/* $OpenBSD: usb_port.h,v 1.18 2000/09/06 22:42:10 rahnds Exp $ */ /* $NetBSD: usb_port.h,v 1.41 2001/03/26 12:40:39 ichiro Exp $ */ /* $FreeBSD: src/sys/dev/usb/usb_port.h,v 1.21 1999/11/17 22:33:47 n_hibma Exp $ */ /* * Copyright (c) 1998 The NetBSD Foundation, Inc. * All rights reserved. * * This code is derived from software contributed to The NetBSD Foundation * by Lennart Augustsson (lennart@augustsson.net) at * Carlstedt Research & Technology. * * 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. * 3. All advertising materials mentioning features or use of this software * must display the following acknowledgement: * This product includes software developed by the NetBSD * Foundation, Inc. and its contributors. * 4. Neither the name of The NetBSD Foundation nor the names of its * contributors may be used to endorse or promote products derived * from this software without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE NETBSD FOUNDATION, INC. 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 FOUNDATION 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. */ #ifndef _USB_PORT_H #define _USB_PORT_H /* * Macro's to cope with the differences between operating systems. */ #if defined(__NetBSD__) /* * NetBSD */ #include "opt_usbverbose.h" /*#define USB_USE_SOFTINTR */ #ifdef USB_DEBUG #define UKBD_DEBUG 1 #define UHID_DEBUG 1 #define OHCI_DEBUG 1 #define UGEN_DEBUG 1 #define UHCI_DEBUG 1 #define UHUB_DEBUG 1 #define ULPT_DEBUG 1 #define UCOM_DEBUG 1 #define UPLCOM_DEBUG 1 #define UMODEM_DEBUG 1 #define UAUDIO_DEBUG 1 #define AUE_DEBUG 1 #define CUE_DEBUG 1 #define KUE_DEBUG 1 #define UMASS_DEBUG 1 #define UVISOR_DEBUG 1 #define UPL_DEBUG 1 #define UZCOM_DEBUG 1 #define URIO_DEBUG 1 #define UFTDI_DEBUG 1 #define USCANNER_DEBUG 1 #define USSCANNER_DEBUG 1 #define Static #else #define Static static #endif typedef struct device *device_ptr_t; #define USBBASEDEVICE struct device #define USBDEV(bdev) (&(bdev)) #define USBDEVNAME(bdev) ((bdev).dv_xname) #define USBDEVUNIT(bdev) ((bdev).dv_unit) #define USBDEVPTRNAME(bdevptr) ((bdevptr)->dv_xname) #define USBGETSOFTC(d) ((void *)(d)) #define DECLARE_USB_DMA_T \ struct usb_dma_block; \ typedef struct { \ struct usb_dma_block *block; \ u_int offs; \ } usb_dma_t typedef struct callout usb_callout_t; #define usb_callout_init(h) callout_init(&(h)) #define usb_callout(h, t, f, d) callout_reset(&(h), (t), (f), (d)) #define usb_uncallout(h, f, d) callout_stop(&(h)) #define usb_kthread_create1 kthread_create1 #define usb_kthread_create kthread_create typedef int usb_malloc_type; #define Ether_ifattach ether_ifattach #define IF_INPUT(ifp, m) (*(ifp)->if_input)((ifp), (m)) #define logprintf printf #define USB_DECLARE_DRIVER(dname) \ int __CONCAT(dname,_match)(struct device *, struct cfdata *, void *); \ void __CONCAT(dname,_attach)(struct device *, struct device *, void *); \ int __CONCAT(dname,_detach)(struct device *, int); \ int __CONCAT(dname,_activate)(struct device *, enum devact); \ \ extern struct cfdriver __CONCAT(dname,_cd); \ \ struct cfattach __CONCAT(dname,_ca) = { \ sizeof(struct __CONCAT(dname,_softc)), \ __CONCAT(dname,_match), \ __CONCAT(dname,_attach), \ __CONCAT(dname,_detach), \ __CONCAT(dname,_activate), \ } #define