHCI_TRB_ERROR_TRB,
        [USB_ERR_NOT_CONFIGURED]        = XHCI_TRB_ERROR_ENDP_NOT_ON,
        [USB_ERR_TIMEOUT]               = XHCI_TRB_ERROR_CMD_ABORTED,
        [USB_ERR_SHORT_XFER]            = XHCI_TRB_ERROR_SHORT_PKT,
        [USB_ERR_STALLED]               = XHCI_TRB_ERROR_STALL,
        [USB_ERR_INTERRUPTED]           = XHCI_TRB_ERROR_CMD_ABORTED,
        [USB_ERR_DMA_LOAD_FAILED]       = XHCI_TRB_ERROR_DATA_BUF,
        [USB_ERR_BAD_CONTEXT]           = XHCI_TRB_ERROR_TRB,
        [USB_ERR_NO_ROOT_HUB]           = XHCI_TRB_ERROR_UNDEFINED,
        [USB_ERR_NO_INTR_THREAD]        = XHCI_TRB_ERROR_UNDEFINED,
        [USB_ERR_NOT_LOCKED]            = XHCI_TRB_ERROR_UNDEFINED,
};
#define USB_TO_XHCI_ERR(e)      ((e) < USB_ERR_MAX ? xhci_usb_errors[(e)] : \
                                XHCI_TRB_ERROR_INVALID)

static int pci_xhci_insert_event(struct pci_xhci_softc *sc,
    struct xhci_trb *evtrb, int do_intr);
static void pci_xhci_dump_trb(struct xhci_trb *trb);
static void pci_xhci_assert_interrupt(struct pci_xhci_softc *sc);
static void pci_xhci_reset_slot(struct pci_xhci_softc *sc, int slot);
static void pci_xhci_reset_port(struct pci_xhci_softc *sc, int portn, int warm);
static void pci_xhci_update_ep_ring(struct pci_xhci_softc *sc,
    struct pci_xhci_dev_emu *dev, struct pci_xhci_dev_ep *devep,
    struct xhci_endp_ctx *ep_ctx, uint32_t streamid,
    uint64_t ringaddr, int ccs);

static void
pci_xhci_set_evtrb(struct xhci_trb *evtrb, uint64_t port, uint32_t errcode,
    uint32_t evtype)
{
        evtrb->qwTrb0 = port << 24;
        evtrb->dwTrb2 = XHCI_TRB_2_ERROR_SET(errcode);
        evtrb->dwTrb3 = XHCI_TRB_3_TYPE_SET(evtype);
}


/* controller reset */
static void
pci_xhci_reset(struct pci_xhci_softc *sc)
{
        int i;

        sc->rtsregs.er_enq_idx = 0;
        sc->rtsregs.er_events_cnt = 0;
        sc->rtsregs.event_pcs = 1;

        for (i = 1; i <= XHCI_MAX_SLOTS; i++) {
                pci_xhci_reset_slot(sc, i);
        }
}

static uint32_t
pci_xhci_usbcmd_write(struct pci_xhci_softc *sc, uint32_t cmd)
{
        int do_intr = 0;
        int i;

        if (cmd & XHCI_CMD_RS) {
                do_intr = (sc->opregs.usbcmd & XHCI_CMD_RS) == 0;

                sc->opregs.usbcmd |= XHCI_CMD_RS;
                sc->opregs.usbsts &= ~XHCI_STS_HCH;
                sc->opregs.usbsts |= XHCI_STS_PCD;

                /* Queue port change event on controller run from stop */
                if (do_intr)
                        for (i = 1; i <= XHCI_MAX_DEVS; i++) {
                                struct pci_xhci_dev_emu *dev;
                                struct pci_xhci_portregs *port;
                                struct xhci_trb         evtrb;

                                if ((dev = XHCI_DEVINST_PTR(sc, i)) == NULL)
                                        continue;

                                port = XHCI_PORTREG_PTR(sc, i);
                                port->portsc |= XHCI_PS_CSC | XHCI_PS_CCS;
                                port->portsc &= ~XHCI_PS_PLS_MASK;

                                /*
                                 * XHCI 4.19.3 USB2 RxDetect->Polling,
                                 *             USB3 Polling->U0
                                 */
                                if (dev->dev_ue->ue_usbver == 2)
                                        port->portsc |=
                                            XHCI_PS_PLS_SET(UPS_PORT_LS_POLL);
                                else
                                        port->portsc |=
                                            XHCI_PS_PLS_SET(UPS_PORT_LS_U0);

                                pci_xhci_set_evtrb(&evtrb, i,
                                    XHCI_TRB_ERROR_SUCCESS,
                                    XHCI_TRB_EVENT_PORT_STS_CHANGE);

                                if (pci_xhci_insert_event(sc, &evtrb, 0) !=
                                    XHCI_TRB_ERROR_SUCCESS)
                                        break;
                        }
        } else {
                sc->opregs.usbcmd &= ~XHCI_CMD_RS;
                sc->opregs.usbsts |= XHCI_STS_HCH;
                sc->opregs.usbsts &= ~XHCI_STS_PCD;
        }

        /* start execution of schedule; stop when set to 0 */
        cmd |= sc->opregs.usbcmd & XHCI_CMD_RS;

        if (cmd & XHCI_CMD_HCRST) {
                /* reset controller */
                pci_xhci_reset(sc);
                cmd &= ~XHCI_CMD_HCRST;
        }

        cmd &= ~(XHCI_CMD_CSS | XHCI_CMD_CRS);

        if (do_intr)
                pci_xhci_assert_interrupt(sc);

        return (cmd);
}

static void
pci_xhci_portregs_write(struct pci_xhci_softc *sc, uint64_t offset,
    uint64_t value)
{
        struct xhci_trb         evtrb;
        struct pci_xhci_portregs *p;
        int port;
        uint32_t oldpls, newpls;

        if (sc->portregs == NULL)
                return;

        port = (offset - XHCI_PORTREGS_PORT0) / XHCI_PORTREGS_SETSZ;
        offset = (offset - XHCI_PORTREGS_PORT0) % XHCI_PORTREGS_SETSZ;

        DPRINTF(("pci_xhci: portregs wr offset 0x%lx, port %u: 0x%lx\r\n",
                offset, port, value));

        assert(port >= 0);

        if (port > XHCI_MAX_DEVS) {
                DPRINTF(("pci_xhci: portregs_write port %d > ndevices\r\n",
                    port));
                return;
        }

        if (XHCI_DEVINST_PTR(sc, port) == NULL) {
                DPRINTF(("pci_xhci: portregs_write to unattached port %d\r\n",
                     port));
        }

        p = XHCI_PORTREG_PTR(sc, port);
        switch (offset) {
        case 0:
                /* port reset or warm reset */
                if (value & (XHCI_PS_PR | XHCI_PS_WPR)) {
                        pci_xhci_reset_port(sc, port, value & XHCI_PS_WPR);
                        break;
                }

                if ((p->portsc & XHCI_PS_PP) == 0) {
                        WPRINTF(("pci_xhci: portregs_write to unpowered "
                                 "port %d\r\n", port));
                        break;
                }

                /* Port status and control register  */
                oldpls = XHCI_PS_PLS_GET(p->portsc);
                newpls = XHCI_PS_PLS_GET(value);

                p->portsc &= XHCI_PS_PED | XHCI_PS_PLS_MASK |
                             XHCI_PS_SPEED_MASK | XHCI_PS_PIC_MASK;
  
                if (XHCI_DEVINST_PTR(sc, port))
                        p->portsc |= XHCI_PS_CCS;

                p->portsc |= (value &
                              ~(XHCI_PS_OCA |
                                XHCI_PS_PR  |
                                XHCI_PS_PED |
                                XHCI_PS_PLS_MASK   |    /* link state */
                                XHCI_PS_SPEED_MASK |
                                XHCI_PS_PIC_MASK   |    /* port indicator */
                                XHCI_PS_LWS | XHCI_PS_DR | XHCI_PS_WPR));

                /* clear control bits */
                p->portsc &= ~(value &
                               (XHCI_PS_CSC |
                                XHCI_PS_PEC |
                                XHCI_PS_WRC |
                                XHCI_PS_OCC |
                                XHCI_PS_PRC |
                                XHCI_PS_PLC |
                                XHCI_PS_CEC |
                                XHCI_PS_CAS));

                /* port disable request; for USB3, don't care */
                if (value & XHCI_PS_PED)
                        DPRINTF(("Disable port %d request\r\n", port));

                if (!(value & XHCI_PS_LWS))
                        break;

                DPRINTF(("Port new PLS: %d\r\n", newpls));
                switch (newpls) {
                case 0: /* U0 */
                case 3: /* U3 */
                        if (oldpls != newpls) {
                                p->portsc &= ~XHCI_PS_PLS_MASK;
                                p->portsc |= XHCI_PS_PLS_SET(newpls) |
                                             XHCI_PS_PLC;

                                if (oldpls != 0 && newpls == 0) {
                                        pci_xhci_set_evtrb(&evtrb, port,
                                            XHCI_TRB_ERROR_SUCCESS,
                                            XHCI_TRB_EVENT_PORT_STS_CHANGE);

                                        pci_xhci_insert_event(sc, &evtrb, 1);
                                }
                        }
                        break;

                default:
                        DPRINTF(("Unhandled change port %d PLS %u\r\n",
                                 port, newpls));
                        break;
                }
                break;
        case 4: 
                /* Port power management status and control register  */
                p->portpmsc = value;
                break;
        case 8:
                /* Port link information register */
                DPRINTF(("pci_xhci attempted write to PORTLI, port %d\r\n",
                        port));
                break;
        case 12:
                /*
                 * Port hardware LPM control register.
                 * For USB3, this register is reserved.
                 */
                p->porthlpmc = value;
                break;
        }
}

struct xhci_dev_ctx *
pci_xhci_get_dev_ctx(struct pci_xhci_softc *sc, uint32_t slot)
{
        uint64_t devctx_addr;
        struct xhci_dev_ctx *devctx;

        assert(slot > 0 && slot <= sc->ndevices);
        assert(sc->opregs.dcbaa_p != NULL);

        devctx_addr = sc->opregs.dcbaa_p->dcba[slot];

        if (devctx_addr == 0) {
                DPRINTF(("get_dev_ctx devctx_addr == 0\r\n"));
                return (NULL);
        }

        DPRINTF(("pci_xhci: get dev ctx, slot %u devctx addr %016lx\r\n",
                slot, devctx_addr));
        devctx = XHCI_GADDR(sc, devctx_addr & ~0x3FUL);

        return (devctx);
}

struct xhci_trb *
pci_xhci_trb_next(struct pci_xhci_softc *sc, struct xhci_trb *curtrb,
    uint64_t *guestaddr)
{
        struct xhci_trb *next;

        assert(curtrb != NULL);

        if (XHCI_TRB_3_TYPE_GET(curtrb->dwTrb3) == XHCI_TRB_TYPE_LINK) {
                if (guestaddr)
                        *guestaddr = curtrb->qwTrb0 & ~0xFUL;
                
                next = XHCI_GADDR(sc, curtrb->qwTrb0 & ~0xFUL);
        } else {
                if (guestaddr)
                        *guestaddr += sizeof(struct xhci_trb) & ~0xFUL;

                next = curtrb + 1;
        }

        return (next);
}

static void
pci_xhci_assert_interrupt(struct pci_xhci_softc *sc)
{

        sc->rtsregs.intrreg.erdp |= XHCI_ERDP_LO_BUSY;
        sc->rtsregs.intrreg.iman |= XHCI_IMAN_INTR_PEND;
        sc->opregs.usbsts |= XHCI_STS_EINT;

