#include #include #include #include "usb.h" /* * epN.M -> N */ static int nameid(char *s) { char *r; char nm[20]; r = strrchr(s, 'p'); if(r == nil) return -1; strecpy(nm, nm+sizeof(nm), r+1); r = strchr(nm, '.'); if(r == nil) return -1; *r = 0; return atoi(nm); } Dev* openep(Dev *d, int id) { char *mode; /* How many modes? */ Ep *ep; Altc *ac; Dev *epd; Usbdev *ud; char name[40]; if(access("/dev/usb", AEXIST) < 0 && bind("#u", "/dev", MBEFORE) < 0) return nil; if(d->cfd < 0 || d->usb == nil){ werrstr("device not configured"); return nil; } ud = d->usb; if(id < 0 || id >= nelem(ud->ep) || ud->ep[id] == nil){ werrstr("bad enpoint number"); return nil; } ep = ud->ep[id]; mode = "rw"; if(ep->dir == Ein) mode = "r"; if(ep->dir == Eout) mode = "w"; snprint(name, sizeof(name), "/dev/usb/ep%d.%d", d->id, id); if(access(name, AEXIST) == 0){ dprint(2, "%s: %s already exists; trying to open\n", argv0, name); epd = opendev(name); if(epd != nil) epd->maxpkt = ep->maxpkt; /* guess */ return epd; } if(devctl(d, "new %d %d %s", id, ep->type, mode) < 0){ dprint(2, "%s: %s: new: %r\n", argv0, d->dir); return nil; } epd = opendev(name); if(epd == nil) return nil; epd->id = id; if(devctl(epd, "maxpkt %d", ep->maxpkt) < 0) fprint(2, "%s: %s: openep: maxpkt: %r\n", argv0, epd->dir); else dprint(2, "%s: %s: maxpkt %d\n", argv0, epd->dir, ep->maxpkt); epd->maxpkt = ep->maxpkt; ac = ep->iface->altc[0]; if(ep->ntds > 1 && devctl(epd, "ntds %d", ep->ntds) < 0) fprint(2, "%s: %s: openep: ntds: %r\n", argv0, epd->dir); else dprint(2, "%s: %s: ntds %d\n", argv0, epd->dir, ep->ntds); /* * For iso endpoints and high speed interrupt endpoints the pollival is * actually 2ⁿ and not n. * The kernel usb driver must take that into account. * It's simpler this way. */ if(ac != nil && (ep->type == Eintr || ep->type == Eiso) && ac->interval != 0) if(devctl(epd, "pollival %d", ac->interval) < 0) fprint(2, "%s: %s: openep: pollival: %r\n", argv0, epd->dir); return epd; } Dev* opendev(char *fn) { Dev *d; int l; if(access("/dev/usb", AEXIST) < 0 && bind("#u", "/dev", MBEFORE) < 0) return nil; d = emallocz(sizeof(Dev), 1); incref(d); l = strlen(fn); d->dfd = -1; /* * +30 to allocate extra size to concat "/" * we should probably remove that feature from the manual * and from the code after checking out that nobody relies on * that. */ d->dir = emallocz(l + 30, 0); strcpy(d->dir, fn); strcpy(d->dir+l, "/ctl"); d->cfd = open(d->dir, ORDWR|OCEXEC); d->dir[l] = 0; d->id = nameid(fn); if(d->cfd < 0){ werrstr("can't open endpoint %s: %r", d->dir); free(d->dir); free(d); return nil; } dprint(2, "%s: opendev %#p %s\n", argv0, d, fn); return d; } int opendevdata(Dev *d, int mode) { char buf[80]; /* more than enough for a usb path */ seprint(buf, buf+sizeof(buf), "%s/data", d->dir); d->dfd = open(buf, mode|OCEXEC); return d->dfd; } enum { /* * Max device conf is also limited by max control request size as * limited by Maxctllen in the kernel usb.h (both limits are arbitrary). */ Maxdevconf = 4 * 1024, /* asking for 16K kills Newsham's disk */ }; int loaddevconf(Dev *d, int n) { uchar *buf; int nr; int type; if(n >= nelem(d->usb->conf)){ werrstr("loaddevconf: bug: out of configurations