ref: b7af62b250e5dff30320a181ca9d53ab5a7c276d
dir: /os/port/devsd.c/
/* * Storage Device. */ #include "u.h" #include "../port/lib.h" #include "mem.h" #include "dat.h" #include "fns.h" #include "io.h" #include "ureg.h" #include "../port/error.h" #include "../port/sd.h" extern Dev sddevtab; extern SDifc* sdifc[]; typedef struct SDevgrp { SDev* dev; int nunits; /* num units in dev */ } SDevgrp; static SDevgrp* devs; /* all devices */ static QLock devslock; /* insertion and removal of devices */ static int ndevs; /* total number of devices in the system */ enum { Rawcmd, Rawdata, Rawstatus, }; enum { Qtopdir = 1, /* top level directory */ Qtopbase, Qtopctl = Qtopbase, Qtopstat, Qunitdir, /* directory per unit */ Qunitbase, Qctl = Qunitbase, Qraw, Qpart, TypeLOG = 4, NType = (1<<TypeLOG), TypeMASK = (NType-1), TypeSHIFT = 0, PartLOG = 8, NPart = (1<<PartLOG), PartMASK = (NPart-1), PartSHIFT = TypeLOG, UnitLOG = 8, NUnit = (1<<UnitLOG), UnitMASK = (NUnit-1), UnitSHIFT = (PartLOG+TypeLOG), DevLOG = 8, NDev = (1 << DevLOG), DevMASK = (NDev-1), DevSHIFT = (UnitLOG+PartLOG+TypeLOG), Ncmd = 20, }; #define TYPE(q) ((((ulong)(q).path)>>TypeSHIFT) & TypeMASK) #define PART(q) ((((ulong)(q).path)>>PartSHIFT) & PartMASK) #define UNIT(q) ((((ulong)(q).path)>>UnitSHIFT) & UnitMASK) #define DEV(q) ((((ulong)(q).path)>>DevSHIFT) & DevMASK) #define QID(d,u, p, t) (((d)<<DevSHIFT)|((u)<<UnitSHIFT)|\ ((p)<<PartSHIFT)|((t)<<TypeSHIFT)) static void sdaddpart(SDunit* unit, char* name, ulong start, ulong end) { SDpart *pp; int i, partno; /* * Check name not already used * and look for a free slot. */ if(unit->part != nil){ partno = -1; for(i = 0; i < unit->npart; i++){ pp = &unit->part[i]; if(!pp->valid){ if(partno == -1) partno = i; break; } if(strcmp(name, pp->name) == 0){ if(pp->start == start && pp->end == end) return; error(Ebadctl); } } } else{ if((unit->part = malloc(sizeof(SDpart)*SDnpart)) == nil) error(Enomem); unit->npart = SDnpart; partno = 0; } /* * If no free slot found then increase the * array size (can't get here with unit->part == nil). */ if(partno == -1){ if(unit->npart >= NPart) error(Enomem); if((pp = malloc(sizeof(SDpart)*(unit->npart+SDnpart))) == nil) error(Enomem); memmove(pp, unit->part, sizeof(SDpart)*unit->npart); free(unit->part); unit->part = pp; partno = unit->npart; unit->npart += SDnpart; } /* * Check size and extent are valid. */ if(start > end || end > unit->sectors) error(Eio); pp = &unit->part[partno]; pp->start = start; pp->end = end; kstrdup(&pp->name, name); kstrdup(&pp->user, eve); pp->perm = 0640; pp->valid = 1; } static void sddelpart(SDunit* unit, char* name) { int i; SDpart *pp; /* * Look for the partition to delete. * Can't delete if someone still has it open. */ pp = unit->part; for(i = 0; i < unit->npart; i++){ if(strcmp(name, pp->name) == 0) break; pp++; } if(i >= unit->npart) error(Ebadctl); if(strcmp(up->env->user, pp->user) && !iseve()) error(Eperm); pp->valid = 0; pp->vers++; } static int sdinitpart(SDunit* unit) { int i, nf; ulong start, end; char *f[4], *p, *q, buf[10]; unit->vers++; unit->sectors = unit->secsize = 0; if(unit->part){ for(i = 0; i < unit->npart; i++){ unit->part[i].valid = 0; unit->part[i].vers++; } } if(unit->inquiry[0] & 0xC0) return 0; switch(unit->inquiry[0] & 0x1F){ case 0x00: /* DA */ case 0x04: /* WORM */ case 0x05: /* CD-ROM */ case 0x07: /* MO */ break; default: return 0; } if(unit->dev->ifc->online) unit->dev->ifc->online(unit); if(unit->sectors){ sdaddpart(unit, "data", 0, unit->sectors); /* * Use partitions passed from boot program, * e.g. * sdC0part=dos 63 123123/plan9 123123 456456 * This happens before /boot sets hostname so the * partitions will have the null-string for user. * The gen functions patch it up. */ snprint(buf, sizeof buf, "%spart", unit->name); for(p = getconf(buf); p != nil; p = q){ if(q = strchr(p, '/')) *q++ = '\0'; nf = tokenize(p, f, nelem(f)); if(nf < 3) continue; start = strtoul(f[1], 0, 0); end = strtoul(f[2], 0, 0); if(!waserror()){ sdaddpart(unit, f[0], start, end); poperror(); } } } return 1; } static SDev* sdgetdev(int idno) { SDev *sdev; int i; qlock(&devslock); for(i = 0; i != ndevs; i++) if(devs[i].dev->idno == idno) break; if(i == ndevs) sdev = nil; else{ sdev = devs[i].dev; incref(&sdev->r); } qunlock(&devslock); return sdev; } static SDunit* sdgetunit(SDev* sdev, int subno) { SDunit *unit; char buf[32]; /* * Associate a unit with a given device and sub-unit * number on that device. * The device will be probed if it has not already been * successfully accessed. */ qlock(&sdev->unitlock); if(subno > sdev->nunit){ qunlock(&sdev->unitlock); return nil; } unit = sdev->unit[subno]; if(unit == nil){ /* * Probe the unit only once. This decision * may be a little severe and reviewed later. */ if(sdev->unitflg[subno]){ qunlock(&sdev->unitlock); return nil; } if((unit = malloc(sizeof(SDunit))) == nil){ qunlock(&sdev->unitlock); return nil; } sdev->unitflg[subno] = 1; snprint(buf, sizeof(buf), "%s%d", sdev->name, subno); kstrdup(&unit->name, buf); kstrdup(&unit->user, eve); unit->perm = 0555; unit->subno = subno; unit->dev = sdev; if(sdev->enabled == 0 && sdev->ifc->enable) sdev->ifc->enable(sdev); sdev->enabled = 1; /* * No need to lock anything here as this is only * called before the unit is made available in the * sdunit[] array. */ if(unit->dev->ifc->verify(unit) == 0){ qunlock(&sdev->unitlock); free(unit); return nil; } sdev->unit[subno] = unit; } qunlock(&sdev->unitlock); return unit; } static void sdreset(void) { int i; SDev *sdev, *tail, *sdlist; /* * Probe all configured controllers and make a list * of devices found, accumulating a possible maximum number * of units attached and marking each device with an index * into the linear top-level directory array of units. */ tail = sdlist = nil; for(i = 0; sdifc[i] != nil; i++){ if(sdifc[i]->pnp == nil || (sdev = sdifc[i]->pnp()) == nil) continue; if(sdlist != nil) tail->next = sdev; else sdlist = sdev; for(tail = sdev; tail->next != nil; tail = tail->next){ tail->unit = (SDunit**)malloc(tail->nunit * sizeof(SDunit*)); tail->unitflg = (int*)malloc(tail->nunit * sizeof(int)); assert(tail->unit && tail->unitflg); ndevs++; } tail->unit = (SDunit**)malloc(tail->nunit * sizeof(SDunit*)); tail->unitflg = (int*)malloc(tail->nunit * sizeof(int)); ndevs++; } /* * Legacy and option code goes here. This will be hard... */ /* * The maximum number of possible units is known, allocate * placeholders for their datastructures; the units will be * probed and structures allocated when attached. * Allocate controller