        /* only trigger interrupt if permitted */
        if ((sc->opregs.usbcmd & XHCI_CMD_INTE) &&
            (sc->rtsregs.intrreg.iman & XHCI_IMAN_INTR_ENA)) {
                if (pci_msi_enabled(sc->xsc_pi))
                        pci_generate_msi(sc->xsc_pi, 0);
                else
                        pci_lintr_assert(sc->xsc_pi);
        }
}

static void
pci_xhci_deassert_interrupt(struct pci_xhci_softc *sc)
{

        if (!pci_msi_enabled(sc->xsc_pi))
                pci_lintr_assert(sc->xsc_pi);
}

static void
pci_xhci_init_ep(struct pci_xhci_dev_emu *dev, int epid)
{
        struct xhci_dev_ctx    *dev_ctx;
        struct pci_xhci_dev_ep *devep;
        struct xhci_endp_ctx   *ep_ctx;
        uint32_t        pstreams;
        int             i;

        dev_ctx = dev->dev_ctx;
        ep_ctx = &dev_ctx->ctx_ep[epid];
        devep = &dev->eps[epid];
        pstreams = XHCI_EPCTX_0_MAXP_STREAMS_GET(ep_ctx->dwEpCtx0);
        if (pstreams > 0) {
                DPRINTF(("init_ep %d with pstreams %d\r\n", epid, pstreams));
                assert(devep->ep_sctx_trbs == NULL);

                devep->ep_sctx = XHCI_GADDR(dev->xsc, ep_ctx->qwEpCtx2 &
                                            XHCI_EPCTX_2_TR_DQ_PTR_MASK);
                devep->ep_sctx_trbs = calloc(pstreams,
                                      sizeof(struct pci_xhci_trb_ring));
                for (i = 0; i < pstreams; i++) {
                        devep->ep_sctx_trbs[i].ringaddr =
                                                 devep->ep_sctx[i].qwSctx0 &
                                                 XHCI_SCTX_0_TR_DQ_PTR_MASK;
                        devep->ep_sctx_trbs[i].ccs =
                             XHCI_SCTX_0_DCS_GET(devep->ep_sctx[i].qwSctx0);
                }
        } else {
                DPRINTF(("init_ep %d with no pstreams\r\n", epid));
                devep->ep_ringaddr = ep_ctx->qwEpCtx2 &
                                     XHCI_EPCTX_2_TR_DQ_PTR_MASK;
                devep->ep_ccs = XHCI_EPCTX_2_DCS_GET(ep_ctx->qwEpCtx2);
                devep->ep_tr = XHCI_GADDR(dev->xsc, devep->ep_ringaddr);
                DPRINTF(("init_ep tr DCS %x\r\n", devep->ep_ccs));
        }

        if (devep->ep_xfer == NULL) {
                devep->ep_xfer = malloc(sizeof(struct usb_data_xfer));
                USB_DATA_XFER_INIT(devep->ep_xfer);
        }
}

static void
pci_xhci_disable_ep(struct pci_xhci_dev_emu *dev, int epid)
{
        struct xhci_dev_ctx    *dev_ctx;
        struct pci_xhci_dev_ep *devep;
        struct xhci_endp_ctx   *ep_ctx;

        DPRINTF(("pci_xhci disable_ep %d\r\n", epid));

        dev_ctx = dev->dev_ctx;
        ep_ctx = &dev_ctx->ctx_ep[epid];
        ep_ctx->dwEpCtx0 = (ep_ctx->dwEpCtx0 & ~0x7) | XHCI_ST_EPCTX_DISABLED;

        devep = &dev->eps[epid];
        if (XHCI_EPCTX_0_MAXP_STREAMS_GET(ep_ctx->dwEpCtx0) > 0 &&
            devep->ep_sctx_trbs != NULL)
                        free(devep->ep_sctx_trbs);

        if (devep->ep_xfer != NULL) {
                free(devep->ep_xfer);
                devep->ep_xfer = NULL;
        }

        memset(devep, 0, sizeof(struct pci_xhci_dev_ep));
}


/* reset device at slot and data structures related to it */
static void
pci_xhci_reset_slot(struct pci_xhci_softc *sc, int slot)
{
        struct pci_xhci_dev_emu *dev;

        dev = XHCI_SLOTDEV_PTR(sc, slot);

        if (!dev) {
                DPRINTF(("xhci reset unassigned slot (%d)?\r\n", slot));
        } else {
                dev->dev_slotstate = XHCI_ST_DISABLED;
        }

        /* TODO: reset ring buffer pointers */
}

static int
pci_xhci_insert_event(struct pci_xhci_softc *sc, struct xhci_trb *evtrb,
    int do_intr)
{
        struct pci_xhci_rtsregs *rts;
        uint64_t        erdp;
        int             erdp_idx;
        int             err;
        struct xhci_trb *evtrbptr;

        err = XHCI_TRB_ERROR_SUCCESS;

        rts = &sc->rtsregs;

        erdp = rts->intrreg.erdp & ~0xF;
        erdp_idx = (erdp - rts->erstba_p[rts->er_deq_seg].qwEvrsTablePtr) /
                   sizeof(struct xhci_trb);

        DPRINTF(("pci_xhci: insert event 0[%lx] 2[%x] 3[%x]\r\n"
                 "\terdp idx %d/seg %d, enq idx %d/seg %d, pcs %u\r\n"
                 "\t(erdp=0x%lx, erst=0x%lx, tblsz=%u, do_intr %d)\r\n",
                 evtrb->qwTrb0, evtrb->dwTrb2, evtrb->dwTrb3,
                 erdp_idx, rts->er_deq_seg, rts->er_enq_idx,
                 rts->er_enq_seg,
                 rts->event_pcs, erdp, rts->erstba_p->qwEvrsTablePtr,
                 rts->erstba_p->dwEvrsTableSize, do_intr));

        evtrbptr = &rts->erst_p[rts->er_enq_idx];

        /* TODO: multi-segment table */
        if (rts->er_events_cnt >= rts->erstba_p->dwEvrsTableSize) {
                DPRINTF(("pci_xhci[%d] cannot insert event; ring full\r\n",
                         __LINE__));
                err = XHCI_TRB_ERROR_EV_RING_FULL;
                goto done;
        }

        if (rts->er_events_cnt == rts->erstba_p->dwEvrsTableSize - 1) {
                struct xhci_trb errev;

                if ((evtrbptr->dwTrb3 & 0x1) == (rts->event_pcs & 0x1)) {

                        DPRINTF(("pci_xhci[%d] insert evt err: ring full\r\n",
                                 __LINE__));

                        errev.qwTrb0 = 0;
                        errev.dwTrb2 = XHCI_TRB_2_ERROR_SET(
                                            XHCI_TRB_ERROR_EV_RING_FULL);
                        errev.dwTrb3 = XHCI_TRB_3_TYPE_SET(
                                            XHCI_TRB_EVENT_HOST_CTRL) |
                                       rts->event_pcs;
                        rts->er_events_cnt++;
                        memcpy(&rts->erst_p[rts->er_enq_idx], &errev,
                               sizeof(struct xhci_trb));
                        rts->er_enq_idx = (rts->er_enq_idx + 1) %
                                          rts->erstba_p->dwEvrsTableSize;
                        err = XHCI_TRB_ERROR_EV_RING_FULL;
                        do_intr = 1;

                        goto done;
                }
        } else {
                rts->er_events_cnt++;
        }

        evtrb->dwTrb3 &= ~XHCI_TRB_3_CYCLE_BIT;
        evtrb->dwTrb3 |= rts->event_pcs;

        memcpy(&rts->erst_p[rts->er_enq_idx], evtrb, sizeof(struct xhci_trb));
        rts->er_enq_idx = (rts->er_enq_idx + 1) %
                          rts->erstba_p->dwEvrsTableSize;

        if (rts->er_enq_idx == 0)
                rts->event_pcs ^= 1;

done:
        if (do_intr)
                pci_xhci_assert_interrupt(sc);

        return (err);
}

static uint32_t
pci_xhci_cmd_enable_slot(struct pci_xhci_softc *sc, uint32_t *slot)
{
        struct pci_xhci_dev_emu *dev;
        uint32_t        cmderr;
        int             i;

        cmderr = XHCI_TRB_ERROR_NO_SLOTS;
        if (sc->portregs != NULL)
                for (i = 1; i <= XHCI_MAX_SLOTS; i++) {
                        dev = XHCI_SLOTDEV_PTR(sc, i);
                        if (dev && dev->dev_slotstate == XHCI_ST_DISABLED) {
                                *slot = i;
                                dev->dev_slotstate = XHCI_ST_ENABLED;
                                cmderr = XHCI_TRB_ERROR_SUCCESS;
                                dev->hci.hci_address = i;
                                break;
                        }
                }

        DPRINTF(("pci_xhci enable slot (error=%d) slot %u\r\n",
                cmderr != XHCI_TRB_ERROR_SUCCESS, *slot));

        return (cmderr);
}

static uint32_t
pci_xhci_cmd_disable_slot(struct pci_xhci_softc *sc, uint32_t slot)
{
        struct pci_xhci_dev_emu *dev;
        uint32_t cmderr;

        DPRINTF(("pci_xhci disable slot %u\r\n", slot));

        cmderr = XHCI_TRB_ERROR_NO_SLOTS;
        if (sc->portregs == NULL)
                goto done;

        if (slot > sc->ndevices) {
                cmderr = XHCI_TRB_ERROR_SLOT_NOT_ON;
                goto done;
        }

        dev = XHCI_SLOTDEV_PTR(sc, slot);
        if (dev) {
                if (dev->dev_slotstate == XHCI_ST_DISABLED) {
                        cmderr = XHCI_TRB_ERROR_SLOT_NOT_ON;
                } else {
                        dev->dev_slotstate = XHCI_ST_DISABLED;
                        cmderr = XHCI_TRB_ERROR_SUCCESS;
                        /* TODO: reset events and endpoints */
                }
        }

done:
        return (cmderr);
}

static uint32_t
pci_xhci_cmd_reset_device(struct pci_xhci_softc *sc, uint32_t slot)
{
        struct pci_xhci_dev_emu *dev;
        struct xhci_dev_ctx     *dev_ctx;
        struct xhci_endp_ctx    *ep_ctx;
        uint32_t        cmderr;
        int             i;

        cmderr = XHCI_TRB_ERROR_NO_SLOTS;
        if (sc->portregs == NULL)
                goto done;

        DPRINTF(("pci_xhci reset device slot %u\r\n", slot));

        dev = XHCI_SLOTDEV_PTR(sc, slot);
        if (!dev || dev->dev_slotstate == XHCI_ST_DISABLED)
                cmderr = XHCI_TRB_ERROR_SLOT_NOT_ON;
        else {
                dev->dev_slotstate = XHCI_ST_DEFAULT;

                dev->hci.hci_address = 0;
                dev_ctx = pci_xhci_get_dev_ctx(sc, slot);

                /* slot state */
                dev_ctx->ctx_slot.dwSctx3 = FIELD_REPLACE(
                    dev_ctx->ctx_slot.dwSctx3, XHCI_ST_SLCTX_DEFAULT,
                    0x1F, 27);

                /* number of contexts */
                dev_ctx->ctx_slot.dwSctx0 = FIELD_REPLACE(
                    dev_ctx->ctx_slot.dwSctx0, 1, 0x1F, 27);

                /* reset all eps other than ep-0 */
                for (i = 2; i <= 31; i++) {
                        ep_ctx = &dev_ctx->ctx_ep[i];
                        ep_ctx->dwEpCtx0 = FIELD_REPLACE( ep_ctx->dwEpCtx0,
                            XHCI_ST_EPCTX_DISABLED, 0x7, 0);
                }

                cmderr = XHCI_TRB_ERROR_SUCCESS;
        }

        pci_xhci_reset_slot(sc, slot);

done:
        return (cmderr);
}

static uint32_t
pci_xhci_cmd_address_device(struct pci_xhci_softc *sc, uint32_t slot,
    struct xhci_trb *trb)
{
        struct pci_xhci_dev_emu *dev;
        struct xhci_input_dev_ctx *input_ctx;
        struct xhci_slot_ctx    *islot_ctx;
        struct xhci_dev_ctx     *dev_ctx;
        struct xhci_endp_ctx    *ep0_ctx;
        uint32_t                cmderr;

        input_ctx = XHCI_GADDR(sc, trb->qwTrb0 & ~0xFUL);
        islot_ctx = &input_ctx->ctx_slot;
        ep0_ctx = &input_ctx->ctx_ep[1];

        cmderr = XHCI_TRB_ERROR_SUCCESS;

        DPRINTF(("pci_xhci: address device, input ctl: D 0x%08x A 0x%08x,\r\n"
                 "          slot %08x %08x %08x %08x\r\n"
                 "          ep0  %08x %08x %016lx %08x\r\n",
                input_ctx->ctx_input.dwInCtx0, input_ctx->ctx_input.dwInCtx1,
                islot_ctx->dwSctx0, islot_ctx->dwSctx1,
                islot_ctx->dwSctx2, islot_ctx->dwSctx3,
                ep0_ctx->dwEpCtx0, ep0_ctx->dwEpCtx1, ep0_ctx->qwEpCtx2,
                ep0_ctx->dwEpCtx4));

