ref: 52cacba37c6f3a125ef931afa4b9c2cdb7438fef
dir: /sys/src/cmd/nusb/disk/disk.c/
/* * usb/disk - usb mass storage file server * * supports only the scsi command interface, not ata. */ #include <u.h> #include <libc.h> #include <ctype.h> #include <fcall.h> #include <thread.h> #include <9p.h> #include "scsireq.h" #include "usb.h" #include "ums.h" enum { Qdir = 0, Qctl, Qraw, Qdata, Qpart, Qmax = Maxparts, }; Dev *dev; Ums *ums; typedef struct Dirtab Dirtab; struct Dirtab { char *name; int mode; }; ulong ctlmode = 0664; /* * Partition management (adapted from disk/partfs) */ Part * lookpart(Umsc *lun, char *name) { Part *part, *p; part = lun->part; for(p=part; p < &part[Qmax]; p++){ if(p->inuse && strcmp(p->name, name) == 0) return p; } return nil; } Part * freepart(Umsc *lun) { Part *part, *p; part = lun->part; for(p=part; p < &part[Qmax]; p++){ if(!p->inuse) return p; } return nil; } int addpart(Umsc *lun, char *name, vlong start, vlong end, ulong mode) { Part *p; if(start < 0 || start > end || end > lun->blocks){ werrstr("bad partition boundaries"); return -1; } p = lookpart(lun, name); if(p != nil){ /* adding identical partition is no-op */ if(p->offset == start && p->length == end - start && p->mode == mode) return 0; werrstr("partition name already in use"); return -1; } p = freepart(lun); if(p == nil){ werrstr("no free partition slots"); return -1; } p->inuse = 1; free(p->name); p->id = p - lun->part; p->name = estrdup(name); p->offset = start; p->length = end - start; p->mode = mode; return 0; } int delpart(Umsc *lun, char *s) { Part *p; p = lookpart(lun, s); if(p == nil || p->id <= Qdata){ werrstr("partition not found"); return -1; } p->inuse = 0; free(p->name); p->name = nil; p->vers++; return 0; } void fixlength(Umsc *lun, vlong blocks) { Part *part, *p; part = lun->part; part[Qdata].length = blocks; for(p=&part[Qdata+1]; p < &part[Qmax]; p++){ if(p->inuse && p->offset + p->length > blocks){ if(p->offset > blocks){ p->offset =blocks; p->length = 0; }else p->length = blocks - p->offset; } } } void makeparts(Umsc *lun) { addpart(lun, "/", 0, 0, DMDIR | 0555); addpart(lun, "ctl", 0, 0, 0664); addpart(lun, "raw", 0, 0, 0640); addpart(lun, "data", 0, lun->blocks, 0640); } /* * ctl parsing & formatting (adapted from partfs) */ static char* ctlstring(Umsc *lun) { Part *p, *part; Fmt fmt; part = &lun->part[0]; fmtstrinit(&fmt); fmtprint(&fmt, "dev %s\n", dev->dir); fmtprint(&fmt, "lun %zd\n", lun - &ums->lun[0]); if(lun->flags & Finqok) fmtprint(&fmt, "inquiry %s\n", lun->inq); if(lun->blocks > 0) fmtprint(&fmt, "geometry %llud %ld\n", lun->blocks, lun->lbsize); for (p = &part[Qdata+1]; p < &part[Qmax]; p++) if (p->inuse) fmtprint(&fmt, "part %s %lld %lld\n", p->name, p->offset, p->offset + p->length); return fmtstrflush(&fmt); } static int ctlparse(Umsc *lun, char *msg) { vlong start, end; char *argv[16]; int argc; argc = tokenize(msg, argv, nelem(argv)); if(argc < 1){ werrstr("empty control message"); return -1; } if(strcmp(argv[0], "part") == 0){ if(argc != 4){ werrstr("part takes 3 args"); return -1; } start = strtoll(argv[2], 0, 0); end = strtoll(argv[3], 0, 0); return addpart(lun, argv[1], start, end, 0640); }else if(strcmp(argv[0], "delpart") == 0){ if(argc != 2){ werrstr("delpart takes 1 arg"); return -1; } return delpart(lun, argv[1]); } werrstr("unknown ctl"); return -1; } /* * These