names for the different types. */ if(ndevs == 0) return; for(i = 0; sdifc[i] != nil; i++){ /* * BUG: no check is made here or later when a * unit is attached that the id and name are set. */ if(sdifc[i]->id) sdifc[i]->id(sdlist); } /* * The IDs have been set, unlink the sdlist and copy the spec to * the devtab. */ devs = (SDevgrp*)malloc(ndevs * sizeof(SDevgrp)); memset(devs, 0, ndevs * sizeof(SDevgrp)); i = 0; while(sdlist != nil){ devs[i].dev = sdlist; devs[i].nunits = sdlist->nunit; sdlist = sdlist->next; devs[i].dev->next = nil; i++; } } static int sd2gen(Chan* c, int i, Dir* dp) { Qid q; vlong l; SDpart *pp; SDperm *perm; SDunit *unit; SDev *sdev; int rv; sdev = sdgetdev(DEV(c->qid)); assert(sdev); unit = sdev->unit[UNIT(c->qid)]; rv = -1; switch(i){ case Qctl: mkqid(&q, QID(DEV(c->qid), UNIT(c->qid), PART(c->qid), Qctl), unit->vers, QTFILE); perm = &unit->ctlperm; if(emptystr(perm->user)){ kstrdup(&perm->user, eve); perm->perm = 0640; } devdir(c, q, "ctl", 0, perm->user, perm->perm, dp); rv = 1; break; case Qraw: mkqid(&q, QID(DEV(c->qid), UNIT(c->qid), PART(c->qid), Qraw), unit->vers, QTFILE); perm = &unit->rawperm; if(emptystr(perm->user)){ kstrdup(&perm->user, eve); perm->perm = DMEXCL|0600; } devdir(c, q, "raw", 0, perm->user, perm->perm, dp); rv = 1; break; case Qpart: pp = &unit->part[PART(c->qid)]; l = (pp->end - pp->start) * (vlong)unit->secsize; mkqid(&q, QID(DEV(c->qid), UNIT(c->qid), PART(c->qid), Qpart), unit->vers+pp->vers, QTFILE); if(emptystr(pp->user)) kstrdup(&pp->user, eve); devdir(c, q, pp->name, l, pp->user, pp->perm, dp); rv = 1; break; } decref(&sdev->r); return rv; } static int sd1gen(Chan* c, int i, Dir* dp) { Qid q; switch(i){ case Qtopctl: mkqid(&q, QID(0, 0, 0, Qtopctl), 0, QTFILE); devdir(c, q, "sdctl", 0, eve, 0640, dp); return 1; case Qtopstat: mkqid(&q, QID(0, 0, 0, Qtopstat), 0, QTFILE); devdir(c, q, "sdstat", 0, eve, 0640, dp); return 1; } return -1; } static int sdgen(Chan* c, char*, Dirtab*, int, int s, Dir* dp) { Qid q; vlong l; int i, r; SDpart *pp; SDunit *unit; SDev *sdev; switch(TYPE(c->qid)){ case Qtopdir: if(s == DEVDOTDOT){ mkqid(&q, QID(0, 0, 0, Qtopdir), 0, QTDIR); sprint(up->genbuf, "#%C", sddevtab.dc); devdir(c, q, up->genbuf, 0, eve, 0555, dp); return 1; } if(s == 0 || s == 1) return sd1gen(c, s + Qtopbase, dp); s -= 2; qlock(&devslock); for(i = 0; i != ndevs; i++){ if(s < devs[i].nunits) break; s -= devs[i].nunits; } if(i == ndevs){ /* Run of the end of the list */ qunlock(&devslock); return -1; } if((sdev = devs[i].dev) == nil){ qunlock(&devslock); return 0; } incref(&sdev->r); qunlock(&devslock); if((unit = sdev->unit[s]) == nil) if((unit = sdgetunit(sdev, s)) == nil){ decref(&sdev->r); return 0; } mkqid(&q, QID(sdev->idno, s, 0, Qunitdir), 0, QTDIR); if(emptystr(unit->user)) kstrdup(&unit->user, eve); devdir(c, q, unit->name, 0, unit->user, unit->perm, dp); decref(&sdev->r); return 1; case Qunitdir: if(s == DEVDOTDOT){ mkqid(&q, QID(0, 0, 0, Qtopdir), 0, QTDIR); sprint(up->genbuf, "#%C", sddevtab.dc); devdir(c, q, up->genbuf, 0, eve, 0555, dp); return 1; } if((sdev = sdgetdev(DEV(c->qid))) == nil){ devdir(c, q, "unavailable", 0, eve, 0, dp); return 1; } unit = sdev->unit[UNIT(c->qid)]; qlock(&unit->ctl); /* * Check for media change. * If one has already been