        /* when setting address: drop-ctx=0, add-ctx=slot+ep0 */
        if ((input_ctx->ctx_input.dwInCtx0 != 0) ||
            (input_ctx->ctx_input.dwInCtx1 & 0x03) != 0x03) {
                DPRINTF(("pci_xhci: address device, input ctl invalid\r\n"));
                cmderr = XHCI_TRB_ERROR_TRB;
                goto done;
        }

        /* assign address to slot */
        dev_ctx = pci_xhci_get_dev_ctx(sc, slot);

        DPRINTF(("pci_xhci: address device, dev ctx\r\n"
                 "          slot %08x %08x %08x %08x\r\n",
                dev_ctx->ctx_slot.dwSctx0, dev_ctx->ctx_slot.dwSctx1,
                dev_ctx->ctx_slot.dwSctx2, dev_ctx->ctx_slot.dwSctx3));

        dev = XHCI_SLOTDEV_PTR(sc, slot);
        assert(dev != NULL);

        dev->hci.hci_address = slot;
        dev->dev_ctx = dev_ctx;

        if (dev->dev_ue->ue_reset == NULL ||
            dev->dev_ue->ue_reset(dev->dev_sc) < 0) {
                cmderr = XHCI_TRB_ERROR_ENDP_NOT_ON;
                goto done;
        }

        memcpy(&dev_ctx->ctx_slot, islot_ctx, sizeof(struct xhci_slot_ctx));

        dev_ctx->ctx_slot.dwSctx3 =
            XHCI_SCTX_3_SLOT_STATE_SET(XHCI_ST_SLCTX_ADDRESSED) |
            XHCI_SCTX_3_DEV_ADDR_SET(slot);

        memcpy(&dev_ctx->ctx_ep[1], ep0_ctx, sizeof(struct xhci_endp_ctx));
        ep0_ctx = &dev_ctx->ctx_ep[1];
        ep0_ctx->dwEpCtx0 = (ep0_ctx->dwEpCtx0 & ~0x7) |
            XHCI_EPCTX_0_EPSTATE_SET(XHCI_ST_EPCTX_RUNNING);

        pci_xhci_init_ep(dev, 1);

        dev->dev_slotstate = XHCI_ST_ADDRESSED;

        DPRINTF(("pci_xhci: address device, output ctx\r\n"
                 "          slot %08x %08x %08x %08x\r\n"
                 "          ep0  %08x %08x %016lx %08x\r\n",
                dev_ctx->ctx_slot.dwSctx0, dev_ctx->ctx_slot.dwSctx1,
                dev_ctx->ctx_slot.dwSctx2, dev_ctx->ctx_slot.dwSctx3,
                ep0_ctx->dwEpCtx0, ep0_ctx->dwEpCtx1, ep0_ctx->qwEpCtx2,
                ep0_ctx->dwEpCtx4));

done:
        return (cmderr);
}

static uint32_t
pci_xhci_cmd_config_ep(struct pci_xhci_softc *sc, uint32_t slot,
    struct xhci_trb *trb)
{
        struct xhci_input_dev_ctx *input_ctx;
        struct pci_xhci_dev_emu *dev;
        struct xhci_dev_ctx     *dev_ctx;
        struct xhci_endp_ctx    *ep_ctx, *iep_ctx;
        uint32_t        cmderr;
        int             i;

        cmderr = XHCI_TRB_ERROR_SUCCESS;

        DPRINTF(("pci_xhci config_ep slot %u\r\n", slot));

        dev = XHCI_SLOTDEV_PTR(sc, slot);
        assert(dev != NULL);

        if ((trb->dwTrb3 & XHCI_TRB_3_DCEP_BIT) != 0) {
                DPRINTF(("pci_xhci config_ep - deconfigure ep slot %u\r\n",
                        slot));
                if (dev->dev_ue->ue_stop != NULL)
                        dev->dev_ue->ue_stop(dev->dev_sc);

                dev->dev_slotstate = XHCI_ST_ADDRESSED;

                dev->hci.hci_address = 0;
                dev_ctx = pci_xhci_get_dev_ctx(sc, slot);

                /* number of contexts */
                dev_ctx->ctx_slot.dwSctx0 = FIELD_REPLACE(
                    dev_ctx->ctx_slot.dwSctx0, 1, 0x1F, 27);

                /* slot state */
                dev_ctx->ctx_slot.dwSctx3 = FIELD_REPLACE(
                    dev_ctx->ctx_slot.dwSctx3, XHCI_ST_SLCTX_ADDRESSED,
                    0x1F, 27);

                /* disable endpoints */
                for (i = 2; i < 32; i++)
                        pci_xhci_disable_ep(dev, i);

                cmderr = XHCI_TRB_ERROR_SUCCESS;

                goto done;
        }

        if (dev->dev_slotstate < XHCI_ST_ADDRESSED) {
                DPRINTF(("pci_xhci: config_ep slotstate x%x != addressed\r\n",
                        dev->dev_slotstate));
                cmderr = XHCI_TRB_ERROR_SLOT_NOT_ON;
                goto done;
        }

        /* In addressed/configured state;
         * for each drop endpoint ctx flag:
         *   ep->state = DISABLED
         * for each add endpoint ctx flag:
         *   cp(ep-in, ep-out)
         *   ep->state = RUNNING
         * for each drop+add endpoint flag:
         *   reset ep resources
         *   cp(ep-in, ep-out)
         *   ep->state = RUNNING
         * if input->DisabledCtx[2-31] < 30: (at least 1 ep not disabled)
         *   slot->state = configured
         */

        input_ctx = XHCI_GADDR(sc, trb->qwTrb0 & ~0xFUL);
        dev_ctx = dev->dev_ctx;
        DPRINTF(("pci_xhci: config_ep inputctx: D:x%08x A:x%08x 7:x%08x\r\n",
                input_ctx->ctx_input.dwInCtx0, input_ctx->ctx_input.dwInCtx1,
                input_ctx->ctx_input.dwInCtx7));

        for (i = 2; i <= 31; i++) {
                ep_ctx = &dev_ctx->ctx_ep[i];

                if (input_ctx->ctx_input.dwInCtx0 &
                    XHCI_INCTX_0_DROP_MASK(i)) {
                        DPRINTF((" config ep - dropping ep %d\r\n", i));
                        pci_xhci_disable_ep(dev, i);
                }

                if (input_ctx->ctx_input.dwInCtx1 &
                    XHCI_INCTX_1_ADD_MASK(i)) {
                        iep_ctx = &input_ctx->ctx_ep[i];

                        DPRINTF((" enable ep[%d]  %08x %08x %016lx %08x\r\n",
                           i, iep_ctx->dwEpCtx0, iep_ctx->dwEpCtx1,
                           iep_ctx->qwEpCtx2, iep_ctx->dwEpCtx4));

                        memcpy(ep_ctx, iep_ctx, sizeof(struct xhci_endp_ctx));

                        pci_xhci_init_ep(dev, i);

                        /* ep state */
                        ep_ctx->dwEpCtx0 = FIELD_REPLACE(
                            ep_ctx->dwEpCtx0, XHCI_ST_EPCTX_RUNNING, 0x7, 0);
                }
        }

        /* slot state to configured */
        dev_ctx->ctx_slot.dwSctx3 = FIELD_REPLACE(
            dev_ctx->ctx_slot.dwSctx3, XHCI_ST_SLCTX_CONFIGURED, 0x1F, 27);
        dev_ctx->ctx_slot.dwSctx0 = FIELD_COPY(
            dev_ctx->ctx_slot.dwSctx0, input_ctx->ctx_slot.dwSctx0, 0x1F, 27);
        dev->dev_slotstate = XHCI_ST_CONFIGURED;

        DPRINTF(("EP configured; slot %u [0]=0x%08x [1]=0x%08x [2]=0x%08x "
                 "[3]=0x%08x\r\n",
            slot, dev_ctx->ctx_slot.dwSctx0, dev_ctx->ctx_slot.dwSctx1,
            dev_ctx->ctx_slot.dwSctx2, dev_ctx->ctx_slot.dwSctx3));

done:
        return (cmderr);
}

static uint32_t
pci_xhci_cmd_reset_ep(struct pci_xhci_softc *sc, uint32_t slot,
    struct xhci_trb *trb)
{
        struct pci_xhci_dev_emu *dev;
        struct pci_xhci_dev_ep *devep;
        struct xhci_dev_ctx     *dev_ctx;
        struct xhci_endp_ctx    *ep_ctx;
        uint32_t        cmderr, epid;
        uint32_t        type;

        epid = XHCI_TRB_3_EP_GET(trb->dwTrb3);

        DPRINTF(("pci_xhci: reset ep %u: slot %u\r\n", epid, slot));

        cmderr = XHCI_TRB_ERROR_SUCCESS;

        type = XHCI_TRB_3_TYPE_GET(trb->dwTrb3);

        dev = XHCI_SLOTDEV_PTR(sc, slot);
        assert(dev != NULL);

        if (type == XHCI_TRB_TYPE_STOP_EP &&
            (trb->dwTrb3 & XHCI_TRB_3_SUSP_EP_BIT) != 0) {
                /* XXX suspend endpoint for 10ms */
        }

        if (epid < 1 || epid > 31) {
                DPRINTF(("pci_xhci: reset ep: invalid epid %u\r\n", epid));
                cmderr = XHCI_TRB_ERROR_TRB;
                goto done;
        }

        devep = &dev->eps[epid];
        if (devep->ep_xfer != NULL)
                USB_DATA_XFER_RESET(devep->ep_xfer);

        dev_ctx = dev->dev_ctx;
        assert(dev_ctx != NULL);

        ep_ctx = &dev_ctx->ctx_ep[epid];

        ep_ctx->dwEpCtx0 = (ep_ctx->dwEpCtx0 & ~0x7) | XHCI_ST_EPCTX_STOPPED;

        if (XHCI_EPCTX_0_MAXP_STREAMS_GET(ep_ctx->dwEpCtx0) == 0)
                ep_ctx->qwEpCtx2 = devep->ep_ringaddr | devep->ep_ccs;

        DPRINTF(("pci_xhci: reset ep[%u] %08x %08x %016lx %08x\r\n",
                epid, ep_ctx->dwEpCtx0, ep_ctx->dwEpCtx1, ep_ctx->qwEpCtx2,
                ep_ctx->dwEpCtx4));

        if (type == XHCI_TRB_TYPE_RESET_EP &&
            (dev->dev_ue->ue_reset == NULL ||
            dev->dev_ue->ue_reset(dev->dev_sc) < 0)) {
                cmderr = XHCI_TRB_ERROR_ENDP_NOT_ON;
                goto done;
        }

done:
        return (cmderr);
}


static uint32_t
pci_xhci_find_stream(struct pci_xhci_softc *sc, struct xhci_endp_ctx *ep,
    uint32_t streamid, struct xhci_stream_ctx **osctx)
{
        struct xhci_stream_ctx *sctx;
        uint32_t        maxpstreams;

        maxpstreams = XHCI_EPCTX_0_MAXP_STREAMS_GET(ep->dwEpCtx0);
        if (maxpstreams == 0)
                return (XHCI_TRB_ERROR_TRB);

        if (maxpstreams > XHCI_STREAMS_MAX)
                return (XHCI_TRB_ERROR_INVALID_SID);

        if (XHCI_EPCTX_0_LSA_GET(ep->dwEpCtx0) == 0) {
                DPRINTF(("pci_xhci: find_stream; LSA bit not set\r\n"));
                return (XHCI_TRB_ERROR_INVALID_SID);
        }

        /* only support primary stream */
        if (streamid > maxpstreams)
                return (XHCI_TRB_ERROR_STREAM_TYPE);

        sctx = XHCI_GADDR(sc, ep->qwEpCtx2 & ~0xFUL) + streamid;
        if (!XHCI_SCTX_0_SCT_GET(sctx->qwSctx0))
                return (XHCI_TRB_ERROR_STREAM_TYPE);

        *osctx = sctx;

        return (XHCI_TRB_ERROR_SUCCESS);
}


static uint32_t
pci_xhci_cmd_set_tr(struct pci_xhci_softc *sc, uint32_t slot,
    struct xhci_trb *trb)
{
        struct pci_xhci_dev_emu *dev;
        struct pci_xhci_dev_ep  *devep;
        struct xhci_dev_ctx     *dev_ctx;
        struct xhci_endp_ctx    *ep_ctx;
        uint32_t        cmderr, epid;
        uint32_t        streamid;

        cmderr = XHCI_TRB_ERROR_SUCCESS;

        dev = XHCI_SLOTDEV_PTR(sc, slot);
        assert(dev != NULL);

