/* $OpenBSD: subr_autoconf.c,v 1.11 1996/08/15 12:33:20 niklas Exp $ */ /* $NetBSD: subr_autoconf.c,v 1.21 1996/04/04 06:06:18 cgd Exp $ */ /* * Copyright (c) 1992, 1993 * The Regents of the University of California. All rights reserved. * * This software was developed by the Computer Systems Engineering group * at Lawrence Berkeley Laboratory under DARPA contract BG 91-66 and * contributed to Berkeley. * * All advertising materials mentioning features or use of this software * must display the following acknowledgement: * This product includes software developed by the University of * California, Lawrence Berkeley Laboratories. * * 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 University of * California, Berkeley and its contributors. * 4. Neither the name of the University 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 REGENTS 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 REGENTS 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. * * from: Header: subr_autoconf.c,v 1.12 93/02/01 19:31:48 torek Exp (LBL) * * @(#)subr_autoconf.c 8.1 (Berkeley) 6/10/93 */ #include #include #include #include #include /* Extra stuff from Matthias Drochner */ #include /* * Autoconfiguration subroutines. */ /* * ioconf.c exports exactly two names: cfdata and cfroots. All system * devices and drivers are found via these tables. */ extern struct cfdata cfdata[]; extern short cfroots[]; #define ROOT ((struct device *)NULL) struct matchinfo { cfmatch_t fn; struct device *parent; void *match, *aux; int indirect, pri; }; struct cftable_head allcftables; static struct cftable staticcftable = { cfdata }; static char *number __P((char *, int)); static void mapply __P((struct matchinfo *, struct cfdata *)); struct devicelist alldevs; /* list of all devices */ struct evcntlist allevents; /* list of all event counters */ /* * Initialize autoconfiguration data structures. This occurs before console * initialization as that might require use of this subsystem. Furthermore * this means that malloc et al. isn't yet available. */ void config_init() { TAILQ_INIT(&alldevs); TAILQ_INIT(&allevents); TAILQ_INIT(&allcftables); TAILQ_INSERT_TAIL(&allcftables, &staticcftable, list); } /* * Apply the matching function and choose the best. This is used * a few times and we want to keep the code small. */ static void mapply(m, cf) register struct matchinfo *m; register struct cfdata *cf; { register int pri; void *match; if (m->indirect) match = config_make_softc(m->parent, cf); else match = cf; if (m->fn != NULL) pri = (*m->fn)(m->parent, match, m->aux); else { if (cf->cf_attach->ca_match == NULL) { panic("mapply: no match function for '%s' device\n", cf->cf_driver->cd_name); } pri = (*cf->cf_attach->ca_match)(m->parent, match, m->aux); } if (pri > m->pri) { if (m->indirect && m->match) free(m->match, M_DEVBUF); m->match = match; m->pri = pri; } else { if (m->indirect) free(match, M_DEVBUF); } } /* * Iterate over all potential children of some device, calling the given * function (default being the child's match function) for each one. * Nonzero returns are matches; the highest value returned is considered * the best match. Return the `found child' if we got a match, or NULL * otherwise. The `aux' pointer is simply passed on through. * * Note that this function is designed so that it can be used to apply * an arbitrary function to all potential children (its return value * can be ignored). */ void * config_search(fn, parent, aux) cfmatch_t fn; register struct device *parent; void *aux; { register struct cfdata *cf; register short *p; struct matchinfo m; struct cftable *t; m.fn = fn; m.parent = parent; m.match = NULL; m.aux = aux; m.indirect = parent && parent->dv_cfdata->cf_driver->cd_indirect; m.pri = 0; for(t = allcftables.tqh_first; t; t = t->list.tqe_next){ for (cf = t->tab; cf->cf_driver; cf++) { /* * Skip cf if no longer eligible, otherwise scan through * parents for one matching `parent', and try match function. */ if (cf->cf_fstate == FSTATE_FOUND) continue; if (cf->cf_fstate == FSTATE_DNOTFOUND || cf->cf_fstate == FSTATE_DSTAR) continue; for (p = cf->cf_parents; *p >= 0; p++) if (parent->dv_cfdata == &(t->tab)[*p]) mapply(&m, cf); } } return (m.match); } /* * Iterate over all potential children of some device, calling the given * function for each one. * * Note that this function is designed so that it can be used to apply * an arbitrary function to all potential children (its return value * can be ignored). */ void config_scan(fn, parent) cfscan_t fn; register struct device *parent; { register struct cfdata *cf; register short *p; void *match; int indirect; struct cftable *t; indirect = parent && parent->dv_cfdata->cf_driver->cd_indirect; for (t = allcftables.tqh_first; t; t = t->list.tqe_next) { for (cf = t->tab; cf->cf_driver; cf++) { /* * Skip cf if no longer eligible, otherwise scan through * parents for one matching `parent', and try match function. */ if (cf->cf_fstate == FSTATE_FOUND) continue; if (cf->cf_fstate == FSTATE_DNOTFOUND || cf->cf_fstate == FSTATE_DSTAR) continue; for (p = cf->cf_parents; *p >= 0; p++) if (parent->dv_cfdata == &(t->tab)[*p]) { if (indirect) match = config_make_softc(parent, cf); else match = cf; (*fn)(parent, match); } } } } /* * Find the given root device. * This is much like config_search, but there is no parent. */ void * config_rootsearch(fn, rootname, aux) register cfmatch_t fn; register char *rootname; register void *aux; { register struct cfdata *cf; register short *p; struct matchinfo m; m.fn = fn; m.parent = ROOT; m.match = NULL; m.aux = aux; m.indirect = 0; m.pri = 0; /* * Look at root entries for matching name. We do not bother * with found-state here since only one root should ever be * searched (and it must be done first). */ for (p = cfroots; *p >= 0; p++) { cf = &cfdata[*p]; if (strcmp(cf->cf_driver->cd_name, rootname) == 0) mapply(&m, cf); } return (m.match); } static char *msgs[3] = { "", " not configured\n", " unsupported\n" }; /* * The given `aux' argument describes a device that has been found * on the given parent, but not necessarily configured. Locate the * configuration data for that device (using the submatch function * provided, or using candidates' cd_match configuration driver * functions) and attach it, and return true. If the device was * not configured, call the given `print' function and return 0. */ struct device * config_found_sm(parent, aux, print, submatch) struct device *parent; void *aux; cfprint_t print; cfmatch_t submatch; { void *match; if ((match = config_search(submatch, parent, aux)) != NULL) return (config_attach(parent, match, aux, print)); if (print) printf(msgs[(*print)(aux, parent->dv_xname)]); return (NULL); } /* * As above, but for root devices. */ struct device * config_rootfound(rootname, aux) char *rootname; void *aux; { void *match; if ((match = config_rootsearch((cfmatch_t)NULL, rootname, aux)) != NULL) return (config_attach(ROOT, match, aux, (cfprint_t)NULL)); printf("root device %s not configured\n", rootname); return (NULL); } /* just like sprintf(buf, "%d") except that it works from the end */ static char * number(ep, n) register char *ep; register int n; { *--ep = 0; while (n >= 10) { *--ep = (n % 