ref: a98f911a178d3cc044d612e5ad96ee487bd887c8
dir: /sys/src/9/port/netif.c/
#include "u.h" #include "../port/lib.h" #include "mem.h" #include "dat.h" #include "fns.h" #include "../port/error.h" #include "../port/netif.h" static int netown(Netfile*, char*, int); static int openfile(Netif*, int); static char* matchtoken(char*, char*); static char* netmulti(Netif*, Netfile*, uchar*, int); static int parseaddr(uchar*, char*, int); /* * set up a new network interface */ void netifinit(Netif *nif, char *name, int nfile, ulong limit) { if(strlen(name) >= sizeof nif->name) panic("netifinit: name too long: %s", name); strcpy(nif->name, name); nif->nfile = nfile; nif->f = xalloc(nfile*sizeof(Netfile*)); if (nif->f == nil) panic("netifinit: no memory"); memset(nif->f, 0, nfile*sizeof(Netfile*)); nif->limit = limit; } /* * generate a 3 level directory */ static int netifgen(Chan *c, char*, Dirtab *vp, int, int i, Dir *dp) { Qid q; Netif *nif = (Netif*)vp; Netfile *f; int t; int perm; char *o; q.type = QTFILE; q.vers = 0; /* top level directory contains the name of the network */ if(c->qid.path == 0){ switch(i){ case DEVDOTDOT: q.path = 0; q.type = QTDIR; devdir(c, q, ".", 0, eve, 0555, dp); break; case 0: q.path = N2ndqid; q.type = QTDIR; strcpy(up->genbuf, nif->name); devdir(c, q, up->genbuf, 0, eve, 0555, dp); break; default: return -1; } return 1; } /* second level contains clone plus all the conversations */ t = NETTYPE(c->qid.path); if(t == N2ndqid || t == Ncloneqid || t == Naddrqid || t == Nstatqid || t == Nifstatqid){ switch(i) { case DEVDOTDOT: q.type = QTDIR; q.path = 0; devdir(c, q, ".", 0, eve, DMDIR|0555, dp); break; case 0: q.path = Ncloneqid; devdir(c, q, "clone", 0, eve, 0666, dp); break; case 1: q.path = Naddrqid; devdir(c, q, "addr", 0, eve, 0666, dp); break; case 2: q.path = Nstatqid; devdir(c, q, "stats", 0, eve, 0444, dp); break; case 3: q.path = Nifstatqid; devdir(c, q, "ifstats", 0, eve, 0444, dp); break; default: i -= 4; if(i >= nif->nfile) return -1; if(nif->f[i] == 0) return 0; q.type = QTDIR; q.path = NETQID(i, N3rdqid); snprint(up->genbuf, sizeof up->genbuf, "%d", i); devdir(c, q, up->genbuf, 0, eve, DMDIR|0555, dp); break; } return 1; } /* third level */ f = nif->f[NETID(c->qid.path)]; if(f == 0) return 0; if(*f->owner){ o = f->owner; perm = f->mode; } else { o = eve; perm = 0666; } switch(i){ case DEVDOTDOT: q.type = QTDIR; q.path = N2ndqid; strcpy(up->genbuf, nif->name); devdir(c, q, up->genbuf, 0, eve, DMDIR|0555, dp); break; case 0: q.path = NETQID(NETID(c->qid.path), Ndataqid); devdir(c, q, "data", 0, o, perm, dp); break; case 1: q.path = NETQID(NETID(c->qid.path), Nctlqid); devdir(c, q, "ctl", 0, o, perm, dp); break; case 2: q.path = Nstatqid; devdir(c, q, "stats", 0, eve, 0444, dp); break; case 3: q.path = NETQID(NETID(c->qid.path), Ntypeqid); devdir(c, q, "type", 0, eve, 0444, dp); break; case 4: q.path = Nifstatqid; devdir(c, q, "ifstats", 0, eve, 0444, dp); break; default: return -1; } return 1; } Walkqid* netifwalk(Netif *nif, Chan *c, Chan *nc, char **name, int nname) { return devwalk(c, nc, name, nname, (Dirtab *)nif, 0, netifgen); } Chan* netifopen(Netif *nif, Chan *c, int omode) { int id; Netfile *f; id = 0; if(c->qid.type & QTDIR){ if(omode != OREAD) error(Eperm); } else { switch(NETTYPE(c->qid.path)){ case Ndataqid: case Nctlqid: id = NETID(c->qid.path); openfile(nif, id); break; case Ncloneqid: id = openfile(nif, -1); c->qid.path = NETQID(id, Nctlqid); break; default: if(omode != OREAD) error(Ebadarg); } switch(NETTYPE(c->qid.path)){ case Ndataqid: case Nctlqid: f = nif->f[id]; if(netown(f, up->user, omode&7) < 0) error(Eperm); break; } } c->mode = openmode(omode); c->flag |= COPEN; c->offset = 0; c->iounit = qiomaxatomic; return c; } long netifread(Netif *nif, Chan *c, void *a, long n, ulong offset) { int i, j; Netfile *f; char *p; if(c->qid.type&QTDIR) return devdirread(c, a, n, (Dirtab*)nif, 0, netifgen); switch(NETTYPE(c->qid.path)){ case Ndataqid: f = nif->f[NETID(c->qid.path)]; return qread(f->in, a, n); case Nctlqid: return readnum(offset, a, n, NETID(c->qid.path), NUMSIZE); case Nstatqid: p = smalloc(READSTR); j = snprint(p, READSTR, "in: %llud\n", nif->inpackets); j += snprint(p+j, READSTR-j, "link: %d\n", nif->link); j += snprint(p+j, READSTR-j, "out: %llud\n", nif->outpackets); j += snprint(p+j, READSTR-j, "crc errs: %d\n", nif->crcs); j += snprint(p+j, READSTR-j, "overflows: %d\n", nif->overflows); j += snprint(p+j, READSTR-j, "soft overflows: %d\n", nif->soverflows); j += snprint(p+j, READSTR-j, "framing errs: %d\n", nif->frames); j += snprint(p+j, READSTR-j, "buffer errs: %d\n", nif->buffs); j += snprint(p+j, READSTR-j, "output errs: %d\n", nif->oerrs); j += snprint(p+j, READSTR-j, "prom: %d\n", nif->prom); j += snprint(p+j, READSTR-j, "mbps: %d\n", nif->mbps); j += snprint(p+j, READSTR-j, "addr: "); for(i = 0; i < nif->alen; i++) j += snprint(p+j, READSTR-j, "%2.2ux", nif->addr[i]); snprint(p+j, READSTR-j, "\n"); n = readstr(offset, a, n, p); free(p); return n; case Naddrqid: p = smalloc(READSTR); j = 0; for(i = 0; i < nif->alen; i++) j += snprint(p+j, READSTR-j, "%2.2ux", nif->addr[i]); n = readstr(offset, a, n, p); free(p); return n; case Ntypeqid: f = nif->f[NETID(c->qid.path)]; return readnum(offset, a, n, f->type, NUMSIZE); case Nifstatqid: return 0; } error(Ebadarg); return -1; /* not reached */ } Block* netifbread(Netif *nif, Chan *c, long n, ulong offset) { if((c->qid.type & QTDIR) || NETTYPE(c->qid.path) != Ndataqid) return devbread(c, n, offset); return qbread(nif->f[NETID(c->qid.path)]->in, n); } /* * make sure this type isn't already in use on this device */ static int typeinuse(Netif *nif, int type) { Netfile *f, **fp, **efp; if(type <= 0) return 0; efp = &nif->f[nif->nfile]; for(fp = nif->f; fp < efp; fp++){ f = *fp; if(f == 0) continue; if(f->type == type) return 1; } return 0; } /* * the devxxx.c that calls us handles writing data, it knows best */ long netifwrite(Netif *nif, Chan *c, void *a, long n) { Netfile *f; int type; char *p, buf[64]; uchar binaddr[Nmaxaddr]; if(NETTYPE(c->qid.path) != Nctlqid) error(Eperm); if(n >= sizeof(buf)) n = sizeof(buf)-1; memmove(buf, a, n); buf[n] = 0; if(waserror()){ qunlock(nif); nexterror(); } qlock(nif); f = nif->f[NETID(c->qid.path)]; if((p = matchtoken(buf, "connect")) != 0){ type = strtoul(p, 0, 0); if(typeinuse(nif, type)) error(Einuse); f->type = type; if(f->type < 0) nif->all++; } else if(matchtoken(buf, "promiscuous")){ if(f->prom == 0){ if(nif->prom == 0 && nif->promiscuous != nil) nif->promiscuous(nif->arg, 1); f->prom = 1; nif->prom++; } } else if((p = matchtoken(buf, "scanbs")) != 0){ /* scan for base stations */ if(f->scan == 0){ type = atoi(p); if(type < 5) type = 5; if(nif->scanbs != nil) nif->scanbs(nif->arg, type); f->scan = type; nif->scan++; } } else if(matchtoken(buf, "bridge")){ f->bridge = 1; } else if(matchtoken(buf, "headersonly")){ f->headersonly = 1; } else if((p = matchtoken(buf, "addmulti")) != 0){ if(parseaddr(binaddr, p, nif->alen) < 0) error("bad address"); p = netmulti(nif, f, binaddr, 1); if(p) error(p); } else if((p = matchtoken(buf, "remmulti")) != 0){ if(parseaddr(binaddr, p, nif->alen) < 0) error("bad address"); p = netmulti(nif, f, binaddr, 0); if(p) error(p); } else n = -1; qunlock(nif); poperror(); return n; } int netifwstat(Netif *nif, Chan *c, uchar *db, int n) { Dir *dir; Netfile *f; int m; f = nif->f[NETID(c->qid.path)]; if(f == 0) error(Enonexist); if(netown(f, up->user, OWRITE) < 0) error(Eperm); dir = smalloc(sizeof(Dir)+n); m = convM2D(db, n, &dir[0], (char*)&dir[1]); if(m == 0){ free(dir); error(Eshortstat); } if(!emptystr(dir[0].uid)){ strncpy(f->owner, dir[0].uid, KNAMELEN-1); f->owner[KNAMELEN-1] = 0; } if(dir[0].mode != ~0UL) f->mode = dir[0].mode; free(dir); return m; } int netifstat(Netif *nif, Chan *c, uchar *db, int n) { return devstat(c, db, n, (Dirtab *)nif, 0, netifgen); } void netifclose(Netif *nif, Chan *c) { Netfile *f; int t; Netaddr *ap; if((c->flag & COPEN) == 0) return; t = NETTYPE(c->qid.path); if(t != Ndataqid && t != Nctlqid) return; f = nif->f[NETID(c->qid.path)]; qlock(f); if(--(f->inuse) == 0){ if(f->prom){ qlock(nif); if(--(nif->prom) == 0 && nif->promiscuous != nil) nif->promiscuous(nif->arg, 0); qunlock(nif); f->prom = 0; } if(f->scan){ qlock(nif); if(--(nif->scan) == 0 && nif->scanbs != nil) nif->scanbs(nif->arg, 0); qunlock(nif); f->prom = 0; f->scan = 0; } if(f->nmaddr){ qlock(nif); t = 0; for(ap = nif->maddr; ap; ap = ap->next){ if(f->maddr[t/8] & (1<<(t%8))) netmulti(nif, f, ap->addr, 0); } qunlock(nif); f->nmaddr = 0; } if(f->type < 0){ qlock(nif); --(nif->all); qunlock(nif); } f->owner[0] = 0; f->type = 0; f->bridge = 0; f->headersonly = 0; qclose(f->in); } qunlock(f); } Lock netlock; static int netown(Netfile *p, char *o, int omode) { static int access[] = { 0400, 0200, 0600, 0100 }; int mode; int t; lock(&netlock); if(*p->owner){ if(strncmp(o, p->owner, KNAMELEN) == 0) /* User */ mode = p->mode; else if(strncmp(o, eve, KNAMELEN) == 0) /* Bootes is group */ mode = p->mode<<3; else mode = p->mode<<6; /* Other */ t = access[omode&3]; if((t & mode) == t){ unlock(&netlock); return 0; } else { unlock(&netlock); return -1; } } strncpy(p->owner, o, KNAMELEN-1); p->owner[KNAMELEN-1] = 0; p->mode = 0660; unlock(&netlock); return 0; } /* * Increment the reference count of a network device. * If id < 0, return an unused ether device. */ static int openfile(Netif *nif, int id) { Netfile *f, **fp, **efp; if(id >= 0){ f = nif->f[id]; if(f == 0) error(Enodev); qlock(f); qreopen(f->in); f->inuse++; qunlock(f); return id; } qlock(nif); if(waserror()){ qunlock(nif); nexterror(); } efp = &nif->f[nif->nfile]; for(fp = nif->f; fp < efp; fp++){ f = *fp; if(f == 0){ f = malloc(sizeof(Netfile)); if(f == 0) exhausted("memory"); f->in = qopen(nif->limit, Qmsg, 0, 0); if(f->in == nil){ free(f); exhausted("memory"); } *fp = f; qlock(f); } else { qlock(f); if(f->inuse){ qunlock(f); continue; } } f->inuse = 1; qreopen(f->in); netown(f, up->user, 0); qunlock(f); qunlock(nif); poperror(); return fp - nif->f; } error(Enodev); return -1; /* not reached */ } /* * look for a token starting a string, * return a pointer to first non-space char after it */ static char* matchtoken(char *p, char *token) { int n; n = strlen(token); if(strncmp(p, token, n)) return 0; p += n; if(*p == 0) return p; if(*p != ' ' && *p != '\t' && *p != '\n') return 0; while(*p == ' ' || *p == '\t' || *p == '\n') p++; return p; } void hnputv(void *p, uvlong v) { uchar *a; a = p; hnputl(a, v>>32); hnputl(a+4, v); } void hnputl(void *p, uint v) { uchar *a; a = p; a[0] = v>>24; a[1] = v>>16; a[2] = v>>8; a[3] = v; } void hnputs(void *p, ushort v) { uchar *a; a = p; a[0] = v>>8; a[1] = v; } uvlong nhgetv(void *p) { uchar *a; a = p; return ((vlong)nhgetl(a) << 32) | nhgetl(a+4); } uint nhgetl(void *p) { uchar *a; a = p; return (a[0]<<24)|(a[1]<<16)|(a[2]<<8)|(a[3]<<0); } ushort nhgets(void *p) { uchar *a; a = p; return (a[0]<<8)|(a[1]<<0); } static ulong hash(uchar *a, int len) { ulong sum = 0; while(len-- > 0) sum = (sum << 1) + *a++; return sum%Nmhash; } int activemulti(Netif *nif, uchar *addr, int alen) { Netaddr *hp; for(hp = nif->mhash[hash(addr, alen)]; hp; hp = hp->hnext) if(memcmp(addr, hp->addr, alen) == 0){ if(hp->ref) return 1; else break; } return 0; } static int parseaddr(uchar *to, char *from, int alen) { char nip[4]; char *p; int i; p = from; for(i = 0; i < alen; i++){ if(*p == 0) return -1; nip[0] = *p++; if(*p == 0) return -1; nip[1] = *p++; nip[2] = 0; to[i] = strtoul(nip, 0, 16); if(*p == ':') p++; } return 0; } /* * keep track of multicast addresses */ static char* netmulti(Netif *nif, Netfile *f, uchar *addr, int add) { Netaddr **l, *ap; int i; ulong h; if(nif->multicast == nil) return "interface does not support multicast"; l = &nif->maddr; i = 0; for(ap = *l; ap; ap = *l){ if(memcmp(addr, ap->addr, nif->alen) == 0) break; i++; l = &ap->next; } if(add){ if(ap == 0){ *l = ap = smalloc(sizeof(*ap)); memmove(ap->addr, addr, nif->alen); ap->next = 0; ap->ref = 1; h = hash(addr, nif->alen); ap->hnext = nif->mhash[h]; nif->mhash[h] = ap; } else { ap->ref++; } if(ap->ref == 1){ nif->nmaddr++; nif->multicast(nif->arg, addr, 1); } if(i < 8*sizeof(f->maddr)){ if((f->maddr[i/8] & (1<<(i%8))) == 0) f->nmaddr++; f->maddr[i/8] |= 1<<(i%8); } } else { if(ap == 0 || ap->ref == 0) return 0; ap->ref--; if(ap->ref == 0){ nif->nmaddr--; nif->multicast(nif->arg, addr, 0); } if(i < 8*sizeof(f->maddr)){ if((f->maddr[i/8] & (1<<(i%8))) != 0) f->nmaddr--; f->maddr[i/8] &= ~(1<<(i%8)); } } return 0; }