        DPRINTF(("pci_xhci set_tr: new-tr x%016lx, SCT %u DCS %u\r\n"
                 "                 stream-id %u, slot %u, epid %u, C %u\r\n",
                 (trb->qwTrb0 & ~0xF),  (uint32_t)((trb->qwTrb0 >> 1) & 0x7),
                 (uint32_t)(trb->qwTrb0 & 0x1), (trb->dwTrb2 >> 16) & 0xFFFF,
                 XHCI_TRB_3_SLOT_GET(trb->dwTrb3),
                 XHCI_TRB_3_EP_GET(trb->dwTrb3), trb->dwTrb3 & 0x1));

        epid = XHCI_TRB_3_EP_GET(trb->dwTrb3);
        if (epid < 1 || epid > 31) {
                DPRINTF(("pci_xhci: set_tr_deq: invalid epid %u\r\n", epid));
                cmderr = XHCI_TRB_ERROR_TRB;
                goto done;
        }

        dev_ctx = dev->dev_ctx;
        assert(dev_ctx != NULL);

        ep_ctx = &dev_ctx->ctx_ep[epid];
        devep = &dev->eps[epid];

        switch (XHCI_EPCTX_0_EPSTATE_GET(ep_ctx->dwEpCtx0)) {
        case XHCI_ST_EPCTX_STOPPED:
        case XHCI_ST_EPCTX_ERROR:
                break;
        default:
                DPRINTF(("pci_xhci cmd set_tr invalid state %x\r\n",
                        XHCI_EPCTX_0_EPSTATE_GET(ep_ctx->dwEpCtx0)));
                cmderr = XHCI_TRB_ERROR_CONTEXT_STATE;
                goto done;
        }

        streamid = XHCI_TRB_2_STREAM_GET(trb->dwTrb2);
        if (XHCI_EPCTX_0_MAXP_STREAMS_GET(ep_ctx->dwEpCtx0) > 0) {
                struct xhci_stream_ctx *sctx;

                sctx = NULL;
                cmderr = pci_xhci_find_stream(sc, ep_ctx, streamid, &sctx);
                if (sctx != NULL) {
                        assert(devep->ep_sctx != NULL);
                        
                        devep->ep_sctx[streamid].qwSctx0 = trb->qwTrb0;
                        devep->ep_sctx_trbs[streamid].ringaddr =
                            trb->qwTrb0 & ~0xF;
                        devep->ep_sctx_trbs[streamid].ccs =
                            XHCI_EPCTX_2_DCS_GET(trb->qwTrb0);
                }
        } else {
                if (streamid != 0) {
                        DPRINTF(("pci_xhci cmd set_tr streamid %x != 0\r\n",
                                streamid));
                }
                ep_ctx->qwEpCtx2 = trb->qwTrb0 & ~0xFUL;
                devep->ep_ringaddr = ep_ctx->qwEpCtx2 & ~0xFUL;
                devep->ep_ccs = trb->qwTrb0 & 0x1;
                devep->ep_tr = XHCI_GADDR(sc, devep->ep_ringaddr);

                DPRINTF(("pci_xhci set_tr first TRB:\r\n"));
                pci_xhci_dump_trb(devep->ep_tr);
        }
        ep_ctx->dwEpCtx0 = (ep_ctx->dwEpCtx0 & ~0x7) | XHCI_ST_EPCTX_STOPPED;

done:
        return (cmderr);
}

static uint32_t
pci_xhci_cmd_eval_ctx(struct pci_xhci_softc *sc, uint32_t slot,
    struct xhci_trb *trb)
{
        struct xhci_input_dev_ctx *input_ctx;
        struct xhci_slot_ctx      *islot_ctx;
        struct xhci_dev_ctx       *dev_ctx;
        struct xhci_endp_ctx      *ep0_ctx;
        uint32_t cmderr;

        input_ctx = XHCI_GADDR(sc, trb->qwTrb0 & ~0xFUL);
        islot_ctx = &input_ctx->ctx_slot;
        ep0_ctx = &input_ctx->ctx_ep[1];

        cmderr = XHCI_TRB_ERROR_SUCCESS;
        DPRINTF(("pci_xhci: eval ctx, input ctl: D 0x%08x A 0x%08x,\r\n"
                 "          slot %08x %08x %08x %08x\r\n"
                 "          ep0  %08x %08x %016lx %08x\r\n",
                input_ctx->ctx_input.dwInCtx0, input_ctx->ctx_input.dwInCtx1,
                islot_ctx->dwSctx0, islot_ctx->dwSctx1,
                islot_ctx->dwSctx2, islot_ctx->dwSctx3,
                ep0_ctx->dwEpCtx0, ep0_ctx->dwEpCtx1, ep0_ctx->qwEpCtx2,
                ep0_ctx->dwEpCtx4));

        /* this command expects drop-ctx=0 & add-ctx=slot+ep0 */
        if ((input_ctx->ctx_input.dwInCtx0 != 0) ||
            (input_ctx->ctx_input.dwInCtx1 & 0x03) == 0) {
                DPRINTF(("pci_xhci: eval ctx, input ctl invalid\r\n"));
                cmderr = XHCI_TRB_ERROR_TRB;
                goto done;
        }

        /* assign address to slot; in this emulation, slot_id = address */
        dev_ctx = pci_xhci_get_dev_ctx(sc, slot);

        DPRINTF(("pci_xhci: eval ctx, dev ctx\r\n"
                 "          slot %08x %08x %08x %08x\r\n",
                dev_ctx->ctx_slot.dwSctx0, dev_ctx->ctx_slot.dwSctx1,
                dev_ctx->ctx_slot.dwSctx2, dev_ctx->ctx_slot.dwSctx3));

        if (input_ctx->ctx_input.dwInCtx1 & 0x01) {     /* slot ctx */
                /* set max exit latency */
                dev_ctx->ctx_slot.dwSctx1 = FIELD_COPY(
                    dev_ctx->ctx_slot.dwSctx1, input_ctx->ctx_slot.dwSctx1,
                    0xFFFF, 0);

                /* set interrupter target */
                dev_ctx->ctx_slot.dwSctx2 = FIELD_COPY(
                    dev_ctx->ctx_slot.dwSctx2, input_ctx->ctx_slot.dwSctx2,
                    0x3FF, 22);
        }
        if (input_ctx->ctx_input.dwInCtx1 & 0x02) {     /* control ctx */
                /* set max packet size */
                dev_ctx->ctx_ep[1].dwEpCtx1 = FIELD_COPY(
                    dev_ctx->ctx_ep[1].dwEpCtx1, ep0_ctx->dwEpCtx1,
                    0xFFFF, 16);

                ep0_ctx = &dev_ctx->ctx_ep[1];
        }

        DPRINTF(("pci_xhci: eval ctx, output ctx\r\n"
                 "          slot %08x %08x %08x %08x\r\n"
                 "          ep0  %08x %08x %016lx %08x\r\n",
                dev_ctx->ctx_slot.dwSctx0, dev_ctx->ctx_slot.dwSctx1,
                dev_ctx->ctx_slot.dwSctx2, dev_ctx->ctx_slot.dwSctx3,
                ep0_ctx->dwEpCtx0, ep0_ctx->dwEpCtx1, ep0_ctx->qwEpCtx2,
                ep0_ctx->dwEpCtx4));

done:
        return (cmderr);
}

static int
pci_xhci_complete_commands(struct pci_xhci_softc *sc)
{
        struct xhci_trb evtrb;
        struct xhci_trb *trb;
        uint64_t        crcr;
        uint32_t        ccs;            /* cycle state (XHCI 4.9.2) */
        uint32_t        type;
        uint32_t        slot;
        uint32_t        cmderr;
        int             error;

        error = 0;
        sc->opregs.crcr |= XHCI_CRCR_LO_CRR;

        trb = sc->opregs.cr_p;
        ccs = sc->opregs.crcr & XHCI_CRCR_LO_RCS;
        crcr = sc->opregs.crcr & ~0xF;

        while (1) {
                sc->opregs.cr_p = trb;
        
                type = XHCI_TRB_3_TYPE_GET(trb->dwTrb3);

                if ((trb->dwTrb3 & XHCI_TRB_3_CYCLE_BIT) !=
                    (ccs & XHCI_TRB_3_CYCLE_BIT))
                        break;

                DPRINTF(("pci_xhci: cmd type 0x%x, Trb0 x%016lx dwTrb2 x%08x"
                        " dwTrb3 x%08x, TRB_CYCLE %u/ccs %u\r\n",
                        type, trb->qwTrb0, trb->dwTrb2, trb->dwTrb3,
                        trb->dwTrb3 & XHCI_TRB_3_CYCLE_BIT, ccs));

                cmderr = XHCI_TRB_ERROR_SUCCESS;
                evtrb.dwTrb2 = 0;
                evtrb.dwTrb3 = (ccs & XHCI_TRB_3_CYCLE_BIT) |
                      XHCI_TRB_3_TYPE_SET(XHCI_TRB_EVENT_CMD_COMPLETE);
                slot = 0;

                switch (type) {
                case XHCI_TRB_TYPE_LINK:                        /* 0x06 */
                        if (trb->dwTrb3 & XHCI_TRB_3_TC_BIT)
                                ccs ^= XHCI_CRCR_LO_RCS;
                        break;

                case XHCI_TRB_TYPE_ENABLE_SLOT:                 /* 0x09 */
                        cmderr = pci_xhci_cmd_enable_slot(sc, &slot);
                        break;

                case XHCI_TRB_TYPE_DISABLE_SLOT:                /* 0x0A */
                        slot = XHCI_TRB_3_SLOT_GET(trb->dwTrb3);
                        cmderr = pci_xhci_cmd_disable_slot(sc, slot);
                        break;

                case XHCI_TRB_TYPE_ADDRESS_DEVICE:              /* 0x0B */
                        slot = XHCI_TRB_3_SLOT_GET(trb->dwTrb3);
                        cmderr = pci_xhci_cmd_address_device(sc, slot, trb);
                        break;

                case XHCI_TRB_TYPE_CONFIGURE_EP:                /* 0x0C */
                        slot = XHCI_TRB_3_SLOT_GET(trb->dwTrb3);
                        cmderr = pci_xhci_cmd_config_ep(sc, slot, trb);
                        break;

                case XHCI_TRB_TYPE_EVALUATE_CTX:                /* 0x0D */
                        slot = XHCI_TRB_3_SLOT_GET(trb->dwTrb3);
                        cmderr = pci_xhci_cmd_eval_ctx(sc, slot, trb);
                        break;

                case XHCI_TRB_TYPE_RESET_EP:                    /* 0x0E */
                        DPRINTF(("Reset Endpoint on slot %d\r\n", slot));
                        slot = XHCI_TRB_3_SLOT_GET(trb->dwTrb3);
                        cmderr = pci_xhci_cmd_reset_ep(sc, slot, trb);
                        break;

                case XHCI_TRB_TYPE_STOP_EP:                     /* 0x0F */
                        DPRINTF(("Stop Endpoint on slot %d\r\n", slot));
                        slot = XHCI_TRB_3_SLOT_GET(trb->dwTrb3);
                        cmderr = pci_xhci_cmd_reset_ep(sc, slot, trb);
                        break;

                case XHCI_TRB_TYPE_SET_TR_DEQUEUE:              /* 0x10 */
                        slot = XHCI_TRB_3_SLOT_GET(trb->dwTrb3);
                        cmderr = pci_xhci_cmd_set_tr(sc, slot, trb);
                        break;

                case XHCI_TRB_TYPE_RESET_DEVICE:                /* 0x11 */
                        slot = XHCI_TRB_3_SLOT_GET(trb->dwTrb3);
                        cmderr = pci_xhci_cmd_reset_device(sc, slot);
                        break;

                case XHCI_TRB_TYPE_FORCE_EVENT:                 /* 0x12 */
                        /* TODO: */
                        break;

                case XHCI_TRB_TYPE_NEGOTIATE_BW:                /* 0x13 */
                        break;

                case XHCI_TRB_TYPE_SET_LATENCY_TOL:             /* 0x14 */
                        break;