detected, sectors will be zero. * If there is one waiting to be detected, online * will return > 1. * Online is a bit of a large hammer but does the job. */ if(unit->sectors == 0 || (unit->dev->ifc->online && unit->dev->ifc->online(unit) > 1)) sdinitpart(unit); i = s+Qunitbase; if(i < Qpart){ r = sd2gen(c, i, dp); qunlock(&unit->ctl); decref(&sdev->r); return r; } i -= Qpart; if(unit->part == nil || i >= unit->npart){ qunlock(&unit->ctl); decref(&sdev->r); break; } pp = &unit->part[i]; if(!pp->valid){ qunlock(&unit->ctl); decref(&sdev->r); return 0; } l = (pp->end - pp->start) * (vlong)unit->secsize; mkqid(&q, QID(DEV(c->qid), UNIT(c->qid), i, Qpart), unit->vers+pp->vers, QTFILE); if(emptystr(pp->user)) kstrdup(&pp->user, eve); devdir(c, q, pp->name, l, pp->user, pp->perm, dp); qunlock(&unit->ctl); decref(&sdev->r); return 1; case Qraw: case Qctl: case Qpart: if((sdev = sdgetdev(DEV(c->qid))) == nil){ devdir(c, q, "unavailable", 0, eve, 0, dp); return 1; } unit = sdev->unit[UNIT(c->qid)]; qlock(&unit->ctl); r = sd2gen(c, TYPE(c->qid), dp); qunlock(&unit->ctl); decref(&sdev->r); return r; case Qtopctl: case Qtopstat: return sd1gen(c, TYPE(c->qid), dp); default: break; } return -1; } static Chan* sdattach(char* spec) { Chan *c; char *p; SDev *sdev; int idno, subno, i; if(ndevs == 0 || *spec == '\0'){ c = devattach(sddevtab.dc, spec); mkqid(&c->qid, QID(0, 0, 0, Qtopdir), 0, QTDIR); return c; } if(spec[0] != 's' || spec[1] != 'd') error(Ebadspec); idno = spec[2]; subno = strtol(&spec[3], &p, 0); if(p == &spec[3]) error(Ebadspec); qlock(&devslock); for (sdev = nil, i = 0; i != ndevs; i++) if((sdev = devs[i].dev) != nil && sdev->idno == idno) break; if(i == ndevs || subno >= sdev->nunit || sdgetunit(sdev, subno) == nil){ qunlock(&devslock); error(Enonexist); } incref(&sdev->r); qunlock(&devslock); c = devattach(sddevtab.dc, spec); mkqid(&c->qid, QID(sdev->idno, subno, 0, Qunitdir), 0, QTDIR); c->dev = (sdev->idno << UnitLOG) + subno; decref(&sdev->r); return c; } static Walkqid* sdwalk(Chan* c, Chan* nc, char** name, int nname) { return devwalk(c, nc, name, nname, nil, 0, sdgen); } static int sdstat(Chan* c, uchar* db, int n) { return devstat(c, db, n, nil, 0, sdgen); } static Chan* sdopen(Chan* c, int omode) { SDpart *pp; SDunit *unit; SDev *sdev; uchar tp; c = devopen(c, omode, 0, 0, sdgen); if((tp = TYPE(c->qid)) != Qctl && tp != Qraw && tp != Qpart) return c; sdev = sdgetdev(DEV(c->qid)); if(sdev == nil) error(Enonexist); unit = sdev->unit[UNIT(c->qid)]; switch(TYPE(c->qid)){ case Qctl: c->qid.vers = unit->vers; break; case Qraw: c->qid.vers = unit->vers; if(_tas(&unit->rawinuse) != 0){ c->flag &= ~COPEN; error(Einuse); } unit->state = Rawcmd; break; case Qpart: qlock(&unit->ctl); if(waserror()){ qunlock(&unit->ctl); c->flag &= ~COPEN; nexterror(); } pp = &unit->part[PART(c->qid)]; c->qid.vers = unit->vers+pp->vers; qunlock(&unit->ctl); poperror(); break; } decref(&sdev->r); return c; } static void sdclose(Chan* c) { SDunit *unit; SDev *sdev; if(c->qid.type & QTDIR) return; if(!