ref: f7a16b5e2cc38aed7985b0144bb2655d14ea6f5a
dir: /sys/src/9/port/devflash.c/
/* * flash memory */ #include "u.h" #include "../port/lib.h" #include "mem.h" #include "dat.h" #include "fns.h" #include "../port/error.h" #include "../port/flashif.h" typedef struct Flashtype Flashtype; struct Flashtype { char* name; int (*reset)(Flash*); Flashtype* next; }; enum { Nbanks = 2, }; static struct { Flash* card[Nbanks]; /* actual card type, reset for access */ Flashtype* types; /* possible card types */ }flash; enum{ Qtopdir, Qflashdir, Qdata, Qctl, }; #define TYPE(q) ((ulong)(q) & 0xFF) #define PART(q) ((ulong)(q)>>8) #define QID(p,t) (((p)<<8) | (t)) static Flashregion* flashregion(Flash*, ulong); static char* flashnewpart(Flash*, char*, ulong, ulong); static ulong flashaddr(Flash*, Flashpart*, char*); static void protect(Flash*, ulong); static void eraseflash(Flash*, Flashregion*, ulong); static long readflash(Flash*, void*, long, int); static long writeflash(Flash*, long, void*,int); static char Eprotect[] = "flash region protected"; static int flash2gen(Chan *c, ulong p, Dir *dp) { Flashpart *fp; Flash *f; Qid q; int mode; f = flash.card[c->dev]; fp = &f->part[PART(p)]; if(fp->name == nil) return 0; mkqid(&q, p, 0, QTFILE); switch(TYPE(p)){ case Qdata: mode = 0660; if(f->write == nil) mode = 0440; devdir(c, q, fp->name, fp->end-fp->start, eve, mode, dp); return 1; case Qctl: snprint(up->genbuf, sizeof(up->genbuf), "%sctl", fp->name); devdir(c, q, up->genbuf, 0, eve, 0660, dp); return 1; default: return -1; } } static int flashgen(Chan *c, char*, Dirtab*, int, int s, Dir *dp) { Qid q; char *n; if(s == DEVDOTDOT){ mkqid(&q, QID(0, Qtopdir), 0, QTDIR); n = "#F"; if(c->dev != 0){ sprint(up->genbuf, "#F%ld", c->dev); n = up->genbuf; } devdir(c, q, n, 0, eve, 0555, dp); return 1; } switch(TYPE(c->qid.path)){ case Qtopdir: if(s != 0) break; mkqid(&q, QID(0, Qflashdir), 0, QTDIR); n = "flash"; if(c->dev != 0){ sprint(up->genbuf, "flash%ld", c->dev); n = up->genbuf; } devdir(c, q, n, 0, eve, 0555, dp); return 1; case Qflashdir: if(s >= 2*nelem(flash.card[c->dev]->part)) return -1; return flash2gen(c, QID(s>>1, s&1?Qctl:Qdata), dp); case Qctl: case Qdata: return flash2gen(c, (ulong)c->qid.path, dp); } return -1; } static void flashreset(void) { Flash *f; Flashtype *t; char *e; int bank; for(bank = 0; bank < Nbanks; bank++){ f = malloc(sizeof(*f)); if(f == nil){ print("#F%d: can't allocate Flash data\n", bank); return; } f->cmask = ~(ulong)0; if(archflashreset(bank, f) < 0 || f->type == nil || f->addr == nil){ free(f); return; } for(t = flash.types; t != nil; t = t->next) if(strcmp(f->type, t->name) == 0) break; if(t == nil){ iprint("#F%d: no flash driver for type %s (addr %p)\n", bank, f->type, f->addr); free(f); return; } f->reset = t->reset; f->protect = 1; if(f->reset(f) == 0){ flash.card[bank] = f; iprint("#F%d: %s addr %#p len %lud width %d interleave %d\n", // bank, f->type, PADDR(f->addr), f->size, bank, f->type, f->addr, f->size, f->width, f->interleave); e = flashnewpart(f, "flash", 0, f->size); if(e != nil) panic("#F%d: couldn't init table: %s", bank, e); }else iprint("#F%d: %#p: reset failed (%s)\n", bank, f->addr, f->type); } } static Chan* flashattach(char *spec) { Flash *f; Chan *c; ulong bank; bank = strtoul(spec, nil, 10); if(bank >= Nbanks || (f = flash.card[bank]) == nil || f->attach != nil && f->attach(f) < 0) error(Enodev); c = devattach('F', spec); c->dev = bank; return c; } static Walkqid* flashwalk(Chan *c, Chan *nc, char **name, int nname) { return devwalk(c, nc, name, nname, nil, 0, flashgen); } static int flashstat(Chan *c, uchar *dp, int n) { return devstat(c, dp, n, nil, 0, flashgen); } static Chan* flashopen(Chan *c, int omode) { omode = openmode(omode); switch(TYPE(c->qid.path)){ case Qdata: case Qctl: if(flash.card[c->dev] == nil) error(Enodev); break; } return