USB_MATCH(dname) \ int \ __CONCAT(dname,_match)(parent, match, aux) \ struct device *parent; \ struct cfdata *match; \ void *aux; #define USB_MATCH_START(dname, uaa) \ struct usb_attach_arg *uaa = aux #define USB_ATTACH(dname) \ void \ __CONCAT(dname,_attach)(parent, self, aux) \ struct device *parent; \ struct device *self; \ void *aux; #define USB_ATTACH_START(dname, sc, uaa) \ struct __CONCAT(dname,_softc) *sc = \ (struct __CONCAT(dname,_softc) *)self; \ struct usb_attach_arg *uaa = aux /* Returns from attach */ #define USB_ATTACH_ERROR_RETURN return #define USB_ATTACH_SUCCESS_RETURN return #define USB_ATTACH_SETUP printf("\n") #define USB_DETACH(dname) \ int \ __CONCAT(dname,_detach)(self, flags) \ struct device *self; \ int flags; #define USB_DETACH_START(dname, sc) \ struct __CONCAT(dname,_softc) *sc = \ (struct __CONCAT(dname,_softc) *)self #define USB_GET_SC_OPEN(dname, unit, sc) \ if (unit >= __CONCAT(dname,_cd).cd_ndevs) \ return (ENXIO); \ sc = __CONCAT(dname,_cd).cd_devs[unit]; \ if (sc == NULL) \ return (ENXIO) #define USB_GET_SC(dname, unit, sc) \ sc = __CONCAT(dname,_cd).cd_devs[unit] #define USB_DO_ATTACH(dev, bdev, parent, args, print, sub) \ (config_found_sm(parent, args, print, sub)) #elif defined(__OpenBSD__) /* * OpenBSD */ #ifdef USB_DEBUG #define UKBD_DEBUG 1 #define UHID_DEBUG 1 #define OHCI_DEBUG 1 #define UGEN_DEBUG 1 #define UHCI_DEBUG 1 #define UHUB_DEBUG 1 #define ULPT_DEBUG 1 #define UCOM_DEBUG 1 #define UMODEM_DEBUG 1 #define UAUDIO_DEBUG 1 #define AUE_DEBUG 1 #define CUE_DEBUG 1 #define KUE_DEBUG 1 #define UMASS_DEBUG 1 #define UVISOR_DEBUG 1 #define UPL_DEBUG 1 #define UZCOM_DEBUG 1 #define URIO_DEBUG 1 #define UFTDI_DEBUG 1 #define USCANNER_DEBUG 1 #define USSCANNER_DEBUG 1 #endif #define Static #define UCOMBUSCF_PORTNO -1 #define UCOMBUSCF_PORTNO_DEFAULT -1 #define SCSI_MODE_SENSE MODE_SENSE #define XS_STS_DONE ITSDONE #define XS_CTL_POLL SCSI_POLL #define XS_CTL_DATA_IN SCSI_DATA_IN #define XS_CTL_DATA_OUT SCSI_DATA_OUT #define scsipi_adapter scsi_adapter #define scsipi_cmd scsi_cmd #define scsipi_device scsi_device #define scsipi_done scsi_done #define scsipi_link scsi_link #define scsipi_minphys scsi_minphys #define scsipi_sense scsi_sense #define scsipi_xfer scsi_xfer #define xs_control flags #define xs_status status #define memcpy(d, s, l) bcopy((s),(d),(l)) #define memset(d, v, l) bzero((d),(l)) #define bswap32(x) swap32(x) #define bswap16(x) swap16(x) /* * The UHCI/OHCI controllers are little endian, so on big endian machines * the data strored in memory needs to be swapped. */ #if defined(letoh32) #define le32toh(x) letoh32(x) #define le16toh(x) letoh16(x) #endif #define usb_kthread_create1 kthread_create #define usb_kthread_create kthread_create_deferred #define config_pending_incr() #define config_pending_decr() typedef int usb_malloc_type; #define Ether_ifattach(ifp, eaddr) ether_ifattach(ifp) #define if_deactivate(x) #define IF_INPUT(ifp, m) do { \ struct ether_header *eh; \ \ eh = mtod(m, struct ether_header *); \ m_adj(m, sizeof(struct ether_header)); \ ether_input((ifp), (eh), (m)); \ } while (0) #define usbpoll usbselect #define uhidpoll uhidselect #define ugenpoll ugenselect #define uriopoll urioselect #define uscannerpoll uscannerselect #define