are used by scuzz scsireq */ int exabyte, force6bytecmds; int diskdebug; static void ding(void *, char *msg) { if(strstr(msg, "alarm") != nil) noted(NCONT); noted(NDFLT); } static int getmaxlun(void) { uchar max; int r; max = 0; r = Rd2h|Rclass|Riface; if(usbcmd(dev, r, Getmaxlun, 0, 0, &max, 1) < 0){ dprint(2, "disk: %s: getmaxlun failed: %r\n", dev->dir); }else{ max &= 017; /* 15 is the max. allowed */ dprint(2, "disk: %s: maxlun %d\n", dev->dir, max); } return max; } static int umsreset(void) { int r; r = Rh2d|Rclass|Riface; if(usbcmd(dev, r, Umsreset, 0, 0, nil, 0) < 0){ fprint(2, "disk: reset: %r\n"); return -1; } return 0; } static int umsrecover(void) { if(umsreset() < 0) return -1; if(unstall(dev, ums->epin, Ein) < 0) dprint(2, "disk: unstall epin: %r\n"); /* do we need this when epin == epout? */ if(unstall(dev, ums->epout, Eout) < 0) dprint(2, "disk: unstall epout: %r\n"); return 0; } static int ispow2(uvlong ul) { return (ul & (ul - 1)) == 0; } /* * return smallest power of 2 >= n */ static int log2(int n) { int i; for(i = 0; (1 << i) < n; i++) ; return i; } static int umscapacity(Umsc *lun) { uchar data[32]; lun->blocks = 0; lun->capacity = 0; lun->lbsize = 0; memset(data, 0, sizeof data); if(SRrcapacity(lun, data) < 0 && SRrcapacity(lun, data) < 0) return -1; lun->blocks = GETBELONG(data); lun->lbsize = GETBELONG(data+4); if(lun->blocks == 0xFFFFFFFF){ if(SRrcapacity16(lun, data) < 0){ lun->lbsize = 0; lun->blocks = 0; return -1; }else{ lun->lbsize = GETBELONG(data + 8); lun->blocks = (uvlong)GETBELONG(data)<<32 | GETBELONG(data + 4); } } lun->blocks++; /* SRcapacity returns LBA of last block */ lun->capacity = (vlong)lun->blocks * lun->lbsize; fixlength(lun, lun->blocks); if(diskdebug) fprint(2, "disk: logical block size %lud, # blocks %llud\n", lun->lbsize, lun->blocks); return 0; } static int umsinit(void) { uchar i; Umsc *lun; int some; umsreset(); ums->maxlun = getmaxlun(); ums->lun = mallocz((ums->maxlun+1) * sizeof(*ums->lun), 1); some = 0; for(i = 0; i <= ums->maxlun; i++){ lun = &ums->lun[i]; lun->ums = ums; lun->umsc = lun; lun->lun = i; lun->flags = Fopen | Fusb | Frw10; if(SRinquiry(lun) < 0 && SRinquiry(lun) < 0){ dprint(2, "disk: lun %d inquiry failed\n", i); continue; } switch(lun->inquiry[0]){ case Devdir: case Devworm: /* a little different than the others */ case Devcd: case Devmo: break; default: fprint(2, "disk: lun %d is not a disk (type %#02x)\n", i, lun->inquiry[0]); continue; } if(SRready(lun) < 0 && SRready(lun) < 0 && SRready(lun) < 0) dprint(2, "disk: lun %d not ready\n", i); if((lun->inquiry[0] & 0x1F) == 0){ SRstart(lun, 1); sleep(250); } /* * we ignore the device type reported by inquiry. * Some devices return a wrong value but would still work. */ some++; lun->inq = smprint("%.48s", (char *)lun->inquiry+8); umscapacity(lun); } if(some == 0){ dprint(2, "disk: all luns failed\n"); devctl(dev, "detach"); return -1; } return 0; } /* * called by SR*() commands provided by scuzz's scsireq */ long umsrequest(Umsc *umsc, ScsiPtr *cmd, ScsiPtr *data, int *status) { Cbw cbw; Csw csw; int n, nio, left; Ums *ums; ums = umsc->ums; memcpy(cbw.signature, "USBC", 4); cbw.tag = ++ums->seq; cbw.datalen = data->count; cbw.flags = data->write? CbwDataOut: CbwDataIn; cbw.lun = umsc->lun; if(cmd->count < 1 || cmd->count > 16) print("disk: umsrequest: bad cmd