                case XHCI_TRB_TYPE_GET_PORT_BW:                 /* 0x15 */
                        break;

                case XHCI_TRB_TYPE_FORCE_HEADER:                /* 0x16 */
                        break;

                case XHCI_TRB_TYPE_NOOP_CMD:                    /* 0x17 */
                        break;

                default:
                        DPRINTF(("pci_xhci: unsupported cmd %x\r\n", type));
                        break;
                }

                if (type != XHCI_TRB_TYPE_LINK) {
                        /* 
                         * insert command completion event and assert intr
                         */
                        evtrb.qwTrb0 = crcr;
                        evtrb.dwTrb2 |= XHCI_TRB_2_ERROR_SET(cmderr);
                        evtrb.dwTrb3 |= XHCI_TRB_3_SLOT_SET(slot);
                        DPRINTF(("pci_xhci: command 0x%x result: 0x%x\r\n",
                                type, cmderr));
                        pci_xhci_insert_event(sc, &evtrb, 1);
                }

                trb = pci_xhci_trb_next(sc, trb, &crcr);
        }

        sc->opregs.crcr = crcr | (sc->opregs.crcr & XHCI_CRCR_LO_CA) | ccs;
        sc->opregs.crcr &= ~XHCI_CRCR_LO_CRR;
        return (error);
}

static void
pci_xhci_dump_trb(struct xhci_trb *trb)
{
        static const char *trbtypes[] = {
                "RESERVED",
                "NORMAL",
                "SETUP_STAGE",
                "DATA_STAGE",
                "STATUS_STAGE",
                "ISOCH",
                "LINK",
                "EVENT_DATA",
                "NOOP",
                "ENABLE_SLOT",
                "DISABLE_SLOT",
                "ADDRESS_DEVICE",
                "CONFIGURE_EP",
                "EVALUATE_CTX",
                "RESET_EP",
                "STOP_EP",
                "SET_TR_DEQUEUE",
                "RESET_DEVICE",
                "FORCE_EVENT",
                "NEGOTIATE_BW",
                "SET_LATENCY_TOL",
                "GET_PORT_BW",
                "FORCE_HEADER",
                "NOOP_CMD"
        };
        uint32_t type;

        type = XHCI_TRB_3_TYPE_GET(trb->dwTrb3);
        DPRINTF(("pci_xhci: trb[@%p] type x%02x %s 0:x%016lx 2:x%08x 3:x%08x\r\n",
                 trb, type,
                 type <= XHCI_TRB_TYPE_NOOP_CMD ? trbtypes[type] : "INVALID",
                 trb->qwTrb0, trb->dwTrb2, trb->dwTrb3));
}

static int
pci_xhci_xfer_complete(struct pci_xhci_softc *sc, struct usb_data_xfer *xfer,
     uint32_t slot, uint32_t epid, int *do_intr)
{
        struct pci_xhci_dev_emu *dev;
        struct pci_xhci_dev_ep  *devep;
        struct xhci_dev_ctx     *dev_ctx;
        struct xhci_endp_ctx    *ep_ctx;
        struct xhci_trb         *trb;
        struct xhci_trb         evtrb;
        uint32_t trbflags;
        uint32_t edtla;
        int i, err;

        dev = XHCI_SLOTDEV_PTR(sc, slot);
        devep = &dev->eps[epid];
        dev_ctx = pci_xhci_get_dev_ctx(sc, slot);

        assert(dev_ctx != NULL);

        ep_ctx = &dev_ctx->ctx_ep[epid];

        err = XHCI_TRB_ERROR_SUCCESS;
        *do_intr = 0;
        edtla = 0;

        /* go through list of TRBs and insert event(s) */
        for (i = xfer->head; xfer->ndata > 0; ) {
                evtrb.qwTrb0 = (uint64_t)xfer->data[i].hci_data;
                trb = XHCI_GADDR(sc, evtrb.qwTrb0);
                trbflags = trb->dwTrb3;

                DPRINTF(("pci_xhci: xfer[%d] done?%u:%d trb %x %016lx %x "
                         "(err %d) IOC?%d\r\n",
                     i, xfer->data[i].processed, xfer->data[i].blen,
                     XHCI_TRB_3_TYPE_GET(trbflags), evtrb.qwTrb0,
                     trbflags, err,
                     trb->dwTrb3 & XHCI_TRB_3_IOC_BIT ? 1 : 0));

                if (!xfer->data[i].processed) {
                        xfer->head = i;
                        break;
                }

                xfer->ndata--;
                edtla += xfer->data[i].bdone;

                trb->dwTrb3 = (trb->dwTrb3 & ~0x1) | (xfer->data[i].ccs);

                pci_xhci_update_ep_ring(sc, dev, devep, ep_ctx,
                    xfer->data[i].streamid, xfer->data[i].trbnext,
                    xfer->data[i].ccs);

                /* Only interrupt if IOC or short packet */
                if (!(trb->dwTrb3 & XHCI_TRB_3_IOC_BIT) &&
                    !((err == XHCI_TRB_ERROR_SHORT_PKT) &&
                      (trb->dwTrb3 & XHCI_TRB_3_ISP_BIT))) {

                        i = (i + 1) % USB_MAX_XFER_BLOCKS;
                        continue;
                }

                evtrb.dwTrb2 = XHCI_TRB_2_ERROR_SET(err) |
                               XHCI_TRB_2_REM_SET(xfer->data[i].blen);

                evtrb.dwTrb3 = XHCI_TRB_3_TYPE_SET(XHCI_TRB_EVENT_TRANSFER) |
                    XHCI_TRB_3_SLOT_SET(slot) | XHCI_TRB_3_EP_SET(epid);

                if (XHCI_TRB_3_TYPE_GET(trbflags) == XHCI_TRB_TYPE_EVENT_DATA) {
                        DPRINTF(("pci_xhci EVENT_DATA edtla %u\r\n", edtla));
                        evtrb.qwTrb0 = trb->qwTrb0;
                        evtrb.dwTrb2 = (edtla & 0xFFFFF) | 
                                 XHCI_TRB_2_ERROR_SET(err);
                        evtrb.dwTrb3 |= XHCI_TRB_3_ED_BIT;
                        edtla = 0;
                }

                *do_intr = 1;

                err = pci_xhci_insert_event(sc, &evtrb, 0);
                if (err != XHCI_TRB_ERROR_SUCCESS) {
                        break;
                }

                i = (i + 1) % USB_MAX_XFER_BLOCKS;
        }

        return (err);
}

static void
pci_xhci_update_ep_ring(struct pci_xhci_softc *sc, struct pci_xhci_dev_emu *dev,
    struct pci_xhci_dev_ep *devep, struct xhci_endp_ctx *ep_ctx,
    uint32_t streamid, uint64_t ringaddr, int ccs)
{

        if (XHCI_EPCTX_0_MAXP_STREAMS_GET(ep_ctx->dwEpCtx0) != 0) {
                devep->ep_sctx[streamid].qwSctx0 = (ringaddr & ~0xFUL) |
                                                   (ccs & 0x1);

                devep->ep_sctx_trbs[streamid].ringaddr = ringaddr & ~0xFUL;
                devep->ep_sctx_trbs[streamid].ccs = ccs & 0x1;
                ep_ctx->qwEpCtx2 = (ep_ctx->qwEpCtx2 & ~0x1) | (ccs & 0x1);

                DPRINTF(("xhci update ep-ring stream %d, addr %lx\r\n",
                    streamid, devep->ep_sctx[streamid].qwSctx0));
        } else {
                devep->ep_ringaddr = ringaddr & ~0xFUL;
                devep->ep_ccs = ccs & 0x1;
                devep->ep_tr = XHCI_GADDR(sc, ringaddr & ~0xFUL);
                ep_ctx->qwEpCtx2 = (ringaddr & ~0xFUL) | (ccs & 0x1);

                DPRINTF(("xhci update ep-ring, addr %lx\r\n",
                    (devep->ep_ringaddr | devep->ep_ccs)));
        }
}

/*
 * Outstanding transfer still in progress (device NAK'd earlier) so retry
 * the transfer again to see if it succeeds.
 */
static int
pci_xhci_try_usb_xfer(struct pci_xhci_softc *sc,
    struct pci_xhci_dev_emu *dev, struct pci_xhci_dev_ep *devep,
    struct xhci_endp_ctx *ep_ctx, uint32_t slot, uint32_t epid)
{
        struct usb_data_xfer *xfer;
        int             err;
        int             do_intr;

        ep_ctx->dwEpCtx0 = FIELD_REPLACE(
                    ep_ctx->dwEpCtx0, XHCI_ST_EPCTX_RUNNING, 0x7, 0);

        err = 0;
        do_intr = 0;

        xfer = devep->ep_xfer;
        USB_DATA_XFER_LOCK(xfer);

        /* outstanding requests queued up */
        if (dev->dev_ue->ue_data != NULL) {
                err = dev->dev_ue->ue_data(dev->dev_sc, xfer,
                            epid & 0x1 ? USB_XFER_IN : USB_XFER_OUT, epid/2);
                if (err == USB_ERR_CANCELLED) {
                        if (USB_DATA_GET_ERRCODE(&xfer->data[xfer->head]) ==
                            USB_NAK)
                                err = XHCI_TRB_ERROR_SUCCESS;
                } else {
                        err = pci_xhci_xfer_complete(sc, xfer, slot, epid,
                                                     &do_intr);
                        if (err == XHCI_TRB_ERROR_SUCCESS && do_intr) {
                                pci_xhci_assert_interrupt(sc);
                        }


                        /* XXX should not do it if error? */
                        USB_DATA_XFER_RESET(xfer);
                }
        }

        USB_DATA_XFER_UNLOCK(xfer);


        return (err);
}


static int
pci_xhci_handle_transfer(struct pci_xhci_softc *sc,
    struct pci_xhci_dev_emu *dev, struct pci_xhci_dev_ep *devep,
    struct xhci_endp_ctx *ep_ctx, struct xhci_trb *trb, uint32_t slot,
    uint32_t epid, uint64_t addr, uint32_t ccs, uint32_t streamid)
{
        struct xhci_trb *setup_trb;
        struct usb_data_xfer *xfer;
        struct usb_data_xfer_block *xfer_block;
        uint64_t        val;
        uint32_t        trbflags;
        int             do_intr, err;
        int             do_retry;

        ep_ctx->dwEpCtx0 = FIELD_REPLACE(ep_ctx->dwEpCtx0,
                                         XHCI_ST_EPCTX_RUNNING, 0x7, 0);

        xfer = devep->ep_xfer;
        USB_DATA_XFER_LOCK(xfer);

        DPRINTF(("pci_xhci handle_transfer slot %u\r\n", slot));

retry:
        err = 0;
        do_retry = 0;
        do_intr = 0;
        setup_trb = NULL;

        while (1) {
                pci_xhci_dump_trb(trb);

                trbflags = trb->dwTrb3;

                if (XHCI_TRB_3_TYPE_GET(trbflags) != XHCI_TRB_TYPE_LINK &&
                    (trbflags & XHCI_TRB_3_CYCLE_BIT) !=
                    (ccs & XHCI_TRB_3_CYCLE_BIT)) {
                        DPRINTF(("Cycle-bit changed trbflags %x, ccs %x\r\n",
                            trbflags & XHCI_TRB_3_CYCLE_BIT, ccs));
                        break;
                }

                xfer_block = NULL;

                switch (XHCI_TRB_3_TYPE_GET(trbflags)) {
                case XHCI_TRB_TYPE_LINK:
                        if (trb->dwTrb3 & XHCI_TRB_3_TC_BIT)
                                ccs ^= 0x1;

                        xfer_block = usb_data_xfer_append(xfer, NULL, 0,
                                                          (void *)addr, ccs);
                        xfer_block->processed = 1;
                        break;

                case XHCI_TRB_TYPE_SETUP_STAGE:
                        if ((trbflags & XHCI_TRB_3_IDT_BIT) == 0 ||
                            XHCI_TRB_2_BYTES_GET(trb->dwTrb2) != 8) {
                                DPRINTF(("pci_xhci: invalid setup trb\r\n"));
                                err = XHCI_TRB_ERROR_TRB;
                                goto errout;
                        }
                        setup_trb = trb;

                        val = trb->qwTrb0;
                        if (!xfer->ureq)
                                xfer->ureq = malloc(
                                           sizeof(struct usb_device_request));
                        memcpy(xfer->ureq, &val,
                               sizeof(struct usb_device_request));