(c->flag & COPEN)) return; switch(TYPE(c->qid)){ default: break; case Qraw: sdev = sdgetdev(DEV(c->qid)); if(sdev){ unit = sdev->unit[UNIT(c->qid)]; unit->rawinuse = 0; decref(&sdev->r); } break; } } static long sdbio(Chan* c, int write, char* a, long len, vlong off) { int nchange; long l; uchar *b; SDpart *pp; SDunit *unit; SDev *sdev; ulong bno, max, nb, offset; sdev = sdgetdev(DEV(c->qid)); if(sdev == nil) error(Enonexist); unit = sdev->unit[UNIT(c->qid)]; if(unit == nil) error(Enonexist); nchange = 0; qlock(&unit->ctl); while(waserror()){ /* notification of media change; go around again */ if(strcmp(up->env->errstr, Eio) == 0 && unit->sectors == 0 && nchange++ == 0){ sdinitpart(unit); continue; } /* other errors; give up */ qunlock(&unit->ctl); decref(&sdev->r); nexterror(); } pp = &unit->part[PART(c->qid)]; if(unit->vers+pp->vers != c->qid.vers) error(Eio); /* * Check the request is within bounds. * Removeable drives are locked throughout the I/O * in case the media changes unexpectedly. * Non-removeable drives are not locked during the I/O * to allow the hardware to optimise if it can; this is * a little fast and loose. * It's assumed that non-removeable media parameters * (sectors, secsize) can't change once the drive has * been brought online. */ bno = (off/unit->secsize) + pp->start; nb = ((off+len+unit->secsize-1)/unit->secsize) + pp->start - bno; max = SDmaxio/unit->secsize; if(nb > max) nb = max; if(bno+nb > pp->end) nb = pp->end - bno; if(bno >= pp->end || nb == 0){ if(write) error(Eio); qunlock(&unit->ctl); decref(&sdev->r); poperror(); return 0; } if(!(unit->inquiry[1] & 0x80)){ qunlock(&unit->ctl); poperror(); } b = sdmalloc(nb*unit->secsize); if(b == nil) error(Enomem); if(waserror()){ sdfree(b); if(!(unit->inquiry[1] & 0x80)) decref(&sdev->r); /* gadverdamme! */ nexterror(); } offset = off%unit->secsize; if(offset+len > nb*unit->secsize) len = nb*unit->secsize - offset; if(write){ if(offset || (len%unit->secsize)){ l = unit->dev->ifc->bio(unit, 0, 0, b, nb, bno); if(l < 0) error(Eio); if(l < (nb*unit->secsize)){ nb = l/unit->secsize; l = nb*unit->secsize - offset; if(len > l) len = l; } } memmove(b+offset, a, len); l = unit->dev->ifc->bio(unit, 0, 1, b, nb, bno); if(l < 0) error(Eio); if(l < offset) len = 0; else if(len > l - offset) len = l - offset; } else{ l = unit->dev->ifc->bio(unit, 0, 0, b, nb, bno); if(l < 0) error(Eio); if(l < offset) len = 0; else if(len > l - offset) len = l - offset; memmove(a, b+offset, len); } sdfree(b); poperror(); if(unit->inquiry[1] & 0x80){ qunlock(&unit->ctl); poperror(); } decref(&sdev->r); return len; } static long sdrio(SDreq* r, void* a, long n) { void *data; if(n >= SDmaxio || n < 0) error(Etoobig); data = nil; if(n){ if((data = sdmalloc(n)) == nil) error(Enomem); if(r->write) memmove(data, a, n); } r->data = data; r->dlen = n; if(waserror()){ if(data != nil){ sdfree(data); r->data = nil; } nexterror(); } if(r->unit->dev->ifc->rio(r) != SDok) error(Eio); if(!r->write && r->rlen > 0) memmove(a, data, r->rlen); if(data != nil){ sdfree(data); r->data = nil; } poperror(); return r->rlen; } static long sdread(Chan *c, void *a, long n, vlong off) { char *p, *e, *buf; SDpart *pp; SDunit *unit; SDev *sdev; ulong offset; int i, l, status; offset = off; switch(TYPE(c->qid)){ default: error(Eperm); case Qtopstat: p = buf = malloc(READSTR); assert(p); e = p + READSTR; qlock(&devslock); for(i = 0; i != ndevs; i++){ SDev *sdev = devs[i].dev; if(sdev->ifc->stat) p = sdev->ifc->stat(sdev, p, e); else p = seprint(e, "%s; no