count: %ld\n", cmd->count); cbw.len = cmd->count; assert(cmd->count <= sizeof(cbw.command)); memcpy(cbw.command, cmd->p, cmd->count); memset(cbw.command + cmd->count, 0, sizeof(cbw.command) - cmd->count); werrstr(""); /* we use %r later even for n == 0 */ if(diskdebug){ fprint(2, "disk: cmd: tag %#lx: ", cbw.tag); for(n = 0; n < cbw.len; n++) fprint(2, " %2.2x", cbw.command[n]&0xFF); fprint(2, " datalen: %ld\n", cbw.datalen); } /* issue tunnelled scsi command */ if(write(ums->epout->dfd, &cbw, CbwLen) != CbwLen){ fprint(2, "disk: cmd: %r\n"); goto Fail; } /* transfer the data */ nio = data->count; if(nio != 0){ if(data->write) n = write(ums->epout->dfd, data->p, nio); else{ n = read(ums->epin->dfd, data->p, nio); left = nio - n; if (n >= 0 && left > 0) /* didn't fill data->p? */ memset(data->p + n, 0, left); } nio = n; if(diskdebug) if(n < 0) fprint(2, "disk: data: %r\n"); else fprint(2, "disk: data: %d bytes\n", n); if(n <= 0) if(data->write == 0) unstall(dev, ums->epin, Ein); } /* read the transfer's status */ n = read(ums->epin->dfd, &csw, CswLen); if(n <= 0){ /* n == 0 means "stalled" */ unstall(dev, ums->epin, Ein); n = read(ums->epin->dfd, &csw, CswLen); } if(n != CswLen || strncmp(csw.signature, "USBS", 4) != 0){ dprint(2, "disk: read n=%d: status: %r\n", n); goto Fail; } if(csw.tag != cbw.tag){ dprint(2, "disk: status tag mismatch\n"); goto Fail; } if(csw.status >= CswPhaseErr){ dprint(2, "disk: phase error\n"); goto Fail; } if(csw.dataresidue == 0 || ums->wrongresidues) csw.dataresidue = data->count - nio; if(diskdebug){ fprint(2, "disk: status: %2.2ux residue: %ld\n", csw.status, csw.dataresidue); if(cbw.command[0] == ScmdRsense){ fprint(2, "sense data:"); for(n = 0; n < data->count - csw.dataresidue; n++) fprint(2, " %2.2x", data->p[n]); fprint(2, "\n"); } } switch(csw.status){ case CswOk: *status = STok; break; case CswFailed: *status = STcheck; break; default: dprint(2, "disk: phase error\n"); goto Fail; } ums->nerrs = 0; return data->count - csw.dataresidue; Fail: *status = STharderr; if(ums->nerrs++ > 15) sysfatal("%s: too many errors", dev->dir); umsrecover(); return -1; } static void dattach(Req *req) { req->fid->qid = (Qid) {0, 0, QTDIR}; req->ofcall.qid = req->fid->qid; respond(req, nil); } static char * dwalk(Fid *fid, char *name, Qid *qid) { Umsc *lun; Part *p; if((fid->qid.type & QTDIR) == 0) return "walk in non-directory"; if(strcmp(name, "..") == 0){ fid->qid = (Qid){0, 0, QTDIR}; *qid = fid->qid; return nil; } if(fid->qid.path == 0){ for(lun = ums->lun; lun <= ums->lun + ums->maxlun; lun++) if(strcmp(lun->name, name) == 0){ fid->qid.path = (lun - ums->lun + 1) << 16; fid->qid.vers = 0; fid->qid.type = QTDIR; *qid = fid->qid; return nil; } return "does not exist"; } lun = ums->lun + (fid->qid.path >> 16) - 1; p = lookpart(lun, name); if(p == nil) return "does not exist"; fid->qid.path |= p->id; fid->qid.vers = p->vers; fid->qid.type = p->mode >> 24; *qid = fid->qid; return nil; } static void dostat(Umsc *lun, int path, Dir *d) { Part *p; p = &lun->part[path]; d->qid.path = path; d->qid.vers = p->vers; d->qid.type =p->mode >> 24; d->mode = p->mode; d->length = (vlong) p->length * lun->lbsize; d->name = strdup(p->name); d->uid = strdup(getuser()); d->gid = strdup(d->uid); d->muid = strdup(d->uid); } static int dirgen(int n, Dir* d, void *aux) { Umsc *lun; int i; lun = aux; for(i = Qctl; i < Qmax; i++){ if(lun->part[i].inuse == 0) continue; if(n-- == 0) break; } if(i == Qmax) return -1; dostat(lun, i, d); d->qid.path |= (lun - ums->lun) << 16; return 0; } static int rootgen(int n, Dir *d, void *) { Umsc *lun; if(n > ums->maxlun) return -1; lun = ums->lun + n; d->qid.path = (n + 1) << 16; d->qid.type = QTDIR; d->mode = 0555 | DMDIR; d->name = strdup(lun->name); d->uid = strdup(getuser()); d->gid = strdup(d->uid); d->muid = strdup(d->uid); return 0; } static void dstat(Req *req) { int path; Dir *d; Umsc *lun; d = &req->d; d->qid = req->fid->qid; if(req->fid->qid.path == 0){ d->name = strdup(""); d->mode = 0555 | DMDIR; d->uid = strdup(getuser()); d->gid = strdup(d->uid); d->muid = strdup(d->uid); }else{ path = req->fid->qid.path & 0xFFFF; lun = ums->lun + (req->fid->qid.path >> 16) - 1; dostat(lun, path, d); } respond(req, nil); } static void dopen(Req *req) { ulong path; Umsc *lun; if(req->ofcall.qid.path == 0){ respond(req, nil); return; } path = req->ofcall.qid.path & 0xFFFF; lun = ums->lun + (req->ofcall.qid.path >> 16) - 1; switch(path){ case Qraw: srvrelease(req->srv); qlock(lun); lun->phase = Pcmd; qunlock(lun); srvacquire(req->srv); break; } respond(req, nil); } /* * check i/o parameters and compute values needed later. * we shift & mask manually to avoid run-time calls to _divv and _modv, * since we don't need general division nor its cost. */ static int setup(Umsc *lun, Part *p, char *data, int count, vlong offset) { long nb, lbsize, lbshift, lbmask; uvlong bno; if(count < 0 || lun->lbsize <= 0 && umscapacity(lun) < 0 || lun->lbsize == 0) return -1; lbsize = lun->lbsize; assert(ispow2(lbsize)); lbshift = log2(lbsize); lbmask = lbsize - 1; bno = offset >> lbshift; /* offset / lbsize */ nb = ((offset + count + lbsize - 1) >> lbshift) - bno; if(bno + nb > p->length) /* past end of partition? */ nb = p->length - bno; if(nb * lbsize > Maxiosize) nb = Maxiosize / lbsize; lun->nb = nb; if(bno >= p->length || nb == 0) return 0; bno += p->offset; /* start of partition */ lun->offset = bno; lun->off = offset & lbmask; /* offset % lbsize */ if(lun->off == 0 && (count & lbmask) == 0) lun->bufp = data; else /* not transferring full, aligned blocks; need intermediary */ lun->bufp = lun->buf; return count; } /* * Upon SRread/SRwrite errors we assume the medium may have changed, * and ask again for the capacity of the media. * BUG: How to proceed to avoid confussing dossrv?? */ static void dread(Req *req) { long n; ulong path; char buf[64]; char *s; Part *p; Umsc *lun; Qid q; long count; void *data; vlong offset; Srv *srv; q = req->fid->qid; if(q.path == 0){ dirread9p(req, rootgen, nil); respond(req, nil); return; } path = q.path & 0xFFFF; lun = ums->lun + (q.path >> 16) - 1; count = req->ifcall.count; data = req->ofcall.data; offset = req->ifcall.offset; switch(path){ case Qdir: dirread9p(req, dirgen, lun); respond(req, nil); return; case Qctl: s = ctlstring(lun); readstr(req, s); free(s); respond(req, nil); return; } srv = req->srv; srvrelease(srv); qlock(lun); switch(path){ case Qraw: if(lun->lbsize <= 0 && umscapacity(lun) < 0){ respond(req, "phase error"); break; } switch(lun->phase){ case Pcmd: respond(req, "phase error"); break; case Pdata: lun->data.p = data; lun->data.count = count; lun->data.write = 0; count = umsrequest(lun,&lun->cmd,&lun->data,&lun->status); lun->phase = Pstatus; if(count < 0){ lun->lbsize = 0; /* medium may have changed */ responderror(req); }else{ req->ofcall.count = count; respond(req, nil); } break; case Pstatus: n = snprint(buf, sizeof buf, "%11.0ud ", lun->status); readbuf(req, buf, n); lun->phase = Pcmd; respond(req, nil); break; } break; case Qdata: default: p = &lun->part[path]; if(!p->inuse){ respond(req, "permission denied"); break; } count = setup(lun, p, data, count, offset); if (count <= 0){ responderror(req); break; } n = SRread(lun, lun->bufp, lun->nb * lun->lbsize); if(n < 0){ lun->lbsize = 0; /* medium may have changed */ responderror(req); break; } else if (lun->bufp == data) count = n; else{ /* * if n == lun->nb*lun->lbsize (as expected), * just copy count bytes. */ if(lun->off + count > n) count = n - lun->off; /* short read */ if(count > 0) memmove(data, lun->bufp + lun->off, count); } req->ofcall.count = count; respond(req, nil); break; } qunlock(lun); srvacquire(srv); } static void dwrite(Req *req) { long len, ocount; ulong path; uvlong bno; Part *p; Umsc *lun; char *s; long count; void *data; vlong offset; Srv *srv; lun = ums->lun + (req->fid->qid.path >> 16) - 1; path = req->fid->qid.path & 0xFFFF; count = req->ifcall.count; data = req->ifcall.data; offset = req->ifcall.offset; srv = req->srv; srvrelease(srv); qlock(lun); switch(path){ case Qctl: s = emallocz(count+1, 1); memmove(s, data, count); if(s[count-1] == '\n') s[count-1] = 0; if(ctlparse(lun, s) == -1) responderror(req); else{ req->ofcall.count = count; respond(req, nil); } free(s); break; case Qraw: if(lun->lbsize <= 0 && umscapacity(lun) < 0){ respond(req, "phase error"); break; } switch(lun->phase){ case Pcmd: if(count != 6 && count != 10 && count != 12 && count != 16){ respond(req, "bad command length"); break; } memmove(lun->rawcmd, data, count); lun->cmd.p = lun->rawcmd; lun->cmd.count = count; lun->cmd.write = 1; lun->phase = Pdata; req->ofcall.count = count; respond(req, nil); break; case Pdata: lun->data.p = data; lun->data.count = count; lun->data.write = 1; count = umsrequest(lun,&lun->cmd,&lun->data,&lun->status); lun->phase = Pstatus; if(count < 0){ lun->lbsize = 0; /* medium may have changed */ responderror(req); }else{ req->ofcall.count = count; respond(req, nil); } break; case Pstatus: lun->phase = Pcmd; respond(req, "phase error"); break; } break; case Qdata: default: p = &lun->part[path]; if(!p->inuse){ respond(req, "permission denied"); break; } len = ocount = count; count = setup(lun, p, data, count, offset); if (count <= 0){ responderror(req); break; } bno = lun->offset; if (lun->bufp == lun->buf) { count = SRread(lun, lun->bufp, lun->nb * lun->lbsize); if(count < 0) { lun->lbsize = 0; /* medium may have changed */ responderror(req); break; } /* * if count == lun->nb*lun->lbsize, as expected, just * copy len (the original count) bytes of user data. */ if(lun->off + len > count) len = count - lun->off; /* short read */ if(len > 0) memmove(lun->bufp + lun->off, data, len); } lun->offset = bno; count = SRwrite(lun, lun->bufp, lun->nb * lun->lbsize); if(count < 0){ lun->lbsize = 0; /* medium may have changed */ responderror(req); break; }else{ if(lun->off + len > count) count -= lun->off; /* short write */ /* never report more bytes written than requested */ if(count < 0) count = 0; else if(count > ocount) count = ocount; } req->ofcall.count = count; respond(req, nil); break; } qunlock(lun); srvacquire(srv); } int findendpoints(Ums *ums) { Ep *ep; Usbdev *ud; ulong csp, sc; int i, epin, epout; epin = epout = -1; ud = dev->usb; for(i = 0; i < nelem(ud->ep); i++){ if((ep = ud->ep[i]) == nil) continue; csp = ep->iface->csp; sc = Subclass(csp); if(!