devopen(c, omode, nil, 0, flashgen); } static void flashclose(Chan*) { } static long flashread(Chan *c, void *buf, long n, vlong offset) { Flash *f; Flashpart *fp; Flashregion *r; int i; ulong start, end; char *s, *o; if(c->qid.type & QTDIR) return devdirread(c, buf, n, nil, 0, flashgen); f = flash.card[c->dev]; fp = &f->part[PART(c->qid.path)]; if(fp->name == nil) error(Egreg); switch(TYPE(c->qid.path)){ case Qdata: offset += fp->start; if(offset >= fp->end) return 0; if(offset+n > fp->end) n = fp->end - offset; n = readflash(f, buf, offset, n); if(n < 0) error(Eio); return n; case Qctl: s = smalloc(READSTR); if(waserror()){ free(s); nexterror(); } o = seprint(s, s+READSTR, "%#2.2ux %#4.4ux %d %q\n", f->id, f->devid, f->width, f->sort!=nil? f->sort: "nor"); for(i=0; i<f->nr; i++){ r = &f->regions[i]; if(r->start < fp->end && fp->start < r->end){ start = r->start; if(fp->start > start) start = fp->start; end = r->end; if(fp->end < end) end = fp->end; o = seprint(o, s+READSTR, "%#8.8lux %#8.8lux %#8.8lux", start, end, r->erasesize); if(r->pagesize) o = seprint(o, s+READSTR, " %#8.8lux", r->pagesize); o = seprint(o, s+READSTR, "\n"); } } n = readstr(offset, buf, n, s); poperror(); free(s); return n; } error(Egreg); return 0; /* not reached */ } enum { CMerase, CMadd, CMremove, CMsync, CMprotectboot, }; static Cmdtab flashcmds[] = { {CMerase, "erase", 2}, {CMadd, "add", 0}, {CMremove, "remove", 2}, {CMsync, "sync", 0}, {CMprotectboot, "protectboot", 0}, }; static long flashwrite(Chan *c, void *buf, long n, vlong offset) { Cmdbuf *cb; Cmdtab *ct; ulong addr, start, end; char *e; Flashpart *fp; Flashregion *r; Flash *f; f = flash.card[c->dev]; fp = &f->part[PART(c->qid.path)]; if(fp->name == nil) error(Egreg); switch(TYPE(c->qid.path)){ case Qdata: if(f->write == nil) error(Eperm); offset += fp->start; if(offset >= fp->end) return 0; if(offset+n > fp->end) n = fp->end - offset; n = writeflash(f, offset, buf, n); if(n < 0) error(Eio); return n; case Qctl: cb = parsecmd(buf, n); if(waserror()){ free(cb); nexterror(); } ct = lookupcmd(cb, flashcmds, nelem(flashcmds)); switch(ct->index){ case CMerase: if(strcmp(cb->f[1], "all") != 0){ addr = flashaddr(f, fp, cb->f[1]); r = flashregion(f, addr); if(r == nil) error("nonexistent flash region"); if(addr%r->erasesize != 0) error("invalid erase block address"); eraseflash(f, r, addr); }else if(fp->start == 0 && fp->end == f->size && f->eraseall != nil){ eraseflash(f, nil, 0); }else{ for(addr = fp->start; addr < fp->end; addr += r->erasesize){ r = flashregion(f, addr); if(r == nil) error("nonexistent flash region"); if(addr%r->erasesize != 0) error("invalid erase block address"); eraseflash(f, r, addr); } } break; case CMadd: if(cb->nf < 3) error(Ebadarg); start = flashaddr(f, fp, cb->f[2]); if(cb->nf > 3 && strcmp(cb->f[3], "end") != 0) end = flashaddr(f, fp, cb->f[3]); else end = fp->end; if(start > end || start >= fp->end || end > fp->end) error(Ebadarg); e = flashnewpart(f, cb->f[1], start, end); if(e != nil) error(e); break; case CMremove: /* TO DO */ break; case CMprotectboot: if(cb->nf > 1 && strcmp(cb->f[1], "off") == 0) f->protect = 0; else f->protect = 1; break; case CMsync: /* TO DO? */ break; default: error(Ebadarg); } poperror(); free(cb); return n; } error(Egreg); return 0; /* not reached */ } static char* flashnewpart(Flash *f, char *name, ulong start, ulong end) { Flashpart *fp, *empty; int i; empty = nil; for(i = 0; i < nelem(f->part); i++){ fp = &f->part[i]; if(fp->name == nil){ if(empty == nil) empty = fp; }else if(strcmp(fp->name, name) == 0) return Eexist; } if((fp = empty) == nil) return "partition table full"; if(strlen(name)+3 >= sizeof(up->genbuf)) return Etoolong; kstrdup(&fp->name, name); if(fp->name == nil) return Enomem; fp->start = start; fp->end = end; return nil; } static ulong flashaddr(Flash *f, Flashpart *fp, char *s) { Flashregion *r; ulong addr; addr = strtoul(s, &s, 0); if(*s) error(Ebadarg); if(fp->name == nil) error("partition removed"); addr += fp->start; r = flashregion(f, addr); if(r != nil && addr%r->erasesize != 0) error("invalid erase unit address"); if(addr < fp->start || addr > fp->end || addr > f->size) error(Ebadarg); return addr; } static Flashregion* flashregion(Flash *f, ulong a) { int i; Flashregion *r; for(i=0; i<f->nr; i++){ r = &f->regions[i]; if(r->start <= a && a < r->end) return r; } return nil; } Dev flashdevtab = { 'F', "flash", flashreset, devinit, devshutdown, flashattach, flashwalk, flashstat, flashopen, devcreate, flashclose, flashread, devbread, flashwrite, devbwrite, devremove, devwstat, }; /* * called by flash card types named in link section (eg, flashamd.c) */ void addflashcard(char *name, int (*reset)(Flash*)) { Flashtype *f, **l; f = malloc(sizeof(*f)); if(f == nil){ print("addflashcard: no memory for Flashtype\n"); return; } f->name = name; f->reset = reset; f->next = nil; for(l = &flash.types; *l != nil; l = &(*l)->next) ; *l = f; } static long readflash(Flash *f, void *buf, long offset, int n) { int r, width, wmask; uchar tmp[16]; uchar *p; ulong o; if(offset < 0 || offset+n > f->size) error(Ebadarg); qlock(f); if(waserror()){ qunlock(f); nexterror(); } if(f->read != nil){ width = f->width; wmask = width-1; p = buf; if(offset & wmask) { o = offset & ~wmask; if(f->read(f, o, (ulong*)tmp, width) < 0) error(Eio); memmove(tmp, (uchar*)f->addr + o, width); for(; n > 0 && offset & wmask; n--) *p++ = tmp[offset++ & wmask]; } r = n & wmask; n &= ~wmask; if(n){ if(f->read(f, offset, (ulong*)p, n) < 0) error(Eio); offset += n; p += n; } if(r){ if(f->read(f, offset, (ulong*)tmp, width)) error(Eio); memmove(p, tmp, r); } }else /* assumes hardware supports byte access */ memmove(buf, (uchar*)f->addr+offset, n); poperror(); qunlock(f); return n; } static long writeflash(Flash *f, long offset, void *buf, int n) { uchar tmp[16]; uchar *p; ulong o; int r, width, wmask; Flashregion *rg; if(f->write == nil || offset < 0 || offset+n > f->size) error(Ebadarg); rg = flashregion(f, offset); if(f->protect && rg != nil && rg->start == 0 && offset < rg->erasesize) error(Eprotect); width = f->width; wmask = width-1; qlock(f); archflashwp(f, 0); if(waserror()){ archflashwp(f, 1); qunlock(f); nexterror(); } p = buf; if(offset&wmask){ o = offset & ~wmask; if(f->read != nil){ if(f->read(f, o, tmp, width) < 0) error(Eio); }else memmove(tmp, (uchar*)f->addr+o, width); for(; n > 0 && offset&wmask; n--) tmp[offset++&wmask] = *p++; if(f->write(f, o, tmp, width) < 0) error(Eio); } r = n&wmask; n &= ~wmask; if(n){ if(f->write(f, offset, p, n) < 0) error(Eio); offset += n; p += n; } if(r){ if(f->read != nil){ if(f->read(f, offset, tmp, width) < 0) error(Eio); }else memmove(tmp, (uchar*)f->addr+offset, width); memmove(tmp, p, r); if(f->write(f, offset, tmp, width) < 0) error(Eio); } poperror(); archflashwp(f, 1); qunlock(f); return n; } static void eraseflash(Flash *f, Flashregion *r, ulong addr) { int rv; if(f->protect && r != nil && r->start == 0 && addr < r->erasesize) error(Eprotect); qlock(f); archflashwp(f, 0); if(waserror()){ archflashwp(f, 1); qunlock(f); nexterror(); } if(r == nil){ if(f->eraseall != nil) rv = f->eraseall(f); else rv = -1; }else rv = f->erasezone(f, r, addr); if(rv < 0) error(Eio); poperror(); archflashwp(f, 1); qunlock(f); } /* * flash access taking width and interleave into account */ int flashget(Flash *f, ulong a) { switch(f->width){ default: return ((uchar*)f->addr)[a<<f->bshift]; case 2: return ((ushort*)f->addr)[a]; case 4: return ((ulong*)f->addr)[a]; } } void flashput(Flash *f, ulong a, int v) { switch(f->width){ default: ((uchar*)f->addr)[a<<f->bshift] = v; break; case 2: ((ushort*)f->addr)[a] = v; break; case 4: ((ulong*)f->addr)[a] = v; break; } coherence(); }