10) + '0'; n /= 10; } *--ep = n + '0'; return (ep); } /* * Attach a found device. Allocates memory for device variables. */ struct device * config_attach(parent, match, aux, print) register struct device *parent; void *match; register void *aux; cfprint_t print; { register struct cfdata *cf; register struct device *dev; register struct cfdriver *cd; register struct cfattach *ca; struct cftable *t; if (parent && parent->dv_cfdata->cf_driver->cd_indirect) { dev = match; cf = dev->dv_cfdata; } else { cf = match; dev = config_make_softc(parent, cf); } cd = cf->cf_driver; ca = cf->cf_attach; cd->cd_devs[cf->cf_unit] = dev; if (cf->cf_fstate == FSTATE_STAR) cf->cf_unit++; else cf->cf_fstate = FSTATE_FOUND; TAILQ_INSERT_TAIL(&alldevs, dev, dv_list); if (parent == ROOT) printf("%s (root)", dev->dv_xname); else { printf("%s at %s", dev->dv_xname, parent->dv_xname); if (print) (void) (*print)(aux, (char *)0); } /* * Before attaching, clobber any unfound devices that are * otherwise identical, or bump the unit number on all starred * cfdata for this device. */ for (t = allcftables.tqh_first; t; t = t->list.tqe_next) { for (cf = t->tab; cf->cf_driver; cf++) if (cf->cf_driver == cd && cf->cf_unit == dev->dv_unit) { if (cf->cf_fstate == FSTATE_NOTFOUND) cf->cf_fstate = FSTATE_FOUND; if (cf->cf_fstate == FSTATE_STAR) cf->cf_unit++; } } #ifdef __alpha__ device_register(dev, aux); #endif (*ca->ca_attach)(parent, dev, aux); return (dev); } struct device * config_make_softc(parent, cf) struct device *parent; struct cfdata *cf; { register struct device *dev; register struct cfdriver *cd; register struct cfattach *ca; register size_t lname, lunit; register char *xunit; char num[10]; cd = cf->cf_driver; ca = cf->cf_attach; if (ca->ca_devsize < sizeof(struct device)) panic("config_make_softc"); /* compute length of name and decimal expansion of unit number */ lname = strlen(cd->cd_name); xunit = number(&num[sizeof num], cf->cf_unit); lunit = &num[sizeof num] - xunit; if (lname + lunit >= sizeof(dev->dv_xname)) panic("config_attach: device name too long"); /* get memory for all device vars */ dev = (struct device *)malloc(ca->ca_devsize, M_DEVBUF, M_NOWAIT); if (!dev) panic("config_attach: memory allocation for device softc failed"); bzero(dev, ca->ca_devsize); dev->dv_class = cd->cd_class; dev->dv_cfdata = cf; dev->dv_unit = cf->cf_unit; bcopy(cd->cd_name, dev->dv_xname, lname); bcopy(xunit, dev->dv_xname + lname, lunit); dev->dv_parent = parent; /* put this device in the devices array */ if (dev->dv_unit >= cd->cd_ndevs) { /* * Need to expand the array. */ int old = cd->cd_ndevs, new; void **nsp; if (old == 0) new = MINALLOCSIZE / sizeof(void *); else new = old * 2; while (new <= dev->dv_unit) new *= 2; cd->cd_ndevs = new; nsp = malloc(new * sizeof(void *), M_DEVBUF, M_NOWAIT); if (nsp == 0) panic("config_attach: %sing dev array", old != 0 ? "expand" : "creat"); bzero(nsp + old, (new - old) * sizeof(void *)); if (old != 0) { bcopy(cd->cd_devs, nsp, old * sizeof(void *)); free(cd->cd_devs, M_DEVBUF); } cd->cd_devs = nsp; } if (cd->cd_devs[dev->dv_unit]) panic("config_attach: duplicate %s", dev->dv_xname); return (dev); } /* * Attach an event. These must come from initially-zero space (see * commented-out assignments below), but that occurs naturally for * device instance variables. */ void evcnt_attach(dev, name, ev) struct device *dev; const char *name; struct evcnt *ev; { #ifdef DIAGNOSTIC if (strlen(name) >= sizeof(ev->ev_name)) panic("evcnt_attach"); #endif /* ev->ev_next = NULL; */ ev->ev_dev = dev; /* ev->ev_count = 0; */ strcpy(ev->ev_name, name); TAILQ_INSERT_TAIL(&allevents, ev, ev_list); } typedef int (*cond_predicate_t) __P((struct device*, void*)); static int haschild __P((struct device *)); static int detach_devices __P((cond_predicate_t, void *, config_detach_callback_t, void *)); static int haschild(dev) struct device *dev; { struct device *d; for (d = alldevs.tqh_first; d != NULL; d = d->dv_list.tqe_next) { if (d->dv_parent == dev) return(1); } return(0); } static int detach_devices(cond, condarg, callback, arg) cond_predicate_t cond; void *condarg; config_detach_callback_t callback; void *arg; { struct device *d; int alldone = 1; /* * XXX should use circleq and run around the list backwards * to allow for predicates to match children. */ d = alldevs.tqh_first; while (d != NULL) { if ((*cond)(d, condarg)) { struct cfdriver *drv = d->dv_cfdata->cf_driver; /* device not busy? */ /* driver's detach routine decides, upper layer (eg bus dependent code) is notified via callback */ #ifdef DEBUG printf("trying to detach device %s (%p)\n", d->dv_xname, d); #endif if (!haschild(d) && d->dv_cfdata->cf_attach->ca_detach && ((*(d->dv_cfdata->cf_attach->ca_detach))(d)) == 0) { int needit, i; struct device *help; if (callback) (*callback)(d, arg); /* remove reference in driver's devicelist */ if ((d->dv_unit >= drv->cd_ndevs) || (drv->cd_devs[d->dv_unit]!=d)) panic("bad unit in detach_devices"); drv->cd_devs[d->dv_unit] = NULL; /* driver is not needed anymore? */ needit = 0; for(i = 0; icd_ndevs; i++) if (drv->cd_devs[i]) needit = 1; if (!needit) { /* free devices array (alloc'd in config_make_softc) */ free(drv->cd_devs, M_DEVBUF); drv->cd_ndevs = 0; } /* remove entry in global device list */ help = d->dv_list.tqe_next; TAILQ_REMOVE(&alldevs, d, dv_list); #ifdef DEBUG printf("%s removed\n", d->dv_xname); #endif d->dv_cfdata->cf_fstate = FSTATE_NOTFOUND; /* free memory for dev data (alloc'd in config_make_softc) */ free(d, M_DEVBUF); d = help; continue; } else alldone = 0; } d = d->dv_list.tqe_next; } return(!alldone); } int dev_matches_cfdata __P((struct device *dev, void *)); int dev_matches_cfdata(dev, arg) struct device *dev; void *arg; { struct cfdata *cfdata = arg; return(/* device uses same driver ? */ (dev->dv_cfdata->cf_driver == cfdata->cf_driver) /* device instance described by this cfdata? */ && ((cfdata->cf_fstate == FSTATE_STAR) || ((cfdata->cf_fstate == FSTATE_FOUND) && (dev->dv_unit == cfdata->cf_unit))) ); } int config_detach(cf, callback, arg) struct cfdata *cf; config_detach_callback_t callback; void *arg; { return(detach_devices(dev_matches_cfdata, cf, callback, arg)); } int attach_loadable(parentname, parentunit, cftable) char *parentname; int parentunit; struct cftable *cftable; { int found = 0; struct device *d; TAILQ_INSERT_TAIL(&allcftables, cftable, list); for(d = alldevs.tqh_first; d != NULL; d = d->dv_list.tqe_next) { struct cfdriver *drv = d->dv_cfdata->cf_driver; if (strcmp(parentname, drv->cd_name) == NULL && (parentunit == -1 || parentunit == d->dv_unit)) { int s; s = splhigh(); /* ??? */ found |= (*d->dv_cfdata->cf_attach->ca_reprobe)(d, &(cftable->tab[0])); splx(s); } } if (!found) TAILQ_REMOVE(&allcftables, cftable, list); return(found); } static int devcf_intable __P((struct device *, void *)); static int devcf_intable(dev, arg) struct device *dev; void *arg; { struct cftable *tbl = arg; struct cfdata *cf; for(cf = tbl->tab; cf->cf_driver; cf++) { if (dev->dv_cfdata == cf) return(1); } return(0); } int detach_loadable(cftable) struct cftable *cftable; { if (!detach_devices(devcf_intable, cftable, 0, 0)) return(0); TAILQ_REMOVE(&allcftables, cftable, list); return(1); }