                        xfer_block = usb_data_xfer_append(xfer, NULL, 0,
                                                          (void *)addr, ccs);
                        xfer_block->processed = 1;
                        break;

                case XHCI_TRB_TYPE_NORMAL:
                case XHCI_TRB_TYPE_ISOCH:
                        if (setup_trb != NULL) {
                                DPRINTF(("pci_xhci: trb not supposed to be in "
                                         "ctl scope\r\n"));
                                err = XHCI_TRB_ERROR_TRB;
                                goto errout;
                        }
                        /* fall through */

                case XHCI_TRB_TYPE_DATA_STAGE:
                        xfer_block = usb_data_xfer_append(xfer,
                             (void *)(trbflags & XHCI_TRB_3_IDT_BIT ?
                                 &trb->qwTrb0 : XHCI_GADDR(sc, trb->qwTrb0)),
                             trb->dwTrb2 & 0x1FFFF, (void *)addr, ccs);
                        break;

                case XHCI_TRB_TYPE_STATUS_STAGE:
                        xfer_block = usb_data_xfer_append(xfer, NULL, 0,
                                                          (void *)addr, ccs);
                        break;

                case XHCI_TRB_TYPE_NOOP:
                        xfer_block = usb_data_xfer_append(xfer, NULL, 0,
                                                          (void *)addr, ccs);
                        xfer_block->processed = 1;
                        break;

                case XHCI_TRB_TYPE_EVENT_DATA:
                        xfer_block = usb_data_xfer_append(xfer, NULL, 0,
                                                          (void *)addr, ccs);
                        if ((epid > 1) && (trbflags & XHCI_TRB_3_IOC_BIT)) {
                                xfer_block->processed = 1;
                        }
                        break;

                default:
                        DPRINTF(("pci_xhci: handle xfer unexpected trb type "
                                 "0x%x\r\n",
                                 XHCI_TRB_3_TYPE_GET(trbflags)));
                        err = XHCI_TRB_ERROR_TRB;
                        goto errout;
                }

                trb = pci_xhci_trb_next(sc, trb, &addr);

                DPRINTF(("pci_xhci: next trb: 0x%lx\r\n", (uint64_t)trb));

                if (xfer_block) {
                        xfer_block->trbnext = addr;
                        xfer_block->streamid = streamid;
                }

                if (!setup_trb && !(trbflags & XHCI_TRB_3_CHAIN_BIT) &&
                    XHCI_TRB_3_TYPE_GET(trbflags) != XHCI_TRB_TYPE_LINK) {
                        break;
                }

                /* handle current batch that requires interrupt on complete */
                if (trbflags & XHCI_TRB_3_IOC_BIT) {
                        DPRINTF(("pci_xhci: trb IOC bit set\r\n"));
                        if (epid == 1)
                                do_retry = 1;
                        break;
                }
        }

        DPRINTF(("pci_xhci[%d]: xfer->ndata %u\r\n", __LINE__, xfer->ndata));

        if (epid == 1) {
                err = USB_ERR_NOT_STARTED;
                if (dev->dev_ue->ue_request != NULL)
                        err = dev->dev_ue->ue_request(dev->dev_sc, xfer);
                setup_trb = NULL;
        } else {
                /* handle data transfer */
                pci_xhci_try_usb_xfer(sc, dev, devep, ep_ctx, slot, epid);
                err = XHCI_TRB_ERROR_SUCCESS;
                goto errout;
        }

        err = USB_TO_XHCI_ERR(err);
        if ((err == XHCI_TRB_ERROR_SUCCESS) ||
            (err == XHCI_TRB_ERROR_SHORT_PKT)) {
                err = pci_xhci_xfer_complete(sc, xfer, slot, epid, &do_intr);
                if (err != XHCI_TRB_ERROR_SUCCESS)
                        do_retry = 0;
        }

errout:
        if (err == XHCI_TRB_ERROR_EV_RING_FULL)
                DPRINTF(("pci_xhci[%d]: event ring full\r\n", __LINE__));

        if (!do_retry)
                USB_DATA_XFER_UNLOCK(xfer);

        if (do_intr)
                pci_xhci_assert_interrupt(sc);

        if (do_retry) {
                USB_DATA_XFER_RESET(xfer);
                DPRINTF(("pci_xhci[%d]: retry:continuing with next TRBs\r\n",
                         __LINE__));
                goto retry;
        }

        if (epid == 1)
                USB_DATA_XFER_RESET(xfer);

        return (err);
}

static void
pci_xhci_device_doorbell(struct pci_xhci_softc *sc, uint32_t slot,
    uint32_t epid, uint32_t streamid)
{
        struct pci_xhci_dev_emu *dev;
        struct pci_xhci_dev_ep  *devep;
        struct xhci_dev_ctx     *dev_ctx;
        struct xhci_endp_ctx    *ep_ctx;
        struct pci_xhci_trb_ring *sctx_tr;
        struct xhci_trb *trb;
        uint64_t        ringaddr;
        uint32_t        ccs;

        DPRINTF(("pci_xhci doorbell slot %u epid %u stream %u\r\n",
            slot, epid, streamid));

        if (slot == 0 || slot > sc->ndevices) {
                DPRINTF(("pci_xhci: invalid doorbell slot %u\r\n", slot));
                return;
        }

        dev = XHCI_SLOTDEV_PTR(sc, slot);
        devep = &dev->eps[epid];
        dev_ctx = pci_xhci_get_dev_ctx(sc, slot);
        if (!dev_ctx) {
                return;
        }
        ep_ctx = &dev_ctx->ctx_ep[epid];

        sctx_tr = NULL;

        DPRINTF(("pci_xhci: device doorbell ep[%u] %08x %08x %016lx %08x\r\n",
                epid, ep_ctx->dwEpCtx0, ep_ctx->dwEpCtx1, ep_ctx->qwEpCtx2,
                ep_ctx->dwEpCtx4));

        if (ep_ctx->qwEpCtx2 == 0)
                return;

        /* handle pending transfers */
        if (devep->ep_xfer->ndata > 0) {
                pci_xhci_try_usb_xfer(sc, dev, devep, ep_ctx, slot, epid);
                return;
        }

        /* get next trb work item */
        if (XHCI_EPCTX_0_MAXP_STREAMS_GET(ep_ctx->dwEpCtx0) != 0) {
                sctx_tr = &devep->ep_sctx_trbs[streamid];
                ringaddr = sctx_tr->ringaddr;
                ccs = sctx_tr->ccs;
                trb = XHCI_GADDR(sc, sctx_tr->ringaddr & ~0xFUL);
                DPRINTF(("doorbell, stream %u, ccs %lx, trb ccs %x\r\n",
                        streamid, ep_ctx->qwEpCtx2 & XHCI_TRB_3_CYCLE_BIT,
                        trb->dwTrb3 & XHCI_TRB_3_CYCLE_BIT));
        } else {
                ringaddr = devep->ep_ringaddr;
                ccs = devep->ep_ccs;
                trb = devep->ep_tr;
                DPRINTF(("doorbell, ccs %lx, trb ccs %x\r\n",
                        ep_ctx->qwEpCtx2 & XHCI_TRB_3_CYCLE_BIT,
                        trb->dwTrb3 & XHCI_TRB_3_CYCLE_BIT));
        }

        if (XHCI_TRB_3_TYPE_GET(trb->dwTrb3) == 0) {
                DPRINTF(("pci_xhci: ring %lx trb[%lx] EP %u is RESERVED?\r\n",
                        ep_ctx->qwEpCtx2, devep->ep_ringaddr, epid));
                return;
        }

        pci_xhci_handle_transfer(sc, dev, devep, ep_ctx, trb, slot, epid,
                                 ringaddr, ccs, streamid);
}

static void
pci_xhci_dbregs_write(struct pci_xhci_softc *sc, uint64_t offset,
    uint64_t value)
{

        offset = (offset - sc->dboff) / sizeof(uint32_t);

        DPRINTF(("pci_xhci: doorbell write offset 0x%lx: 0x%lx\r\n",
                offset, value));

        if (XHCI_HALTED(sc)) {
                DPRINTF(("pci_xhci: controller halted\r\n"));
                return;
        }

        if (offset == 0)
                pci_xhci_complete_commands(sc);
        else if (sc->portregs != NULL)
                pci_xhci_device_doorbell(sc, offset,
                   XHCI_DB_TARGET_GET(value), XHCI_DB_SID_GET(value));
}

static void
pci_xhci_rtsregs_write(struct pci_xhci_softc *sc, uint64_t offset,
    uint64_t value)
{
        struct pci_xhci_rtsregs *rts;

        offset -= sc->rtsoff;

        if (offset == 0) {
                DPRINTF(("pci_xhci attempted write to MFINDEX\r\n"));
                return;
        }

        DPRINTF(("pci_xhci: runtime regs write offset 0x%lx: 0x%lx\r\n",
                offset, value));

        offset -= 0x20;         /* start of intrreg */

        rts = &sc->rtsregs;

        switch (offset) {
        case 0x00:
                if (value & XHCI_IMAN_INTR_PEND)
                        rts->intrreg.iman &= ~XHCI_IMAN_INTR_PEND;
                rts->intrreg.iman = (value & XHCI_IMAN_INTR_ENA) |
                                    (rts->intrreg.iman & XHCI_IMAN_INTR_PEND);

                if (!(value & XHCI_IMAN_INTR_ENA))
                        pci_xhci_deassert_interrupt(sc);

                break;

        case 0x04:
                rts->intrreg.imod = value;
                break;

        case 0x08:
                rts->intrreg.erstsz = value & 0xFFFF;
                break;

        case 0x10:
                /* ERSTBA low bits */
                rts->intrreg.erstba = MASK_64_HI(sc->rtsregs.intrreg.erstba) |
                                      (value & ~0x3F);
                break;

        case 0x14:
                /* ERSTBA high bits */
                rts->intrreg.erstba = (value << 32) |
                    MASK_64_LO(sc->rtsregs.intrreg.erstba);

                rts->erstba_p = XHCI_GADDR(sc,
                                        sc->rtsregs.intrreg.erstba & ~0x3FUL);

                rts->erst_p = XHCI_GADDR(sc,
                              sc->rtsregs.erstba_p->qwEvrsTablePtr & ~0x3FUL);

                rts->er_enq_idx = 0;
                rts->er_events_cnt = 0;

                DPRINTF(("pci_xhci: wr erstba erst (%p) ptr 0x%lx, sz %u\r\n",
                        rts->erstba_p,
                        rts->erstba_p->qwEvrsTablePtr,
                        rts->erstba_p->dwEvrsTableSize));
                break;

        case 0x18:
                /* ERDP low bits */
                rts->intrreg.erdp =
                    MASK_64_HI(sc->rtsregs.intrreg.erdp) |
                    (rts->intrreg.erdp & XHCI_ERDP_LO_BUSY) |
                    (value & ~0xF);
                if (value & XHCI_ERDP_LO_BUSY) {
                        rts->intrreg.erdp &= ~XHCI_ERDP_LO_BUSY;
                        rts->intrreg.iman &= ~XHCI_IMAN_INTR_PEND;
                }

                rts->er_deq_seg = XHCI_ERDP_LO_SINDEX(value);

                break;

        case 0x1C:
                /* ERDP high bits */
                rts->intrreg.erdp = (value << 32) |
                    MASK_64_LO(sc->rtsregs.intrreg.erdp);

                if (rts->er_events_cnt > 0) {
                        uint64_t erdp;
                        uint32_t erdp_i;

                        erdp = rts->intrreg.erdp & ~0xF;
                        erdp_i = (erdp - rts->erstba_p->qwEvrsTablePtr) /
                                   sizeof(struct xhci_trb);

                        if (erdp_i <= rts->er_enq_idx)
                                rts->er_events_cnt = rts->er_enq_idx - erdp_i;
                        else
                                rts->er_events_cnt =
                                          rts->erstba_p->dwEvrsTableSize -
                                          (erdp_i - rts->er_enq_idx);

                        DPRINTF(("pci_xhci: erdp 0x%lx, events cnt %u\r\n",
                                erdp, rts->er_events_cnt));
                }

                break;

        default:
                DPRINTF(("pci_xhci attempted write to RTS offset 0x%lx\r\n",
                        offset));
                break;
        }
}

static uint64_t
pci_xhci_portregs_read(struct pci_xhci_softc *sc, uint64_t offset)
{
        int port;
        uint32_t *p;

        if (sc->portregs == NULL)
                return (0);

        port = (offset - 0x3F0) / 0x10;

        if (port > XHCI_MAX_DEVS) {
                DPRINTF(("pci_xhci: portregs_read port %d >= XHCI_MAX_DEVS\r\n",
                    port));