powerhook_establish(fn, sc) (fn) #define powerhook_disestablish(hdl) #define PWR_RESUME 0 #define logprintf printf #define swap_bytes_change_sign16_le swap_bytes_change_sign16 #define change_sign16_swap_bytes_le change_sign16_swap_bytes #define change_sign16_le change_sign16 #define realloc usb_realloc void *usb_realloc(void *, u_int, int, int); extern int cold; typedef struct device *device_ptr_t; #define USBBASEDEVICE struct device #define USBDEV(bdev) (&(bdev)) #define USBDEVNAME(bdev) ((bdev).dv_xname) #define USBDEVUNIT(bdev) ((bdev).dv_unit) #define USBDEVPTRNAME(bdevptr) ((bdevptr)->dv_xname) #define USBGETSOFTC(d) ((void *)(d)) #define DECLARE_USB_DMA_T \ struct usb_dma_block; \ typedef struct { \ struct usb_dma_block *block; \ u_int offs; \ } usb_dma_t typedef char usb_callout_t; #define usb_callout_init(h) #define usb_callout(h, t, f, d) timeout((f), (d), (t)) #define usb_uncallout(h, f, d) untimeout((f), (d)) #define USB_DECLARE_DRIVER(dname) \ int __CONCAT(dname,_match)(struct device *, void *, void *); \ void __CONCAT(dname,_attach)(struct device *, struct device *, void *); \ int __CONCAT(dname,_detach)(struct device *, int); \ int __CONCAT(dname,_activate)(struct device *, enum devact); \ \ struct cfdriver __CONCAT(dname,_cd) = { \ NULL, #dname, DV_DULL \ }; \ \ struct cfattach __CONCAT(dname,_ca) = { \ sizeof(struct __CONCAT(dname,_softc)), \ __CONCAT(dname,_match), \ __CONCAT(dname,_attach), \ __CONCAT(dname,_detach), \ __CONCAT(dname,_activate), \ } #define USB_MATCH(dname) \ int \ __CONCAT(dname,_match)(parent, match, aux) \ struct device *parent; \ void *match; \ void *aux; #define USB_MATCH_START(dname, uaa) \ struct usb_attach_arg *uaa = aux #define USB_ATTACH(dname) \ void \ __CONCAT(dname,_attach)(parent, self, aux) \ struct device *parent; \ struct device *self; \ void *aux; #define USB_ATTACH_START(dname, sc, uaa) \ struct __CONCAT(dname,_softc) *sc = \ (struct __CONCAT(dname,_softc) *)self; \ struct usb_attach_arg *uaa = aux /* Returns from attach */ #define USB_ATTACH_ERROR_RETURN return #define USB_ATTACH_SUCCESS_RETURN return #define USB_ATTACH_SETUP printf("\n") #define USB_DETACH(dname) \ int \ __CONCAT(dname,_detach)(self, flags) \ struct device *self; \ int flags; #define USB_DETACH_START(dname, sc) \ struct __CONCAT(dname,_softc) *sc = \ (struct __CONCAT(dname,_softc) *)self #define USB_GET_SC_OPEN(dname, unit, sc) \ if (unit >= __CONCAT(dname,_cd).cd_ndevs) \ return (ENXIO); \ sc = __CONCAT(dname,_cd).cd_devs[unit]; \ if (sc == NULL) \ return (ENXIO) #define USB_GET_SC(dname, unit, sc) \ sc = __CONCAT(dname,_cd).cd_devs[unit] #define USB_DO_ATTACH(dev, bdev, parent, args, print, sub) \ (config_found_sm(parent, args, print, sub)) #elif defined(__FreeBSD__) /* * FreeBSD */ #include "opt_usb.h" #define Static #define USBVERBOSE #define device_ptr_t device_t #define USBBASEDEVICE device_t #define USBDEV(bdev) (bdev) #define USBDEVNAME(bdev) device_get_nameunit(bdev) #define USBDEVUNIT(bdev) device_get_unit(bdev) #define USBDEVPTRNAME(bdev) device_get_nameunit(bdev) #define USBGETSOFTC(bdev) (device_get_softc(bdev)) #define DECLARE_USB_DMA_T typedef void * usb_dma_t /* XXX Change this when FreeBSD has memset */ #define memcpy(d, s, l) bcopy((s),(d),(l)) #define