in device"); fprint(2, "%s: %r\n", argv0); return -1; } buf = emallocz(Maxdevconf, 0); type = Rd2h|Rstd|Rdev; nr = usbcmd(d, type, Rgetdesc, Dconf<<8|n, 0, buf, Maxdevconf); if(nr < Dconflen){ free(buf); return -1; } if(d->usb->conf[n] == nil) d->usb->conf[n] = emallocz(sizeof(Conf), 1); nr = parseconf(d->usb, d->usb->conf[n], buf, nr); free(buf); return nr; } Ep* mkep(Usbdev *d, int id) { Ep *ep; d->ep[id] = ep = emallocz(sizeof(Ep), 1); ep->id = id; return ep; } static char* mkstr(uchar *b, int n) { Rune r; char *us; char *s; char *e; if(n <= 2 || (n & 1) != 0) return strdup("none"); n = (n - 2)/2; b += 2; us = s = emallocz(n*UTFmax+1, 0); e = s + n*UTFmax+1; for(; --n >= 0; b += 2){ r = GET2(b); s = seprint(s, e, "%C", r); } return us; } char* loaddevstr(Dev *d, int sid) { uchar buf[128]; int type; int nr; if(sid == 0) return estrdup("none"); type = Rd2h|Rstd|Rdev; nr=usbcmd(d, type, Rgetdesc, Dstr<<8|sid, 0, buf, sizeof(buf)); return mkstr(buf, nr); } int loaddevdesc(Dev *d) { uchar buf[Ddevlen+255]; int nr; int type; Ep *ep0; type = Rd2h|Rstd|Rdev; nr = sizeof(buf); memset(buf, 0, Ddevlen); if((nr=usbcmd(d, type, Rgetdesc, Ddev<<8|0, 0, buf, nr)) < 0) return -1; /* * Several hubs are returning descriptors of 17 bytes, not 18. * We accept them and leave number of configurations as zero. * (a get configuration descriptor also fails for them!) */ if(nr < Ddevlen){ print("%s: %s: warning: device with short descriptor\n", argv0, d->dir); if(nr < Ddevlen-1){ werrstr("short device descriptor (%d bytes)", nr); return -1; } } d->usb = emallocz(sizeof(Usbdev), 1); ep0 = mkep(d->usb, 0); ep0->dir = Eboth; ep0->type = Econtrol; ep0->maxpkt = d->maxpkt = 8; /* a default */ nr = parsedev(d, buf, nr); if(nr >= 0){ d->usb->vendor = loaddevstr(d, d->usb->vsid); if(strcmp(d->usb->vendor, "none") != 0){ d->usb->product = loaddevstr(d, d->usb->psid); d->usb->serial = loaddevstr(d, d->usb->ssid); } } return nr; } int configdev(Dev *d) { int i; if(d->dfd < 0) opendevdata(d, ORDWR); if(loaddevdesc(d) < 0) return -1; for(i = 0; i < d->usb->nconf; i++) if(loaddevconf(d, i) < 0) return -1; return 0; } static void closeconf(Conf *c) { int i; int a; if(c == nil) return; for(i = 0; i < nelem(c->iface); i++) if(c->iface[i] != nil){ for(a = 0; a < nelem(c->iface[i]->altc); a++) free(c->iface[i]->altc[a]); free(c->iface[i]); } free(c); } void closedev(Dev *d) { int i; Usbdev *ud; if(d==nil || decref(d) != 0) return; dprint(2, "%s: closedev %#p %s\n", argv0, d, d->dir); if(d->free != nil) d->free(d->aux); if(d->cfd >= 0) close(d->cfd); if(d->dfd >= 0) close(d->dfd); d->cfd = d->dfd = -1; free(d->dir); d->dir = nil; ud = d->usb; d->usb = nil; if(ud != nil){ free(ud->vendor); free(ud->product); free(ud->serial); for(i = 0; i < nelem(ud->ep); i++) free(ud->ep[i]); for(i = 0; i < nelem(ud->ddesc); i++) free(ud->ddesc[i]); for(i = 0; i < nelem(ud->conf); i++) closeconf(ud->conf[i]); free(ud); } free(d); } static char* reqstr(int type, int req) { char *s; static char* ds[] = { "dev", "if", "ep", "oth" }; static char buf[40]; if(type&Rd2h) s = seprint(buf, buf+sizeof(buf), "d2h"); else s = seprint(buf, buf+sizeof(buf), "h2d"); if(type&Rclass) s = seprint(s, buf+sizeof(buf), "|cls"); else if(type&Rvendor) s = seprint(s, buf+sizeof(buf), "|vnd"); else s = seprint(s, buf+sizeof(buf), "|std"); s = seprint(s, buf+sizeof(buf), "|%s", ds[type&3]); switch(req){ case Rgetstatus: s = seprint(s, buf+sizeof(buf), " getsts"); break; case Rclearfeature: s = seprint(s, buf+sizeof(buf), " clrfeat"); break; case Rsetfeature: s = seprint(s, buf+sizeof(buf), " setfeat"); break; case Rsetaddress: s = seprint(s, buf+sizeof(buf), " setaddr"); break; case Rgetdesc: s = seprint(s, buf+sizeof(buf), " getdesc"); break; case Rsetdesc: s = seprint(s, buf+sizeof(buf), " setdesc"); break; case Rgetconf: s = seprint(s, buf+sizeof(buf), " getcnf"); break; case Rsetconf: s = seprint(s, buf+sizeof(buf), " setcnf"); break; case Rgetiface: s = seprint(s, buf+sizeof(buf), " getif"); break; case Rsetiface: s = seprint(s, buf+sizeof(buf), " setif"); break; } USED(s); return buf; } static int cmdreq(Dev *d, int type, int req, int value, int index, uchar *data, int count) { int ndata, n; uchar *wp; uchar buf[8]; char *hd, *rs; assert(d != nil); if(data == nil){ wp = buf; ndata = 0; }else{ ndata = count; wp = emallocz(8+ndata, 0); } wp[0] = type; wp[1] = req; PUT2(wp+2, value); PUT2(wp+4, index); PUT2(wp+6, count); if(data != nil) memmove(wp+8, data, ndata); if(usbdebug>2){ hd = hexstr(wp, ndata+8); rs = reqstr(type, req); fprint(2, "%s: %s val %d|%d idx %d cnt %d out[%d] %s\n", d->dir, rs, value>>8, value&0xFF, index, count, ndata+8, hd); free(hd); } n = write(d->dfd, wp, 8+ndata); if(wp != buf) free(wp); if(n < 0) return -1; if(n != 8+ndata){ dprint(2, "%s: cmd: short write: %d\n", argv0, n); return -1; } return n; } static int cmdrep(Dev *d, void *buf, int nb) { char *hd; nb = read(d->dfd, buf, nb); if(nb >0 && usbdebug > 2){ hd = hexstr(buf, nb); fprint(2, "%s: in[%d] %s\n", d->dir, nb, hd); free(hd); } return nb; } int usbcmd(Dev *d, int type, int req, int value, int index, uchar *data, int count) { int i, r, nerr; char err[64]; /* * Some devices do not respond to commands some times. * Others even report errors but later work just fine. Retry. */ r = -1; *err = 0; for(i = nerr = 0; i < Uctries; i++){ if(type & Rd2h) r = cmdreq(d, type, req, value, index, nil, count); else r = cmdreq(d, type, req, value, index, data, count); if(r > 0){ if((type & Rd2h) == 0) break; r = cmdrep(d, data, count); if(r > 0) break; if(r == 0) werrstr("no data from device"); } nerr++; if(*err == 0) rerrstr(err, sizeof(err)); sleep(Ucdelay); } if(r > 0 && i >= 2) /* let the user know the device is not in good shape */ fprint(2, "%s: usbcmd: %s: required %d attempts (%s)\n", argv0, d->dir, i, err); return r; } int unstall(Dev *dev, Dev *ep, int dir) { int r; if(dir == Ein) dir = 0x80; else dir = 0; r = Rh2d|Rstd|Rep; if(usbcmd(dev, r, Rclearfeature, Fhalt, ep->id|dir, nil, 0)<0){ werrstr("unstall: %s: %r", ep->dir); return -1; } if(devctl(ep, "clrhalt") < 0){ werrstr("clrhalt: %s: %r", ep->dir); return -1; } return 0; } /* * To be sure it uses a single write. */ int devctl(Dev *dev, char *fmt, ...) { char buf[128]; va_list arg; char *e; va_start(arg, fmt); e = vseprint(buf, buf+sizeof(buf), fmt, arg); va_end(arg); return write(dev->cfd, buf, e-buf); }