statistics available\n", sdev->name); } qunlock(&devslock); n = readstr(off, a, n, buf); free(buf); return n; case Qtopdir: case Qunitdir: return devdirread(c, a, n, 0, 0, sdgen); case Qctl: sdev = sdgetdev(DEV(c->qid)); if(sdev == nil) error(Enonexist); unit = sdev->unit[UNIT(c->qid)]; p = malloc(READSTR); l = snprint(p, READSTR, "inquiry %.48s\n", (char*)unit->inquiry+8); qlock(&unit->ctl); /* * If there's a device specific routine it must * provide all information pertaining to night geometry * and the garscadden trains. */ if(unit->dev->ifc->rctl) l += unit->dev->ifc->rctl(unit, p+l, READSTR-l); if(unit->sectors == 0) sdinitpart(unit); if(unit->sectors){ if(unit->dev->ifc->rctl == nil) l += snprint(p+l, READSTR-l, "geometry %ld %ld\n", unit->sectors, unit->secsize); pp = unit->part; for(i = 0; i < unit->npart; i++){ if(pp->valid) l += snprint(p+l, READSTR-l, "part %s %lud %lud\n", pp->name, pp->start, pp->end); pp++; } } qunlock(&unit->ctl); decref(&sdev->r); l = readstr(offset, a, n, p); free(p); return l; case Qraw: sdev = sdgetdev(DEV(c->qid)); if(sdev == nil) error(Enonexist); unit = sdev->unit[UNIT(c->qid)]; qlock(&unit->raw); if(waserror()){ qunlock(&unit->raw); decref(&sdev->r); nexterror(); } if(unit->state == Rawdata){ unit->state = Rawstatus; i = sdrio(unit->req, a, n); } else if(unit->state == Rawstatus){ status = unit->req->status; unit->state = Rawcmd; free(unit->req); unit->req = nil; i = readnum(0, a, n, status, NUMSIZE); } else i = 0; qunlock(&unit->raw); decref(&sdev->r); poperror(); return i; case Qpart: return sdbio(c, 0, a, n, off); } return 0; } typedef struct Confdata Confdata; struct Confdata { int on; char* spec; DevConf cf; }; static void parseswitch(Confdata* cd, char* option) { if(!strcmp("on", option)) cd->on = 1; else if(!strcmp("off", option)) cd->on = 0; else error(Ebadarg); } static void parsespec(Confdata* cd, char* option) { if(strlen(option) > 1) error(Ebadarg); cd->spec = option; } static Devport* getnewport(DevConf* dc) { Devport *p; p = (Devport *)malloc((dc->nports + 1) * sizeof(Devport)); if(dc->nports > 0){ memmove(p, dc->ports, dc->nports * sizeof(Devport)); free(dc->ports); } dc->ports = p; p = &dc->ports[dc->nports++]; p->size = -1; p->port = (ulong)-1; return p; } static void parseport(Confdata* cd, char* option) { char *e; Devport *p; if(cd->cf.nports == 0 || cd->cf.ports[cd->cf.nports-1].port != (ulong)-1) p = getnewport(&cd->cf); else p = &cd->cf.ports[cd->cf.nports-1]; p->port = strtol(option, &e, 0); if(e == nil || *e != '\0') error(Ebadarg); } static void parsesize(Confdata* cd, char* option) { char *e; Devport *p; if(cd->cf.nports == 0 || cd->cf.ports[cd->cf.nports-1].size != -1) p = getnewport(&cd->cf); else p = &cd->cf.ports[cd->cf.nports-1]; p->size = (int)strtol(option, &e, 0); if(e == nil || *e != '\0') error(Ebadarg); } static void parseirq(Confdata* cd, char* option) { char *e; cd->cf.intnum = strtoul(option, &e, 0); if(e == nil || *e != '\0') error(Ebadarg); } static void parsetype(Confdata* cd, char* option) { cd->cf.type = option; } static struct { char *option; void (*parse)(Confdata*, char*); } options[] = { { "switch", parseswitch, }, { "spec", parsespec, }, { "port", parseport, }, { "size", parsesize, }, { "irq", parseirq, }, { "type", parsetype, }, }; static