                /* return default value for unused port */
                return (XHCI_PS_SPEED_SET(3));
        }

        offset = (offset - 0x3F0) % 0x10;

        p = &sc->portregs[port].portsc;
        p += offset / sizeof(uint32_t);

        DPRINTF(("pci_xhci: portregs read offset 0x%lx port %u -> 0x%x\r\n",
                offset, port, *p));

        return (*p);
}

static void
pci_xhci_hostop_write(struct pci_xhci_softc *sc, uint64_t offset,
    uint64_t value)
{
        offset -= XHCI_CAPLEN;

        if (offset < 0x400)
                DPRINTF(("pci_xhci: hostop write offset 0x%lx: 0x%lx\r\n",
                         offset, value));

        switch (offset) {
        case XHCI_USBCMD:
                sc->opregs.usbcmd = pci_xhci_usbcmd_write(sc, value & 0x3F0F);
                break;

        case XHCI_USBSTS:
                /* clear bits on write */
                sc->opregs.usbsts &= ~(value &
                      (XHCI_STS_HSE|XHCI_STS_EINT|XHCI_STS_PCD|XHCI_STS_SSS|
                       XHCI_STS_RSS|XHCI_STS_SRE|XHCI_STS_CNR));
                break;

        case XHCI_PAGESIZE:
                /* read only */
                break;

        case XHCI_DNCTRL:
                sc->opregs.dnctrl = value & 0xFFFF;
                break;

        case XHCI_CRCR_LO:
                if (sc->opregs.crcr & XHCI_CRCR_LO_CRR) {
                        sc->opregs.crcr &= ~(XHCI_CRCR_LO_CS|XHCI_CRCR_LO_CA);
                        sc->opregs.crcr |= value &
                                           (XHCI_CRCR_LO_CS|XHCI_CRCR_LO_CA);
                } else {
                        sc->opregs.crcr = MASK_64_HI(sc->opregs.crcr) |
                                   (value & (0xFFFFFFC0 | XHCI_CRCR_LO_RCS));
                }
                break;

        case XHCI_CRCR_HI:
                if (!(sc->opregs.crcr & XHCI_CRCR_LO_CRR)) {
                        sc->opregs.crcr = MASK_64_LO(sc->opregs.crcr) |
                                          (value << 32);

                        sc->opregs.cr_p = XHCI_GADDR(sc,
                                          sc->opregs.crcr & ~0xF);
                }

                if (sc->opregs.crcr & XHCI_CRCR_LO_CS) {
                        /* Stop operation of Command Ring */
                }

                if (sc->opregs.crcr & XHCI_CRCR_LO_CA) {
                        /* Abort command */
                }

                break;

        case XHCI_DCBAAP_LO:
                sc->opregs.dcbaap = MASK_64_HI(sc->opregs.dcbaap) |
                                    (value & 0xFFFFFFC0);
                break;

        case XHCI_DCBAAP_HI:
                sc->opregs.dcbaap =  MASK_64_LO(sc->opregs.dcbaap) |
                                     (value << 32);
                sc->opregs.dcbaa_p = XHCI_GADDR(sc, sc->opregs.dcbaap & ~0x3FUL);

                DPRINTF(("pci_xhci: opregs dcbaap = 0x%lx (vaddr 0x%lx)\r\n",
                    sc->opregs.dcbaap, (uint64_t)sc->opregs.dcbaa_p));
                break;

        case XHCI_CONFIG:
                sc->opregs.config = value & 0x03FF;
                break;

        default:
                if (offset >= 0x400)
                        pci_xhci_portregs_write(sc, offset, value);

                break;
        }
}


static void
pci_xhci_write(struct vmctx *ctx, int vcpu, struct pci_devinst *pi,
                int baridx, uint64_t offset, int size, uint64_t value)
{
        struct pci_xhci_softc *sc;

        sc = pi->pi_arg;

        assert(baridx == 0);


        pthread_mutex_lock(&sc->mtx);
        if (offset < XHCI_CAPLEN)       /* read only registers */
                WPRINTF(("pci_xhci: write RO-CAPs offset %ld\r\n", offset));
        else if (offset < sc->dboff)
                pci_xhci_hostop_write(sc, offset, value);
        else if (offset < sc->rtsoff)
                pci_xhci_dbregs_write(sc, offset, value);
        else if (offset < sc->regsend)
                pci_xhci_rtsregs_write(sc, offset, value);
        else
                WPRINTF(("pci_xhci: write invalid offset %ld\r\n", offset));

        pthread_mutex_unlock(&sc->mtx);
}

static uint64_t
pci_xhci_hostcap_read(struct pci_xhci_softc *sc, uint64_t offset)
{
        uint64_t        value;

        switch (offset) {
        case XHCI_CAPLENGTH:    /* 0x00 */
                value = sc->caplength;
                break;

        case XHCI_HCSPARAMS1:   /* 0x04 */
                value = sc->hcsparams1;
                break;

        case XHCI_HCSPARAMS2:   /* 0x08 */
                value = sc->hcsparams2;
                break;

        case XHCI_HCSPARAMS3:   /* 0x0C */
                value = sc->hcsparams3;
                break;

        case XHCI_HCSPARAMS0:   /* 0x10 */
                value = sc->hccparams1;
                break;

        case XHCI_DBOFF:        /* 0x14 */
                value = sc->dboff;
                break;

        case XHCI_RTSOFF:       /* 0x18 */
                value = sc->rtsoff;
                break;

        case XHCI_HCCPRAMS2:    /* 0x1C */
                value = sc->hccparams2;
                break;

        default:
                value = 0;
                break;
        }

        DPRINTF(("pci_xhci: hostcap read offset 0x%lx -> 0x%lx\r\n",
                offset, value));

        return (value);
}

static uint64_t
pci_xhci_hostop_read(struct pci_xhci_softc *sc, uint64_t offset)
{
        uint64_t value;

        offset = (offset - XHCI_CAPLEN);

        switch (offset) {
        case XHCI_USBCMD:       /* 0x00 */
                value = sc->opregs.usbcmd;
                break;

        case XHCI_USBSTS:       /* 0x04 */
                value = sc->opregs.usbsts;
                break;

        case XHCI_PAGESIZE:     /* 0x08 */
                value = sc->opregs.pgsz;
                break;

        case XHCI_DNCTRL:       /* 0x14 */
                value = sc->opregs.dnctrl;
                break;

        case XHCI_CRCR_LO:      /* 0x18 */
                value = sc->opregs.crcr & XHCI_CRCR_LO_CRR;
                break;

        case XHCI_CRCR_HI:      /* 0x1C */
                value = 0;
                break;

        case XHCI_DCBAAP_LO:    /* 0x30 */
                value = sc->opregs.dcbaap & 0xFFFFFFFF;
                break;

        case XHCI_DCBAAP_HI:    /* 0x34 */
                value = (sc->opregs.dcbaap >> 32) & 0xFFFFFFFF;
                break;

        case XHCI_CONFIG:       /* 0x38 */
                value = sc->opregs.config;
                break;

        default:
                if (offset >= 0x400)
                        value = pci_xhci_portregs_read(sc, offset);
                else
                        value = 0;

                break;
        }

        if (offset < 0x400)
                DPRINTF(("pci_xhci: hostop read offset 0x%lx -> 0x%lx\r\n",
                        offset, value));

        return (value);
}

static uint64_t
pci_xhci_dbregs_read(struct pci_xhci_softc *sc, uint64_t offset)
{

        /* read doorbell always returns 0 */
        return (0);
}

static uint64_t
pci_xhci_rtsregs_read(struct pci_xhci_softc *sc, uint64_t offset)
{
        uint32_t        value;

        offset -= sc->rtsoff;
        value = 0;

        if (offset == XHCI_MFINDEX) {
                value = sc->rtsregs.mfindex;
        } else if (offset >= 0x20) {
                int item;
                uint32_t *p;

                offset -= 0x20;
                item = offset % 32;

                assert(offset < sizeof(sc->rtsregs.intrreg));

                p = &sc->rtsregs.intrreg.iman;
                p += item / sizeof(uint32_t);
                value = *p;
        }

        DPRINTF(("pci_xhci: rtsregs read offset 0x%lx -> 0x%x\r\n",
                offset, value));

        return (value);
}

static uint64_t
pci_xhci_xecp_read(struct pci_xhci_softc *sc, uint64_t offset)
{
        uint32_t        value;

        offset -= sc->regsend;
        value = 0;

        switch (offset) {
        case 0:
                /* rev major | rev minor | next-cap | cap-id */
                value = (0x02 << 24) | (4 << 8) | XHCI_ID_PROTOCOLS;
                break;
        case 4:
                /* name string = "USB" */
                value = 0x20425355;
                break;
        case 8:
                /* psic | proto-defined | compat # | compat offset */
                value = ((XHCI_MAX_DEVS/2) << 8) | sc->usb2_port_start;
                break;
        case 12:
                break;
        case 16:
                /* rev major | rev minor | next-cap | cap-id */
                value = (0x03 << 24) | XHCI_ID_PROTOCOLS;
                break;
        case 20:
                /* name string = "USB" */
                value = 0x20425355;
                break;
        case 24:
                /* psic | proto-defined | compat # | compat offset */
                value = ((XHCI_MAX_DEVS/2) << 8) | sc->usb3_port_start;
                break;
        case 28:
                break;
        default:
                DPRINTF(("pci_xhci: xecp invalid offset 0x%lx\r\n", offset));
                break;
        }

        DPRINTF(("pci_xhci: xecp read offset 0x%lx -> 0x%x\r\n",
                offset, value));

        return (value);
}


static uint64_t
pci_xhci_read(struct vmctx *ctx, int vcpu, struct pci_devinst *pi, int baridx,
    uint64_t offset, int size)
{
        struct pci_xhci_softc *sc;
        uint32_t        value;

        sc = pi->pi_arg;

        assert(baridx == 0);

        pthread_mutex_lock(&sc->mtx);
        if (offset < XHCI_CAPLEN)
                value = pci_xhci_hostcap_read(sc, offset);
        else if (offset < sc->dboff)
                value = pci_xhci_hostop_read(sc, offset);
        else if (offset < sc->rtsoff)
                value = pci_xhci_dbregs_read(sc, offset);
        else if (offset < sc->regsend)
                value = pci_xhci_rtsregs_read(sc, offset);
        else if (offset < (sc->regsend + 4*32))
                value = pci_xhci_xecp_read(sc, offset);
        else {
                value = 0;
                WPRINTF(("pci_xhci: read invalid offset %ld\r\n", offset));
        }

        pthread_mutex_unlock(&sc->mtx);

        switch (size) {
        case 1:
                value &= 0xFF;
                break;
        case 2:
                value &= 0xFFFF;
                break;
        case 4:
                value &= 0xFFFFFFFF;
                break;
        }

        return (value);
}

static void
pci_xhci_reset_port(struct pci_xhci_softc *sc, int portn, int warm)
{
        struct pci_xhci_portregs *port;
        struct pci_xhci_dev_emu *dev;
        struct xhci_trb         evtrb;
        int     error;

        assert(portn <= XHCI_MAX_DEVS);

        DPRINTF(("xhci reset port %d\r\n", portn));

        port = XHCI_PORTREG_PTR(sc, portn);
        dev = XHCI_DEVINST_PTR(sc, portn);
        if (dev) {
                port->portsc &= ~(XHCI_PS_PLS_MASK | XHCI_PS_PR | XHCI_PS_PRC);
                port->portsc |= XHCI_PS_PED |
                    XHCI_PS_SPEED_SET(dev->dev_ue->ue_usbspeed);

                if (warm && dev->dev_ue->ue_usbver == 3) {
                        port->portsc |= XHCI_PS_WRC;
                }

                if ((port->portsc & XHCI_PS_PRC) == 0) {
                        port->portsc |= XHCI_PS_PRC;