memset(d, v, l) bzero((d),(l)) #define bswap32(x) swap32(x) #define usb_kthread_create1(function, sc, priv, string, name) #define usb_kthread_create(create_function, sc) #define usb_kthread_exit(err) typedef struct callout_handle usb_callout_t; #define usb_callout_init(h) callout_handle_init(&(h)) #define usb_callout(h, t, f, d) ((h) = timeout((f), (d), (t))) #define usb_uncallout(h, f, d) uncallout((f), (d), (h)) #define clalloc(p, s, x) (clist_alloc_cblocks((p), (s), (s)), 0) #define clfree(p) clist_free_cblocks((p)) #define powerhook_establish(fn, sc) (fn) #define powerhook_disestablish(hdl) #define PWR_RESUME 0 typedef struct malloc_type *usb_malloc_type; #define USB_DECLARE_DRIVER_INIT(dname, init) \ Static device_probe_t __CONCAT(dname,_match); \ Static device_attach_t __CONCAT(dname,_attach); \ Static device_detach_t __CONCAT(dname,_detach); \ \ Static devclass_t __CONCAT(dname,_devclass); \ \ Static device_method_t __CONCAT(dname,_methods)[] = { \ DEVMETHOD(device_probe, __CONCAT(dname,_match)), \ DEVMETHOD(device_attach, __CONCAT(dname,_attach)), \ DEVMETHOD(device_detach, __CONCAT(dname,_detach)), \ init, \ {0,0} \ }; \ \ Static driver_t __CONCAT(dname,_driver) = { \ #dname, \ __CONCAT(dname,_methods), \ sizeof(struct __CONCAT(dname,_softc)) \ } #define METHODS_NONE {0,0} #define USB_DECLARE_DRIVER(dname) USB_DECLARE_DRIVER_INIT(dname, METHODS_NONE) #define USB_MATCH(dname) \ Static int \ __CONCAT(dname,_match)(device_t self) #define USB_MATCH_START(dname, uaa) \ struct usb_attach_arg *uaa = device_get_ivars(self) #define USB_ATTACH(dname) \ Static int \ __CONCAT(dname,_attach)(device_t self) #define USB_ATTACH_START(dname, sc, uaa) \ struct __CONCAT(dname,_softc) *sc = device_get_softc(self); \ struct usb_attach_arg *uaa = device_get_ivars(self) /* Returns from attach */ #define USB_ATTACH_ERROR_RETURN return ENXIO #define USB_ATTACH_SUCCESS_RETURN return 0 #define USB_ATTACH_SETUP \ sc->sc_dev = self; \ device_set_desc_copy(self, devinfo) #define USB_DETACH(dname) \ Static int \ __CONCAT(dname,_detach)(device_t self) #define USB_DETACH_START(dname, sc) \ struct __CONCAT(dname,_softc) *sc = device_get_softc(self) #define USB_GET_SC_OPEN(dname, unit, sc) \ sc = devclass_get_softc(__CONCAT(dname,_devclass), unit); \ if (sc == NULL) \ return (ENXIO) #define USB_GET_SC(dname, unit, sc) \ sc = devclass_get_softc(__CONCAT(dname,_devclass), unit) #define USB_DO_ATTACH(dev, bdev, parent, args, print, sub) \ (device_probe_and_attach((bdev)) == 0 ? (bdev) : 0) /* conversion from one type of queue to the other */ /* XXX In FreeBSD SIMPLEQ_REMOVE_HEAD only removes the head element. */ #define SIMPLEQ_REMOVE_HEAD(h, e, f) do { \ if ( (e) != SIMPLEQ_FIRST((h)) ) \ panic("Removing other than first element"); \ STAILQ_REMOVE_HEAD(h, f); \ } while (0) #define SIMPLEQ_INSERT_HEAD STAILQ_INSERT_HEAD #define SIMPLEQ_INSERT_TAIL STAILQ_INSERT_TAIL #define SIMPLEQ_NEXT STAILQ_NEXT #define SIMPLEQ_FIRST STAILQ_FIRST #define SIMPLEQ_HEAD STAILQ_HEAD #define SIMPLEQ_INIT STAILQ_INIT #define SIMPLEQ_HEAD_INITIALIZER STAILQ_HEAD_INITIALIZER #define SIMPLEQ_ENTRY STAILQ_ENTRY #include /* #define logprintf(args...) log(LOG_DEBUG, args) */ #define logprintf printf #endif /* __FreeBSD__ */ #endif /* _USB_PORT_H */