long sdwrite(Chan* c, void* a, long n, vlong off) { Cmdbuf *cb; SDreq *req; SDunit *unit; SDev *sdev; ulong end, start; switch(TYPE(c->qid)){ default: error(Eperm); case Qtopctl: { Confdata cd; char buf[256], *field[Ncmd]; int nf, i, j; memset(&cd, 0, sizeof(Confdata)); if(n > sizeof(buf)-1) n = sizeof(buf)-1; memmove(buf, a, n); buf[n] = '\0'; cd.on = -1; cd.spec = '\0'; memset(&cd.cf, 0, sizeof(DevConf)); nf = tokenize(buf, field, Ncmd); for(i = 0; i < nf; i++){ char *opt = field[i++]; if(i >= nf) error(Ebadarg); for(j = 0; j != nelem(options); j++) if(!strcmp(opt, options[j].option)) break; if(j == nelem(options)) error(Ebadarg); options[j].parse(&cd, field[i]); } if(cd.on < 0) error(Ebadarg); if(cd.on){ if(cd.spec == '\0' || cd.cf.nports == 0 || cd.cf.intnum == 0 || cd.cf.type == nil) error(Ebadarg); } else{ if(cd.spec == '\0') error(Ebadarg); } if(sddevtab.config == nil) error("No configuration function"); sddevtab.config(cd.on, cd.spec, &cd.cf); break; } case Qctl: cb = parsecmd(a, n); sdev = sdgetdev(DEV(c->qid)); if(sdev == nil) error(Enonexist); unit = sdev->unit[UNIT(c->qid)]; qlock(&unit->ctl); if(waserror()){ qunlock(&unit->ctl); decref(&sdev->r); free(cb); nexterror(); } if(unit->vers != c->qid.vers) error(Eio); if(cb->nf < 1) error(Ebadctl); if(strcmp(cb->f[0], "part") == 0){ if(cb->nf != 4) error(Ebadctl); if(unit->sectors == 0 && !sdinitpart(unit)) error(Eio); start = strtoul(cb->f[2], 0, 0); end = strtoul(cb->f[3], 0, 0); sdaddpart(unit, cb->f[1], start, end); } else if(strcmp(cb->f[0], "delpart") == 0){ if(cb->nf != 2 || unit->part == nil) error(Ebadctl); sddelpart(unit, cb->f[1]); } else if(unit->dev->ifc->wctl) unit->dev->ifc->wctl(unit, cb); else error(Ebadctl); qunlock(&unit->ctl); decref(&sdev->r); poperror(); free(cb); break; case Qraw: sdev = sdgetdev(DEV(c->qid)); if(sdev == nil) error(Enonexist); unit = sdev->unit[UNIT(c->qid)]; qlock(&unit->raw); if(waserror()){ qunlock(&unit->raw); decref(&sdev->r); nexterror(); } switch(unit->state){ case Rawcmd: if(n < 6 || n > sizeof(req->cmd)) error(Ebadarg); if((req = malloc(sizeof(SDreq))) == nil) error(Enomem); req->unit = unit; memmove(req->cmd, a, n); req->clen = n; req->flags = SDnosense; req->status = ~0; unit->req = req; unit->state = Rawdata; break; case Rawstatus: unit->state = Rawcmd; free(unit->req); unit->req = nil; error(Ebadusefd); case Rawdata: if(unit->state != Rawdata) error(Ebadusefd); unit->state = Rawstatus; unit->req->write = 1; n = sdrio(unit->req, a, n); } qunlock(&unit->raw); decref(&sdev->r); poperror(); break; case Qpart: return sdbio(c, 1, a, n, off); } return n; } static int sdwstat(Chan* c, uchar* dp, int n) { Dir *d; SDpart *pp; SDperm *perm; SDunit *unit; SDev *sdev; if(c->qid.type & QTDIR) error(Eperm); sdev = sdgetdev(DEV(c->qid)); if(sdev == nil) error(Enonexist); unit = sdev->unit[UNIT(c->qid)]; qlock(&unit->ctl); d = nil; if(waserror()){ free(d); qunlock(&unit->ctl); decref(&sdev->r); nexterror(); } switch(TYPE(c->qid)){ default: error(Eperm); case Qctl: perm = &unit->ctlperm; break; case Qraw: perm = &unit->rawperm; break; case Qpart: pp = &unit->part[PART(c->qid)]; if(unit->vers+pp->vers != c->qid.vers) error(Enonexist); perm = &pp->SDperm; break; } if(strcmp(up->env->user, perm->user) && !iseve()) error(Eperm); d = smalloc(sizeof(Dir)+n); n = convM2D(dp, n, &d[0], (char*)&d[1]); if(n == 0) error(Eshortstat); if(!emptystr(d[0].uid)) kstrdup(&perm->user, d[0].uid); if(d[0].mode != ~0UL) perm->perm = (perm->perm & ~0777) | (d[0].mode & 0777); free(d); qunlock(&unit->ctl); decref(&sdev->r); poperror(); return n; } static char getspec(char base) { while(1){ int i; SDev *sdev; for(i = 0; i != ndevs; i++) if((sdev = devs[i].dev) != nil && (char)sdev->idno == base) break; if(i == ndevs) return base; base++; } return '\0'; } static int configure(char* spec, DevConf* cf) { ISAConf isa; SDevgrp *tmpdevs; SDev *tail, *sdev, *(*probe)(DevConf*); char *p, name[32]; int i, nnew; if((p = strchr(cf->type, '/')) != nil) *p++ = '\0'; for(i = 0; sdifc[i] != nil; i++) if(!strcmp(sdifc[i]->name, cf->type)) break; if(sdifc[i] == nil) error("type not found"); if((probe = sdifc[i]->probe) == nil) error("No probe function"); if(p){ /* Try to find the card on the ISA bus. This code really belongs in sdata and I'll move it later. Really! */ memset(&isa, 0, sizeof(isa)); isa.port = cf->ports[0].port; isa.irq = cf->intnum; if(pcmspecial(p, &isa) < 0) error("Cannot find controller"); } qlock(&devslock); if(waserror()){ qunlock(&devslock); nexterror(); } for(i = 0; i != ndevs; i++) if((sdev = devs[i].dev) != nil && sdev->idno == *spec) break; if(i != ndevs) error(Eexist); if((sdev = (*probe)(cf)) == nil) error("Cannot probe controller"); poperror(); nnew = 0; tail = sdev; while(tail){ nnew++; tail = tail->next; } tmpdevs = (SDevgrp*)malloc((ndevs + nnew) * sizeof(SDevgrp)); memmove(tmpdevs, devs, ndevs * sizeof(SDevgrp)); free(devs); devs = tmpdevs; while(sdev){ /* Assign `spec' to the device */ *spec = getspec(*spec); snprint(name, sizeof(name), "sd%c", *spec); kstrdup(&sdev->name, name); sdev->idno = *spec; sdev->unit = (SDunit **)malloc(sdev->nunit * sizeof(SDunit*)); sdev->unitflg = (int *)malloc(sdev->nunit * sizeof(int)); assert(sdev->unit && sdev->unitflg); devs[ndevs].dev = sdev; devs[ndevs].nunits = sdev->nunit; sdev = sdev->next; devs[ndevs].dev->next = nil; ndevs++; } qunlock(&devslock); return 0; } static int unconfigure(char* spec) { int i; SDev *sdev; qlock(&devslock); if(waserror()){ qunlock(&devslock); nexterror(); } sdev = nil; for(i = 0; i != ndevs; i++) if((sdev = devs[i].dev) != nil && sdev->idno == *spec) break; if(i == ndevs) error(Enonexist); if(sdev->r.ref) error(Einuse); /* make sure no interrupts arrive anymore before removing resources */ if(sdev->enabled && sdev->ifc->disable) sdev->ifc->disable(sdev); /* we're alone and the device tab is locked; make the device unavailable */ memmove(&devs[i], &devs[ndevs - 1], sizeof(SDevgrp)); memset(&devs[ndevs - 1], 0, sizeof(SDevgrp)); ndevs--; qunlock(&devslock); poperror(); for(i = 0; i != sdev->nunit; i++) if(sdev->unit[i]){ SDunit *unit = sdev->unit[i]; free(unit->name); free(unit->user); free(unit); } if(sdev->ifc->clear) sdev->ifc->clear(sdev); return 0; } static int sdconfig(int on, char* spec, DevConf* cf) { if(on) return configure(spec, cf); return unconfigure(spec); } Dev sddevtab = { 'S', "sd", sdreset, devinit, devshutdown, sdattach, sdwalk, sdstat, sdopen, devcreate, sdclose, sdread, devbread, sdwrite, devbwrite, devremove, sdwstat, devpower, sdconfig, };