                        pci_xhci_set_evtrb(&evtrb, portn,
                             XHCI_TRB_ERROR_SUCCESS,
                             XHCI_TRB_EVENT_PORT_STS_CHANGE);
                        error = pci_xhci_insert_event(sc, &evtrb, 1);
                        if (error != XHCI_TRB_ERROR_SUCCESS)
                                DPRINTF(("xhci reset port insert event "
                                         "failed\r\n"));
                }
        }
}

static void
pci_xhci_init_port(struct pci_xhci_softc *sc, int portn)
{
        struct pci_xhci_portregs *port;
        struct pci_xhci_dev_emu *dev;

        port = XHCI_PORTREG_PTR(sc, portn);
        dev = XHCI_DEVINST_PTR(sc, portn);
        if (dev) {
                port->portsc = XHCI_PS_CCS |            /* connected */
                               XHCI_PS_PP;              /* port power */
                
                if (dev->dev_ue->ue_usbver == 2) {
                        port->portsc |= XHCI_PS_PLS_SET(UPS_PORT_LS_POLL) |
                               XHCI_PS_SPEED_SET(dev->dev_ue->ue_usbspeed);
                } else {
                        port->portsc |= XHCI_PS_PLS_SET(UPS_PORT_LS_U0) |
                               XHCI_PS_PED |            /* enabled */
                               XHCI_PS_SPEED_SET(dev->dev_ue->ue_usbspeed);
                }
                
                DPRINTF(("Init port %d 0x%x\n", portn, port->portsc));
        } else {
                port->portsc = XHCI_PS_PLS_SET(UPS_PORT_LS_RX_DET) | XHCI_PS_PP;
                DPRINTF(("Init empty port %d 0x%x\n", portn, port->portsc));
        }
}

static int
pci_xhci_dev_intr(struct usb_hci *hci, int epctx)
{
        struct pci_xhci_dev_emu *dev;
        struct xhci_dev_ctx     *dev_ctx;
        struct xhci_trb         evtrb;
        struct pci_xhci_softc   *sc;
        struct pci_xhci_portregs *p;
        struct xhci_endp_ctx    *ep_ctx;
        int     error;
        int     dir_in;
        int     epid;

        dir_in = epctx & 0x80;
        epid = epctx & ~0x80;

        /* HW endpoint contexts are 0-15; convert to epid based on dir */
        epid = (epid * 2) + (dir_in ? 1 : 0);

        assert(epid >= 1 && epid <= 31);

        dev = hci->hci_sc;
        sc = dev->xsc;

        /* check if device is ready; OS has to initialise it */
        if (sc->rtsregs.erstba_p == NULL ||
            (sc->opregs.usbcmd & XHCI_CMD_RS) == 0 ||
            dev->dev_ctx == NULL)
                return (0);

        p = XHCI_PORTREG_PTR(sc, hci->hci_port);

        /* raise event if link U3 (suspended) state */
        if (XHCI_PS_PLS_GET(p->portsc) == 3) {
                p->portsc &= ~XHCI_PS_PLS_MASK;
                p->portsc |= XHCI_PS_PLS_SET(UPS_PORT_LS_RESUME);
                if ((p->portsc & XHCI_PS_PLC) != 0)
                        return (0);

                p->portsc |= XHCI_PS_PLC;

                pci_xhci_set_evtrb(&evtrb, hci->hci_port,
                      XHCI_TRB_ERROR_SUCCESS, XHCI_TRB_EVENT_PORT_STS_CHANGE);
                error = pci_xhci_insert_event(sc, &evtrb, 0);
                if (error != XHCI_TRB_ERROR_SUCCESS)
                        goto done;
        }

        dev_ctx = dev->dev_ctx;
        ep_ctx = &dev_ctx->ctx_ep[epid];
        if ((ep_ctx->dwEpCtx0 & 0x7) == XHCI_ST_EPCTX_DISABLED) {
                DPRINTF(("xhci device interrupt on disabled endpoint %d\r\n",
                         epid));
                return (0);
        }

        DPRINTF(("xhci device interrupt on endpoint %d\r\n", epid));

        pci_xhci_device_doorbell(sc, hci->hci_port, epid, 0);

done:
        return (error);
}

static int
pci_xhci_dev_event(struct usb_hci *hci, enum hci_usbev evid, void *param)
{

        DPRINTF(("xhci device event port %d\r\n", hci->hci_port));
        return (0);
}



static void
pci_xhci_device_usage(char *opt)
{

        fprintf(stderr, "Invalid USB emulation \"%s\"\r\n", opt);
}

static int
pci_xhci_parse_opts(struct pci_xhci_softc *sc, char *opts)
{
        struct pci_xhci_dev_emu **devices;
        struct pci_xhci_dev_emu *dev;
        struct usb_devemu       *ue;
        void    *devsc;
        char    *uopt, *xopts, *config;
        int     usb3_port, usb2_port, i;

        usb3_port = sc->usb3_port_start - 1;
        usb2_port = sc->usb2_port_start - 1;
        devices = NULL;

        if (opts == NULL)
                goto portsfinal;

        devices = calloc(XHCI_MAX_DEVS, sizeof(struct pci_xhci_dev_emu *));

        sc->slots = calloc(XHCI_MAX_SLOTS, sizeof(struct pci_xhci_dev_emu *));
        sc->devices = devices;
        sc->ndevices = 0;

        uopt = strdup(opts);
        for (xopts = strtok(uopt, ",");
             xopts != NULL;
             xopts = strtok(NULL, ",")) {
                if (usb2_port == ((sc->usb2_port_start-1) + XHCI_MAX_DEVS/2) ||
                    usb3_port == ((sc->usb3_port_start-1) + XHCI_MAX_DEVS/2)) {
                        WPRINTF(("pci_xhci max number of USB 2 or 3 "
                             "devices reached, max %d\r\n", XHCI_MAX_DEVS/2));
                        usb2_port = usb3_port = -1;
                        goto done;
                }

                /* device[=<config>] */
                if ((config = strchr(xopts, '=')) == NULL)
                        config = "";            /* no config */
                else
                        *config++ = '\0';

                ue = usb_emu_finddev(xopts);
                if (ue == NULL) {
                        pci_xhci_device_usage(xopts);
                        DPRINTF(("pci_xhci device not found %s\r\n", xopts));
                        usb2_port = usb3_port = -1;
                        goto done;
                }

                DPRINTF(("pci_xhci adding device %s, opts \"%s\"\r\n",
                        xopts, config));

                dev = calloc(1, sizeof(struct pci_xhci_dev_emu));
                dev->xsc = sc;
                dev->hci.hci_sc = dev;
                dev->hci.hci_intr = pci_xhci_dev_intr;
                dev->hci.hci_event = pci_xhci_dev_event;

                if (ue->ue_usbver == 2) {
                        dev->hci.hci_port = usb2_port + 1;
                        devices[usb2_port] = dev;
                        usb2_port++;
                } else {
                        dev->hci.hci_port = usb3_port + 1;
                        devices[usb3_port] = dev;
                        usb3_port++;
                }

                dev->hci.hci_address = 0;
                devsc = ue->ue_init(&dev->hci, config);
                if (devsc == NULL) {
                        pci_xhci_device_usage(xopts);
                        usb2_port = usb3_port = -1;
                        goto done;
                }

                dev->dev_ue = ue;
                dev->dev_sc = devsc;

                /* assign slot number to device */
                sc->slots[sc->ndevices] = dev;

                sc->ndevices++;
        }

portsfinal:
        sc->portregs = calloc(XHCI_MAX_DEVS, sizeof(struct pci_xhci_portregs));

        if (sc->ndevices > 0) {
                /* port and slot numbering start from 1 */
                sc->devices--;
                sc->portregs--;
                sc->slots--;

                for (i = 1; i <= XHCI_MAX_DEVS; i++) {
                        pci_xhci_init_port(sc, i);
                }
        } else {
                WPRINTF(("pci_xhci no USB devices configured\r\n"));
                sc->ndevices = 1;
        }

done:
        if (devices != NULL) {
                if (usb2_port <= 0 && usb3_port <= 0) {
                        sc->devices = NULL;
                        for (i = 0; devices[i] != NULL; i++)
                                free(devices[i]);
                        sc->ndevices = -1;

                        free(devices);
                }
        }
        return (sc->ndevices);
}

static int
pci_xhci_init(struct vmctx *ctx, struct pci_devinst *pi, char *opts)
{
        struct pci_xhci_softc *sc;
        int     error;

        if (xhci_in_use) {
                WPRINTF(("pci_xhci controller already defined\r\n"));
                return (-1);
        }
        xhci_in_use = 1;

        sc = calloc(1, sizeof(struct pci_xhci_softc));
        pi->pi_arg = sc;
        sc->xsc_pi = pi;

        sc->usb2_port_start = (XHCI_MAX_DEVS/2) + 1;
        sc->usb3_port_start = 1;

        /* discover devices */
        error = pci_xhci_parse_opts(sc, opts);
        if (error < 0)
                goto done;
        else
                error = 0;

        sc->caplength = XHCI_SET_CAPLEN(XHCI_CAPLEN) |
                        XHCI_SET_HCIVERSION(0x0100);
        sc->hcsparams1 = XHCI_SET_HCSP1_MAXPORTS(XHCI_MAX_DEVS) |
                         XHCI_SET_HCSP1_MAXINTR(1) |    /* interrupters */
                         XHCI_SET_HCSP1_MAXSLOTS(XHCI_MAX_SLOTS);
        sc->hcsparams2 = XHCI_SET_HCSP2_ERSTMAX(XHCI_ERST_MAX) |
                         XHCI_SET_HCSP2_IST(0x04);
        sc->hcsparams3 = 0;                             /* no latency */
        sc->hccparams1 = XHCI_SET_HCCP1_NSS(1) |        /* no 2nd-streams */
                         XHCI_SET_HCCP1_SPC(1) |        /* short packet */
                         XHCI_SET_HCCP1_MAXPSA(XHCI_STREAMS_MAX);
        sc->hccparams2 = XHCI_SET_HCCP2_LEC(1) |
                         XHCI_SET_HCCP2_U3C(1);
        sc->dboff = XHCI_SET_DOORBELL(XHCI_CAPLEN + XHCI_PORTREGS_START +
                    XHCI_MAX_DEVS * sizeof(struct pci_xhci_portregs));

        /* dboff must be 32-bit aligned */
        if (sc->dboff & 0x3)
                sc->dboff = (sc->dboff + 0x3) & ~0x3;

        /* rtsoff must be 32-bytes aligned */
        sc->rtsoff = XHCI_SET_RTSOFFSET(sc->dboff + (XHCI_MAX_SLOTS+1) * 32);
        if (sc->rtsoff & 0x1F)
                sc->rtsoff = (sc->rtsoff + 0x1F) & ~0x1F;

        DPRINTF(("pci_xhci dboff: 0x%x, rtsoff: 0x%x\r\n", sc->dboff,
                sc->rtsoff));

        sc->opregs.usbsts = XHCI_STS_HCH;
        sc->opregs.pgsz = XHCI_PAGESIZE_4K;

        pci_xhci_reset(sc);

        sc->regsend = sc->rtsoff + 0x20 + 32;           /* only 1 intrpter */

        /*
         * Set extended capabilities pointer to be after regsend;
         * value of xecp field is 32-bit offset.
         */
        sc->hccparams1 |= XHCI_SET_HCCP1_XECP(sc->regsend/4);

        pci_set_cfgdata16(pi, PCIR_DEVICE, 0x1E31);
        pci_set_cfgdata16(pi, PCIR_VENDOR, 0x8086);
        pci_set_cfgdata8(pi, PCIR_CLASS, PCIC_SERIALBUS);
        pci_set_cfgdata8(pi, PCIR_SUBCLASS, PCIS_SERIALBUS_USB);
        pci_set_cfgdata8(pi, PCIR_PROGIF,PCIP_SERIALBUS_USB_XHCI);
        pci_set_cfgdata8(pi, PCI_USBREV, PCI_USB_REV_3_0);

        pci_emul_add_msicap(pi, 1);

        /* regsend + xecp registers */
        pci_emul_alloc_bar(pi, 0, PCIBAR_MEM32, sc->regsend + 4*32);
        DPRINTF(("pci_xhci pci_emu_alloc: %d\r\n", sc->regsend + 4*32));


        pci_lintr_request(pi);

        pthread_mutex_init(&sc->mtx, NULL);

done:
        if (error) {
                free(sc);
        }

        return (error);
}



struct pci_devemu pci_de_xhci = {
        .pe_emu =       "xhci",
        .pe_init =      pci_xhci_init,
        .pe_barwrite =  pci_xhci_write,
        .pe_barread =   pci_xhci_read
};
PCI_EMUL_SET(pci_de_xhci);