(Class(csp) == Clstorage && (Proto(csp) == Protobulk))) continue; if(sc != Subatapi && sc != Sub8070 && sc != Subscsi) fprint(2, "disk: subclass %#ulx not supported. trying anyway\n", sc); if(ep->type == Ebulk){ if(ep->dir == Eboth || ep->dir == Ein) if(epin == -1) epin = ep->id; if(ep->dir == Eboth || ep->dir == Eout) if(epout == -1) epout = ep->id; } } dprint(2, "disk: ep ids: in %d out %d\n", epin, epout); if(epin == -1 || epout == -1) return -1; ums->epin = openep(dev, epin); if(ums->epin == nil){ fprint(2, "disk: openep %d: %r\n", epin); return -1; } if(epout == epin){ incref(ums->epin); ums->epout = ums->epin; }else ums->epout = openep(dev, epout); if(ums->epout == nil){ fprint(2, "disk: openep %d: %r\n", epout); closedev(ums->epin); return -1; } if(ums->epin == ums->epout) opendevdata(ums->epin, ORDWR); else{ opendevdata(ums->epin, OREAD); opendevdata(ums->epout, OWRITE); } if(ums->epin->dfd < 0 || ums->epout->dfd < 0){ fprint(2, "disk: open i/o ep data: %r\n"); closedev(ums->epin); closedev(ums->epout); return -1; } dprint(2, "disk: ep in %s out %s\n", ums->epin->dir, ums->epout->dir); devctl(ums->epin, "timeout 2000"); devctl(ums->epout, "timeout 2000"); if(usbdebug > 1 || diskdebug > 2){ devctl(ums->epin, "debug 1"); devctl(ums->epout, "debug 1"); devctl(dev, "debug 1"); } return 0; } static void usage(void) { fprint(2, "usage: %s [-d] devid\n", argv0); exits("usage"); } static void umsdevfree(void *a) { Ums *ums = a; if(ums == nil) return; closedev(ums->epin); closedev(ums->epout); ums->epin = ums->epout = nil; free(ums->lun); free(ums); } /* * some devices like usb modems appear as mass storage * for windows driver installation. switch mode here * and exit if we detect one so the real driver can * attach it. */ static void notreallyums(Dev *dev) { /* HUAWEI E220 */ if(dev->usb->vid == 0x12d1 && dev->usb->did == 0x1003){ usbcmd(dev, Rh2d|Rstd|Rdev, Rsetfeature, Fdevremotewakeup, 0x02, nil, 0); exits("mode switch"); } } static Srv diskfs = { .attach = dattach, .walk1 = dwalk, .open = dopen, .read = dread, .write = dwrite, .stat = dstat, }; void main(int argc, char **argv) { Umsc *lun; int i; char buf[20]; ARGBEGIN{ case 'D': chatty9p++; break; case 'd': scsidebug(diskdebug); diskdebug++; break; default: usage(); }ARGEND if(argc != 1) usage(); dev = getdev(*argv); if(dev == nil) sysfatal("getdev: %r"); notreallyums(dev); ums = dev->aux = emallocz(sizeof(Ums), 1); ums->maxlun = -1; dev->free = umsdevfree; if(findendpoints(ums) < 0) sysfatal("endpoints not found"); /* * SanDISK 512M gets residues wrong. */ if(dev->usb->vid == 0x0781 && dev->usb->did == 0x5150) ums->wrongresidues = 1; if(umsinit() < 0) sysfatal("umsinit: %r\n"); for(i = 0; i <= ums->maxlun; i++){ lun = &ums->lun[i]; if(ums->maxlun > 0) snprint(lun->name, sizeof(lun->name), "sdU%s.%d", dev->hname, i); else snprint(lun->name, sizeof(lun->name), "sdU%s", dev->hname); makeparts(lun); } snprint(buf, sizeof buf, "%d.disk", dev->id); postsharesrv(&diskfs, nil, "usb", buf); exits(nil); }